attr_description[Lrat.AdditionalCoreNetwork,additionalCoreNetworkId] = The value component of the RDN.
attr_description[Lrat.AdditionalCoreNetwork,dnsSelectionS1Ref] = Controls DNS selection for S1 lookup for PLMNs in plmnList. If not set,<CR>DNS queries use DNS servers located in OAM network.<CR>It can be set to reference a DnsClient, and DNS queries are resolved using referenced DnsClient (typically using DNS server on transport network).<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect start(restart) duration<CR>Precondition: To enable this attribute DNS servers must support EDNS0.
attr_description[Lrat.AdditionalCoreNetwork,plmnList] = Lists PLMN IDs served by additional CN. Attribute is used to identify local S1 and X2 IP interfaces for an additional core network. Additional CN can contain up to 5 PLMNs other than primary PLMN.<CR>Dependencies: 1) Make each PLMN in plmnLists unique.<CR>2) Make each PLMN in plmnLists in each additionalCN unique.<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: Node restart<CR>MinLength=1 MaxLength=5
attr_description[Lrat.AdditionalCoreNetwork,reservedBy] = List of MO instances that reserve this MO instance.<CR>Dependencies: MO can not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.TermPointToMme[0-]
attr_description[Lrat.AdditionalCoreNetwork,sctpS1Ref] = Refers to the SCTP instance that is used to configure the SCTP host for S1 connections of the PLMNs in plmnList.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: Node restart
attr_description[Lrat.AdditionalCoreNetwork,upS1IpAddressRef] = Refers to the IpAccessHostEt or AddressIPv4/AddressIPv6 instance to use for configuring the IP address for S1 plane connections of the PLMNs in plmnList.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: Node restart
attr_description[Lrat.AdditionalCoreNetwork,upX2IpAddressRef] = Refers to the IpAccessHostEt or AddressIPv4/AddressIPv6 instance to use for configuring the IP address for X2 user plane connections of the PLMNs in plmnList.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: Node restart
attr_description[Lrat.AdmissionControl,admNrRbDifferentiationThr] = Highest allowed fraction of radio bearers not reserved for privileged access connections that might be admitted without ARP based differentiation. When fraction of active radio bearers versus available capacity exceeds this threshold, only bearer requests with high ARP priority are admitted. Other bearer requests may only be admitted if preemption is possible. The fraction is given with respect to the maximum capacity after privileged access resource reservation has been subtracted.<CR>Change takes effect: Cell lock/unlock<CR>Default=750<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.AdmissionControl,admNrRrcDifferentiationThr] = Highest allowed fraction of non-privileged RRC connections that might be admitted without ARP based differentiation. When fraction of RRC connected users versus available capacity exceeds this threshold, only RRC connections that setup bearers with high ARP priority are admitted. Other RRC connections may only be admitted if preemption is possible. The fraction is given with respect to the maximum capacity after privileged access resource reservation has been subtracted.<CR>Change takes effect: Cell lock/unlock<CR>Default=750<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.AdmissionControl,admResourceMinQciPrio] = Lowest QCI priority (highest numerical value) for DRBs included into monitoring of radio resources considered in GBR bearer admission control.<CR>For any value of this parameter, bearer admission control also takes into account resource usage from non-DRB traffic with higher priority than DRBs, e.g. Signaling Radio Bearers. If this parameter is set to 0, only the resource usage for traffic with priority higher than DRBs is monitored.<CR>Change takes effect: Cell lock/unlock<CR>Default=5<CR>Range: 0 to 14
attr_description[Lrat.AdmissionControl,admissionControlId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.AdmissionControl,arpBasedPreEmptionState] = Activates or deactivates the Allocation and Retention Priority (ARP) based pre-emption function.<CR>The value of the attribute is irrelevant when no valid license key is installed for the Differentiated Admission Control feature.<CR>Change takes effect: Cell lock/unlock<CR>Default=DEACTIVATED<CR>Range: 1,0
attr_description[Lrat.AdmissionControl,dlAdmDifferentiationThr] = If both Dynamic GBR Admission Control and Differentiated Admission Control are licensed and activated:<CR>Sets the highest allowed downlink radio resource utilization ratio for the GBR bearers with lower ARP priority in radio bearer admission. Applies to each resource considered by Dynamic GBR Admission Control.<CR>If Dynamic GBR Admission Control is licensed and activated but Differentiated Admission Control is not licensed or not activated:<CR>Sets the highest allowed downlink radio resource utilization ratio for the GBR bearers in radio bearer admission. Applies to each resource considered by Dynamic GBR Admission Control.<CR>Dependencies: dlAdmDifferentiationThr<=dlAdmOverloadThr<CR>Change takes effect: Cell lock/unlock<CR>Default=500<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.AdmissionControl,dlAdmOverloadThr] = Sets the highest allowed downlink radio resource utilization ratio for admission of a GBR radio bearer. Applies to each resource considered by Dynamic GBR Admission Control. Resource utilization is checked against this threshold for all new, re-established or incoming handover GBR bearer requests.<CR>Dependencies: dlAdmOverloadThr>=dlAdmDifferentiationThr<CR>Change takes effect: Cell lock/unlock<CR>Default=950<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.AdmissionControl,dlMbmsGbrRatio] = This parameter sets the wanted downlink resource utilization ratio of Mbms-Gbr bearers on transport network. The value given in this parameter specifies the Mbms-Gbr part of the total bandwidth. The parameter will be used by the Admission Control to balance Gbr, Mbms-Gbr and Non-Gbr use of resources.<CR>Unit: 0.001<CR>Dependencies: The downlink transport network bandwidth for LTE needs to be configured into attribute AdmissionControl::dlTransNwBandwidth.<CR>Change takes effect: Cell lock/unlock<CR>Default=200<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,dlTransNwBandwidth] = Downlink transport network bandwidth for LTE.<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000<CR>Unit: Mbps
attr_description[Lrat.AdmissionControl,lbAtoThresholdLevel1] = When the usage for a monitored system resource has exceeded this threshold then Admission-Triggered Offload (ATO) Level 1 is triggered.<CR>Dependencies: lbAtoThresholdLevel1=<lbAtoThresholdLevel2<min(ulAdmDifferentiationThr, dlAdmDifferentiationThr)<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=30<CR>Range: 0 to 100
attr_description[Lrat.AdmissionControl,lbAtoThresholdLevel2] = When the usage for a monitored system resource has exceeded this threshold then Admission-Triggered Offload (ATO) Level 2 is triggered.<CR>Dependencies: lbAtoThresholdLevel1=<lbAtoThresholdLevel2<min(ulAdmDifferentiationThr, dlAdmDifferentiationThr)<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=45<CR>Range: 0 to 100
attr_description[Lrat.AdmissionControl,nrOfPaConnReservationsPerCell] = Number of privileged access connections to be reserved per cell.<CR>Dependencies: Applicable only if resourceReservationForPAState is set to ACTIVATED.<CR>Change takes effect: Cell lock/unlock<CR>Default=1<CR>Range: 0 to 20
attr_description[Lrat.AdmissionControl,nrOfRbReservationsPerPaConn] = Number of Radio Bearers to be reserved per privileged access connection. This includes SRB1, SRB2 and DRBs.<CR>Dependencies: Applicable only if resourceReservationForPAState is set to ACTIVATED.<CR>Change takes effect: Cell lock/unlock<CR>Default=4<CR>Range: 0 to 10
attr_description[Lrat.AdmissionControl,paArpOverride] = The eNB interprets Allocation Retention Priority Levels, received from the Core Network, between 1 and paArpOverride (inclusive) as Privileged Access.<CR>The value zero will disable Privileged Access ARP override.<CR>Disturbances: Changing this attribute can impact accessibility at high load.<CR>Default=7<CR>Range: 0 to 15
attr_description[Lrat.AdmissionControl,resourceReservationForDifferentiation] = Sets the resource reservation used for ARP based differentiation. The value of this attribute is irrelevant when no valid license key is installed for the Differentiated Admission Control feature.<CR>Change takes effect: Cell lock/unlock<CR>Default=5<CR>Range: 0 to 30
attr_description[Lrat.AdmissionControl,resourceReservationForPAState] = Activates or deactivates the Resource Reservation for Priviliged Access.<CR>Disturbances: Changing this attribute can impact accessibility at high load.<CR>Change takes effect: Cell lock/unlock<CR>Default=DEACTIVATED<CR>Range: 1,0
attr_description[Lrat.AdmissionControl,ulAdmDifferentiationThr] = If both Dynamic GBR Admission Control and Differentiated Admission Control are licensed and activated:<CR>Sets the highest allowed uplink radio resource utilization ratio for the GBR bearers with lower ARP priority in radio bearer admission. Applies to each resource considered by Dynamic GBR Admission Control.<CR>If Dynamic GBR Admission Control is licensed and activated but Differentiated Admission Control is not licensed or not activated:<CR>Sets the highest allowed uplink radio resource utilization ratio for the GBR bearers in radio bearer admission. Applies to each resource considered by Dynamic GBR Admission Control.<CR>Dependencies: ulAdmDifferentiationThr<=ulAdmOverloadThr<CR>Change takes effect: Cell lock/unlock<CR>Default=500<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.AdmissionControl,ulAdmOverloadThr] = Sets the highest allowed uplink radio resource utilization ratio for admission of a GBR radio bearer. Applies to each resource considered by Dynamic GBR Admission Control. Resource utilization is checked against this threshold for all new, re-established or incoming handover GBR bearer requests.<CR>Dependencies: ulAdmOverloadThr>=ulAdmDifferentiationThr<CR>Change takes effect: Cell lock/unlock<CR>Default=950<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.AdmissionControl,ulTransNwBandwidth] = Uplink transport network bandwidth for LTE.<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000<CR>Unit: Mbps
attr_description[Lrat.AdmissionControl,zzzTemp10] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp11] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp12] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp13] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp14] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp15] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp16] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp17] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp18] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp19] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 1<CR>Change takes effect: Cell lock/unlock<CR>Default=-1<CR>Range: -1 to 10000
attr_description[Lrat.AdmissionControl,zzzTemp20] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp21] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 1<CR>Change takes effect: Cell lock/unlock<CR>Default=-1<CR>Range: -1 to 10000
attr_description[Lrat.AdmissionControl,zzzTemp3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 1<CR>Change takes effect: Cell lock/unlock<CR>Default=-1<CR>Range: -1 to 20000
attr_description[Lrat.AdmissionControl,zzzTemp4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 1<CR>Change takes effect: Cell lock/unlock<CR>Default=-1<CR>Range: -1 to 20000
attr_description[Lrat.AdmissionControl,zzzTemp5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 1<CR>Change takes effect: Cell lock/unlock<CR>Default=-1<CR>Range: -1 to 20000
attr_description[Lrat.AdmissionControl,zzzTemp6] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp7] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp8] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemp9] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Unit: 0.001<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000
attr_description[Lrat.AdmissionControl,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AdmissionControl,zzzTemporary22] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AdmissionControl,zzzTemporary23] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AdmissionControl,zzzTemporary24] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AdmissionControl,zzzTemporary25] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AdmissionControl,zzzTemporary26] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AdmissionControl,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AdmissionControl,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AdmissionControl,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AdmissionControl,zzzTemporary5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AdmissionControl,zzzTemporary6] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AdmissionControl,zzzTemporary7] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AirIfLoadProfile,ailgChangePeriod] = The pattern for generated artificial load changes periodically after each  ailgChangePeriod. The period applies to both PDSCH and PDCCH artificial load.<CR>Within each period the same load pattern in terms of positions of PDSCH PRBs and/or PDCCH CCEs within the available bandwidth is used.<CR>Change takes effect: Feature start<CR>Default=1<CR>Range: 1,5,10<CR>Unit: ms
attr_description[Lrat.AirIfLoadProfile,ailgHighPrio] = The method used to generate high priority artificial load.<CR>Change takes effect: Feature start<CR>Default=NO_HIGH_PRIO_LOAD<CR>Range: 0,1,2
attr_description[Lrat.AirIfLoadProfile,ailgLoadType] = Decides the type of load to be generated by means of different combinations of PDSCH load, Beam Forming (BF) and PDCCH load.<CR>Change takes effect: Feature start<CR>Default=PDSCH_NO_BF<CR>Range: 0,1,2,3,4,5,6
attr_description[Lrat.AirIfLoadProfile,ailgLowPrioModType] = Supported modulation type for lower priority artificial load.<CR>Change takes effect: Feature start<CR>Default=QPSK_MOD_SCH<CR>Range: 0,1,2
attr_description[Lrat.AirIfLoadProfile,airIfLoadProfileId] = The value component of the (Relative Distinguished Name) RDN
attr_description[Lrat.AirIfLoadProfile,dlPrbLoadLevel] = Minimal load level associated with downlink Physical Resource Block (PRB) use.<CR>If the sum of higher priority artificial load defined according to ailgHighPrio and real UE is below this level, lower priority artificial load is generated to reach the minimal load level.<CR>0 means that no minimal load level is defined<CR>Change takes effect: Feature start<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.AirIfLoadProfile,minLoadLevelPdcch] = Minimum load level for PDCCH in terms of utilization of the available Control Channel Elements (CCE). If the PDCCH load from real UE is below this level, lower priority artificial load is generated to reach this minimum load level.<CR>The value "0" means that no minimum load level is defined.<CR>Change takes effect: Feature start<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.AirIfLoadProfile,noOfOcngPrbSeries] = The number of series (where each series is defined in ocngPrbSerie) to be allocated for the OFDMA Channel Noise Generator (OCNG) pattern, as defined in 3GPP TS 36.133.<CR>Dependencies: Valid if ailgHighPrio = OCNG<CR>Change takes effect: Feature start<CR>Default=1<CR>Range: 1 to 10
attr_description[Lrat.AirIfLoadProfile,ocngPrbSerie] = Contains the attributes required to configure the OFDMA Channel Noise Generator (OCNG) Frequency Division Duplex (FDD) pattern to use for filling the Physical Resource Blocks (PRBs), according to 3GPP TS 36.133.<CR>Dependencies: Valid if ailgHighPrio = OCNG<CR>Change takes effect: Feature start<CR>MinLength=0 MaxLength=10
attr_description[Lrat.AirIfLoadProfile,reservedBy] = Contains a list of managed object instances that reserves this managed object instance.<CR>Dependencies: The MO may not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-]
attr_description[Lrat.AirIfLoadProfile,trafficModelPrb] = Contains the attributes required to configure a traffic model pattern to  use for filling the Physical Resource Blocks (PRBs).<CR>Dependencies: Valid if ailgHighPrio = TRAFFIC_MODEL<CR>Change takes effect: Feature start
attr_description[Lrat.AirIfLoadProfile,userLabel] = Label for free use<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.AirIfLoadProfile,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AirIfLoadProfile,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AirIfLoadProfile,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AirIfLoadProfile,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AirIfLoadProfile,zzzTemporary5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AirIfLoadProfile,zzzTemporary6] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AirIfLoadProfile,zzzTemporary7] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AirIfLoadProfile,zzzTemporary8] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AirIfLoadProfile,zzzTemporary9] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AmoFunction,amoAllowedInterVendor] = Whether or not AMO function is allowed for inter-vendor cell relations.<CR>Default=true
attr_description[Lrat.AmoFunction,amoFunctionId] = The value component of the RDN.
attr_description[Lrat.AnrFunction,anrFunctionId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.AnrFunction,cellRelHoAttRateThreshold] = The ANR criteria to add or remove MO neighbor relation. A candidate neighbor relation is internally evaluated before creation as MO if the daily HO attempt rate exceeds the threshold. If the value is set to 0, MO cell relations must be immediately created regardless of the HO attempt rate. The condition to remove a relation from the MOM also depends on the attribute removeNrelTime.<CR>Default=0<CR>Range: 0 to 200
attr_description[Lrat.AnrFunction,maxNoPciReportsEvent] = Defines a maximal value of reports that any UE has to provide the ANR function with on event based measurements, that is used to measure on EUtran neighbors.<CR>Special Value: 0 means infinity.<CR>Default=15<CR>Range: 0 to 100<CR>Unit: number of messages
attr_description[Lrat.AnrFunction,maxNoPciReportsInact] = Defines a maximal value of reports that any UE has to provide the ANR function with based on periodical PCI measurements, that is used to measure on Utran and Geran neighbors.<CR>Special Value: 0 means infinity.<CR>Status Information: Since L16A. Replaced by attribute maxNoMeasReportsInact on UeMeasControl. Planned to be removed.<CR>Default=30<CR>Range: 0 to 100<CR>Unit: number of messages
attr_description[Lrat.AnrFunction,maxTimeEventBasedPciConf] = Defines a maximal time that any UE has to assist ANR function with event based measurements, that is used to measure on EUtran neighbors.<CR>Special Value: 0 means infinity.<CR>Default=30<CR>Range: 0 to 1440<CR>Unit: minutes
attr_description[Lrat.AnrFunction,noOfTimesToCheckRel] = This parameter defines the number of times that a suspected neighbor relation (if there are more than one cell with the same PCI), shall be checked using CGI reports.<CR>Default=5<CR>Range: 0 to 100<CR>Unit: Number of checks
attr_description[Lrat.AnrFunction,pciConflictDetectionEcgiMeas] = Controls if ECGI measurements are requested in order to detect PCI conflicts.<CR>Default=false
attr_description[Lrat.AnrFunction,pciConflictMobilityEcgiMeas] = Controls if ECGI measurements are requested prior to hand over, in case a PCI conflict is detected.<CR>Default=false
attr_description[Lrat.AnrFunction,perEcgiMeasPlmnWhiteList] = Turns periodic ECGI measurements for ANR Whitelist PLMN IDs on or off.<CR>Default=true
attr_description[Lrat.AnrFunction,plmnWhiteListEnabled] = If true, ANR Whitelist PLMN ID is enabled.<CR>Change takes effect: Ongoing connection<CR>Default=false
attr_description[Lrat.AnrFunction,prioHoRate] = Defines the weight of "handover rate" when determining the relation priority. The priority is used when deciding which relation to remove, when too many relations have been added. The priority is also used when determining which UTRAN cell to perform mobility measurements for.<CR>Default=100<CR>Range: 0 to 100
attr_description[Lrat.AnrFunction,prioHoSuccRate] = Defines the weight of "handover success rate" when determining the relation priority. The priority is used when deciding which relation to remove, when too many relations have been added. The priority is also used when determining which UTRAN cell to perform mobility measurements for.<CR>Default=100<CR>Range: 0 to 100
attr_description[Lrat.AnrFunction,prioTime] = Defines the weight of "time since last use" when determining the relation priority. The priority is used when deciding which relation to remove, when too many relations have been added. The priority is also used when determining which UTRAN cell to perform mobility measurements for.<CR>Default=100<CR>Range: 0 to 100
attr_description[Lrat.AnrFunction,probCellDetectLowHoSuccThres] = Specifies the threshold. Together with probCellDetectLowHoSuccTime it controls when EUtranCellRelation::hoSuccLevel changes from MEDIUM to LOW and conversely.<CR>Note: The handover statistics status must be =< the AnrFunction::probCellDetectLowHoSuccThres at least the AnrFunction::probCellDetectLowHoSuccTime time before hoSuccLevel is changed from MEDIUM to LOW. The handover statistics status must be > the AnrFunction::probCellDetectLowHoSuccThres at least the AnrFunction::probCellDetectLowHoSuccTime/2 before the hoSuccLevel is changed from LOW to MEDIUM.<CR>Only applicable when AnrFunction::problematicCellPolicy is set to AUTO_DETECT or AUTO_DETECT_AND_BAR.<CR>Dependencies: probCellDetectMedHoSuccThres > probCellDetectLowHoSuccThres.<CR>Change takes effect: Ongoing connection<CR>Default=10<CR>Range: 1 to 99<CR>Unit: 0.01
attr_description[Lrat.AnrFunction,probCellDetectLowHoSuccTime] = Specifies the time. Together with probCellDetectLowHoSuccThreas it controls when EUtranCellRelation::hoSuccLevel changes from MEDIUM to LOW and conversely.<CR>Only applicable when AnrFunction::problematicCellPolicy is set to AUTO_DETECT or AUTO_DETECT_AND_BAR.<CR>Change takes effect: Ongoing connection<CR>Default=10<CR>Range: 1 to 30<CR>Unit: Days
attr_description[Lrat.AnrFunction,probCellDetectMedHoSuccThres] = Specifies the threshold. Together with AnrFunction::probCellDetectMedHoSuccTime it controls when EUtranCellRelation::hoSuccLevel changes from HIGH to MEDIUM and conversely.<CR>Note: The handover statistics status must be =< the AnrFunction::probCellDetectMedHoSuccThres at least the AnrFunction::probCellDetectMedHoSuccTime time before hoSuccLevel is changed from HIGH to MEDIUM. The handover statistics status must be > the AnrFunction::probCellDetectMedHoSuccThres at least the AnrFunction::probCellDetectMedHoSuccTime/2 before the hoSuccLevel is changed from MEDIUM to HIGH.<CR>Only applicable when AnrFunction::problematicCellPolicy is set to AUTO_DETECT or AUTO_DETECT_AND_BAR.<CR>Dependencies: probCellDetectMedHoSuccThres >  probCellDetectLowHoSuccThres.<CR>Change takes effect: Ongoing connection<CR>Default=50<CR>Range: 2 to 100<CR>Unit: 0.01
attr_description[Lrat.AnrFunction,probCellDetectMedHoSuccTime] = Specifies the time. Together with probCellDetectMedHoSuccThres it controls when EUtranCellRelation::hoSuccLevel changes from HIGH to MEDIUM and conversely.<CR>Only applicable when AnrFunction::problematicCellPolicy is set to AUTO_DETECT or AUTO_DETECT_AND_BAR.<CR>Change takes effect: Ongoing connection<CR>Default=4<CR>Range: 1 to 30<CR>Unit: Days
attr_description[Lrat.AnrFunction,problematicCellPolicy] = Specifies if detection of problematic cell is activated or not.<CR>Change takes effect: Ongoing connection<CR>Default=OFF<CR>Range: 0,1,2
attr_description[Lrat.AnrFunction,removeNcellTime] = The length of time that neighbor cells without any neighbor relations remain in the RBS. 1000 means no automatic removal is performed. If set to 0, the neighbor cell MO is removed within 1 minute. Ericsson strongly recommend that value 0 shall not be used, due to the fact that when setting this value to 0, this might lead to that X2 connections are removed together with all external cells and are setup once again every minute this causes one a network level a huge pressure one the nodes.<CR>Default=30<CR>Range: 0 to 1000<CR>Unit: day
attr_description[Lrat.AnrFunction,removeNenbTime] = The length of time that neighbor RBSs without any neighbor cells remain in the RBS. 1000 means no automatic removal is performed. If set to 0, the neighbor RBS MO is removed within 1 minute.<CR>Default=7<CR>Range: 0 to 1000<CR>Unit: day
attr_description[Lrat.AnrFunction,removeNrelTime] = The maximum time that a neighbor relation can fall short of the cellRelationHoRateThreshold before MO is removed from the MOM. A removed cell relation is still evaluated in RBS as a candidate neighbor relation as long as there is at least one PCI or CGI reported for removeNrelTime.<CR>1000 means no automatic removal is performed. If set to 0, the neighbor relation MO is removed within 1 minute. Value 0 must not be used, because new CGI measurements are already performed for any relation not used for handover after 1 minute.<CR>Default=7<CR>Range: 0 to 1000<CR>Unit: day
attr_description[Lrat.AnrFunction,zzzTemporary10] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AnrFunction,zzzTemporary11] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AnrFunction,zzzTemporary12] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AnrFunction,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AnrFunction,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AnrFunction,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AnrFunction,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.AnrFunction,zzzTemporary5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AnrFunction,zzzTemporary6] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AnrFunction,zzzTemporary7] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.AnrFunction,zzzTemporary8] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AnrFunction,zzzTemporary9] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.AnrFunctionEUtran,anrEutranInterFMeasReportDecr] = Decrease in the target number of periodic measurement reports for each EUtranFreqRelation each time an ANR EUTRAN measurement report is received with only known neighbor cells. Note that the unit is decMeasurementReport. Thus, the given number of measurement reports is divided by 10.<CR>Default=1<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionEUtran,anrEutranInterFMeasReportIncr] = Increase in the target number of periodic measurement reports for each EUtranFreqRelation each time an ANR EUTRAN measurement report is received with unknown neighbor EUTRAN cells. Note that the unit is decMeasurementReport. Thus, the given number of measurement reports is divided by 10.<CR>Default=10<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionEUtran,anrEutranInterFMeasReportMax] = Maximum target number of periodic measurement reports each hour for each EUtranFreqRelation. The number of measurement reports can deviate from the target.<CR>Note that the unit is decMeasurementReport. Thus, the given number of measurement reports is divided by 10.<CR>Dependencies: anrEutranInterFMeasReportMax > anrEutranInterFMeasReportMin<CR>Default=100<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionEUtran,anrEutranInterFMeasReportMin] = Minimum target number of periodic measurement reports each hour for each EUtranFreqRelation. The number of measurement reports can deviate from the target.<CR>Note that the unit is decMeasurementReport. Thus, the given number of measurement reports is divided by 10.<CR>Dependencies: anrEutranInterFMeasReportMin < anrEutranInterFMeasReportMax<CR>Default=5<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionEUtran,anrFunctionEUtranId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.AnrFunctionEUtran,anrInterFreqState] = Activates or deactivates the Automated Neighbor Relation (ANR) function support for Inter frequency LTE  for one RBS. The value of the attribute is irrelevant when no valid license key is installed for the ANR feature.<CR>Default=DEACTIVATED<CR>Range: 1,0
attr_description[Lrat.AnrFunctionEUtran,anrIntraFreqState] = Activates or deactivates the Automated Neighbor Relation (ANR) function support for Intra frequency LTE  for one RBS. The value of the attribute is irrelevant when no valid license key is installed for the ANR feature.<CR>Default=ACTIVATED<CR>Range: 1,0
attr_description[Lrat.AnrFunctionEUtran,anrUesEUtraIntraFDecr] = This parameter defines the decrease in the target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN intra-frequency neighbour cell reports, every time a neighbour cell report is received with only known neighbour cells.<CR>Default=10<CR>Range: 0 to 1000<CR>Unit: centiUE
attr_description[Lrat.AnrFunctionEUtran,anrUesEUtraIntraFIncrAnr] = This parameter defines the increase in the target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN intra-frequency neighbour cell reports, every time a neighbour cell report for ANR is received with unknown neighbour cells.<CR>Default=20<CR>Range: 0 to 1000<CR>Unit: centiUE
attr_description[Lrat.AnrFunctionEUtran,anrUesEUtraIntraFIncrHo] = This parameter defines the increase in the target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN intra-frequency neighbour cell reports, every time a neighbour cell report for HO is received with unknown neighbour cells.<CR>Default=100<CR>Range: 0 to 1000<CR>Unit: centiUE
attr_description[Lrat.AnrFunctionEUtran,anrUesEUtraIntraFMax] = This parameter defines the maximum target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN intra-frequency neighbour cell reports. The actual number of UEs with these thresholds may deviate from the target.<CR>Default=0<CR>Range: 0 to 100<CR>Unit: UE
attr_description[Lrat.AnrFunctionEUtran,anrUesEUtraIntraFMin] = This parameter defines the minimum target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN intra-frequency neighbour cell reports. The actual number of UEs with these thresholds may deviate from the target.<CR>Default=0<CR>Range: 0 to 100<CR>Unit: UE
attr_description[Lrat.AnrFunctionEUtran,anrUesThreshInterFDecr] = This parameter defines the decrease in the target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN inter-frequency neighbor cell reports, every time a neighbor cell report is received with only known neighbor cells.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 1000<CR>Unit: centiUE
attr_description[Lrat.AnrFunctionEUtran,anrUesThreshInterFIncrAnr] = This parameter defines the increase in the target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN inter-frequency neighbor cell reports, every time a neighbor cell report for ANR is received with unknown neighbor cells.<CR>Change takes effect: New connection<CR>Default=20<CR>Range: 0 to 1000<CR>Unit: centiUE
attr_description[Lrat.AnrFunctionEUtran,anrUesThreshInterFIncrHo] = This parameter defines the increase in the target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN intra-frequency neighbor cell reports, every time a neighbor cell report for HO is received with unknown neighbor cells.<CR>Change takes effect: New connection<CR>Default=100<CR>Range: 0 to 1000<CR>Unit: centiUE
attr_description[Lrat.AnrFunctionEUtran,anrUesThreshInterFMax] = This parameter defines the maximum target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN intra-frequency neighbor cell reports. The actual number of UEs with these thresholds may deviate from the target.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 100<CR>Unit: UE
attr_description[Lrat.AnrFunctionEUtran,anrUesThreshInterFMin] = This parameter defines the minimum target number of UEs in each cell, that are assigned ANR specific thresholds for EUTRAN intra-frequency neighbor cell reports. The actual number of UEs with these thresholds may deviate from the target.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 100<CR>Unit: UE
attr_description[Lrat.AnrFunctionEUtran,cellAddRsrpThresholdEutran] = Threshold value for reported power for a cell to be automatically added as neighbor.<CR>Default=-1150<CR>Range: -1440 to 0<CR>Unit: 0.1 dBm
attr_description[Lrat.AnrFunctionEUtran,cellAddRsrqThresholdEutran] = Threshold value for reported quality for a cell to be automatically added as neighbor.<CR>Default=-1530<CR>Range: -1920 to 0<CR>Unit: 0.01 dB
attr_description[Lrat.AnrFunctionEUtran,eutranAnrAgQci1] = Enables or disables eNodeB to order CGI measurement when LTE AG capable UE has QCI1.<CR>Status Information: Since L16B. Planned to be removed<CR>Dependencies: This attribute is effective only when ANR for LTE feature is activated.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.AnrFunctionEUtran,hoAllowedEutranPolicy] = Starting value of the parameter isHoAllowed when a EUtranCellRelation is created by ANR (Automatic Neighbor Relations) or X2.<CR>Default=true
attr_description[Lrat.AnrFunctionEUtran,lbCellOffloadCapacityPolicy] = This attribute indicates the starting value of the attribute lbEUtranCellOffloadCapacity when an ExternalEUtranCell is created by Automated Neighbour Relations (ANR).<CR>Default=1000<CR>Range: 0 to 1000000
attr_description[Lrat.AnrFunctionEUtran,x2SetupPolicy] = Indicates if X2 is to be set up when an ExternalENodeBFunction that is not in the x2BlackList is created by ANR (Automatic Neighbor Relations).<CR>Default=true
attr_description[Lrat.AnrFunctionGeran,anrFunctionGeranId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.AnrFunctionGeran,anrGeranMeasReportDecr] = The decrease in the target number of measurement reports per GeranFrequencyGroupRelation each time an Automated Neighbor Relations (ANR) GERAN measurement report is received with only known neighbor cells.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=1<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionGeran,anrGeranMeasReportIncr] = Defines the increase in the target number of measurement reports per GeranFrequencyGroupRelation each time an Automated Neighbor Relations (ANR) GERAN measurement report is received with unknown neighbor GERAN cells or an unknown cell found in GERAN mobility report.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=10<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionGeran,anrGeranMeasReportMax] = The maximum target number of measurement reports per hour for each GeranFrequencyGroupRelation. The number of measurement reports may deviate from the target.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=100<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionGeran,anrGeranMeasReportMin] = The minimum target number of measurement reports per hour for each GeranFrequencyGroupRelation. The number of measurement reports may deviate from the target.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=5<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionGeran,anrGeranMeasReportRacIncr] = Defines the increase in the target number of measurement reports for each GeranFreqGroupRelation each time a PCI measurement report is received with known cell but the corresponding RAC missing.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=20<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionGeran,anrGeranRacMeasOn] = Indicates whether more CGI measurements shall be initiated to find RAC for cells that were previously added by ANR with missing RAC.<CR>Default=true
attr_description[Lrat.AnrFunctionGeran,anrStateGsm] = Activates or deactivates the Automated Neighbor Relations (ANR) function support for GSM for one RBS. The value of the attribute is irrelevant when no valid license key is installed for the ANR feature.<CR>Default=DEACTIVATED<CR>Range: 1,0
attr_description[Lrat.AnrFunctionGeran,rimIntegrationEnabled] = This parameter indicates if ANR should be able to modify RIM associations to GERAN cells<CR>Default=true
attr_description[Lrat.AnrFunctionUtran,anrFunctionUtranId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.AnrFunctionUtran,anrStateUtran] = Activates or deactivates the Automated Neighbor Relation (ANR) function support for Utran for one RBS. The value of the attribute is irrelevant when no valid license key is installed for the ANR feature.<CR>Default=DEACTIVATED<CR>Range: 1,0
attr_description[Lrat.AnrFunctionUtran,anrUtranAcMeasOn] = Indicates whether more CGI measurements shall be initiated to find LAC and/or RAC for cells that were previously added by ANR with missing LAC or RAC.<CR>Default=true
attr_description[Lrat.AnrFunctionUtran,anrUtranMeasReportAcIncr] = Defines the increase in the target number of measurement reports for each UtranFreqRelation/UtranTDDFreqRelation each time a PCI measurement report is received with known cell but the corresponding LAC or RAC missing.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=20<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionUtran,anrUtranMeasReportDecr] = Defines the decrease in the target number of measurement reports for each UtranFreqRelation/UtranTDDFreqRelation each time an Automated Neighbor Relations (ANR) UTRAN measurement report is received with only known neighbor cells.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=1<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionUtran,anrUtranMeasReportIncr] = Defines the increase in the target number of measurement reports for each UtranFreqRelation/UtranTDDFreqRelation each time an Automated Neighbor Relations (ANR) UTRAN measurement report is received with unknown neighbor UTRAN cells.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=10<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionUtran,anrUtranMeasReportMax] = Defines the maximum target number of measurement reports per hour for each UtranFreqRelation/UtranTDDFreqRelation. The number of measurement reports may deviate from the target.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=100<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionUtran,anrUtranMeasReportMin] = Defines the minimum target number of measurement reports per hour for each UtranFreqRelation/UtranTDDFreqRelation. The number of measurement reports may deviate from the target.<CR>Please note that the unit is decMeasurementReport. Thus, the given number of measurement reports will be divided by 10.<CR>Default=5<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.AnrFunctionUtran,cellAddEcNoThresholdUtranDelta] = This parameter together with b2Threshold2EcNoUtra specifies "Ratio of energy per modulation bit to noise spectral density"  threshold value for reported EcNo for a cell to be automatically added as neighbor. The equation for calculating the EcNo threshold is b2Threshold2EcNoUtra + cellAddEcNoThresholdUtranDelta.<CR>Change takes effect: New connection<CR>Default=-10<CR>Range: -100 to 100<CR>Unit: 0.1 dB
attr_description[Lrat.AnrFunctionUtran,cellAddRscpThresholdUtranDelta] = This parameter together with b2Threshold2RscpUtra specifies "The Received Signal Code Power" (RSCP)  threshold value for reported power for a cell to be automatically added as neighbor. The equation for calculating the RSCP threshold is b2Threshold2RscpUtra + cellAddRscpThresholdUtranDelta.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -10 to 10<CR>Unit: dB
attr_description[Lrat.AnrFunctionUtran,hoAllowedUtranPolicy] = Starting value of the parameter isHoAllowed when a UtranCellRelation is created by ANR (Automatic Neighbor Relations)<CR>Default=true
attr_description[Lrat.AnrFunctionUtran,rimIntegrationEnabled] = This parameter indicates if ANR should be able to modify RIM associations to UTRAN cells.<CR>Default=true
attr_description[Lrat.AnrFunctionUtran,srvccPolicy] = Starting value of the parameter srvccCapability when an ExternalUtranCellFDD/TDD is created by ANR (Automatic Neighbor Relations)<CR>Default=CS_ONLY_SUPPORTED<CR>Range: 0,1,2
attr_description[Lrat.AnrFunctionUtran,utranAnrAgQci1] = Enables or disables eNodeB to order CGI measurement when UTRAN AG capable UE has QCI1.<CR>Status Information: Since L16B. Planned to be removed<CR>Dependencies: This attribute is effective only when ANR for UTRAN feature is activated.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.AnrPciConflictDrxProfile,anrPciConflictDrxInactivityTimer] = The number of consecutive PDCCH subframes after successfully decoding a PDCCH that indicates an initial UL or DL user data transmission for this UE. Attribute is only used to read CGI for ANR PCI conflict cell. TS36.331 ch. 6.3.2, RRC parameter drx-InactivityTimer.<CR>Specification: 3GPP TS36.331<CR>Change takes effect: Object unlocked<CR>Default=PSF2<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22
attr_description[Lrat.AnrPciConflictDrxProfile,anrPciConflictDrxProfileId] = The value component of the RDN.
attr_description[Lrat.AnrPciConflictDrxProfile,anrPciConflictLongDrxCycle] = Value longDrxCycle indicates the number of subframes. Attribute is only used to read CGI for ANR PCI conflict.<CR>Change takes effect: Object unlocked<CR>Default=SF320<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15
attr_description[Lrat.AnrPciConflictDrxProfile,anrPciConflictOnDurationTimer] = The number of consecutive PDCCH subframes at DRX Cycle initialization. Attribute is only used to read CGI for ANR PCI conflict cell. TS36.331 ch. 6.3.2, RRC parameter onDurationTimer.<CR>Specification: 3GPP TS36.331<CR>Change takes effect: Object unlocked<CR>Default=PSF1<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15
attr_description[Lrat.AutoCellCapEstFunction,autoCellCapEstFunctionId] = The value component of the RDN.
attr_description[Lrat.AutoCellCapEstFunction,cellCapOffsetComp] = Bias compensates the estimated cell capacity value.<CR>Default=0<CR>Range: 0 to 10000<CR>Unit: kbps
attr_description[Lrat.AutoCellCapEstFunction,cellCapScaleComp] = Scale compensates the estimated cell capacity value. Parameter granularity is 0.001 and the range is [0..10].<CR>Default=1000<CR>Range: 0 to 10000<CR>Unit: 0.001
attr_description[Lrat.AutoCellCapEstFunction,useEstimatedCellCap] = Switches on the use of estimated cell capacity in load management features.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=false
attr_description[Lrat.Band46UnlicensedProfile,b46A46890Allowed] = Is EARFCN 46890 (46A) allowed for transmission.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46A46890MaxPower] = The maximum allowed transmission power on EARFCN 46890 (46A).<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46A47090Allowed] = Is EARFCN 47090 (46A) allowed for transmission. Corresponds to Wi-Fi channel 36.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46A47090MaxPower] = The maximum allowed transmission power on EARFCN 47090 (46A). Corresponds to Wi-Fi channel 36.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46A47290Allowed] = Is EARFCN 47290 (46A) allowed for transmission. Corresponds to Wi-Fi channel 40.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46A47290MaxPower] = The maximum allowed transmission power on EARFCN 47290 (46A). Corresponds to Wi-Fi channel 40.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46A47490Allowed] = Is EARFCN 47490 (46A) allowed for transmission. Corresponds to Wi-Fi channel 44.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46A47490MaxPower] = The maximum allowed transmission power on EARFCN 47490 (46A). Corresponds to Wi-Fi channel 44.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46A47690Allowed] = Is EARFCN 47690 (46A) allowed for transmission. Corresponds to Wi-Fi channel 48.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46A47690MaxPower] = The maximum allowed transmission power on EARFCN 47690 (46A). Corresponds to Wi-Fi channel 48.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46B47890Allowed] = Is EARFCN 47890 (46B) allowed for transmission. Corresponds to Wi-Fi channel 52.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46B47890MaxPower] = The maximum allowed transmission power on EARFCN 47890 (46B). Corresponds to Wi-Fi channel 52.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46B48090Allowed] = Is EARFCN 48090 (46B) allowed for transmission. Corresponds to Wi-Fi channel 56.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46B48090MaxPower] = The maximum allowed transmission power on EARFCN 48090 (46B). Corresponds to Wi-Fi channel 56.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46B48290Allowed] = Is EARFCN 48290 (46B) allowed for transmission. Corresponds to Wi-Fi channel 60.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46B48290MaxPower] = The maximum allowed transmission power on EARFCN 48290 (46B). Corresponds to Wi-Fi channel 60.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46B48490Allowed] = Is EARFCN 48490 (46B) allowed for transmission. Corresponds to Wi-Fi channel 64.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46B48490MaxPower] = The maximum allowed transmission power on EARFCN 48490 (46B). Corresponds to Wi-Fi channel 64.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46B48690Allowed] = Is EARFCN 48690 (46B) allowed for transmission.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46B48690MaxPower] = The maximum allowed transmission power on EARFCN 48690 (46B).<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C50090Allowed] = Is EARFCN 50090 (46C) allowed for transmission.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C50090MaxPower] = The maximum allowed transmission power on EARFCN 50090 (46C).<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C50290Allowed] = Is EARFCN 50290 (46C) allowed for transmission. Corresponds to Wi-Fi channel 100.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C50290MaxPower] = The maximum allowed transmission power on EARFCN 50290 (46C). Corresponds to Wi-Fi channel 100.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C50490Allowed] = Is EARFCN 50490 (46C) allowed for transmission. Corresponds to Wi-Fi channel 104.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C50490MaxPower] = The maximum allowed transmission power on EARFCN 50490 (46C). Corresponds to Wi-Fi channel 104.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C50690Allowed] = Is EARFCN 50690 (46C) allowed for transmission. Corresponds to Wi-Fi channel 108.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C50690MaxPower] = The maximum allowed transmission power on EARFCN 50690 (46C). Corresponds to Wi-Fi channel 108.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C50890Allowed] = Is EARFCN 50890 (46C) allowed for transmission. Corresponds to Wi-Fi channel 112.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C50890MaxPower] = The maximum allowed transmission power on EARFCN 50890 (46C). Corresponds to Wi-Fi channel 112.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C51090Allowed] = Is EARFCN 51090 (46C) allowed for transmission. Corresponds to Wi-Fi channel 116.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C51090MaxPower] = The maximum allowed transmission power on EARFCN 51090 (46C). Corresponds to Wi-Fi channel 116.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C51290Allowed] = Is EARFCN 51290 (46C) allowed for transmission. Corresponds to Wi-Fi channel 120.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C51290MaxPower] = The maximum allowed transmission power on EARFCN 51290 (46C). Corresponds to Wi-Fi channel 120.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C51490Allowed] = Is EARFCN 51490 (46C) allowed for transmission. Corresponds to Wi-Fi channel 124.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C51490MaxPower] = The maximum allowed transmission power on EARFCN 51490 (46C). Corresponds to Wi-Fi channel 124.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C51690Allowed] = Is EARFCN 51690 (46C) allowed for transmission. Corresponds to Wi-Fi channel 128.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C51690MaxPower] = The maximum allowed transmission power on EARFCN 51690 (46C). Corresponds to Wi-Fi channel 128.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C51890Allowed] = Is EARFCN 51890 (46C) allowed for transmission. Corresponds to Wi-Fi channel 132.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C51890MaxPower] = The maximum allowed transmission power on EARFCN 51890 (46C). Corresponds to Wi-Fi channel 132.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C52090Allowed] = Is EARFCN 52090 (46C) allowed for transmission. Corresponds to Wi-Fi channel 136.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C52090MaxPower] = The maximum allowed transmission power on EARFCN 52090 (46C). Corresponds to Wi-Fi channel 136.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C52290Allowed] = Is EARFCN 52290 (46C) allowed for transmission. Corresponds to Wi-Fi channel 140.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C52290MaxPower] = The maximum allowed transmission power on EARFCN 52290 (46C). Corresponds to Wi-Fi channel 140.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46C52490Allowed] = Is EARFCN 52490 (46C) allowed for transmission. Corresponds to Wi-Fi channel 144.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46C52490MaxPower] = The maximum allowed transmission power on EARFCN 52490 (46C). Corresponds to Wi-Fi channel 144.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46D52740Allowed] = Is EARFCN 52740 (46D) allowed for transmission. Corresponds to Wi-Fi channel 149.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46D52740MaxPower] = The maximum allowed transmission power on EARFCN 52740 (46D). Corresponds to Wi-Fi channel 149.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46D52940Allowed] = Is EARFCN 52940 (46D) allowed for transmission. Corresponds to Wi-Fi channel 153.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46D52940MaxPower] = The maximum allowed transmission power on EARFCN 52940 (46D). Corresponds to Wi-Fi channel 153.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46D53140Allowed] = Is EARFCN 53140 (46D) allowed for transmission. Corresponds to Wi-Fi channel 157.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46D53140MaxPower] = The maximum allowed transmission power on EARFCN 53140 (46D). Corresponds to Wi-Fi channel 157.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46D53340Allowed] = Is EARFCN 53340 (46D) allowed for transmission. Corresponds to Wi-Fi channel 161.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46D53340MaxPower] = The maximum allowed transmission power on EARFCN 53340 (46D). Corresponds to Wi-Fi channel 161.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46D53540Allowed] = Is EARFCN 53540 (46D) allowed for transmission. Corresponds to Wi-Fi channel 165.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46D53540MaxPower] = The maximum allowed transmission power on EARFCN 53540 (46D). Corresponds to Wi-Fi channel 165.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46D53740Allowed] = Is EARFCN 53740 (46D) allowed for transmission.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46D53740MaxPower] = The maximum allowed transmission power on EARFCN 53740 (46D).<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46D53940Allowed] = Is EARFCN 53940 (46D) allowed for transmission.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46D53940MaxPower] = The maximum allowed transmission power on EARFCN 53940 (46D).<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46D54140Allowed] = Is EARFCN 54140 (46D) allowed for transmission.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46D54140MaxPower] = The maximum allowed transmission power on EARFCN 54120 (46D).<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,b46D54340Allowed] = Is EARFCN 54340 (46D) allowed for transmission.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=CHANNEL_DISABLED<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0,1
attr_description[Lrat.Band46UnlicensedProfile,b46D54340MaxPower] = The maximum allowed transmission power on EARFCN 54340 (46D).<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Default=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>Range: 0 to 30
attr_description[Lrat.Band46UnlicensedProfile,band46UnlicensedProfileId] = The value component of the RDN.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Precondition: Band46UnlicensedProfile<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.
attr_description[Lrat.Band46UnlicensedProfile,reservedBy] = List of MO instances that reserve this MO instance.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Dependencies: MO can not be deleted if it is reserved.<CR>Change takes effect: Node restart<CR>MinLength=0<CR>Deprecated: the MO class Lrat.Band46UnlicensedProfile is deprecated.<CR>References: Lrat.EUtranFreqRelationUnlicensed[0-]
attr_description[Lrat.BbLink,availabilityStatus] = The availability status. It contains details about operationalState.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.BbLink,bbLinkId] = The value component of the RDN.
attr_description[Lrat.BbLink,bbLinkSessionId] = BbLink session identity.<CR>Range: 0 to 128
attr_description[Lrat.BbLink,linkDescription] = Purpose of the BB link.<CR>Range: 0 to 128
attr_description[Lrat.BbLink,localAddress] = Local baseband entity MAC address.<CR>Range: 17
attr_description[Lrat.BbLink,localBbEntityId] = Local baseband entity identifier.<CR>Range: 0 to 128
attr_description[Lrat.BbLink,localPort] = The EthernetPortId for the local end of the BB link.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Range: 0 to 128
attr_description[Lrat.BbLink,operationalState] = The operational state.<CR>Range: 0,1
attr_description[Lrat.BbLink,remoteAddress] = Remote baseband entity MAC address.<CR>Range: 17
attr_description[Lrat.BbLink,remoteBbEntityId] = Remote baseband entity identifier.<CR>Range: 0 to 128
attr_description[Lrat.BbLink,remotePort] = The EthernetPortId for the remote end of the BB link.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Range: 0 to 128
attr_description[Lrat.BbLink,vlanId] = The VLAN identifier for receiving and transmitting traffic for the BB link on an EthernetPort.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Range: 1 to 4094
attr_description[Lrat.CarrierAggregationFunction,caPreemptionThreshold] = Configures the resource consumption margin in percentage, beyond which Secondary Cells shall not be configured.<CR>Change takes effect: At node restart<CR>Default=50<CR>Range: 0 to 100<CR>Unit: 1 percent
attr_description[Lrat.CarrierAggregationFunction,caPreference] = Preference between downlink and uplink carrier aggregation.<CR>Dependencies: Only takes effect when 3CC Carrier aggregation Extension Feature (FAJ 121 3084) is enabled and sCellSelectionMode is equal to UN_ACK_SIMULTANEOUS_SCELL_SELECTION or ACK_SIMULTANEOUS_SCELL_SELECTION.<CR>Change takes effect: New connection<CR>Default=NONE<CR>Range: 0,1,2
attr_description[Lrat.CarrierAggregationFunction,caRateAdjustCoeff] = Used to adjust factor of CC rate for CA UEs, which is used in scheduler's proportional fairness algorithm. A smaller value gives CA UE a greater advantage over non-CA UE.<CR>Value 0 sets rate as 0 and this is for testing purpose only; values 1 - 4 set the rate as fraction of the cell rate in increased order; value 5 sets cell based rate; values 6 - 9 set the rate as cell rate plus rate influence from other CCs in increased order; value 10 sets the rate as aggregated rate of all CCs .<CR>Change takes effect: Cell lock/unlock<CR>Default=10<CR>Range: 0 to 10
attr_description[Lrat.CarrierAggregationFunction,caUsageLimit] = The value configures the number of SCell connections which can be in use for carrier aggregation. A secondary cell (SCell) costs in memory the same as a primary cell (PCell) for each UE. It is preferred to avoid limiting SCell connections with caUsageLimit, and use caPreemptionThreshold instead.<CR>Change takes effect: At node restart<CR>Default=65535<CR>Range: 0 to 65535<CR>Unit: UE SCell instances
attr_description[Lrat.CarrierAggregationFunction,carrierAggregationFunctionId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.CarrierAggregationFunction,dlOnlySCellPriorityEnabled] = When set to true, an SCell candidate with MO attribute EUtranCellFDD::isDlOnly set to true is given priority in the initial SCell selection. This priority is applied after the priority set by fddTddSCellPriority.<CR>Note: This attribute is valid only for FDD cells.<CR>Change takes effect: At the next initial SCell selection during the ongoing connection<CR>Default=false
attr_description[Lrat.CarrierAggregationFunction,dynamicSCellSelectionMethod] = Method with which the SCell candidates are selected.<CR>Dependencies: Only takes effect when Dynamic SCell Selection for Carrier Aggregation FAJ 121 3063 is active.<CR>Change takes effect: New connection<CR>Default=ROUND_ROBIN<CR>Range: 0,1,2
attr_description[Lrat.CarrierAggregationFunction,effectiveBwImpactDl2Layer] = Expected DL throughput gain of having 2 layers compared with 1, averaged over a large sample of UE locations.<CR>Dependencies: Only applicable when dynamicSCellSelectionMethod is equal to PRIORITIZED or PRIORITIZED_AUTOMATIC.<CR>Change takes effect: Takes effect on next SCell reconfiguration<CR>Default=180<CR>Range: 0 to 200<CR>Unit: 0.01 ratio of throughput increase
attr_description[Lrat.CarrierAggregationFunction,effectiveBwImpactDl4Layer] = Expected DL throughput gain of having 4 layers compared with 2, averaged over a large sample of UE locations.<CR>Dependencies: Only applicable when dynamicSCellSelectionMethod is equal to PRIORITIZED or PRIORITIZED_AUTOMATIC.<CR>Change takes effect: Takes effect on next SCell reconfiguration<CR>Default=150<CR>Range: 0 to 200<CR>Unit: 0.01 ratio of throughput increase
attr_description[Lrat.CarrierAggregationFunction,effectiveBwImpactDlHom] = Expected DL throughput gain of having 256 QAM compared with 64 QAM, averaged over a large sample of UE locations.<CR>Dependencies: Only applicable when dynamicSCellSelectionMethod is equal to PRIORITIZED or PRIORITIZED_AUTOMATIC.<CR>Change takes effect: Takes effect on next SCell reconfiguration<CR>Default=133<CR>Range: 0 to 200<CR>Unit: 0.01 ratio of throughput increase
attr_description[Lrat.CarrierAggregationFunction,effectiveBwImpactUlHom] = Expected UL throughput gain of having 64 QAM compared with 16 QAM, averaged over a large sample of UE locations.<CR>Dependencies: Only applicable when dynamicSCellSelectionMethod is equal to PRIORITIZED or PRIORITIZED_AUTOMATIC.<CR>Change takes effect: Takes effect on next SCell reconfiguration<CR>Default=150<CR>Range: 0 to 200<CR>Unit: 0.01 ratio of throughput increase
attr_description[Lrat.CarrierAggregationFunction,enhancedSelectionOfMimoAndCa] = Used to enable enhanced selection of four layer MIMO and carrier aggregation. Secondary cell is not added if effective bandwidth is reduced. If effective bandwidth is not changed, tie-breaking rule is governed by fourLayerMimoPreferred. Effective bandwidth includes the number of PRBs and MIMO layer capability of the UE in all serving cells.<CR>Dependencies: Only takes effect when Configurable SCell Priority FAJ 121 4701 is active.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.CarrierAggregationFunction,fddTddSCellPriority] = Cell selection priority between FDD and TDD SCell candidates for initial selection of SCells. This priority has precedence over all other priorities.<CR>Change takes effect: At the next initial SCell selection during the ongoing connection<CR>Default=NONE<CR>Range: 0,1,2
attr_description[Lrat.CarrierAggregationFunction,fourLayerMimoPreferred] = Whether or not SCell is added when there is no change in effective bandwidth. Applies when enhanced selection of four layer MIMO and carrier aggregation is enabled. If set to true, SCell is not added, otherwise SCell is added.<CR>Dependencies: Only takes effect when Configurable SCell Priority FAJ 121 4701 is active.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.CarrierAggregationFunction,laaSCellActDeactDataThresHyst] = If minimum time to transmit all bits is less than laaSCellActDeactDataThres minus laaSCellActDeactDataThresHyst, then deactivation of one component carrier is considered.<CR>Minimum time to transmit all bits is calculated as number of bits in all priority queues, divided by number of bits transmitted in one TTI by all active serving cells after deactivation decision. Computed as if UE has all resources in those cells.<CR>For FDD, the unit "number of DL subframes" is equivalent to ms.<CR>Only used if LAA is configured in RBS.<CR>Status Information: Since 17.Q3. Replaced by UnlicensedAccessFunction::laaSCellActDeactDataThresHyst. Planned to be removed.<CR>Dependencies: laaSCellActDeactDataThresHyst <= laaSCellActDeactDataThres<CR>Change takes effect: Cell lock/unlock<CR>Default=90<CR>Range: 0 to 5000<CR>Unit: 0.1 Number of DL subframes
attr_description[Lrat.CarrierAggregationFunction,laaSCellActDeactDataThres] = If minimum time to transmit all bits is higher than laaSCellActDeactDataThres, activation of one or more secondary cells is considered.<CR>Minimum time to transmit all bits is calculated as number of bits in all priority queues, divided by number of bits transmitted in one TTI by all active serving cells. Computed as if UE has all resources in those cells.<CR>For FDD, the unit "number of DL subframes" is equivalent to ms, but for TDD UL/DL subframe configuration 1, there are 6 DL subframes in 10ms, and for UL/DL subframe configuration 2, there are 8 DL subframes in 10ms.<CR>Only used if LAA is configured in RBS.<CR>Status Information: Since 17.Q3. Replaced by UnlicensedAccessFunction::laaSCellActDeactDataThres. Planned to be removed.<CR>Dependencies: laaSCellActDeactDataThresHyst <= laaSCellActDeactDataThres<CR>Change takes effect: Cell lock/unlock<CR>Default=100<CR>Range: 0 to 5000<CR>Unit: 0.1 Number of DL subframes
attr_description[Lrat.CarrierAggregationFunction,laaSCellActDeactProhibitTimer] = Activation/deactivation prohibit timer. No new activation/deactivation of an LAA SCell is allowed while this timer is running.<CR>Only used if LAA is configured in RBS.<CR>Status Information: Since 17.Q1. Replaced by laaSCellActProhibitTimer and laaSCellDeactProhibitTimer. Planned to be removed.<CR>Change takes effect: Cell lock/unlock<CR>Default=200<CR>Range: 0 to 5000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,laaSCellActProhibitTimer] = LAA activation prohibit timer. No new LAA SCell activation is allowed while this timer is running.<CR>Change takes effect: Next cell unlock<CR>Default=10<CR>Range: 0 to 5000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,laaSCellDeactProhibitTimer] = LAA deactivation prohibit timer. No new LAA SCell deactivation is allowed while this timer is running.<CR>Change takes effect: Next cell unlock<CR>Default=200<CR>Range: 0 to 5000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,laaSCellScheduleSinrThres] = No data is scheduled on LAA SCell if wideband SINR is lower than laaSCellScheduleSinrThres. If SINR stays below threshold, LAA SCell eventually becomes deactivated.<CR>Only used if LAA is configured in RBS.<CR>Status Information: Since 17.Q1. Has no functional behavior. Planned to be removed.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: -200 to 300<CR>Unit: dB
attr_description[Lrat.CarrierAggregationFunction,maxSupportedLayersPerUe] = Limits the maximum number of layers considered when adding SCells for a UE.<CR>Dependencies: Only active if Carrier Aggregation is enabled,<CR>Change takes effect: Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Default=10<CR>Range: 1 to 40<CR>Unit: layers
attr_description[Lrat.CarrierAggregationFunction,pdcchEnhancedLaForVolte] = Enables CA when VoIP and enhanced PDCCH Link Adaptation on FDD PCell are both active. Not used for TDD PCells.<CR>Dependencies: Only takes effect when Carrier Aggregation FAJ 121 3046 and Enhanced PDCCH Link Adaptation FAJ 121 3051 are active, and a VoIP bearer exists for a UE.<CR>Change takes effect: At the next initial SCell selection during the ongoing connection<CR>Default=false
attr_description[Lrat.CarrierAggregationFunction,requestedBandCombCompresssion] = Determines the size of UE band combination report by controlling which IEs are used to query the UE band combination support.<CR>Dependencies: Only applicable when CarrierAggregation is enabled. The UE must support at least release 11.<CR>Change takes effect: Takes effect at next UE capability refresh.<CR>Default=R11_REQUESTED_BAND_COMBO<CR>Range: 0,1
attr_description[Lrat.CarrierAggregationFunction,sCellActDeactDataThresHyst] = If the minimum time needed to transmit all bits in all priority queues of a UE is less than or equal to sCellActDeactDataThres minus sCellActDeactDataThresHyst, then deactivation of one component carrier is considered.<CR>Minimum time needed to transmit all bits is calculated as number of bits in all priority queues, divided by the number of bits that can be transmitted in one TTI by all active serving cells after deactivation decision. This is computed as though the UE is given all resources in those cells.<CR>For FDD, the unit "number of DL subframes" is equivalent to ms, but for TDD UL/DL subframe configuration 1, there are 6 DL subframes in 10ms, and for UL/DL subframe configuration 2, there are 8 DL subframes in 10ms.<CR>If sCellActDeactDataThres is set to "-1", the data-triggered deactivation condition is never satisfied and the value of sCellActDeactDataThresHyst is ignored.<CR>Dependencies: sCellActDeactDataThresHyst <= sCellActDeactDataThres when sCellActDeactDataThres is not equal to -1<CR>Change takes effect: Cell lock/unlock<CR>Default=90<CR>Range: 0 to 5000<CR>Unit: 0.1 Number of DL subframes
attr_description[Lrat.CarrierAggregationFunction,sCellActDeactDataThres] = One or more SCells can be activated if minimum time needed to transmit all bits in all priority queues of UE is higher than sCellActDeactDataThres.<CR>When deciding the activation of one SCell, minimum time needed to transmit all bits is calculated as the number of bits in all priority queues, divided by the number of bits that can be transmitted in one TTI by all active serving cells prior to activation decision. This is computed as though the UE is given all resources in those cells. If the condition for activating one SCell is satisfied, a second SCell is also considered for activation but the minimum time needed to transmit all bits is now calculated by considering the added capacity of the first new SCell that is already considered for activation.<CR>For FDD, the unit "number of DL subframes" is equivalent to ms, but for TDD UL/DL subframe configuration 1, there are 6 DL subframes in 10ms, and for UL/DL subframe configuration 2, there are 8 DL subframes in 10ms.<CR>"-1" means the data-triggered activation condition is always satisfied even with no data in the buffer, and also that the data-triggered deactivation condition is never satisfied.<CR>Dependencies: sCellActDeactDataThresHyst <= sCellActDeactDataThres when sCellActDeactDataThres is not equal to -1<CR>Change takes effect: Cell lock/unlock<CR>Default=100<CR>Range: -1 to 5000<CR>Unit: 0.1 Number of DL subframes
attr_description[Lrat.CarrierAggregationFunction,sCellActDeactProhibitTimer] = Activation/deactivation prohibit timer. No new activation/deactivation of an SCell is allowed while this timer is running.<CR>Status Information: Since L16B. Replaced by sCellActProhibitTimer and sCellDeactProhibitTimer. Planned to be removed.<CR>Change takes effect: Cell lock/unlock<CR>Default=200<CR>Range: 0 to 5000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,sCellActDeactUlDataThreshHyst] = If minimum time needed to transmit all bits in all priority queues in UL of a UE is less than sCellActDeactUlDataThresh minus sCellActDeactUlDataThreshHyst, deactivation of one CC is considered.<CR>Dependencies: sCellActDeactUlDataThreshHyst =< sCellActDeactUlDataThresh<CR>Change takes effect: Cell lock/unlock<CR>Default=90<CR>Range: 0 to 5000<CR>Unit: 0.1 Number of UL subframes
attr_description[Lrat.CarrierAggregationFunction,sCellActDeactUlDataThresh] = If the minimum time needed to transmit all bits in all priority queues in UL of a UE is higher than sCellActDeactUlDataThresh, activation of one or more secondary cells is considered.<CR>Dependencies: sCellActDeactUlDataThreshHyst =< sCellActDeactUlDataThresh<CR>Change takes effect: Cell lock/unlock<CR>Default=100<CR>Range: 0 to 5000<CR>Unit: 0.1 Number of UL subframes
attr_description[Lrat.CarrierAggregationFunction,sCellActProhibitTimerPoorCov] = Timer to prevent immediate new SCell activation after an SCell deactivation due to poor coverage. Only applicable to users configured with more than two SCells.<CR>Dependencies: sCellActProhibitTimerPoorCov >= sCellActProhibitTimer is recommended.<CR>Change takes effect: Cell lock/unlock<CR>Default=200<CR>Range: 0 to 5000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,sCellActProhibitTimer] = Activation prohibit timer. No new SCell activation is allowed while this timer is running.<CR>Change takes effect: Cell lock/unlock<CR>Default=10<CR>Range: 0 to 5000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,sCellDeactDelayTimer] = One SCell is deactivated if minimum time needed to transmit all bits in all priority queues of a UE is less than or equal to sCellActDeactDataThres minus sCellActDeactDataThresHyst for a duration of sCellDeactDelayTimer.<CR>Dependencies: sCellActDeactDataThresHyst <= sCellActDeactDataThres<CR>Default=50<CR>Range: 0 to 5000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,sCellDeactOutOfCoverageTimer] = SCell is deactivated if:<CR>- wideband DL SINR remains below sCellScheduleSinrThres, or<CR>- no Channel State Information is received by the eNB<CR>for a duration of sCellDeactOutOfCoverageTimer.<CR>Deactivation can be deferred, for example by sCellDeactProhibitTimer.<CR>"-1" means the SCell is not deactivated due to the SINR condition.<CR>Default=100<CR>Range: -1 to 5000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,sCellDeactProhibitTimer] = Deactivation prohibit timer. No new SCell deactivation is allowed while this timer is running.<CR>Change takes effect: Cell lock/unlock<CR>Default=200<CR>Range: 0 to 5000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,sCellPdcchOuterLoopMargin] = The SINR margin for secondary cell PDCCH outer loop.<CR>Default=100<CR>Range: -200 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.CarrierAggregationFunction,sCellRelationPolicy] = The value controls the interpretation of sCellCandidate on each EUtranCellRelation if set to AUTO. When policy is set to AUTO_FROM_LB, sCellCandidate is AUTO directs DSS to check if loadBalancing is ALLOWED, then treats the cell as a valid SCell candidate.<CR>Dependencies: When sCellRelationPolicy is active, it depends on attribute loadBalancing to be updated by the load balancing feature. The cell relation must point to a different frequency than the PCell.<CR>Default=MANUAL_ONLY<CR>Range: 0,1
attr_description[Lrat.CarrierAggregationFunction,sCellScheduleSinrThres] = No data is scheduled on SCell if wideband SINR is lower than sCellScheduleSinrThres. If SINR remains below threshold, SCell is deactivated when sCellDeactOutOfCoverageTimer expired.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: -200 to 300<CR>Unit: 0.1 dB
attr_description[Lrat.CarrierAggregationFunction,sCellScheduleUlPathlossThresh] = No data is scheduled on the SCell if UL pathloss is higher than sCellScheduleUlPathlossThresh. If the pathloss stays above the threshold, the SCell is eventually deactivated.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Change takes effect: Cell lock/unlock<CR>Default=1400<CR>Range: 0 to 2000<CR>Unit: 0.1 dB
attr_description[Lrat.CarrierAggregationFunction,sCellSelectionMode] = Selects the behavior of selecting SCell candidates beyond the first candidate. Warning: There is a risk when using UN_ACK_SIMULTANEOUS_SCELL_SELECTION that the UE may not report a bad SCell.<CR>Dependencies: Only takes effect when Dynamic SCell Selection for Carrier Aggregation FAJ 121 3063 and 3CC DL Carrier Aggregation Extension FAJ 121 3084 are active.<CR>Change takes effect: New connection<CR>Default=ACK_SEQUENTIAL_SCELL_SELECTION<CR>Range: 0,1,2
attr_description[Lrat.CarrierAggregationFunction,selectionPolicyUlTargetRatio] = A target minimum ratio of UL to DL effective BW, beyond which further SCells with no UL component will not be considered.<CR>Dependencies: Only active if Configurable SCell Priority or Automatic SCell Priority is enabled.<CR>Change takes effect: Takes effect on next SCell reconfiguration<CR>Default=0<CR>Range: 0 to 100<CR>Unit: 0.01 percent
attr_description[Lrat.CarrierAggregationFunction,selectionPolicyUlWeighting] = The amount of weight given to UL effective BW. If 0, UL is not included in the utility function and fully determined by DL. If 100, only UL score is considered, and DL weight is 0.<CR>Dependencies: Only active if Configurable SCell Priority or Automatic SCell Priority is enabled.<CR>Change takes effect: Takes effect on next SCell reconfiguration<CR>Default=70<CR>Range: 0 to 100<CR>Unit: 0.01 percent
attr_description[Lrat.CarrierAggregationFunction,waitForAdditionalSCellOpportunity] = Controls the length of time that elapses until a UE is reconsidered for additional SCell configuration after the eNB was unable to configure this UE with more than one SCell.<CR>"-1" means wait forever.<CR>Changed value can take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=10000<CR>Range: -1 to 60000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,waitForBetterSCellRep] = Controls the length of time a UE searches for SCells on a particular frequency, or set of frequencies based on measurements when it is in poor SCell coverage.<CR>"-1" means wait forever.<CR>Changed value can take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=1000<CR>Range: -1 to 32000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,waitForBlindSelSCellRepLessTtt] = Amount of time to wait for blind SCell selection to return a measurement report, excluding the time to trigger. After waitForBlindSelSCellRep = waitForBlindSelSCellRepLessTtt + max(timeToTriggerA1, timeToTriggerA6), if no report is received, this SCell is deemed not to have coverage.<CR>Dependencies: Only valid for Dynamic SCell selection, with dynamicSCellSelectionMethod in any supported setting.<CR>Change takes effect: New connection. Also during ongoing connection, related to next SCell configuration during the connection.<CR>Default=600<CR>Range: 0 to 10000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,waitForCaOpportunity] = Controls the length of time that elapses until a UE is considered once again for SCell configuration after the eNB was not able to configure this UE with a suitable Scell.<CR>"-1" means wait forever.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Disturbances: Extreme settings can turn off CA for the eNB.<CR>Change takes effect: Ongoing connection<CR>Default=10000<CR>Range: -1 to 60000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,waitForSCellDeconfOpportunity] = Controls the length of time that elapses until a UE is considered for SCell deconfiguration due to no measurement reports when the SCell is disabled.<CR>"-1" means the SCell is not deconfigured due to this reason.<CR>Default=2000<CR>Range: -1,1000 to 10000<CR>Unit: ms
attr_description[Lrat.CarrierAggregationFunction,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.CarrierAggregationFunction,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.CarrierAggregationFunction,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.CarrierAggregationFunction,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.CarrierAggregationFunction,zzzTemporary5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.Cdma20001xRttBandRelation,cdma20001xRttBandRelationId] = Value component of the RDN
attr_description[Lrat.Cdma20001xRttBandRelation,cdma2000FreqBandRef] = Reference to the CDMA2000 frequency band MO, Cdma2000FreqBand<CR>Change takes effect: New connection<CR>References: Lrat.Cdma2000FreqBand[0-]
attr_description[Lrat.Cdma20001xRttBandRelation,cellReselectionPriority] = Absolute priority of the RAT (0 means: lowest priority)<CR>Default=6<CR>Range: 0 to 7
attr_description[Lrat.Cdma20001xRttBandRelation,threshXHigh1xRtt] = Threshold used in reselection towards a high priority CDMA2000 1xRTT band class, expressed as an unsigned binary number equal to FLOOR ([-2 x 10 x log10 Ec/Io]) in units of 0.5 dB<CR>If sNonServingCell > threshXHigh1xRtt, reselection is considered towards the band class with higher priority. The condition must be valid during the period defined by attribute tReselectionCdma1xRtt.<CR>sNonServingCell is the RX-level value of a neighboring cell.<CR>Default=63<CR>Range: 0 to 63
attr_description[Lrat.Cdma20001xRttBandRelation,threshXLow1xRtt] = Threshold used in reselection towards a low priority CDMA2000 1xRTT band class expressed as an unsigned binary number equal to FLOOR ([-2 x 10 x log10 Ec/Io]) in units of 0.5 db.<CR>If sServingCell < threshServingLow and sNeighbor > threshXLow (see corresponding attribute), reselection towards this lower prioritized band class is considered. The condition must be valid during the period defined by attribute tReselectionCdma1xRtt.<CR>sServingCell is the RX level value of the serving cell and sNeighborCell is the RX level value of a neighbor frequency.<CR>Default=63<CR>Range: 0 to 63
attr_description[Lrat.Cdma20001xRttBandRelation,userLabel] = Label for free use<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.Cdma20001xRttCellRelation,cdma20001xRttCellRelationId] = Value component of the RDN
attr_description[Lrat.Cdma20001xRttCellRelation,externalCdma20001xRttCellRef] = Reference to an ExternalCdma20001xRttCell<CR>Change takes effect: New connection<CR>References: Lrat.ExternalCdma20001xRttCell[0-]
attr_description[Lrat.Cdma20001xRttCellRelation,includeInSystemInformationRel9] = CDMA2000 cell inclusion in Release 9 part of system information.<CR>This attribute indicates whether the CDMA2000 cell is included in the Release 9 part of System Information.<CR>When the value is set to false, the CDMA2000 cell is not included in the Release 9 part of SIB8.<CR>A release 8 relation of the same frequency is required for the CDMA2000 cell to be included in the Release 9 part of SIB8.<CR>A total maximum of 40 1xRTT CDMA2000 cells (release 8 and 9 combined) can be included in SIB8.<CR>Dependencies: Restriction: The referred cell shall only set one of the attributes (includeInSystemInformation or includeInSystemInformationRel9) to true.<CR>Dependencies: In 3GPP rel9, the possibility to add 16 additional CDMA2000 cells on the same frequency, was added. The additional CDMA2000 cells are controlled by the parameter includeInSystemInformationRel9.<CR>Default=false
attr_description[Lrat.Cdma20001xRttCellRelation,includeInSystemInformation] = CDMA2000 cell inclusion in system information.<CR>This attribute indicates whether the CDMA2000 cell is included in System Information.<CR>When the value is set to false, the CDMA2000 cell is not included in SIB8.<CR>A maximum of 16 CDMA2000 cells can be included per frequency.<CR>A maximum of 32 CDMA2000 cells can be included in SIB8.<CR>Dependencies: Restriction: The referred cell shall only set one of the attributes (includeInSystemInformation or includeInSystemInformationRel9) to true.<CR>Default=true
attr_description[Lrat.Cdma20001xRttCellRelation,userLabel] = Label for free use<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.Cdma20001xRttFreqRelation,b2Thr1RsrpCdma20001xFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold1Rsrp, RSRP threshold1 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.Cdma20001xRttFreqRelation,b2Thr1RsrqCdma20001xFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold1Rsrq, RSRQ threshold1 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -240 to 240<CR>Unit: 0.1 dB
attr_description[Lrat.Cdma20001xRttFreqRelation,b2Thr2Cdma20001xFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold2Cdma20001xRtt, Signal quality in the thresholdCDMA2000 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -250 to 250<CR>Unit: 0.1 dB
attr_description[Lrat.Cdma20001xRttFreqRelation,cdma20001xRttFreqRelationId] = Value component of the RDN
attr_description[Lrat.Cdma20001xRttFreqRelation,cdma2000FreqRef] = Reference to the Cdma2000Freq MO<CR>Change takes effect: New connection<CR>References: Lrat.Cdma2000Freq[0-]
attr_description[Lrat.Cdma20001xRttFreqRelation,csFallbackPrioEC] = CDMA2000 1xRTT frequency priority for emergency calls<CR>This attribute prioritizes CDMA2000 1xRTT frequencies for emergency calls among all frequencies/frequency groups related to the cell for UEs in connected mode.<CR>Sets the priority to which frequency to make emergency call CS Fallback.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 7
attr_description[Lrat.Cdma20001xRttFreqRelation,csFallbackPrio] = CDMA2000 1xRTT CSFB frequency priority.<CR>This attribute prioritizes CDMA2000 1xRTT frequencies among all frequencies related to the cell for UEs in connected mode.<CR>Sets the priority to which frequency/frequency group to make CS Fallback.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 7
attr_description[Lrat.Cdma20001xRttFreqRelation,qOffsetFreq] = Frequency-specific offset to apply when evaluating triggering conditions for measurement reporting<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -15 to 15<CR>Unit: dB
attr_description[Lrat.Cdma20001xRttFreqRelation,userLabel] = Label for free use<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.Cdma20001xRttFreqRelation,voicePrio] = This attribute prioritizes CDMA 1xRtt frequencies among all frequencies related to the cell for User Equipments (UEs) in connected mode. It sets the priority value for the frequency to which the mobility action for a voice session is performed.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.Cdma2000CellRelation,cdma2000CellRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.Cdma2000CellRelation,externalCdma2000CellRef] = Reference to a ExternalCdma2000Cell.<CR>References: Lrat.ExternalCdma2000Cell[0-]
attr_description[Lrat.Cdma2000CellRelation,includeInSystemInformationRel9] = Indicates if the CDMA2000 cell shall be included in the Release 9 part of System Information or not.<CR>When the includeInSystemInformationRel9 is set to false, the CDMA2000 cell is not included in the Release 9 part of SIB8.<CR>A maximum of 16 CDMA2000 cells can be included per frequency in the Release 9 part.<CR>A total maximum of 32 CDMA2000 cells can be included in SIB8.<CR>Dependencies: In 3GPP rel9, the possiblity to add 16 additional CDMA2000 cells on the same frequency, was added. The additional CDMA2000 cells are controled by the parameter includeInSystemInformationRel9.<CR>Default=false
attr_description[Lrat.Cdma2000CellRelation,includeInSystemInformation] = Indicates if the CDMA2000 cell shall be included in System Information or not.<CR>When the includeInSystemInformation is set to false, the CDMA2000 cell is not included in SIB8.<CR>A maximum of 16 CDMA2000 cells can be included per frequency.<CR>A maximum of 32 CDMA2000 cells can be included in SIB8.<CR>Default=true
attr_description[Lrat.Cdma2000CellRelation,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.Cdma2000Freq,cdma2000FreqId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.Cdma2000Freq,freqCdma] = Identifies the carrier frequency within a CDMA2000 Band.<CR>Range: 0 to 2047
attr_description[Lrat.Cdma2000Freq,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.Cdma20001xRttFreqRelation[0-],Lrat.Cdma2000FreqRelation[0-]
attr_description[Lrat.Cdma2000Freq,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.Cdma2000FreqBand,cdma2000FreqBandId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.Cdma2000FreqBand,cdmaBandClass] = The CDMA frequency band in which the HRPD or 1xRTT carrier is located<CR>The UNDEFINED_VALUE can never be used - either at create or modify of an MO.<CR>Default=UNDEFINED_VALUE<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,99
attr_description[Lrat.Cdma2000FreqBand,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>Dependencies: The MO may not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.Cdma20001xRttBandRelation[0-],Lrat.Cdma2000FreqBandRelation[0-]
attr_description[Lrat.Cdma2000FreqBand,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.Cdma2000FreqBandRelation,cdma2000FreqBandRef] = Reference to the Cdma2000 frequency band MO, Cdma2000FreqBand.<CR>References: Lrat.Cdma2000FreqBand[0-]
attr_description[Lrat.Cdma2000FreqBandRelation,cdma2000FreqBandRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.Cdma2000FreqBandRelation,cellReselectionPriority] = Absolute priority of the RAT (0 means: lowest priority).<CR>Dependencies: The value must be unique and not already used by other RAT, i.e. equal priorities between RATs are not supported.<CR>Default=6<CR>Range: 0 to 7
attr_description[Lrat.Cdma2000FreqBandRelation,threshXHighHrpd] = The threshold used in reselection towards a high priority CDMA2000 HRPD band class, expressed as an unsigned binary number equal to FLOOR ([-2 x 10 x log10 Ec/Io]) in units of 0.5 db.<CR>If sNonServingCell > threshXHighHrpd, reselection is considered towards the band class with higher priority. The condition must be valid during the period defined by attribute tReselectionCdmaHrpd.<CR>sNonServingCell is the RX-level value of a neighboring cell.<CR>Default=63<CR>Range: 0 to 63
attr_description[Lrat.Cdma2000FreqBandRelation,threshXLowHrpd] = The threshold used in reselection towards a low priority CDMA2000 HRPD band class expressed as an unsigned binary number equal to FLOOR ([-2 x 10 x log10 Ec/Io]) in units of 0.5 db.<CR>If sServingCell < threshServingLow and sNeighbor > threshXLow (see corresponding attribute), reselection towards this lower prioritized band class is considered. The condition must be valid during the period defined by attribute tReselectionCdmaHrpd.<CR>sServingCell is the RX level value of the serving cell and sNeighborCell is the RX level value of a neighbor frequency.<CR>Default=63<CR>Range: 0 to 63
attr_description[Lrat.Cdma2000FreqBandRelation,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.Cdma2000FreqRelation,b2Thr1RsrpCdma2000FreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold1Rsrp, RSRP threshold1 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.Cdma2000FreqRelation,b2Thr1RsrqCdma2000FreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold1Rsrq, RSRQ threshold1 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -240 to 240<CR>Unit: 0.1 dB
attr_description[Lrat.Cdma2000FreqRelation,b2Thr2Cdma2000FreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold2Cdma2000, Signal quality in the thresholdCDMA2000 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -250 to 250<CR>Unit: 0.1 dB
attr_description[Lrat.Cdma2000FreqRelation,cdma2000FreqRef] = Reference to the Cdma2000Freq MO<CR>References: Lrat.Cdma2000Freq[0-]
attr_description[Lrat.Cdma2000FreqRelation,cdma2000FreqRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.Cdma2000FreqRelation,connectedModeMobilityPrio] = Prioritizes CDMA2000 frequencies among all frequencies related to the cell for UEs in connected mode.<CR>(0 means the lowest priority. -1 means the frequency is excluded.)<CR>Change takes effect: New connection<CR>Default=6<CR>Range: -1 to 7
attr_description[Lrat.Cdma2000FreqRelation,qOffsetFreq] = Indicates a frequency-specific offset to apply when evaluating triggering conditions for measurement reporting.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -15 to 15<CR>Unit: dB
attr_description[Lrat.Cdma2000FreqRelation,qciB2ThrOffsets] = Parameters for adding QCI profile and frequency relation specific offsets to B2 threshold values used for mobility decisions. Applicable if Multi-Layer Service-Triggered Mobility (MLSTM) is active.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=19
attr_description[Lrat.Cdma2000FreqRelation,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.Cdma2000Network,cdma2000NetworkId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.Cdma2000Network,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.CellPortion,altitude] = The altitude of the transmitter antenna in meters. Use +/- values to denote height/depth.<CR>Default=0<CR>Range: -32768 to 32767<CR>Unit: m
attr_description[Lrat.CellPortion,cellPortionCoverage] = Models the cell portion coverage area used for UE positioning. The cell portion coverage area is defined by the bearing, opening angle and radius.
attr_description[Lrat.CellPortion,cellPortionId] = The value component of the RDN.
attr_description[Lrat.CellPortion,cellPortionPolygon] = Models the manageable characteristics for the cell portion polygon used for UE. positioning. Each polygon corner is described by a latitude and longitude pair. Each polygon corner is represented with one position in the sequence. The other configured polygon corners follow in sequence.<CR>Dependencies: There must at least be three corners configured in a polygon when the function is active/used. The points shall be connected in the order that they are given. The last point is connected to the first point.<CR>MinLength=0 MaxLength=15
attr_description[Lrat.CellPortion,latitude] = The degree of latitude of the transmitter antenna position.<CR>Default=0<CR>Range: -90000000 to 90000000<CR>Unit: 0.000001 degrees
attr_description[Lrat.CellPortion,longitude] = The degree of longitude of the transmitter antenna position.<CR>Default=0<CR>Range: -180000000 to 180000000<CR>Unit: 0.000001 degrees
attr_description[Lrat.CellPortion,lppaCellPortionId] = The LPPa Cell Portion ID IE defined in 3GPP TS 36.455.<CR>Specification: 3GPP 36.455<CR>Default=0<CR>Range: 0 to 255
attr_description[Lrat.CellPortion,sectorCarrierRef] = Reference to an instance of SectorCarrier MO.<CR>isNillable: true<CR>References: Lrat.SectorCarrier[0-]
attr_description[Lrat.CellSleepFunction,capCellDlPrbSleepThreshold] = DL PRB Usage percentage threshold.  The capacity cell must be below this  to enter sleep state.<CR>Disturbances: Low values can cause cells with traffic to go into sleep mode.<CR>Default=10<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.CellSleepFunction,capCellMobReasNotSleepThr] = Threshold value for number of incoming X2 inter-frequency handovers with cause "Handover Desirable for Radio Reasons" from neighbor cells with coverage frequency. If incoming X2 inter-frequency handovers exceeds threshold, it is considered related capacity cell is providing basic coverage support and entering sleep state is prevented.<CR>Default=-1<CR>Range: -1 to 10000
attr_description[Lrat.CellSleepFunction,capCellRrcConnSleepThreshold] = Number of active RRC connections. The capacity cell must be below this to enter sleep state.<CR>Disturbances: Low values can cause cells with traffic to go into sleep mode.<CR>Default=5<CR>Range: 0 to 3000
attr_description[Lrat.CellSleepFunction,capCellSleepMonitorDurTimer] = Minimum duration for this cell to satisfy the configured load thresholds before entering sleep state. Used in the Cell Sleep Mode feature.<CR>Default=15<CR>Range: 5 to 120<CR>Unit: minutes
attr_description[Lrat.CellSleepFunction,capCellSleepProhibitInterval] = Time interval when sleep state is prohibited for capacity cell. If 0, prohibition is disabled for related cell. When related cell is in prohibition state, only value 0 can be set.<CR>Default=24<CR>Range: 0 to 10000<CR>Unit: hours
attr_description[Lrat.CellSleepFunction,cellSleepFunctionId] = The value component of the RDN.
attr_description[Lrat.CellSleepFunction,covCellDlPrbWakeUpThreshold] = DL PRB usage percentage threshold. At least one of the coverage cells must exceed this threshold to wake-up the capacity cell.<CR>Disturbances: High values can cause cells not to wake up from sleep mode.<CR>Default=25<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.CellSleepFunction,covCellLatestStatsAdaRatio] = Ratio indicating weight of latest data for normal statistics calculation.<CR>Default=60<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.CellSleepFunction,covCellRrcConnEstAttMin] = Minimum required samples of RRC Connection Establishment Attempt to calculate RRC Connection Re-establishment rate for normal and sleep statistics.<CR>Default=200<CR>Range: 0 to 100000
attr_description[Lrat.CellSleepFunction,covCellRrcConnWakeUpThreshold] = Active RRC connections threshold. At least one of the coverage cells must exceed this number of active RRC connections to wake-up this capacity cell.<CR>Disturbances: High values can cause cells not to wake up from sleep mode.<CR>Default=30<CR>Range: 0 to 3000
attr_description[Lrat.CellSleepFunction,covCellRrcReestWakeUpThr] = Difference threshold for RRC Connection Re-establishment rate between normal and sleep statistics. If threshold is exceeded coverage cell wakes up all capacity cells. Value 100 means monitoring for RRC Connection Re-establishment is disabled.<CR>Default=100<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.CellSleepFunction,covCellUeCtxtRelMin] = Minimum required samples of UE Context Release to calculate UE Lost rate for normal and sleep statistics.<CR>Default=200<CR>Range: 0 to 100000
attr_description[Lrat.CellSleepFunction,covCellUeLostWakeUpThr] = Difference threshold for UE Lost rate between normal and sleep statistics. If threshold is exceeded coverage cell wakes up all capacity cells. Value 100 means monitoring for UE Lost is disabled.<CR>Default=100<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.CellSleepFunction,covCellWakeUpMonitorDurTimer] = Minimum duration for coverage cell to satisfy the configured load thresholds before the capacity cell can wake-up. Used in feature Cell sleep mode.<CR>Default=15<CR>Range: 5 to 120<CR>Unit: minutes
attr_description[Lrat.CellSleepFunction,coverageCellDiscovery] = Indicates if automatic coverage cells detection is enabled.<CR>If true, EUtranCellRelations with sleepModeCovCellCandidate=AUTO are evaluated as coverage cell for sleep mode support. EUtranCellRelations found applicable as coverage cells have sleepModeCoverageCell=true. EUtranCellRelations with sleepModeCovCellCandidate =ALLOWED are always evaluated.<CR>If false, only EUtranCellRelations with sleepModeCovCellCandidate =ALLOWED are included as coverage cells for sleep mode support.<CR>Default=false
attr_description[Lrat.CellSleepFunction,isAllowedMsmOnCovCell] = Defines if MIMO sleep with "SWITCH" or "SOFT_SWITCH" mode is allowed in the coverage cell. The "ADVANCED_SWITCH" mode is not dependent on this attribute.<CR>Default=true
attr_description[Lrat.CellSleepFunction,isCleanupHitRateTable] = Indicates if hit rate table is cleaned up when related capacity cell wakes up due to suspected coverage hole and automatic coverage cell discovery is enabled.<CR>Default=true
attr_description[Lrat.CellSleepFunction,sleepEndTime] = RBS daily end time (UTC time) to stop cell sleep detection or switching.<CR>Format in ASCII-code: HH:MM where HH is in range [00..23] and MM is in range [00..59].<CR>Default=05:00<CR>Range: 5
attr_description[Lrat.CellSleepFunction,sleepMode] = Cell sleep mode status for the cell.<CR>Disturbances: Changing this attribute to ACTIVATED allows the cell to enter sleep state when sleep criteria is met when within the sleepStartTime and sleepEndTime interval.<CR>Default=DEACTIVATED<CR>Range: 1,0
attr_description[Lrat.CellSleepFunction,sleepProhibitStartTime] = Start time for sleep state prohibition. Format: YYYY-MM-DD HH:MM:SS. If empty, related capacity cell is not prohibited from entering sleep state. Otherwise, sleep state is prohibited till capCellSleepProhibitInterval expires or prohibition is disabled.<CR>Range: 0 to 19
attr_description[Lrat.CellSleepFunction,sleepStartTime] = RBS daily start time (UTC time) to perform cell sleep detection or switching.<CR>Format in ASCII-code: HH:MM where HH is in range [00..23] and MM is in range [00..59].<CR>Default=02:00<CR>Range: 5
attr_description[Lrat.CellSleepFunction,sleepState] = Indicates if Cell Sleep Mode takes effect. The cell is deactivated. Energy saving mode starts.<CR>Range: 1,0
attr_description[Lrat.CellSleepFunction,wakeUpLastHoTime] = Maximum time for last handover attempt before eNodeB wakes up capacity cells.<CR>Default=2<CR>Range: 1 to 1000<CR>Unit: days
attr_description[Lrat.CellSleepFunction,wakeUpWaitTimer] = Time before eNodeB wakes up remaining capacity cells. Value 0 disables wake-up attempt.<CR>Default=0<CR>Range: 0 to 120000<CR>Unit: ms
attr_description[Lrat.CellSleepNodeFunction,cellSleepNodeFunctionId] = The value component of the RDN.
attr_description[Lrat.CellSleepNodeFunction,csmEutranInterFMeasReportDecr] = Decrease in the target number of periodic measurement reports for each EUtranFreqRelation when the required hit rate to identify cell sleep mode coverage cells is achieved. Note that the unit is decMeasurementReport. Thus, the given number of measurement reports is divided by 10.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.CellSleepNodeFunction,csmEutranInterFMeasReportIncrTimer] = Duration a cell must retain at high intensity of periodic measurements. The duration is applied at feature activation, and at cell and node restarts.<CR>Default=168<CR>Range: 1 to 1000<CR>Unit: hour
attr_description[Lrat.CellSleepNodeFunction,csmEutranInterFMeasReportIncr] = Increase in the target number of periodic measurement reports for each EUtranFreqRelation when the required hit rate to identify cell sleep mode coverage cells is not yet achieved. Note that the unit is decMeasurementReport. Thus, the given number of measurement reports is divided by 10.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=10<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.CellSleepNodeFunction,csmEutranInterFMeasReportMax] = Maximum target number of cell sleep mode measurement reports each hour for each EUtranFreqRelation. The number of measurement reports can deviate from the target. Note that the unit is decMeasurementReport. Thus, the given number of measurement reports is divided by 10.<CR>Dependencies: csmEutranInterFMeasReportMax > csmEutranInterFMeasReportMin<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=100<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.CellSleepNodeFunction,csmEutranInterFMeasReportMin] = Minimum target number of cell sleep mode measurement reports each hour for each EUtranFreqRelation. The number of measurement reports can deviate from the target. Note that the unit is decMeasurementReport. Thus, the given number of measurement reports is divided by 10.<CR>Dependencies: csmEutranInterFMeasReportMin < csmEutranInterFMeasReportMax<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=5<CR>Range: 0 to 1000<CR>Unit: DecMeasurementReports
attr_description[Lrat.CellSleepNodeFunction,csmHitRateEutran0] = Initial hit rate for a new EUtranCellRelation in cell sleep mode hit rate table.<CR>Default=10<CR>Range: 0 to 100<CR>Unit: 0.01
attr_description[Lrat.CellSleepNodeFunction,csmHitRateEutranFilterCoeff] = Coefficient for cell sleep mode hit rate calculation on EUtran cell relations.<CR>Default=30<CR>Range: 10 to 2400<CR>Unit: 0.0001
attr_description[Lrat.CellSleepNodeFunction,csmMinHitRateForCovCell] = Minimum required hit rate value for related cell to be assigned as coverage cell. When hit rate of given cell is higher than value, cell can be selected as coverage cell for capacity cell.<CR>Default=50<CR>Range: 0 to 50
attr_description[Lrat.DataRadioBearer,dataRadioBearerId] = The value component of the RDN.
attr_description[Lrat.DataRadioBearer,dlMaxRetxThreshold] = Maximum number RLC re-transmissions in DL before stopping and indicating to RRC that the RLC threshold is reached.<CR>Change takes effect: Cell lock/unlock<CR>Default=8<CR>Range: 1,2,3,4,6,8,16,32
attr_description[Lrat.DataRadioBearer,dlPollPDU] = Maximum number of PDUs before polling for a STATUS report.<CR>Special value: 0 means infinity.<CR>Change takes effect: Cell lock/unlock<CR>Default=16<CR>Range: 0,4,8,16,32,64,128,256
attr_description[Lrat.DataRadioBearer,headerCompression] = What type of header compression to use.<CR>Change takes effect: New connection.<CR>Default=NULL<CR>Range: 0
attr_description[Lrat.DataRadioBearer,pelr] = Defines the packet loss rate for this DRB. Note that the parameter shall be multiplied by 10^(-6) as indicated by the Unit.<CR>Change takes effect: New connection.<CR>Default=1<CR>Range: 1,1000,10000<CR>Unit: 0.000001 .
attr_description[Lrat.DataRadioBearer,tPollRetransmitDl] = Time lapsed before request for new poll if no STATUS report arrives for the Sequence Number that is contained in the DL RLC Data PDU where the poll bit is set.<CR>Change takes effect: Cell lock/unlock<CR>Default=80<CR>Range: 5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,300,350,400,450,500<CR>Unit: ms
attr_description[Lrat.DataRadioBearer,tPollRetransmitUl] = Time lapsed before request for new poll if no STATUS report arrives for the Sequence Number that is contained in the UL RLC Data PDU where the poll bit is set.<CR>Disturbances: Changing this attribute can cause significantly higher drop rate.<CR>Change takes effect: New connection.<CR>Default=80<CR>Range: 5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,300,350,400,450,500<CR>Unit: ms
attr_description[Lrat.DataRadioBearer,tStatusProhibitDl] = Time after sending STATUS report before a new STATUS report is allowed to be sent.<CR>Change takes effect: New connection.<CR>Default=25<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,300,350,400,450,500<CR>Unit: ms
attr_description[Lrat.DataRadioBearer,tStatusProhibitUl] = Time after sending STATUS report before a new STATUS report is allowed to be sent.<CR>Change takes effect: Cell lock/unlock<CR>Default=25<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,300,350,400,450,500<CR>Unit: ms
attr_description[Lrat.DataRadioBearer,ulMaxRetxThreshold] = Maximum number RLC re-transmissions in UL before stopping and indicating to RRC that the RLC threshold is reached.<CR>Disturbances: Lowering the value of this attribute can cause significantly higher drop rate.<CR>Change takes effect: New connection.<CR>Default=8<CR>Range: 1,2,3,4,6,8,16,32
attr_description[Lrat.DataRadioBearer,ulPollPDU] = Maximum number of PDUs before polling for a STATUS report.<CR>Special value: 0 means infinity.<CR>Change takes effect: New connection.<CR>Default=16<CR>Range: 0,4,8,16,32,64,128,256
attr_description[Lrat.DlComp,dlCompId] = The value component of the RDN.
attr_description[Lrat.DlComp,dlCompMeasRprtMaxSinr] = If no more than maximum SINR, a UE is considered as a candidate to use event A5 measurements in Downlink Coordinated Multi-Point.<CR>Change takes effect: Cell lock/unlock<CR>Default=60<CR>Range: -100 to 300<CR>Unit: 0.1 dB
attr_description[Lrat.DlComp,dlCompMeasRprtMinSinr] = If at least minimum SINR, a UE is considered as a candidate to use event A5 measurements in Downlink Coordinated Multi-Point.<CR>Change takes effect: Cell lock/unlock<CR>Default=-20<CR>Range: -100 to 300<CR>Unit: 0.1 dB
attr_description[Lrat.DrxProfile,drxInactivityTimer] = Specifies the number of consecutive PDCCH-subframe(s) after successfully decoding a PDCCH indicating an initial UL or DL user data transmission for this UE. TS36.331 ch. 6.3.2, RRC parameter drx-InactivityTimer.<CR>Change takes effect: Next cell unlock<CR>Default=PSF200<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22
attr_description[Lrat.DrxProfile,drxProfileId] = The value component of the RDN
attr_description[Lrat.DrxProfile,drxRetransmissionTimer] = Specifies the maximum number of consecutive PDCCH-subframe(s) for as soon as a DL retransmission is expected by the UE. TS36.331 ch. 6.3.2, RRC parameter drx-RetransmissionTimer.<CR>Change takes effect: Next cell unlock<CR>Default=PSF2<CR>Range: 0,1,2,3,4,5,6,7
attr_description[Lrat.DrxProfile,drxState] = Whether or not DRX is enabled for this profile. Hence if this DRX profile uses DRX.<CR>Change takes effect: Next cell unlock<CR>Default=ENABLED<CR>Range: 0,1
attr_description[Lrat.DrxProfile,longDrxCycleOnly] = The longDrxCycleOnly value is used as longDrxCycle when the UE does not support shortDrxCycle. The value of longDrxCycleOnly is in number of sub-frames.<CR>Change takes effect: Next cell unlock<CR>Default=SF160<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15
attr_description[Lrat.DrxProfile,longDrxCycle] = The value of longDrxCycle is in number of sub-frames.  If shortDrxCycle is configured, the value of longDrxCycle shall be a multiple of the shortDrxCycle value.<CR>Dependencies: Needs to be a multiple of shortDrxCycle<CR>Change takes effect: Next cell unlock<CR>Default=SF320<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15
attr_description[Lrat.DrxProfile,onDurationTimer] = Number of consecutive PDCCH-subframes at beginning of a DRX Cycle. TS36.331 ch. 6.3.2, RRC parameter onDurationTimer.<CR>Ericsson recommends to make shortDrxCycle value larger than onDurationTimer value.<CR>Change takes effect: Next cell unlock<CR>Default=PSF10<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15
attr_description[Lrat.DrxProfile,reservedBy] = Contains a list of QciProfile instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.ImeisvProfile[0-],Lrat.QciProfileOperatorDefined[0-],Lrat.QciProfilePredefined[0-]
attr_description[Lrat.DrxProfile,shortDrxCycleTimer] = Specifies the number of consecutive subframes the UE must follow the short DRX cycle after the DRX Inactivity Timer has expired. Value in multiples of shortDRX-Cycles. A value of 1 corresponds to 1 * shortDRX-Cycle, a value of 2 corresponds to 2 * shortDRX-Cycle and so on. Corresponds to 3GPP timer drxShortCycleTimer. The value 0 means that short DRX cycles are not used.<CR>Change takes effect: Next cell unlock<CR>Default=4<CR>Range: 0 to 16
attr_description[Lrat.DrxProfile,shortDrxCycle] = Consecutive subframes between on-duration phases, that is period of re-occurring on-duration phases. Parameter is applied when UE follows short DRX cycle. Parameter is ignored if shortDrxCycleTimer = 0, instead longDrxCycle is applied and UE follows long DRX cycle only. Corresponds to 3GPP information element shortDRX-Cycle.<CR>Ericsson recommends to make shortDrxCycle value larger than onDurationTimer value.<CR>Dependencies: If attribute shortDrxCycleTimer = 0, shortDrxCycles is not used.<CR>Change takes effect: Next cell unlock<CR>Default=SF40<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15
attr_description[Lrat.ENodeBFunction,adaptiveRlcRetxDl] = Shows if Adaptive RLC Retransmission in DL is active or not.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Default=false
attr_description[Lrat.ENodeBFunction,alignTtiBundWUlTrigSinr] = Configures UL quality measure type utilized for decisions on when to configure and de-configure TTI Bundling. If setting is 'ULTRIG' uplink SINR value from 'Uplink-Triggered Inter-Frequency Mobility' is used for TTI Bundling.<CR>Change takes effect: New connection<CR>Default=OFF<CR>Range: 0,1
attr_description[Lrat.ENodeBFunction,altNasBackTo] = Method to select an alternative MME when eNodeB sends back initial UE message to MME. Used when eNodeB fails to select valid MME by receiving reroute NAS request message that is defined in TS36.413 ch. 8.6.2.5.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=DEFAULT_DCN<CR>Range: 0,1
attr_description[Lrat.ENodeBFunction,bbVlanPortRef] = Refers to the VlanPort instance to use for configuring the EthernetPort VLAN for a set of BB links.<CR>isNillable: true<CR>Status Information: Since L17A. Replaced by eranVlanPortRef. Planned to be removed.<CR>Disturbances: Changing this attribute can affect traffic. A node restart is required.<CR>Change takes effect: At node restart
attr_description[Lrat.ENodeBFunction,biasThpWifiMobility] = In order to send a UE to WiFi, a throughput comparison is made between WiFi and LTE.<CR>For comparisons made in eNodeB, a UE is admitted to WiFi if, WiFi throughput > biasThpWifiMobility * LTE throughput.<CR>Disturbances: Changing this attribute can affect traffic<CR>Default=10<CR>Range: 1 to 100<CR>Unit: 0.1
attr_description[Lrat.ENodeBFunction,caAwareMfbiIntraCellHo] = Activation/deactivation of feature Intra-Cell Handover to Additional Band.<CR>Precondition: Requires support for the feature Multiple Frequency Band Indicators in the eNB.<CR>Default=false
attr_description[Lrat.ENodeBFunction,checkEmergencySoftLock] = Used to turn on and off the function for checking existence of emergency calls.<CR>Default=false
attr_description[Lrat.ENodeBFunction,combCellSectorSelectThreshRx] = Used for PUSCH sector selection in combined Cell. For each UE, all sectors received power are compared against the primary sector. Only the primary and the best sector that is below the threshold will be selected.<CR>Disturbances: Changes may affect Sector Selection.<CR>Change takes effect: Next cell unlock<CR>Default=300<CR>Range: 0 to 1800<CR>Unit: 0.1 dB
attr_description[Lrat.ENodeBFunction,combCellSectorSelectThreshTx] = Used for PDSCH and PHICH sector selection in combined Cell. For each UE, all sectors received power are compared against the primary sector. Sectors that are below the threshold will be selected.<CR>Disturbances: Changes may affect Sector Selection.<CR>Change takes effect: Next cell unlock<CR>Default=300<CR>Range: 0 to 1800<CR>Unit: 0.1 dB
attr_description[Lrat.ENodeBFunction,csfbMeasFromIdleMode] = When CS Fallback is requested for a UE in idle mode this parameter controls if measurements for release with redirect and handover must be performed. If the parameter is set to false a blind release with redirect is done.<CR>Dependencies: This parameter is only relevant for features 'Measurement-Based CSFB Target Selection' and 'PSHO-based CS Fallback to WCDMA' .<CR>Default=true
attr_description[Lrat.ENodeBFunction,csfbUseRegisteredLai] = Whether or not information about Registered LAI received during CS Fallback procedure is considered during selection of GERAN and UTRAN target frequencies.<CR>Precondition: This parameter is only relevant for feature 'CS Fallback to GERAN and UTRAN'.<CR>Default=false
attr_description[Lrat.ENodeBFunction,csmCovDiscoveryCycleTime] = Operation cycle time when coverage cell relations for a capacity cell are renewed, Used in feature Cell Sleep Mode.<CR>Default=24<CR>Range: 1 to 672<CR>Unit: hours
attr_description[Lrat.ENodeBFunction,csmMaxNoHighHitRateCells] = Maximum number of related cell that can be identified as high hit rate coverage cell by feature Cell Sleep Mode.<CR>Default=3<CR>Range: 1 to 10
attr_description[Lrat.ENodeBFunction,csmMinHighHitThreshold] = Minimum required hit rate to qualify a related cell as high hit rate coverage cell by feature Cell Sleep Mode.<CR>Default=70<CR>Range: 50 to 100<CR>Unit: %
attr_description[Lrat.ENodeBFunction,dlBbCapacityMaxLimit] = Max DL baseband capacity available on unlocked Baseband hardware.<CR>Maximum limit of DL capacity that can be granted by baseband HWAC. This level sets the limit at emergency unlock.<CR>Range: -1,0 to 65535<CR>Unit: Mbps
attr_description[Lrat.ENodeBFunction,dlBbCapacityNet] = Granted DL baseband capacity.<CR>Available capacity of corresponding Baseband HWAC property for all enabled Baseband HW.<CR>Range: -1,0 to 65535<CR>Unit: Mbps
attr_description[Lrat.ENodeBFunction,dlMaxWaitingTimeGlobal] = The targeted maximum allowed time between scheduling occasions of a DL bearer. A bearer that is not scheduled within the specified time is given higher priority. Value 0 means that the higher priority is never applied. It is recommended to set the value =< than the PDB. A value that is set too low can affect other services with higher priority.<CR>Dependencies: Only used for Resource Fair Scheduling algorithm. Only relevant if the license for Dynamic UE Admission Control is present and the feature is active.<CR>Specification: 3GPP TS 23.203<CR>Disturbances: Changing this attribute can affect performance of all data bearers. A value that is set too low can affect other services with higher priority. A value that is set too high can cause Dynamic UE Admission Control to fail in keeping the cell stable at overload.<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.ENodeBFunction,dnsLookupOnTai] = Controls if the Tracking Area Identity (TAI) is used to get IP addresses of MME nodes from the Domain Name System (DNS).<CR>The RBS uses TAI to automatically obtain all MME IP addresses from the DNS when dnsLookupOnTai is switched on, or at RBS start or restart.<CR>The MME IP address list is refreshed periodically and MME connections released and setup according to the new list. The MME IP address list can also be refreshed from OSS-RC.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=ON<CR>Range: 0,1
attr_description[Lrat.ENodeBFunction,dnsLookupTimer] = The interval to perform DNS Lookup to get potential new IP addresses of MME nodes. DNS lookup is performed for the TAI domain name. If the value is set to zero, then no periodic DNS Lookup is done.<CR>Default=0<CR>Range: 0 to 1000<CR>Unit: Hour
attr_description[Lrat.ENodeBFunction,dnsSelectionS1X2Ref] = Controls DNS selection for S1 and X2 lookups. If not set, DNS server on OAM network is used.<CR>For DU Radio Node it can be set to reference a DnsResolver, and DNS queries are resolved using referenced DnsResolver (typically using DNS server on transport network).<CR>For Baseband Radio Node it can be set to reference a DnsClient, and DNS queries are resolved using referenced DnsClient (typically using DNS server on transport network).<CR>isNillable: true<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Precondition: To enable this attribute DNS servers must support EDNS0.
attr_description[Lrat.ENodeBFunction,dscpLabel] = Static mapping of DiffServ label for control messages, Performance Management (PM), and Non-Access Stratum (NAS).<CR>Dependencies: Will only be used then dscpUsage is active.<CR>Change takes effect: Node restart<CR>Default=24<CR>Range: 0 to 63
attr_description[Lrat.ENodeBFunction,eNBId] = The ENodeB ID that forms part of the Cell Global Identity, and is also used to identify the node over the S1 interface.<CR>Change takes effect: At node restart<CR>Default=-1<CR>Range: -1 to 1048575
attr_description[Lrat.ENodeBFunction,eNodeBFunctionId] = The value component of the RDN.
attr_description[Lrat.ENodeBFunction,eNodeBPlmnId] = The ENodeB Public Land Mobile Network (PLMN) ID that forms part of the ENodeB Global ID used to identify the node over the S1 interface.<CR>Note: The value (MCC=001, MNC=01) indicates that the PLMN is not initiated. The value can not be used as a valid PLMN Identity.<CR>Change takes effect: At node restart
attr_description[Lrat.ENodeBFunction,enabledUlTrigMeas] = Enables or disables the UL SINR max measurements and event triggers for the UL quality. Only has effect if license for Uplink-Triggered Inter-Frequency Mobility is not installed.<CR>Default=false
attr_description[Lrat.ENodeBFunction,eranVlanPortRef] = VlanPort instance that can be used to set up EranInterMeLinks and BbLinks. Used as default when no value is specified for ExternalENodeBFunction::eranVlanPortRef.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic. A node restart is required.<CR>Change takes effect: Node restart
attr_description[Lrat.ENodeBFunction,estimateBasedPdcchCandSelection] = Switch to enable/disable optimization of DL and UL selection of PDCCH candidates.<CR>Change takes effect: Cell lock/unlock<CR>Default=true
attr_description[Lrat.ENodeBFunction,extendedWaitTimeNb] = Wait time. Used for Narrow Band IoT RRC Connection Reject. If 0, value range is random.<CR>Default=0<CR>Range: 0 to 1800<CR>Unit: s
attr_description[Lrat.ENodeBFunction,forcedSiTunnelingActive] = Specifies whether or not the functionality to send NACC information, regardless of UE capability, is activated, provided that the feature Redirect with System Information is active.<CR>Default=false
attr_description[Lrat.ENodeBFunction,gtpuErrorIndicationDscp] = DSCP value used for outgoing GTP-U error indication messages.<CR>Default=40<CR>Range: 0 to 63
attr_description[Lrat.ENodeBFunction,inactivitySupervisionTimerNb] = Inactivity supervision timer for NbIot cells with Cell Maximum Coverage (CMC). 0 means disable timer.<CR>Default=100,150,200 MinLength=0 MaxLength=3 Default=100,150,200<CR>Range: 0 to 2000<CR>Unit: 0.1 s
attr_description[Lrat.ENodeBFunction,initPreschedulingEnable] = Indicates that prescheduling is enabled during connection setup phase.<CR>Change takes effect: Object unlocked<CR>Default=true
attr_description[Lrat.ENodeBFunction,interEnbCaTunnelDscp] = DSCP value used for outgoing inter-eNB CA packets on X2.<CR>It is recommended to set this to the same value as "QCI9 - Non-GBR TCP Default Bearer", as inter-eNB CA benefits should be treated as opportunistic and not allowed to interfere with baseline LTE performance.<CR>Disturbances: Changing this attribute can also affect other X2 traffic than CA packets.<CR>Change takes effect: Next tunnel setup<CR>Default=14<CR>Range: 0 to 63
attr_description[Lrat.ENodeBFunction,interEnbUlCompTunnelDscp] = DSCP value used for outgoing inter-eNodeB UL CoMP packets on X2. Set to same value as "QCI9 - Non-GBR TCP Default Bearer". Treat inter-eNodeB UL CoMP benefits as opportunistic and do not allow it to interfere with baseline LTE performance.<CR>Change takes effect: Next tunnel setup<CR>Default=14<CR>Range: 0 to 63
attr_description[Lrat.ENodeBFunction,ipsecEpAddressRef] = The local outer address used for this node. Reference to an AddressIPv4 MO or an IpAccessHostEt MO.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic.
attr_description[Lrat.ENodeBFunction,licCapDistrMethod] = Used to set how the licensed capacity will be distributed between the baseband processing resources<CR>Default=SYSTEM<CR>Range: 0,1
attr_description[Lrat.ENodeBFunction,licConnectedUsersPercentileConf] = The percentile to use for the counter pmLicConnectedUsersActual.<CR>Default=90<CR>Range: 1 to 100<CR>Unit: %
attr_description[Lrat.ENodeBFunction,licDlBbPercentileConf] = The percentile to use for the counter BbProcessingResource::pmLicDlCapActual.<CR>Default=90<CR>Range: 1 to 100<CR>Unit: %
attr_description[Lrat.ENodeBFunction,licDlPrbPercentileConf] = The percentile to use for the counter BbProcessingResource::pmLicDlPrbCapActual.<CR>Default=90<CR>Range: 1 to 100<CR>Unit: %
attr_description[Lrat.ENodeBFunction,licUlBbPercentileConf] = The percentile to use for the counter BbProcessingResource::pmLicUlCapActual.<CR>Default=90<CR>Range: 1 to 100<CR>Unit: %
attr_description[Lrat.ENodeBFunction,licUlPrbPercentileConf] = The percentile to use for the counter BbProcessingResource::pmLicUlPrbCapActual.<CR>Default=90<CR>Range: 1 to 100<CR>Unit: %
attr_description[Lrat.ENodeBFunction,limitNonCriticalFeaturesInHighLoad] = This attribute determines whether non-critical features shall be limited when there is high load according to MP Load Management. When set to false, non-critical features may give negative impact on KPIs due to high MP load.<CR>Default=true
attr_description[Lrat.ENodeBFunction,maxNoCellsNaccCsfb] = Maximum number of NACC elements, where one NACC element corresponds to one cell, that can be included in an RRC Connection Release 3GPP TS 36.331 message triggered by CS Fallback, provided that the feature Redirect with System Information is active.<CR>Default=4<CR>Range: 0 to 16
attr_description[Lrat.ENodeBFunction,maxNoCellsNaccSessionCont] = Maximum number of NACC elements, where one NACC element corresponds to one cell,  that can be included in an RRC Connection Release 3GPP TS 36.331 message triggered by Session Continuity (bad coverage), cell, provided that the feature Redirect with System Information is active.<CR>Default=4<CR>Range: 0 to 16
attr_description[Lrat.ENodeBFunction,maxNrOfInterEnbUlCompLbm] = Max number of inter-eNodeB UL CoMP candidate LBMs for each serving or cooperating LBM.<CR>Change takes effect: Next tunnel setup<CR>Default=6<CR>Range: 0 to 10
attr_description[Lrat.ENodeBFunction,maxRandc] = Rand range datatype is the eight most significant bits (MSB) of the Rand used for authentication.<CR>This attribute controls the maximum random number value that can be generated. Typically a range of random numbers is allocated to each system using this attribute.<CR>Dependencies: maxRandc > minRandc<CR>Default=255<CR>Range: 2 to 255
attr_description[Lrat.ENodeBFunction,measuringEcgiWithAgActive] = Configures use of autonomous gap as method of CGI measurement. If enabled, capable UEs are configured to use autonomous gap for CGI measurement to target LTE or UTRAN cell.<CR>Dependencies: This attribute is effective only when ANR for LTE or UTRAN feature is activated.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.ENodeBFunction,mfbiSupportPolicy] = A policy parameter that sets the start value of the attribute mfbiSupport when an ExternalENodeBFunction is automatically created by the eNodeB.<CR>Default=false
attr_description[Lrat.ENodeBFunction,mfbiSupport] = Specifies whether the feature Multiple Frequency Band Indicators is supported in the eNB.
attr_description[Lrat.ENodeBFunction,mimoSleepNoOfPrbAvg] = Number of PRB usage samples that show the average during MIMO Sleep function or cell sleep function detection monitoring period.<CR>Default=5<CR>Range: 1 to 50
attr_description[Lrat.ENodeBFunction,mimoSleepNoOfRrcConnAvg] = Number of RRC connection samples that show the average during MIMO Sleep function or cell sleep function detection monitoring period.<CR>Default=5<CR>Range: 1 to 50
attr_description[Lrat.ENodeBFunction,mimoSleepUpExtraTime] = Extra time given to emergency calls and QCI=1 calls before switching UP for MIMO Sleep function.<CR>Precondition: sleepMode must not be set to "OFF".<CR>Default=10<CR>Range: 1 to 60<CR>Unit: minutes
attr_description[Lrat.ENodeBFunction,minPagingRefillUnits] = The attribute specifies the minimum number of tokens that are allowed to be refilled in the token buckets for paging. One token corresponds to one paging message.<CR>Change takes effect: At node restart<CR>Default=5<CR>Range: 0 to 100
attr_description[Lrat.ENodeBFunction,minRandc] = Rand range datatype is the eight most significant bits (MSB) of the Rand used for authentication.<CR>This attribute controls the minimum random number value that can be generated. Typically a range of random numbers is allocated to each system using this attribute.<CR>Dependencies: minRandc < maxRandc<CR>Default=1<CR>Range: 1 to 254
attr_description[Lrat.ENodeBFunction,mtRreWithoutNeighborActive] = Enables or disables the RRC Connection Reestablishment in source cell when there is no target neighbor cell information.<CR>Dependencies: This attribute is only effective when feature Multi-Target RRC Connection Reestablishment is activated.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.ENodeBFunction,multiTargetRrcConnReestPfActive] = Controls if packet forwarding shall be performed during multi target RRC connection reestablishment.<CR>Default=true
attr_description[Lrat.ENodeBFunction,nnsfMode] = The mode used by the RBS for the non-access stratum node selection.<CR>Regardless of the mode used, the function attempts to:<CR>- Reconnect every UE to its registered MME in any of the tracking areas of the cell.<CR>- Distribute the UEs that are not reconnected among MMEs that serve the Public Land Mobile Network selected by each UE.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=RPLMN_IF_SAME_AS_SPLMN<CR>Range: 0,1,2
attr_description[Lrat.ENodeBFunction,prioritizeAdditionalBands] = When enabled, additional frequency bands have higher priority than primary frequency band in secondary cell evaluation.<CR>Precondition: useBandPrioritiesInSCellEval must be enabled.<CR>Default=false
attr_description[Lrat.ENodeBFunction,pwsPersistentStorage] = Decides whether or not PWS data must be persistently stored.<CR>Default=OFF<CR>Range: 0,1
attr_description[Lrat.ENodeBFunction,randCdma20001xRtt] = Rand initial value used for authentication input to the RAND generation algorithm in eNodeB<CR>The RAND-CDMA2000 concerns a random value, generated by the eNodeB, to be passed to the UE and MME.
attr_description[Lrat.ENodeBFunction,randUpdateInterval] = Random number update interval<CR>This attribute specifies the time interval in minutes between random number generation. When this interval expires, the eNodeB generates a new random number between MinRandc and MaxRandc.<CR>Default=200<CR>Range: 15 to 1440<CR>Unit: minutes
attr_description[Lrat.ENodeBFunction,releaseInactiveUesEnable] = Controls if the release of inactive UEs at handover shall be enabled.<CR>Status Information: Since L16A. Has no functional behavior. Planned to be removed.<CR>Default=false
attr_description[Lrat.ENodeBFunction,releaseInactiveUesInactTime] = Inactivity time value to be used to decide release of inactive UEs at handover.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1<CR>Range: 0 to 32767<CR>Unit: s
attr_description[Lrat.ENodeBFunction,releaseInactiveUesMpLoadLevel] = Minimum MP load level at which inactive UEs are released at handover.<CR>Default=VERY_HIGH_LOAD<CR>Range: 0,1,2
attr_description[Lrat.ENodeBFunction,release] = The product release of the ManagedFunction.<CR>It commonly contains the Managed Function release, for example  L12.0, 13A, R1A
attr_description[Lrat.ENodeBFunction,rrcConnReestActive] = Indicates if the feature RRC Connection Reestablishment is ACTIVATED or DEACTIVATED.<CR>Default=false
attr_description[Lrat.ENodeBFunction,s1GtpuEchoDscp] = DSCP value used for outgoing GTP-U echo request packets on S1-U.<CR>Default=14<CR>Range: 0 to 63
attr_description[Lrat.ENodeBFunction,s1GtpuEchoEnable] = If the node monitors and measures delay for all S1-U termination points or not.<CR>Default=DISABLED<CR>Range: 0,1
attr_description[Lrat.ENodeBFunction,s1GtpuEchoFailureAction] = S1-U failure action.<CR>Default=NONE<CR>Range: 0,1
attr_description[Lrat.ENodeBFunction,s1HODirDataPathAvail] = S1 Handover data forwarding can be of two types, direct and indirect. Direct forwarding requires direct connectivity between source and target eNodeB. This parameter is used to indicate if such direct connectivity exist.<CR>Dependencies: Optional Feature Data Forwarding at S1 Handover<CR>Disturbances: Changing this attribute can cause loss of traffic. Possible throughput degradation at S1 HO.<CR>Default=false
attr_description[Lrat.ENodeBFunction,s1RetryTimer] = Defines the frequency to perform re-establishment of SCTP and S1-AP connection,<CR>when the connection to a MME is lost.<CR>Default=30<CR>Range: 1 to 300<CR>Unit: s
attr_description[Lrat.ENodeBFunction,sctpRef] = Refers to SCTP instance used to configure SCTP host for S1 and X2 connections unless specified by sctpX2Ref.<CR>isNillable: true<CR>Change takes effect: At node restart
attr_description[Lrat.ENodeBFunction,sctpX2Ref] = Refers to the SCTP endpoint for X2 control connections.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: Node restart
attr_description[Lrat.ENodeBFunction,sizeThreshDciFormat1A] = Force DCI Format 1A for small packets on the PDSCH channel to reduce the PDCCH usage. The value in bytes states the upper size threshold to force DCI format 1A. Value 0 equals to turning off the DCI format 1A for small packets.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 1000<CR>Unit: bytes
attr_description[Lrat.ENodeBFunction,softLockRwRWaitTimerInternal] = Length of waiting time before soft-lock of cell starts to release all ongoing calls with Release with Redirect (RwR), when eNodeB internally triggers soft-lock of cell.<CR>Default=60<CR>Range: 20 to 80<CR>Unit: s
attr_description[Lrat.ENodeBFunction,softLockRwRWaitTimerOperator] = Length of waiting time before soft-lock of cell starts to release all ongoing calls with Release with Redirect (RwR), when operator triggers soft-lock of cell.<CR>Default=60<CR>Range: 20 to 80<CR>Unit: s
attr_description[Lrat.ENodeBFunction,tOutgoingHoExecCdma1xRtt] = Supervision timer of the outgoing LTE to CDMA 1xRtt handover execution procedure.<CR>Change takes effect: Cell lock/unlock<CR>Default=5<CR>Range: 1 to 32000<CR>Unit: s
attr_description[Lrat.ENodeBFunction,tRelocOverallValue] = Supervision timer of the outgoing S1/X2/intra-eNodeB handover execution procedure according to 3GPP TS 36.413 and TS 36.423.<CR>If the feature Multi-Target RRC Connection Re-establishment is active this timer also supervises the Context Fetch procedure.<CR>Status Information: Since L16B. Replaced by attribute tRelocOverall. Planned to be removed.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 32000<CR>Unit: s
attr_description[Lrat.ENodeBFunction,tRelocOverall] = Supervision timer of the outgoing S1/X2/intra-eNodeB handover execution procedure according to 3GPP TS 36.413 and TS 36.423.<CR>If the feature Multi-Target RRC Connection Re-establishment is active this timer also supervises the Context Fetch procedure.<CR>Disturbances: Low values can stop outgoing HO.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 20<CR>Unit: s
attr_description[Lrat.ENodeBFunction,tS1HoCancelTimer] = The timeout time for receiving HANDOVER CANCEL ACKNOWLEDGE after RBS sent HO CANCEL message to MME.<CR>Value specifies supervision time of outgoing S1 HO Cancellation according to procedure described in 3GPP TS 36.413 section 8.4.5.<CR>Change takes effect: Ongoing connection<CR>Default=3<CR>Range: 1 to 30<CR>Unit: s
attr_description[Lrat.ENodeBFunction,tddVoipDrxProfileId] = DrxProfile ID used for TDD VOIP bearers on a mixed FDD/TDD eNodeB. The default value results in TDD using the same DrxProfile as FDD for VOIP bearers.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1 to 17
attr_description[Lrat.ENodeBFunction,timeAndPhaseSynchAlignment] = If set to true, any time and phase synchronization accuracy-dependent feature is deactivated or degraded if its time and phase synchronization accuracy is not fulfilled.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.ENodeBFunction,timeAndPhaseSynchCritical] = If set to true, the cell will be disabled if the time and phase synchronization accuracy of the eNodeB is not fulfilled.<CR>Default=false
attr_description[Lrat.ENodeBFunction,timePhaseMaxDevIeNBUlComp] = Max deviation for time and phase synchronization of eNodeB allowed for inter-eNodeB UL CoMP to function. If exceeded, service for inter-eNodeB UL CoMP is deactivated.<CR>Dependencies: timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Traffic can be affected if this attribute is changed. It can cause malfunction of inter-eNodeB UL CoMP feature due to time and phase deviation for time and phase synchronization between two eNodeBs.<CR>Default=30<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationCdma2000] = The maximum allowed time and phase deviation for time and phase synchronization of the eNodeB. It is the deviation that is allowed for features related to CDMA2000 fallback and handover to function. When the limit is exceeded, some of the functionality is deactivated.<CR>Disturbances: Traffic can be affected if this attribute is changed. It can cause malfunction of the features related to CDMA2000 due to the time and phase deviation for time and phase synchronization of the eNodeB.<CR>Default=100<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationEdrx] = Max allowed deviation for time and phase synchronization of eNodeB for Idle Mode eDRX. Highest value recommended is 50. If higher, deviation is too large for efficient synchronization.<CR>Disturbances: Changing this attribute may affect traffic.<CR>Default=10<CR>Range: 1 to 200<CR>Unit: 100 ms
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationIeNbCa] = The maximum allowed time and phase deviation for time and phase synchronization of the eNodeB. It is the maximum deviation that is allowed for Carrier Aggregation to function. When the limit is exceeded, inter-eNB CA or eRAN CA is deactivated. Takes effect immediately.<CR>Dependencies: Only effective if timeAndPhaseSynchAlignment is true.<CR>Disturbances: Traffic can be affected if this attribute is changed. It can cause malfunction of the inter-eNB CA or eRAN CA feature due to the time and phase deviation for time and phase synchronization between two eNodeBs.<CR>Default=30<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationMbms] = The maximum allowed time and phase deviation for time and phase synchronization of the eNodeB. It is the deviation that is allowed for Multimedia Broadcast Multicast Service (MBMS) to function. When the limit is exceeded, the service is deactivated.<CR>Disturbances: Traffic can be affected if this attribute is changed. It can cause malfunction of the Multimedia Broadcast Multicast Service (MBMS) due to the time and phase deviation for time and phase synchronization of the eNodeB.<CR>Default=50<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationOtdoa] = The maximum allowed time and phase deviation for time and phase synchronization of the eNodeB. It is the deviation that is allowed for Observed Time Difference of Arrival (OTDOA) Support to function. When the limit is exceeded, the service is deactivated.<CR>Disturbances: Traffic can be affected if this attribute is changed. It can cause malfunction of the Observed Time Difference of Arrival (OTDOA) Support feature due to the time and phase deviation for time and phase synchronization of the eNodeB.<CR>Default=9<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationSib16] = The maximum allowed time and phase deviation for time and phase synchronization of the eNodeB. It is the deviation that is allowed for SIB16 Time Information Broadcast feature to function. When the limit is exceeded, the feature is deactivated.<CR>Disturbances: Traffic can be affected if this attribute is changed. It can cause malfunction of the SIB16 Time Information Broadcast due to the time and phase deviation for time and phase synchronization of the eNodeB.<CR>Default=100<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationTdd1] = Max allowed deviation for time and phase synchronization of eNodeB for TDD cells. If exceeded, TDD cells that use this limit are disabled.<CR>Dependencies: timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=15<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationTdd2] = Max allowed deviation for time and phase synchronization of eNodeB for TDD cells. If exceeded, TDD cells that use this limit are disabled.<CR>Dependencies: timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=15<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationTdd3] = Max allowed deviation for time and phase synchronization of eNodeB for TDD cells. If exceeded, TDD cells that use this limit are disabled.<CR>Dependencies: timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=15<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationTdd4] = Max allowed deviation for time and phase synchronization of eNodeB for TDD cells. If exceeded, TDD cells that use this limit are disabled.<CR>Dependencies: timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=15<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationTdd5] = Max allowed deviation for time and phase synchronization of eNodeB for TDD cells. If exceeded, TDD cells that use this limit are disabled.<CR>Dependencies: timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=15<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationTdd6] = Max allowed deviation for time and phase synchronization of eNodeB for TDD cells. If exceeded, TDD cells that use this limit are disabled.<CR>Dependencies: timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=15<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationTdd7] = Max allowed deviation for time and phase synchronization of eNodeB for TDD cells. If exceeded, TDD cells that use this limit are disabled.<CR>Dependencies: timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=15<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviationTdd] = Max allowed deviation for time and phase synchronization of eNodeB for TDD cells. If exceeded, TDD cells that use this limit are disabled.<CR>Dependencies: timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=15<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseMaxDeviation] = Defines the maximum allowed time/phase deviation for time/phase synchronization of the eNodeB.<CR>Dependencies: This parameter is relevant when the parameter timeAndPhaseSynchCritical has the value true.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=100<CR>Range: 9 to 100<CR>Unit: 0.1 microseconds
attr_description[Lrat.ENodeBFunction,timePhaseSyncStateEdrx] = Set to false when the Idle Mode eDRX feature is degraded due to time and phase synchronization accuracy requirements not fulfilled, otherwise it is set to true.
attr_description[Lrat.ENodeBFunction,timePhaseSyncStateIeNBUlComp] = Set to false when inter-eNodeB UL CoMP feature is degraded due to time and phase synchronization accuracy requirements not fulfilled, otherwise it is set to true.
attr_description[Lrat.ENodeBFunction,timePhaseSynchStateCdma2000] = Set to false when the features related to CDMA2000 are degraded due to time and phase synchronization accuracy requirements not fulfilled, otherwise it is set to true.
attr_description[Lrat.ENodeBFunction,timePhaseSynchStateMbms] = Set to false when the Multimedia Broadcast Multicast Service (MBMS) feature is degraded due to time and phase synchronization accuracy requirements not fulfilled, otherwise it is set to true.
attr_description[Lrat.ENodeBFunction,timePhaseSynchStateOtdoa] = Set to false when the Observed Time Difference of Arrival (OTDOA) feature is degraded due to time and phase synchronization accuracy requirements not fulfilled, otherwise it is set to true.
attr_description[Lrat.ENodeBFunction,timePhaseSynchStateSib16] = Set to false when the SIB16 Time Information Broadcast feature is degraded due to time and phase synchronization accuracy requirements not fulfilled, otherwise it is set to true.
attr_description[Lrat.ENodeBFunction,ulBbCapacityMaxLimit] = Max UL baseband capacity available on unlocked Baseband hardware.<CR>Maximum limit of UL capacity that can be granted by baseband HWAC. This level sets the limit at emergency unlock.<CR>Range: -1,0 to 65535<CR>Unit: Mbps
attr_description[Lrat.ENodeBFunction,ulBbCapacityNet] = Granted UL baseband capacity.<CR>Available capacity of corresponding Baseband HWAC property for all enabled Baseband HW.<CR>Range: -1,0 to 65535<CR>Unit: Mbps
attr_description[Lrat.ENodeBFunction,ulMaxWaitingTimeGlobal] = The targeted maximum allowed time between scheduling occasions of an UL bearer. A bearer that is not scheduled within the specified time is given higher priority. Value 0 means that the higher priority is never applied. It is recommended to set the value =< than the PDB. A value that is set too low can affect other services with higher priority.<CR>Dependencies: Only used for Resource Fair Scheduling algorithm. Only relevant if the license for Dynamic UE Admission Control is present and the feature is active.<CR>Specification: 3GPP TS 23.203<CR>Disturbances: Changing this attribute can affect performance of all data bearers. A value that is set too low can affect other services with higher priority. A value that is set too high can cause Dynamic UE Admission Control to fail in keeping the cell stable at overload.<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.ENodeBFunction,ulSchedulerDynamicBWAllocationEnabled] = Specifies if the advanced UL scheduler is enabled<CR>Default=true
attr_description[Lrat.ENodeBFunction,upIpAddressRef] = Refers to IpAccessHostEt or AddressIPv4/AddressIPv6 instance to configure IP address for S1 and X2 user plane connections unless specified by upX2IpAddressRef.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic. A node restart is required.<CR>Change takes effect: At node restart
attr_description[Lrat.ENodeBFunction,upX2IpAddressRef] = Refers to the IpAccessHostEt or AddressIPv4/AddressIPv6 instance to use for configuring the IP address for X2 user plane connections.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: Node restart
attr_description[Lrat.ENodeBFunction,useBandPrioritiesInSCellEval] = When enabled, secondary cell evaluation is done according to priorities in prioritizeAdditionalBands and EUtranCellFDD/EUtranCellTDD::prioAdditionalFreqBandList.<CR>Precondition: caAwareMfbiIntraCellHo must be enabled.<CR>Default=false
attr_description[Lrat.ENodeBFunction,useBandPrioritiesInSib1] = When enabled, prioritized additional frequency band list is broadcasted in SIB1 according to priorities in EUtranCellFDD/EUtranCellTDD::prioAdditionalFreqBandList.<CR>Precondition: Requires support for the feature Multiple Frequency Band Indicators in the eNB.<CR>Default=false
attr_description[Lrat.ENodeBFunction,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ENodeBFunction,x2BlackList] = A list of blacklisted RBS IDs. X2 may not be set up to any neighbor RBS in the blacklist.<CR>Disturbances: If an eNB is added to the list, any termPointToEnb for this external eNB is removed.<CR>MinLength=0 MaxLength=64
attr_description[Lrat.ENodeBFunction,x2GtpuEchoDscp] = DSCP value used for outgoing GTP-U echo request packets on X2-U.<CR>Default=14<CR>Range: 0 to 63
attr_description[Lrat.ENodeBFunction,x2GtpuEchoEnable] = If the node monitors and measures delay for all X2-U termination points or not.<CR>Default=DISABLED<CR>Range: 0,1
attr_description[Lrat.ENodeBFunction,x2IpAddrViaS1Active] = Indicates if the function X2 IP addresses over S1 is active in the RBS.<CR>Default=true
attr_description[Lrat.ENodeBFunction,x2SetupTwoWayRelations] = This parameter indicates if two way relations shall be setup during X2 setup and eNB configuration. The RBS creates a two-way relation for each entry in the received neighbour information that contains a relation to a source cell. Neighbour information is sent in X2 setup and eNB configuration. Neighbour information is eUtranCellRelations per source cell from the sending node.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.ENodeBFunction,x2WhiteList] = The list of whitelisted RBS IDs. Automated Neighbor Relations (ANR) is not allowed to disconnect X2 for any neighbor RBS in the whitelist.<CR>MinLength=0 MaxLength=64
attr_description[Lrat.ENodeBFunction,x2retryTimerMaxAuto] = See attribute x2RetryTimerStart.<CR>Default=1440<CR>Range: 0 to 60000<CR>Unit: minute
attr_description[Lrat.ENodeBFunction,x2retryTimerStart] = After failed X2 setup and after X2 link break the x2RetryTimer is used to control the time till next retry. x2RetryTimer is used for DNS, SCTP, X2AP retries and x2IpAddrViaS1.<CR>After first failed setup or missing IP address from DNS, x2RetryTimer = max(x2RetryTimerStart,W), where W is the timeToWait received in x2SetupFail. If W is not received, W=0.<CR>After link break, x2RetryTimer = random(0,x2RetryTimerStart). If the first setup after link break fails, the timer values according to the above and below paragraphs shall apply as for failed initial setup.<CR>After 2nd and following fails, if the X2 connection is not being setup by ANR in the S-RBS, x2RetryTimer = max(x2RetryTimerStart,W).<CR>After 2nd and following fails, if the X2 connection is being setup by ANR in the S-RBS, x2RetryTimer = max(min[2^(n-2)*x2RetryTimerStart, x2retryTimerMaxAuto], W), where n is failure number.<CR>Each W is only used in the first retry after it is received.<CR>Default=30<CR>Range: 0 to 1000<CR>Unit: s
attr_description[Lrat.ENodeBFunction,zzzTemporary10] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary11] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary12] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary13] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary14] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by UeMeasControl::bothA5RsrpRsrqCheck. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary15] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary16] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary17] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary18] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary19] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by the attribute mfbiSupportPolicy. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ENodeBFunction,zzzTemporary20] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A.  Replaced by attribute tddVoipDrxProfileId.  Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary21] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary22] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary23] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary24] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary25] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary26] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary27] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by attribute EUtranCellFDD/EUtranCellTDD::servOrPrioIFHoSetupBearer. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary28] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary29] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by caAwareMfbiIntraCellHo. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ENodeBFunction,zzzTemporary30] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by attribute CarrierAggregationFunction::waitForBlindSelSCellRepLessTtt. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary31] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary32] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary33] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary34] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary35] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary36] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary37] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary38] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by attributes CarrierAggregationFunction::enhancedSelectionOfMimoAndCa and CarrierAggregationFunction::fourLayerMimoPreferred. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary39] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ENodeBFunction,zzzTemporary40] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary41] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary42] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary43] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ENodeBFunction,zzzTemporary44] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary45] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary46] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary47] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary48] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary49] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by sctpX2Ref. Planned to be removed.
attr_description[Lrat.ENodeBFunction,zzzTemporary50] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary51] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary52] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary53] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary54] = Temporary attributes are intended for temporary solutions. Usage depends on installed software. Set attribute only for desired functionality and leave all other temporary attributes at default value. CPI info documents override information in descriptions about what attributes are used. Later releases can use another attribute to control functionality or remove the functionality altogether. If so, changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary55] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary56] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary57] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary58] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ENodeBFunction,zzzTemporary5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ENodeBFunction,zzzTemporary6] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ENodeBFunction,zzzTemporary7] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ENodeBFunction,zzzTemporary8] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ENodeBFunction,zzzTemporary9] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtraNetwork,eUtraNetworkId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.EUtraNetwork,userLabel] = User-defined alphanumeric label, maximum 128 characters including spaces.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.EUtranCellFDD,acBarringForCsfb] = Access class barring parameters for mobile originating CSFB calls.<CR>The information is broadcasted in SIB2.<CR>Disturbances: Changing this attribute can cause loss of traffic.
attr_description[Lrat.EUtranCellFDD,acBarringForEmergency] = Access class barring for  Emergency, which corresponds to access class 10.<CR>Disturbances: Changing this attribute can block emergency calls.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,acBarringForMoData] = Access class barring parameters for mobile originating calls.<CR>The information in broadcasted in SIB2.<CR>Disturbances: Changing this attribute can block data calls.
attr_description[Lrat.EUtranCellFDD,acBarringForMoSignalling] = Access class barring parameters for mobile originating signalling.<CR>The information in broadcasted in SIB2.<CR>Disturbances: Changing this attribute can block originating traffic.
attr_description[Lrat.EUtranCellFDD,acBarringInfoPresent] = Specifies presence of Information Element ac-BarringInfo in SIB2.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,acBarringPresence] = Specifies if Access Class Barring is present in SIB2.<CR>Disturbances: Changing this attribute can cause loss of traffic.
attr_description[Lrat.EUtranCellFDD,acBarringSkipForMmtelVideo] = Indicates whether or not access attempts for MMTEL video from UEs are to skip Access Class Barring functionality.<CR>Disturbances: Changing this attribute can block Video calls.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,acBarringSkipForMmtelVoice] = Indicates whether or not access attempts for MMTEL voice from UEs are to skip Access Class Barring functionality.<CR>Disturbances: Changing this attribute can block VoLTE calls.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,acBarringSkipForSms] = Indicates whether or not access attempts for SMS over SGs or SMS over IP from UEs are to skip Access Class Barring functionality.<CR>Disturbances: Changing this attribute can block sms.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,activeMtdMeasurements] = Array with all active Local Measurements on this MO.<CR>Measurement types for this attribute are TBD.<CR>Up to 10 measurements can be active.<CR>MinLength=0 MaxLength=10<CR>Range: 0 to 255
attr_description[Lrat.EUtranCellFDD,activePlmnList] = Lists the PLMN IDs served by at least one MME. The PLMN ID is defined in the attribute eNodeBPlmnId in the parent ENodeBFunction. PLMN IDs from additionalPlmnList also appear in this list. The list may include up to 6 PLMNs.<CR>MinLength=0 MaxLength=6
attr_description[Lrat.EUtranCellFDD,activeServiceAreaId] = The active MBMS Service Area Identity. The content of this attribute is either empty or has the value of the attribute MbsfnArea::serviceAreaId for one or more MbsfnArea MOs. Purpose of this attribute is to support OSS SNAD functionality. This attribute is mirrored by OSS to ExternalEUtranCellFDD/TDD.<CR>Dependencies: A (configured) MbsfnArea::serviceAreaId becomes Active ServiceAreaId if:<CR>- the MBMS Multicarrier feature is activated<CR>- the cell has an unreserved MBSFNAreaCellRelation to an UNLOCKED MBSFNArea<CR>- time and phase synchronization accuracy fulfills requirements for LTE Broadcast<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 65535
attr_description[Lrat.EUtranCellFDD,adaptiveCfiHoProhibit] = Controls adaptive CFI to avoid using CFI=1 or CFI=1,2, when scheduling UEs that are in handover. The highest CFI value in available CFI values determined by pdcchCfiMode is not prohibited.<CR>Dependencies: Applicable only when attribute pdcchCfiMode is set to CFI_AUTO_MAXIMUM_2 or CFI_AUTO_MAXIMUM_3.<CR>Change takes effect: Cell lock/unlock<CR>Default=NO_HO_PROHIBIT_CFI<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,additionalFreqBandList] = A list of additional frequency bands the cell belongs to, not including the frequency band indicated by the EARFCN value of the cell (primary frequency band). The list is automatically set by the eNB. These additional frequency bands are broadcasted to the UEs in SystemInformationBlockType1 in case the feature Multiple Frequency Band Indicators is enabled in the cell.<CR>MinLength=0 MaxLength=8<CR>Range: 1 to 256
attr_description[Lrat.EUtranCellFDD,additionalPlmnAlarmSupprList] = The list of PLMN IDs in the cell indicates if they are suppressed for alarms PLMN Service Degraded and PLMN Service Unavailable when PLMN  is not available in the cell.<CR>The PLMN ID appearing in additionalPlmnList[x] is suppressed when additionalPlmnAlarmSupprList[x] is true.<CR>If the configured PLMN ID is not a served PLMN ID, then the alarm is suppressed independent of the configured settings.<CR>Dependencies: The length of this list must be the same as the list in addtionalPlmnList.<CR>MinLength=0 MaxLength=5 Default=false,false,false,false,false
attr_description[Lrat.EUtranCellFDD,additionalPlmnList] = Lists additional PLMN IDs supported in the cell.<CR>The list may include up to 5 PLMNs, and they must be the same in all EUtranCells in the node.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.EUtranCellFDD,additionalPlmnReservedList] = For the list of PLMN IDs in the cell, indicates if they are reserved for operator use. The list must have the same number of entries as additonalPlmnList. The PLMN ID appearing in additionalPlmnList[x] is reserved when additionalPlmnListReserved[x] is set to true.<CR>Dependencies: The length of this list must be the same as the list in addtionalPlmnList.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>MinLength=0 MaxLength=5 Default=false,false,false,false,false
attr_description[Lrat.EUtranCellFDD,additionalSpectrumEmissionValues] = A list of network signaling values, where each value corresponds to the frequency band on the same position in additionalFreqBandList. Enables additional spectrum emission requirements according to 3GPP TS 36.101, table 6.2.4-1 when the feature Multiple Frequency Band Indicators is enabled in the cell. The content of this list is based on spectrumEmissionReqMapping. This list will be broadcasted in SIB2 as multiBandInfoList.<CR>MinLength=0 MaxLength=8<CR>Range: 1,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32
attr_description[Lrat.EUtranCellFDD,administrativeState] = The administrative state.<CR>Disturbances: Changing this attribute to LOCKED or SHUTTINGDOWN causes loss of traffic.<CR>Default=LOCKED<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,advCellSupAction] = Controls which recovery actions to be performed when ACS detects a sleeping cell.<CR>Default=NO_ACTION<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,advCellSupSensitivity] = Indicates the sensitivity of the Advanced Cell Supervision function. A higher value will make ACS detect a sleeping cell faster, but with higher risk for false detection. A lower value will make ACS detect a sleeping cell slower, but with lower risk for false detection.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=0<CR>Range: 0 to 100
attr_description[Lrat.EUtranCellFDD,ailgActive] = The state of the feature Air Interface Load Generator. Indicates if it is running or stopped.
attr_description[Lrat.EUtranCellFDD,ailgAutoRestartEnabled] = If set to true, AILG is automatically restarted when:<CR>- cell disabled followed by cell enabled, for example at node start or restart.<CR>Change takes effect: Object disabled/enabled<CR>Default=false
attr_description[Lrat.EUtranCellFDD,ailgRef] = Refers to an instance of AirIfLoadProfile. Assigns a AirIfLoadProfile to a cell.<CR>isNillable: true<CR>References: Lrat.AirIfLoadProfile[0-]
attr_description[Lrat.EUtranCellFDD,allocThrPucchFormat1] = Threshold in terms of number of remaining SR resources available for the cell. Below this threshold, allocTimerPucchFormat1 for allocation of an additional PUCCH format 1 PRB pair is triggered. Occurs if  feature Dynamic PUCCH  is activated. Value 0 means the dynamic PUCCH allocation/deallocation operation for this cell is disabled.<CR>Default=50<CR>Range: 0 to 2000
attr_description[Lrat.EUtranCellFDD,allocTimerPucchFormat1] = A guard time. After this time, a PUCCH format 1 PRB pair is allocated if threshold allocThrPucchFormat1 is still passed.<CR>Default=50<CR>Range: 0 to 36000<CR>Unit: 100 ms
attr_description[Lrat.EUtranCellFDD,alpha] = The pathloss compensation factor for power control of the Physical Uplink Shared Channel (PUSCH).<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=10<CR>Range: 0,4,5,6,7,8,9,10<CR>Unit: 0.1 .
attr_description[Lrat.EUtranCellFDD,altitude] = The altitude of the transmitter antenna in meters. Use +/- values to denote height/depth.<CR>In case of Combined Cell (multi-sector cell):<CR>   For indoor system, antenna of any sector.<CR>   For outdoor system,antenna of macro sector.<CR>Default=0<CR>Range: -32768 to 32767<CR>Unit: meter
attr_description[Lrat.EUtranCellFDD,anrHoDisStatNum] = The minimal number of handovers required by the handover disabling function before disabling handover for a relation.<CR>Dependencies: In L13A this parameter is used only when CMCC FT specific SW is enabled.<CR>Default=150<CR>Range: 1 to 32767<CR>Unit: minute
attr_description[Lrat.EUtranCellFDD,anrHoDisStatTime] = The minimal duration handover statistics is collected before evaluation by the handover disabling function before disabling handover for a relation.<CR>Dependencies: In L13A this parameter is used only when CMCC FT specific SW is enabled.<CR>Default=300<CR>Range: 1 to 32767<CR>Unit: minute
attr_description[Lrat.EUtranCellFDD,anrHoDisThreshold] = The threshold value for handover failure rate required to disable handover for a relation.<CR>Dependencies: In L13A this parameter is used only when CMCC FT specific SW is enabled.<CR>Default=250<CR>Range: 0 to 1000<CR>Unit: 0.1 %
attr_description[Lrat.EUtranCellFDD,arpPriorityLevelForSPIFHo] = ARP Priority Level list used in the feature Service or Priority-Triggered Inter-Frequency Handover.<CR>The first instance in the list is for ARP Priority Level 0, second for 1, and so on. Value "false" means the UE with this bearer is not intended to be moved to other frequency.<CR>Change takes effect: New connection<CR>MinLength=16 MaxLength=16 Default=false,false,false,false,false,false,false,false,false,false,false,false,false,false,false,false
attr_description[Lrat.EUtranCellFDD,assumedUePowerMsg3] = The assumed TX power value of the UE for the transmission of Msg3 that is used for estimating the pathloss. Setting the value to MAX will saturate the calculated pathloss and eliminate the usage of the value. 23dB is the max 3GPP specified UE power and is the recommended starting value before fine-tuning. 1000 equals to turning off the Msg3 path loss estimation.<CR>Change takes effect: Object unlocked<CR>Default=1000<CR>Range: 1 to 1000<CR>Unit: 0.1 dBm
attr_description[Lrat.EUtranCellFDD,availabilityStatus] = The availability status. It contains details about operationalState. This attribute is set by the application in the RBS.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.EUtranCellFDD,bcCdma2000SysTimeType] = The actual type of CDMA2000 system time that is broadcast in SIB8.<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,beamWeightSet16Tr] = Specifies the index representing the beam weight vector to be applied for beam forming using the 16TR feature. If the value is equal to 0, the feature is not active.<CR>Disturbances: Changing this attribute can affect traffic. A cell lock/unlock is required.<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0 to 128
attr_description[Lrat.EUtranCellFDD,bsrThreshold] = Threshold used to help identify data-aware UL scheduling UEs. If BSR >= bsrThreshold, UE becomes candidate UE for UL improvement.<CR>Default=0<CR>Range: 0 to 32767<CR>Unit: 100 Bytes
attr_description[Lrat.EUtranCellFDD,caPrioThreshold] = The threshold number of SCells configured using prioritized SCell selection. When the number of SCells configured for UEs connected in this PCell is higher than caPrioThreshold, all frequency carriers configured for carrier aggregation are assumed to have equal priority regardless of the configured values.<CR>Dependencies: Only applicable when CarrierAggregationFunction::dynamicSCellSelectionMethod == PRIORITIZED.<CR>Change takes effect: At node restart<CR>Default=300<CR>Range: 0 to 65535
attr_description[Lrat.EUtranCellFDD,catm1SupportEnabled] = Whether or not support for Category M device is enabled in the cell.<CR>Note: Feature is optional and under license control.<CR>Specification: 3GPP 36331_CR2069r3_(Rel-13)<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,cceDynUeAdmCtrlOverloadThr] = Highest allowed control channel element radio resource utilization ratio for admission of a non-privileged UE. Resource utilization is checked against this threshold for all new, re-established, or incoming handover RRC connections.<CR>Dependencies: cceDynUeAdmCtrlOverloadThr >= cceDynUeAdmCtrlRetDiffThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests<CR>- rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non-privileged incoming handover requests.<CR>Default=600<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellFDD,cceDynUeAdmCtrlRetDiffThr] = Highest allowed control channel element radio resource utilization ratio for admission of a new non-privileged UE. Resource utilization is checked against this threshold for all new RRC connections.<CR>Dependencies: cceDynUeAdmCtrlRetDiffThr =< cceDynUeAdmCtrlOverloadThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests.<CR>Default=500<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellFDD,cellBarred] = Indicates if the cell is barred and should not be accessible to random UEs.<CR>Disturbances: Changing this attribute to BARRED blocks all traffic in the cell.<CR>Default=NOT_BARRED<CR>Range: 0,1
attr_description[Lrat.EUtranCellFDD,cellCapMaxCellSubCap] = Maximum value for the estimated cell capacity.<CR>Dependencies: cellCapMinCellSubCap < cellCapMaxCellSubCap<CR>Default=1500<CR>Range: 0 to 1000000<CR>Unit: kbps
attr_description[Lrat.EUtranCellFDD,cellCapMinCellSubCap] = Minimum value for the estimated cell capacity.<CR>Dependencies: cellCapMinCellSubCap < cellCapMaxCellSubCap<CR>Default=500<CR>Range: 0 to 1000000<CR>Unit: kbps
attr_description[Lrat.EUtranCellFDD,cellCapMinMaxWriProt] = Write protection that prevents feature Automated Cell Capacity Estimation from changing the value on parameters cellCapMinCellSubCap and cellCapMaxCellSubCap.<CR>If set to true, feature Automated Cell Capacity Estimation cannot reset cellCapMinCellSubCap and cellCapMaxCellSubCap at cell unlock.<CR>If set to false, feature Automated Cell Capacity Estimation can change cellCapMinCellSubCap and cellCapMaxCellSubCap at cell unlock.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,cellDownlinkCaCapacity] = Normalized downlink cell capacity available for use by carrier aggregation. The value is used to calculate the aggregated capacity of a UE:s possible aggregation possibilities, for example by the CA Aware IFLB feature.<CR>Default=0<CR>Range: 0 to 1000000
attr_description[Lrat.EUtranCellFDD,cellId] = RBS internal ID attribute for EUtranCell. Must be unique in the RBS. Together with the Node ID and Public Land Mobile Network (PLMN) this is a universally unique cell ID.<CR>Range 0-255.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Range: 0 to 255
attr_description[Lrat.EUtranCellFDD,cellRange] = Defines the maximum distance from the base station where a connection to a UE can be setup and/or maintained.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object unlocked<CR>Default=15<CR>Range: 1 to 100<CR>Unit: km
attr_description[Lrat.EUtranCellFDD,cellSimulated] = This attribute indicates if the specific cell is configured to be simulated in an external test tool. The attribute will be set by the Tester at configuration of the cell.<CR>Change takes effect: Object disabled/enabled<CR>Default=false
attr_description[Lrat.EUtranCellFDD,cellSubscriptionCapacity] = Normalized subscription capacity of the cell. The value represents the total capacity of the cell used for traffic load balancing purposes.<CR>Disturbances: Low values reduce cell capacity.<CR>Default=1000<CR>Range: 0 to 1000000
attr_description[Lrat.EUtranCellFDD,cfraEnable] = This parameter controls if Contention Free Random Access (CFRA, known as non-contention based random access in 3GPP term) shall be enabled or not. When enabled, a portion of random access preambles should be allocated for CFRA and CFRA can be used for incoming HO and PDCCH ordered uplink re-sync.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,changeNotification] = For each System Information Block (SIB), indicates when the SIB content is changed, if system information change notification is broadcast prior to broadcast of updated system information.
attr_description[Lrat.EUtranCellFDD,channelSelectionSetSize] = Determines the number of Channel Selection (CS) PUCCH resources in a CS set.<CR>Set to 1 when all SCell candidates are configured with transmission mode 1 or 2. Set to 2 when at least one SCell candidate is configured with transmission mode 3 or higher.<CR>Dependencies: Applicable only when attribute noOfChannelSelectionSets > 0.<CR>Only SCell candidates with TM mode resource requirements that match the CS set size are considered for carrier aggregation.<CR>Change takes effect: Object unlocked<CR>Default=2<CR>Range: 1 to 2
attr_description[Lrat.EUtranCellFDD,cioLowerLimitAdjBySon] = Indicates the lower limit value of cellIndividualOffsetEUtran range that the SON function is allowed to adjust.<CR>Disturbances: Changing this attribute can stop outgoing HO.<CR>Default=-3<CR>Range: -24 to 0<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,cioUpperLimitAdjBySon] = Indicates the upper limit value of cellIndividualOffsetEUtran range that the SON function is allowed to adjust.<CR>Disturbances: Changing this attribute can stop outgoing HO.<CR>Default=4<CR>Range: 0 to 24<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,clusteredPuschMprFactor] = Multiplication factor applied to the 3GPP-defined Maximum Power Reduction values for Clustered PUSCH. Low settings imply high usage of Clustered PUSCH, high settings imply the opposite.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 0 to 200<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,commonSFAllocList] = Shows the subframes that are reserved for MBSFN in DL.<CR>MinLength=0 MaxLength=8
attr_description[Lrat.EUtranCellFDD,commonSrPeriodicity] = Common SR periodicity, used for all UEs.<CR>Dependencies: For 1.4 MHz: Only valid inputs are 10 and 20.<CR>Change takes effect: Cell lock/unlock<CR>Default=10<CR>Range: 5,10,20<CR>Unit: ms
attr_description[Lrat.EUtranCellFDD,confidence] = Percentage of confidence that the target device is within the ellipsoid defined by the three axes of uncertainty: semi-major, semi-minor, and altitude.<CR>Dependencies: None<CR>Default=100<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellFDD,covTriggerdBlindHoAllowed] = Says whether a blind Handover from this cell can be initiated when a UE reports bad coverage, or not. Note that even if the value is True, the eNB will only initiate a blind handover if it finds a suitable cell.<CR>Default=true
attr_description[Lrat.EUtranCellFDD,cqiCapacityDynPucch] = Capacity of PUCCH format 2, in number of CQI resources for each RB, when feature Dynamic PUCCH  is activated.<CR>Change takes effect: Cell lock/unlock<CR>Default=8<CR>Range: 1 to 12
attr_description[Lrat.EUtranCellFDD,crsGain] = Sets the DL power of the Cell specific Reference Signal (CRS) relatively a reference level defined by the power of the PDSCH type A resource elements. If crsGain is +3dB, the CRS power is 3dB higher than that of a PDSCH type A resource element.<CR>The settings crsGain=4.77db and 6dB are mapped to 3dB. These settings are not supported.<CR>PDSCH type A resource elements are located in symbols that do not contain CRS.<CR>Dependencies: The crsGain only takes effect if the configured number of antenna ports used in a sector is 2, 4, or 8.  In the one port case, crsGain is hardcoded to 0dB.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: -300,-200,-100,0,177,300,477,600<CR>Unit: 0.01 dB
attr_description[Lrat.EUtranCellFDD,csiRs8TxCfgManual] = This attribute enables to configure CSI-RS (Channel State Information Reference Signal) manually.<CR>If it is true, configure the hidden MOM attributes csiRsReConfigIndex, csiRsSfConfigIndex, csiRsPowerRatio, csiRsZeroPwrReConfigList and csiRsZeroPwrSfConfigIndex.<CR>If it is false, configure csiRsConfigType8TxFDD or csiRsConfigType8TxTDD.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,csiRsConfigType8TxFDD] = This attribute specifies configuration type of CSI-RS (Channel State Information Reference Signal) for FDD 8Tx.<CR>Change takes effect: Cell lock/unlock<CR>Default=NZP_CSIRS<CR>Range: 0,1
attr_description[Lrat.EUtranCellFDD,csiRsEnabled] = If value is true, the Channel State Information-Reference Signal (CSI-RS) is sent from all sectors in this cell.  Up to 2 sector carriers can be configured for each cell if csiRsEnabled is true.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,deallocThrPucchFormat1] = Threshold in terms of number of remaining SR resources available for the cell. Above this threshold, deallocTimerPucchFormat1 for deallocation of a PUCCH format 1 PRB pair is triggered. Occurs if  feature Dynamic PUCCH  is activated.<CR>Default=100<CR>Range: 0 to 2000
attr_description[Lrat.EUtranCellFDD,deallocTimerPucchFormat1] = A guard time. After this time, a PUCCH format 1 PRB pair is deallocated if threshold deallocThrPucchFormat1 is still passed.<CR>Default=6000<CR>Range: 0 to 36000<CR>Unit: 100 ms
attr_description[Lrat.EUtranCellFDD,dl256QamEnabled] = Enable or disable 256 QAM support in DL.<CR>Change takes effect: Cell lock/unlock<CR>Default=true
attr_description[Lrat.EUtranCellFDD,dl256QamStatus] = Indication if 256 QAM in DL is supported in the cell.<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,dlBlerTargetEnabled] = Turns on/off Configurable DL BLER Target.<CR>Change takes effect: Next cell unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,dlChannelBandwidth] = The downlink channel bandwidth in the cell.<CR>Valid values: 1400, 3000, 5000, 10000, 15000, 20000<CR>Dependencies: This attribute is dependent on and shall be set to the same as ulChannelBandwidth.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object disabled/enabled.<CR>Default=10000<CR>Range: 1400,3000,5000,10000,15000,20000<CR>Unit: kHz
attr_description[Lrat.EUtranCellFDD,dlConfigurableFrequencyStart] = Specifies the start frequency offset for the allocation of resources when the downlink interference management is disabled expressed as a percentage of the configured bandwidth.<CR>Dependencies: dlInterferenceManagementActive shall be disabled before this parameter takes effect.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellFDD,dlCyclicPrefix] = Type of cyclic prefix used for downlink.<CR>Note: EXTENDED_15khz and EXTENDED_7_5khz are not supported on current software.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object disabled/enabled.<CR>Default=NORMAL_15khz<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,dlDynUeAdmCtrlOverloadThr] = Highest allowed DL radio resource utilization ratio for admission of a non-privileged UE. Applies to each DL resource considered by Dynamic UE Admission Control. Resource utilization is checked against this threshold for all new, re-established, or incoming handover RRC connections.<CR>Dependencies: dlDynUeAdmCtrlOverloadThr >= dlDynUeAdmCtrlRetDiffThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests<CR>- rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non-privileged incoming handover requests.<CR>Default=600<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellFDD,dlDynUeAdmCtrlRetDiffThr] = Highest allowed DL radio resource utilization ratio for admission of a new non-privileged UE. Applies to each DL resource considered by Dynamic UE Admission Control. Resource utilization is checked against this threshold for all new RRC connections.<CR>Dependencies: dlDynUeAdmCtrlRetDiffThr =< dlDynUeAdmCtrlOverloadThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests.<CR>Default=500<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellFDD,dlFrequencyAllocationProportion] = Specifies the amount of frequency resources that is allocated in DL expressed as a percentage of the configured bandwidth.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellFDD,dlHarqVoLTEBlerTarget] = DL BLER target to be used for VoLTE UEs. Used for all DL transmissions for UEs that have QCI1 bearer configured. If no QCI1 bearer configured, then normal DL BLER target is used.<CR>Change takes effect: Next cell unlock<CR>Default=5<CR>Range: 0 to 10<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,dlInterferenceManagementActive] = Specifies if the downlink interference management is enabled or disabled.<CR>Change takes effect: Object unlocked<CR>Default=false
attr_description[Lrat.EUtranCellFDD,dlInterferenceManagementDuration] = Specifies the time for which a randomly selected start frequency will be valid before a new start frequency is allocated. Setting it to "0" means that it will be randomly selected once, but never updated.<CR>Dependencies: dlInterferenceManagementActive shall be enabled before this parameter takes effect.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 0 to 10000<CR>Unit: 0.001 s
attr_description[Lrat.EUtranCellFDD,dlInternalChannelBandwidth] = Internal DL channel bandwidth in the cell with reduced channel bandwidth. Reduced bandwidth for an LTE carrier creates free space for carriers of other radio technologies to use within a standard spectrum 5 MHz or 10 MHz. Other spectrum  will generate the undefined value 0. Reduced channel bandwidth is only supported on RRUS14 and RRUS04.<CR>Dependencies: Dependent on, and to be set to, the same value as ulInternalChannelBandwidth.<CR>dlInternalChannelBandwidth values 4600 and 4800 are only allowed when dlChannelBandwidth is 5000.<CR>dlInternalChannelBandwidth value 9000 is only allowed when dlChannelBandwidth is 10000.<CR>Disturbances: Changes may affect traffic<CR>Change takes effect: Object disabled/enabled<CR>Default=0<CR>Range: 0,4600,4800,9000<CR>Unit: kHz
attr_description[Lrat.EUtranCellFDD,dlVirtualCellsDynActEnabled] = Controls if DL virtual cells for Combined Cell can be activated and deactivated dynamically.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,dlVirtualCellsDynTmSwitchingEnabled] = Controls if transmission mode can be dynamically switched per UE with DL virtual cells for Combined Cell.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,drxActive] = Indicates if the DRX function in the cell is activated.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellFDD,dummyCdmaBandClass] = Dummy CDMA frequency band in the MobilityParametersCDMA2000 information element that can be used to force registration each time the UE moves across LTE and CDMA 1xRTT networks. This can be achieved by setting both this parameter to a dummy band class that is not used in the native CDMA 1xRTT network and by setting the powerUpReg flag to TRUE in SIB-8. The default value of 99 or UNDEFINED_VALUE means the value configured in Cdma2000FreqBand::cdmaBandClass is sent in the MobilityParametersCDMA2000 information element which is the same value as the one  sent in SIB-8.<CR>Change takes effect: New connection<CR>Default=UNDEFINED_VALUE<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,99
attr_description[Lrat.EUtranCellFDD,dynCellSubscrCap] = Parameter that contains the automatically estimated cell capacity value. The value 0 indicates that no estimated value exists.<CR>Range: 0 to 1000000<CR>Unit: kbps
attr_description[Lrat.EUtranCellFDD,dynUeAdmCtrlEnabled] = Enable Dynamic UE Admission Control at cell level.<CR>Dependencies: Only relevant if the license for Dynamic UE Admission Control is present and the feature is active.<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests<CR>- rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non-privileged incoming handover requests.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,dynUeAdmCtrlFilterConst] = Time constant of the exponential-weighted moving average filter applied to the radio resource utilization ratios considered by Dynamic UE Admission Control.<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests<CR>- rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non-privileged incoming handover requests.<CR>Default=3000<CR>Range: 0 to 10000<CR>Unit: ms
attr_description[Lrat.EUtranCellFDD,dynUlResourceAllocEnabled] = Enables Dynamic uplink resource allocation on cell level.<CR>Dependencies: Only relevant if license UlDynamicResourceAllocation is present and feature is active.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,eDrxAllowed] = Set to true when idle mode eDRX shall be allowed in the cell.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,eUtranCellFDDId] = The value component of the RDN.
attr_description[Lrat.EUtranCellFDD,earfcndl] = The channel number for the central downlink frequency. The mapping from channel number to physical frequency for specified EUTRA bands is described in 3GPP TS 36.104. The values that can be used depend on national, operator-specific frequency allocation as well as on the supported frequency bands in the RBS.<CR>Note: Use the MO action changeFrequency if the DL frequency must be changed after the cell is initially setup.<CR>Dependencies: This attribute is dependent on and set together with earfcnul. The earfcnul and earfcndl values are dependent and relate according to default EUTRA TX channel to RX channel separation as specified in 3GPP TS 36.101 for the  EUTRA operating band and channel bandwidth of the cell.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object disabled/enabled.<CR>Range: 0 to 17999,46590 to 262143
attr_description[Lrat.EUtranCellFDD,earfcnul] = Channel number for the central UL frequency. The mapping from channel number to physical frequency for specified EUTRA bands is described in 3GPP TS 36.104. Values that can be used depend on national, operator-specific frequency allocation, as well as on the supported frequency bands of the RBS. Value 0 means that the UL channel number is N/A for the DL-only bands.<CR>Dependencies: This attribute is dependent on and set together with earfcndl. The earfcnul and earfcndl values are dependent and relate according to default EUTRA TX channel to RX channel separation as specified in 3GPP TS 36.101 for the  EUTRA operating band and channel bandwidth of the cell.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object disabled/enabled<CR>Range: 0,18000 to 35999,46590 to 262143
attr_description[Lrat.EUtranCellFDD,elcActivityThreshold] = A threshold in terms of RRC connected users for each cell.<CR>ELC actively blanks DL Cell Specific Reference Signals whenever possible for any value at or below elcActivityThreshold.<CR>Above the threshold, all blanking is suspended.<CR>Dependencies: elcActivityThreshold =< elcConfigurationThreshold<CR>Change takes effect: Object unlocked<CR>Default=16<CR>Range: 1 to 64
attr_description[Lrat.EUtranCellFDD,elcConfigurationThreshold] = Defines a threshold in terms of RRC connected users for each cell. ELC configures UEs to be ready for blanking at or below this threshold.<CR>Above the threshold, UEs are configured as if ELC was turned off altogether.<CR>Dependencies: elcConfigurationThreshold >= elcActivityThreshold<CR>Change takes effect: Object unlocked<CR>Default=16<CR>Range: 1 to 64
attr_description[Lrat.EUtranCellFDD,elcEnabled] = Enables Ericsson Lean Carrier functionality in the cell.<CR>Dependencies: Only relevant if the licence for ELC is present and the feature is active.<CR>Change takes effect: Object unlocked<CR>Default=false
attr_description[Lrat.EUtranCellFDD,elcLongDrxCycle] = Long DRX cycle for ELC. Value of elcLongDrxCycle is in number of sub-frames.<CR>Dependencies: Feature Ericsson Lean Carrier is present active.<CR>Change takes effect: New connection<CR>Default=SF40<CR>Range: 0,3
attr_description[Lrat.EUtranCellFDD,elcPrototypeBitfield] = A container to switch on and off future improvements in the ELC area for each cell. Each bit or group of bits can be assigned different meaning during prototype and testing activities. Note: Only relevant for testing and development.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 4294967295
attr_description[Lrat.EUtranCellFDD,emergencyAreaId] = A cell that supports  broadcast of warning messages can belong to one to 15 Emergency Areas, identified by an Emergency Area Id, set by the operator.  Value -1 means identity not set.<CR>Default=-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1 MinLength=0 MaxLength=15 Default=-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1<CR>Range: -1 to 16777215
attr_description[Lrat.EUtranCellFDD,enableDrxAwareRlcArq] = Enables function to automatically adapt t-PollretransmitTimer to the time it takes to complete HARQ procedure + harqOffset (UL and DL).<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellFDD,enableServiceSpecificHARQ] = Enable/disable service-specific HARQ on cell level. Function must have valid license.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellFDD,enableSinrUplinkClpc] = Specifies if SINR-based UL power control can be used or not. If enabled, SNR-based closed-loop power control and SINR-based closed-loop power control can be adaptively selected.<CR>Dependencies: Attribute only has effect if feature Differential Uplink Power Control is activated.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,enableUeAssistedAdaptiveDrx] = Enable or disable the UE-Assisted Adaptive DRX feature.<CR>Change takes effect: Object unlocked<CR>Default=true
attr_description[Lrat.EUtranCellFDD,enableUeAssistedSigReduction] = Enable or disable the UE-Assisted Signaling Reduction feature.<CR>Change takes effect: Object unlocked<CR>Default=true
attr_description[Lrat.EUtranCellFDD,estCellCapUsableFraction] = Scaling factor for the estimated cell subscription capacity. Can be used to reduce the traffic load balancing attraction of the cell. Used if traffic handling capacity of the cell is constrained by circumstances the ACCE feature is unable to capture. An example of such a circumstance is at limited UL capacity in a TDD cell.<CR>When the attribute is value is set to 0, the corresponding cell uses the value cellSubscriptionCapacity as the Cell Subscription Capacity value for the cell. This bypasses the automatically estimated Cell Subscription Capacity value for the cell.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=100<CR>Range: 0 to 100<CR>Unit: Percent
attr_description[Lrat.EUtranCellFDD,estimatedE2ERTT] = The estimated end to end round trip time used by Active Queue Management (AQM).<CR>Change takes effect: Cell lock/unlock<CR>Default=100<CR>Range: 0 to 2048<CR>Unit: ms
attr_description[Lrat.EUtranCellFDD,eutranCellCoverage] = Models the cell coverage area used for UE positioning. The cell coverage area is defined by the cell bearing, cell opening angle and cell radius.<CR>This attribute has no operational impact.
attr_description[Lrat.EUtranCellFDD,eutranCellPolygon] = Models the manageable characteristics for the cell polygon used for UE positioning. Each polygon corner is described by a latitude and longitude pair. Each polygon corner is represented with one position in the sequence. The other configured polygon corners follow in sequence. There must at least be three corners configured in a polygon when the function is active/used. The points shall be connected in the order that they are given. The last point is connected to the first point.<CR>MinLength=0 MaxLength=15
attr_description[Lrat.EUtranCellFDD,expectedMaxNoOfUsersInCell] = The expected max number of UE in RRC_CONNECTED mode in the cell. Will be used at unlock of the cell to distribute cells to different cores in Digital Units and Baseband Units with a multicore Main Processor. A value of -1 indicates that measuredMaxNoOfUsersInCell will be used to control the cell distribution.<CR>Change takes effect: Object unlocked<CR>Default=-1<CR>Range: -1 to 32768
attr_description[Lrat.EUtranCellFDD,externalCdma20001xRttCellRef] = Reference to an ExternalCdma20001xRttCell<CR>isNillable: true<CR>References: Lrat.ExternalCdma20001xRttCell[0-]
attr_description[Lrat.EUtranCellFDD,feicicConfiguration] = Defines the FeICIC configuration of a cell. A cell enabled for FeICIC can either be defined as master or slave. By setting the configuration to NONE, FeICIC is disabled for the cell.<CR>Change takes effect: Object disabled/enabled<CR>Default=NONE<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellFDD,feicicManHighlyInterferedSubFramePattern] = The highly interfered subframe pattern can be manually defined as a string where digit one indicates a highly interfered subframe and digit zero indicates all the other subframes.<CR>Change takes effect: Object disabled/enabled<CR>Range: 0 to 40
attr_description[Lrat.EUtranCellFDD,feicicManProtectedSubFramePattern] = The protected subframe pattern can be manually  defined as a string where the digit one indicates a protected subframe and digit zero indicates all the other subframes.<CR>Change takes effect: Object disabled/enabled<CR>Range: 0 to 40
attr_description[Lrat.EUtranCellFDD,feicicProtectedSubFramePattern] = Indicates which one of the five predefined protected subframe patterns that must be used. The protected subframe pattern indicates the subframes for which the master cell will reduce its activity in order to create less interference towards the slave cells. The slave cells will typically use these subframes to schedule cell edge UEs.  1 - corresponds to 10% protected subframes, 2 - corresponds to 20% protected subframes, 3 - corresponds to 30% protected subframes, 4 - corresponds to 40% protected subframes and 5 - corresponds to 50% protected subframes.<CR>Change takes effect: Object disabled/enabled<CR>Default=1<CR>Range: 1 to 5
attr_description[Lrat.EUtranCellFDD,frameStartOffset] = The frame start offset of the cell.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object disabled/enabled.
attr_description[Lrat.EUtranCellFDD,freqBand] = The primary frequency band the cell belongs to according to its defined EARFCN.<CR>Range: 1 to 256
attr_description[Lrat.EUtranCellFDD,gpsTimeSFN0DecimalSecond] = The decimal part of the GPS time for the most recent occurrence of System Frame Number (SFN)=0 in the cell.<CR>Unit: 2^(-32) second<CR>Range: 0 to 4294967295
attr_description[Lrat.EUtranCellFDD,gpsTimeSFN0Seconds] = The integer part of the GPS time for the most recent occurrence of SFN=0 in the cell.<CR>Range: 0 to 4294967295<CR>Unit: seconds
attr_description[Lrat.EUtranCellFDD,harqOffsetDl] = Offset used when tReorderingDl is calculated by automatic configuration. tReorderingDl = 'Max number of HARQ for DL' * HARQ-interval + harqOffsetDl.<CR>Change takes effect: New connection<CR>Default=3<CR>Range: -20 to 20<CR>Unit: ms
attr_description[Lrat.EUtranCellFDD,harqOffsetUl] = Offset used when tReorderingUl is calculated by automatic configuration. tReorderingUl = 'Max number of HARQ for UL' * HARQ-interval + harqOffsetUl.<CR>Change takes effect: New connection<CR>Default=3<CR>Range: -20 to 20<CR>Unit: ms
attr_description[Lrat.EUtranCellFDD,highSpeedUEActive] = Indicates if the feature High Speed UE is activated in the cell<CR>Change takes effect: Object unlocked<CR>Default=false
attr_description[Lrat.EUtranCellFDD,highestSupportedCeLevelBr] = Max CE level for BR low-complexity UEs.<CR>0 enables CE level 0. 1 enables CE levels 0 and 1.<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0 to 1
attr_description[Lrat.EUtranCellFDD,hoOptAdjThresholdAbs] = The absolute threshold value for adjusted handover failure rate required to adjust handover parameters.<CR>Disturbances: Changing this attribute can stop outgoing HO.<CR>Default=5<CR>Range: 0 to 32767
attr_description[Lrat.EUtranCellFDD,hoOptAdjThresholdPerc] = The permillage threshold value for adjusted handover failure rate required to adjust handover parameters.<CR>Disturbances: Changing this attribute can stop outgoing HO.<CR>Default=50<CR>Range: 0 to 1000<CR>Unit: 0.1 %
attr_description[Lrat.EUtranCellFDD,hoOptStatNum] = The minimal number of handovers required by the handover optimization function before adjusting  handover parameters.<CR>Default=200<CR>Range: 1 to 32767
attr_description[Lrat.EUtranCellFDD,hoOptStatTime] = The operational cycle of the handover optimization function.<CR>Default=24<CR>Range: 1 to 32767<CR>Unit: hour
attr_description[Lrat.EUtranCellFDD,hostingDigitalUnit] = Shows the DU or Baseband on which baseband processing for the cell is located<CR>isNillable: true
attr_description[Lrat.EUtranCellFDD,idleModePrioAtReleaseRef] = Reference to an IdleModePrioAtRelease MO. Assigns an IdleModePrioAtRelease to a cell.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic.<CR>References: Lrat.IdleModePrioAtRelease[0-]
attr_description[Lrat.EUtranCellFDD,includeLcgInMacUeThp] = Controls the LCGs that are included in pmMacUeThpVolUl, pmMacUeThpTimeUl, and pmMacUeThpUlDistr. To include the n:th LCG, set includeLcgInMacUeThp[n]=true.<CR>MinLength=4 MaxLength=4 Default=false,false,true,true
attr_description[Lrat.EUtranCellFDD,incrPrioServingFreqActive] = Specifies whether or not the function to set the serving frequency as sticky carrier is active in the current cell.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,initCdma2000SysTimeType] = Intended type of CDMA2000 system time to broadcast in SIB8, if applicable.<CR>Default=NONE<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,initialBufferSizeDefault] = The number of bytes that is assumed to be in the UE buffer when an SR is received through PUCCH.<CR>Change takes effect: Cell lock/unlock<CR>Default=86<CR>Range: 1 to 10000<CR>Unit: bytes
attr_description[Lrat.EUtranCellFDD,initialBufferSizeMsg5Default] = The number of bytes that is assumed to be in the UE buffer when an SR is received through PRACH or PUCCH when Msg5 is expected to be scheduled for the UE. Recommended value for optimization towards Msg5 with NAS service request attached is 26 bytes.<CR>Change takes effect: Object unlocked<CR>Default=86<CR>Range: 1 to 10000<CR>Unit: bytes
attr_description[Lrat.EUtranCellFDD,interEnbUlCompUserSelSinrHys] = Hysteresis of SINR threshold for inter-eNodeB UL CoMP user selection.<CR>Dependencies: Must be used together with interEnbUlCompUserSelSinrThr.<CR>Disturbances: If changed, system performance can be affected. As values get bigger, gaps for triggering Inter-eNodeB Uplink CoMP user switching get bigger.<CR>Default=10<CR>Range: 10 to 50<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,interEnbUlCompUserSelSinrThr] = SINR threshold for inter-eNodeB UL CoMP user selection.<CR>Dependencies: Must be used together with interEnbUlCompUserSelSinrHys.<CR>Disturbances: If changed, system performance can be affected. As values go higher, more candidates are selected for Inter-eNodeB Uplink CoMP, but more user measurements are triggered. This impacts MP load and transport load over X2.<CR>Default=100<CR>Range: -150 to 250<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,interferenceThresholdSinrClpc] = Threshold value for measured noise plus interference level. If measured noise plus interference is higher than interferenceThresholdSinrClpc, then SINR-based UL closed-loop power control can be considered.<CR>Dependencies: Threshold only has effect if attribute enableSinrUplinkClpc is true.<CR>Default=-105<CR>Range: -125 to -60<CR>Unit: dBm
attr_description[Lrat.EUtranCellFDD,isDlOnly] = Indicates if the cell is operated with downlink only and with no uplink.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object unlocked<CR>Default=false
attr_description[Lrat.EUtranCellFDD,lastModification] = Indicates whether the MO was last modified by the operator or if the MO has been modified by the PCI conflict detection application.<CR>Default=OPERATOR<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellFDD,lastSchedLinkAdaptEnabled] = Controls if link adaptation function allocates largest possible resource to last scheduled UE in the DL. Used to improve UE decoding success rate with reduced code rate.<CR>Change takes effect: Cell lock/unlock<CR>Default=true
attr_description[Lrat.EUtranCellFDD,latestHostingDigitalUnitRef] = Indicates the hosting DU or Baseband on which baseband processing for the cell was located when it was operational last time.<CR>isNillable: true
attr_description[Lrat.EUtranCellFDD,latitude] = The degree of latitude of the transmitter antenna position.<CR>In case of Combined Cell (multi-sector cell):<CR>   For indoor system, antenna of any sector.<CR>   For outdoor system,antenna of macro sector.<CR>Default=0<CR>Range: -90000000 to 90000000<CR>Unit: 0.000001 degrees
attr_description[Lrat.EUtranCellFDD,lbEUtranAcceptOffloadThreshold] = This attribute is a threshold for eNodeB. The value applies in the target cell for incoming offload. The eNodeB accepts incoming offload traffic in the target cell as long as the subscription ratio is below the threshold.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=50<CR>Range: 0 to 1600<CR>Unit: 0.01 .
attr_description[Lrat.EUtranCellFDD,lbEUtranCellOffloadCapacity] = This attribute indicates the offload subscription capacity associated with the EUTRAN target cell. The value is used to moderate the offload rate to the EUTRAN target cell.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1000<CR>Range: 0 to 1000000
attr_description[Lrat.EUtranCellFDD,lbEUtranTriggerOffloadThreshold] = This attribute is a threshold for eNodeB. The value applies for offload towards EUTRAN target cells. The eNodeB attempts to offload traffic from the source cell to Inter-Frequency LTE neighbors corresponding to the subscription ratio above the threshold.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=100<CR>Range: 0 to 1600<CR>Unit: 0.01 .
attr_description[Lrat.EUtranCellFDD,lbTpNonQualFraction] = The fraction of non-qualified UEs at UE selection for throughput aware load balancing. In case throughput aware UE selection is enabled, this parameter sets a target size for the fraction of UE to be disqualified for load balancing due to insufficient relative gain when moving UE from source to target cell.<CR>Special value 0 means that the throughput aware UE selection for this cell is disabled.<CR>Default=35<CR>Range: 0,20 to 80<CR>Unit: 0.01
attr_description[Lrat.EUtranCellFDD,lbTpRankThreshMin] = The minimum threshold for the relative gain at throughput aware load balancing. A negative value may allow for some throughput loss for the individual UE, if the load balancing criteria requires so. Higher values may increase the fraction of non-qualified UEs at UE selection for throughput aware load balancing and may cause the load balancing to stall.<CR>Special value -100 means the lower boundary for the threshold is disabled.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=-20<CR>Range: -100,-60 to 60<CR>Unit: 0.01
attr_description[Lrat.EUtranCellFDD,lbUtranOffloadThreshold] = Threshold for eNodeB<CR>The value applies for offload towards UTRAN target cells. The eNodeB attempts to offload traffic from the source cell corresponding to the subscription ratio above the threshold.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=100<CR>Range: 0 to 1600<CR>Unit: 0.01 .
attr_description[Lrat.EUtranCellFDD,lbabBarringPriorityLevel] = Current barring priority level based on PAB algorithm. Only used when feature Progressive Access Barring is activated.<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,lbabDecr] = How fast the Access Class Barring probability is decreased, that is how fast acBarringFactor in SIB2 is increased when the cell load is decreased. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Dependencies: The attribute only takes effect if the feature Load-Based Access Barring is activated.<CR>Default=5<CR>Range: 5 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,lbabIncr] = How fast the Access Class Barring probability is increased, that is how fast acBarringFactor in SIB2 is decreased when the cell load is increased. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Dependencies: The attribute only takes effect if the feature Load-Based Access Barring is activated.<CR>Default=5<CR>Range: 5 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,lbabMinBarringFactorPrio1] = Minimum barring factor for PAB algorithm, priority level 1. Only used when feature Progressive Access Barring is activated.<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,lbabMinBarringFactorPrio2] = Minimum barring factor for PAB algorithm, priority level 2. Only used when feature Progressive Access Barring is activated.<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,lbabMinBarringFactor] = Minimum barring factor for LBAB algorithm, or PAB algorithm, priority level 0. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,lbabPeriod] = Minimum time for how often the acBarringFactor in SIB2 can be changed. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Dependencies: The attribute only takes effect if the feature Load-Based Access Barring is activated.<CR>Default=120<CR>Range: 0 to 4095<CR>Unit: s
attr_description[Lrat.EUtranCellFDD,lbabThreshRejectRateHigh] = RRC Connection Reject Ratio when the feature Load-Based Access Barring activates presence of the Access Class Barring parameters in SIB2 or when the feature Progressive Access Barring activates presence of the Access Class Barring parameters in SIB2. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=200<CR>Range: 0 to 1000<CR>Unit: 0.1 %
attr_description[Lrat.EUtranCellFDD,lbabThreshRejectRateLow] = RRC Connection Reject Ratio when the feature Load-Based Access Barring reduces the Access Class Barring probability, that is an increase of acBarringFactor in SIB2 or when the feature Progressive Access Barring activates presence of the Access Class Barring parameters in SIB2. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=20<CR>Range: 0 to 1000<CR>Unit: 0.1 %
attr_description[Lrat.EUtranCellFDD,lbabThreshTimeHigh] = Time period to measure the RRC Connection Reject Ratio with the Load-Based Access Barring threshold lbabThreshRejectRateHigh or the Progressive Access Barring threshold lbabThreshRejectRateHigh. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=30<CR>Range: 0 to 4095<CR>Unit: s
attr_description[Lrat.EUtranCellFDD,lbabThreshTimeLow] = Time period to measure RRC Connection Reject Ratio with the Load-Based Access Barring threshold lbabThreshRejectRateLow or the Progressive Access Barring threshold lbabThreshRejectRateLow. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=30<CR>Range: 0 to 4095<CR>Unit: s
attr_description[Lrat.EUtranCellFDD,lessPrbUsageThreshold] = Maximum downlink PRB usage that scheduling stays on-hold for Low Energy Scheduler Solution.<CR>Default=90<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,loadBasedBarringFactor] = Current barring factor based on LBAB algorithm or PAB algorithm. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,loadCtrlPrioOfMta] = This attribute controls if RRC connection establishments with cause Mobile Terminating Access shall be prioritized and not load regulated in:<CR>- DU Connection Intensity Control<CR>- Baseband Connection Intensity Control<CR>- Dynamic Load Control.<CR>Disturbances: Changing this attribute can affect traffic. If set to true, RRC connection establishments with cause Mobile Terminating Access will not be load regulated in the DU or Baseband Connection Intensity Control and in the Dynamic Load Control. This will increase the risk for running into overload scenarios.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,longitude] = The degree of longitude of the transmitter antenna position.<CR>In case of Combined Cell (multi-sector cell):<CR>   For indoor system, antenna of any sector.<CR>   For outdoor system,antenna of macro sector.<CR>Default=0<CR>Range: -180000000 to 180000000<CR>Unit: 0.000001 degrees
attr_description[Lrat.EUtranCellFDD,mappingInfoBr] = SI message to which each SIB is mapped.<CR>Note: SIB2 is always mapped to SI message 1 according to 3GPP TS 36.331.<CR>Specification: 3GPP 36331_CR2069r3_(Rel-13)<CR>Change takes effect: Object unlocked<CR>MinLength=0 MaxLength=2
attr_description[Lrat.EUtranCellFDD,mappingInfo] = The System Information (SI) message to which each System Information Block (SIB) is mapped.<CR>Note: SIB2 is always mapped to the SI message 1 according to 3GPP TS 36.331.<CR>Change takes effect: When EUtranCellFDD/TDD object is unlocked
attr_description[Lrat.EUtranCellFDD,maxNoClusteredPuschAlloc] = Maximum number of UEs with Clustered PUSCH allocations allowed in a TTI.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 5
attr_description[Lrat.EUtranCellFDD,maxQciLatencyMeas] = Largest numerical value corresponding to the lowest priority of the QCIs included into MAC latency measurements.<CR>Status Information: Since L16A. Planned to be removed.<CR>Dependencies: maxQciLatencyMeas >= minQciLatencyMeas<CR>Default=255<CR>Range: 0 to 255
attr_description[Lrat.EUtranCellFDD,maxSentCrsAssistCells] = Maximum number of neighbor cells whose CRS Assistance Information is sent to UE.<CR>Change takes effect: New connection<CR>Default=8<CR>Range: 0 to 8
attr_description[Lrat.EUtranCellFDD,maxSoftLockBackoffTime] = Indicates a maximum handover backoff time. The value is applied to inhibit further handover attempts to a EUTRAN target cell that rejects incoming handover for soft-lock of cell.<CR>Default=90<CR>Range: 10 to 90<CR>Unit: s
attr_description[Lrat.EUtranCellFDD,maxValidSubframeDlBr] = Upper limit of valid subframes for DL transmission of BR traffic.<CR>Change takes effect: Next cell unlock<CR>Default=100<CR>Range: 50 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,measBasedElcControl] = Enables or disables measurement-based Ericsson Lean Carrier Control.<CR>Dependencies: Only relevant if license Ericsson Lean Carrier is present and feature is active.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellFDD,measuredMaxNoOfUsersInCell] = Peak number of UE in RRC_CONNECTED mode measured in the cell. This attribute will be updated during operation of the eNB and used at unlock of the cell to distribute cells to different cores in Digital Units and Baseband Units with a multicore Main Processor. If attribute expectedMaxNoOfUsersInCell is changed from -1 to zero or higher, attribute measuredMaxNoOfUsersInCell will be reset to zero and not used to control the cell distribution.<CR>Change takes effect: Object unlocked<CR>Range: 0 to 32768
attr_description[Lrat.EUtranCellFDD,minBestCellHoAttempts] = Number of attempts for handover to a cell better than the serving cell, before handover is attempted to the next best cell. If there is no next best cell in the UE report, handover to the best cell is attempted repeatedly.<CR>Default=1<CR>Range: 1 to 10
attr_description[Lrat.EUtranCellFDD,minQciLatencyMeas] = Smallest numerical value corresponding to the highest priority of the QCIs included into MAC latency measurements.<CR>Status Information: Since L16A. Planned to be removed.<CR>Dependencies: minQciLatencyMeas  =< maxQciLatencyMeas<CR>Default=5<CR>Range: 0 to 255
attr_description[Lrat.EUtranCellFDD,mobCtrlAtPoorCovActive] = Specifies if the feature Mobility Control at Poor Coverage is enabled or disabled in the cell.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellFDD,modificationPeriodCoeff] = The modification period, expressed in number of radio frames = modificationPeriodCoeff * defaultPagingCycle. See MO Paging for information about defaultPagingCycle.<CR>Dependencies: modificationPeriodCoeff * defaultPagingCycle must be equal or less than 1024 radio frames. See MO Paging for information about defaultPagingCycle.<CR>Change takes effect: When EUtranCellFDD/TDD object is unlocked<CR>Default=2<CR>Range: 2,4,8,16
attr_description[Lrat.EUtranCellFDD,networkSignallingValueCa] = Enables additional spectrum emission requirements for CA according to 3GPP TS 36.101, table 6.2.4A-1.<CR>Specification: 3GPP TS 36.101<CR>Change takes effect: Object disabled/enabled<CR>Default=CA_NS_31<CR>Range: 1,2,3,4,5,6,7,8,31
attr_description[Lrat.EUtranCellFDD,networkSignallingValue] = Enables additional spectrum emission requirements according to 3GPP TS 36.101, table 6.2.4-1.<CR>Change takes effect: Object disabled/enabled<CR>Default=NS_01<CR>Range: 1,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32
attr_description[Lrat.EUtranCellFDD,noConsecutiveSubframes] = The number of consecutive downlink sub-frames with positioning reference signals as defined in 3GPP TS 36.211. Values define 1, 2, 4, or 6 consecutive sub-frames.<CR>Dependencies: None<CR>Change takes effect: Object unlocked<CR>Default=SF1<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellFDD,noOfChannelSelectionSets] = The number of channel selection PUCCH resource sets (CS sets) to reserve in each cell for secondary cell HARQ feedback. To conserve PUCCH resource, this attribute can be set to 0 if the cell is not used as PCell for Carrier Aggregation.<CR>Change takes effect: Cell lock/unlock<CR>Default=4<CR>Range: 0,4 to 12<CR>Unit: CS sets
attr_description[Lrat.EUtranCellFDD,noOfPucchCqiUsers] = The number of Channel Quality Indicator (CQI) resources available on the PUCCH channel.<CR>For 1.4 MHz system bandwidth the recommended value is 50.<CR>Disturbances: Cell runs new set-up procedure. All cell-connected UEs are released and connected again.<CR>Default=160<CR>Range: 0 to 4000
attr_description[Lrat.EUtranCellFDD,noOfPucchFormat1PrbPairsPerFrame] = PRB usage for PUCCH Format1. Based on PUCCH SR, CFI and Carrier Aggregation user configuration.<CR>Range: 0 to 1000
attr_description[Lrat.EUtranCellFDD,noOfPucchFormat2PrbPairsPerFrame] = PRB usage for PUCCH Format2. Based on PUCCH CQI user configuration.<CR>Range: 0 to 1000
attr_description[Lrat.EUtranCellFDD,noOfPucchFormat3PrbPairsPerFrame] = PRB usage for PUCCH Format3. Based on 3CC Carrier Aggregation user configuration.<CR>Range: 0 to 1000
attr_description[Lrat.EUtranCellFDD,noOfPucchFormat3PrbPairs] = Number of PUCCH Format 3 PRB pairs.<CR>Dependencies: Only takes effect when 3CC Carrier aggregation Extension Feature (FAJ 121 3084) is enabled.<CR>Change takes effect: Cell lock/unlock<CR>Default=1<CR>Range: 0 to 3
attr_description[Lrat.EUtranCellFDD,noOfPucchSrUsers] = The number of Scheduling Request (SR) resources available on the PUCCH channel.<CR>For 1.4 MHz system bandwidth the recommended value is 50.<CR>Disturbances: Cell runs new set-up procedure. All cell-connected UEs are released and connected again.<CR>Default=160<CR>Range: 0 to 4000
attr_description[Lrat.EUtranCellFDD,noOfUlImprovedUe] = Number of data-aware UL-scheduling UEs that can be improved at allocation of PDCCH and PUSCH.<CR>Default=1<CR>Range: 0 to 5
attr_description[Lrat.EUtranCellFDD,nrOfTransmissionsSib1] = Controls the number of times a SIB1 message will be repeated within the siPeriodicy.<CR>Default=4<CR>Range: 1,2,3,4
attr_description[Lrat.EUtranCellFDD,operationalState] = The operational state.  This attribute is set by the application in the RBS.<CR>Range: 0,1
attr_description[Lrat.EUtranCellFDD,orientMajorAxis] = Orientation of the major axis of uncertainty, in degrees clockwise from north.  Orientation value (N) is derived by the formula:<CR>N <= X < (N + 1)<CR>where X is the orientation in degrees (0 - 180).<CR>Dependencies: None<CR>Default=0<CR>Range: 0 to 179<CR>Unit: degrees
attr_description[Lrat.EUtranCellFDD,otdoaCheckEnabled] = Determines if the OTDOA functionality should be considered in the feature Service or Priority-Triggered Inter-Frequency Handover.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellFDD,otdoaSuplActive] = Indicates if the feature OTDOA Support in SUPL Environment is ACTIVATED  or DEACTIVATED in the cell.<CR>Change takes effect: Object unlocked.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,outOfCoverageDepth] = Maximum number of consecutive Out Of Coverage (OOC) easing events to leave the OOC state when a UE is in the OOC state for a long time.<CR>Change takes effect: Cell lock/unlock<CR>Default=1<CR>Range: 0 to 20
attr_description[Lrat.EUtranCellFDD,outOfCoverageSparseGrantingBsr] = Number of bytes for BSR at eNodeB when UE is in the Out Of Coverage (OOC) state and the OOC spare grant scheduling is applied.<CR>Change takes effect: Cell lock/unlock<CR>Default=4<CR>Range: 1 to 1000<CR>Unit: byte
attr_description[Lrat.EUtranCellFDD,outOfCoverageSrTimerPeriodicity] = Repetition rate of UL sparse grants that are eNodeB-triggered to Out Of Coverage (OOC) UEs.<CR>Change takes effect: Cell lock/unlock<CR>Default=320<CR>Range: 40,80,160,320,640,960,1280<CR>Unit: ms
attr_description[Lrat.EUtranCellFDD,outOfCoverageThreshold] = Threshold for when UE is considered to be Out Of Coverage (OOC). If the number of OOC trigger events is greater than or equal to the threshold, the UE is in the OOC state; if the number of OOC trigger events is less than the threshold, the UE is not in the OOC state.<CR>Change takes effect: Cell lock/unlock<CR>Default=20<CR>Range: 1 to 63
attr_description[Lrat.EUtranCellFDD,pMaxServingCell] = Limits UE uplink transmission power in the serving cell and calculates the parameter Pcompensation (defined in 3GPP TS 36.304) for cell selection.<CR>The attribute is broadcast in SIB1.<CR>Value 1000 means the parameter is not included in system information.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1000<CR>Range: -30 to 33,1000
attr_description[Lrat.EUtranCellFDD,pZeroNominalPucch] = The nominal component of the UE transmit power for Physical Uplink Control Channel (PUCCH).<CR>Disturbances: Changes may affect traffic.<CR>Default=-117<CR>Range: -127 to -96<CR>Unit: dBm
attr_description[Lrat.EUtranCellFDD,pZeroNominalPusch] = The nominal component of the UE transmit power for Physical Uplink Shared Channel (PUSCH).<CR>Dependencies: Changing the value of pZeroNominalPusch, might have impact on the setting of puschPwrOffset64Qam.<CR>See puschPwrOffset64Qam for how that attribute depends on pZeroNominalPusch.<CR>Disturbances: Changes may affect traffic.<CR>Default=-103<CR>Range: -126 to 24<CR>Unit: dBm
attr_description[Lrat.EUtranCellFDD,pciConflictCell] = Indicates the CGI of the other cell that is involved in the PCI collision/confusion. This value is only valid if the attribute pciConflict is "YES" or "YES_CONFLICTING_CELL".<CR>MinLength=0 MaxLength=5
attr_description[Lrat.EUtranCellFDD,pciConflict] = A PCI confusion exists if a source cell has relations to two neighbor cells where both neighbor cells have the same PCI and frequency. A PCI collision exists if a source cell has a relation to a neighbor cell where both the source cell and neighbor cell have the same PCI and frequency.<CR>MinLength=0 MaxLength=5<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellFDD,pciDetectingCell] = Indicates the CGI of the cell that detected the PCI collision/confusion. This value is only valid if the corresponding attribute pciConflict is "YES" or "YES_CONFLICTING_CELL". The first cell in the pciDetectingCell list corresponds to the first cell in the pciConflictCell list and the first value of pciConflict. The second cell in the pciDetectingCell list corresponds to the second cell in the pciConflictCell list and the first value of pciConflict.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.EUtranCellFDD,pdcchAdmEnabled] = Enable the pdcch admission control feature. All rejects will be logged in counter pmCellAdmControlPdcchRej. If set to false we will not reject any Ues due to this function but the potential rejects will be logged in counter pmCellAdmControlPdcchRejMeas.<CR>Status Information: Since L16A. Has no functional behavior. Planned to be removed.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,pdcchAdmThreshold] = Sets the threshold for the CCE usage when ue starts to be rejected. This will only cause real rejects if pdcchAdmEnabled = true. Otherwise we will only step pmCellAdmControlPdcchRejMeas both no rejects will take place.<CR>Status Information: Since L16A. Has no functional behavior. Planned to be removed.<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000<CR>Unit: 0.001 .
attr_description[Lrat.EUtranCellFDD,pdcchCfiMode] = Controls the CFI (Control Format Indicator) used for the control region. cfiMode maps to CFI as described under enumerations. For DL BW of 1400 kHz, values of CFI = 1, 2 and 3 map to 2, 3, and 4 control region symbols respectively. Other BW, CFI maps directly to number of control region symbols.<CR>Dependencies: pdcchCfiMode cannot equal CFI_STATIC_1 while dlChannelBandwidth = 1400, 3000, or 5000 kHz since there would be insufficient CCEs to transmit a PDCCH for common channel messages such as SIB1 or SI. Certain values of pdcchCfiMode that allow high CFI values may be disallowed when the combination of attributes pdcchCfiMode, dlChannelBandwidth, noOfPucchCqiUsers, and noOfPucchSrUsers require too many corresponding PUCCH HARQ-ARQ resources.<CR>Change takes effect: Object unlocked<CR>Default=CFI_STATIC_BY_BW<CR>Range: 0,1,2,3,4,5
attr_description[Lrat.EUtranCellFDD,pdcchCovImproveCap] = PDCCH DCI format 1A for capacity to reduce CCE usage when possible without significantly reducing performance.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,pdcchCovImproveDtx] = PDCCH DCI format 1A for first re-transmission due to DTX of SRB and QCI1.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,pdcchCovImproveQci1] = PDCCH DCI format 1A to increase MOS for QCI1 in high interference or high path loss scenarios.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,pdcchCovImproveSrb] = PDCCH DCI format 1A is used for SRB to increase transmission success rate and to minimize interruption time.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,pdcchLaGinrMargin] = GINR back-off parameter for PDCCH link adaptation. Applies to all UEs when the feature Enhanced PDCCH Link Adaptation is disabled. In FDD, if the licenses for both Enhanced PDCCH Link Adaptation and Carrier Aggregation are enabled, this parameter applies to secondary cell PDCCH for UEs capable of carrier aggregation. In TDD, if the license for Enhanced PDCCH Link Adaptation is enabled, this parameter applies to:<CR>- UEs configured with carrier aggregation, and<CR>- UEs configured with HARQ-ACK PUCCH format 3 or HARQ-ACK multiplexing.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: -50 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,pdcchOuterLoopAdjLowerLimit] = The lower limit of the accumulated PDCCH outer loop adjustment.<CR>Change takes effect: Object unlocked<CR>Default=-15<CR>Range: -40 to 0<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,pdcchOuterLoopAdjUpperLimit] = The upper limit of the accumulated PDCCH outer loop adjustment.<CR>Change takes effect: Object unlocked<CR>Default=10<CR>Range: 0 to 40<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,pdcchOuterLoopInitialAdjPCell] = The initial value for primary cell PDCCH outer loop adjustment in case of carrier aggregation. This applies to UEs that have at least one secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter is not used.<CR>Change takes effect: Object unlocked<CR>Default=-70<CR>Range: -200 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,pdcchOuterLoopInitialAdjVolte] = The initial value for PDCCH outer loop adjustment for UEs with any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=-70<CR>Range: -200 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,pdcchOuterLoopInitialAdj] = The initial value for PDCCH outer loop adjustment for UEs that do not have any secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=-70<CR>Range: -200 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,pdcchOuterLoopUpStepPCell] = PDCCH outer loop up step size for primary cells in case of carrier aggregation. This applies to UEs that have at least one secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter is not used.<CR>Change takes effect: Object unlocked<CR>Default=6<CR>Range: 0 to 100<CR>Unit: 0.001 dB
attr_description[Lrat.EUtranCellFDD,pdcchOuterLoopUpStepVolte] = PDCCH outer loop up step size for UEs with any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=6<CR>Range: 0 to 100<CR>Unit: 0.001 dB
attr_description[Lrat.EUtranCellFDD,pdcchOuterLoopUpStep] = PDCCH outer loop up step size for UEs that do not have any secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=8<CR>Range: 0 to 100<CR>Unit: 0.001 dB
attr_description[Lrat.EUtranCellFDD,pdcchPowerBoostMax] = Maximum power boost applied to UE-specific PDCCHs that require more CCEs than the maximum available CCE aggregation level. If UE-specific PDCCHs  require equal or less, an automatic power boost algorithm is applied. Attribute pdcchPowerBoostMax does not affect those PDCCHs.<CR>If set to 0, there is no PDCCH power boost of the maximum CCE aggregation level. PDCCH coverage is not increased but the feature still optimizes the PDCCH power setting for PDCCHs that require equal or less CCEs than the maximum CCE aggregation level. This still allows for higher PDCCH capacity.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 6<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,pdcchSinrChangeThresholdPCell] = The PDCCH link adaptation threshold for primary cells in case of carrier aggregation. When the absolute value of the accumulated PDCCH SINR adjustment is greater than or equal to this threshold, PDCCH LA is performed. This applies to UEs that have at least one secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter is not used.<CR>Change takes effect: Object unlocked<CR>Default=10<CR>Range: 0 to 100<CR>Unit: 0.05 dB
attr_description[Lrat.EUtranCellFDD,pdcchSinrChangeThresholdVolte] = The PDCCH link adaptation threshold for UEs with any bearer mapped to a QCI with serviceType of VoIP. When the absolute value of the accumulated PDCCH SINR adjustment is greater than or equal to this threshold, PDCCH LA is performed. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=10<CR>Range: 0 to 100<CR>Unit: 0.05 dB
attr_description[Lrat.EUtranCellFDD,pdcchSinrChangeThreshold] = When the absolute value of the accumulated PDCCH SINR change is greater than or equal to this threshold, PDCCH link adaptation is performed. This applies to UEs that do not have any secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=10<CR>Range: 0 to 100<CR>Unit: 0.05 dB
attr_description[Lrat.EUtranCellFDD,pdcchSinrOffsetWithMimo] = The SINR offset to be used when mapping CQI to SINR if CQI is based on rank of 2.<CR>Change takes effect: Object unlocked<CR>Default=30<CR>Range: 0 to 100<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,pdcchTargetBlerPCell] = PDCCH target error rate for primary cells in case of carrier aggregation. This applies to UEs that have at least one secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter is not used.<CR>Change takes effect: Object unlocked<CR>Default=22<CR>Range: 1 to 200<CR>Unit: 0.05 %
attr_description[Lrat.EUtranCellFDD,pdcchTargetBlerVolte] = PDCCH target error rate for UEs with any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=22<CR>Range: 1 to 200<CR>Unit: 0.05 %
attr_description[Lrat.EUtranCellFDD,pdcchTargetBler] = PDCCH target error rate for UEs that do not have any secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=24<CR>Range: 1 to 200<CR>Unit: 0.05 %
attr_description[Lrat.EUtranCellFDD,pdschMaxNrOfPrbsPerUe] = Maximum number of physical resource blocks (PRBs) allowed on PDSCH for each UE.<CR>Note: If the set value is larger than the system bandwidth, then the system bandwidth value will be used instead.<CR>For PDSCH resource allocation type 0, the actual maximum number of PRBs that is allocated will be a multiple of RBGs (Resource Block Groups) that is nearest to the set value but without exceeding it.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 1 to 100
attr_description[Lrat.EUtranCellFDD,pdschTypeBGain] = Sets the DL power of the PDSCH type B resource elements relatively the PDSCH type A resource elements. Values pdschTypeBGain=(0,1,2,3) define the gains (5/4,1,3/4,1/2) respectively, corresponding to the multi-antenna scenario specified in 3GPP TS 36.213.<CR>Example: If the pdschTypeBGain is 3 (gain=1/2), the power of the PDSCH type B resource elements is a factor 1/ 2 of the power of the PDSCH type A resource elements.<CR>PDSDH type A resource elements are located in symbols that do not contain cell specific reference signals (CRS). PDSCH type B resource elements are located in symbols that contain CRS.<CR>Dependencies: The pdschTypeBGain=0 (gain=5/4) is not allowed if crsGain=1.77,3.0, 4.77,6.0 dB. This combination causes over allocation of DL mean radio power and attribute pdschTypeBGain is set to 1 (gain=1).<CR>The pdschTypeBGain only takes effect if the configured number of antenna ports is 2,4, or 8.  In the one port case, the power of resource elements for  PDSCH type A and B is equal.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellFDD,pftNetworkSoftwareVersion] = Network software version of the PFT protocol.<CR>Change takes effect: Object unlocked<CR>Default=1<CR>Range: 0 to 10
attr_description[Lrat.EUtranCellFDD,pftTatAndIatPairSelection] = Index of the pair of timing advance timers and the corresponding pair of inactivity timers that are used for all PFT users.<CR>Status Information: Since L16B. Replaced by pftTatPairSelection. Planned to be removed.<CR>Change takes effect: New connection<CR>Default=3<CR>Range: 0 to 7
attr_description[Lrat.EUtranCellFDD,pftTatPairSelection] = Index of the pair of timing advance timers that are used for all PFT users.<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0 to 7
attr_description[Lrat.EUtranCellFDD,physicalLayerCellIdGroup] = The physical layer cell ID group. Physical-layer cell IDs are grouped into 168 unique physical-layer cell-identity groups, each group containing 3 unique subidentities.<CR>This attribute together with physicalLayerSubCellId is used to calculate physical layer cell ID (see 3GPP TS 36.211) that is sent as part of the system information (see 3GPP TS 36.331).<CR>Disturbances: Changes may affect traffic<CR>Range: 0 to 167
attr_description[Lrat.EUtranCellFDD,physicalLayerCellId] = Physical-layer cell ID, equal to 3 X physicalLayerCellIdGroup + physicalLayerSubCellId.<CR>Specification: 3GPP 36.211<CR>Range: 0 to 503
attr_description[Lrat.EUtranCellFDD,physicalLayerSubCellId] = The subidentity within the physical layer cell ID group. Physical-layer cell IDs are grouped into 168 unique physical-layer cell-identity groups, each group containing 3 unique subidentities.<CR>This attribute together with physicalLayerCellIdGroup is used to calculate physical layer cell identity (see 3GPP TS 36.211) which is sent as part of the system information (see 3GPP TS 36.331).<CR>Disturbances: Changes may affect traffic<CR>Range: 0 to 2
attr_description[Lrat.EUtranCellFDD,preambleInitialReceivedTargetPower] = Initial preamble power value in dBm, according to 3GPP specification 36.331 and 36.321.<CR>Change takes effect: Cell lock/unlock<CR>Default=-110<CR>Range: -120 to -90<CR>Unit: dBm
attr_description[Lrat.EUtranCellFDD,primaryPlmnAlarmSuppr] = Indicates if the primary PLMN ID in the cell is suppressed for alarms PLMN Service Degraded and PLMN Service Unavailable when primary PLMN is not available in the cell.<CR>The primary PLMN ID is suppressed if this attribute is set to true.<CR>If the configured PLMN ID is not a served PLMN ID, then the alarm is suppressed independent of the configured settings.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,primaryPlmnReserved] = Indicates if the primary PLMN ID in the cell is reserved for operator use. The primary PLMN ID is reserved if this attribute is set to true.<CR>Dependencies: the attribute eNodeBPlmnId in the parent ENodeBFunction will hold the value of the primary PLMN ID.<CR>Disturbances: Changing this attribute can block traffic in the cell.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,primaryPsdOffset] = Offset value that controls the maximum allowed difference between pZeroNominalPusch and the received power below pZeroNominalPusch in the primary sector when UL CoMP is used.<CR>Default=0<CR>Range: 0 to 31<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,prioAdditionalFreqBandList] = List of additional frequency bands the cell belongs to. Primary frequency band, EARFCN value of the cell, is not included. Secondary cell evaluation is done according to list order, and/or the list is broadcasted in SIB1. Highest priority band is position 0 in the list.<CR>Dependencies: List only contains frequency bands from additionalFreqBandList.<CR>Precondition: ENodeBFunction::useBandPrioritiesInSCellEval and/or ENodeBFunction::useBandPrioritiesInSib1 must be enabled.<CR>MinLength=0 MaxLength=8<CR>Range: 1 to 256
attr_description[Lrat.EUtranCellFDD,prioHpueCapability] = Priority of high power UE capability.<CR>Default=NO_PRIORITIZATION<CR>Range: 0,1
attr_description[Lrat.EUtranCellFDD,prsConfigIndexMapped] = This parameter holds the resulting prsConfigIndex value. If prsPeriod is used by the operator then prsConfigIndexMapped will be set by the system. If prsConfigIndex is used by the operator then prsConfigIndexMapped will be a copy of the entered value.<CR>Range: 0 to 4095
attr_description[Lrat.EUtranCellFDD,prsConfigIndex] = The Positioning Reference Signal (PRS) index value for the cell defines the periodicity of the PRS occasions and the PRS subframe offset, as defined in 3GPP TS 36.211. The value -1 (default) means that this parameter will not be used for setting the PRS period and prsSubframeOffset. Instead the parameter prsPeriod shall be used to directly set the PRS period while prsSubframeOffset will be set by the system to guarantee non collision with SIB1.<CR>Change takes effect: Object unlocked<CR>Default=-1<CR>Range: -1 to 4095
attr_description[Lrat.EUtranCellFDD,prsMutingPatternLen] = Used for selecting the length of the PRS muting pattern. Setting the pattern length to 1 results in deactivation of PRS muting. The muting pattern is set to "1111111111111" in this case. Other recommended muting pattern lengths are: 2, 4, 8, and 16 bits.<CR>Change takes effect: Object unlocked<CR>Default=1<CR>Range: 1,2,4,8,16<CR>Unit: bits
attr_description[Lrat.EUtranCellFDD,prsMutingPattern] = Used for storing the calculated muting pattern for the cell. This parameter cannot be manually set.<CR>Change takes effect: Object unlocked<CR>Range: 1 to 16
attr_description[Lrat.EUtranCellFDD,prsPeriod] = The period of Positioning Reference Signal (PRS) occasions. Valid periods include 160 ms, 320 ms, 640 ms and 1280 ms.<CR>prsPeriod is used to calculate the prsConfigIndex to avoid PRS sub-frame collisions with SIB1 sub-frames.<CR>Change takes effect: Object unlocked<CR>Default=PP160<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellFDD,prsPowerBoosting] = Used for selecting the different power boosting alternatives for PRS transmissions. If set to 0, a default table based on the number of PBCH antennas and transmission scheme is shown. If set to 1, 2, or 3, it results in a power boosting of 0 dB, 3 dB, or 6 dB respectively.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 3
attr_description[Lrat.EUtranCellFDD,prsTransmisScheme] = Used for selecting whether the PRS transmission must use antenna switching or pre-coder switching.<CR>Change takes effect: Object unlocked<CR>Default=ANTENNA_SWITCHING<CR>Range: 0,1
attr_description[Lrat.EUtranCellFDD,pucchOverdimensioning] = Number of resource blocks outside each Physical Uplink Control Channel (PUCCH) region that are available for scheduling Physical Uplink Shared Channel (PUSCH).<CR>Note: Both the value of this attribute and the amount of resources allocated for PUCCH impacts where the resource allocation of the PRACH starts. In case of sub-band radio used, it is not allowed for PRACH to span over a 5 MHz sub-band border, which has to be considered when configuring the value of this attribute. Supported values are: 0, 3, 4, 7, 8, 13, 24 and 25.<CR>Change takes effect: Object disabled/enabled.<CR>Default=0<CR>Range: 0 to 49<CR>Unit: Resource Block
attr_description[Lrat.EUtranCellFDD,puschMaxNrOfPrbsPerUe] = Maximum number of physical resource blocks allowed on PUSCH for each UE.<CR>Dependencies: This parameter only takes effect if the feature PUCCH Overdimensioning is activated.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 1 to 100<CR>Unit: Resource Block
attr_description[Lrat.EUtranCellFDD,puschPwrOffset64qam] = Power offset to the target-received PUSCH Power Spectral Density (PSD) for 64-QAM-capable UEs. Used to control the received SINR target.<CR>It is used to enable maximum throughput for 64QAM, which in some configurations is not possible otherwise, see dependencies.<CR>Dependencies: Only relevant if the license for 64-QAM Uplink is present and the<CR>feature is active.<CR>For 2Rx, pZeroNominalPusch + puschPwrOffset64qam needs to be -100 dBm or higher to achieve maximum throughput.<CR>puschPwrOffset64Qam should be set to 0 when both UL 64QAM and UL MU-MIMO are enabled in eNB.<CR>Disturbances: Changes can affect traffic.<CR>Default=0<CR>Range: 0 to 8<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,qQualMinOffset] = The offset applied to the signaled qQualMin.<CR>Corresponds to Qqualminoffset in TS 36.304.<CR>Value 0 means that it is not sent in SIB1 and UE applies in such case the (default) value of 0 dB for Qqualminoffset.<CR>Dependencies: If the value of qQualMin is set to 0 the parameter qQualMinOffset will not be broadcasted.<CR>Default=0<CR>Range: 0 to 8<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,qQualMinRsrqCe] = Min quality level (RSRQ) in cell for UE in enhanced coverage mode.<CR>Corresponds to Qqualmin_CE in TS 36.304, sent in SIB1-BR. If 0, it is not sent and UE applies default value of negative infinity for Qqualmin_CE.<CR>Default=0<CR>Range: -34 to -3,0<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,qQualMin] = Specifies the minimum required quality level (RSRQ) in the cell in dB.<CR>Corresponds to Qqualmin in TS 36.304, sent in SIB1. Value 0 means that it is not sent and UE applies in such case the (default) value of negative infinity for Qqualmin.<CR>Dependencies: The field is mandatory present if the Struct Member threshServingLowQ in SIB3 is used in systemInformationBlockType3.<CR>Default=0<CR>Range: -34 to -3,0<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,qRxLevMinCe] = Min received RSRP level in E-UTRA frequency for cell reselection for UE in enhanced coverage mode. Corresponds to parameter Qrxlevmin_CE in 3GPP TS 36.304. This attribute is broadcast in SIB1-BR.<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.EUtranCellFDD,qRxLevMinOffset] = The offset applied to the signaled Qrxlevmin. Corresponds to parameter Qrxlevminoffset in 3GPP TS 36.304. Value 1000 means it is not sent and the UE sets Qrxlevminoffset=0dB.<CR>Default=1000<CR>Range: 2 to 16,1000<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,qRxLevMin] = The required minimum received Reference Symbol Received Power (RSRP) level in the E-UTRA frequency for cell reselection. Corresponds to parameter Qrxlevmin in 3GPP TS 36.304. This attribute is broadcast in SIB1.<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.EUtranCellFDD,qciTableRef] = Refers to an instance of QciTable and assigns a QciTable to a cell. The QciTable defines Quality of Service Class Indicator (QCI) to use in the cell.<CR>Refers to the QciTable instance corresponding to Local Distinguished Name (LDN) = ManagementElement=1, ENodeBFunction=1, QciTable=default<CR>isNillable: true<CR>Dependencies: It is assumed that the QciTable MO has been created.<CR>Change takes effect: New connection.<CR>References: Lrat.QciTable[0-]
attr_description[Lrat.EUtranCellFDD,rachNoOfAllocationsPerFrame] = Defines the number of subframes per radio frame where PRACH is allocated. The PRACH configuration is broadcasted as part of system information.<CR>Valid values: 5, 10, 20, 30, 50, 100<CR>Value mapping:<CR>5 =  0.5 (0ne every second radio frame)<CR>10 = 1<CR>20 = 2<CR>30 = 3<CR>50 = 5<CR>100 = 10<CR>Change takes effect: Object unlocked.<CR>Default=10<CR>Range: 5,10,20,30,50,100
attr_description[Lrat.EUtranCellFDD,rachPreambleRepetition] = Defines if RACH preamble repetition shall be used for preamble sequence generation and detection. Defines the preamble format (format 0 or 2).<CR>Preamble format is broadcasted as part of system information.<CR>Change takes effect: Object unlocked.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,rachRootSequence] = The first root sequence number for Random Access Channel (RACH) preamble generation. RACH root sequence is broadcast as a part of system information distribution and used for preamble detection.<CR>See definition for logical root sequence number in 3GPP TS 36.211.<CR>If feature Automated Rach Root Sequence Allocation is not activated a parameter change triggers automatic cell lock/unlock.<CR>If feature Automated Rach Root Sequence Allocation is activated the parameter is changed without the need to lock/unlock the cell.<CR>Disturbances: Changes may affect traffic.<CR>Default=386<CR>Range: 0 to 837
attr_description[Lrat.EUtranCellFDD,radioBearerTableRef] = Reference to an instance of RadioBearerTable. Assigns a RadioBearerTable for a cell.<CR>Reference to the RadioBearerTable instance corresponding to LDN= "ManagementElement=1, ENodeBFunction=1, RadioBearerTable =default"<CR>isNillable: true<CR>Dependencies: It is assumed that the RadioBearerTable MO has been created.<CR>Change takes effect: New connection.<CR>References: Lrat.RadioBearerTable[0-]
attr_description[Lrat.EUtranCellFDD,rateShapingActive] = Indicates if End-user bitrate shaping functionality is activated in this cell.<CR>Dependencies: Only relevant if the license for End-user bitrate shaping is present and the feature is active.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,reservedBy] = Contains a list of managed object instances that reserves this managed object instance.<CR>Dependencies: The managed object cannot be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.EUtranCellRelationUnlicensed[0-],Lrat.EUtranCellRelation[0-],Lrat.MbsfnAreaCellRelation[0-],Lrat.NbIotCell[0-]
attr_description[Lrat.EUtranCellFDD,resourcePartitionGroupRef] = Reference to an instance of ResourcePartitionGroup MO.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: Cell lock/unlock<CR>References: Lrat.ResourcePartitionGroup[0-1]
attr_description[Lrat.EUtranCellFDD,rpsfPowerReduction] = To allow scheduling in the protected subframes in the master cell the downlink output power must be reduced for all channels (except those needed for legacy UE behavior) in order not to interfere with cell edge users in the slave cells. 0 means no power reduction. Value 1000 means that no scheduling can be done in the protected subframes in the master cell.<CR>Default=1000<CR>Range: 0 to 300,1000<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,rtpTimeout] = Enables operator configuration of the RTP timeout value at the eNodeB at a cell level that corresponds to the RTP timeout value get set at the IMS layer.<CR>Default=10<CR>Range: 1 to 15<CR>Unit: seconds
attr_description[Lrat.EUtranCellFDD,rxSinrTargetClpc] = SINR target value for SINR-based UL closed-loop power control.<CR>Dependencies: SINR target only has effect if attribute enableSinrUplinkClpc is true.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=25<CR>Range: -50 to 50<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,sCellHpueEnabled] = Whether or not SCell selection for high power UE that is not capable of CA simultaneously is enabled.<CR>Status Information: Since 17.Q3. Has no functional behavior. Planned to be removed.<CR>Default=true
attr_description[Lrat.EUtranCellFDD,sdmActive] = Specifies if SDM (Spatial Division Multiplexing) for CombinedCell configuration is activated or not. If SDM is activated, it is possible to multiplex multiple Ues in different sectors in the same time and same frequency resource.<CR>Disturbances: Change can affect traffic<CR>Change takes effect: Object disabled/enabled<CR>Default=false
attr_description[Lrat.EUtranCellFDD,sectorCarrierRef] = Reference to a list of instances of SectorCarrier MO.<CR>Disturbances: Change can affect traffic<CR>Change takes effect: Object disabled/enabled<CR>MinLength=0 MaxLength=12<CR>References: Lrat.SectorCarrier[0-]
attr_description[Lrat.EUtranCellFDD,servOrPrioIFHoSetupBearer] = Determines whether a bearer that fulfills the criteria for the feature Service- or Priority-Triggered Inter-Frequency Handover is set up, or rejected in UE .<CR>Default=true
attr_description[Lrat.EUtranCellFDD,servOrPrioRedirectEnabled] = Indicates if release with redirection is allowed in the feature Service or Priority-Triggered Inter-Frequency Handover.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.EUtranCellFDD,servOrPrioTriggeredErabAction] = Specifies the action performed when a S1AP:E-RAB SETUP REQUEST arrives and both the feature Service or Priority-Triggered Inter-Frequency Handover is active and the conditions for the bearer request are fulfilled.<CR>Dependencies: This attribute only takes effect when attribute servOrPrioTriggeredIFHo has value 'QCI'.<CR>Change takes effect: New connection<CR>Default=REJECT<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellFDD,servOrPrioTriggeredIFHo] = Specifies the trigger used in the feature Service or Priority-Triggered Inter-Frequency Handover.<CR>Change takes effect: New connection<CR>Default=QCI<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,serviceAreaId] = The MBMS Service Area Identity.<CR>Status Information: Since L16B. Replaced by MbsfnArea::serviceAreaId. Planned to be removed.<CR>Dependencies: At least one defined serviceAreaId needs to be configured in the eNB to ENABLE a TermPointToMmeM3<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 65535
attr_description[Lrat.EUtranCellFDD,siPeriodicityBr] = SI message periodicity for Bandwidth reduced UEs. If SIB is not mapped to SI message, SI message is not transmitted.<CR>Change takes effect: Next cell unlock
attr_description[Lrat.EUtranCellFDD,siPeriodicity] = The periodicity of System Information (SI) messages. If a System Information Block (SIB) is not mapped to a SI message, the SI message is not transmitted.<CR>Change takes effect: When EUtranCellFDD/TDD object is unlocked.
attr_description[Lrat.EUtranCellFDD,siValidityTimeBr] = SI validity timer. The timer is set to 3h or 24h.<CR>Change takes effect: Object unlocked<CR>Default=VALIDITY_TIME_3H<CR>Range: 0,1
attr_description[Lrat.EUtranCellFDD,siWindowLength] = Length of the System Information (SI) window within which each SI message is transmitted. Applies to all SI messages.<CR>Note:  An SI window of 1 ms may be configured only when a maximum of 5 SI messages is configured for broadcast by attribute mappingInfo, to avoid collision with SIB1 transmission in subframe #5.<CR>Dependencies: siWindowLength must be 10 ms or above in case PWS SI messages are broadcasted.<CR>Change takes effect: When EUtranCellFDD/TDD object is unlocked<CR>Default=10<CR>Range: 1,2,5,10,15,20,40<CR>Unit: ms
attr_description[Lrat.EUtranCellFDD,sinrThreshHomToLegacyPCell] = The SINR threshold for PCell below which a 256 QAM capable UE will leave the higher order modulation (HOM) mode. A UE not in HOM mode is not allowed to use 256 QAM.<CR>Dependencies: sinrThreshLegacyToHomPCell > sinrThreshHomToLegacyPCell<CR>Change takes effect: Cell lock/unlock<CR>Default=60<CR>Range: -100 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,sinrThreshHomToLegacySCell] = The SINR threshold for SCell below which a 256 QAM capable UE will leave the higher order modulation (HOM) mode. A UE not in HOM mode is not allowed to use 256 QAM.<CR>Dependencies: sinrThreshLegacyToHomSCell > sinrThreshHomToLegacySCell<CR>Change takes effect: Cell lock/unlock<CR>Default=60<CR>Range: -100 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,sinrThreshLegacyToHomPCell] = The SINR threshold for PCell above which a 256 QAM capable UE will enter the higher order modulation (HOM) mode. A UE in HOM mode is allowed to use 256 QAM.<CR>Dependencies: sinrThreshLegacyToHomPCell > sinrThreshHomToLegacyPCell<CR>Change takes effect: Cell lock/unlock<CR>Default=150<CR>Range: 0 to 300<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,sinrThreshLegacyToHomSCell] = The SINR threshold for SCell above which a 256 QAM capable UE will enter the higher order modulation (HOM) mode. A UE in HOM mode is allowed to use 256 QAM.<CR>Dependencies: sinrThreshLegacyToHomSCell > sinrThreshHomToLegacySCell<CR>Change takes effect: Cell lock/unlock<CR>Default=150<CR>Range: 0 to 300<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,spectrumEmissionReqMapping] = A list which maps frequency bands to network signaling values specifying additional spectrum emissions, as described by 3GPP TS 36.101, table 6.2.4-1. A band which is not explicitly mapped to a network signaling value by this list, will use the value NS_01. This list is used to generate the value of additionalSpectrumEmissionValues.<CR>MinLength=0 MaxLength=64
attr_description[Lrat.EUtranCellFDD,spifhoSetupBearerAtInitialCtxtSetup] = Decides if a bearer handled by the feature Service or Priority Triggered Inter-Frequency Handover (SPIFHO) is set up at Initial Context Setup even when attribute servOrPrioIFHoSetupBearer is false.<CR>Dependencies: The value of this attribute is only considered when the value of servOrPrioIFHoSetupBearer=false.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellFDD,srDetectHighThres] = Defines how many dB higher than the original SR detection threshold can be used as high SR detection threshold. Used together with srProcessingLevel to reduce false SR detection.<CR>Change takes effect: Cell lock/unlock<CR>Default=70<CR>Range: 0 to 300<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,srProcessingLevel] = Defines how many SRs eNodeB must receive in a row in order to process it. Used together with srDetectHighThres to reduce false SR detection.<CR>Change takes effect: Cell lock/unlock<CR>Default=NO_ADDITIONAL_SR_NEEDED<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,srRetransPeriodTarget] = Controls the SR retransmission period target on PUCCH that is configured in the UE through the SR prohibit timer.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 640<CR>Unit: ms
attr_description[Lrat.EUtranCellFDD,srbTableRef] = Reference to an instance of SrbTable. Assigns a SrbTable for a cell.<CR>Reference to the SrbTable instance corresponding to LDN= "ManagementElement=1, ENodeBFunction=1, SrbTable=default"<CR>isNillable: true<CR>Dependencies: It is assumed that the SrbTable MO has been created.<CR>Change takes effect: New connection.<CR>References: Lrat.SrbTable[0-]
attr_description[Lrat.EUtranCellFDD,ssacBarringForMMTELVideoPresent] = Specifies presence of Information Element ssac-BarringForMMTEL-Video-r9 in SIB2.<CR>Status Information: Since 17.Q3. Replaced by AcBarringPresence.acBarringForMmtelVideoPresence in EUtranCellFDD/EUtranCellTDD::acBarringPresence. Planned to be removed.<CR>Disturbances: Changing this attribute can block video calls in the cell.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,ssacBarringForMMTELVideo] = Service specific access class barring parameters for MMTEL video originating calls.<CR>The information in broadcasted in SIB2.<CR>Disturbances: Changing this attribute can block video calls in the cell.
attr_description[Lrat.EUtranCellFDD,ssacBarringForMMTELVoicePresent] = Specifies presence of Information Element ssac-BarringForMMTEL-Voice-r9 in SIB2.<CR>Status Information: Since 17.Q3. Replaced by AcBarringPresence.acBarringForMmtelVoicePresence in EUtranCellFDD/EUtranCellTDD::acBarringPresence. Planned to be removed.<CR>Disturbances: Changing this attribute can block VoLTE calls in the cell.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,ssacBarringForMMTELVoice] = Service specific access class barring parameters for MMTEL voice originating calls.<CR>The information in broadcasted in SIB2.<CR>Disturbances: Changing this attribute can block VoLTE calls in the cell.
attr_description[Lrat.EUtranCellFDD,switchingOffsetSinrClpc] = Switching offset of UL closed-loop power control between Pzero-based and SINR-based. In order to ensure SINR-based is better than Pzero-based.<CR>Dependencies: Attribute enableSinrUplinkClpc must be true.<CR>Default=8<CR>Range: 0 to 40<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,symbolOffsetTest] = Frame synch offset measured in symbols.<CR>Disturbances: Changes may affect traffic.<CR>Default=0<CR>Range: 0 to 6
attr_description[Lrat.EUtranCellFDD,systemInformationBlock3] = Contains cell re-selection information common for intra-frequency, inter-frequency and/ or inter-RAT cell re-selection.
attr_description[Lrat.EUtranCellFDD,systemInformationBlock6] = Contains cell re-selection information common for cell re-selection towards UTRAN.<CR>Change takes effect: Object lock/unlock
attr_description[Lrat.EUtranCellFDD,systemInformationBlock7] = Contains cell re-selection information common for cell re-selection towards GERAN.<CR>Change takes effect: Object lock/unlock
attr_description[Lrat.EUtranCellFDD,systemInformationBlock8] = Contains cell re-selection information common for cell re-selection towards CDMA2000. This is controlled by the licensing MO Cdma2000SessionContinuity. The SIB8 distribution and information are also controlled by other licenses.<CR>Change takes effect: Object lock/unlock
attr_description[Lrat.EUtranCellFDD,tReorderingAutoConfiguration] = Enable automatic configuration of tReorderingDl and tReorderingUl. Configuration is based on HARQ-interval together with an offset defined by harqOffsetDl/harqOffsetUl.<CR>tReordering >= 'Max number of HARQ' * HARQ-interval + harqOffset, where closest higher or equal allowed value is used.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellFDD,tTimeAlignmentTimer] = A timer used for supervision and control of uplink synchronization. Special value: 0 means infinity.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0,500,750,1280,1920,2560,5120,10240<CR>Unit: ms
attr_description[Lrat.EUtranCellFDD,tUeBlockingTimer] = Length of time eNodeB rejects traffic requests from non-privileged UEs when detecting high procedure latency. Used in Procedure Latency Supervision. Privileged traffic, such as High Priority Access (HPA) and Emergency, is never rejected due to high procedure latency conditions.<CR>Change takes effect: Next cell unlock<CR>Default=200<CR>Range: 50 to 200<CR>Unit: 0.1 s
attr_description[Lrat.EUtranCellFDD,tac] = Tracking Area Code for the EUtran Cell.<CR>Disturbances: Changes may affect traffic<CR>Range: 0 to 65535
attr_description[Lrat.EUtranCellFDD,threshServingLow] = Specifies the threshold that the signal strength of the serving cell must be below for cell reselection towards a lower priority Inter-Frequency or Inter-RAT frequency.<CR>Corresponds to ThreshServingLowP in TS 36.304.<CR>Default=0<CR>Range: 0 to 62<CR>Unit: dB
attr_description[Lrat.EUtranCellFDD,timeOfLastModification] = Indicates the time and date when the MO was last modified.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.EUtranCellFDD,timeOffsetTest] = Frame synch offset measured in nano seconds.<CR>Disturbances: Changes may affect traffic.<CR>Default=0<CR>Range: 0 to 70000<CR>Unit: ns
attr_description[Lrat.EUtranCellFDD,transmissionModeR10] = Defines if Transmission Mode 9 must be used for Release 10 UEs that are connected to the cell.<CR>See 3GPP TS 36.213 table 7.1-5 for a definition of Transmission Mode.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,transmissionMode] = Defines the Transmission Mode (e.g. Transmit Diversity and Closed-Loop Spatial Multiplexing) that shall be used for the UEs that are connected to the cell. See 3GPP TS 36.213 table 7.1-5 for a definition of Transmission Mode.<CR>Default=TRANSMISSION_MODE_3<CR>Range: 2,3,4,9
attr_description[Lrat.EUtranCellFDD,ttiBundlingAfterHo] = Controls if UE remains in TTI bundling mode after handover.<CR>Default=NO_TTI_BUNDLING<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,ttiBundlingAfterReest] = Controls if UE remains in TTI bundling mode after reestablishment.<CR>Default=TTI_BUNDLING_SOURCE_REEST_ONLY<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellFDD,ttiBundlingSwitchThresHyst] = Hysteresis of SINR threshold for triggering a switch to TTI bundling.<CR>Change takes effect: Cell lock/unlock<CR>Default=10<CR>Range: 0 to 50<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,ttiBundlingSwitchThres] = SINR threshold for triggering a switch to TTI bundling.<CR>Change takes effect: Cell lock/unlock<CR>Default=90<CR>Range: -150 to 250<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellFDD,ul64qamEnabled] = Enables UL 64-QAM at cell level.<CR>Dependencies: Only relevant if the license for UL 64-QAM is present and the<CR>feature is active.<CR>Change takes effect: Cell lock/unlock<CR>Default=true
attr_description[Lrat.EUtranCellFDD,ulBlerTargetEnabled] = Turns feature Configurable UL BLER Target on and off.<CR>Default=false
attr_description[Lrat.EUtranCellFDD,ulChannelBandwidth] = The uplink channel bandwidth in the cell.<CR>Valid values: 1400, 3000, 5000, 10000, 15000, 20000<CR>Dependencies: This attribute is dependent on and shall be set to the same as dlChannelBandwidth.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object disabled/enabled.<CR>Default=10000<CR>Range: 1400,3000,5000,10000,15000,20000<CR>Unit: kHz
attr_description[Lrat.EUtranCellFDD,ulConfigurableFrequencyStart] = Specifies the start frequency offset for the allocation of resources when the uplink interference management is disabled expressed as a percentage of the configured bandwidth.<CR>Dependencies: ulInterferenceManagementActive shall be disabled before this parameter takes effect.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellFDD,ulCyclicPrefix] = Type of cyclic prefix used for uplink.<CR>Note: EXTENDED_15khz is not supported on current software.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object disabled/enabled.<CR>Default=NORMAL_15khz<CR>Range: 0,1
attr_description[Lrat.EUtranCellFDD,ulDynUeAdmCtrlOverloadThr] = Highest allowed UL radio resource utilization ratio for admission of a non-privileged UE. Applies to each UL resource considered by Dynamic UE Admission Control. Resource utilization is checked against this threshold for all new, re-established, or incoming handover RRC connections.<CR>Dependencies: ulDynUeAdmCtrlOverloadThr >= ulDynUeAdmCtrlRetDiffThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests       - rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non- privileged incoming handover requests.<CR>Default=600<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellFDD,ulDynUeAdmCtrlRetDiffThr] = Highest allowed UL radio resource utilization ratio for admission of a new non-privileged UE. Applies to each UL resource considered by Dynamic UE Admission Control. Resource utilization is checked against this threshold for all new RRC connections.<CR>Dependencies: ulDynUeAdmCtrlRetDiffThr =< ulDynUeAdmCtrlOverloadThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests.<CR>Default=500<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellFDD,ulFrequencyAllocationProportion] = Specifies the amount of frequency resources that is allocated in UL expressed as a percentage of the configured bandwidth.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellFDD,ulHarqTtiBBlerTargetAfterComp] = BLER target for TTI bundling users with inter-eNodeB UL CoMP triggered.<CR>Disturbances: Changing this attribute can affect system performance. As values goes higher, BLER increases. Volte performance can be degraded accordingly.<CR>Default=5<CR>Range: 0 to 35<CR>Unit: 0.01
attr_description[Lrat.EUtranCellFDD,ulHarqVolteBlerTarget] = The UL BLER target to be used for VoLTE UEs. This BLER target will be used for all UL transmissions for UEs that have a QCI1 bearer configured. If a UE does not have QCI1 bearer configured the normal UL BLER target will be used.<CR>Change takes effect: Object unlocked<CR>Default=5<CR>Range: 0 to 10<CR>Unit: %
attr_description[Lrat.EUtranCellFDD,ulImprovedUeAdapRetransEnabled] = Whether or not UL-scheduler is enabled that uses adaptive re-transmission more frequently for data-aware UL-scheduling UEs, to reduce fragments in UL spectrum.<CR>Default=true
attr_description[Lrat.EUtranCellFDD,ulImprovedUeSchedLastEnabled] = Whether or not UL scheduler is enabled to force allocation of PRBs to Data-Aware, UL-Scheduling UEs last.<CR>Default=true
attr_description[Lrat.EUtranCellFDD,ulInterferenceManagementActive] = Specifies if uplink interference management is enabled or disabled.<CR>Change takes effect: Object unlocked<CR>Default=true
attr_description[Lrat.EUtranCellFDD,ulInterferenceManagementDuration] = Specifies the time for which a randomly selected start frequency will be valid before a new start frequency is allocated. Setting it to "0" means that it will be randomly selected once, but never updated.<CR>Dependencies: ulInterferenceManagementActive shall be enabled before this parameter takes effect.<CR>Change takes effect: Object unlocked<CR>Default=5000<CR>Range: 0 to 10000<CR>Unit: 0.001 s
attr_description[Lrat.EUtranCellFDD,ulInternalChannelBandwidth] = Internal UL channel bandwidth in the cell with reduced channel bandwidth. Reduced bandwidth for an LTE carrier creates free space for carriers of other radio technologies to use within a standard spectrum 5 MHz or 10 MHz. Other spectrum  will generate the undefined value 0. Reduced channel bandwidth is only supported on RRUS14 and RRUS04.<CR>Dependencies: Dependent on, and to be set to, the same value as dlInternalChannelBandwidth.<CR>ulInternalChannelBandwidth values 4600 and 4800 are only allowed when ulChannelBandwidth is 5000.<CR>ulInternalChannelBandwidth value 9000 is only allowed when ulChannelBandwidth is 10000.<CR>Disturbances: Changes may affect traffic<CR>Change takes effect: Object disabled/enabled<CR>Default=0<CR>Range: 0,4600,4800,9000<CR>Unit: kHz
attr_description[Lrat.EUtranCellFDD,ulPsdLoadThresholdSinrClpc] = Threshold of UL transmission power per PRB. If averaged UL transmission power measurement per PRB is lower than ulPsdLoadThresholdSinrClpc over a set percentage of UL bandwidth, then SINR-based UL closed-loop power control can be considered.<CR>Dependencies: Threshold only has effect if attribute enableSinrUplinkClpc is true.<CR>Default=2<CR>Range: -126 to 24<CR>Unit: dBm
attr_description[Lrat.EUtranCellFDD,ulSCellPriority] = Relative priority in initial SCell selection for cells that can be configured with UL Carrier Aggregation. Applicable where several SCells are initially configured simultaneously. Lowest value has highest priority.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 0 to 5
attr_description[Lrat.EUtranCellFDD,ulSchedCtrlForOocUesEnabled] = Enables feature UL Scheduling Control for Out Of Coverage (OOC) UEs.<CR>Change takes effect: Cell lock/unlock<CR>Default=true
attr_description[Lrat.EUtranCellFDD,ulSrsEnable] = This parameter controls whenever sounding shall be enabled or not for the uplink frequency selective scheduling functionality.<CR>Dependencies: Only relevant if the license for frequency selective scheduling is present and active<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,ulTrigActive] = Specifies if outgoing uplink-triggered mobility actions are enabled or disabled in the cell.<CR>Used when Uplink-Triggered Inter-Frequency Mobility is enabled. The parameter has effect if Mobility Control in Poor Coverage is enabled and mobCtrlAtPoorCovActive is set to true in the cell.<CR>Default=true
attr_description[Lrat.EUtranCellFDD,ulTxPsdDistrThr] = Threshold for % of PRBs with "UL Tx power per PRB >= ulPsdLoadThresholdSinrClpc" during measSinrClpcPeriod. Below threshold means low cell power load and then SINR based UL closed-loop power control can be considered.<CR>Dependencies: Attribute enableSinrUplinkClpc must be true.<CR>Default=40<CR>Range: 0 to 100
attr_description[Lrat.EUtranCellFDD,uncertAltitude] = The uncertainty altitude (h) expressed in meters is derived from the uncertainty altitude (k) by h = 45*((1.025)^k - 1).<CR>Default=0<CR>Range: 0 to 127
attr_description[Lrat.EUtranCellFDD,uncertSemiMajor] = Semi-major axis of uncertainty. The uncertainty (r) is derived from the uncertainty code (k) by:<CR>r = 10 * ((1.1^k) - 1).<CR>Default=0<CR>Range: 0 to 127
attr_description[Lrat.EUtranCellFDD,uncertSemiMinor] = Semi-minor axis of uncertainty. The uncertainty (r) is derived from the uncertainty code (k) by:<CR>r = 10 * ((1.1^k) - 1).<CR>Default=0<CR>Range: 0 to 127
attr_description[Lrat.EUtranCellFDD,useESST] = Use Early Slow Start Termination algorithm in Active Queue Management (AQM).<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellFDD,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.EUtranCellFDD,zzzTemporary13] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by ReportConfigSearch::inhibitA2SearchConfig. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary14] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary15] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by ReportConfigEUtraIFBestCell::a3RsrqOffset. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary16] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by ReportConfigEUtraIFBestCell::hysteresisA3RsrqOffset. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary17] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary18] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary19] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary20] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by attribute ulBlerTargetEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary21] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary22] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary23] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary24] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary25] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16B. Replaced by ailgAutoRestartEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary26] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by outOfCoverageSrTimerPeriodicity. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary27] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by outOfCoverageThreshold. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary28] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since L16A. Replaced by attribute rtpTimeout. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary29] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary30] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary31] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary32] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary33] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary34] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since 17.Q1. Replaced by transmissionMode. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary35] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since L16B. Replaced by attribute pdschMaxNrOfPrbsPerUe. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary36] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since L17A. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary37] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since L17A. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary38] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by ulSchedCtrlForOocUesEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary39] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary40] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary41] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary42] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary43] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary44] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by dlBlerTargetEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary45] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by dlHarqVoLTEBlerTarget. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary46] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by ulImprovedUeSchedLastEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary47] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by noOfUlImprovedUe. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary48] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by ulImprovedUeAdapRetransEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary49] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by bsrThreshold. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary50] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary51] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary52] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary53] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary54] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary55] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary56] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary57] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary58] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary59] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary60] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary61] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary62] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary63] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary64] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary65] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellFDD,zzzTemporary66] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellRelation,amoAllowed] = Whether or not AMO function is allowed. Used to turn off AMO function on cell relation level.<CR>Default=true
attr_description[Lrat.EUtranCellRelation,amoState] = Describes AMO function enabling state. RBS system sets the value.<CR>Dependencies: Depends on the operator configuration of AmoFunction::amoAllowedInterVendor, EUtranFreqRelation::amoAllowed, EUtranCellRelation::amoAllowed and the type of cell relation.<CR>Range: 0,1
attr_description[Lrat.EUtranCellRelation,cellIndividualOffsetEUtran] = Offset value for the neighbor cell. Used when UE is in connected mode. This attribute can be modified by SON functions.<CR>Change takes effect: New connection.<CR>Default=0<CR>Range: -24,-22,-20,-18,-16,-14,-12,-10,-8,-6,-5,-4,-3,-2,-1,0,1,2,3,4,5,6,8,10,12,14,16,18,20,22,24<CR>Unit: dB
attr_description[Lrat.EUtranCellRelation,covCellDlPrbWakeUpThreshold] = DL PRB usage percentage threshold. At least one of the coverage cells must exceed this threshold to wake-up the capacity cell.<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellRelation,covCellRrcConnWakeUpThreshold] = Minimum number of RRC connections needed to wake-up the capacity cell. Sent by the capacity cell.<CR>Range: 0 to 3000
attr_description[Lrat.EUtranCellRelation,covCellWakeupMonitorDurTimer] = Minimum duration for coverage cell to satisfy configured load thresholds before the capacity cell can wake-up. Used in feature Cell Sleep Mode.<CR>Range: 5 to 120<CR>Unit: minutes
attr_description[Lrat.EUtranCellRelation,coverageIndicator] = Indicates whether the coverage area of the cell indicated by the relation has approximately the same coverage area (overlap) as this cell, or whether it fully covers this cell, or if it is fully contained in this cell.<CR>Disturbances: Changes may affect traffic<CR>Default=NONE<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellRelation,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator or X2<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellRelation,crsAssistanceInfoPriority] = Priority of neighbor cell whose CRS Assistance Information is sent to UE. For values between 1 and 100, the smaller the value, the higher the neighbor cell is prioritized for selection. Value 0 means the CRS Assistance Information of this neighbor cell is not sent.<CR>Note: This attribute is valid only for FDD cells.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 100
attr_description[Lrat.EUtranCellRelation,eUtranCellRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.EUtranCellRelation,esCellCaConfigurationAvail] = If indicated cell is currently able to serve as ESCell.<CR>- The ExternalEUtranCellFDD::remoteCellState (or ExternalEUtranCellTDD::remoteCellState) must be operState ENABLED.<CR>- Inter-eNodeB CA license must be active and baseband-to-baseband GTPU tunnel connection between ESCell and this eNodeB must be enabled. Or<CR>- Elastic RAN license must be active and baseband-to-baseband connections must be enabled.<CR>If not, no UEs are configured with this candidate. NOTE: UEs already configured with this cell can retain the configuration.<CR>If SCell is not external, this attribute is NOT_APPLICABLE.<CR>Dependencies: Depends on feature license and success of tunnels in TermPointToLbm (for the IeNB-CA feature only), TermPointToENB::interEnbSwCompatibilityState and on ExternalEUtranCellFDD::remoteCellState (or ExternalEUtranCellTDD::remoteCellState).<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.EUtranCellRelation,externalUlCompGroupAvail] = Whether external cell belongs to external UL Comp Group for each serving cell.<CR>Dependencies: Depends on feature license and success of UL CoMP tunnels in TermPointToLbm, which is decided by the values of TermPointToENB::interEnbUlCompSwCompatibility and ExternalEUtranCellFDD::remoteCellStateInterEnbUlComp (or ExternalEUtranCellTDD::remoteCellStateInterEnbUlComp) and EUtranCellRelation::ieNBUlCompCoopCellAllowed.<CR>Also depends on remote cell configuration, following conditions must be compatible with serving cell.<CR>- Same Frame Structure and Duplex mode<CR>- Same DL&UL EARFCN and UL Bandwidth for FDD<CR>- Same DL EARFCN, Bandwidth, Subframe Assignment for TDD<CR>Range: 0,1
attr_description[Lrat.EUtranCellRelation,hoSuccLevel] = Handover statistics status information. Each value corresponds to the status of the handover statistics.<CR>Change takes effect: Ongoing connection<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellRelation,hoSuccessRateLpFilt] = This parameter specifies the low-pass filtered handover success rate.<CR>Range: 0 to 10000<CR>Unit: 0.01 %
attr_description[Lrat.EUtranCellRelation,ieNBUlCompCoopCellAllowed] = Whether external cell is allowed to be used as cooperating cell candidates for inter-eNodeB UL CoMP.<CR>Change takes effect: Next tunnel setup<CR>Default=true
attr_description[Lrat.EUtranCellRelation,includeInSystemInformation] = Indicates if the referred cell is included in System Information.<CR>When the attribute is set to false, the cell is not included in either freqNeighList or blackCellList in SIB4 or SIB5.<CR>Specification: See 3GPP 36.331 for freqNeighList and blackCellList.<CR>Default=true
attr_description[Lrat.EUtranCellRelation,incomingLoadBalancing] = Determines if feature Overlaid Cell Detection has qualified this cell relation as an overlaid neighbor, i.e. high-hitRate, on the corresponding frequency relation.<CR>The value "true" means the neighbor cell is encouraged to initiate load balancing towards the source cell.<CR>The value "false" means no specific preferences exist.
attr_description[Lrat.EUtranCellRelation,isHoAllowed] = Specifies if handover between the cells in this relation is allowed.<CR>Disturbances: Changing this attribute to false stops outgoing HO.<CR>Default=true
attr_description[Lrat.EUtranCellRelation,isMroAllowed] = Indicates whether the Handover-associated configurations could be optimized automatically or not.<CR>Note: This attribute is valid only for TDD cells.<CR>Default=true
attr_description[Lrat.EUtranCellRelation,isRemoveAllowed] = Indicates if the Automated Neighbor Relations (ANR) function is allowed to remove this object. It does not restrict operator removal of the object. Objects created by ANR have this parameter set to true initially.<CR>Default=false
attr_description[Lrat.EUtranCellRelation,isShuttingdownSCellAllowed] = Indicates whether a shutting down cell can be chosen as SCell or not.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Default=true
attr_description[Lrat.EUtranCellRelation,lastModification] = Indicates whether the MO was last modified by the Automated Neighbor Relations (ANR) function or operator or X2 and if the MO is to be deleted who triggered the deletion<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.EUtranCellRelation,lbBnrAllowed] = Specifies if the feature Best Neighbor Relations for Intra-LTE Load Management is allowed to automatically change the loadBalancing attribute for this EUtran cell relation.<CR>Default=true
attr_description[Lrat.EUtranCellRelation,lbCovIndicated] = Determines if the cell relation has high hitRate towards the source cell.<CR>The attribute is automatically updated when the feature Overlaid Cell Detection is operable.<CR>Default=false
attr_description[Lrat.EUtranCellRelation,lbUeMeasScaling] = Scaling factor for the required number of UE candidates needed for load balancing measurements to meet the load balancing target. Special value: 0 means automatic scaling factor.<CR>The attribute has no effect when the feature Coverage Adapted Load Management is operable.<CR>Default=0<CR>Range: 0,10 to 100<CR>Unit: 0.1 .
attr_description[Lrat.EUtranCellRelation,loadBalancing] = This attribute indicates whether Inter-Frequency Load Balancing is ALLOWED or NOT_ALLOWED or if Inter-Frequency Offload shall be applied from the current cell to the cell indicated by the cell relation.<CR>Default=NOT_ALLOWED<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellRelation,mobilityStatus] = Contains mobility status information. When struct member mobilityStatus.available is set to FALSE, no handover is performed on the cell relation. mobilityStatus.reason indicates the reason why handover is not allowed on the cell relation.<CR>Change takes effect: Ongoing connection
attr_description[Lrat.EUtranCellRelation,neighborCellRef] = Reference to an instance of EUtranCellFDD, ExternalEUtranCellFDD, EUtranCellTDD or ExternalEUtranCellTDD managed object.<CR>References: Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-],Lrat.ExternalEUtranCellFDD[0-],Lrat.ExternalEUtranCellTDD[0-]
attr_description[Lrat.EUtranCellRelation,qOffsetCellEUtran] = Offset value applied to a specific cell in idle mode mobility state.<CR>Default=0<CR>Range: -24,-22,-20,-18,-16,-14,-12,-10,-8,-6,-5,-4,-3,-2,-1,0,1,2,3,4,5,6,8,10,12,14,16,18,20,22,24<CR>Unit: dB
attr_description[Lrat.EUtranCellRelation,removingMonitoringStart] = Indicates the time and date when the MO was started for monitoring for automatic removal by the (automatic neighbor relation) function.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.EUtranCellRelation,sCellCandidate] = SCell candidate status.<CR>The value indicates whether the cell indicated by parameter cellrelation can be used as SCell for UEs using this cell as their PCell. The SCell can be either local to the eNodeB, or on a remote eNodeB.<CR>Change takes effect: Changed value will take effect in relation to the next SCell configuration during the ongoing connection.<CR>Default=AUTO<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellRelation,sCellPriority] = Used for selecting an SCell within a frequency carrier. The SCell with highest priority is selected during initial blind SCell selection. 0 means lowest priority. -1 means the cell is excluded from blind SCell selection.<CR>Dependencies: Only applicable when CarrierAggregationFunction::dynamicSCellSelectionMethod == PRIORITIZED.<CR>Change takes effect: New connection<CR>Default=7<CR>Range: -1 to 7
attr_description[Lrat.EUtranCellRelation,sleepModeCapacityCell] = Indicates if related cell is a dependent capacity cell for Cell Sleep Mode support.
attr_description[Lrat.EUtranCellRelation,sleepModeCovCellCandidate] = Sleep Mode Coverage Cell candidate status.<CR>Indicates if related cell can be used as coverage cell for Cell Sleep Mode.<CR>Default=AUTO<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellRelation,sleepModeCoverageCell] = Indicates if related cell is a coverage cell for Cell Sleep Mode support.
attr_description[Lrat.EUtranCellRelation,timeOfCreation] = Indicates the time and date when the MO was created.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.EUtranCellRelation,timeOfLastModification] = Indicates the time and date when the MO was last modified.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.EUtranCellRelation,timesLeftToCheckRel] = This parameter holds the number of checks that remain until the neigbour relation is not regarded as suspected any longer.<CR>When the RBS knows more than one cell, internal or external, with the same PCI, and a neighbour relation exists to at least one of them, these neighbour relations are marked as suspected. Suspected relations are checked, using CGI reports, a number of times according to nrOfTimesToCheckRel. If one CGI report holds another CGI, than the current one for the relation, the operator is notified.<CR>Default=0<CR>Range: 0 to 100<CR>Unit: Number of checks
attr_description[Lrat.EUtranCellRelation,uniqueESCellId] = A unique but shortened identifier for external eNB and cell. This identifier can be used to correlate some logs with this cell relation.<CR>Range: 0 to 65535
attr_description[Lrat.EUtranCellRelationUnlicensed,coverageIndicator] = Indicates whether the coverage area of the cell indicated by the relation has approximately the same coverage area (overlap) as this cell, or whether it fully covers this cell, or if it is fully contained in this cell.<CR>Disturbances: Changes may affect traffic<CR>Default=NONE<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellRelationUnlicensed,eUtranCellRelationUnlicensedId] = The value component of the RDN.
attr_description[Lrat.EUtranCellRelationUnlicensed,earfcn] = Unlicensed carrier EARFCN used.<CR>Disturbances: Changes may affect traffic. If the earfcn is changed the cell will be automatic locked/unlocked, if needed.<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0 to 17999,46590 to 262143
attr_description[Lrat.EUtranCellRelationUnlicensed,neighborCellRef] = Reference to an instance of EUtranCellFDD, ExternalEUtranCellFDD, EUtranCellTDD or ExternalEUtranCellTDD managed object.<CR>References: Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-],Lrat.ExternalEUtranCellFDD[0-],Lrat.ExternalUtranCellTDD[0-]
attr_description[Lrat.EUtranCellRelationUnlicensed,sCellPriority] = Used to select SCell within frequency carrier. Highest priority SCell selected during initial blind SCell selection. 0 is lowest priority. -1 means cell is excluded from blind SCell selection.<CR>Dependencies: Only applicable when CarrierAggregationFunction::dynamicSCellSelectionMethod == PRIORITIZED.<CR>Change takes effect: New connection<CR>Default=7<CR>Range: -1 to 7
attr_description[Lrat.EUtranCellTDD,acBarringForCsfb] = Access class barring parameters for mobile originating CSFB calls.<CR>The information is broadcasted in SIB2.<CR>Disturbances: Changing this attribute can cause loss of traffic.
attr_description[Lrat.EUtranCellTDD,acBarringForEmergency] = Access class barring for  Emergency, which corresponds to access class 10.<CR>Disturbances: Changing this attribute can block emergency calls.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,acBarringForMoData] = Access class barring parameters for mobile originating calls.<CR>The information in broadcasted in SIB2.<CR>Disturbances: Changing this attribute can block data calls.
attr_description[Lrat.EUtranCellTDD,acBarringForMoSignalling] = Access class barring parameters for mobile originating signalling.<CR>The information in broadcasted in SIB2.<CR>Disturbances: Changing this attribute can block originating traffic.
attr_description[Lrat.EUtranCellTDD,acBarringInfoPresent] = Specifies presence of Information Element ac-BarringInfo in SIB2.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,acBarringPresence] = Specifies if Access Class Barring is present in SIB2.<CR>Disturbances: Changing this attribute can cause loss of traffic.
attr_description[Lrat.EUtranCellTDD,acBarringSkipForMmtelVideo] = Indicates whether or not access attempts for MMTEL video from UEs are to skip Access Class Barring functionality.<CR>Disturbances: Changing this attribute can block Video calls.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,acBarringSkipForMmtelVoice] = Indicates whether or not access attempts for MMTEL voice from UEs are to skip Access Class Barring functionality.<CR>Disturbances: Changing this attribute can block VoLTE calls.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,acBarringSkipForSms] = Indicates whether or not access attempts for SMS over SGs or SMS over IP from UEs are to skip Access Class Barring functionality.<CR>Disturbances: Changing this attribute can block sms.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,activeMtdMeasurements] = Array with all active Local Measurements on this MO.<CR>Measurement types for this attribute are TBD.<CR>Up to 10 measurements can be active.<CR>MinLength=0 MaxLength=10<CR>Range: 0 to 255
attr_description[Lrat.EUtranCellTDD,activePlmnList] = Lists the PLMN IDs served by at least one MME. The PLMN ID is defined in the attribute eNodeBPlmnId in the parent ENodeBFunction. PLMN IDs from additionalPlmnList also appear in this list. The list may include up to 6 PLMNs.<CR>MinLength=0 MaxLength=6
attr_description[Lrat.EUtranCellTDD,activeServiceAreaId] = The active MBMS Service Area Identity. The content of this attribute is either empty or has the value of the attribute MbsfnArea::serviceAreaId for one or more MbsfnArea MOs. Purpose of this attribute is to support OSS SNAD functionality. This attribute is mirrored by OSS to ExternalEUtranCellFDD/TDD.<CR>Dependencies: A (configured) MbsfnArea::serviceAreaId becomes Active ServiceAreaId if:<CR>- the MBMS Multicarrier feature is activated<CR>- the cell has an unreserved MBSFNAreaCellRelation to an UNLOCKED MBSFNArea<CR>- time and phase synchronization accuracy fulfills requirements for LTE Broadcast<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 65535
attr_description[Lrat.EUtranCellTDD,adaptiveCfiHoProhibit] = Controls adaptive CFI to avoid using CFI=1 or CFI=1,2, when scheduling UEs that are in handover. The highest CFI value in available CFI values determined by pdcchCfiMode is not prohibited.<CR>Dependencies: Applicable only when attribute pdcchCfiMode is set to CFI_AUTO_MAXIMUM_2 or CFI_AUTO_MAXIMUM_3.<CR>Change takes effect: Cell lock/unlock<CR>Default=NO_HO_PROHIBIT_CFI<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,additionalFreqBandList] = A list of additional frequency bands the cell belongs to, not including the frequency band indicated by the EARFCN value of the cell (primary frequency band). The list is automatically set by the eNB. These additional frequency bands are broadcasted to the UEs in SystemInformationBlockType1 in case the feature Multiple Frequency Band Indicators is enabled in the cell.<CR>MinLength=0 MaxLength=8<CR>Range: 1 to 256
attr_description[Lrat.EUtranCellTDD,additionalPlmnAlarmSupprList] = The list of PLMN IDs in the cell indicates if they are suppressed for alarms PLMN Service Degraded and PLMN Service Unavailable when PLMN  is not available in the cell.<CR>The PLMN ID appearing in additionalPlmnList[x] is suppressed when additionalPlmnAlarmSupprList[x] is true.<CR>If the configured PLMN ID is not a served PLMN ID, then the alarm is suppressed independent of the configured settings.<CR>Dependencies: The length of this list must be the same as the list in addtionalPlmnList.<CR>MinLength=0 MaxLength=5 Default=false,false,false,false,false
attr_description[Lrat.EUtranCellTDD,additionalPlmnList] = Lists additional PLMN IDs supported in the cell.<CR>The list may include up to 5 PLMNs, and they must be the same in all EUtranCells in the node.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.EUtranCellTDD,additionalPlmnReservedList] = For the list of PLMN IDs in the cell, indicates if they are reserved for operator use. The list must have the same number of entries as additonalPlmnList. The PLMN ID appearing in additionalPlmnList[x] is reserved when additionalPlmnListReserved[x] is set to true.<CR>Dependencies: The length of this list must be the same as the list in addtionalPlmnList.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>MinLength=0 MaxLength=5 Default=false,false,false,false,false
attr_description[Lrat.EUtranCellTDD,additionalSpectrumEmissionValues] = A list of network signaling values, where each value corresponds to the frequency band on the same position in additionalFreqBandList. Enables additional spectrum emission requirements according to 3GPP TS 36.101, table 6.2.4-1 when the feature Multiple Frequency Band Indicators is enabled in the cell. The content of this list is based on spectrumEmissionReqMapping. This list will be broadcasted in SIB2 as multiBandInfoList.<CR>MinLength=0 MaxLength=8<CR>Range: 1,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32
attr_description[Lrat.EUtranCellTDD,administrativeState] = The administrative state.<CR>Disturbances: Changing this attribute to LOCKED or SHUTTINGDOWN causes loss of traffic.<CR>Default=LOCKED<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,advCellSupAction] = Controls which recovery actions to be performed when ACS detects a sleeping cell.<CR>Default=NO_ACTION<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,advCellSupSensitivity] = Indicates the sensitivity of the Advanced Cell Supervision function. A higher value will make ACS detect a sleeping cell faster, but with higher risk for false detection. A lower value will make ACS detect a sleeping cell slower, but with lower risk for false detection.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=0<CR>Range: 0 to 100
attr_description[Lrat.EUtranCellTDD,ailgActive] = The state of the feature Air Interface Load Generator. Indicates if it is running or stopped.
attr_description[Lrat.EUtranCellTDD,ailgAutoRestartEnabled] = If set to true, AILG is automatically restarted when:<CR>- cell disabled followed by cell enabled, for example at node start or restart.<CR>Change takes effect: Object disabled/enabled<CR>Default=false
attr_description[Lrat.EUtranCellTDD,ailgRef] = Refers to an instance of AirIfLoadProfile. Assigns a AirIfLoadProfile to a cell.<CR>isNillable: true<CR>References: Lrat.AirIfLoadProfile[0-]
attr_description[Lrat.EUtranCellTDD,allocThrPucchFormat1] = Threshold in terms of number of remaining SR resources available for the cell. Below this threshold, allocTimerPucchFormat1 for allocation of an additional PUCCH format 1 PRB pair is triggered. Occurs if  feature Dynamic PUCCH  is activated. Value 0 means the dynamic PUCCH allocation/deallocation operation for this cell is disabled.<CR>Default=50<CR>Range: 0 to 2000
attr_description[Lrat.EUtranCellTDD,allocTimerPucchFormat1] = A guard time. After this time, a PUCCH format 1 PRB pair is allocated if threshold allocThrPucchFormat1 is still passed.<CR>Default=50<CR>Range: 0 to 36000<CR>Unit: 100 ms
attr_description[Lrat.EUtranCellTDD,alpha] = The pathloss compensation factor for power control of the Physical Uplink Shared Channel (PUSCH).<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=10<CR>Range: 0,4,5,6,7,8,9,10<CR>Unit: 0.1 .
attr_description[Lrat.EUtranCellTDD,altitude] = The altitude of the transmitter antenna in meters. Use +/- values to denote height/depth.<CR>In case of Combined Cell (multi-sector cell):<CR>   For indoor system, antenna of any sector.<CR>   For outdoor system,antenna of macro sector.<CR>Default=0<CR>Range: -32768 to 32767<CR>Unit: meter
attr_description[Lrat.EUtranCellTDD,anrHoDisStatNum] = The minimal number of handovers required by the handover disabling function before disabling handover for a relation.<CR>Dependencies: In L13A this parameter is used only when CMCC FT specific SW is enabled.<CR>Default=150<CR>Range: 1 to 32767<CR>Unit: minute
attr_description[Lrat.EUtranCellTDD,anrHoDisStatTime] = The minimal duration handover statistics is collected before evaluation by the handover disabling function before disabling handover for a relation.<CR>Dependencies: In L13A this parameter is used only when CMCC FT specific SW is enabled.<CR>Default=300<CR>Range: 1 to 32767<CR>Unit: minute
attr_description[Lrat.EUtranCellTDD,anrHoDisThreshold] = The threshold value for handover failure rate required to disable handover for a relation.<CR>Dependencies: In L13A this parameter is used only when CMCC FT specific SW is enabled.<CR>Default=250<CR>Range: 0 to 1000<CR>Unit: 0.1 %
attr_description[Lrat.EUtranCellTDD,arpPriorityLevelForSPIFHo] = ARP Priority Level list used in the feature Service or Priority-Triggered Inter-Frequency Handover.<CR>The first instance in the list is for ARP Priority Level 0, second for 1, and so on. Value "false" means the UE with this bearer is not intended to be moved to other frequency.<CR>Change takes effect: New connection<CR>MinLength=16 MaxLength=16 Default=false,false,false,false,false,false,false,false,false,false,false,false,false,false,false,false
attr_description[Lrat.EUtranCellTDD,assumedUePowerMsg3] = The assumed TX power value of the UE for the transmission of Msg3 that is used for estimating the pathloss. Setting the value to MAX will saturate the calculated pathloss and eliminate the usage of the value. 23dB is the max 3GPP specified UE power and is the recommended starting value before fine-tuning. 1000 equals to turning off the Msg3 path loss estimation.<CR>Change takes effect: Object unlocked<CR>Default=1000<CR>Range: 1 to 1000<CR>Unit: 0.1 dBm
attr_description[Lrat.EUtranCellTDD,availabilityStatus] = The availability status. It contains details about operationalState. This attribute is set by the application in the RBS.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.EUtranCellTDD,bcCdma2000SysTimeType] = The actual type of CDMA2000 system time that is broadcast in SIB8.<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,bsrThreshold] = Threshold used to help identify data-aware UL scheduling UEs. If BSR >= bsrThreshold, UE becomes candidate UE for UL improvement.<CR>Default=0<CR>Range: 0 to 32767<CR>Unit: 100 Bytes
attr_description[Lrat.EUtranCellTDD,caPrioThreshold] = The threshold number of SCells configured using prioritized SCell selection. When the number of SCells configured for UEs connected in this PCell is higher than caPrioThreshold, all frequency carriers configured for carrier aggregation are assumed to have equal priority regardless of the configured values.<CR>Dependencies: Only applicable when CarrierAggregationFunction::dynamicSCellSelectionMethod == PRIORITIZED.<CR>Change takes effect: At node restart<CR>Default=300<CR>Range: 0 to 65535
attr_description[Lrat.EUtranCellTDD,catm1SupportEnabled] = Whether or not support for Category M device is enabled in the cell.<CR>Note: Feature is optional and under license control.<CR>Status Information: Since L17A. Planned to be removed.<CR>Specification: 3GPP 36331_CR2069r3_(Rel-13)<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,cceDynUeAdmCtrlOverloadThr] = Highest allowed control channel element radio resource utilization ratio for admission of a non-privileged UE. Resource utilization is checked against this threshold for all new, re-established, or incoming handover RRC connections.<CR>Dependencies: cceDynUeAdmCtrlOverloadThr >= cceDynUeAdmCtrlRetDiffThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests<CR>- rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non-privileged incoming handover requests.<CR>Default=600<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellTDD,cceDynUeAdmCtrlRetDiffThr] = Highest allowed control channel element radio resource utilization ratio for admission of a new non-privileged UE. Resource utilization is checked against this threshold for all new RRC connections.<CR>Dependencies: cceDynUeAdmCtrlRetDiffThr =< cceDynUeAdmCtrlOverloadThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests.<CR>Default=500<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellTDD,cellBarred] = Indicates if the cell is barred and should not be accessible to random UEs.<CR>Disturbances: Changing this attribute to BARRED blocks all traffic in the cell.<CR>Default=NOT_BARRED<CR>Range: 0,1
attr_description[Lrat.EUtranCellTDD,cellCapMaxCellSubCap] = Maximum value for the estimated cell capacity.<CR>Dependencies: cellCapMinCellSubCap < cellCapMaxCellSubCap<CR>Default=1500<CR>Range: 0 to 1000000<CR>Unit: kbps
attr_description[Lrat.EUtranCellTDD,cellCapMinCellSubCap] = Minimum value for the estimated cell capacity.<CR>Dependencies: cellCapMinCellSubCap < cellCapMaxCellSubCap<CR>Default=500<CR>Range: 0 to 1000000<CR>Unit: kbps
attr_description[Lrat.EUtranCellTDD,cellCapMinMaxWriProt] = Write protection that prevents feature Automated Cell Capacity Estimation from changing the value on parameters cellCapMinCellSubCap and cellCapMaxCellSubCap.<CR>If set to true, feature Automated Cell Capacity Estimation cannot reset cellCapMinCellSubCap and cellCapMaxCellSubCap at cell unlock.<CR>If set to false, feature Automated Cell Capacity Estimation can change cellCapMinCellSubCap and cellCapMaxCellSubCap at cell unlock.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,cellDownlinkCaCapacity] = Normalized downlink cell capacity available for use by carrier aggregation. The value is used to calculate the aggregated capacity of a UE:s possible aggregation possibilities, for example by the CA Aware IFLB feature.<CR>Default=0<CR>Range: 0 to 1000000
attr_description[Lrat.EUtranCellTDD,cellId] = RBS internal ID attribute for EUtranCell. Must be unique in the RBS. Together with the Node ID and Public Land Mobile Network (PLMN) this is a universally unique cell ID.<CR>Range 0-255.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Range: 0 to 255
attr_description[Lrat.EUtranCellTDD,cellRange] = The maximum distance from the base station where a connection to a UE can be setup and maintained.<CR>Dependencies: For cellRange greater than 15 subframeAssignment must be set to 1. The round trip time at the cellRange together with switching time must be less than the time available in special subframe.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object unlocked<CR>Default=15<CR>Range: 1 to 100<CR>Unit: km
attr_description[Lrat.EUtranCellTDD,cellSimulated] = This attribute indicates if the specific cell is configured to be simulated in an external test tool. The attribute will be set by the Tester at configuration of the cell.<CR>Change takes effect: Object disabled/enabled<CR>Default=false
attr_description[Lrat.EUtranCellTDD,cellSubscriptionCapacity] = Normalized subscription capacity of the cell. The value represents the total capacity of the cell used for traffic load balancing purposes.<CR>Disturbances: Low values reduce cell capacity.<CR>Default=1000<CR>Range: 0 to 1000000
attr_description[Lrat.EUtranCellTDD,cfraEnable] = This parameter controls if Contention Free Random Access (CFRA, known as non-contention based random access in 3GPP term) shall be enabled or not. When enabled, a portion of random access preambles should be allocated for CFRA and CFRA can be used for incoming HO and PDCCH ordered uplink re-sync.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,changeNotification] = For each System Information Block (SIB), indicates when the SIB content is changed, if system information change notification is broadcast prior to broadcast of updated system information.
attr_description[Lrat.EUtranCellTDD,channelBandwidth] = The channel bandwidth in the cell.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object unlocked<CR>Default=20000<CR>Range: 5000,10000,15000,20000<CR>Unit: kHz
attr_description[Lrat.EUtranCellTDD,cioLowerLimitAdjBySon] = Indicates the lower limit value of cellIndividualOffsetEUtran range that the SON function is allowed to adjust.<CR>Disturbances: Changing this attribute can stop outgoing HO.<CR>Default=-3<CR>Range: -24 to 0<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,cioUpperLimitAdjBySon] = Indicates the upper limit value of cellIndividualOffsetEUtran range that the SON function is allowed to adjust.<CR>Disturbances: Changing this attribute can stop outgoing HO.<CR>Default=4<CR>Range: 0 to 24<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,clusteredPuschMprFactor] = Multiplication factor applied to the 3GPP-defined Maximum Power Reduction values for Clustered PUSCH. Low settings imply high usage of Clustered PUSCH, high settings imply the opposite.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 0 to 200<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,commonSFAllocList] = Shows the subframes that are reserved for MBSFN in DL.<CR>MinLength=0 MaxLength=8
attr_description[Lrat.EUtranCellTDD,commonSrPeriodicity] = Common SR periodicity, used for all UEs.<CR>Dependencies: For 1.4 MHz: Only valid inputs are 10 and 20.<CR>Change takes effect: Cell lock/unlock<CR>Default=20<CR>Range: 5,10,20<CR>Unit: ms
attr_description[Lrat.EUtranCellTDD,confidence] = Percentage of confidence that the target device is within the ellipsoid defined by the three axes of uncertainty: semi-major, semi-minor, and altitude.<CR>Dependencies: None<CR>Default=100<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellTDD,covTriggerdBlindHoAllowed] = Says whether a blind Handover from this cell can be initiated when a UE reports bad coverage, or not. Note that even if the value is True, the eNB will only initiate a blind handover if it finds a suitable cell.<CR>Default=true
attr_description[Lrat.EUtranCellTDD,cqiCapacityDynPucch] = Capacity of PUCCH format 2, in number of CQI resources for each RB, when feature Dynamic PUCCH  is activated.<CR>Change takes effect: Cell lock/unlock<CR>Default=8<CR>Range: 1 to 12
attr_description[Lrat.EUtranCellTDD,crsGain] = Sets the DL power of the Cell specific Reference Signal (CRS) relatively a reference level defined by the power of the PDSCH type A resource elements. If crsGain is +3dB, the CRS power is 3dB higher than that of a PDSCH type A resource element.<CR>The settings crsGain=4.77db and 6dB are mapped to 3dB. These settings are not supported.<CR>PDSCH type A resource elements are located in symbols that do not contain CRS.<CR>Dependencies: The crsGain only takes effect if the configured number of antenna ports used in a sector is 2, 4, or 8.  In the one port case, crsGain is hardcoded to 0dB.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: -300,-200,-100,0,177,300,477,600<CR>Unit: 0.01 dB
attr_description[Lrat.EUtranCellTDD,csiRs8TxCfgManual] = This attribute enables to configure CSI-RS (Channel State Information Reference Signal) manually.<CR>If it is true, configure the hidden MOM attributes csiRsReConfigIndex, csiRsSfConfigIndex, csiRsPowerRatio, csiRsZeroPwrReConfigList and csiRsZeroPwrSfConfigIndex.<CR>If it is false, configure csiRsConfigType8TxFDD or csiRsConfigType8TxTDD.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,csiRsConfigType8TxTDD] = This attribute specifies configuration type of CSI-RS (Channel State Information Reference Signal) for TDD 8Tx.<CR>Change takes effect: Cell lock/unlock<CR>Default=NZP_CSIRS_TDD<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellTDD,csiRsEnabled] = If value is true, the Channel State Information-Reference Signal (CSI-RS) is sent from all sectors in this cell.  Up to 2 sector carriers can be configured for each cell if csiRsEnabled is true.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,deallocThrPucchFormat1] = Threshold in terms of number of remaining SR resources available for the cell. Above this threshold, deallocTimerPucchFormat1 for deallocation of a PUCCH format 1 PRB pair is triggered. Occurs if  feature Dynamic PUCCH  is activated.<CR>Default=100<CR>Range: 0 to 2000
attr_description[Lrat.EUtranCellTDD,deallocTimerPucchFormat1] = A guard time. After this time, a PUCCH format 1 PRB pair is deallocated if threshold deallocThrPucchFormat1 is still passed.<CR>Default=6000<CR>Range: 0 to 36000<CR>Unit: 100 ms
attr_description[Lrat.EUtranCellTDD,dl256QamEnabled] = Enable or disable 256 QAM support in DL.<CR>Change takes effect: Cell lock/unlock<CR>Default=true
attr_description[Lrat.EUtranCellTDD,dl256QamStatus] = Indication if 256 QAM in DL is supported in the cell.<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,dlBlerTargetEnabled] = Turns on/off Configurable DL BLER Target.<CR>Change takes effect: Next cell unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,dlConfigurableFrequencyStart] = Specifies the start frequency offset for the allocation of resources when the downlink interference management is disabled expressed as a percentage of the configured bandwidth.<CR>Dependencies: dlInterferenceManagementActive shall be disabled before this parameter takes effect.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellTDD,dlCyclicPrefix] = Type of cyclic prefix used for downlink.<CR>Note: EXTENDED_15khz and EXTENDED_7_5khz are not supported on current software.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object disabled/enabled.<CR>Default=NORMAL_15khz<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,dlDynUeAdmCtrlOverloadThr] = Highest allowed DL radio resource utilization ratio for admission of a non-privileged UE. Applies to each DL resource considered by Dynamic UE Admission Control. Resource utilization is checked against this threshold for all new, re-established, or incoming handover RRC connections.<CR>Dependencies: dlDynUeAdmCtrlOverloadThr >= dlDynUeAdmCtrlRetDiffThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests<CR>- rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non-privileged incoming handover requests.<CR>Default=600<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellTDD,dlDynUeAdmCtrlRetDiffThr] = Highest allowed DL radio resource utilization ratio for admission of a new non-privileged UE. Applies to each DL resource considered by Dynamic UE Admission Control. Resource utilization is checked against this threshold for all new RRC connections.<CR>Dependencies: dlDynUeAdmCtrlRetDiffThr =< dlDynUeAdmCtrlOverloadThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests.<CR>Default=500<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellTDD,dlFrequencyAllocationProportion] = Specifies the amount of frequency resources that is allocated in DL expressed as a percentage of the configured bandwidth.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellTDD,dlHarqVoLTEBlerTarget] = DL BLER target to be used for VoLTE UEs. Used for all DL transmissions for UEs that have QCI1 bearer configured. If no QCI1 bearer configured, then normal DL BLER target is used.<CR>Change takes effect: Next cell unlock<CR>Default=5<CR>Range: 0 to 10<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,dlInterferenceManagementActive] = Specifies if the downlink interference management is enabled or disabled.<CR>Change takes effect: Object unlocked<CR>Default=false
attr_description[Lrat.EUtranCellTDD,dlInterferenceManagementDuration] = Specifies the time for which a randomly selected start frequency will be valid before a new start frequency is allocated. Setting it to "0" means that it will be randomly selected once, but never updated.<CR>Dependencies: dlInterferenceManagementActive shall be enabled before this parameter takes effect.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 0 to 10000<CR>Unit: 0.001 s
attr_description[Lrat.EUtranCellTDD,dlVirtualCellsDynActEnabled] = Controls if DL virtual cells for Combined Cell can be activated and deactivated dynamically.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,dlVirtualCellsDynTmSwitchingEnabled] = Controls if transmission mode can be dynamically switched per UE with DL virtual cells for Combined Cell.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,drxActive] = Indicates if the DRX function in the cell is activated.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellTDD,dummyCdmaBandClass] = Dummy CDMA frequency band in the MobilityParametersCDMA2000 information element that can be used to force registration each time the UE moves across LTE and CDMA 1xRTT networks. This can be achieved by setting both this parameter to a dummy band class that is not used in the native CDMA 1xRTT network and by setting the powerUpReg flag to TRUE in SIB-8. The default value of 99 or UNDEFINED_VALUE means the value configured in Cdma2000FreqBand::cdmaBandClass is sent in the MobilityParametersCDMA2000 information element which is the same value as the one  sent in SIB-8.<CR>Change takes effect: New connection<CR>Default=UNDEFINED_VALUE<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,99
attr_description[Lrat.EUtranCellTDD,dynCellSubscrCap] = Parameter that contains the automatically estimated cell capacity value. The value 0 indicates that no estimated value exists.<CR>Range: 0 to 1000000<CR>Unit: kbps
attr_description[Lrat.EUtranCellTDD,dynUeAdmCtrlEnabled] = Enable Dynamic UE Admission Control at cell level.<CR>Dependencies: Only relevant if the license for Dynamic UE Admission Control is present and the feature is active.<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests<CR>- rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non-privileged incoming handover requests.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,dynUeAdmCtrlFilterConst] = Time constant of the exponential-weighted moving average filter applied to the radio resource utilization ratios considered by Dynamic UE Admission Control.<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests<CR>- rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non-privileged incoming handover requests.<CR>Default=3000<CR>Range: 0 to 10000<CR>Unit: ms
attr_description[Lrat.EUtranCellTDD,dynUlResourceAllocEnabled] = Enables Dynamic uplink resource allocation on cell level.<CR>Dependencies: Only relevant if license UlDynamicResourceAllocation is present and feature is active.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,eDrxAllowed] = Set to true when idle mode eDRX shall be allowed in the cell.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,eUtranCellTDDId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.EUtranCellTDD,earfcn] = The E-UTRA Absolute Radio Frequency Channel Number (EARFCN) for the TDD cell. The mapping from EARFCN to physical frequency is for E-UTRA bands is described in 3GPP TS 36.104. The values depend on national, operator specific frequency allocation, as well as from the supported frequency band(s) of the equipment in the RBS.<CR>Note: Use the MO-action changeFrequency if the frequency shall be changed after the cell is initially setup.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object unlocked<CR>Range: 36000 to 262143
attr_description[Lrat.EUtranCellTDD,elcActivityThreshold] = A threshold in terms of RRC connected users for each cell.<CR>ELC actively blanks DL Cell Specific Reference Signals whenever possible for any value at or below elcActivityThreshold.<CR>Above the threshold, all blanking is suspended.<CR>Dependencies: elcActivityThreshold =< elcConfigurationThreshold<CR>Change takes effect: Object unlocked<CR>Default=16<CR>Range: 1 to 64
attr_description[Lrat.EUtranCellTDD,elcConfigurationThreshold] = Defines a threshold in terms of RRC connected users for each cell. ELC configures UEs to be ready for blanking at or below this threshold.<CR>Above the threshold, UEs are configured as if ELC was turned off altogether.<CR>Dependencies: elcConfigurationThreshold >= elcActivityThreshold<CR>Change takes effect: Object unlocked<CR>Default=16<CR>Range: 1 to 64
attr_description[Lrat.EUtranCellTDD,elcEnabled] = Enables Ericsson Lean Carrier functionality in the cell.<CR>Dependencies: Only relevant if the licence for ELC is present and the feature is active.<CR>Change takes effect: Object unlocked<CR>Default=false
attr_description[Lrat.EUtranCellTDD,elcLongDrxCycle] = Long DRX cycle for ELC. Value of elcLongDrxCycle is in number of sub-frames.<CR>Dependencies: Feature Ericsson Lean Carrier is present active.<CR>Change takes effect: New connection<CR>Default=SF40<CR>Range: 0,3
attr_description[Lrat.EUtranCellTDD,elcPrototypeBitfield] = A container to switch on and off future improvements in the ELC area for each cell. Each bit or group of bits can be assigned different meaning during prototype and testing activities. Note: Only relevant for testing and development.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 4294967295
attr_description[Lrat.EUtranCellTDD,emergencyAreaId] = A cell that supports  broadcast of warning messages can belong to one to 15 Emergency Areas, identified by an Emergency Area Id, set by the operator.  Value -1 means identity not set.<CR>Default=-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1 MinLength=0 MaxLength=15 Default=-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1<CR>Range: -1 to 16777215
attr_description[Lrat.EUtranCellTDD,enableDrxAwareRlcArq] = Enables function to automatically adapt t-PollretransmitTimer to the time it takes to complete HARQ procedure + harqOffset (UL and DL).<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellTDD,enableServiceSpecificHARQ] = Enable/disable service-specific HARQ on cell level. Function must have valid license.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellTDD,enableSinrUplinkClpc] = Specifies if SINR-based UL power control can be used or not. If enabled, SNR-based closed-loop power control and SINR-based closed-loop power control can be adaptively selected.<CR>Dependencies: Attribute only has effect if feature Differential Uplink Power Control is activated.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,enableUeAssistedAdaptiveDrx] = Enable or disable the UE-Assisted Adaptive DRX feature.<CR>Change takes effect: Object unlocked<CR>Default=true
attr_description[Lrat.EUtranCellTDD,enableUeAssistedSigReduction] = Enable or disable the UE-Assisted Signaling Reduction feature.<CR>Change takes effect: Object unlocked<CR>Default=true
attr_description[Lrat.EUtranCellTDD,estCellCapUsableFraction] = Scaling factor for the estimated cell subscription capacity. Can be used to reduce the traffic load balancing attraction of the cell. Used if traffic handling capacity of the cell is constrained by circumstances the ACCE feature is unable to capture. An example of such a circumstance is at limited UL capacity in a TDD cell.<CR>When the attribute is value is set to 0, the corresponding cell uses the value cellSubscriptionCapacity as the Cell Subscription Capacity value for the cell. This bypasses the automatically estimated Cell Subscription Capacity value for the cell.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=100<CR>Range: 0 to 100<CR>Unit: Percent
attr_description[Lrat.EUtranCellTDD,estimatedE2ERTT] = The estimated end to end round trip time used by Active Queue Management (AQM).<CR>Change takes effect: Cell lock/unlock<CR>Default=100<CR>Range: 0 to 2048<CR>Unit: ms
attr_description[Lrat.EUtranCellTDD,eutranCellCoverage] = Models the cell coverage area used for UE positioning. The cell coverage area is defined by the cell bearing, cell opening angle and cell radius.<CR>This attribute has no operational impact.
attr_description[Lrat.EUtranCellTDD,eutranCellPolygon] = Models the manageable characteristics for the cell polygon used for UE positioning. Each polygon corner is described by a latitude and longitude pair. Each polygon corner is represented with one position in the sequence. The other configured polygon corners follow in sequence. There must at least be three corners configured in a polygon when the function is active/used. The points shall be connected in the order that they are given. The last point is connected to the first point.<CR>MinLength=0 MaxLength=15
attr_description[Lrat.EUtranCellTDD,expectedMaxNoOfUsersInCell] = The expected max number of UE in RRC_CONNECTED mode in the cell. Will be used at unlock of the cell to distribute cells to different cores in Digital Units and Baseband Units with a multicore Main Processor. A value of -1 indicates that measuredMaxNoOfUsersInCell will be used to control the cell distribution.<CR>Change takes effect: Object unlocked<CR>Default=-1<CR>Range: -1 to 32768
attr_description[Lrat.EUtranCellTDD,externalCdma20001xRttCellRef] = Reference to an ExternalCdma20001xRttCell<CR>isNillable: true<CR>References: Lrat.ExternalCdma20001xRttCell[0-]
attr_description[Lrat.EUtranCellTDD,frameStartOffset] = The frame start offset of the cell. All TDD cells in the same frequency band, or specific frequency band combinations where one frequency band overlaps with another (e.g. Band 38 and Band 41) must have the same frame start offset.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object unlocked
attr_description[Lrat.EUtranCellTDD,freqBand] = The primary frequency band the cell belongs to according to its defined EARFCN.<CR>Range: 1 to 256
attr_description[Lrat.EUtranCellTDD,gpsTimeSFN0DecimalSecond] = The decimal part of the GPS time for the most recent occurrence of System Frame Number (SFN)=0 in the cell.<CR>Unit: 2^(-32) second<CR>Range: 0 to 4294967295
attr_description[Lrat.EUtranCellTDD,gpsTimeSFN0Seconds] = The integer part of the GPS time for the most recent occurrence of SFN=0 in the cell.<CR>Range: 0 to 4294967295<CR>Unit: seconds
attr_description[Lrat.EUtranCellTDD,harqOffsetDl] = Offset used when tReorderingDl is calculated by automatic configuration. tReorderingDl = 'Max number of HARQ for DL' * HARQ-interval + harqOffsetDl.<CR>Change takes effect: New connection<CR>Default=3<CR>Range: -20 to 20<CR>Unit: ms
attr_description[Lrat.EUtranCellTDD,harqOffsetUl] = Offset used when tReorderingUl is calculated by automatic configuration. tReorderingUl = 'Max number of HARQ for UL' * HARQ-interval + harqOffsetUl.<CR>Change takes effect: New connection<CR>Default=3<CR>Range: -20 to 20<CR>Unit: ms
attr_description[Lrat.EUtranCellTDD,highSpeedUEActive] = Indicates if the feature High Speed UE is activated in the cell<CR>Change takes effect: Object unlocked<CR>Default=false
attr_description[Lrat.EUtranCellTDD,hoOptAdjThresholdAbs] = The absolute threshold value for adjusted handover failure rate required to adjust handover parameters.<CR>Disturbances: Changing this attribute can stop outgoing HO.<CR>Default=5<CR>Range: 0 to 32767
attr_description[Lrat.EUtranCellTDD,hoOptAdjThresholdPerc] = The permillage threshold value for adjusted handover failure rate required to adjust handover parameters.<CR>Disturbances: Changing this attribute can stop outgoing HO.<CR>Default=50<CR>Range: 0 to 1000<CR>Unit: 0.1 %
attr_description[Lrat.EUtranCellTDD,hoOptStatNum] = The minimal number of handovers required by the handover optimization function before adjusting  handover parameters.<CR>Default=200<CR>Range: 1 to 32767
attr_description[Lrat.EUtranCellTDD,hoOptStatTime] = The operational cycle of the handover optimization function.<CR>Default=24<CR>Range: 1 to 32767<CR>Unit: hour
attr_description[Lrat.EUtranCellTDD,hostingDigitalUnit] = Shows the DU or Baseband on which baseband processing for the cell is located<CR>isNillable: true
attr_description[Lrat.EUtranCellTDD,idleModePrioAtReleaseRef] = Reference to an IdleModePrioAtRelease MO. Assigns an IdleModePrioAtRelease to a cell.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic.<CR>References: Lrat.IdleModePrioAtRelease[0-]
attr_description[Lrat.EUtranCellTDD,includeLcgInMacUeThp] = Controls the LCGs that are included in pmMacUeThpVolUl, pmMacUeThpTimeUl, and pmMacUeThpUlDistr. To include the n:th LCG, set includeLcgInMacUeThp[n]=true.<CR>MinLength=4 MaxLength=4 Default=false,false,true,true
attr_description[Lrat.EUtranCellTDD,incrPrioServingFreqActive] = Specifies whether or not the function to set the serving frequency as sticky carrier is active in the current cell.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,initCdma2000SysTimeType] = Intended type of CDMA2000 system time to broadcast in SIB8, if applicable.<CR>Default=NONE<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,initialBufferSizeDefault] = The number of bytes that is assumed to be in the UE buffer when an SR is received through PUCCH.<CR>Change takes effect: Cell lock/unlock<CR>Default=86<CR>Range: 1 to 10000<CR>Unit: bytes
attr_description[Lrat.EUtranCellTDD,initialBufferSizeMsg5Default] = The number of bytes that is assumed to be in the UE buffer when an SR is received through PRACH or PUCCH when Msg5 is expected to be scheduled for the UE. Recommended value for optimization towards Msg5 with NAS service request attached is 26 bytes.<CR>Change takes effect: Object unlocked<CR>Default=86<CR>Range: 1 to 10000<CR>Unit: bytes
attr_description[Lrat.EUtranCellTDD,interEnbUlCompUserSelSinrHys] = Hysteresis of SINR threshold for inter-eNodeB UL CoMP user selection.<CR>Dependencies: Must be used together with interEnbUlCompUserSelSinrThr.<CR>Disturbances: If changed, system performance can be affected. As values get bigger, gaps for triggering Inter-eNodeB Uplink CoMP user switching get bigger.<CR>Default=10<CR>Range: 10 to 50<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,interEnbUlCompUserSelSinrThr] = SINR threshold for inter-eNodeB UL CoMP user selection.<CR>Dependencies: Must be used together with interEnbUlCompUserSelSinrHys.<CR>Disturbances: If changed, system performance can be affected. As values go higher, more candidates are selected for Inter-eNodeB Uplink CoMP, but more user measurements are triggered. This impacts MP load and transport load over X2.<CR>Default=100<CR>Range: -150 to 250<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,interferenceThresholdSinrClpc] = Threshold value for measured noise plus interference level. If measured noise plus interference is higher than interferenceThresholdSinrClpc, then SINR-based UL closed-loop power control can be considered.<CR>Dependencies: Threshold only has effect if attribute enableSinrUplinkClpc is true.<CR>Default=-105<CR>Range: -125 to -60<CR>Unit: dBm
attr_description[Lrat.EUtranCellTDD,isDlOnly] = Indicates if the cell is operated with downlink only and with no uplink.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object unlocked<CR>Default=false
attr_description[Lrat.EUtranCellTDD,isLaa] = Indicates if the cell is operated in unlicensed spectrum with downlink only and no uplink.<CR>Disturbances: Changes can affect traffic.<CR>Change takes effect: Next cell unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,lastModification] = Indicates whether the MO was last modified by the operator or if the MO has been modified by the PCI conflict detection application.<CR>Default=OPERATOR<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellTDD,lastSchedLinkAdaptEnabled] = Controls if link adaptation function allocates largest possible resource to last scheduled UE in the DL. Used to improve UE decoding success rate with reduced code rate.<CR>Change takes effect: Cell lock/unlock<CR>Default=true
attr_description[Lrat.EUtranCellTDD,latestHostingDigitalUnitRef] = Indicates the hosting DU or Baseband on which baseband processing for the cell was located when it was operational last time.<CR>isNillable: true
attr_description[Lrat.EUtranCellTDD,latitude] = The degree of latitude of the transmitter antenna position.<CR>In case of Combined Cell (multi-sector cell):<CR>   For indoor system, antenna of any sector.<CR>   For outdoor system,antenna of macro sector.<CR>Default=0<CR>Range: -90000000 to 90000000<CR>Unit: 0.000001 degrees
attr_description[Lrat.EUtranCellTDD,lbEUtranAcceptOffloadThreshold] = This attribute is a threshold for eNodeB. The value applies in the target cell for incoming offload. The eNodeB accepts incoming offload traffic in the target cell as long as the subscription ratio is below the threshold.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=50<CR>Range: 0 to 1600<CR>Unit: 0.01 .
attr_description[Lrat.EUtranCellTDD,lbEUtranCellOffloadCapacity] = This attribute indicates the offload subscription capacity associated with the EUTRAN target cell. The value is used to moderate the offload rate to the EUTRAN target cell.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1000<CR>Range: 0 to 1000000
attr_description[Lrat.EUtranCellTDD,lbEUtranTriggerOffloadThreshold] = This attribute is a threshold for eNodeB. The value applies for offload towards EUTRAN target cells. The eNodeB attempts to offload traffic from the source cell to Inter-Frequency LTE neighbors corresponding to the subscription ratio above the threshold.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=100<CR>Range: 0 to 1600<CR>Unit: 0.01 .
attr_description[Lrat.EUtranCellTDD,lbTpNonQualFraction] = The fraction of non-qualified UEs at UE selection for throughput aware load balancing. In case throughput aware UE selection is enabled, this parameter sets a target size for the fraction of UE to be disqualified for load balancing due to insufficient relative gain when moving UE from source to target cell.<CR>Special value 0 means that the throughput aware UE selection for this cell is disabled.<CR>Default=35<CR>Range: 0,20 to 80<CR>Unit: 0.01
attr_description[Lrat.EUtranCellTDD,lbTpRankThreshMin] = The minimum threshold for the relative gain at throughput aware load balancing. A negative value may allow for some throughput loss for the individual UE, if the load balancing criteria requires so. Higher values may increase the fraction of non-qualified UEs at UE selection for throughput aware load balancing and may cause the load balancing to stall.<CR>Special value -100 means the lower boundary for the threshold is disabled.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=-20<CR>Range: -100,-60 to 60<CR>Unit: 0.01
attr_description[Lrat.EUtranCellTDD,lbUtranOffloadThreshold] = Threshold for eNodeB<CR>The value applies for offload towards UTRAN target cells. The eNodeB attempts to offload traffic from the source cell corresponding to the subscription ratio above the threshold.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=100<CR>Range: 0 to 1600<CR>Unit: 0.01 .
attr_description[Lrat.EUtranCellTDD,lbabBarringPriorityLevel] = Current barring priority level based on PAB algorithm. Only used when feature Progressive Access Barring is activated.<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,lbabDecr] = How fast the Access Class Barring probability is decreased, that is how fast acBarringFactor in SIB2 is increased when the cell load is decreased. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Dependencies: The attribute only takes effect if the feature Load-Based Access Barring is activated.<CR>Default=5<CR>Range: 5 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,lbabIncr] = How fast the Access Class Barring probability is increased, that is how fast acBarringFactor in SIB2 is decreased when the cell load is increased. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Dependencies: The attribute only takes effect if the feature Load-Based Access Barring is activated.<CR>Default=5<CR>Range: 5 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,lbabMinBarringFactorPrio1] = Minimum barring factor for PAB algorithm, priority level 1. Only used when feature Progressive Access Barring is activated.<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,lbabMinBarringFactorPrio2] = Minimum barring factor for PAB algorithm, priority level 2. Only used when feature Progressive Access Barring is activated.<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,lbabMinBarringFactor] = Minimum barring factor for LBAB algorithm, or PAB algorithm, priority level 0. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,lbabPeriod] = Minimum time for how often the acBarringFactor in SIB2 can be changed. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Dependencies: The attribute only takes effect if the feature Load-Based Access Barring is activated.<CR>Default=120<CR>Range: 0 to 4095<CR>Unit: s
attr_description[Lrat.EUtranCellTDD,lbabThreshRejectRateHigh] = RRC Connection Reject Ratio when the feature Load-Based Access Barring activates presence of the Access Class Barring parameters in SIB2 or when the feature Progressive Access Barring activates presence of the Access Class Barring parameters in SIB2. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=200<CR>Range: 0 to 1000<CR>Unit: 0.1 %
attr_description[Lrat.EUtranCellTDD,lbabThreshRejectRateLow] = RRC Connection Reject Ratio when the feature Load-Based Access Barring reduces the Access Class Barring probability, that is an increase of acBarringFactor in SIB2 or when the feature Progressive Access Barring activates presence of the Access Class Barring parameters in SIB2. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=20<CR>Range: 0 to 1000<CR>Unit: 0.1 %
attr_description[Lrat.EUtranCellTDD,lbabThreshTimeHigh] = Time period to measure the RRC Connection Reject Ratio with the Load-Based Access Barring threshold lbabThreshRejectRateHigh or the Progressive Access Barring threshold lbabThreshRejectRateHigh. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=30<CR>Range: 0 to 4095<CR>Unit: s
attr_description[Lrat.EUtranCellTDD,lbabThreshTimeLow] = Time period to measure RRC Connection Reject Ratio with the Load-Based Access Barring threshold lbabThreshRejectRateLow or the Progressive Access Barring threshold lbabThreshRejectRateLow. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Default=30<CR>Range: 0 to 4095<CR>Unit: s
attr_description[Lrat.EUtranCellTDD,lessPrbUsageThreshold] = Maximum downlink PRB usage that scheduling stays on-hold for Low Energy Scheduler Solution.<CR>Default=90<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,loadBasedBarringFactor] = Current barring factor based on LBAB algorithm or PAB algorithm. Only used when feature Load-Based Access Barring or feature Progressive Access Barring is activated.<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,loadCtrlPrioOfMta] = This attribute controls if RRC connection establishments with cause Mobile Terminating Access shall be prioritized and not load regulated in:<CR>- DU Connection Intensity Control<CR>- Baseband Connection Intensity Control<CR>- Dynamic Load Control.<CR>Disturbances: Changing this attribute can affect traffic. If set to true, RRC connection establishments with cause Mobile Terminating Access will not be load regulated in the DU or Baseband Connection Intensity Control and in the Dynamic Load Control. This will increase the risk for running into overload scenarios.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,longitude] = The degree of longitude of the transmitter antenna position.<CR>In case of Combined Cell (multi-sector cell):<CR>   For indoor system, antenna of any sector.<CR>   For outdoor system,antenna of macro sector.<CR>Default=0<CR>Range: -180000000 to 180000000<CR>Unit: 0.000001 degrees
attr_description[Lrat.EUtranCellTDD,mappingInfoBr] = SI message to which each SIB is mapped.<CR>Note: SIB2 is always mapped to SI message 1 according to 3GPP TS 36.331.<CR>Specification: 3GPP 36331_CR2069r3_(Rel-13)<CR>Change takes effect: Object unlocked<CR>MinLength=0 MaxLength=2
attr_description[Lrat.EUtranCellTDD,mappingInfo] = The System Information (SI) message to which each System Information Block (SIB) is mapped.<CR>Note: SIB2 is always mapped to the SI message 1 according to 3GPP TS 36.331.<CR>Change takes effect: When EUtranCellFDD/TDD object is unlocked
attr_description[Lrat.EUtranCellTDD,maxNoClusteredPuschAlloc] = Maximum number of UEs with Clustered PUSCH allocations allowed in a TTI.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 5
attr_description[Lrat.EUtranCellTDD,maxQciLatencyMeas] = Largest numerical value corresponding to the lowest priority of the QCIs included into MAC latency measurements.<CR>Status Information: Since L16A. Planned to be removed.<CR>Dependencies: maxQciLatencyMeas >= minQciLatencyMeas<CR>Default=255<CR>Range: 0 to 255
attr_description[Lrat.EUtranCellTDD,maxSoftLockBackoffTime] = Indicates a maximum handover backoff time. The value is applied to inhibit further handover attempts to a EUTRAN target cell that rejects incoming handover for soft-lock of cell.<CR>Default=90<CR>Range: 10 to 90<CR>Unit: s
attr_description[Lrat.EUtranCellTDD,measBasedElcControl] = Enables or disables measurement-based Ericsson Lean Carrier Control.<CR>Dependencies: Only relevant if license Ericsson Lean Carrier is present and feature is active.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellTDD,measuredMaxNoOfUsersInCell] = Peak number of UE in RRC_CONNECTED mode measured in the cell. This attribute will be updated during operation of the eNB and used at unlock of the cell to distribute cells to different cores in Digital Units and Baseband Units with a multicore Main Processor. If attribute expectedMaxNoOfUsersInCell is changed from -1 to zero or higher, attribute measuredMaxNoOfUsersInCell will be reset to zero and not used to control the cell distribution.<CR>Change takes effect: Object unlocked<CR>Range: 0 to 32768
attr_description[Lrat.EUtranCellTDD,minBestCellHoAttempts] = Number of attempts for handover to a cell better than the serving cell, before handover is attempted to the next best cell. If there is no next best cell in the UE report, handover to the best cell is attempted repeatedly.<CR>Default=1<CR>Range: 1 to 10
attr_description[Lrat.EUtranCellTDD,minQciLatencyMeas] = Smallest numerical value corresponding to the highest priority of the QCIs included into MAC latency measurements.<CR>Status Information: Since L16A. Planned to be removed.<CR>Dependencies: minQciLatencyMeas  =< maxQciLatencyMeas<CR>Default=5<CR>Range: 0 to 255
attr_description[Lrat.EUtranCellTDD,mobCtrlAtPoorCovActive] = Specifies if the feature Mobility Control at Poor Coverage is enabled or disabled in the cell.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellTDD,modificationPeriodCoeff] = The modification period, expressed in number of radio frames = modificationPeriodCoeff * defaultPagingCycle. See MO Paging for information about defaultPagingCycle.<CR>Dependencies: modificationPeriodCoeff * defaultPagingCycle must be equal or less than 1024 radio frames. See MO Paging for information about defaultPagingCycle.<CR>Change takes effect: When EUtranCellFDD/TDD object is unlocked<CR>Default=2<CR>Range: 2,4,8,16
attr_description[Lrat.EUtranCellTDD,networkSignallingValueCa] = Enables additional spectrum emission requirements for CA according to 3GPP TS 36.101, table 6.2.4A-1.<CR>Specification: 3GPP TS 36.101<CR>Change takes effect: Object disabled/enabled<CR>Default=CA_NS_31<CR>Range: 1,2,3,4,5,6,7,8,31
attr_description[Lrat.EUtranCellTDD,networkSignallingValue] = Enables additional spectrum emission requirements according to 3GPP TS 36.101, table 6.2.4-1.<CR>Change takes effect: Object disabled/enabled<CR>Default=NS_01<CR>Range: 1,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32
attr_description[Lrat.EUtranCellTDD,noConsecutiveSubframes] = The number of consecutive downlink sub-frames with positioning reference signals as defined in 3GPP TS 36.211. Values define 1, 2, 4, or 6 consecutive sub-frames.<CR>Dependencies: None<CR>Change takes effect: Object unlocked<CR>Default=SF1<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellTDD,noOfChannelSelectionSets] = The number of channel selection PUCCH resource sets (CS sets) to reserve in each cell for secondary cell HARQ feedback. To conserve PUCCH resource, this attribute can be set to 0 if the cell is not used as PCell for Carrier Aggregation.<CR>Change takes effect: Cell lock/unlock<CR>Default=6<CR>Range: 0,4 to 12<CR>Unit: CS sets
attr_description[Lrat.EUtranCellTDD,noOfPucchCqiUsers] = The number of Channel Quality Indicator (CQI) resources available on the PUCCH channel.<CR>For TDD Subframe Assignment 1 the recommended value is 64.<CR>Disturbances: Cell runs new set-up procedure. All cell-connected UEs are released and connected again.<CR>Default=16<CR>Range: 0 to 4000
attr_description[Lrat.EUtranCellTDD,noOfPucchFormat1PrbPairsPerFrame] = PRB usage for PUCCH Format1. Based on PUCCH SR, CFI and Carrier Aggregation user configuration.<CR>Range: 0 to 1000
attr_description[Lrat.EUtranCellTDD,noOfPucchFormat2PrbPairsPerFrame] = PRB usage for PUCCH Format2. Based on PUCCH CQI user configuration.<CR>Range: 0 to 1000
attr_description[Lrat.EUtranCellTDD,noOfPucchFormat3PrbPairsPerFrame] = PRB usage for PUCCH Format3. Based on 3CC Carrier Aggregation user configuration.<CR>Range: 0 to 1000
attr_description[Lrat.EUtranCellTDD,noOfPucchFormat3PrbPairs] = Number of PUCCH Format 3 PRB pairs.<CR>Dependencies: Only takes effect when either of the following conditions is satisfied:<CR>3CC Carrier aggregation Extension Feature (FAJ 121 3084) is enabled, or nonCaAnModeF3Enable is true.<CR>Change takes effect: Cell lock/unlock<CR>Default=1<CR>Range: 0 to 3
attr_description[Lrat.EUtranCellTDD,noOfPucchSrUsers] = The number of Scheduling Request (SR) resources available on the PUCCH channel.<CR>For TDD Subframe Assignment 1 the recommended value is 64.<CR>Disturbances: Cell runs new set-up procedure. All cell-connected UEs are released and connected again.<CR>Default=16<CR>Range: 0 to 4000
attr_description[Lrat.EUtranCellTDD,noOfUlImprovedUe] = Number of data-aware UL-scheduling UEs that can be improved at allocation of PDCCH and PUSCH.<CR>Default=1<CR>Range: 0 to 5
attr_description[Lrat.EUtranCellTDD,nonCaAnModeF3Enable] = Enables PUCCH format3 as DL HARQ ACK/NACK feedback mode for TDD UEs not configured for carrier aggregation.<CR>Dependencies: Applicable only when attribute noOfPucchFormat3PrbPairs > 0.<CR>Change takes effect: Next cell unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,nonCaAnModeMuxEnable] = Enables multiplexing as DL HARQ ACK/NACK feedback mode for TDD UEs not configured for carrier aggregation.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellTDD,nonCaF3ResCollisionThresh] = Upper percentage threshold for PUCCH format 3 resource collision rate. Limits number of TDD non-carrier aggregation UEs configured with PUCCH format 3 as HARQ feedback mode.<CR>Change takes effect: New connection<CR>Default=20<CR>Range: 1 to 100<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,nonCaF3SelectionThreshold] = Controls number of non-carrier aggregation TDD UEs configured with PUCCH format3 as DL HARQ ACK/NACK feedback mode.<CR>Note: PUCCH Format3 resources can be shared with CA users. Then attribute value depends on maximum number of carrier aggregation users that are configured with PUCCH Format3 resources.<CR>Status Information: Since 17.Q1. Planned to be removed.<CR>Change takes effect: New connection<CR>Default=100<CR>Range: 1 to 6000
attr_description[Lrat.EUtranCellTDD,nonCaHarqAnModeMuxThresh] = Upper threshold for number of active DL users. Limits number of TDD non-carrier aggregation UEs configured with multiplexing as HARQ feedback mode.<CR>Change takes effect: New connection<CR>Default=2<CR>Range: 1 to 100
attr_description[Lrat.EUtranCellTDD,operationalState] = The operational state.  This attribute is set by the application in the RBS.<CR>Range: 0,1
attr_description[Lrat.EUtranCellTDD,orientMajorAxis] = Orientation of the major axis of uncertainty, in degrees clockwise from north.  Orientation value (N) is derived by the formula:<CR>N <= X < (N + 1)<CR>where X is the orientation in degrees (0 - 180).<CR>Dependencies: None<CR>Default=0<CR>Range: 0 to 179<CR>Unit: degrees
attr_description[Lrat.EUtranCellTDD,otdoaCheckEnabled] = Determines if the OTDOA functionality should be considered in the feature Service or Priority-Triggered Inter-Frequency Handover.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellTDD,otdoaSuplActive] = Indicates if the feature OTDOA Support in SUPL Environment is ACTIVATED  or DEACTIVATED in the cell.<CR>Change takes effect: Object unlocked.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,outOfCoverageDepth] = Maximum number of consecutive Out Of Coverage (OOC) easing events to leave the OOC state when a UE is in the OOC state for a long time.<CR>Change takes effect: Cell lock/unlock<CR>Default=1<CR>Range: 0 to 20
attr_description[Lrat.EUtranCellTDD,outOfCoverageSparseGrantingBsr] = Number of bytes for BSR at eNodeB when UE is in the Out Of Coverage (OOC) state and the OOC spare grant scheduling is applied.<CR>Change takes effect: Cell lock/unlock<CR>Default=4<CR>Range: 1 to 1000<CR>Unit: byte
attr_description[Lrat.EUtranCellTDD,outOfCoverageSrTimerPeriodicity] = Repetition rate of UL sparse grants that are eNodeB-triggered to Out Of Coverage (OOC) UEs.<CR>Change takes effect: Cell lock/unlock<CR>Default=320<CR>Range: 40,80,160,320,640,960,1280<CR>Unit: ms
attr_description[Lrat.EUtranCellTDD,outOfCoverageThreshold] = Threshold for when UE is considered to be Out Of Coverage (OOC). If the number of OOC trigger events is greater than or equal to the threshold, the UE is in the OOC state; if the number of OOC trigger events is less than the threshold, the UE is not in the OOC state.<CR>Change takes effect: Cell lock/unlock<CR>Default=20<CR>Range: 1 to 63
attr_description[Lrat.EUtranCellTDD,pMaxServingCell] = Limits UE uplink transmission power in the serving cell and calculates the parameter Pcompensation (defined in 3GPP TS 36.304) for cell selection.<CR>The attribute is broadcast in SIB1.<CR>Value 1000 means the parameter is not included in system information.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1000<CR>Range: -30 to 33,1000
attr_description[Lrat.EUtranCellTDD,pZeroNominalPucch] = The nominal component of the UE transmit power for Physical Uplink Control Channel (PUCCH).<CR>Disturbances: Changes may affect traffic.<CR>Default=-117<CR>Range: -127 to -96<CR>Unit: dBm
attr_description[Lrat.EUtranCellTDD,pZeroNominalPusch] = The nominal component of the UE transmit power for Physical Uplink Shared Channel (PUSCH).<CR>Dependencies: Changing the value of pZeroNominalPusch, might have impact on the setting of puschPwrOffset64Qam.<CR>See puschPwrOffset64Qam for how that attribute depends on pZeroNominalPusch.<CR>Disturbances: Changes may affect traffic.<CR>Default=-103<CR>Range: -126 to 24<CR>Unit: dBm
attr_description[Lrat.EUtranCellTDD,pciConflictCell] = Indicates the CGI of the other cell that is involved in the PCI collision/confusion. This value is only valid if the attribute pciConflict is "YES" or "YES_CONFLICTING_CELL".<CR>MinLength=0 MaxLength=5
attr_description[Lrat.EUtranCellTDD,pciConflict] = A PCI confusion exists if a source cell has relations to two neighbor cells where both neighbor cells have the same PCI and frequency. A PCI collision exists if a source cell has a relation to a neighbor cell where both the source cell and neighbor cell have the same PCI and frequency.<CR>MinLength=0 MaxLength=5<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellTDD,pciDetectingCell] = Indicates the CGI of the cell that detected the PCI collision/confusion. This value is only valid if the corresponding attribute pciConflict is "YES" or "YES_CONFLICTING_CELL". The first cell in the pciDetectingCell list corresponds to the first cell in the pciConflictCell list and the first value of pciConflict. The second cell in the pciDetectingCell list corresponds to the second cell in the pciConflictCell list and the first value of pciConflict.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.EUtranCellTDD,pdcchAdmEnabled] = Enable the pdcch admission control feature. All rejects will be logged in counter pmCellAdmControlPdcchRej. If set to false we will not reject any Ues due to this function but the potential rejects will be logged in counter pmCellAdmControlPdcchRejMeas.<CR>Status Information: Since L16A. Has no functional behavior. Planned to be removed.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,pdcchAdmThreshold] = Sets the threshold for the CCE usage when ue starts to be rejected. This will only cause real rejects if pdcchAdmEnabled = true. Otherwise we will only step pmCellAdmControlPdcchRejMeas both no rejects will take place.<CR>Status Information: Since L16A. Has no functional behavior. Planned to be removed.<CR>Change takes effect: Cell lock/unlock<CR>Default=1000<CR>Range: 0 to 1000<CR>Unit: 0.001 .
attr_description[Lrat.EUtranCellTDD,pdcchCfiMode] = Controls the CFI (Control Format Indicator) used for the control region. cfiMode maps to CFI as described under enumerations. For DL BW of 1400 kHz, values of CFI = 1, 2 and 3 map to 2, 3, and 4 control region symbols respectively. Other BW, CFI maps directly to number of control region symbols.<CR>Dependencies: pdcchCfiMode cannot equal CFI_STATIC_1 while dlChannelBandwidth = 1400, 3000, or 5000 kHz since there would be insufficient CCEs to transmit a PDCCH for common channel messages such as SIB1 or SI. Certain values of pdcchCfiMode that allow high CFI values may be disallowed when the combination of attributes pdcchCfiMode, dlChannelBandwidth, noOfPucchCqiUsers, and noOfPucchSrUsers require too many corresponding PUCCH HARQ-ARQ resources.<CR>Change takes effect: Object unlocked<CR>Default=CFI_STATIC_BY_BW<CR>Range: 0,1,2,3,4,5
attr_description[Lrat.EUtranCellTDD,pdcchCovImproveCap] = PDCCH DCI format 1A for capacity to reduce CCE usage when possible without significantly reducing performance.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,pdcchCovImproveDtx] = PDCCH DCI format 1A for first re-transmission due to DTX of SRB and QCI1.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,pdcchCovImproveQci1] = PDCCH DCI format 1A to increase MOS for QCI1 in high interference or high path loss scenarios.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,pdcchCovImproveSrb] = PDCCH DCI format 1A is used for SRB to increase transmission success rate and to minimize interruption time.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,pdcchLaGinrMargin] = GINR back-off parameter for PDCCH link adaptation. Applies to all UEs when the feature Enhanced PDCCH Link Adaptation is disabled. In FDD, if the licenses for both Enhanced PDCCH Link Adaptation and Carrier Aggregation are enabled, this parameter applies to secondary cell PDCCH for UEs capable of carrier aggregation. In TDD, if the license for Enhanced PDCCH Link Adaptation is enabled, this parameter applies to:<CR>- UEs configured with carrier aggregation, and<CR>- UEs configured with HARQ-ACK PUCCH format 3 or HARQ-ACK multiplexing.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: -50 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,pdcchOuterLoopAdjLowerLimit] = The lower limit of the accumulated PDCCH outer loop adjustment.<CR>Change takes effect: Object unlocked<CR>Default=-15<CR>Range: -40 to 0<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,pdcchOuterLoopAdjUpperLimit] = The upper limit of the accumulated PDCCH outer loop adjustment.<CR>Change takes effect: Object unlocked<CR>Default=10<CR>Range: 0 to 40<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,pdcchOuterLoopInitialAdjPCell] = The initial value for primary cell PDCCH outer loop adjustment in case of carrier aggregation. This applies to UEs that have at least one secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter is not used.<CR>Change takes effect: Object unlocked<CR>Default=-70<CR>Range: -200 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,pdcchOuterLoopInitialAdjVolte] = The initial value for PDCCH outer loop adjustment for UEs with any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=-70<CR>Range: -200 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,pdcchOuterLoopInitialAdj] = The initial value for PDCCH outer loop adjustment for UEs that do not have any secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=-70<CR>Range: -200 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,pdcchOuterLoopUpStepPCell] = PDCCH outer loop up step size for primary cells in case of carrier aggregation. This applies to UEs that have at least one secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter is not used.<CR>Change takes effect: Object unlocked<CR>Default=6<CR>Range: 0 to 100<CR>Unit: 0.001 dB
attr_description[Lrat.EUtranCellTDD,pdcchOuterLoopUpStepVolte] = PDCCH outer loop up step size for UEs with any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=6<CR>Range: 0 to 100<CR>Unit: 0.001 dB
attr_description[Lrat.EUtranCellTDD,pdcchOuterLoopUpStep] = PDCCH outer loop up step size for UEs that do not have any secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=8<CR>Range: 0 to 100<CR>Unit: 0.001 dB
attr_description[Lrat.EUtranCellTDD,pdcchPowerBoostMax] = Maximum power boost applied to UE-specific PDCCHs that require more CCEs than the maximum available CCE aggregation level. If UE-specific PDCCHs  require equal or less, an automatic power boost algorithm is applied. Attribute pdcchPowerBoostMax does not affect those PDCCHs.<CR>If set to 0, there is no PDCCH power boost of the maximum CCE aggregation level. PDCCH coverage is not increased but the feature still optimizes the PDCCH power setting for PDCCHs that require equal or less CCEs than the maximum CCE aggregation level. This still allows for higher PDCCH capacity.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 6<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,pdcchSinrChangeThresholdPCell] = The PDCCH link adaptation threshold for primary cells in case of carrier aggregation. When the absolute value of the accumulated PDCCH SINR adjustment is greater than or equal to this threshold, PDCCH LA is performed. This applies to UEs that have at least one secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter is not used.<CR>Change takes effect: Object unlocked<CR>Default=10<CR>Range: 0 to 100<CR>Unit: 0.05 dB
attr_description[Lrat.EUtranCellTDD,pdcchSinrChangeThresholdVolte] = The PDCCH link adaptation threshold for UEs with any bearer mapped to a QCI with serviceType of VoIP. When the absolute value of the accumulated PDCCH SINR adjustment is greater than or equal to this threshold, PDCCH LA is performed. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=10<CR>Range: 0 to 100<CR>Unit: 0.05 dB
attr_description[Lrat.EUtranCellTDD,pdcchSinrChangeThreshold] = When the absolute value of the accumulated PDCCH SINR change is greater than or equal to this threshold, PDCCH link adaptation is performed. This applies to UEs that do not have any secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=10<CR>Range: 0 to 100<CR>Unit: 0.05 dB
attr_description[Lrat.EUtranCellTDD,pdcchSinrOffsetWithMimo] = The SINR offset to be used when mapping CQI to SINR if CQI is based on rank of 2.<CR>Change takes effect: Object unlocked<CR>Default=30<CR>Range: 0 to 100<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,pdcchTargetBlerPCell] = PDCCH target error rate for primary cells in case of carrier aggregation. This applies to UEs that have at least one secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter is not used.<CR>Change takes effect: Object unlocked<CR>Default=22<CR>Range: 1 to 200<CR>Unit: 0.05 %
attr_description[Lrat.EUtranCellTDD,pdcchTargetBlerVolte] = PDCCH target error rate for UEs with any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=22<CR>Range: 1 to 200<CR>Unit: 0.05 %
attr_description[Lrat.EUtranCellTDD,pdcchTargetBler] = PDCCH target error rate for UEs that do not have any secondary cell configured and do not have any bearer mapped to a QCI with serviceType of VoIP. In TDD, this parameter applies only to UEs which are configured with HARQ-ACK bundling.<CR>Change takes effect: Object unlocked<CR>Default=24<CR>Range: 1 to 200<CR>Unit: 0.05 %
attr_description[Lrat.EUtranCellTDD,pdschMaxNrOfPrbsPerUe] = Maximum number of physical resource blocks (PRBs) allowed on PDSCH for each UE.<CR>Note: If the set value is larger than the system bandwidth, then the system bandwidth value will be used instead.<CR>For PDSCH resource allocation type 0, the actual maximum number of PRBs that is allocated will be a multiple of RBGs (Resource Block Groups) that is nearest to the set value but without exceeding it.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 1 to 100
attr_description[Lrat.EUtranCellTDD,pdschTypeBGain] = Sets the DL power of the PDSCH type B resource elements relatively the PDSCH type A resource elements. Values pdschTypeBGain=(0,1,2,3) define the gains (5/4,1,3/4,1/2) respectively, corresponding to the multi-antenna scenario specified in 3GPP TS 36.213.<CR>Example: If the pdschTypeBGain is 3 (gain=1/2), the power of the PDSCH type B resource elements is a factor 1/ 2 of the power of the PDSCH type A resource elements.<CR>PDSDH type A resource elements are located in symbols that do not contain cell specific reference signals (CRS). PDSCH type B resource elements are located in symbols that contain CRS.<CR>Dependencies: The pdschTypeBGain=0 (gain=5/4) is not allowed if crsGain=1.77,3.0, 4.77,6.0 dB. This combination causes over allocation of DL mean radio power and attribute pdschTypeBGain is set to 1 (gain=1).<CR>The pdschTypeBGain only takes effect if the configured number of antenna ports is 2,4, or 8.  In the one port case, the power of resource elements for  PDSCH type A and B is equal.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellTDD,pftNetworkSoftwareVersion] = Network software version of the PFT protocol.<CR>Change takes effect: Object unlocked<CR>Default=1<CR>Range: 0 to 10
attr_description[Lrat.EUtranCellTDD,pftTatAndIatPairSelection] = Index of the pair of timing advance timers and the corresponding pair of inactivity timers that are used for all PFT users.<CR>Status Information: Since L16B. Replaced by pftTatPairSelection. Planned to be removed.<CR>Change takes effect: New connection<CR>Default=3<CR>Range: 0 to 7
attr_description[Lrat.EUtranCellTDD,pftTatPairSelection] = Index of the pair of timing advance timers that are used for all PFT users.<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0 to 7
attr_description[Lrat.EUtranCellTDD,physicalLayerCellIdGroup] = The physical layer cell ID group. Physical-layer cell IDs are grouped into 168 unique physical-layer cell-identity groups, each group containing 3 unique subidentities.<CR>This attribute together with physicalLayerSubCellId is used to calculate physical layer cell ID (see 3GPP TS 36.211) that is sent as part of the system information (see 3GPP TS 36.331).<CR>Disturbances: Changes may affect traffic<CR>Range: 0 to 167
attr_description[Lrat.EUtranCellTDD,physicalLayerCellId] = Physical-layer cell ID, equal to 3 X physicalLayerCellIdGroup + physicalLayerSubCellId.<CR>Specification: 3GPP 36.211<CR>Range: 0 to 503
attr_description[Lrat.EUtranCellTDD,physicalLayerSubCellId] = The subidentity within the physical layer cell ID group. Physical-layer cell IDs are grouped into 168 unique physical-layer cell-identity groups, each group containing 3 unique subidentities.<CR>This attribute together with physicalLayerCellIdGroup is used to calculate physical layer cell identity (see 3GPP TS 36.211) which is sent as part of the system information (see 3GPP TS 36.331).<CR>Disturbances: Changes may affect traffic<CR>Range: 0 to 2
attr_description[Lrat.EUtranCellTDD,preambleInitialReceivedTargetPower] = Initial preamble power value in dBm, according to 3GPP specification 36.331 and 36.321.<CR>Change takes effect: Cell lock/unlock<CR>Default=-110<CR>Range: -120 to -90<CR>Unit: dBm
attr_description[Lrat.EUtranCellTDD,primaryPlmnAlarmSuppr] = Indicates if the primary PLMN ID in the cell is suppressed for alarms PLMN Service Degraded and PLMN Service Unavailable when primary PLMN is not available in the cell.<CR>The primary PLMN ID is suppressed if this attribute is set to true.<CR>If the configured PLMN ID is not a served PLMN ID, then the alarm is suppressed independent of the configured settings.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,primaryPlmnReserved] = Indicates if the primary PLMN ID in the cell is reserved for operator use. The primary PLMN ID is reserved if this attribute is set to true.<CR>Dependencies: the attribute eNodeBPlmnId in the parent ENodeBFunction will hold the value of the primary PLMN ID.<CR>Disturbances: Changing this attribute can block traffic in the cell.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,primaryPsdOffset] = Offset value that controls the maximum allowed difference between pZeroNominalPusch and the received power below pZeroNominalPusch in the primary sector when UL CoMP is used.<CR>Default=0<CR>Range: 0 to 31<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,prioAdditionalFreqBandList] = List of additional frequency bands the cell belongs to. Primary frequency band, EARFCN value of the cell, is not included. Secondary cell evaluation is done according to list order, and/or the list is broadcasted in SIB1. Highest priority band is position 0 in the list.<CR>Dependencies: List only contains frequency bands from additionalFreqBandList.<CR>Precondition: ENodeBFunction::useBandPrioritiesInSCellEval and/or ENodeBFunction::useBandPrioritiesInSib1 must be enabled.<CR>MinLength=0 MaxLength=8<CR>Range: 1 to 256
attr_description[Lrat.EUtranCellTDD,prioHpueCapability] = Priority of high power UE capability.<CR>Default=NO_PRIORITIZATION<CR>Range: 0,1
attr_description[Lrat.EUtranCellTDD,prsConfigIndexMapped] = This parameter holds the resulting prsConfigIndex value. If prsPeriod is used by the operator then prsConfigIndexMapped will be set by the system. If prsConfigIndex is used by the operator then prsConfigIndexMapped will be a copy of the entered value.<CR>Range: 0 to 4095
attr_description[Lrat.EUtranCellTDD,prsConfigIndex] = The Positioning Reference Signal (PRS) index value for the cell defines the periodicity of the PRS occasions and the PRS subframe offset, as defined in 3GPP TS 36.211. The value -1 (default) means that this parameter will not be used for setting the PRS period and prsSubframeOffset. Instead the parameter prsPeriod shall be used to directly set the PRS period while prsSubframeOffset will be set by the system to guarantee non collision with SIB1.<CR>Change takes effect: Object unlocked<CR>Default=-1<CR>Range: -1 to 4095
attr_description[Lrat.EUtranCellTDD,prsMutingPatternLen] = Used for selecting the length of the PRS muting pattern. Setting the pattern length to 1 results in deactivation of PRS muting. The muting pattern is set to "1111111111111" in this case. Other recommended muting pattern lengths are: 2, 4, 8, and 16 bits.<CR>Change takes effect: Object unlocked<CR>Default=1<CR>Range: 1,2,4,8,16<CR>Unit: bits
attr_description[Lrat.EUtranCellTDD,prsMutingPattern] = Used for storing the calculated muting pattern for the cell. This parameter cannot be manually set.<CR>Change takes effect: Object unlocked<CR>Range: 1 to 16
attr_description[Lrat.EUtranCellTDD,prsPeriod] = The period of Positioning Reference Signal (PRS) occasions. Valid periods include 160 ms, 320 ms, 640 ms and 1280 ms.<CR>prsPeriod is used to calculate the prsConfigIndex to avoid PRS sub-frame collisions with SIB1 sub-frames.<CR>Change takes effect: Object unlocked<CR>Default=PP160<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellTDD,prsPowerBoosting] = Used for selecting the different power boosting alternatives for PRS transmissions. If set to 0, a default table based on the number of PBCH antennas and transmission scheme is shown. If set to 1, 2, or 3, it results in a power boosting of 0 dB, 3 dB, or 6 dB respectively.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 3
attr_description[Lrat.EUtranCellTDD,prsTransmisScheme] = Used for selecting whether the PRS transmission must use antenna switching or pre-coder switching.<CR>Change takes effect: Object unlocked<CR>Default=ANTENNA_SWITCHING<CR>Range: 0,1
attr_description[Lrat.EUtranCellTDD,pucchOverdimensioning] = Number of resource blocks outside each Physical Uplink Control Channel (PUCCH) region that are available for scheduling Physical Uplink Shared Channel (PUSCH).<CR>Note: Both the value of this attribute and the amount of resources allocated for PUCCH impacts where the resource allocation of the PRACH starts. In case of sub-band radio used, it is not allowed for PRACH to span over a 5 MHz sub-band border, which has to be considered when configuring the value of this attribute. Supported values are: 0, 3, 4, 7, 8, 13, 24 and 25.<CR>Change takes effect: Object disabled/enabled.<CR>Default=0<CR>Range: 0 to 49<CR>Unit: Resource Block
attr_description[Lrat.EUtranCellTDD,puschMaxNrOfPrbsPerUe] = Maximum number of physical resource blocks allowed on PUSCH for each UE.<CR>Dependencies: This parameter only takes effect if the feature PUCCH Overdimensioning is activated.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 1 to 100<CR>Unit: Resource Block
attr_description[Lrat.EUtranCellTDD,puschPwrOffset64qam] = Power offset to the target-received PUSCH Power Spectral Density (PSD) for 64-QAM-capable UEs. Used to control the received SINR target.<CR>It is used to enable maximum throughput for 64QAM, which in some configurations is not possible otherwise, see dependencies.<CR>Dependencies: Only relevant if the license for 64-QAM Uplink is present and the<CR>feature is active.<CR>For 2Rx, pZeroNominalPusch + puschPwrOffset64qam needs to be -100 dBm or higher to achieve maximum throughput.<CR>puschPwrOffset64Qam should be set to 0 when both UL 64QAM and UL MU-MIMO are enabled in eNB.<CR>Disturbances: Changes can affect traffic.<CR>Default=0<CR>Range: 0 to 8<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,qQualMinOffset] = The offset applied to the signaled qQualMin.<CR>Corresponds to Qqualminoffset in TS 36.304.<CR>Value 0 means that it is not sent in SIB1 and UE applies in such case the (default) value of 0 dB for Qqualminoffset.<CR>Dependencies: If the value of qQualMin is set to 0 the parameter qQualMinOffset will not be broadcasted.<CR>Default=0<CR>Range: 0 to 8<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,qQualMinRsrqCe] = Min quality level (RSRQ) in cell for UE in enhanced coverage mode.<CR>Corresponds to Qqualmin_CE in TS 36.304, sent in SIB1-BR. If 0, it is not sent and UE applies default value of negative infinity for Qqualmin_CE.<CR>Default=0<CR>Range: -34 to -3,0<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,qQualMin] = Specifies the minimum required quality level (RSRQ) in the cell in dB.<CR>Corresponds to Qqualmin in TS 36.304, sent in SIB1. Value 0 means that it is not sent and UE applies in such case the (default) value of negative infinity for Qqualmin.<CR>Dependencies: The field is mandatory present if the Struct Member threshServingLowQ in SIB3 is used in systemInformationBlockType3.<CR>Default=0<CR>Range: -34 to -3,0<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,qRxLevMinCe] = Min received RSRP level in E-UTRA frequency for cell reselection for UE in enhanced coverage mode. Corresponds to parameter Qrxlevmin_CE in 3GPP TS 36.304. This attribute is broadcast in SIB1-BR.<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.EUtranCellTDD,qRxLevMinOffset] = The offset applied to the signaled Qrxlevmin. Corresponds to parameter Qrxlevminoffset in 3GPP TS 36.304. Value 1000 means it is not sent and the UE sets Qrxlevminoffset=0dB.<CR>Default=1000<CR>Range: 2 to 16,1000<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,qRxLevMin] = The required minimum received Reference Symbol Received Power (RSRP) level in the E-UTRA frequency for cell reselection. Corresponds to parameter Qrxlevmin in 3GPP TS 36.304. This attribute is broadcast in SIB1.<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.EUtranCellTDD,qciTableRef] = Refers to an instance of QciTable and assigns a QciTable to a cell. The QciTable defines Quality of Service Class Indicator (QCI) to use in the cell.<CR>Refers to the QciTable instance corresponding to Local Distinguished Name (LDN) = ManagementElement=1, ENodeBFunction=1, QciTable=default<CR>isNillable: true<CR>Dependencies: It is assumed that the QciTable MO has been created.<CR>Change takes effect: New connection.<CR>References: Lrat.QciTable[0-]
attr_description[Lrat.EUtranCellTDD,rachNoOfAllocationsPerFrame] = Defines the number of subframes per radio frame where PRACH is allocated. The PRACH configuration is broadcasted as part of system information.<CR>Valid values: 5, 10, 20, 30, 50, 100<CR>Value mapping:<CR>5 =  0.5 (0ne every second radio frame)<CR>10 = 1<CR>20 = 2<CR>30 = 3<CR>50 = 5<CR>100 = 10<CR>Change takes effect: Object unlocked.<CR>Default=10<CR>Range: 5,10,20,30,50,100
attr_description[Lrat.EUtranCellTDD,rachPreambleRepetition] = Defines if RACH preamble repetition shall be used for preamble sequence generation and detection. Defines the preamble format (format 0 or 2).<CR>Preamble format is broadcasted as part of system information.<CR>Change takes effect: Object unlocked.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,rachRootSequence] = The first root sequence number for Random Access Channel (RACH) preamble generation. RACH root sequence is broadcast as a part of system information distribution and used for preamble detection.<CR>See definition for logical root sequence number in 3GPP TS 36.211.<CR>If feature Automated Rach Root Sequence Allocation is not activated a parameter change triggers automatic cell lock/unlock.<CR>If feature Automated Rach Root Sequence Allocation is activated the parameter is changed without the need to lock/unlock the cell.<CR>Disturbances: Changes may affect traffic.<CR>Default=386<CR>Range: 0 to 837
attr_description[Lrat.EUtranCellTDD,radioBearerTableRef] = Reference to an instance of RadioBearerTable. Assigns a RadioBearerTable for a cell.<CR>Reference to the RadioBearerTable instance corresponding to LDN= "ManagementElement=1, ENodeBFunction=1, RadioBearerTable =default"<CR>isNillable: true<CR>Dependencies: It is assumed that the RadioBearerTable MO has been created.<CR>Change takes effect: New connection.<CR>References: Lrat.RadioBearerTable[0-]
attr_description[Lrat.EUtranCellTDD,rateShapingActive] = Indicates if End-user bitrate shaping functionality is activated in this cell.<CR>Dependencies: Only relevant if the license for End-user bitrate shaping is present and the feature is active.<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,reservedBy] = Contains a list of managed object instances that reserves this managed object instance.<CR>Dependencies: The managed object cannot be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.EUtranCellRelationUnlicensed[0-],Lrat.EUtranCellRelation[0-],Lrat.MbsfnAreaCellRelation[0-],Lrat.NbIotCell[0-]
attr_description[Lrat.EUtranCellTDD,resourcePartitionGroupRef] = Reference to an instance of ResourcePartitionGroup MO.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: Cell lock/unlock<CR>References: Lrat.ResourcePartitionGroup[0-1]
attr_description[Lrat.EUtranCellTDD,rtpTimeout] = Enables operator configuration of the RTP timeout value at the eNodeB at a cell level that corresponds to the RTP timeout value get set at the IMS layer.<CR>Default=10<CR>Range: 1 to 15<CR>Unit: seconds
attr_description[Lrat.EUtranCellTDD,rxSinrTargetClpc] = SINR target value for SINR-based UL closed-loop power control.<CR>Dependencies: SINR target only has effect if attribute enableSinrUplinkClpc is true.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=25<CR>Range: -50 to 50<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,sCellHpueEnabled] = Whether or not SCell selection for high power UE that is not capable of CA simultaneously is enabled.<CR>Status Information: Since 17.Q3. Has no functional behavior. Planned to be removed.<CR>Default=true
attr_description[Lrat.EUtranCellTDD,sdmActive] = Specifies if SDM (Spatial Division Multiplexing) for CombinedCell configuration is activated or not. If SDM is activated, it is possible to multiplex multiple Ues in different sectors in the same time and same frequency resource.<CR>Disturbances: Change can affect traffic<CR>Change takes effect: Object disabled/enabled<CR>Default=false
attr_description[Lrat.EUtranCellTDD,sectorCarrierRef] = Reference to a list of instances of SectorCarrier MO.<CR>Disturbances: Change can affect traffic<CR>Change takes effect: Object disabled/enabled<CR>MinLength=0 MaxLength=12<CR>References: Lrat.SectorCarrier[0-]
attr_description[Lrat.EUtranCellTDD,servOrPrioIFHoSetupBearer] = Determines whether a bearer that fulfills the criteria for the feature Service- or Priority-Triggered Inter-Frequency Handover is set up, or rejected in UE .<CR>Default=true
attr_description[Lrat.EUtranCellTDD,servOrPrioRedirectEnabled] = Indicates if release with redirection is allowed in the feature Service or Priority-Triggered Inter-Frequency Handover.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.EUtranCellTDD,servOrPrioTriggeredErabAction] = Specifies the action performed when a S1AP:E-RAB SETUP REQUEST arrives and both the feature Service or Priority-Triggered Inter-Frequency Handover is active and the conditions for the bearer request are fulfilled.<CR>Dependencies: This attribute only takes effect when attribute servOrPrioTriggeredIFHo has value 'QCI'.<CR>Change takes effect: New connection<CR>Default=REJECT<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranCellTDD,servOrPrioTriggeredIFHo] = Specifies the trigger used in the feature Service or Priority-Triggered Inter-Frequency Handover.<CR>Change takes effect: New connection<CR>Default=QCI<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,serviceAreaId] = The MBMS Service Area Identity.<CR>Status Information: Since L16B. Replaced by MbsfnArea::serviceAreaId. Planned to be removed.<CR>Dependencies: At least one defined serviceAreaId needs to be configured in the eNB to ENABLE a TermPointToMmeM3<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 65535
attr_description[Lrat.EUtranCellTDD,siPeriodicity] = The periodicity of System Information (SI) messages. If a System Information Block (SIB) is not mapped to a SI message, the SI message is not transmitted.<CR>Change takes effect: When EUtranCellFDD/TDD object is unlocked.
attr_description[Lrat.EUtranCellTDD,siValidityTimeBr] = SI validity timer. The timer is set to 3h or 24h.<CR>Change takes effect: Object unlocked<CR>Default=VALIDITY_TIME_3H<CR>Range: 0,1
attr_description[Lrat.EUtranCellTDD,siWindowLength] = Length of the System Information (SI) window within which each SI message is transmitted. Applies to all SI messages.<CR>Note:  An SI window of 1 ms may be configured only when a maximum of 5 SI messages is configured for broadcast by attribute mappingInfo, to avoid collision with SIB1 transmission in subframe #5.<CR>Dependencies: siWindowLength must be 10 ms or above in case PWS SI messages are broadcasted.<CR>Change takes effect: When EUtranCellFDD/TDD object is unlocked<CR>Default=10<CR>Range: 1,2,5,10,15,20,40<CR>Unit: ms
attr_description[Lrat.EUtranCellTDD,sinrThreshHomToLegacyPCell] = The SINR threshold for PCell below which a 256 QAM capable UE will leave the higher order modulation (HOM) mode. A UE not in HOM mode is not allowed to use 256 QAM.<CR>Dependencies: sinrThreshLegacyToHomPCell > sinrThreshHomToLegacyPCell<CR>Change takes effect: Cell lock/unlock<CR>Default=60<CR>Range: -100 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,sinrThreshHomToLegacySCell] = The SINR threshold for SCell below which a 256 QAM capable UE will leave the higher order modulation (HOM) mode. A UE not in HOM mode is not allowed to use 256 QAM.<CR>Dependencies: sinrThreshLegacyToHomSCell > sinrThreshHomToLegacySCell<CR>Change takes effect: Cell lock/unlock<CR>Default=60<CR>Range: -100 to 200<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,sinrThreshLegacyToHomPCell] = The SINR threshold for PCell above which a 256 QAM capable UE will enter the higher order modulation (HOM) mode. A UE in HOM mode is allowed to use 256 QAM.<CR>Dependencies: sinrThreshLegacyToHomPCell > sinrThreshHomToLegacyPCell<CR>Change takes effect: Cell lock/unlock<CR>Default=150<CR>Range: 0 to 300<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,sinrThreshLegacyToHomSCell] = The SINR threshold for SCell above which a 256 QAM capable UE will enter the higher order modulation (HOM) mode. A UE in HOM mode is allowed to use 256 QAM.<CR>Dependencies: sinrThreshLegacyToHomSCell > sinrThreshHomToLegacySCell<CR>Change takes effect: Cell lock/unlock<CR>Default=150<CR>Range: 0 to 300<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,specialSubframePattern] = The special subframe pattern configuration for Downlink Part of Time Slot (DwPTS), Guard Period (GP), and Uplink Part of Time Slot (UpPTS). All TDD cells in the same DU or Baseband or same frequency band, or specific frequency band combinations where one frequency band overlaps with another (e.g. Band 38 and Band 41)must have the same special subframe pattern configuration.<CR>Dependencies: specialSubframePattern = 5 can not be used in combination with nB=T4 on MO Paging, see 3GPP TS 36.213.<CR>The round trip time at the cellRange together with switching time must be less than the time available in special subframe.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object unlocked<CR>Default=7<CR>Range: 5 to 7
attr_description[Lrat.EUtranCellTDD,spectrumEmissionReqMapping] = A list which maps frequency bands to network signaling values specifying additional spectrum emissions, as described by 3GPP TS 36.101, table 6.2.4-1. A band which is not explicitly mapped to a network signaling value by this list, will use the value NS_01. This list is used to generate the value of additionalSpectrumEmissionValues.<CR>MinLength=0 MaxLength=64
attr_description[Lrat.EUtranCellTDD,spifhoSetupBearerAtInitialCtxtSetup] = Decides if a bearer handled by the feature Service or Priority Triggered Inter-Frequency Handover (SPIFHO) is set up at Initial Context Setup even when attribute servOrPrioIFHoSetupBearer is false.<CR>Dependencies: The value of this attribute is only considered when the value of servOrPrioIFHoSetupBearer=false.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellTDD,srDetectHighThres] = Defines how many dB higher than the original SR detection threshold can be used as high SR detection threshold. Used together with srProcessingLevel to reduce false SR detection.<CR>Change takes effect: Cell lock/unlock<CR>Default=70<CR>Range: 0 to 300<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranCellTDD,srProcessingLevel] = Defines how many SRs eNodeB must receive in a row in order to process it. Used together with srDetectHighThres to reduce false SR detection.<CR>Change takes effect: Cell lock/unlock<CR>Default=NO_ADDITIONAL_SR_NEEDED<CR>Range: 0,1,2
attr_description[Lrat.EUtranCellTDD,srRetransPeriodTarget] = Controls the SR retransmission period target on PUCCH that is configured in the UE through the SR prohibit timer.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 640<CR>Unit: ms
attr_description[Lrat.EUtranCellTDD,srbTableRef] = Reference to an instance of SrbTable. Assigns a SrbTable for a cell.<CR>Reference to the SrbTable instance corresponding to LDN= "ManagementElement=1, ENodeBFunction=1, SrbTable=default"<CR>isNillable: true<CR>Dependencies: It is assumed that the SrbTable MO has been created.<CR>Change takes effect: New connection.<CR>References: Lrat.SrbTable[0-]
attr_description[Lrat.EUtranCellTDD,ssacBarringForMMTELVideoPresent] = Specifies presence of Information Element ssac-BarringForMMTEL-Video-r9 in SIB2.<CR>Status Information: Since 17.Q3. Replaced by AcBarringPresence.acBarringForMmtelVideoPresence in EUtranCellFDD/EUtranCellTDD::acBarringPresence. Planned to be removed.<CR>Disturbances: Changing this attribute can block video calls in the cell.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,ssacBarringForMMTELVideo] = Service specific access class barring parameters for MMTEL video originating calls.<CR>The information in broadcasted in SIB2.<CR>Disturbances: Changing this attribute can block video calls in the cell.
attr_description[Lrat.EUtranCellTDD,ssacBarringForMMTELVoicePresent] = Specifies presence of Information Element ssac-BarringForMMTEL-Voice-r9 in SIB2.<CR>Status Information: Since 17.Q3. Replaced by AcBarringPresence.acBarringForMmtelVoicePresence in EUtranCellFDD/EUtranCellTDD::acBarringPresence. Planned to be removed.<CR>Disturbances: Changing this attribute can block VoLTE calls in the cell.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,ssacBarringForMMTELVoice] = Service specific access class barring parameters for MMTEL voice originating calls.<CR>The information in broadcasted in SIB2.<CR>Disturbances: Changing this attribute can block VoLTE calls in the cell.
attr_description[Lrat.EUtranCellTDD,subframeAssignment] = The assignment of uplink and downlink subframes for the TDD frame structure (called UL/DL configuration in 3GPP TS 36.211). All TDD cells in the same DU or Baseband, or same frequency band, or specific frequency band combinations where one frequency band overlaps with another (e.g. Band 38 and Band 41) must have the same uplink and downlink subframe assignment.<CR>Dependencies: For cellRange greater than 15 subframeAssignment must be set to 1.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object unlocked<CR>Range: 1,2
attr_description[Lrat.EUtranCellTDD,switchingOffsetSinrClpc] = Switching offset of UL closed-loop power control between Pzero-based and SINR-based. In order to ensure SINR-based is better than Pzero-based.<CR>Dependencies: Attribute enableSinrUplinkClpc must be true.<CR>Default=8<CR>Range: 0 to 40<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,systemInformationBlock3] = Contains cell re-selection information common for intra-frequency, inter-frequency and/ or inter-RAT cell re-selection.
attr_description[Lrat.EUtranCellTDD,systemInformationBlock6] = Contains cell re-selection information common for cell re-selection towards UTRAN.<CR>Change takes effect: Object lock/unlock
attr_description[Lrat.EUtranCellTDD,systemInformationBlock7] = Contains cell re-selection information common for cell re-selection towards GERAN.<CR>Change takes effect: Object lock/unlock
attr_description[Lrat.EUtranCellTDD,systemInformationBlock8] = Contains cell re-selection information common for cell re-selection towards CDMA2000. This is controlled by the licensing MO Cdma2000SessionContinuity. The SIB8 distribution and information are also controlled by other licenses.<CR>Change takes effect: Object lock/unlock
attr_description[Lrat.EUtranCellTDD,tReorderingAutoConfiguration] = Enable automatic configuration of tReorderingDl and tReorderingUl. Configuration is based on HARQ-interval together with an offset defined by harqOffsetDl/harqOffsetUl.<CR>tReordering >= 'Max number of HARQ' * HARQ-interval + harqOffset, where closest higher or equal allowed value is used.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.EUtranCellTDD,tTimeAlignmentTimer] = A timer used for supervision and control of uplink synchronization. Special value: 0 means infinity.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0,500,750,1280,1920,2560,5120,10240<CR>Unit: ms
attr_description[Lrat.EUtranCellTDD,tUeBlockingTimer] = Length of time eNodeB rejects traffic requests from non-privileged UEs when detecting high procedure latency. Used in Procedure Latency Supervision. Privileged traffic, such as High Priority Access (HPA) and Emergency, is never rejected due to high procedure latency conditions.<CR>Change takes effect: Next cell unlock<CR>Default=200<CR>Range: 50 to 200<CR>Unit: 0.1 s
attr_description[Lrat.EUtranCellTDD,tac] = Tracking Area Code for the EUtran Cell.<CR>Disturbances: Changes may affect traffic<CR>Range: 0 to 65535
attr_description[Lrat.EUtranCellTDD,threshServingLow] = Specifies the threshold that the signal strength of the serving cell must be below for cell reselection towards a lower priority Inter-Frequency or Inter-RAT frequency.<CR>Corresponds to ThreshServingLowP in TS 36.304.<CR>Default=0<CR>Range: 0 to 62<CR>Unit: dB
attr_description[Lrat.EUtranCellTDD,timeOfLastModification] = Indicates the time and date when the MO was last modified.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.EUtranCellTDD,timePhaseMaxDeviationTddIndex] = Index of max allowed time and phase deviation for time and phase synchronization of TDD cell.<CR>Dependencies: ENodeBFunction::timeAndPhaseSynchAlignment must be true.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=TIME_PHASE_MAX_DEVIATION_TDD_IDX0<CR>Range: 0,1,2,3,4,5,6,7
attr_description[Lrat.EUtranCellTDD,transmissionModeR10] = Defines if Transmission Mode 9 must be used for Release 10 UEs that are connected to the cell.<CR>See 3GPP TS 36.213 table 7.1-5 for a definition of Transmission Mode.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,transmissionMode] = Defines the Transmission Mode (e.g. Transmit Diversity and Closed-Loop Spatial Multiplexing) that shall be used for the UEs that are connected to the cell.<CR>See 3GPP TS 36.213 table 7.1-5 for a definition of Transmission Mode.<CR>Default=TRANSMISSION_MODE_3<CR>Range: 2,3,4,7,8,9
attr_description[Lrat.EUtranCellTDD,ul64qamEnabled] = Enables UL 64-QAM at cell level.<CR>Dependencies: Only relevant if the license for UL 64-QAM is present and the<CR>feature is active.<CR>Change takes effect: Cell lock/unlock<CR>Default=true
attr_description[Lrat.EUtranCellTDD,ulBlerTargetEnabled] = Turns feature Configurable UL BLER Target on and off.<CR>Default=false
attr_description[Lrat.EUtranCellTDD,ulConfigurableFrequencyStart] = Specifies the start frequency offset for the allocation of resources when the uplink interference management is disabled expressed as a percentage of the configured bandwidth.<CR>Dependencies: ulInterferenceManagementActive shall be disabled before this parameter takes effect.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellTDD,ulCyclicPrefix] = Type of cyclic prefix used for uplink.<CR>Note: EXTENDED_15khz is not supported on current software.<CR>Disturbances: Changes may affect traffic.<CR>Change takes effect: Object disabled/enabled.<CR>Default=NORMAL_15khz<CR>Range: 0,1
attr_description[Lrat.EUtranCellTDD,ulDynUeAdmCtrlOverloadThr] = Highest allowed UL radio resource utilization ratio for admission of a non-privileged UE. Applies to each UL resource considered by Dynamic UE Admission Control. Resource utilization is checked against this threshold for all new, re-established, or incoming handover RRC connections.<CR>Dependencies: ulDynUeAdmCtrlOverloadThr >= ulDynUeAdmCtrlRetDiffThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests       - rejected non-privileged RRC connection re-establishment requests and rejected<CR>  non- privileged incoming handover requests.<CR>Default=600<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellTDD,ulDynUeAdmCtrlRetDiffThr] = Highest allowed UL radio resource utilization ratio for admission of a new non-privileged UE. Applies to each UL resource considered by Dynamic UE Admission Control. Resource utilization is checked against this threshold for all new RRC connections.<CR>Dependencies: ulDynUeAdmCtrlRetDiffThr =< ulDynUeAdmCtrlOverloadThr<CR>Disturbances: Changing this attribute can affect the following:<CR>- the number of RRC-connected users<CR>- cell throughput and the number of rejected non-privileged RRC connection requests.<CR>Default=500<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranCellTDD,ulFrequencyAllocationProportion] = Specifies the amount of frequency resources that is allocated in UL expressed as a percentage of the configured bandwidth.<CR>Change takes effect: Object unlocked<CR>Default=100<CR>Range: 0 to 100<CR>Unit: percent
attr_description[Lrat.EUtranCellTDD,ulHarqVolteBlerTarget] = The UL BLER target to be used for VoLTE UEs. This BLER target will be used for all UL transmissions for UEs that have a QCI1 bearer configured. If a UE does not have QCI1 bearer configured the normal UL BLER target will be used.<CR>Change takes effect: Object unlocked<CR>Default=5<CR>Range: 0 to 10<CR>Unit: %
attr_description[Lrat.EUtranCellTDD,ulImprovedUeAdapRetransEnabled] = Whether or not UL-scheduler is enabled that uses adaptive re-transmission more frequently for data-aware UL-scheduling UEs, to reduce fragments in UL spectrum.<CR>Default=true
attr_description[Lrat.EUtranCellTDD,ulImprovedUeSchedLastEnabled] = Whether or not UL scheduler is enabled to force allocation of PRBs to Data-Aware, UL-Scheduling UEs last.<CR>Default=true
attr_description[Lrat.EUtranCellTDD,ulInterferenceManagementActive] = Specifies if uplink interference management is enabled or disabled.<CR>Change takes effect: Object unlocked<CR>Default=true
attr_description[Lrat.EUtranCellTDD,ulInterferenceManagementDuration] = Specifies the time for which a randomly selected start frequency will be valid before a new start frequency is allocated. Setting it to "0" means that it will be randomly selected once, but never updated.<CR>Dependencies: ulInterferenceManagementActive shall be enabled before this parameter takes effect.<CR>Change takes effect: Object unlocked<CR>Default=5000<CR>Range: 0 to 10000<CR>Unit: 0.001 s
attr_description[Lrat.EUtranCellTDD,ulPsdLoadThresholdSinrClpc] = Threshold of UL transmission power per PRB. If averaged UL transmission power measurement per PRB is lower than ulPsdLoadThresholdSinrClpc over a set percentage of UL bandwidth, then SINR-based UL closed-loop power control can be considered.<CR>Dependencies: Threshold only has effect if attribute enableSinrUplinkClpc is true.<CR>Default=2<CR>Range: -126 to 24<CR>Unit: dBm
attr_description[Lrat.EUtranCellTDD,ulSCellPriority] = Relative priority in initial SCell selection for cells that can be configured with UL Carrier Aggregation. Applicable where several SCells are initially configured simultaneously. Lowest value has highest priority.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 0 to 5
attr_description[Lrat.EUtranCellTDD,ulSchedCtrlForOocUesEnabled] = Enables feature UL Scheduling Control for Out Of Coverage (OOC) UEs.<CR>Change takes effect: Cell lock/unlock<CR>Default=true
attr_description[Lrat.EUtranCellTDD,ulSrsEnable] = This parameter controls whenever sounding shall be enabled or not for the uplink frequency selective scheduling functionality.<CR>Dependencies: Only relevant if the license for frequency selective scheduling is present and active<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,ulTrigActive] = Specifies if outgoing uplink-triggered mobility actions are enabled or disabled in the cell.<CR>Used when Uplink-Triggered Inter-Frequency Mobility is enabled. The parameter has effect if Mobility Control in Poor Coverage is enabled and mobCtrlAtPoorCovActive is set to true in the cell.<CR>Default=true
attr_description[Lrat.EUtranCellTDD,ulTxPsdDistrThr] = Threshold for % of PRBs with "UL Tx power per PRB >= ulPsdLoadThresholdSinrClpc" during measSinrClpcPeriod. Below threshold means low cell power load and then SINR based UL closed-loop power control can be considered.<CR>Dependencies: Attribute enableSinrUplinkClpc must be true.<CR>Default=40<CR>Range: 0 to 100
attr_description[Lrat.EUtranCellTDD,uncertAltitude] = The uncertainty altitude (h) expressed in meters is derived from the uncertainty altitude (k) by h = 45*((1.025)^k - 1).<CR>Default=0<CR>Range: 0 to 127
attr_description[Lrat.EUtranCellTDD,uncertSemiMajor] = Semi-major axis of uncertainty. The uncertainty (r) is derived from the uncertainty code (k) by:<CR>r = 10 * ((1.1^k) - 1).<CR>Default=0<CR>Range: 0 to 127
attr_description[Lrat.EUtranCellTDD,uncertSemiMinor] = Semi-minor axis of uncertainty. The uncertainty (r) is derived from the uncertainty code (k) by:<CR>r = 10 * ((1.1^k) - 1).<CR>Default=0<CR>Range: 0 to 127
attr_description[Lrat.EUtranCellTDD,useESST] = Use Early Slow Start Termination algorithm in Active Queue Management (AQM).<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.EUtranCellTDD,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.EUtranCellTDD,zzzTemporary10] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary11] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary12] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary13] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by ReportConfigSearch::inhibitA2SearchConfig. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary14] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary15] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by ReportConfigEUtraIFBestCell::a3RsrqOffset. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary16] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by ReportConfigEUtraIFBestCell::hysteresisA3RsrqOffset. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary17] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary18] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary19] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.
attr_description[Lrat.EUtranCellTDD,zzzTemporary20] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16A. Replaced by attribute ulBlerTargetEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary21] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary22] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary23] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary24] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary25] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L16B. Replaced by ailgAutoRestartEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary26] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by outOfCoverageSrTimerPeriodicity. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary27] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by outOfCoverageThreshold. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary28] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since L16A. Replaced by attribute rtpTimeout. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary29] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.
attr_description[Lrat.EUtranCellTDD,zzzTemporary30] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary31] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary32] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary33] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary34] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since 17.Q1. Replaced by transmissionMode. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary35] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since L16B. Replaced by attribute pdschMaxNrOfPrbsPerUe. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary36] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since L17A. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary37] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Status Information: Since L17A. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary38] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by ulSchedCtrlForOocUesEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary39] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.EUtranCellTDD,zzzTemporary40] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary41] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary42] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary43] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary44] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by dlBlerTargetEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary45] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by dlHarqVoLTEBlerTarget. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary46] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by ulImprovedUeSchedLastEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary47] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by noOfUlImprovedUe. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary48] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by ulImprovedUeAdapRetransEnabled. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary49] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q2. Replaced by bsrThreshold. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.EUtranCellTDD,zzzTemporary50] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary51] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary52] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary53] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary54] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary55] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary56] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary57] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary58] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary59] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.EUtranCellTDD,zzzTemporary60] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary61] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary62] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary63] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary64] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary65] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary66] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranCellTDD,zzzTemporary6] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.EUtranCellTDD,zzzTemporary7] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.EUtranCellTDD,zzzTemporary8] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.EUtranCellTDD,zzzTemporary9] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.EUtranFreqRelation,a5Thr1RsrpFreqOffset] = The frequency-relation specific offset for the absolute threshold a5Threshold1Rsrp, RSRP threshold1 for event A5, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,a5Thr1RsrqFreqOffset] = The frequency-relation specific offset for the absolute threshold a5Threshold1Rsrq, RSRQ threshold1 for event A5, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -240 to 240<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranFreqRelation,a5Thr2RsrpFreqOffset] = The frequency-relation specific offset for the absolute threshold a5Threshold2Rsrp, RSRP threshold2 for event A5, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,a5Thr2RsrqFreqOffset] = The frequency-relation specific offset for the absolute threshold a5Threshold2Rsrq, RSRQ threshold2 for event A5, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -240 to 240<CR>Unit: 0.1 dB
attr_description[Lrat.EUtranFreqRelation,allowedMeasBandwidth] = The maximum allowed measurement bandwidth on a carrier frequency.<CR>Note: The values indicate the number of resource blocks and correspond to the channel bandwidth 1,4MHz, 3MHz, 5MHz, 10MHz, 15MHz, 20MHz respectively specified in 3GPP TS 36.104.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=6<CR>Range: 6,15,25,50,75,100<CR>Unit: Number of PRBs
attr_description[Lrat.EUtranFreqRelation,allowedPlmnList] = Lists all Public Land Mobile Network (PLMN) IDs allowed for this frequency relation.<CR>A UE that does not support a PLMN included in allowedPlmnList does not measure on this frequency according to the UE Handover Restriction List.<CR>No values in allowedPlmnList imply that the frequency has no restrictions for PLMN.<CR>The PLMN identity consists of the following parts:<CR>1. MobileCountryCode, MCC, 3 digits<CR>2. MobileNetworkCode, MNC, 2 or 3 digits (the correct number of digits is set in the mncLength member of this Struct)<CR>For example, if MCC=125 and MNC=46, then plmnId=12546.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=15
attr_description[Lrat.EUtranFreqRelation,amoAllowed] = Whether or not AMO function is allowed. Used to turn off AMO function on frequency relation level.<CR>Default=true
attr_description[Lrat.EUtranFreqRelation,anrMeasOn] = ANR performs measurement on the referenced frequency if this parameter is set to true. Otherwise, ANR does not perform any measurements on this frequency.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.EUtranFreqRelation,arpPrio] = Prioritizes EUTRAN frequencies among all frequencies related to the cell. Sets the priority to which frequency to perform mobility for a bearer with specific ARP Priority Level when the feature Service or Priority-Triggered Inter-Frequency Handover is activated.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.EUtranFreqRelation,atoAllowed] = Specifies whether Admission-triggered offload (ATO) is activated from the current cell towards a certain EUTRAN frequency.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.EUtranFreqRelation,blackListEntryIdleMode] = This parameter specifies blacklisted cells in SIB4 and SIB5.<CR>MinLength=0 MaxLength=16
attr_description[Lrat.EUtranFreqRelation,blackListEntry] = This parameter specifies a list of PCI that are blacklisted in EUTRAN measurements as described in 3GPP TS 36.331.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=32
attr_description[Lrat.EUtranFreqRelation,caFreqPriority] = Prioritizes EUTRAN frequency carriers from which to pick SCells for carrier aggregation. 0 means lowest priority. -1 means the frequency is excluded from SCell selection.<CR>Dependencies: Only applicable when CarrierAggregationFunction::dynamicSCellSelectionMethod == PRIORITIZED. Can also be applied to dynamicSCellSelectionMethod == PRIORITIZED_AUTOMATIC as long as Configurable SCell Priority is licensed.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: -1 to 7
attr_description[Lrat.EUtranFreqRelation,caFreqProportion] = In conjunction with caPrioThreshold the value sets a threshold for the number of SCells on this frequency carrier that can be configured using prioritized SCell selection. A normalized value is applied. When frequency carriers have same priority, SCells are selected on the carrier with the lowest proportional SCell utilization.<CR>Dependencies: Only applicable when CarrierAggregationFunction::dynamicSCellSelectionMethod == PRIORITIZED.<CR>Change takes effect: New connection<CR>Default=100<CR>Range: 0 to 100
attr_description[Lrat.EUtranFreqRelation,caTriggeredRedirectionActive] = Parameter used to specify whether or not CA triggered redirection is activated from the current cell towards a certain frequency.<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.EUtranFreqRelation,candNeighborRel] = The neighbor relations candidate list.<CR>MinLength=0 MaxLength=256
attr_description[Lrat.EUtranFreqRelation,cellReselectionPriority] = The absolute priority of the carrier frequency used by the cell reselection procedure. Corresponds to the parameter priority in 3GPP TS 36.304.<CR>Value 0 means lowest priority. The UE behavior when no value is entered is specified in 3GPP TS 36.304.<CR>Dependencies: The value must be unique and not already used by other RAT, i.e. equal priorities between RATs are not supported.<CR>Default=7<CR>Range: 0 to 7
attr_description[Lrat.EUtranFreqRelation,cellSleepCovCellMeasOn] = Cell sleep mode performs measurement on the referenced frequency for coverage cell discovery if this parameter is set to true. Otherwise, cell sleep mode does not perform any measurements on this frequency.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.EUtranFreqRelation,connectedModeMobilityPrio] = Prioritizes EUTRAN frequencies among all frequencies related to the cell for UEs in connected mode.<CR>(0 means the lowest priority. -1 means the frequency is excluded.)<CR>Change takes effect: New connection<CR>Default=7<CR>Range: -1 to 7
attr_description[Lrat.EUtranFreqRelation,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator or X2<CR>Range: 0,1,2
attr_description[Lrat.EUtranFreqRelation,csgCellTargetIdType] = Target eNodeB ID type for the CSG and Hybrid CSG neighbor cell. Attribute is used to encode the message Handover Required when it is defined in TS36.413 ch. 9.1.5.1, S1AP parameter Global eNB ID.<CR>Default=MACRO_ENODEB_ID<CR>Range: 0,1
attr_description[Lrat.EUtranFreqRelation,csgPhysCellIdRange] = The range of PCI for the closed access mode CSG cell. The information is broadcasted in SIB4.<CR>Dependencies: If csgPhysCellId != 1000, csgPhysCellId + csgPhysCellIdRange <= 504<CR>Specification: 3GPP TS 36.331<CR>Default=1<CR>Range: 1,4,8,12,16,24,32,48,64,84,96,128,168,252,504
attr_description[Lrat.EUtranFreqRelation,csgPhysCellId] = PCI for the closed access mode CSG cell. It is the start physical cell ID in the SIB4. If value is equal to 1000, it means that csg-PhysCellIdRange IE is not presented in SIB4.<CR>Dependencies: If csgPhysCellId != 1000, csgPhysCellId + csgPhysCellIdRange <= 504<CR>Specification: 3GPP TS 36.331<CR>Default=1000<CR>Range: 0 to 503,1000
attr_description[Lrat.EUtranFreqRelation,csmUeCapMonitorEnabled] = Whether or not UE capability monitoring for the coverage frequency on capacity cell is enabled.<CR>Default=false
attr_description[Lrat.EUtranFreqRelation,csmUeCapMonitorTime] = Length of time that sleep criteria monitors UE capability for coverage frequency. Only valid if attribute csmUeCapMonitorEnabled is set to true. Value 0 means that sleep criteria checks connected UEs.<CR>Default=60<CR>Range: 0 to 1440<CR>Unit: min
attr_description[Lrat.EUtranFreqRelation,eUtranFreqRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.EUtranFreqRelation,eutranFreqToQciProfileRelation] = Encapsulates parameters for service specific load management for a certain QCI profile.<CR>MinLength=0 MaxLength=19
attr_description[Lrat.EUtranFreqRelation,eutranFrequencyRef] = Refers to the EUTRAN frequency MO, EUtranFrequency.<CR>References: Lrat.EUtranFrequency[0-]
attr_description[Lrat.EUtranFreqRelation,hybridCsgPhysCellIdRange] = The range of PCI for the Hybrid CSG cell.<CR>Dependencies: If hybridCsgPhysCellId != 1000, hybridCsgPhysCellId + hybridCsgPhysCellIdRange <= 504<CR>Default=1<CR>Range: 1 to 504
attr_description[Lrat.EUtranFreqRelation,hybridCsgPhysCellId] = PCI for the Hybrid CSG cell. It is the start physical cell ID of Hybrid CSG cell. If value is equal to 1000, it means that Hybrid CSG cell is not supported for this frequency relation.<CR>Dependencies: If hybridCsgPhysCellId != 1000, hybridCsgPhysCellId + hybridCsgPhysCellIdRange <= 504<CR>Default=1000<CR>Range: 0 to 503,1000
attr_description[Lrat.EUtranFreqRelation,interFreqMeasTypeUlSinr] = The type of event based measurements used for inter-frequency LTE measurements when the measurements are uplink triggered.<CR>Change takes effect: New connection<CR>Default=EVENT_A5<CR>Range: 0,1
attr_description[Lrat.EUtranFreqRelation,interFreqMeasType] = The type of event based measurements on other LTE frequencies.<CR>Change takes effect: New connection<CR>Default=EVENT_A5<CR>Range: 0,1
attr_description[Lrat.EUtranFreqRelation,lastModification] = Indicates whether the MO was last modified by the Automated Neighbor Relations (ANR) function or operator or X2 and if the MO is to be deleted who triggered the deletion<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.EUtranFreqRelation,lbA5Thr1RsrpFreqOffset] = The frequency-relation specific offset for the absolute threshold a5Threshold1Rsrp, RSRP threshold1 for event A5, used for Inter-frequency load balancing.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: 0 to 100<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,lbActivationThreshold] = The minimum target cell load (subscription ratio) the source cell takes into account when determining the amount of load balancing action to a cell using this carrier frequency.<CR>Default=0<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.EUtranFreqRelation,lbBnrPolicy] = Specifies the policy for updating the loadBalancing attribute by the feature Best Neighbor Relations for Intra-LTE Load Management. The policy is valid for all cell relations corresponding to this EUtranFreqRelation.<CR>Default=AUTO<CR>Range: 0,1,2,3,4
attr_description[Lrat.EUtranFreqRelation,mdtMeasOn] = If true, MDT measures referenced frequency. Otherwise, MDT does not perform any MDT measurements on this frequency. This attribute is only applicable for MDT reportingTrigger set to PERIODICAL.<CR>Specification: 3GPP 36.331<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.EUtranFreqRelation,mobilityAction] = The preferred way to transfer a UE in connected mode to this EUTRA frequency.<CR>Default=HANDOVER<CR>Range: 0,1
attr_description[Lrat.EUtranFreqRelation,neighCellConfig] = Provides to the UE information related to MBSFN and TDD UL/DL configuration of neighbor cells.<CR>For TDD, the values DIFF_MBSFN_SUBFRAMES, SAME_MBSFN_SUBFRAMES and NO_MBSFN_SUBFRAMES indicates same UL/DL allocation in neighboring cells compared to the serving cell.<CR>The value is included in SIB3, SIB5 and MeasObjectEUTRA.<CR>Default=SAME_MBSFN_SUBFRAMES<CR>Range: 0,1,2,3
attr_description[Lrat.EUtranFreqRelation,nonPlannedPciCIO] = Cell Individual Offset value for the Non-planned PCI, CSG or Hybrid CSG neighbor cell. Used when UE is in connected mode.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -24,-22,-20,-18,-16,-14,-12,-10,-8,-6,-5,-4,-3,-2,-1,0,1,2,3,4,5,6,8,10,12,14,16,18,20,22,24<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,nonPlannedPciTargetIdType] = Target eNodeB Identity type for the Non-planned PCI neighbor cell. Attribute is used to encode the message Handover Required when it is defined in TS36.413 ch. 9.1.5.1, S1AP parameter Global eNB ID.<CR>Default=MACRO_ENODEB_ID<CR>Range: 0,1
attr_description[Lrat.EUtranFreqRelation,nonPlannedPhysCellIdRange] = PCI range for the Non-planned PCI.<CR>Dependencies: If nonPlannedPhysCellId != 1000, nonPlannedPhysCellId + nonPlannedPhysCellIdRange <= 504<CR>Default=1<CR>Range: 1 to 504
attr_description[Lrat.EUtranFreqRelation,nonPlannedPhysCellId] = Specific PCI reserved by operator for Femto Cell. It is the initial physical cell ID of Non-planned PCI. If value equals 1000, Non-planned PCI is not configured for this frequency relation.<CR>Dependencies: This attribute has a dependency to nonPlannedPhysCellIdRange.<CR>Default=1000<CR>Range: 0 to 503,1000
attr_description[Lrat.EUtranFreqRelation,pMax] = Calculates the parameter Pcompensation (defined in 3GPP TS 36.304), at cell reselection to an E-UTRAN Cell. Corresponds to parameter PEMAX in 3GPP TS 36.101.<CR>Value 1000 means the parameter is not sent in the system information block.<CR>Default=1000<CR>Range: -30 to 33,1000<CR>Unit: dBm
attr_description[Lrat.EUtranFreqRelation,presenceAntennaPort1] = Indicates if all the neighboring cells use Antenna Port 1.  When set to TRUE, the UE expects that at least two cell-specific antenna ports are used in all neighboring cells.<CR>Default=false
attr_description[Lrat.EUtranFreqRelation,qOffsetFreq] = Frequency specific offset for E-UTRAN frequencies used in connected mode. In idle mode,  the negative value of this offset is used.<CR>Specification: 3GPP TS 36.331<CR>Default=0<CR>Range: -24,-22,-20,-18,-16,-14,-12,-10,-8,-6,-5,-4,-3,-2,-1,0,1,2,3,4,5,6,8,10,12,14,16,18,20,22,24<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,qQualMinRsrqCe] = Min quality level (RSRQ) in cell for UE in enhanced coverage mode.<CR>Corresponds to Qqualmin_CE in TS 36.304. Sent in SIB3 or SIB5. Depends on whether related frequency is intra- or inter-frequency. If 0, it is not sent and UE applies default value of negative infinity for Qqualmin_CE.<CR>Default=0<CR>Range: -34 to -3,0<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,qQualMin] = Parameter "Qqualmin" in TS 36.304.<CR>Value 0 means that it is not sent and UE applies in such case the (default) value of negative infinity for Qqualmin. Sent in SIB3 or SIB5.<CR>Default=0<CR>Range: -34 to -3,0<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,qRxLevMinCe] = Min received RSRP level in E-UTRA frequency for cell reselection for UE in enhanced coverage mode. Corresponds to parameter Qrxlevmin_CE in 3GPP TS 36.304. This attribute is broadcast in SIB1-BR. This attribute is broadcast in SIB3 or SIB5. Depends on whether related frequency is intra- or inter-frequency.<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.EUtranFreqRelation,qRxLevMin] = The required minimum received Reference Symbol Received Power<CR>(RSRP) level in the (E-UTRA) frequency for cell reselection. Corresponds to parameter Qrxlevmin in 3GPP TS 36.304. This attribute is broadcast in SIB3 or SIB5, depending on whether the related frequency is intra- or inter-frequency.<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.EUtranFreqRelation,tReselectionEutraCe] = The cell reselection timer TreselectionEUTRA_CE for E-UTRA.<CR>Default=2<CR>Range: 0 to 15<CR>Unit: s
attr_description[Lrat.EUtranFreqRelation,tReselectionEutraSfHigh] = The attribute t-ReselectionEUTRA is multiplied with this factor if the UE is in high mobility state. Corresponds to the parameter Speed dependent ScalingFactor for TreselectionEUTRAN for medium high state in 3GPP TS 36.304.<CR>Value mapping:<CR>25 = 0.25<CR>50 = 0.5<CR>75 = 0.75<CR>100 = 1.0<CR>Default=100<CR>Range: 25 to 100<CR>Unit: %
attr_description[Lrat.EUtranFreqRelation,tReselectionEutraSfMedium] = The attribute t-ReselectionEUTRA is multiplied with this factor if the UE is in medium mobility state. Corresponds to the parameter Speed dependent ScalingFactor for TreselectionEUTRAN for medium mobility state in 3GPP TS 36.304.<CR>Value mapping:<CR>25 = 0.25<CR>50 = 0.5<CR>75 = 0.75<CR>100 = 1.0<CR>Default=100<CR>Range: 25 to 100<CR>Unit: %
attr_description[Lrat.EUtranFreqRelation,tReselectionEutra] = The cell reselection timer TreselectionRAT for E-UTRA. Value in seconds.<CR>Default=2<CR>Range: 0 to 7<CR>Unit: s
attr_description[Lrat.EUtranFreqRelation,threshXHighQ] = Parameter "ThreshX, HighQ" in TS 36.304.<CR>For the EUtranFreqRelation that points to the intra frequency EUtranFrequency MO, the attribute is invalid, that is, this attribute does not affect SIB3.<CR>Dependencies: The field is mandatory present if the Struct Member threshServingLowQ in SIB3 is used in systemInformationBlockType3.<CR>Default=2<CR>Range: 0 to 31<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,threshXHigh] = The threshold used by the UE when reselecting towards the higher priority frequency X from the current serving frequency. Each frequency of E-UTRAN can have a specific threshold. Refer to the parameter Thresx,high in 3GPP TS 36.304.<CR>Default=4<CR>Range: 0 to 62<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,threshXLowQ] = Parameter "ThreshX, LowQ" in TS 36.304.<CR>For the EUtranFreqRelation that points to the intra frequency EUtranFrequency MO, the attribute is invalid, that is, this attribute does not affect SIB3.<CR>Dependencies: The field is mandatory present if the Struct Member threshServingLowQ in SIB3 is used in systemInformationBlockType3.<CR>Default=0<CR>Range: 0 to 31<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,threshXLow] = The threshold used in reselection towards frequency X priority from a higher priority frequency. Each frequency of E-UTRAN can have a specific threshold. Corresponds to parameter Thresx,low in 3GPP TS 36.304.<CR>Default=0<CR>Range: 0 to 62<CR>Unit: dB
attr_description[Lrat.EUtranFreqRelation,timeOfCreation] = Indicates the time and date when the MO was created.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.EUtranFreqRelation,timeOfLastModification] = Indicates the time and date when the MO was last modified.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.EUtranFreqRelation,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.EUtranFreqRelation,voicePrio] = Prioritizes EUTRAN frequencies among all frequencies related to the cell for UEs in connected mode. Sets the priority to which frequency to perform mobility to for a voice session.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.EUtranFreqRelationUnlicensed,allowedMeasBandwidth] = The maximum allowed measurement bandwidth on a carrier frequency.<CR>Note: The values indicate the number of resource blocks and correspond to the channel bandwidth 1,4MHz, 3MHz, 5MHz, 10MHz, 15MHz, 20MHz respectively specified in 3GPP TS 36.104.<CR>Default=100<CR>Range: 6,15,25,50,75,100<CR>Unit: Number of PRBs
attr_description[Lrat.EUtranFreqRelationUnlicensed,allowedPlmnList] = Lists all Public Land Mobile Network (PLMN) IDs allowed for this frequency relation.<CR>A UE that does not support a PLMN included in allowedPlmnList does not measure on this frequency according to the UE Handover Restriction List.<CR>No values in allowedPlmnList imply that the frequency has no restrictions for PLMN.<CR>The PLMN identity consists of the following parts:<CR>1. MobileCountryCode, MCC, 3 digits<CR>2. MobileNetworkCode, MNC, 2 or 3 digits (the correct number of digits is set in the mncLength member of this Struct)<CR>For example, if MCC=125 and MNC=46, then plmnId=12546.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=15
attr_description[Lrat.EUtranFreqRelationUnlicensed,band46UnlicensedProfileRef] = Refers to Band46UnlicensedProfile MO.<CR>isNillable: true<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.
attr_description[Lrat.EUtranFreqRelationUnlicensed,caFreqPriority] = Prioritizes EUTRAN frequency carriers from which to pick SCells for carrier aggregation. 0 means lowest priority. -1 means the frequency is excluded from SCell selection.<CR>Dependencies: Only applicable when CarrierAggregationFunction::dynamicSCellSelectionMethod == PRIORITIZED.<CR>Change takes effect: New connection<CR>Default=7<CR>Range: -1 to 7
attr_description[Lrat.EUtranFreqRelationUnlicensed,caFreqProportion] = In conjunction with caFreqPriority the value sets a threshold for the number of SCells on this frequency carrier that can be configured using prioritized SCell selection. A normalized value is applied. When frequency carriers have same priority, SCells are selected on the carrier with the lowest proportional SCell utilization.<CR>Dependencies: Only applicable when CarrierAggregationFunction::dynamicSCellSelectionMethod == PRIORITIZED.<CR>Change takes effect: New connection<CR>Default=100<CR>Range: 0 to 100
attr_description[Lrat.EUtranFreqRelationUnlicensed,eUtranFreqRelationUnlicensedId] = The value component of the RDN.
attr_description[Lrat.EUtranFreqRelationUnlicensed,unlicensedBandProfileRef] = Refers to UnlicensedBandProfile MO.<CR>References: Lrat.UnlicensedBandProfile[0-1]
attr_description[Lrat.EUtranFreqRelationUnlicensed,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.EUtranFrequency,additionalFreqBandList] = A list of additional frequency bands the frequency belongs to. The list is automatically set by the eNB. The list does not include the frequency band indicated by the EARFCN value of the frequency (primary frequency band). These additional frequency bands are broadcasted to the UEs in SystemInformationBlockType5 in case the feature Multiple Frequency Band Indicators is enabled in the cell.<CR>MinLength=0 MaxLength=8<CR>Range: 1 to 256
attr_description[Lrat.EUtranFrequency,arfcnValueEUtranDl] = Indicates the ARFCN applicable for a downlink E-UTRA carrier frequency, as defined in 3GPP TS 36.104 for specified E-UTRA bands. For TDD this also indicates the ARFCN for uplink. The values that can be used depends on national operator specific frequency allocation as well as from the supported frequency band(s) of the equipment in the eNodeB.<CR>Range: 0 to 17999,36000 to 262143
attr_description[Lrat.EUtranFrequency,eUtranFrequencyId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.EUtranFrequency,excludeAdditionalFreqBandList] = A list of frequency bands to be excluded from the list of additional frequency bands in the additionalFreqBandList MOM attribute. The list shall not include the frequency band indicated by the EARFCN value of the frequency (primary frequency band). These frequency bands are excluded from the list of broadcasted additional frequency bands in SystemInformationBlockType5 in case the feature Multiple Frequency Band Indicators is enabled in the cell.<CR>MinLength=0 MaxLength=8<CR>Range: 1 to 256
attr_description[Lrat.EUtranFrequency,freqBand] = The primary frequency band the frequency belongs to according to its defined EARFCN.<CR>Range: 1 to 256
attr_description[Lrat.EUtranFrequency,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.EUtranFreqRelation[0-],Lrat.ExternalEUtranCellFDD[0-],Lrat.ExternalEUtranCellTDD[0-]
attr_description[Lrat.EUtranFrequency,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.EranInterMeLink,availabilityStatus] = The availability status. It contains details about operationalState.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.EranInterMeLink,eranInterMeLinkId] = The value component of the RDN.
attr_description[Lrat.EranInterMeLink,eranVlanPortRef] = Refers to the VlanPort instance used by the EranInterMeLink and its BbLinks.<CR>isNillable: true
attr_description[Lrat.EranInterMeLink,linkLatency15minHWM] = The highest latency measured during the last completed 15 minute period.<CR>Range: -1 to 1000000<CR>Unit: 0.01 microseconds
attr_description[Lrat.EranInterMeLink,linkLatency1minAvg] = The average latency measured during the last 1 minute period.<CR>Range: -1 to 1000000<CR>Unit: 0.01 microseconds
attr_description[Lrat.EranInterMeLink,linkLatency24hrsHWM] = The highest latency measured during the last 24hrs.<CR>Range: -1 to 1000000<CR>Unit: 0.01 microseconds
attr_description[Lrat.EranInterMeLink,localPort] = The EthernetPortId for the local end of the EranInterMeLink.<CR>Range: 0 to 128
attr_description[Lrat.EranInterMeLink,operationalState] = The operational state.<CR>Range: 0,1
attr_description[Lrat.EranInterMeLink,remotePort] = The EthernetPortId for the remote end of the EranInterMeLink.<CR>Range: 0 to 128
attr_description[Lrat.Etws,arrivalTimePrim] = Time when the SIB10 information arrived in the eNB.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.Etws,arrivalTimeSec] = Time when the SIB11 information arrived in the eNB.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.Etws,dataCodingScheme] = Data coding scheme for the message.<CR>Range: 0 to 255
attr_description[Lrat.Etws,etwsId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.Etws,messageIdentifierPrim] = Message identifier for SIB10.<CR>Range: 0 to 65535
attr_description[Lrat.Etws,messageIdentifierSec] = Message identifier for SIB11.<CR>Range: 0 to 65535
attr_description[Lrat.Etws,numberOfBroadcastsRequested] = Number of requested repetitions of SIB11.<CR>Range: 0 to 65535
attr_description[Lrat.Etws,repetitionPeriod] = Repetition period for SIB11.<CR>Range: 0 to 131071<CR>Unit: Second
attr_description[Lrat.Etws,serialNumberPrim] = Serial number for SIB10.<CR>Range: 0 to 65535
attr_description[Lrat.Etws,serialNumberSec] = Serial number for SIB11.<CR>Range: 0 to 65535
attr_description[Lrat.Etws,warningMessageContents] = Contents of the message.<CR>Range: 0 to 9600
attr_description[Lrat.Etws,warningType] = Warning type for SIB10.<CR>Range: 0 to 65535
attr_description[Lrat.ExternalCdma20001xRttCell,acBarring1xRttForMoDataPresent] = Presence indication in SIB8 of Information Element acBarring1xRttMoData<CR>Default=false
attr_description[Lrat.ExternalCdma20001xRttCell,acBarring1xRttMoData] = Access Barring parameters for CDMA2000 1xRTT capable UE originating signaling<CR>The information is broadcast in SIB8. This is controlled by the licensing MO CsfbTo1xRtt and acBarring1xRttForMoDataPresent
attr_description[Lrat.ExternalCdma20001xRttCell,cellIdentifier] = Cell identifier<CR>If a 1xRTT cell is referred by EUtranCellFDD or EUtranCellTDD, this cell/sector attribute in conjunction with marketId and switchNumber shall be used to set the IE CDMA2000 Sector ID in Uplink S1 CDMA2000 tunneling message.
attr_description[Lrat.ExternalCdma20001xRttCell,csfbRegParams1xRttMoData] = Information for preregistration to 1xRTT system<CR>The information is broadcast in SIB8. This information, together with the information in mobilityParams1xRttMoData, must be used to build IE in RRC messages: CSFBParametersResponseCDMA2000 and HandoverFromEUTRAPreparationRequest.<CR>This is controlled by the licensing MO CsfbTo1xRtt.
attr_description[Lrat.ExternalCdma20001xRttCell,externalCdma20001xRttCellId] = Value component of the RDN
attr_description[Lrat.ExternalCdma20001xRttCell,mobilityParams1xRttMoData] = Information for registration/reregistration to 1xRTT system<CR>The information, together with the information in csfbRegParams1xRttMoData, is used to build the IE in RRC messages: CSFBParametersResponseCDMA2000 and HandoverFromEUTRAPreparationRequest.<CR>This is controlled by the licensing MO CsfbTo1xRtt.
attr_description[Lrat.ExternalCdma20001xRttCell,mscIdentifier] = MSC identity in CDMA 1xRTT network<CR>If this 1xRTT cell is referred by EUtranCellFDD or EUtranCellTDD, this identifier will be used by eNodeB for tunneling of 1xRTT signaling messages towards this MSC. It has to be configured for LTE CSFB to 1xRTT features since it is used to fill a field in S1AP message sent to MME.
attr_description[Lrat.ExternalCdma20001xRttCell,nid] = Network unique identifier (16 bits) within a system used along with the SID as a pair to control when the UE should register or reregister with the CDMA2000 1xRTT network.<CR>NID=0 and NID=65535 are reserved.<CR>Range: 0 to 65535
attr_description[Lrat.ExternalCdma20001xRttCell,pnOffset] = CDMA physical cell identity<CR>Change takes effect: New connection<CR>Range: 0 to 511
attr_description[Lrat.ExternalCdma20001xRttCell,reservedBy] = List of MO instances that reserve this MO instance<CR>Dependencies: The MO cannot be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.Cdma20001xRttCellRelation[0-],Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-]
attr_description[Lrat.ExternalCdma20001xRttCell,sid] = System unique identifier (15bits)<CR>This attribute is used along with the NID as a pair to control when the UE should register or reregister with the CDMA2000 1xRTT network. SID=0 is reserved. It is broadcast on SIB8.<CR>It is also used with CellId, SectorNumber and NID for the 1xRTT cell global identity.<CR>Range: 0 to 32768
attr_description[Lrat.ExternalCdma20001xRttCell,srvccCapability] = Describes the SRVCC capability of the external cell.<CR>Change takes effect: New connection<CR>Default=NOT_SUPPORTED<CR>Range: 0,1,2
attr_description[Lrat.ExternalCdma20001xRttCell,userLabel] = Label for free use<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ExternalCdma2000Cell,cellGlobalIdHrpd] = The IPv6 address for a CDMA2000 HRPD cell. The input format is eight groups of four digits and characters each, separated by colons.<CR>Ex. 2001:0db8:0000:0000:0000:0000:1428:07ab
attr_description[Lrat.ExternalCdma2000Cell,externalCdma2000CellId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ExternalCdma2000Cell,pnOffset] = The CDMA physical cell identity.<CR>Change takes effect: New connection.<CR>Range: 0 to 511
attr_description[Lrat.ExternalCdma2000Cell,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>Dependencies: The MO may not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.Cdma2000CellRelation[0-]
attr_description[Lrat.ExternalCdma2000Cell,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ExternalENodeBFunction,cellSleepSupport] = Feature indication from X2 setup response as if Cell Sleep Mode feature is supported on this eNodeB.<CR>Default=false
attr_description[Lrat.ExternalENodeBFunction,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator or X2<CR>Range: 0,1,2
attr_description[Lrat.ExternalENodeBFunction,eNBId] = The ID of an RBS within a Public Land Mobile Network (PLMN).<CR>Range: 0 to 1048575
attr_description[Lrat.ExternalENodeBFunction,eNodeBPlmnId] = The Public Land Mobile Network (PLMN) ID of the node. The PLMN ID consists of:<CR>1. MobileCountryCode, MCC, 3 digits<CR>2. MobileNetworkCode, MNC, 2 or 3 digits (the correct number of digits is set in the mncLength member of this Struct).<CR>Example: If MCC=125 and MNC=46, then plmnId=12546.<CR>Note: The value (MCC=001, MNC=01) indicates that the PLMN is not initiated. The value can not be used as a valid PLMN Identity.<CR>Change takes effect: Create object.
attr_description[Lrat.ExternalENodeBFunction,eSCellCapacityScaling] = Scaling factor for SCell subscription capacity. Used to decrease CA attraction of cells belonging to indicated eNodeB if cell is used as external SCell for CA.<CR>Default=100<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.ExternalENodeBFunction,eranVlanPortRef] = VlanPort instance that can be used to set up EranInterMeLinks and BbLinks under this ExternalENodeBFunction. If not set, ENodeBFunction::eranVlanPortRef is used as default.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic. A TermPointToENB lock/unlock for this external eNodeB is required.<CR>Change takes effect: Next MO unlock
attr_description[Lrat.ExternalENodeBFunction,ericssonENodeB] = Specifies whether this external eNodeB is manufactured by Ericsson.
attr_description[Lrat.ExternalENodeBFunction,externalENodeBFunctionId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ExternalENodeBFunction,gUGroupIdList] = A list of all globally unique group IDs to which a neighboring RBS belongs. A globally unique ID refers to a pool area.<CR>The attribute is set during the RBS at X2 SETUP procedure.<CR>MinLength=0 MaxLength=16
attr_description[Lrat.ExternalENodeBFunction,interENodeBCAInteractionMode] = Used to set whether applications shall use eRAN or X2 for CA together with the external eNodeB.<CR>Disturbances: Changing this attribute can affect traffic. A TermPointToENB lock/unlock for this external eNodeB is required.<CR>Change takes effect: Next MO unlock<CR>Default=IENBCA<CR>Range: 0,1,2
attr_description[Lrat.ExternalENodeBFunction,lastModification] = Indicates whether the MO was last modified by the Automated Neighbor Relations (ANR) function or operator or X2 and if the MO is to be deleted who triggered the deletion<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.ExternalENodeBFunction,masterEnbFunctionId] = The ID of the eNodeBFunction that this MO represents, in particular for automatically-created ExternalENbFunctionId managed objects.<CR>Range: 0 to 128
attr_description[Lrat.ExternalENodeBFunction,mfbiSupport] = Specifies whether the feature Multiple Frequency Band Indicators is enabled or disabled in the external eNB. Specifies whether it is allowed to perform mobility actions for secondary frequency bands to that eNB or not.<CR>Default=false
attr_description[Lrat.ExternalENodeBFunction,removingMonitoringStart] = Indicates the time and date when the MO was started for monitoring for automatic removal by the (automatic neighbor relation) function.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalENodeBFunction,timeOfCreation] = Indicates the time and date when the MO was created.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalENodeBFunction,timeOfLastModification] = Indicates the time and date when the MO was last modified.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalENodeBFunction,ulTrigHoSupport] = Configures whether uplink triggered handover is allowed to this external eNodeB or not. This parameter has only effect if no X2 interface is configured or the external node does not support the ULTRIG feature.<CR>Default=NO_ULTRIG_HO<CR>Range: 0,1
attr_description[Lrat.ExternalENodeBFunction,ulTrigSupport] = Specifies whether the feature Uplink-Triggered Inter-Frequency Mobility is installed in the external eNodeB.<CR>Set to true by the system when license for Uplink-Triggered Inter-Frequency Mobility is installed and a X2 connection exists.
attr_description[Lrat.ExternalENodeBFunction,userLabel] = User-defined alphanumeric label, maximum 128 characters including spaces.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ExternalEUtranCellFDD,activePlmnList] = Lists the PLMN IDs in the external E-UTRAN cell. The list may include up to 6 PLMN IDs. The list tracks the activePlmnList in the corresponding instance of EUtranCellFDD/TDD in another RBS. It is configured by ANR when ANR feature creates the MO and then set to the PLMN Id from the CGI report. The list is updated via X2 or OSS-RC, or manually.<CR>MinLength=0 MaxLength=6
attr_description[Lrat.ExternalEUtranCellFDD,activeServiceAreaId] = The active MBMS Service Area Identity of an external cell.<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 65535
attr_description[Lrat.ExternalEUtranCellFDD,additionalFreqBandList] = A list of additional frequency bands the cell belongs to, not including the frequency band indicated by the EARFCN value of the cell (primary frequency band). The list is automatically set by the eNB.<CR>MinLength=0 MaxLength=8<CR>Range: 1 to 256
attr_description[Lrat.ExternalEUtranCellFDD,commonSFAllocList] = Shows the subframes that are reserved for MBSFN in DL.<CR>MinLength=0 MaxLength=8
attr_description[Lrat.ExternalEUtranCellFDD,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator or X2<CR>Range: 0,1,2
attr_description[Lrat.ExternalEUtranCellFDD,csgPhysCellIdRange] = It is the range of Physical Cell Identity for the CSG (Closed Subscriber Group). The information is broadcasted in SIB4.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Dependencies: If csgPhyscellId != 1000, csgPhysCellId + csgPhysCellIdRange <= 504<CR>Default=1<CR>Range: 1,4,8,12,16,24,32,48,64,84,96,128,168,252,504
attr_description[Lrat.ExternalEUtranCellFDD,csgPhysCellId] = Physical Cell Identity for the CSG (Closed Subscriber Group). It is the start physical cell ID in the SIB4. If value is equal to 1000, it means that csg-PhysCellIdRange IE is not presented in SIB4.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Dependencies: This attribute has a dependency to csgPhysCellIdRange.<CR>Default=1000<CR>Range: 0 to 503,1000
attr_description[Lrat.ExternalEUtranCellFDD,dlChannelBandwidth] = The downlink channel bandwidth in a cell that is served by a neighboring RBS. The parameter is set by the RBS at X2 SETUP procedure. The value 0 means there is no valid value available.<CR>Range: 0,1400,3000,5000,10000,15000,20000<CR>Unit: kHz
attr_description[Lrat.ExternalEUtranCellFDD,eutranFrequencyRef] = Reference to the EUTRAN frequency MO, EUtranFrequency. Cannot be changed as long as this MO is referred to by a EUtranCellRelation MO.<CR>References: Lrat.EUtranFrequency[0-]
attr_description[Lrat.ExternalEUtranCellFDD,externalEUtranCellFDDId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ExternalEUtranCellFDD,freqBand] = The primary frequency band the cell belongs to according to its defined EARFCN. This frequency band indicator is broadcasted to the UEs in SystemInformationBlockType1.<CR>Range: 1 to 256
attr_description[Lrat.ExternalEUtranCellFDD,isRemoveAllowed] = Indicates if the Automated Neighbor Relations (ANR) function is allowed to remove this object. The setting does not restrict operator removal of the object. Objects created by ANR have this attribute set to true initially.<CR>Default=false
attr_description[Lrat.ExternalEUtranCellFDD,lastModification] = Indicates whether the MO was last modified by the Automated Neighbor Relations (ANR) function or operator or X2 and if the MO is to be deleted who triggered the deletion<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.ExternalEUtranCellFDD,lbEUtranCellOffloadCapacity] = This attribute indicates the offload subscription capacity associated with the EUTRAN target cell. The value is used to moderate the offload rate to the EUTRAN target cell.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1000<CR>Range: 0 to 1000000
attr_description[Lrat.ExternalEUtranCellFDD,lbmId] = Logical baseband module ID at the remote end.<CR>Range: 0 to 16
attr_description[Lrat.ExternalEUtranCellFDD,lbmVisibility] = List of local LBM ID's (MOM attribute TermPointToLbm::lbmIdLocal) that are visible to external cell. If no local LBM's are visible, the list has zero entries.<CR>MinLength=0 MaxLength=16<CR>Range: 0 to 16
attr_description[Lrat.ExternalEUtranCellFDD,localCellId] = RBS internal ID attribute for the ExternalEUtranCellFDD. Must be unique in the RBS. Together with the Node ID and Public Land Mobile Network (PLMN) ID this is a globally unique eUTRAN Cell ID (ECGI).<CR>Range: 0 to 255
attr_description[Lrat.ExternalEUtranCellFDD,masterEUtranCellFDDId] = The identity of the EUtranCellFDD represented by this MO, for managed objects automatically created by ExternalEUtranCellFDD.<CR>Range: 0 to 128
attr_description[Lrat.ExternalEUtranCellFDD,mbsfnSubframeAlloc] = Shows the subframes that are reserved for MBSFN in DL.<CR>Status Information: Since 17.Q2. Replaced by commonSFAllocList. Planned to be removed.<CR>Disturbances: Changing this attribute can affect traffic. Any UEs using this cell as an external SCell will have this SCell deactivated. New connections that take place after the attribute change will use the new value.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=8
attr_description[Lrat.ExternalEUtranCellFDD,noOfTxAntennas] = Number of antennas that can be used for DL transmission.<CR>Change takes effect: New connection<CR>Default=2<CR>Range: 1,2,4
attr_description[Lrat.ExternalEUtranCellFDD,pciConflictCell] = Indicates the CGI of the other cell that is involved in the PCI collision/confusion. This value is only valid if the attribute pciConflict is "YES" or "YES_CONFLICTING_CELL".<CR>MinLength=0 MaxLength=5
attr_description[Lrat.ExternalEUtranCellFDD,pciConflict] = A PCI confusion exists if a source cell has relations to two neighbor cells where both neighbor cells have the same PCI and frequency. A PCI collision exists if a source cell has a relation to a neighbor cell where both the source cell and neighbor cell have the same PCI and frequency.<CR>MinLength=0 MaxLength=5<CR>Range: 0,1,2,3
attr_description[Lrat.ExternalEUtranCellFDD,pciDetectingCell] = Indicates the CGI of the cell that detected the PCI collision/confusion. This value is only valid if the corresponding attribute pciConflict is "YES" or "YES_CONFLICTING_CELL". The first cell in the pciDetectingCell list corresponds to the first cell in the pciConflictCell list and the first value of pciConflict. The second cell in the pciDetectingCell list corresponds to the second cell in the pciConflictCell list and the first value of pciConflict.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.ExternalEUtranCellFDD,physicalLayerCellIdGroup] = The physical-layer cell-identity group. Physical-layer cell IDs are grouped into 168 unique physical-layer cell-identity groups, each group containing 3 unique subidentities.<CR>Range: 0 to 167
attr_description[Lrat.ExternalEUtranCellFDD,physicalLayerCellId] = Physical-layer cell ID, equal to 3 X physicalLayerCellIdGroup + physicalLayerSubCellId.<CR>Specification: 3GPP 36.211<CR>Range: 0 to 503
attr_description[Lrat.ExternalEUtranCellFDD,physicalLayerSubCellId] = The unique subidentity within a group. Physical-layer cell identities are grouped into 168 unique physical-layer cell-identity groups, each group containing 3 unique subidentities.<CR>Range: 0 to 2
attr_description[Lrat.ExternalEUtranCellFDD,remoteCellStateInterEnbUlComp] = Whether indicated cell can serve as external cell for inter-eNodeB UL CoMP.<CR>Dependencies: X2 connection must be operational and software compatible. Remote cell must be operState ENABLED and adminState UNLOCKED.<CR>Range: 0,1
attr_description[Lrat.ExternalEUtranCellFDD,remoteCellState] = Reflects whether the indicated cell is currently able to serve as an SCell. The remote cell must be operState ENABLED and adminState UNLOCKED.<CR>Dependencies: Depends on X2 connection being operational and software compatibility.<CR>Range: 0,1
attr_description[Lrat.ExternalEUtranCellFDD,removingMonitoringStart] = Indicates the time and date when the MO was started for monitoring for automatic removal by the (automatic neighbor relation) function.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalEUtranCellFDD,reservedBy] = Lists EUtranCellRelation managed object instances that reserve this managed object instance.<CR>Dependencies: The managed object cannot be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.EUtranCellRelationUnlicensed[0-],Lrat.EUtranCellRelation[0-]
attr_description[Lrat.ExternalEUtranCellFDD,sCellCaConfigurationAvailabilty] = Reflects whether the indicated cell is currently able to serve as an SCell. The remoteCellState must be operState ENABLED and Inter-eNodeB license must be active. As well, at least one tunnel connecting the indicated ESCell to this eNodeB must be enabled.  If not, no UEs are configured with this candidate, though UEs already configured with this cell will possibly retain the configuration.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Dependencies: Depends on feature license and success of tunnels in TermPointToLbm, interEnbSwCompatibilityState and on remoteCellState.<CR>Range: 0,1
attr_description[Lrat.ExternalEUtranCellFDD,tac] = The Tracking Area Code of an external cell.<CR>Change takes effect: New connection.<CR>Range: 0 to 65535
attr_description[Lrat.ExternalEUtranCellFDD,timeOfCreation] = Indicates the time and date when the MO was created.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalEUtranCellFDD,timeOfLastModification] = Indicates the time and date when the MO was last modified.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalEUtranCellFDD,ulChannelBandwidth] = The uplink channel bandwidth in a cell that is served by a neighboring RBS. The attribute is set by the RBS at X2 SETUP procedure. The value 0 means there is no valid value available.<CR>Range: 0,1400,3000,5000,10000,15000,20000<CR>Unit: kHz
attr_description[Lrat.ExternalEUtranCellFDD,uniqueCellId] = Internal unique version of full cell ID of remote cell, not eCGI.<CR>Range: 0 to 268435455
attr_description[Lrat.ExternalEUtranCellFDD,userLabel] = User-defined alphanumeric label, maximum 128 characters including spaces.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ExternalEUtranCellFDD,zzzTemporaryExt1] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalEUtranCellFDD,zzzTemporaryExt2] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalEUtranCellFDD,zzzTemporaryExt3] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalEUtranCellFDD,zzzTemporaryExt4] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalEUtranCellFDD,zzzTemporaryExt5] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalEUtranCellTDD,activePlmnList] = Lists the PLMN IDs in the external E-UTRAN cell. The list may include up to 6 PLMN IDs. The list tracks the activePlmnList in the corresponding instance of EUtranCellFDD/TDD in another RBS. It is configured by ANR when ANR feature creates the MO and then set to the PLMN Id from the CGI report. The list is updated via X2 or OSS-RC, or manually.<CR>MinLength=0 MaxLength=6
attr_description[Lrat.ExternalEUtranCellTDD,activeServiceAreaId] = The active MBMS Service Area Identity of an external cell.<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 65535
attr_description[Lrat.ExternalEUtranCellTDD,additionalFreqBandList] = A list of additional frequency bands the cell belongs to, not including the frequency band indicated by the EARFCN value of the cell (primary frequency band). The list is automatically set by the eNB.<CR>MinLength=0 MaxLength=8<CR>Range: 1 to 256
attr_description[Lrat.ExternalEUtranCellTDD,channelBandwidth] = The downlink channel bandwidth in a cell that is served by a neighboring RBS. In TDD mode, the uplink bandwidth is equal to the downlink bandwidth. The attribute is set by the RBS at X2 SETUP procedure. The value 0 means there is no valid value available.<CR>Range: 0,1400,3000,5000,10000,15000,20000<CR>Unit: kHz
attr_description[Lrat.ExternalEUtranCellTDD,commonSFAllocList] = Shows the subframes that are reserved for MBSFN in DL.<CR>MinLength=0 MaxLength=8
attr_description[Lrat.ExternalEUtranCellTDD,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator or X2<CR>Range: 0,1,2
attr_description[Lrat.ExternalEUtranCellTDD,csgPhysCellIdRange] = It is the range of Physical Cell Identity for the CSG (Closed Subscriber Group). The information is broadcasted in SIB4.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Dependencies: If csgPhyscellId != 1000, csgPhysCellId + csgPhysCellIdRange <= 504<CR>Default=1<CR>Range: 1,4,8,12,16,24,32,48,64,84,96,128,168,252,504
attr_description[Lrat.ExternalEUtranCellTDD,csgPhysCellId] = Physical Cell Identity for the CSG (Closed Subscriber Group). It is the start physical cell ID in the SIB4. If value is equal to 1000, it means that csg-PhysCellIdRange IE is not presented in SIB4.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Dependencies: This attribute has a dependency to csgPhysCellIdRange.<CR>Default=1000<CR>Range: 0 to 503,1000
attr_description[Lrat.ExternalEUtranCellTDD,eutranFrequencyRef] = Refers to the EUTRAN frequency MO, EUtranFrequency. Cannot be changed as long as this MO is referred to by a EUtranCellRelation MO.<CR>References: Lrat.EUtranFrequency[0-]
attr_description[Lrat.ExternalEUtranCellTDD,externalEUtranCellTDDId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ExternalEUtranCellTDD,freqBand] = The primary frequency band the cell belongs to according to its defined EARFCN. This frequency band indicator is broadcasted to the UEs in SystemInformationBlockType1.<CR>Range: 1 to 256
attr_description[Lrat.ExternalEUtranCellTDD,isRemoveAllowed] = Indicates if the Automated Neighbor Relations (ANR) function is allowed to remove this object. It does not restrict operator removal of the object. Objects created by ANR have this parameter set to true initially.<CR>Default=false
attr_description[Lrat.ExternalEUtranCellTDD,lastModification] = Indicates whether the MO was last modified by the Automated Neighbor Relations (ANR) function or operator or X2 and if the MO is to be deleted who triggered the deletion<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.ExternalEUtranCellTDD,lbEUtranCellOffloadCapacity] = This attribute indicates the offload subscription capacity associated with the EUTRAN target cell. The value is used to moderate the offload rate to the EUTRAN target cell.<CR>Default=1000<CR>Range: 0 to 1000000
attr_description[Lrat.ExternalEUtranCellTDD,lbmId] = Logical baseband module ID at the remote end.<CR>Range: 0 to 16
attr_description[Lrat.ExternalEUtranCellTDD,lbmVisibility] = List of local LBM ID's (MOM attribute TermPointToLbm::lbmIdLocal) that are visible to external cell. If no local LBM's are visible, the list has zero entries.<CR>MinLength=0 MaxLength=16<CR>Range: 0 to 16
attr_description[Lrat.ExternalEUtranCellTDD,localCellId] = RBS internal ID attribute for the ExternalEUtranCellTDD. Must be unique in the RBS. Together with the Node ID and PLMN ID this is a globally unique eUTRAN Cell ID (ECGI).<CR>Range: 0 to 255
attr_description[Lrat.ExternalEUtranCellTDD,masterEUtranCellTDDId] = The ID of the EUtranCellTDD that this MO represents for automatically created ExternalEUtranCellTDD managed objects.<CR>Range: 0 to 128
attr_description[Lrat.ExternalEUtranCellTDD,mbsfnSubframeAlloc] = Subframes reserved for MBSFN in DL.<CR>Status Information: Since 17.Q2. Replaced by commonSFAllocList. Planned to be removed.<CR>MinLength=0 MaxLength=8
attr_description[Lrat.ExternalEUtranCellTDD,pciConflictCell] = Indicates the CGI of the other cell that is involved in the PCI collision/confusion. This value is only valid if the attribute pciConflict is "YES" or "YES_CONFLICTING_CELL".<CR>MinLength=0 MaxLength=5
attr_description[Lrat.ExternalEUtranCellTDD,pciConflict] = A PCI confusion exists if a source cell has relations to two neighbor cells where both neighbor cells have the same PCI and frequency. A PCI collision exists if a source cell has a relation to a neighbor cell where both the source cell and neighbor cell have the same PCI and frequency.<CR>MinLength=0 MaxLength=5<CR>Range: 0,1,2,3
attr_description[Lrat.ExternalEUtranCellTDD,pciDetectingCell] = Indicates the CGI of the cell that detected the PCI collision/confusion. This value is only valid if the corresponding attribute pciConflict is "YES" or "YES_CONFLICTING_CELL". The first cell in the pciDetectingCell list corresponds to the first cell in the pciConflictCell list and the first value of pciConflict. The second cell in the pciDetectingCell list corresponds to the second cell in the pciConflictCell list and the first value of pciConflict.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.ExternalEUtranCellTDD,physicalLayerCellIdGroup] = The physical-layer cell identity group. Physical-layer cell IDs are grouped into 168 unique groups, each group containing 3 unique subidentities.<CR>Range: 0 to 167
attr_description[Lrat.ExternalEUtranCellTDD,physicalLayerCellId] = Physical-layer cell ID, equal to 3 X physicalLayerCellIdGroup + physicalLayerSubCellId.<CR>Specification: 3GPP 36.211<CR>Range: 0 to 503
attr_description[Lrat.ExternalEUtranCellTDD,physicalLayerSubCellId] = The physical-layer cell identity group. Physical-layer cell IDs are grouped into 168 unique groups, each group containing 3 unique subidentities.<CR>Range: 0 to 2
attr_description[Lrat.ExternalEUtranCellTDD,remoteCellStateInterEnbUlComp] = Whether indicated cell can serve as external cell for inter-eNodeB UL CoMP.<CR>Dependencies: X2 connection must be operational and software compatible. Remote cell must be operState ENABLED and adminState UNLOCKED.<CR>Range: 0,1
attr_description[Lrat.ExternalEUtranCellTDD,remoteCellState] = Reflects whether the indicated cell is currently able to serve as an SCell. The remote cell must be operState ENABLED and adminState UNLOCKED.<CR>Dependencies: Depends on X2 connection being operational and software compatibility.<CR>Range: 0,1
attr_description[Lrat.ExternalEUtranCellTDD,removingMonitoringStart] = Indicates the time and date when the MO was started for monitoring for automatic removal by the (automatic neighbor relation) function.<CR>Format: "YYYY-MM-DD HH:MM:SS"<CR>Range: 0 to 19
attr_description[Lrat.ExternalEUtranCellTDD,reservedBy] = Lists the EUtranCellRelation managed object instances that reserve this managed object instance.<CR>Dependencies: The managed object cannot be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.EUtranCellRelation[0-]
attr_description[Lrat.ExternalEUtranCellTDD,sCellCaConfigurationAvailabilty] = Reflects whether the indicated cell is currently able to serve as an SCell. The remoteCellState must be operState ENABLED and Inter-eNodeB license must be active. As well, at least one tunnel connecting the indicated ESCell to this eNodeB must be enabled.  If not, no UEs are configured with this candidate, though UEs already configured with this cell will possibly retain the configuration.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Dependencies: Depends on feature license and success of tunnels in TermPointToLbm, interEnbSwCompatibilityState and on remoteCellState.<CR>Range: 0,1
attr_description[Lrat.ExternalEUtranCellTDD,subframeAssignment] = The assignment of uplink and downlink subframes for the TDD frame structure (called UL/DL configuration in 3GPP TS 36.211). The parameter is set by the RBS at X2 SETUP procedure.<CR>Undefined value: -1<CR>Range: -1,0 to 6
attr_description[Lrat.ExternalEUtranCellTDD,tac] = Identifies a Tracking Area Code (TAC) of an external cell.<CR>Change takes effect: New connection<CR>Range: 0 to 65535
attr_description[Lrat.ExternalEUtranCellTDD,timeOfCreation] = Indicates the time and date when the MO was created.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalEUtranCellTDD,timeOfLastModification] = Indicates the time and date when the MO was last modified.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalEUtranCellTDD,uniqueCellId] = Internal unique version of full cell ID of remote cell, not eCGI.<CR>Range: 0 to 268435455
attr_description[Lrat.ExternalEUtranCellTDD,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ExternalEUtranCellTDD,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalEUtranCellTDD,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalEUtranCellTDD,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalEUtranCellTDD,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalEUtranCellTDD,zzzTemporary55] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalEUtranCellTDD,zzzTemporary56] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalEUtranCellTDD,zzzTemporary57] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalGNodeBFunction,externalGNodeBFunctionId] = The value component of the RDN.
attr_description[Lrat.ExternalGNodeBFunction,gNBId] = The ID of an RBS within a Public Land Mobile Network (PLMN).<CR>Range: 0 to 1048575
attr_description[Lrat.ExternalGNodeBFunction,gNodeBPlmnId] = The Public Land Mobile Network (PLMN) ID of the node. The PLMN ID consists of:<CR>1. MobileCountryCode, MCC, 3 digits<CR>2. MobileNetworkCode, MNC, 2 or 3 digits (the correct number of digits is set in the mncLength member of this Struct).<CR>Example: If MCC=125 and MNC=46, then plmnId=12546.<CR>Note: The value (MCC=001, MNC=01) indicates that the PLMN is not initiated. The value can not be used as a valid PLMN Identity.
attr_description[Lrat.ExternalGNodeBFunction,userLabel] = User-defined alphanumeric label, maximum 128 characters including spaces.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ExternalGeranCell,bcc] = Base station Colour Code (BCC). BCC and NCC together denote the physical cell identity for the GERAN cell (that is the Base Station Identity Code, BSIC).<CR>Disturbances: Changes may affect traffic<CR>Range: 0 to 7
attr_description[Lrat.ExternalGeranCell,cellIdentity] = Cell Identifier that is unique within the context of the GERAN location area. Refer to 3GPP TS 23.003.<CR>Disturbances: Changes may affect traffic<CR>Range: 0 to 65535
attr_description[Lrat.ExternalGeranCell,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1
attr_description[Lrat.ExternalGeranCell,dtmSupport] = This attribute describes the Dual Transfer Mode (DTM) capability of the external cell.<CR>Default=NO_DTM_SUPPORT<CR>Range: 0,1
attr_description[Lrat.ExternalGeranCell,externalGeranCellId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ExternalGeranCell,geranFrequencyRef] = Reference to GeranFrequency instance.<CR>It is mandatory to supply a valid reference to a frequency at creation. To change the reference to a new Geran frequency, use action changeFrequency.<CR>isNillable: true<CR>References: Lrat.GeranFrequency[0-]
attr_description[Lrat.ExternalGeranCell,isRemoveAllowed] = Indicates if the Automated Neighbor Relations (ANR) function is allowed to remove this object. It does not restrict operator removal of the object. Objects created by ANR have this parameter set to true initially.<CR>Default=true
attr_description[Lrat.ExternalGeranCell,lac] = The Location Area Code of the external GERAN cell. A fixed-length code identifying the location area within a PLMN. Refer to 3GPP TS 23.003.<CR>Special values:<CR>The values 0 and 65534 are reserved for special cases where no valid Location Area Identity (LAI) exists in the network.<CR>Disturbances: Changes may affect traffic<CR>Range: 1 to 65533,65535
attr_description[Lrat.ExternalGeranCell,lastModification] = Indicates whether the MO has been last modified by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1,2,3,4
attr_description[Lrat.ExternalGeranCell,masterGeranCellId] = The identity of the GeranCell represented by this MO, particularly for automatically created ExternalGeranCell managed objects. The masterGeranCellId is set to the Full Distinguished Name (FDN).<CR>Range: 0 to 128
attr_description[Lrat.ExternalGeranCell,naccInformation] = The Network Assisted Cell Change (NACC) information for this GERAN cell, used for the Release with Redirect Including NACC feature.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=5<CR>Range: 0 to 176
attr_description[Lrat.ExternalGeranCell,ncc] = Network Colour Code (NCC). BCC and NCC together denote the physical cell identity for the GERAN cell (that is the Base Station Identity Code, BSIC).<CR>Disturbances: Changes may affect traffic<CR>Range: 0 to 7
attr_description[Lrat.ExternalGeranCell,plmnIdentity] = PLMN ID supported by the cell.<CR>Disturbances: Changes may affect traffic
attr_description[Lrat.ExternalGeranCell,rac] = The Routing Area Code of a routing area.<CR>The value -1 of the attribute is used to mark that no valid routing area code has been defined.<CR>Disturbances: Changes may affect traffic<CR>Default=-1<CR>Range: -1 to 255
attr_description[Lrat.ExternalGeranCell,removingMonitoringStart] = Indicates the date and time when the MO was started for monitoring for automatic removal by the (automatic neighbor relation) function. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalGeranCell,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.GeranCellRelation[0-]
attr_description[Lrat.ExternalGeranCell,rimAssociationRetryTimer] = This parameter contains the time in minutes until the eNB will retry setting up the association. The value -1 means that the timer is inactive.<CR>Range: -1 to 16000<CR>Unit: minutes
attr_description[Lrat.ExternalGeranCell,rimAssociationRetryValue] = This parameter holds the value for the next time-out value.  The value -1 means that there is no set Retry Value.<CR>Range: -1 to 16000<CR>Unit: minutes
attr_description[Lrat.ExternalGeranCell,rimAssociationStatus] = This parameter indicates the current status of the RIM association to this external cell.<CR>Range: 0,1,2
attr_description[Lrat.ExternalGeranCell,rimCapable] = This parameter indicates if the external GERAN cell is RIM capable. If the value is RIMIncapable, no attempt will be made to create a RIM association to the external GERAN cell, other values will result in a attempt to create a RIM association.<CR>Disturbances: If the value is other than RIMIncapable the eNB will try to set up a RIM association to the external cell<CR>Default=RIM_CAPABLE<CR>Range: 0,1,2
attr_description[Lrat.ExternalGeranCell,rimOperationalState] = This parameter indicates the current status of the RIM association to this external cell.<CR>Range: 0,1,2
attr_description[Lrat.ExternalGeranCell,rimSIUpdateTimeOut] = This parameter holds the time in minutes until the next SI needs to have arrived. If an update has not arrived when this value reaches 0 the eNB will assume there are some problems with the RIM transmission and try to restart the association.  The value -1 means that there is no time out.<CR>Default=1440<CR>Range: -1 to 32768<CR>Unit: minutes
attr_description[Lrat.ExternalGeranCell,timeOfCreation] = Indicates the date and time when the MO was created by the Automated Neighbor Relations (ANR) function or operator. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalGeranCell,timeOfLastModification] = The date and time when the MO was last modified by the Automated Neighbor Relations (ANR) function or operator. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalGeranCell,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ExternalGeranCell,zzzTemporary10] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalGeranCell,zzzTemporary11] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalGeranCell,zzzTemporary12] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalGeranCell,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalGeranCell,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalGeranCell,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalGeranCell,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalGeranCell,zzzTemporary5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalGeranCell,zzzTemporary6] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ExternalGeranCell,zzzTemporary7] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.ExternalGeranCell,zzzTemporary8] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalGeranCell,zzzTemporary9] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,cellIdentity] = UTRAN Cell Identity.<CR>Used to identity the cell uniquely within UTRAN Iu mode.<CR>Disturbances: Changes may affect traffic<CR>Change takes effect: Object unlocked
attr_description[Lrat.ExternalUtranCellFDD,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1
attr_description[Lrat.ExternalUtranCellFDD,externalUtranCellFDDId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ExternalUtranCellFDD,isRemoveAllowed] = Indicates if the Automated Neighbor Relations (ANR) function is allowed to remove this object. It does not restrict operator removal of the object. Objects created by ANR have this parameter set to true initially.<CR>Default=false
attr_description[Lrat.ExternalUtranCellFDD,lac] = The Location Area Code of the external UTRAN cell. A fixed-length code identifying the location area within a PLMN. Refer to 3GPP TS 23.003.<CR>The value 0 of the attribute is used to mark invalid/unusable lac information for the cell. For example, handover to an external UTRAN cell (that is part of a Utran cell relation) can be considered only if the value of the lac attribute is NOT 0.<CR>Disturbances: Changes may affect traffic<CR>Default=0<CR>Range: 0 to 65533,65535
attr_description[Lrat.ExternalUtranCellFDD,lastModification] = Indicates whether the MO has been last modified by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1,2,3,4,5
attr_description[Lrat.ExternalUtranCellFDD,lbUtranCellOffloadCapacity] = Offload subscription capacity associated with the UTRAN target cell<CR>The value is used to moderate the offload rate to the UTRAN target cell.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1000<CR>Range: 0 to 1000000
attr_description[Lrat.ExternalUtranCellFDD,masterUtranCellId] = The identity of the UtranCell represented by this MO, particularly for automatically created ExternalUtranCell managed objects. The masterUtranCellId is set to the Full Distinguished Name (FDN).<CR>Range: 0 to 128
attr_description[Lrat.ExternalUtranCellFDD,naccInformation] = The Network Assisted Cell Change (NACC) information for this UTRAN FDD cell, used for the Release with Redirect Including NACC feature.<CR>Change takes effect: Ongoing connection
attr_description[Lrat.ExternalUtranCellFDD,physicalCellIdentity] = Indicates the physical layer identity of the cell, that is, the primary scrambling code.<CR>Change takes effect: New connection<CR>Range: 0 to 511
attr_description[Lrat.ExternalUtranCellFDD,plmnIdentity] = PLMN ID supported by the cell.<CR>Disturbances: Changes may affect traffic
attr_description[Lrat.ExternalUtranCellFDD,rac] = The Routing Area Code of a routing area.<CR>The value -1 of the attribute is used to mark that the optional RAC IE should NOT be sent in the Target ID IE of the HANDOVER REQUIRED S1 message. Refer to 3GPP TS 36.413.<CR>Disturbances: Changes may affect traffic<CR>Default=-1<CR>Range: -1 to 255
attr_description[Lrat.ExternalUtranCellFDD,removingMonitoringStart] = Indicates the date and time when the MO was started for monitoring for automatic removal by the (automatic neighbor relation) function. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalUtranCellFDD,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.UtranCellRelation[0-]
attr_description[Lrat.ExternalUtranCellFDD,rimAssociationRetryTimer] = This parameter contains the time in minutes until the eNB will retry setting up the association. The value -1 means that the timer is inactive.<CR>Range: -1 to 16000<CR>Unit: minutes
attr_description[Lrat.ExternalUtranCellFDD,rimAssociationRetryValue] = This parameter holds the value for the next time-out value.  The value -1 means that there is no set Retry Value.<CR>Range: -1 to 16000<CR>Unit: minutes
attr_description[Lrat.ExternalUtranCellFDD,rimAssociationStatus] = This parameter indicates the current status of the RIM association to this external cell.<CR>Range: 0,1,2
attr_description[Lrat.ExternalUtranCellFDD,rimCapable] = This parameter indicates if the external UTRAN cell is RIM capable. If the value is RIMIncapable, no attempt will be made to create a RIM association to the external UTRAN cell, other values will result in a attempt to create a RIM association.<CR>Disturbances: If the value is other than RIMIncapable the eNB will try to set up a RIM association to the external cell<CR>Default=RIM_CAPABLE<CR>Range: 0,1,2
attr_description[Lrat.ExternalUtranCellFDD,rimOperationalState] = This parameter indicates the current status of the RIM association to this external cell.<CR>Range: 0,1,2
attr_description[Lrat.ExternalUtranCellFDD,rimSIUpdateTimeOut] = This parameter holds the time in minutes until the next SI needs to have arrived. If an update has not arrived when this value reaches 0 the eNB will assume there are some problems with the RIM transmission and try to restart the association.  The value -1 means that there is no time out.<CR>Default=1440<CR>Range: -1 to 32768<CR>Unit: minutes
attr_description[Lrat.ExternalUtranCellFDD,srvccCapability] = Describes the SRVCC capability of the external cell.<CR>Default=NOT_SUPPORTED<CR>Range: 0,1,2
attr_description[Lrat.ExternalUtranCellFDD,timeOfCreation] = Indicates the time and date when the MO was created by the Automated Neighbor Relations (ANR) function or operator. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalUtranCellFDD,timeOfLastModification] = The date and time when the MO was last modified by the Automated Neighbor Relations (ANR) function or operator. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalUtranCellFDD,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporary1] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporary2] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporary3] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporary4] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporary5] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporaryExt1] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporaryExt2] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporaryExt3] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporaryExt4] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellFDD,zzzTemporaryExt5] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellTDD,cellIdentity] = UTRAN Cell Identity.<CR>Used to identity the cell uniquely within UTRAN Iu mode.<CR>Disturbances: Changes may affect traffic<CR>Change takes effect: Object unlocked
attr_description[Lrat.ExternalUtranCellTDD,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1
attr_description[Lrat.ExternalUtranCellTDD,externalUtranCellTDDId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ExternalUtranCellTDD,isRemoveAllowed] = Indicates if the Automated Neighbor Relations (ANR) function is allowed to remove this object. It does not restrict operator removal of the object. Objects created by ANR have this parameter set to true initially.<CR>Default=false
attr_description[Lrat.ExternalUtranCellTDD,lac] = The Location Area Code of the external UTRAN cell. A fixed-length code identifying the location area within a PLMN. Refer to 3GPP TS 23.003.<CR>The value 0 of the attribute is used to mark invalid/unusable lac information for the cell. For example, handover to an external UTRAN cell (that is part of a Utran cell relation) can be considered only if the value of the lac attribute is NOT 0.<CR>Disturbances: Changes may affect traffic<CR>Default=0<CR>Range: 0 to 65533,65535
attr_description[Lrat.ExternalUtranCellTDD,lastModification] = Indicates whether the MO has been last modified by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1,2,3,4,5
attr_description[Lrat.ExternalUtranCellTDD,masterUtranCellId] = The identity of the UtranCell represented by this MO, particularly for automatically created ExternalUtranCell managed objects. The masterUtranCellId is set to the Full Distinguished Name (FDN).<CR>Range: 0 to 128
attr_description[Lrat.ExternalUtranCellTDD,naccInformation] = The Network Assisted Cell Change (NACC) information for this UTRAN TDD cell, used for the Release with Redirect Including NACC feature.<CR>Change takes effect: Ongoing connection
attr_description[Lrat.ExternalUtranCellTDD,physicalCellIdentity] = Indicates the physical layer identity of the cell, that is, the primary scrambling code.<CR>Change takes effect: New connection<CR>Range: 0 to 127
attr_description[Lrat.ExternalUtranCellTDD,plmnIdentity] = PLMN ID supported by the cell.<CR>Disturbances: Changes may affect traffic
attr_description[Lrat.ExternalUtranCellTDD,rac] = The Routing Area Code of a routing area.<CR>The value -1 of the attribute is used to mark that the optional RAC IE should NOT be sent in the Target ID IE of the HANDOVER REQUIRED S1 message. Refer to 3GPP TS 36.413.<CR>Disturbances: Changes may affect traffic<CR>Default=-1<CR>Range: -1 to 255
attr_description[Lrat.ExternalUtranCellTDD,removingMonitoringStart] = Indicates the date and time when the MO was started for monitoring for automatic removal by the (automatic neighbor relation) function. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalUtranCellTDD,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.EUtranCellRelationUnlicensed[0-],Lrat.UtranCellRelation[0-]
attr_description[Lrat.ExternalUtranCellTDD,rimAssociationRetryTimer] = This parameter contains the time in minutes until the eNB will retry setting up the association. The value -1 means that the timer is inactive.<CR>Range: -1 to 16000<CR>Unit: minutes
attr_description[Lrat.ExternalUtranCellTDD,rimAssociationRetryValue] = This parameter holds the value for the next time-out value.  The value -1 means that there is no set Retry Value.<CR>Range: -1 to 16000<CR>Unit: minutes
attr_description[Lrat.ExternalUtranCellTDD,rimAssociationStatus] = This parameter indicates the current status of the RIM association to this external cell.<CR>Range: 0,1,2
attr_description[Lrat.ExternalUtranCellTDD,rimCapable] = This parameter indicates if the external UTRAN cell is RIM capable. If the value is RIMIncapable, no attempt will be made to create a RIM association to the external UTRAN cell, other values will result in a attempt to create a RIM association.<CR>Disturbances: If the value is other than RIMIncapable the eNB will try to set up a RIM association to the external cell<CR>Default=RIM_CAPABLE<CR>Range: 0,1,2
attr_description[Lrat.ExternalUtranCellTDD,rimOperationalState] = This parameter indicates the current status of the RIM association to this external cell.<CR>Range: 0,1,2
attr_description[Lrat.ExternalUtranCellTDD,rimSIUpdateTimeOut] = This parameter holds the time in minutes until the next SI needs to have arrived. If an update has not arrived when this value reaches 0 the eNB will assume there are some problems with the RIM transmission and try to restart the association.  The value -1 means that there is no time out.<CR>Default=1440<CR>Range: -1 to 32768<CR>Unit: minutes
attr_description[Lrat.ExternalUtranCellTDD,timeOfCreation] = Indicates the time and date when the MO was created by the Automated Neighbor Relations (ANR) function or operator. Format: "YYYY-MM-DD HH:MM:SS"<CR>Range: 0 to 19
attr_description[Lrat.ExternalUtranCellTDD,timeOfLastModification] = The date and time when the MO was last modified by the Automated Neighbor Relations (ANR) function or operator. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.ExternalUtranCellTDD,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.ExternalUtranCellTDD,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalUtranCellTDD,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalUtranCellTDD,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalUtranCellTDD,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.ExternalUtranCellTDD,zzzTemporary5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellTDD,zzzTemporary6] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellTDD,zzzTemporary7] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellTDD,zzzTemporary8] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.ExternalUtranCellTDD,zzzTemporary9] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR<CR>Default=-2000000000
attr_description[Lrat.FlexibleQoSFunction,flexibleQoSFunctionId] = The value component of the RDN.
attr_description[Lrat.FlexibleQoSGroup,flexibleQoSGroupId] = The value component of the RDN.
attr_description[Lrat.FlexibleQoSGroup,qciProfileRef] = Reference to QCI profile MO, QciProfilePredefined or QciProfileOperatorDefined.<CR>Dependencies: Each qciProfileRef attribute in different FlexibleQoSGroup MOCs must be unique. Default QCI profiles cannot be used.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: Cell lock/unlock<CR>References: Lrat.QciProfileOperatorDefined[0-],Lrat.QciProfilePredefined[0-]
attr_description[Lrat.FlexibleQoSGroupMember,flexibleQoSGroupMemberId] = The value component of the RDN.
attr_description[Lrat.FlexibleQoSGroupMember,sciProfileRef] = Reference to instance of SciProfile MO.<CR>Dependencies: Default SCI profiles cannot be used.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>References: Lrat.SciProfile[0-]
attr_description[Lrat.FlexibleQoSGroupMember,userProfileRef] = Reference to instance of UserProfile MO.<CR>Dependencies: Each FlexibleQoSGroupMember MO instance in same FlexibleQoSGroup MOC must have unique userProfileRef.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>References: Lrat.UserProfile[0-]
attr_description[Lrat.GUtraNetwork,gUtraNetworkId] = The value component of the RDN.
attr_description[Lrat.GUtraNetwork,userLabel] = User-defined alphanumeric label, maximum 128 characters including spaces.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.GeraNetwork,geraNetworkId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.GeraNetwork,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.GeranCellRelation,calculatedUeRelevance] = Estimated percentage of UEs that have ranked the associated neighbor cell as the strongest. The parameter is used by the feature best neighbor for redirect with SI.<CR>Range: 0 to 100
attr_description[Lrat.GeranCellRelation,coverageIndicator] = Defines whether the coverage area of the EUTRAN cell and the GERAN cell are indicated to overlap (has approximately the same coverage area), or whether the coverage area of the GERAN cell is indicated to cover the EUTRAN cell, or if it is contained in the EUTRAN cell.<CR>Disturbances: Changes may affect traffic<CR>Default=NONE<CR>Range: 0,1,2,3
attr_description[Lrat.GeranCellRelation,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1
attr_description[Lrat.GeranCellRelation,extGeranCellRef] = Reference to ExternalGeranCell  instance.<CR>At MO creation, it is mandatory to supply a valid reference to an ExternalGeranCell.<CR>isNillable: true<CR>References: Lrat.ExternalGeranCell[0-]
attr_description[Lrat.GeranCellRelation,geranCellRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.GeranCellRelation,hoSuccessRateLpFilt] = This parameter specifies the low-pass filtered handover success rate.<CR>Range: 0 to 10000<CR>Unit: 0.01 %
attr_description[Lrat.GeranCellRelation,isHoAllowed] = This attribute specifies if handover between the cells in this relation is allowed.<CR>Disturbances: Changing this attribute to false stops outgoing HO.<CR>Default=true
attr_description[Lrat.GeranCellRelation,isRemoveAllowed] = Indicates if the Automated Neighbor Relations (ANR) function is allowed to remove this object. It does not restrict operator removal of the object. Objects created by ANR have this parameter set to true initially.<CR>Default=false
attr_description[Lrat.GeranCellRelation,lastModification] = Indicates whether the MO has been last modified by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1,2,3,4
attr_description[Lrat.GeranCellRelation,removingMonitoringStart] = Indicates the time and date when the MO was started for monitoring for automatic removal by the (automatic neighbor relation) function.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.GeranCellRelation,timeOfCreation] = Indicates the date and time when the MO was created by the Automated Neighbor Relations (ANR) function or operator. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.GeranCellRelation,timeOfLastModification] = The date and time when the MO was last modified by the Automated Neighbor Relations (ANR) function or operator. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.GeranFreqGroup,frequencyGroupId] = This ID identifies the GeranFreqGroup in the network.<CR>Range: 0 to 1024
attr_description[Lrat.GeranFreqGroup,geranFreqGroupId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.GeranFreqGroup,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>Dependencies: The MO may not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.GeranFreqGroupRelation[0-],Lrat.GeranFrequency[0-]
attr_description[Lrat.GeranFreqGroup,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.GeranFreqGroupRelation,allowedPlmnList] = Lists all Public Land Mobile Network (PLMN) IDs allowed for this frequency relation.<CR>A UE that does not support one of the IDs included in allowedPlmnList does not measure on this frequency, according to the UE Handover Restriction List.<CR>No values in the list imply that the frequency has no restrictions for PLMN.<CR>The PLMN identity contains the following parts:<CR>1. MobileCountryCode, MCC, 3 digits<CR>2. MobileNetworkCode, MNC, 2 or 3 digits (the correct number of digits is set in the mncLength member of this Struct)<CR>For example, if MCC=125 and MNC=46, then plmnId=12546.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=15
attr_description[Lrat.GeranFreqGroupRelation,altCsfbTargetPrioEc] = Prioritizes the GERAN frequency group  for emergency calls among all frequencies related to the cell for UEs in connected mode.<CR>Sets the priority to the alternative target frequency/frequency group to which to make release with redirect to, when measurement or handover to selected target fails for emergency calls.<CR>Value -1 means the frequency is excluded.<CR>Value 0 means the lowest priority.<CR>Value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.GeranFreqGroupRelation,altCsfbTargetPrio] = Prioritizes the GERAN frequency group among all frequencies related to the cell for UEs in connected mode.<CR>Sets the priority to the alternative target frequency/frequency group to which to make release with redirect, when measurement or handover to selected target fails.<CR>Value -1 means the frequency is excluded.<CR>Value 0 means the lowest priority.<CR>Value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.GeranFreqGroupRelation,anrMeasOn] = ANR performs measurement on the referenced frequency if this parameter is set to true. Otherwise, ANR does not perform any measurements on this frequency.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.GeranFreqGroupRelation,b2Thr1RsrpGeranFreqOffset] = The frequency group relation specific offset for the absolute threshold b2Threshold1Rsrp, RSRP threshold1 value for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.GeranFreqGroupRelation,b2Thr1RsrqGeranFreqOffset] = The frequency group relation specific offset for the absolute threshold b2Threshold1Rsrq, RSRQ threshold1 value for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -240 to 240<CR>Unit: 0.1 dB
attr_description[Lrat.GeranFreqGroupRelation,b2Thr2GeranFreqOffset] = The frequency group relation specific offset for the absolute threshold b2Threshold2Geran, Signal quality in the ThresholdGERAN for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -24 to 24<CR>Unit: dB
attr_description[Lrat.GeranFreqGroupRelation,cellReselectionPriority] = Absolute priority of the radio access technology. 0 means lowest priority. Corresponds to parameter priority in 3GPP TS 36.304.<CR>Dependencies: The value must be unique and not already used by other RAT, i.e. equal priorities between RATs are not supported.<CR>Default=5<CR>Range: 0 to 7
attr_description[Lrat.GeranFreqGroupRelation,connectedModeMobilityPrio] = Prioritizes GERAN frequencies among all frequencies related to the cell for UEs in connected mode.<CR>(0 means the lowest priority. -1 means the frequency is excluded.)<CR>Change takes effect: New connection<CR>Default=5<CR>Range: -1 to 7
attr_description[Lrat.GeranFreqGroupRelation,csFallbackPrioEC] = Prioritizes GERAN Frequency group among all frequencies/frequency groups for emergency calls related to the cell for UEs in connected mode.<CR>Sets the priority to which frequency group to make emergency call CS Fallback to.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.GeranFreqGroupRelation,csFallbackPrio] = Prioritizes GERAN Frequency group among all frequencies related to the cell for UEs in connected mode.<CR>Sets the priority to which frequency/frequency group to make CS Fallback to.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.GeranFreqGroupRelation,geranFreqGroupRef] = Reference to the GERAN frequency group MO, GeranFreqGroup.<CR>References: Lrat.GeranFreqGroup[0-]
attr_description[Lrat.GeranFreqGroupRelation,geranFreqGroupRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.GeranFreqGroupRelation,mobilityActionCsfb] = The preferred way to transfer a UE in connected mode to a GERAN frequency group in case of CS Fallback.<CR>Change takes effect: New connection<CR>Default=RELEASE_WITH_REDIRECT<CR>Range: 0,1
attr_description[Lrat.GeranFreqGroupRelation,mobilityAction] = The preferred way to transfer a UE in connected mode to a GERAN frequency group in case of coverage triggered mobility.<CR>Change takes effect: New connection<CR>Default=RELEASE_WITH_REDIRECT<CR>Range: 0,1
attr_description[Lrat.GeranFreqGroupRelation,nccPermitted] = Field encoded as a bit map.<CR>Bit N is set to 0 if a BCCH carrier with NCC = N-1 is not permitted for monitoring.<CR>Bit N is set to 1 if the BCCH carrier with NCC = N-1 is permitted for monitoring.<CR>Bit N = 1 to 8; bit 1 of the bitmap is the leading bit of the bit string.<CR>Default=11111111<CR>Range: 8
attr_description[Lrat.GeranFreqGroupRelation,pMaxGeran] = Calculates the parameter Pcompensation (defined in 3GPP TS 36.304) at cell reselection to a GERAN cell.<CR>Value 1000 means the parameter is not included in system information.<CR>Default=1000<CR>Range: 0 to 39,1000
attr_description[Lrat.GeranFreqGroupRelation,qOffsetFreq] = Indicates a frequency-specific offset to apply when evaluating triggering conditions for measurement reporting.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -15 to 15<CR>Unit: dB
attr_description[Lrat.GeranFreqGroupRelation,qRxLevMin] = The required minimum received Rx level in the GERAN frequency used in cell reselection. Corresponds to parameter Qrxlevmin in 3GPP TS 36.304.<CR>Default=-115<CR>Range: -115 to -25<CR>Unit: dBm
attr_description[Lrat.GeranFreqGroupRelation,qciB2ThrOffsets] = Parameters for adding QCI profile and frequency relation specific offsets to B2 threshold values used for mobility decisions. Applicable if Multi-Layer Service-Triggered Mobility (MLSTM) is active.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=19
attr_description[Lrat.GeranFreqGroupRelation,threshXHigh] = The threshold used by the UE when reselecting towards a higher priority frequency from the current serving frequency. Each frequency of GERAN may have a specific threshold. Corresponds to parameter Thresx,high in 3GPP TS 36.304.<CR>Default=4<CR>Range: 0 to 62
attr_description[Lrat.GeranFreqGroupRelation,threshXLow] = The threshold used by UE when reselecting towards a lower priority frequency from the current serving frequency. Corresponds to parameter Thresx,low in 3GPP TS 36.304.<CR>Default=0<CR>Range: 0 to 62
attr_description[Lrat.GeranFreqGroupRelation,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.GeranFreqGroupRelation,voicePrio] = This attribute prioritizes GERAN frequencies among all frequencies related to the cell for User Equipments (UEs) in connected mode. It sets the priority for which frequency to perform mobility to for a voice session.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.GeranFrequency,arfcnValueGeranDl] = The GERAN BCCH carrier frequency.<CR>Applicable ARFCN for DL GERAN carrier frequency, as defined in 3GPP TS 45.005.<CR>Range: 0 to 1023
attr_description[Lrat.GeranFrequency,bandIndicator] = Indicates how to interpret an associated GERAN carrier ARFCN.<CR>The parameter indicates the GERAN frequency band when the ARFCN value is either a DCS 1800 or a PCS 1900 carrier frequency. For ARFCN values not associated with one of these bands, the indicator has no meaning.<CR>Default=DCS_1800<CR>Range: 0,1
attr_description[Lrat.GeranFrequency,geranFreqGroupRef] = A list of references to instances of GeranFreqGroup.<CR>MinLength=0 MaxLength=192<CR>References: Lrat.GeranFreqGroup[0-]
attr_description[Lrat.GeranFrequency,geranFrequencyId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.GeranFrequency,reservedBy] = A list of references to instances of ExternalGeranCell.<CR>MinLength=0 MaxLength=16<CR>References: Lrat.ExternalGeranCell[0-]
attr_description[Lrat.GeranFrequency,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.GtpPath,echoPeerStatus] = Peer reachability status for path.<CR>Range: 0,1,2
attr_description[Lrat.GtpPath,gtpPathId] = The value component of the RDN.
attr_description[Lrat.GtpPath,localIpAddress] = Local address used for path termination point. Can be IPv4 or IPv6 address.<CR>Range: 2 to 39
attr_description[Lrat.GtpPath,operationalState] = The operational state. This attribute is set by the application in the RBS.<CR>Range: 0,1
attr_description[Lrat.GtpPath,remoteIpAddress] = Remote address used for path termination point. Can be IPv4 or IPv6 address.<CR>Range: 2 to 39
attr_description[Lrat.GtpPath,samplingInterval] = Sampling interval used for path. No delay measurements are performed and a 60-second interval is used when sampling interval is set to 0.<CR>Unit: ms
attr_description[Lrat.GtpuApplicationTunnel,applicationType] = Designates the purpose of the GTP-U tunnel.<CR>Range: 0,1,2,3,4
attr_description[Lrat.GtpuApplicationTunnel,gtpuApplicationTunnelId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.GtpuApplicationTunnel,teIdLocal] = Tunnel ID at the local end.<CR>Range: 0 to 4294967295
attr_description[Lrat.GtpuApplicationTunnel,teIdRemote] = Tunnel ID at the remote end.<CR>Range: 0 to 4294967295
attr_description[Lrat.HoWhiteList,hoWhiteListId] = The value component of the RDN
attr_description[Lrat.HoWhiteList,spidList] = A list of UEs, that are allowed to perform incoming handover to a cell that is in mode "reserved for operator use".<CR>Note: When value is configured to -1000, the parameter is ignored.<CR>Change takes effect: Ongoing connection<CR>Default=-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000 MinLength=0 MaxLength=20 Default=-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000<CR>Range: -1000,1 to 256
attr_description[Lrat.HoWhiteList,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.IdleModePrioAtRelease,highLoadDistributionInfo] = Contains the distribution models used at high load level in a cell.
attr_description[Lrat.IdleModePrioAtRelease,highLoadThreshold] = Threshold value for when the distribution model at high load is used.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=800<CR>Range: 0 to 16000<CR>Unit: 0.001
attr_description[Lrat.IdleModePrioAtRelease,idleModePrioAtReleaseId] = The value component of the RDN.
attr_description[Lrat.IdleModePrioAtRelease,lowLoadDistributionInfo] = Contains the distribution models used at low load level in a cell.
attr_description[Lrat.IdleModePrioAtRelease,lowLoadThreshold] = Threshold value for when the distribution model at low load is used.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=0<CR>Range: 0 to 16000<CR>Unit: 0.001
attr_description[Lrat.IdleModePrioAtRelease,lowMediumLoadDistributionInfo] = Contains the distribution models used at low-medium load level in a cell.
attr_description[Lrat.IdleModePrioAtRelease,lowMediumLoadThreshold] = Threshold value for when the distribution model at low-medium load is used.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=200<CR>Range: 0 to 16000<CR>Unit: 0.001
attr_description[Lrat.IdleModePrioAtRelease,mediumHighLoadDistributionInfo] = Contains the distribution models used at medium-high load level in a cell.
attr_description[Lrat.IdleModePrioAtRelease,mediumHighLoadThreshold] = Threshold value for when the distribution model at medium-high load is used.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=600<CR>Range: 0 to 16000<CR>Unit: 0.001
attr_description[Lrat.IdleModePrioAtRelease,mediumLoadDistributionInfo] = Contains the distribution models used at medium load level in a cell.
attr_description[Lrat.IdleModePrioAtRelease,mediumLoadThreshold] = Threshold value for when the distribution model at medium load is used.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=400<CR>Range: 0 to 16000<CR>Unit: 0.001
attr_description[Lrat.IdleModePrioAtRelease,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-]
attr_description[Lrat.ImeisvProfile,elc320msDrxEnabled] = If set to true, 320ms long DRX cycle is configured to ELC UE.<CR>Dependencies: Only relevant if license Ericsson Lean Carrier is present and feature is active.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.ImeisvProfile,elcPostHeatingLength] = UE-dependent parameter. Defines necessary number of subframes with available CRS  after a DRX onDuration. Allows the operator to configure UE behavior for each IMEISV. Only applicable when the feature Ericsson Lean Carrier is enabled.<CR>Disturbances: Can affect traffic. If incorrectly set, RSRP measurement performed by the UE can become corrupt and cause degraded NW performance.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 8
attr_description[Lrat.ImeisvProfile,elcPreHeatingLength] = UE-dependent parameter. Defines necessary number of subframes with available CRS  before a DRX onDuration. Allows the operator to configure UE behavior for each IMEISV. Only applicable when the feature Ericsson Lean Carrier is enabled.<CR>Disturbances: Can affect traffic. If incorrectly set, RSRP measurement performed by the UE can become corrupt and cause degraded NW performance.<CR>Change takes effect: New connection<CR>Default=1<CR>Range: 1 to 7
attr_description[Lrat.ImeisvProfile,imeisvProfileId] = Value component of the RDN
attr_description[Lrat.ImeisvProfile,listOfFeaturesToTurnOff] = List of features to be turned off for the list of quintuples  {tac, minSv, maxSv, minSn, maxSn} specified in listOfTacSvSns<CR>Dependencies: listOfFeaturesToTurnOff and listOfFeaturesToTurnOn must be disjoint sets<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=10<CR>Range: 0,1,2,3,4,5,6,7,8,9
attr_description[Lrat.ImeisvProfile,listOfFeaturesToTurnOn] = List of features to be turned on for the list of quintuples  {tac, minSv, maxSv, minSn, maxSn} specified in listOfTacSvSns<CR>Dependencies: listOfFeaturesToTurnOff and listOfFeaturesToTurnOn must be disjoint sets<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=10<CR>Range: 0,1,2,3,4,5,6,7,8,9
attr_description[Lrat.ImeisvProfile,listOfTacSvSns] = List of quintuples {tac, minSv, maxSv, minSn, maxSn} that are configured with similar "special" handling needs.<CR>Specification: 3GPP TS 23.003<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=20
attr_description[Lrat.ImeisvProfile,nonVoiceDrxProfileRef] = Points out the DRX profile associated with this IMEISV profile, used for UEs without voice bearers.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>References: Lrat.DrxProfile[0-]
attr_description[Lrat.ImeisvProfile,prototypeBitField] = Bit field used to test new features. For internal development only.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 4294967295
attr_description[Lrat.ImeisvProfile,voiceDrxProfileRef] = Points out the DRX profile associated with this IMEISV profile, used for UEs with voice bearers.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>References: Lrat.DrxProfile[0-]
attr_description[Lrat.ImeisvTable,imeisvTableId] = Value component of the RDN
attr_description[Lrat.ImeisvTable,listOfFeaturesDefaultOff] = List of features that are considered as "Default OFF" in the eNB. Features in the list are possible to turn ON per IMEISV.<CR>A feature present in the list is ON for all UEs if the feature Differentiated UE Handling is INOPERABLE.<CR>If the feature Differentiated UE Handling is OPERABLE, a feature present in the list is ON for UEs for which:<CR>- the UE's IMEISV is present in some ImeisvProfile AND<CR>- the feature is explicitly configured for this ImeisvProfile in attribute listOfFeaturesToTurnOn<CR>For all other UEs the feature is OFF.<CR>Dependencies: listOfFeaturesDefaultOff and listOfFeaturesDefaultOn must be disjoint sets<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=10<CR>Range: 0,1,2,3,4,5,6,7,8,9
attr_description[Lrat.ImeisvTable,listOfFeaturesDefaultOn] = List of features that are considered as "Default ON" in the eNB. Features in the list are possible to turn OFF per IMEISV.<CR>If the feature Differentiated UE Handling is OPERABLE, a feature present in the list is OFF for UEs for which:<CR>- the UE's IMEISV is present in some ImeisvProfile AND<CR>- the feature is explicitly configured for this ImeisvProfile in attribute listOfFeaturesToTurnOff<CR>For all other UEs the feature is ON.<CR>Dependencies: listOfFeaturesDefaultOff and listOfFeaturesDefaultOn must be disjoint sets<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=10<CR>Range: 0,1,2,3,4,5,6,7,8,9
attr_description[Lrat.LoadBalancingFunction,isUlEvalAllowedAtCaTrHo] = Configures whether an uplink evaluation is allowed during a handover triggered by Carrier Aggregation-Aware IFLB. Used when Uplink-Triggered Inter-Frequency Mobility is enabled.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.LoadBalancingFunction,isUlEvalAllowedAtTpLbHo] = Configures whether an uplink evaluation is allowed during a handover triggered by Throughput-Aware IFLB. Used when Uplink-Triggered Inter-Frequency Mobility is enabled.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.LoadBalancingFunction,lbCaCapHysteresis] = Capacity related hysteresis value considered when checking the capacity criterion for both load balancing of CA capable UEs and CA triggered redirection.<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: New connection<CR>Default=20<CR>Range: 0 to 100<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,lbCaHysteresis] = Load related hysteresis value to be added to the lbCaThreshold or lbDiffCaOffset parameters at load balancing of CA capable UEs from the source cell.<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: New connection<CR>Default=50<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.LoadBalancingFunction,lbCaThreshold] = The maximum load in the target cell in order to redirect a CA capable UE to that target cell. The maximum load in the current cell in order to apply the capacity criterion when load balancing a CA capable UE.<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: New connection<CR>Default=800<CR>Range: 0 to 16000<CR>Unit: 0.001
attr_description[Lrat.LoadBalancingFunction,lbCauseCodeS1SourceTriggersOffload] = This attribute determines the cause code set by the eNodeB in outgoing S1AP HANDOVER REQUIRED when the handover is triggered by offload to Inter-Frequency EUTRAN neighbor or Inter-RAT UTRAN neighbour. See 3GPP 36.413.<CR>The cause code LOAD_BALANCING can not be used for S1 handovers according to 3GPP 36.413. In case LOAD_BALANCING is selected, then the default value is chosen and used by the eNB.<CR>Default=REDUCE_LOAD_IN_SERVING_CELL<CR>Range: 0,1,2,98,99
attr_description[Lrat.LoadBalancingFunction,lbCauseCodeS1TargetAcceptsOffload] = This attribute determines the cause code in an incoming S1AP HANDOVER REQUEST used by the eNodeB to determine whether or not the incoming handover is triggered by offload or not. See 3GPP 36.413.<CR>The cause code LOAD_BALANCING can not be used for S1 handovers according to 3GPP 36.413. In case LOAD_BALANCING is selected, then the default value is chosen and used by the eNB.<CR>Default=REDUCE_LOAD_IN_SERVING_CELL<CR>Range: 0,1,2,98,99
attr_description[Lrat.LoadBalancingFunction,lbCauseCodeX2SourceTriggersOffload] = This attribute determines the cause code set by the eNodeB in an outgoing X2AP HANDOVER REQUEST when the handover is triggered by offload to an Inter-Frequency EUTRAN neighbour. See 3GPP 36.423.<CR>Default=REDUCE_LOAD_IN_SERVING_CELL<CR>Range: 0,1,2,98,99
attr_description[Lrat.LoadBalancingFunction,lbCauseCodeX2TargetAcceptsOffload] = This attribute determines the cause code in an incoming X2AP HANDOVER REQUEST used by the eNodeB to determine whether or not the incoming handover is triggered by offload or not. See 3GPP 36.423.<CR>Default=REDUCE_LOAD_IN_SERVING_CELL<CR>Range: 0,1,2,98,99
attr_description[Lrat.LoadBalancingFunction,lbCeiling] = The maximum load (subscription ratio) difference taken into account in load balancing action.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=200<CR>Range: 10 to 2000<CR>Unit: 0.001
attr_description[Lrat.LoadBalancingFunction,lbDiffCaOffset] = The maximum load difference between the target cell and the source cell in order to redirect a CA capable UE to that target cell. The maximum load difference between the source cell and the target cell in order to apply the capacity criterion when load balancing a CA capable UE.<CR>Dependencies: lbDiffCaOffset>lbThreshold<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: New connection<CR>Default=100<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.LoadBalancingFunction,lbEUtranOffloadBackoffTime] = This attribute indicates a backoff time for eNodeB. The value applies to inhibit further offload to a EUTRAN target cell that rejects incoming offload.<CR>Default=60<CR>Range: 30 to 600<CR>Unit: s
attr_description[Lrat.LoadBalancingFunction,lbHitRateCellMin] = Minimum hitRate considered when ranking neighbor cells on the same frequency. The ranking is used for calculation  of the required number of UE candidates needed for load balancing/offload per target cells.<CR>Default=10<CR>Range: 1 to 100<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,lbHitRateEUtranAddThreshold] = EUtran cell relations with a lbHitRate value greater than this threshold are considered suitable for load management.<CR>Dependencies: lbHitRateEUtranAddThreshold > lbHitRateEUtranRemoveThreshold<CR>Default=15<CR>Range: 1 to 100<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,lbHitRateEUtranMeasUeIntensity] = Specifies the number of UE measurements for lbHitRate estimation (per cell and Load Balancing cycle) for each E-UTRAN frequency.<CR>Default=10<CR>Range: 1 to 100<CR>Unit: 0.1
attr_description[Lrat.LoadBalancingFunction,lbHitRateEUtranMeasUeThreshold] = Specifies the required minimum number of connected users in the (source) cell to allow initiation of UE measurements for lbHitRate estimation on E-UTRAN frequencies.<CR>Default=10<CR>Range: 1 to 1000
attr_description[Lrat.LoadBalancingFunction,lbHitRateEUtranRemoveThreshold] = EUtran cell relations with a lbHitRate value lower than this threshold are NOT considered suitable for load management.<CR>Dependencies: lbHitRateEUtranAddThreshold > lbHitRateEUtranRemoveThreshold<CR>Default=2<CR>Range: 0 to 99<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,lbHitRateFilterCoeffCalm] = Filter coefficient to be used for lbHitRate estimation when feature Coverage Adapted Load Management is activated.<CR>Default=200<CR>Range: 10 to 2400<CR>Unit: 0.0001
attr_description[Lrat.LoadBalancingFunction,lbHitRateFilterCoeff] = Filter coefficient to be used for lbHitRate estimation.<CR>Default=30<CR>Range: 10 to 2400<CR>Unit: 0.0001
attr_description[Lrat.LoadBalancingFunction,lbHitRateFreqMin] = Minimum total hitRate per frequency considered when ranking frequency relations for load balancing/offload.<CR>Default=40<CR>Range: 1 to 100<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,lbHitRateUtranAddThreshold] = Utran cell relations with a lbHitRate value greater than this threshold are considered  suitable for load management.<CR>Dependencies: lbHitRateUtranAddThreshold > lbHitRateUtranRemoveThreshold<CR>Default=15<CR>Range: 1 to 100<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,lbHitRateUtranMeasUeIntensity] = Specifies the number of UE measurements for lbHitRate estimation (per cell and Load Balancing cycle) for each UTRAN frequency.<CR>Default=10<CR>Range: 1 to 100<CR>Unit: 0.1
attr_description[Lrat.LoadBalancingFunction,lbHitRateUtranMeasUeThreshold] = Specifies the required minimum number of connected users in the (source) cell to allow initiation of UE measurements for lbHitRate estimation on UTRAN frequencies.<CR>Default=10<CR>Range: 1 to 1000
attr_description[Lrat.LoadBalancingFunction,lbHitRateUtranRemoveThreshold] = Utran cell relations with a lbHitRate value lower than this threshold are NOT considered suitable for load management.<CR>Dependencies: lbHitRateUtranAddThreshold > lbHitRateUtranRemoveThreshold<CR>Default=2<CR>Range: 0 to 99<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,lbMaxNoLoadRelation] = Defines the maximum number of cell relations which are allowed to be configured with loadBalancing = Allowed/Offload. This is valid per (source) cell and per frequency relation.<CR>Default=30<CR>Range: 0 to 50
attr_description[Lrat.LoadBalancingFunction,lbMeasScalingLimit] = Scaling factor for the required number of UE candidates needed for load balancing measurements to meet the load balancing target.<CR>Note: The minimum value of the attribute is internally limited to 10.<CR>Default=30<CR>Range: 1 to 100<CR>Unit: 0.1
attr_description[Lrat.LoadBalancingFunction,lbRateOffsetCoefficient] = Coefficient of rate-dependent load balancing offset. Moderates how much the load balancing must be offset towards a cell with higher capacity.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=320<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.LoadBalancingFunction,lbRateOffsetLoadThreshold] = Specifies the threshold for the source and target cell average load, above which the rate offset is set to zero.<CR>Disturbances: Changing this attribute can affect traffic<CR>Default=500<CR>Range: 0 to 16000<CR>Unit: 0.001
attr_description[Lrat.LoadBalancingFunction,lbThreshold] = The minimum load (subscription ratio) difference to trigger load balancing action.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=30<CR>Range: 0 to 1000<CR>Unit: 0.001
attr_description[Lrat.LoadBalancingFunction,lbTpCellLoadFactorProvision] = Controls if the Cell Load Factor is provided to support TPIFLB throughput assessment. To have effect, the attribute must be set to true in both eNodeB end-points of the load balancing relation.<CR>Default=true
attr_description[Lrat.LoadBalancingFunction,lbTpDlPeakVolPerPrb] = Scaling factor used for the calculation of achievable downlink cell peak throughput (CPT). Approximates the number of transferred data bits per scheduling entity (PRB pair).<CR>Default=800<CR>Range: 500 to 5000<CR>Unit: bit/scheduling entity
attr_description[Lrat.LoadBalancingFunction,lbTpEnableEMBMSAwareIFLB] = Controls if TPILFB is made aware of the capacity used by eMBMS. To have effect, the attribute must be set to true in both end-points of a load balancing relation.<CR>Default=true
attr_description[Lrat.LoadBalancingFunction,lbTpPFactorC0] = Attribute C0 for the RSRP-based UE throughput PFactor. Controls the slope of the throughput PFactor. The PFactor equals 1 at C0 dB above the RSRP zero level.<CR>Default=3000<CR>Range: 2500 to 10000<CR>Unit: 0.01 dB
attr_description[Lrat.LoadBalancingFunction,lbTpPFactorC1] = Attribute C1 for the RSRP-based UE throughput PFactor. Controls the curve of the throughput Pfactor. Value 0 means a linear PFactor. A value > 0 means the PFactor curves asymptotically towards a maximum at 1/C1.<CR>Default=60<CR>Range: 0 to 95<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,lbTpQFactorC2] = Attribute C2 for the RSRQ based UE throughput factor (Qfactor). This attribute controls the RSRQ level for the Qfactor half-value.<CR>Default=-140<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.LoadBalancingFunction,lbTpQFactorC3] = Attribute C3 for the RSRQ based UE throughput factor (Qfactor). This attribute controls the Qfactor roll-off rate. A higher value increases the roll-off rate.<CR>Default=300<CR>Range: 100 to 1000<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,lbTpRankBias] = Controls the throughput ranking bias added to the throughput value of the source cell. The bias is expressed as a percentage of the CPT, and it reduces the risk of performance loss at load balancing.<CR>Default=300<CR>Range: 0 to 1500<CR>Unit: 0.01 percent of CPT
attr_description[Lrat.LoadBalancingFunction,lbTpRankFilterConst] = Filter constant for the control of the threshold for the relative throughput gain ranking. A higher value reduces the tune-in time and increases the fluctuation of the threshold during operation.<CR>Default=50<CR>Range: 5 to 2000<CR>Unit: 0.0001
attr_description[Lrat.LoadBalancingFunction,lbTpRsrpZeroLevel] = Zero level for the RSRP based UE throughput factor. The measured RSRP margin relative the zero level is used as input for the UE throughput assessment.<CR>Special value 0 means the regular qRxLevMin value for the specific cell or frequency is applied.<CR>Default=0<CR>Range: -140 to -44,0<CR>Unit: dBm
attr_description[Lrat.LoadBalancingFunction,lbUeEvaluationTimer] = Timer to initiate evaluation of a UE for load balancing measurement. The timer is started at UE Context Setup.<CR>If value = 0 the timer is not started, and UEs will only be evaluated for load balancing measurement at UE Context Setup.<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: New connection<CR>Default=90<CR>Range: 0 to 360<CR>Unit: s
attr_description[Lrat.LoadBalancingFunction,lbUtranOffloadBackoffTime] = Backoff time for eNodeB<CR>The value applies to inhibit further offload to a UTRAN target cell that rejects incoming offload.<CR>Default=60<CR>Range: 30 to 600<CR>Unit: s
attr_description[Lrat.LoadBalancingFunction,loadBalancingFunctionId] = The value component of the RDN.
attr_description[Lrat.LoadBalancingFunction,ocdHighHitUpdateMinDiff] = Minimum margin by which the hit rate of a target cell  must exceed the minimum hit rate threshold to be selected as a cell with a high hit rate. Also, the minimum margin by which the hit rate of a target cell must exceed the hit rate of a competing target cell. If hit rate of target cell exceeds hit rate of competing cell, it replaces the competing cell.<CR>Default=50<CR>Range: 5 to 300<CR>Unit: 0.001
attr_description[Lrat.LoadBalancingFunction,ocdMaxNoHighHitRateCells] = Maximum number of cell relations for each frequency that can be identified as neighbors with a high hit rate by feature Overlaid Cell Detection.<CR>Default=3<CR>Range: 1 to 10
attr_description[Lrat.LoadBalancingFunction,ocdMinHighHitThresh] = Minimum required hit rate to qualify a cell relation as a neighbor with a high hit rate by feature Overlaid Cell Detection.<CR>Default=15<CR>Range: 1 to 100<CR>Unit: 0.01
attr_description[Lrat.LoadBalancingFunction,txPwrForOverlaidCellDetect] = Determines the maximum transmission power of the source cell on which feature Overlaid Cell Detection is allowed to be applied. For source cells with higher transmission power than specified in this attribute, overlaid neighbor cells are not identified.<CR>Default=370<CR>Range: 0 to 540<CR>Unit: 0.1 dBm
attr_description[Lrat.LogicalChannelGroup,logicalChannelGroupId] = The value component of the Relative Distinguished Name (RDN). Valid values for this MO type are: 0, 1, 2, or 3. The values correspond to logical channel group IDs in 3GPP TS 36.321.
attr_description[Lrat.LogicalChannelGroup,reservedBy] = Contains a list of QciProfile instances that reserve this MO instance.<CR>Change takes effect: New connection.<CR>MinLength=0<CR>References: Lrat.QciProfileOperatorDefined[0-],Lrat.QciProfilePredefined[0-],Lrat.SciProfile[0-]
attr_description[Lrat.LogicalChannelGroup,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.MACConfiguration,dlMaxHARQMsg4Tx] = Maximum number of HARQ transmissions for DL COM Msg4.  If set to 0, the value of the attribute dlMaxHARQTx will be used instead.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 4
attr_description[Lrat.MACConfiguration,dlMaxHARQTx] = Maximum number of transmissions for one HARQ process in DL. Values higher than 7 will be treated as 7.<CR>Change takes effect: New connection.<CR>Default=4<CR>Range: 1,2,3,4,5,6,7,8,10,12,16,20,24,28
attr_description[Lrat.MACConfiguration,dlPathlossChange] = DL Pathloss change threshold for triggering PHR.<CR>Special value: 0 means infinity.<CR>Change takes effect: New connection.<CR>Default=3<CR>Range: 0,1,3,6<CR>Unit: dB
attr_description[Lrat.MACConfiguration,mACConfigurationId] = The value component of the RDN.
attr_description[Lrat.MACConfiguration,tPeriodicBSRTimer] = Maximum time between Buffer Status Reports.<CR>Special values: 0 means infinity.<CR>Change takes effect: New connection.<CR>Default=5<CR>Range: 0,5,10,16,20,32,40,64,80,128,160,320,640,1280,2560<CR>Unit: ms
attr_description[Lrat.MACConfiguration,tPeriodicPHRTimer] = Periodicity of Periodic PHR.<CR>Special value: 0 means infinity.<CR>Change takes effect: New connection.<CR>Default=200<CR>Range: 0,10,20,50,100,200,500,1000<CR>Unit: ms
attr_description[Lrat.MACConfiguration,tProhibitPHRTimer] = Timer to prohibit excessive PHR.<CR>Change takes effect: New connection.<CR>Default=200<CR>Range: 0,10,20,50,100,200,500,1000<CR>Unit: ms
attr_description[Lrat.MACConfiguration,ulMaxHARQTx] = Maximum number of transmissions for one HARQ process in UL.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection.<CR>Default=4<CR>Range: 1,2,3,4,5,6,7
attr_description[Lrat.MACConfiguration,ulTtiBundlingMaxHARQTx] = Maximum number of transmissions for one HARQ process in UL when TTI Bundling is active.<CR>Specification: 3GPP 36.321<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1,2,3,4,5,6,7
attr_description[Lrat.Mbms,changeNotificationSIB13] = Indicates, when the SIB13 content is changed, if SI Change Notification shall be broadcasted prior to broadcast of updated SI.<CR>Status Information: Since L16B. Replaced by ChangeNotificationSIBs.changeNotificationSIB13 in EUtranCellFDD/EUtranCellTDD::changeNotification. Planned to be removed.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.Mbms,m1IpInterfaceRef] = Refers to the InterfaceIPv4 and InterfaceIPv6 MO instances used to configure the IP interface for M1 user plane connections.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: At node restart
attr_description[Lrat.Mbms,mappingInfoSIB13] = Defines to which SI message SIB13 is mapped.<CR>Status Information: Since L16B. Replaced by MappingInfoSIBs.mappingInfoSIB13 in EUtranCellFDD/EUtranCellTDD::mappingInfo. Planned to be removed.<CR>Dependencies: See siWindowLength for further information.<CR>Change takes effect: Cell lock/unlock<CR>Default=NOT_MAPPED<CR>Range: 0,1,2,3,4,5,6,7,8,9,10
attr_description[Lrat.Mbms,mbmsId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.Mbms,synchPeriodLength] = MBMS synchronization period length.<CR>Change takes effect: At node restart<CR>Default=593920<CR>Range: 0 to 593920<CR>Unit: ms
attr_description[Lrat.Mbms,tMbmsAuditTimer] = The time the eNB waits with the deletion of ongoing MBMS sessions that are not re-started by MBMS SESSION START after a successful M3 SETUP procedure.<CR>Change takes effect: New connection<CR>Default=180<CR>Range: 60 to 86400<CR>Unit: second
attr_description[Lrat.Mbms,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.MbmsService,availabilityStatus] = The availability status. It contains details about operationalState. This attribute is set by the application in the RBS.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.MbmsService,createdBy] = Whether MbmsService is created by operator or by system.<CR>Range: 0,1
attr_description[Lrat.MbmsService,logicalChannelIdentity] = The logical channel identity.<CR>Change takes effect: New connection<CR>Range: 1 to 28
attr_description[Lrat.MbmsService,mbmsServiceId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.MbmsService,operationalState] = The operational state.<CR>Range: 0,1
attr_description[Lrat.MbmsService,syncSequenceLength] = The synchronization sequence length used for MBMS data on the M1 interface.<CR>Status Information: Since L16B. Replaced by PmchMch::syncSequenceLength. Planned to be removed.<CR>Dependencies: The syncSequenceLength must be smaller than or equal to the<CR>mchSchedulingPeriod in the MO class PmchMch.<CR>Change takes effect: New connection<CR>Default=8<CR>Range: 8,16,32,64,128,256,512,1024<CR>Unit: 10 ms
attr_description[Lrat.MbmsService,tmgiList] = List of temporary mobile group identities. Set by system if Autoconfiguration of LTE Broadcast Subframes is used.<CR>Change takes effect: New connection<CR>MinLength=1 MaxLength=10
attr_description[Lrat.MbmsService,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.MbsfnArea,administrativeState] = The administrative state.<CR>Note: If this attribute is set to SHUTTING_DOWN, it will immediately go into the state LOCKED.<CR>Change takes effect: Object unlocked<CR>Default=LOCKED<CR>Range: 0,1,2
attr_description[Lrat.MbsfnArea,commonSFAllocList] = Subframes that are reserved for MBSFN in DL.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>MinLength=0 MaxLength=8
attr_description[Lrat.MbsfnArea,commonSFAllocPeriod] = Specifies the period during which resources corresponding with field commonSFAlloc are divided between the (P)MCH that are configured for this MBSFN area. The subframe allocation patterns, as defined by commonSFAlloc, repeat continuously during this period. Value 4 corresponds to 4 radio frames, 8 corresponds to 8 radio frames and so on.<CR>Dependencies: The mchSchedulingPeriod in the MO class PmchMch must be<CR>a multiple of commonSFAllocPeriod.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>Default=32<CR>Range: 4,8,16,32,64,128,256
attr_description[Lrat.MbsfnArea,commonSFAlloc] = Specifies the subframes that are reserved for MBSFN in downlink.<CR>Status Information: Since L16B. Replaced by attribute commonSFAllocList. Planned to be removed.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.
attr_description[Lrat.MbsfnArea,mbsfnAreaId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.MbsfnArea,mbsfnAreaIdentity] = Specifies the MBSFN area identity.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>Range: 0 to 255
attr_description[Lrat.MbsfnArea,mcchModificationPeriod] = Specifies periodically appearing boundaries, i.e. radio frames for which SFN mod mcch-ModificationPeriod = 0, The contents of different transmissions of MCCH information can only be different if there is at least one such boundary in-between them.<CR>Dependencies: The mchSchedulingPeriod in the MO class PmchMch must be<CR>smaller than or equal to mcchModificationPeriod.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>Default=512<CR>Range: 512,1024
attr_description[Lrat.MbsfnArea,mcchOffset] = Specifies, together with the mcchRepetitionPeriod, the radio frames in which MCCH is scheduled i.e. MCCH is scheduled in radio frames for which: SFN mod mcchRepetitionPeriod = mcch-Offset.<CR>Status Information: Since L16A. Planned to be removed.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>Default=0<CR>Range: 0 to 10
attr_description[Lrat.MbsfnArea,mcchRepetitionPeriod] = Specifies the interval between transmissions of MCCH information, in radio frames, Value 32 corresponds to 32 radio frames, 64 corresponds to 64 radio frames and so on.<CR>Dependencies: Attribute must be greater than mchSchedulingPeriod in MO class PmchMch.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>Default=32<CR>Range: 32,64,128,256
attr_description[Lrat.MbsfnArea,nonMbsfnRegionLength] = Specifies how many symbols from the beginning of the subframe constitute the non-MBSFN region. This value applies in all subframes of the MBSFN area used for PMCH transmission. The values 1 and 2 correspond to 1 and 2 symbols, respectively.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>Default=2<CR>Range: 1,2
attr_description[Lrat.MbsfnArea,notificationConfiguration] = Notification configuration<CR>Note: If several MbsfnArea are activated for a cell, the notificationConfiguration of highest notificationConfigurationPriority will be used.<CR>Status Information: Since L16B. Planned to be removed.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.
attr_description[Lrat.MbsfnArea,notificationIndicator] = Specifies which PDCCH bit is used to notify the UE about change of the MCCH applicable for this MBSFN area. Value 0 corresponds with the least significant bit as defined in TS 36.212 and so on.<CR>Status Information: Since L16B. Planned to be removed.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>Default=0<CR>Range: 0 to 7
attr_description[Lrat.MbsfnArea,serviceAreaId] = MBMS Service Area identities that are covered by the MBSFN area.<CR>Dependencies: One defined serviceAreaId must be configured in eNodeB to ENABLE TermPointToMmeM3.<CR>Must not be changed when MbsfnArea is unlocked.<CR>Must not be changed if system-created MO instance MbmsService exists under any PmchMch MO instance under the MbsfnArea.<CR>QCI and serviceAreaId combination can be set for at most two PmchMch under different MbsfnAreas.<CR>Specification: 3GPP TS 29.061<CR>Change takes effect: Next MO unlock<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 65535
attr_description[Lrat.MbsfnArea,sfAllocInfo] = Indicates the subframes of the radio frames indicated by the mcch-RepetitionPeriod and the mcch-Offset, that may carry MCCH. Value "1" indicates that the corresponding subframe is allocated. Value "0" indicates that the corresponding subframe is not allocated. The following mapping applies:<CR>FDD: The first/ leftmost bit defines the allocation for subframe #1 of the radio frame indicated by mcch-RepetitionPeriod and mcch-Offset, the second bit for #2, the third bit for #3 , the fourth bit for #6, the fifth bit for #7 and the sixth bit for #8.<CR>TDD: The first/leftmost bit defines the allocation for subframe #3 of the radio frame indicated by mcch-RepetitionPeriod and mcch-Offset, the second bit for #4, third bit for #7, fourth bit for #8, fifth bit for #9. Uplink subframes are not allocated. The last bit is not used.<CR>Status Information: Since L16A. Planned to be removed.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>Default=000000<CR>Range: 6
attr_description[Lrat.MbsfnArea,signallingMCS] = Indicates the Modulation and Coding Scheme (MCS) applicable for the subframes indicated by the field sf-AllocInfo and for the first subframe of each MCH scheduling period (which may contain the MCH scheduling information provided by MAC). Value 2 corresponds with the value 2 for parameter I-MCS in TS 36.213, Table 7.1.7.1-1], and so on.<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute administrativeState must be set to LOCKED before modifying this attribute.<CR>Range: 2,7,13,19
attr_description[Lrat.MbsfnArea,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.MbsfnAreaCellRelation,isReservedCell] = Defines if the related EUtranCell in MBSFN Area reserved cell or not. A Reserved Cell is a unicast cell. No data is sent in the MBSFN subframes. The Cell CSR (cell specific reference) will be sent as a normal unicast cell.<CR>Default=false
attr_description[Lrat.MbsfnAreaCellRelation,mbsfnAreaCellRef] = Reference to a related EUtranCell that supports the MBSFN Area.<CR>References: Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-]
attr_description[Lrat.MbsfnAreaCellRelation,mbsfnAreaCellRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.MbsfnAreaCellRelation,mbsfnAreaCellStatus] = The MBSFN area status of the related Cell.<CR>Range: 0,1,2,3,4
attr_description[Lrat.MbsfnAreaCellRelation,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.MdtConfiguration,a2ThresholdRsrpMdt] = RSRP threshold value for eventA2 that triggers the MDT UE measurement.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.MdtConfiguration,a2ThresholdRsrqMdt] = RSRQ threshold value for eventA2 that triggers the MDT UE measurement.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.MdtConfiguration,hysteresisA2Mdt] = The hysteresis value for the MDT eventA2 measurement.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.MdtConfiguration,maxReportCellsA2Mdt] = Maximum number of cells to include in the measurement report for the eventA2 measurement.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.MdtConfiguration,mdtConfigurationId] = The value component of the RDN.
attr_description[Lrat.MdtConfiguration,measGapAllowedMdt] = Whether or not measurement gap configuration is allowed for EUTRAN inter-frequency measurements.<CR>Specification: 3GPP 36.331<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.MdtConfiguration,positioningMethod] = Positioning method used to obtain UE location information.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=GNSS<CR>Range: 0,1
attr_description[Lrat.MdtConfiguration,reportAmountMdt] = Number of MDT measurements to be taken for periodical reporting.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=16<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.MdtConfiguration,reportIntervalMdt] = Report interval between the periodical measurements used for UE side MDT measurement.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=MS_10240<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.MdtConfiguration,reportQuantityA2Mdt] = The quantities to include in the measurement report for the MDT eventA2 measurement.<CR>The value 0 - SAME_AS_TRIGGER_QUANTITY means that the same quantity as triggerQuantityA2Mdt is included in the measurement report.<CR>The value 1 - BOTH means that both Reference Symbol Received Power (RSRP) and Reference Symbol Received Quality (RSRQ) quantities are included in the measurement report.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.MdtConfiguration,reportingTrigger] = Reporting trigger used for UE side MDT measurement.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=PERIODICAL<CR>Range: 0,1,2
attr_description[Lrat.MdtConfiguration,timeToTriggerA2Mdt] = The time-to-trigger value for the MDT eventA2 measurement.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.MdtConfiguration,triggerQuantityA2Mdt] = The Reference Signal Received Power (RSRP) or Reference Signal Received Quality (RSRQ) quantity that triggers the MDT eventA2.<CR>Specification: 3GPP TS 32.422<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.MimoSleepFunction,mimoSleepFunctionId] = The value component of the RDN.
attr_description[Lrat.MimoSleepFunction,sleepEndTime] = Local daily end time to stop antenna muting detection or switching.<CR>Format in ASCII-code: hh:mm hh = 00-23 mm = 00-59<CR>Default=05:00<CR>Range: 5
attr_description[Lrat.MimoSleepFunction,sleepMode] = MIMO sleep mode status for the cell.<CR>Value "OFF" disables both detection and switching support.<CR>Value "DETECTION" enables detection-only mode. No switching is triggered.<CR>Values "SOFT_SWITCH", "SWITCH", "ADVANCED_SWITCH" enable detection and automatic switching.<CR>Dependencies: ADVANCED_SWITCH cannot be set if sleepPowerControl is set to USE_MAX_POWER.<CR>Disturbances: Activating sleep mode can impact traffic depending on how associated thresholds are configured.<CR>Default=OFF<CR>Range: 0,1,2,3,4
attr_description[Lrat.MimoSleepFunction,sleepPowerControl] = Power allocation method on the transmit branches during MIMO sleep.<CR>Dependencies: USE_MAX_POWER cannot be set if sleepMode is set to ADVANCED_SWITCH.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=RETAIN_SAME_POWER<CR>Range: 0,1
attr_description[Lrat.MimoSleepFunction,sleepStartTime] = Local daily start time to perform antenna muting detection or switching.<CR>Format in ASCII-code: hh:mm hh = 00-23 mm = 00-59<CR>Default=02:00<CR>Range: 5
attr_description[Lrat.MimoSleepFunction,sleepState] = If MIMO sleep mode takes effect and is activated. Energy saving mode starts.<CR>Range: 1,0
attr_description[Lrat.MimoSleepFunction,switchDownAmount] = Number of antennas to deactivate or activate on each loop during gradual switch down or gradual switch up for MIMO sleep mode. On each loop, at least one antenna is deactivated or activated.<CR>Default=STEP_DOWN_ONE<CR>Range: 0,1,2
attr_description[Lrat.MimoSleepFunction,switchDownDelay] = Delay between each loop during gradual switch down or gradual switch up for MIMO sleep mode.<CR>Default=5<CR>Range: 0 to 60<CR>Unit: s
attr_description[Lrat.MimoSleepFunction,switchDownMonitorDurTimer] = MIMO sleep detection duration period to enter MIMO sleep state.<CR>Default=60<CR>Range: 5 to 120<CR>Unit: minutes
attr_description[Lrat.MimoSleepFunction,switchDownPrbThreshold] = Maximum percentage of DL PRB usage allowed during MIMO sleep detection period to enter MIMO sleep state.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=10<CR>Range: 0 to 90<CR>Unit: %
attr_description[Lrat.MimoSleepFunction,switchDownRrcConnThreshold] = Maximum number of user connections allowed during MIMO sleep detection period to enter MIMO sleep state.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=5<CR>Range: 0 to 500
attr_description[Lrat.MimoSleepFunction,switchUpMonitorDurTimer] = MIMO sleep detection duration period to exit MIMO sleep state.<CR>Default=10<CR>Range: 5 to 120<CR>Unit: minutes
attr_description[Lrat.MimoSleepFunction,switchUpPrbThreshold] = Minimum percentage of DL PRB usage required during MIMO sleep detection period to exit MIMO sleep state.<CR>Dependencies: switchUpPrbThreshold >= switchDownPrbThreshold<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=30<CR>Range: 1 to 90<CR>Unit: %
attr_description[Lrat.MimoSleepFunction,switchUpRrcConnThreshold] = Minimum number of user connections required during MIMO sleep detection period to exit MIMO sleep state.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=50<CR>Range: 0 to 500
attr_description[Lrat.NbIotCell,activePlmnList] = Lists the PLMN IDs served by at least one MME. PLMN IDs from plmnIdList also appear in this list. The list may include up to 6 PLMNs.<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=6
attr_description[Lrat.NbIotCell,administrativeState] = The administrative state.<CR>Note: Only LOCKED or UNLOCKED is permitted to this attribute since Soft Lock is not supported in NbIotCell.<CR>Disturbances: Changing this attribute to LOCKED causes loss of traffic.<CR>Default=LOCKED<CR>Range: 0,1,2
attr_description[Lrat.NbIotCell,allocatedPrbIndex] = Which downlink PRB index is allocated to NB-IOT cell.<CR>Dependencies: Only applicable for inband and guardband deployment.<CR>Range: -10 to 110,255
attr_description[Lrat.NbIotCell,allocatedUlPrb] = Which uplink PRB index is allocated to NB-IOT cell.<CR>Dependencies: Only applicable in inband and guardband deployment.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Range: -10 to 110,255
attr_description[Lrat.NbIotCell,attachWithoutPDNConnectivityList] = For the list of PLMN IDs in the cell, indicates that ATTACH without PDN connectivity is supported. Provided in NB-SIB1.<CR>Dependencies: The list must have the same number of entries as plmnIdList.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=6
attr_description[Lrat.NbIotCell,availabilityStatus] = The availability status. It contains details about operationalState.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.NbIotCell,ceLevelNumber] = CE level number used in one NB IoT cell.<CR>Default=1<CR>Range: 1 to 3
attr_description[Lrat.NbIotCell,cellBarred] = Indicates if the cell is barred and should not be accessible to random UEs.<CR>Disturbances: Changing this attribute to BARRED blocks all traffic in the cell.<CR>Change takes effect: Next cell unlock<CR>Default=NOT_BARRED<CR>Range: 0,1
attr_description[Lrat.NbIotCell,cellId] = RBS internal ID attribute for NB-IoT cell. Must be unique across all cell types in RBS. Together with Node ID and PLMN, this is a universally unique cell ID.<CR>Range: 0 to 255
attr_description[Lrat.NbIotCell,cellSimulated] = If cell is configured to be simulated in external test tool.<CR>Default=false
attr_description[Lrat.NbIotCell,cmcIndex] = Cell Maximum Coverage (CMC). Index 0 represents low coverage with few required repetitions to reach UEs on cell edge. Index 2 represents deep coverage.<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0 to 2
attr_description[Lrat.NbIotCell,coverageEnhancementLevel] = Nb-Iot Coverage Enhancement level.<CR>Status Information: Since 17.Q2. Has no functional behavior. Planned to be removed.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Change takes effect: Next cell unlock<CR>Default=CE_0<CR>Range: 0,1,2
attr_description[Lrat.NbIotCell,eDrxAllowed] = Set to true when idle mode eDRX shall be allowed in the cell.<CR>Status Information: Since 17.Q2. Planned to be removed.<CR>Default=true
attr_description[Lrat.NbIotCell,earfcndl] = The channel number for central DL frequency. Mapping from channel number to physical frequency for specified EUTRA bands is described in 3GPP TS 36.104. The values that can be used depend on national, operator-specific frequency allocation as well as on the supported frequency bands in the RBS.<CR>Specification: 3GPP Rel-13 36.104<CR>Disturbances: Changing this attribute may affect traffic.<CR>Change takes effect: Next cell unlock<CR>Precondition: Only applicable for standalone deployment.<CR>Range: 0 to 17999,46590 to 262143
attr_description[Lrat.NbIotCell,earfcnul] = Channel number for the central UL frequency. The mapping from channel number to physical frequency for specified EUTRA bands is described in 3GPP TS 36.104. Values that can be used depend on national, operator-specific frequency allocation, as well as on the supported frequency bands of the RBS. Value 0 means that the UL channel number is N/A for the DL-only bands.<CR>Dependencies: earfcnul is calculated as an offset of earfcndl, as described in 3GPP TS36.104. If the calculated offset shall be used, this parameter shall be undefined. If the calculated offset value shall be overridden, this parameter shall be set.<CR>Specification: 3GPP Rel-13 TS 36.301<CR>Disturbances: Changing this attribute will affect the cell frequency handling.<CR>Change takes effect: Next cell unlock<CR>Precondition: Only applicable for standalone deployment.<CR>Default=-1<CR>Range: -1,0,18000 to 35999,46590 to 262143
attr_description[Lrat.NbIotCell,eutranCellRef] = Reference to an EUtranCellFDD MO.<CR>isNillable: true<CR>Disturbances: Changing this attribute will affect the resource allocation of the cell.<CR>Change takes effect: Cell lock/unlock<CR>Precondition: Only applicable for inband or guardband deployment. The NbIotCell Mo must be locked.<CR>References: Lrat.EUtranCellFDD[0-1],Lrat.EUtranCellTDD[0-1]
attr_description[Lrat.NbIotCell,freqBand] = The primary frequency band the cell belongs to. Only applicable for standalone deployment.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Range: 1 to 256
attr_description[Lrat.NbIotCell,frequencyInfo] = Array of inter frequency related information.<CR>Specification: 3GPP Rel-13 TS36.304<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=8
attr_description[Lrat.NbIotCell,hostingDigitalUnitRef] = Shows which DU or Baseband that has baseband processing for cell.<CR>isNillable: true
attr_description[Lrat.NbIotCell,intraFrequencyInfo] = Intra-frequency related information.<CR>Change takes effect: Next cell unlock
attr_description[Lrat.NbIotCell,mappingInfo] = SI message to which each NB-SIB is mapped.<CR>Specification: 3GPP Rel-13 TS36.331<CR>Change takes effect: Next cell unlock
attr_description[Lrat.NbIotCell,modificationPeriodCoeff] = Actual modification period, expressed in number of radio frames= modificationPeriodCoeff * defaultPagingCycleNbIot. See MO Paging for more info on defaultPagingCycleNbIot. Provided in NB-SIB2.<CR>Status Information: Since 17.Q2. Planned to be removed.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Change takes effect: Next cell unlock<CR>Default=16<CR>Range: 16,32,64,128
attr_description[Lrat.NbIotCell,nbIotCellId] = The value component of the RDN.
attr_description[Lrat.NbIotCell,nbIotCellType] = The Nb-Iot cell type determines the cell deployment, i.e. the allocation of PRBs. A Nb-Iot Cell with inband deployment allocated its PRBs from an EUtranCellFDD. A guard band cell gets its PRBs from the guard bands of an EUtranCellFDD. The standalone Nb-Iot cell is deployed independently of EUtranCellFDD:s.<CR>Range: 1,2,3,4
attr_description[Lrat.NbIotCell,operationalState] = The operational state. This attribute is set by the application in the RBS.<CR>Range: 0,1
attr_description[Lrat.NbIotCell,pMax] = Limits UE uplink transmission power in the serving cell and calculates the parameter Pcompensation (defined in 3GPP TS 36.304) for cell selection. Included in NB-SIB1. Value 1000 means the parameter is not included in system information.<CR>Specification: 3GPP Rel-13 TS36.304<CR>Change takes effect: Next cell unlock<CR>Default=1000<CR>Range: -30 to 33,1000<CR>Unit: dBm
attr_description[Lrat.NbIotCell,pZeroNominalNPusch] = The nominal component of the UE transmit power for Physical Uplink Shared Channel (N-PUSCH).<CR>Specification: 3GPP Rel-13 36.331<CR>Change takes effect: Next cell unlock<CR>Default=-103<CR>Range: -126 to 24<CR>Unit: dBm
attr_description[Lrat.NbIotCell,pciConflictCell] = Indicates the CGI of the other cell that is involved in the PCI collision/confusion. This value is only valid if the attribute pciConflict is "YES" or "YES_CONFLICTING_CELL".<CR>Status Information: Since L17A. Planned to be removed.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.NbIotCell,pciConflict] = A PCI confusion exists if a source cell has relations to two neighbor cells where both neighbor cells have the same PCI and frequency. A PCI collision exists if a source cell has a relation to a neighbor cell where both the source cell and neighbor cell have the same PCI and frequency.<CR>Status Information: Since L17A. Planned to be removed.<CR>MinLength=0 MaxLength=5<CR>Range: 0,1,2,3
attr_description[Lrat.NbIotCell,periodicityDeltaIndexCe0] = Difference of periodicity index for Ce0 compared to calculated criteria.<CR>Default=0<CR>Range: 0 to 7
attr_description[Lrat.NbIotCell,periodicityDeltaIndexCe1] = Difference of periodicity index for Ce1 compared to calculated criteria.<CR>Default=0<CR>Range: 0 to 7
attr_description[Lrat.NbIotCell,physicalLayerCellIdGroup] = The physical layer cell ID group. Physical-layer cell IDs are grouped into 168 unique physical-layer cell-identity groups, each group containing 3 unique subidentities.<CR>This attribute together with physicalLayerSubCellId is used to calculate physical layer cell ID (see 3GPP TS 36.211) that is sent as part of the system information (see 3GPP TS 36.331).<CR>Status Information: Since L17A. Planned to be removed.<CR>Disturbances: Changes may affect traffic.<CR>Default=0<CR>Range: 0 to 167
attr_description[Lrat.NbIotCell,physicalLayerCellId] = The physical layer cell ID (see 3GPP TS 36.211). Provided as part of the system information (see 3GPP TS 36.331).<CR>If the NbIot PCI is different from the host cell PCI, the NbIot PCI shall follow NBPCI mod 6 = WBPCI mod 6, or the position of the CRS of the host cell will not be known to the UEs.<CR>Specification: 3GPP Rel-13 36.331<CR>Disturbances: Changing this attribute may affect traffic.<CR>Change takes effect: Next cell unlock<CR>Range: 0 to 503
attr_description[Lrat.NbIotCell,plmnAlarmSupprList] = The list of PLMN IDs in the cell indicates if they are suppressed alarms<CR>- PLMN Service Degraded or<CR>- PLMN Service Unavailable<CR>when PLMN is not available in the cell.<CR>The PLMN ID appearing in plmnIdList[x] is suppressed when plmnAlarmSupprList[x] is true.<CR>If the configured PLMN ID is not a served PLMN ID, then the alarm is suppressed independent of the configured settings.<CR>Dependencies: The length of this list must be the same as the list in plmnIdList.<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=6
attr_description[Lrat.NbIotCell,plmnIdList] = PLMN IDs served by at least one MME. First PLMN in list is primary PLMN ID. List can include up to 6 PLMNs. Provided in NB-SIB1.<CR>MinLength=0 MaxLength=6
attr_description[Lrat.NbIotCell,plmnIdentityList] = Lists the PLMN IDs served by at least one MME. The PLMN ID is defined in the attribute eNodeBPlmnId in the parent ENodeBFunction. Information item included in SIB1.<CR>Status Information: Since L17A. Replaced by plmnIdList. Planned to be removed.<CR>Specification: 3GPP Rel-13 36.331<CR>Disturbances: Changing this attribute will impact the PLMN configuration for NB-IOT.<CR>Change takes effect: Cell lock/unlock<CR>Precondition: Only applicable for standalone deployment.<CR>MinLength=0 MaxLength=6
attr_description[Lrat.NbIotCell,plmnList] = Lists the PLMN IDs configured for the cell. If shared NW is disabled only the first PLMN in the list is considered.<CR>Status Information: Since 17.Q2. Replaced by plmnIdList. Planned to be removed.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=6
attr_description[Lrat.NbIotCell,plmnReservedList] = For the list of PLMN IDs in the cell, indicates if they are reserved for operator use. The list must have the same number of entries as plmnIdList. The PLMN ID appearing in plmnIdList[x] is reserved when plmnReservedList[x] is set to true. Provided in NB-SIB1.<CR>Dependencies: The list must have the same number of entries as plmnIdList.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=6
attr_description[Lrat.NbIotCell,prbIndexUl] = Uplink PRB index used by the Nb-Iot Cell (inband or guardband deployment).<CR>For guardband deployment, the PRB index is outside of the PRB value range of the EUtranCellFDD (below 0 or above the cell's highest PRB index).<CR>Dependencies: Only applicable in inband and guardband deployment.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Default=255<CR>Range: -10 to 110,255
attr_description[Lrat.NbIotCell,prbIndex] = Downlink PRB index used by the Nb-Iot Cell (inband or guardband deployment).<CR>For guardband deployment, the PRB index is outside of the PRB value range of the EUtranCellFDD (below 0 or above the cell's highest PRB index).<CR>Change takes effect: Next cell unlock<CR>Precondition: Only applicable for inband or guardband deployment. The NbIotCell MO must be locked.<CR>Default=255<CR>Range: -10 to 110,255
attr_description[Lrat.NbIotCell,prbNumber] = PRB numbers used by the Nb-Iot Cell (inband or guardband deployment)<CR>The six PRBs in the middle of the EUtranCellFDD may not be reserved.<CR>Negative numbers may be used for guardband PRBs in the lower frequency range.<CR>Status Information: Since L17A. Planned to be removed.<CR>Disturbances: Changing this attribute will affect the resource allocation of the cell.<CR>Change takes effect: Cell lock/unlock<CR>Precondition: Only applicable for inband or guardband deployment. The NbIotCell Mo must be locked.<CR>MinLength=0 MaxLength=76<CR>Range: -10 to 110
attr_description[Lrat.NbIotCell,qHyst] = Hysteresis value for ranking criteria. Included in NB-SIB3.<CR>Specification: 3GPP Rel-13 TS36.304<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0 to 24<CR>Unit: dB
attr_description[Lrat.NbIotCell,qQualMin] = The minimum required quality level (RSRQ) in the cell in dB.<CR>Value 0 means that it is not sent and UE applies in such case the (default) value of negative infinity for Qqualmin. Included in NB-SIB1.<CR>Specification: 3GPP Rel-13 TS36.304<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: -34 to -3,0<CR>Unit: dB
attr_description[Lrat.NbIotCell,qRxLevMin] = The required minimum received Reference Symbol Received Power (RSRP) level in the E-UTRA frequency for cell reselection. Included in NB-SIB1.<CR>Specification: 3GPP Rel-13 TS36.304<CR>Change takes effect: Next cell unlock<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.NbIotCell,sInterSearchThreshold] = Cell Reselection Threshold (inter-frequency measurements). Provided in NB-SIB3.<CR>Specification: 3GPP TS 36.304 Rel-13<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0 to 62<CR>Unit: dB
attr_description[Lrat.NbIotCell,sIntraSearchThreshold] = Cell Reselection Threshold (intra-frequency measurements). Provided in NB-SIB3.<CR>Specification: 3GPP TS 36.304 Rel-13<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0 to 62<CR>Unit: dB
attr_description[Lrat.NbIotCell,sectorCarrierRef] = A list of references to instances of SectorCarrier MOs.<CR>Disturbances: Changing this attribute will affect the resource allocation of the cell.<CR>Change takes effect: Cell lock/unlock<CR>MinLength=0 MaxLength=12<CR>References: Lrat.SectorCarrier[0-1]
attr_description[Lrat.NbIotCell,siPeriodicity] = SI message periodicity. SI message is not transmitted unless SIB is mapped to it.<CR>Status Information: Since 17.Q2. Planned to be removed.<CR>Specification: 3GPP Rel-13 TS36.331<CR>Change takes effect: Next cell unlock
attr_description[Lrat.NbIotCell,siRepetition] = Radio frames in SI window used for SI message transmission. Values range from every second radio frame up to every 16th radio frame. They start from first radio frame of SI window used for SI transmission. Applicable to all SI messages.<CR>Status Information: Since 17.Q2. Planned to be removed.<CR>Specification: 3GPP Rel-13 TS36.331<CR>Change takes effect: Next cell unlock
attr_description[Lrat.NbIotCell,siWindowLength] = Length of SI window during which each SI message is transmitted. Applies to all SI messages.<CR>Specification: 3GPP Rel-13 TS36.331<CR>Change takes effect: Next cell unlock<CR>Default=160<CR>Range: 160,320,480,640,960,1280,1600<CR>Unit: ms
attr_description[Lrat.NbIotCell,tac] = Tracking Area Code for the Nb-Iot cell. Information item included in SIB1.<CR>Specification: 3GPP Rel-13 36.331<CR>Disturbances: Changing this attribute may affect traffic.<CR>Change takes effect: Next cell unlock<CR>Range: 0 to 65535
attr_description[Lrat.NbIotCell,zzzTemporary10] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary11] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary12] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary13] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary14] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary15] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary16] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary17] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.
attr_description[Lrat.NbIotCell,zzzTemporary18] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.
attr_description[Lrat.NbIotCell,zzzTemporary19] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary1] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary20] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary2] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary3] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary4] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary5] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary6] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary7] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary8] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NbIotCell,zzzTemporary9] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.NonPlannedPciDrxProfile,nonPlannedPciDrxInactivityTimer] = The number of consecutive PDCCH subframes after successfully decoding a PDCCH that indicates an initial UL or DL user data transmission for this UE. Attribute is only used to read CGI for Non-planned PCI, CSG cell or Hybrid CSG cell. TS36.331 ch. 6.3.2, RRC parameter drx-InactivityTimer.<CR>Change takes effect: Object unlocked<CR>Default=PSF2<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22
attr_description[Lrat.NonPlannedPciDrxProfile,nonPlannedPciDrxProfileId] = The value component of the RDN.
attr_description[Lrat.NonPlannedPciDrxProfile,nonPlannedPciLongDrxCycle] = Value longDrxCycle indicates the number of subframes. Attribute is only used to read CGI for Non-planned PCI, CSG cell or Hybrid CSG cell.<CR>Change takes effect: Object unlocked<CR>Default=SF320<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15
attr_description[Lrat.NonPlannedPciDrxProfile,nonPlannedPciOnDurationTimer] = The number of consecutive PDCCH subframes at DRX Cycle initialization. Attribute is only used to read CGI for Non-planned PCI, CSG cell or Hybrid CSG cell. TS36.331 ch. 6.3.2, RRC parameter onDurationTimer.<CR>Change takes effect: Object unlocked<CR>Default=PSF1<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15
attr_description[Lrat.Paging,defaultPagingCycleNbIot] = NB IoT paging cycle (also called T) used by RBS and broadcast in NB-SIB2. For defaultPagingCycle 128, numRepetitionsPaging must not exceed 512. For defaultPagingCycle 256, numRepetitionsPaging must not exceed 1024.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Change takes effect: After all the cells in the RBS have been locked, and subsequently been unlocked<CR>Default=256<CR>Range: 128,256,512,1024
attr_description[Lrat.Paging,defaultPagingCycle] = Paging cycle (T). Used by RBS and broadcast in system information type 2. UE-specific DRX cycle overrides defaultPagingCycle if UE-specific DRX cycle is provided in S1AP paging. If extended Idle Mode DRX feature is active, paging cycle can be extended up to 262144 radio frames.<CR>Dependencies: Parameter modificationPeriodCoeff * defaultPagingCycle must be equal or less than 1024 radio frames.<CR>Specification: 3GPP Rel-13 TS 36.331<CR>Change takes effect: After all the cells in the RBS have been locked, and subsequently been unlocked.<CR>Default=128<CR>Range: 32,64,128,256
attr_description[Lrat.Paging,maxNoOfPagingRecordsNb] = The maximum allowed number of NB-IoT paging records included in one Radio Resource Control (RRC) paging message. It is the allowed maximum number of UE that can be paged per paging occasion.<CR>Change takes effect: After all the cells in the RBS have been locked, and subsequently been unlocked.<CR>Default=3<CR>Range: 1 to 16
attr_description[Lrat.Paging,maxNoOfPagingRecords] = The maximum allowed number of paging records included in one Radio Resource Control (RRC) paging message. It is the allowed maximum number of UE that can be paged per paging occasion.<CR>Change takes effect: After all the cells in the RBS have been locked, and subsequently been unlocked.<CR>Default=3<CR>Range: 1 to 16
attr_description[Lrat.Paging,nBBr] = Used to calculate the number and position of Paging Occasions (PO) and Paging Frames (PF) for Bandwith reduced (Br) UEs.<CR>The numerical value of nBBr depends on the value of the defaultPagingCycle (T) and can be set to one of the following values:<CR>1/64T, 1/128T, 1/256T and NOT_PRESENT<CR>The value of nBBr affects the System Frame Number of the PF, the position of PO in the PF, and also distribution of UE into groups with the same PF.<CR>When nBBr is set to a smaller value, the groups are fewer but larger, or more but smaller.<CR>When nBBr is set to NOT_PRESENT the attribute is not used.<CR>Change takes effect: Cell lock/unlock<CR>Default=NOT_PRESENT<CR>Range: 0,1,2,3
attr_description[Lrat.Paging,nBNbIot] = Used to calculate number and position of NB IoT PO and NB IoT PF.<CR>When nBNbIot is set to T, it determines PO number for each PF, and PO position in PF. When nBNbIot is smaller than T, it affects System Frame Number of PF, PO position in PF, and UE distribution into groups with same PF.<CR>nBNbIot values of T2 and T4 are not allowed, as they result in grouping issues for paging occasions. T2 and T4 are converted to T.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Change takes effect: Next cell unlock<CR>Default=T<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.Paging,nB] = Used to calculate the number and position of Paging Occasions (PO) and Paging Frames (PF).<CR>The numerical value of nB depends on the value of the defaultPagingCycle (T) and can be set to one of the following values:<CR>4T, 2T, T, 1/2T,1/4T, 1/8T, 1/16T, 1/32T<CR>When nB is set to T, 2T or 4T, it determines the number of POs per PF, and the PO position in PF.<CR>When nB is set to a value smaller than T, it affects the System Frame Number of the PF, the position of PO in the PF, and also distribution of UE into groups with the same PF.<CR>When nB is set to a  smaller value, the groups are fewer but larger, or more but smaller.<CR>Dependencies: nB=T4 can not be used in combination with specialSubframePattern = 5 on MO EUtranCellTDD, see 3GPP TS 36.213.<CR>Change takes effect: After all the cells in the RBS have been locked, and subsequently been unlocked.<CR>Default=T<CR>Range: 0,1,2,3,4,5,6,7
attr_description[Lrat.Paging,noOfDefPagCyclPrim] = Number of consecutive "DefaultPagingCycles" in which paging for Earthquake and Tsunami Warning System (ETWS) Primary Notification shall be transmitted in the RBS.<CR>Default=8<CR>Range: 1 to 16
attr_description[Lrat.Paging,numRepetitionsPagingNbIot] = Maximum number of repetitions for NPDCCH common search space (CSS) for paging. Provided in NB-SIB2.<CR>Specification: 3GPP TS 36.211 Rel-13<CR>Change takes effect: Next cell unlock<CR>Default=1<CR>Range: 1,2,4,8,16,32,64,128,256,512,1024,2048
attr_description[Lrat.Paging,pagingDiscardTimerNb] = The time a received paging for NB-IoT is retained or queued in the RBS before it is discarded. Set to the same (or smaller) value as the paging resend timer in MME to prevent the RBS from retaining or sending an old paging after the re-sent copy is received from the MME.<CR>Specification: 3GPP Rel-13 TS 36.331<CR>Change takes effect: After all the cells in the RBS have been locked, and subsequently been unlocked.<CR>Default=3<CR>Range: 1 to 60<CR>Unit: s
attr_description[Lrat.Paging,pagingDiscardTimer] = The length of time a received paging is retained or queued in the RBS before it is discarded. The timer should be set to the same (or smaller) value as the paging resend timer in MME (T3413). This setting  prevents the RBS from retaining or sending an old paging after the re-sent copy is received from the MME.<CR>Specification: 3GPP Rel-13 TS 36.331<CR>Change takes effect: After all the cells in the RBS have been locked, and subsequently been unlocked.<CR>Default=3<CR>Range: 1 to 30<CR>Unit: s
attr_description[Lrat.Paging,pagingId] = The value component of the RDN.
attr_description[Lrat.ParameterChangeRequests,latestUpdate] = The latest changed parameter change request.<CR>Dependencies: When the eNodeB changes the parameterChangeRequestList, the changed struct is copied to this parameter, with the state field updated.
attr_description[Lrat.ParameterChangeRequests,parameterChangeRequestList] = The complete list of outstanding parameter change requests.<CR>Dependencies: When a change request is added, updated, rejected, accepted or cancelled, the request is also copied to the latestUpdate parameter. The eNodeB may keep the rejected, accepted or cancelled change requests in this list for an indeterminate time.<CR>MinLength=0 MaxLength=250
attr_description[Lrat.ParameterChangeRequests,parameterChangeRequestsId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.PimCancellationConfig,dlPimCandidate] = Include DL carriers for PIM calculation.<CR>Default=false
attr_description[Lrat.PimCancellationConfig,pimCancellationConfigId] = The value component of the RDN.
attr_description[Lrat.PimCancellationConfig,ulPimCancellationMode] = PIM cancellation mode on UL carriers.<CR>Default=EXCLUDED<CR>Range: 0,1,2
attr_description[Lrat.PlmnInfo,actualPlmn] = PLMN that plmnWhiteList is applied to.<CR>Change takes effect: Ongoing connection
attr_description[Lrat.PlmnInfo,plmnInfoId] = The value component of the RDN.
attr_description[Lrat.PlmnInfo,plmnWhiteList] = Lists all PLMN IDs that are available for handover and X2.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=6
attr_description[Lrat.PmEventService,cellTraceFileSize] = cellTraceFileSize is calculated basing on compression factor equal to 8. In some outstanding conditions it is possible that the maximum size could exceed definition in MOM attribute, depending of content of ROP file.<CR>If the cellTraceFileSize is reached within a specific Reporting Output Period (ROP), cell trace recording stops until the next ROP begins.<CR>Dependencies: cellTraceFileSize <= totalCellTraceStorageSize<CR>Change takes effect: At the next ROP.<CR>Default=1000<CR>Range: 100 to 20000<CR>Unit: kilobyte (kb)
attr_description[Lrat.PmEventService,cellTraceHighPrioReserve] = The percentage of total cell trace storage (totalCellTraceStorageSize) reserved for high-priority scanners.<CR>This means that no events from low-priority scanners are stored in the file when the storage limit is reached for the sum of the low-priority scanners:<CR>totalCellTraceStorageSize - (cellTraceHighPrioReserv / 100) * totalCellTraceStorageSize.<CR>High-priority scanner files are not limited to the reserved area for high priority scanners. These files can also be stored in the non-reserved area together with the low-priority scanner files. When the default value of zero is set, the high- and low-priority share the totalCellTraceStorageSize for storing cell trace events.<CR>Change takes effect: At the next ROP.<CR>Default=0<CR>Range: 0 to 80<CR>Unit: %
attr_description[Lrat.PmEventService,cellTraceMcsResolution] = The time resolution in seconds for MCS events from baseband in Cell trace.<CR>Default=60<CR>Range: 1,5,15,30,60,90,180<CR>Unit: second (s)
attr_description[Lrat.PmEventService,cellTracePartitionMcsResolution] = The time resolution for per resource partition events from baseband in Cell trace.<CR>Default=60<CR>Range: 5,15,30,60,90,180<CR>Unit: s
attr_description[Lrat.PmEventService,cellTracePeriodicReport] = Controls Periodic Measurement Reporting functionality.<CR>Disturbances: Changing this attribute can affect traffic. More data is generated for the cell traces.<CR>Default=false
attr_description[Lrat.PmEventService,eventsExcludedFromUeTrace] = List of vendor specific events that are excluded from UE trace ROP files.<CR>User can add and delete events to/from this list. This frees UE trace capacity for included events.<CR>An empty list causes no events to be excluded.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=2 Default=S1_PAGING<CR>Range: 1
attr_description[Lrat.PmEventService,pmEventServiceId] = The value component of the RDN.
attr_description[Lrat.PmEventService,streamPortPmUeTrace] = Port on target for UE trace streaming over the user datagram protocol port.<CR>Change takes effect: New connection<CR>Default=51543<CR>Range: 0 to 65535
attr_description[Lrat.PmEventService,streamStatusNotification] = Turns on or off stream status notifications.<CR>Default=true
attr_description[Lrat.PmEventService,streamStatusPmCellTrace] = List of status on PM Cell Trace streams and file writing<CR>MinLength=0 MaxLength=6
attr_description[Lrat.PmEventService,streamStatusPmUeTrace] = List of status on PM UE Trace streams and file writing.<CR>MinLength=0 MaxLength=16
attr_description[Lrat.PmEventService,thpFilterThresholdDl] = Threshold for DL UE throughput measurements. Only bursts with transmitted volume larger than or equal to the threshold are included in the throughput measurement. The counters pmMacUeThpVolDl, pmMacUeThpTimeDl, pmMacUeThpDlDistr, pmMacDrbThpTimeDlQci and pmPdcpVolDlDrbFiltQci are based on filtered throughput measurements.<CR>Default=FILTER_THRESH_70000<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25
attr_description[Lrat.PmEventService,totalCellTraceStorageSize] = Total available storage for the cell trace recording files. The actual limit may be slightly offset from this value due to the fact that the compressed file size is approximated by the system.<CR>Dependencies: totalCellTraceStorageSize >= cellTraceFileSize AND totalCellTraceStorageSize <= totalEventStorageSize<CR>Change takes effect: At the next ROP.<CR>Default=80000<CR>Range: 100 to 250000<CR>Unit: kilobyte (kb)
attr_description[Lrat.PmEventService,totalEventStorageSize] = The total storage that the observability mechanisms can use to store information about the collected event data.<CR>This means that the total size of the cell trace and UE trace files stored should be less than the value of this attribute. The actual limit may be slightly offset from this value due to the fact that the compressed file size is approximated by the system.<CR>Dependencies: totalEventStorageSize >= totalCellTraceStorageSize + totalUeTraceStorageSize<CR>Change takes effect: At the next ROP.<CR>Default=100000<CR>Range: 0 to 266000<CR>Unit: kilobyte (kb)
attr_description[Lrat.PmEventService,totalUeTraceStorageSize] = Total available storage for UE trace recording files. Actual limit can differ slightly from value because system approximates compressed file size.<CR>Dependencies: totalUeTraceStorageSize >= ueTraceFileSize AND totalUeTraceStorageSize <= totalEventStorageSize.<CR>Change takes effect: At the next ROP.<CR>Default=16000<CR>Range: 100 to 20000<CR>Unit: kilobyte (kb)
attr_description[Lrat.PmEventService,ueTraceFileSize] = ueTraceFileSize is calculated basing on compression factor equal to 8. In some outstanding conditions it is possible that the maximum size could exceed definition in MOM attribute, depending of content of ROP file.<CR>If ueTraceFileSize is reached during ROP, UE trace recording stops until next ROP.<CR>Dependencies: ueTraceFileSize <= totalUeTraceStorageSize<CR>Change takes effect: At the next ROP.<CR>Default=1000<CR>Range: 100 to 1000<CR>Unit: kilobyte (kb)
attr_description[Lrat.PmEventService,ueTraceMcsResolution] = The time resolution in seconds for MCS events from baseband in UE trace.<CR>Default=1<CR>Range: 1,5,15,30,60,90,180<CR>Unit: second (s)
attr_description[Lrat.PmFlexCounterFilter,arpFilterEnabled] = Whether or not ARP filter is enabled.<CR>Change takes effect: Next ROP<CR>Default=false
attr_description[Lrat.PmFlexCounterFilter,arpFilterMax] = Maximum filter value applied to ARP. Only valid if attribute arpFilterEnabled is enabled.<CR>Dependencies: arpFilterMin <= arpFilterMax<CR>Change takes effect: Next ROP<CR>Default=0<CR>Range: 0 to 15
attr_description[Lrat.PmFlexCounterFilter,arpFilterMin] = Minimum filter value applied to ARP. Only valid if attribute arpFilterEnabled is enabled.<CR>Dependencies: arpFilterMin <= arpFilterMax<CR>Change takes effect: Next ROP<CR>Default=0<CR>Range: 0 to 15
attr_description[Lrat.PmFlexCounterFilter,ceLevelEnabled] = Whether or not CE Level filter is enabled.<CR>Status Information: Since 17.Q2. Replaced by ceLevelFilterEnabled. Planned to be removed.<CR>Change takes effect: Next ROP<CR>Default=false
attr_description[Lrat.PmFlexCounterFilter,ceLevelFilterEnabled] = Whether or not bandwidth reduced PRACH Coverage Enhancement (CE) Level filter is enabled.<CR>Change takes effect: Next ROP<CR>Default=false
attr_description[Lrat.PmFlexCounterFilter,ceLevelFilterMax] = Maximum filter value applied to bandwidth reduced PRACH Coverage Enhancement (CE) Level. Only valid if attribute ceLevelFilterEnabled is enabled.<CR>Dependencies: ceLevelFilterMin <= ceLevelFilterMax<CR>Change takes effect: Next ROP<CR>Default=CE_LEVEL_0<CR>Range: 0,1,2,3
attr_description[Lrat.PmFlexCounterFilter,ceLevelFilterMin] = Minimum filter value applied to bandwidth reduced PRACH Coverage Enhancement (CE) Level. Only valid if attribute ceLevelFilterEnabled is enabled.<CR>Dependencies: ceLevelFilterMin <= ceLevelFilterMax<CR>Change takes effect: Next ROP<CR>Default=CE_LEVEL_0<CR>Range: 0,1,2,3
attr_description[Lrat.PmFlexCounterFilter,counterNameSuffix] = Name string that is appended to the flexible counters representing filter combination applied to current ROP.
attr_description[Lrat.PmFlexCounterFilter,lcgFilterEnabled] = Whether or not LCG filter is enabled.<CR>Change takes effect: Next ROP<CR>Default=false
attr_description[Lrat.PmFlexCounterFilter,lcgFilterMax] = Maximum filter value applied to LCG. Only valid if attribute lcgFilterEnabled is enabled.<CR>Dependencies: lcgFilterMin <= lcgFilterMax<CR>Change takes effect: Next ROP<CR>Default=0<CR>Range: 0 to 3
attr_description[Lrat.PmFlexCounterFilter,lcgFilterMin] = Minimum filter value applied to LCG. Only valid if attribute lcgFilterEnabled is enabled.<CR>Dependencies: lcgFilterMin <= lcgFilterMax<CR>Change takes effect: Next ROP<CR>Default=0<CR>Range: 0 to 3
attr_description[Lrat.PmFlexCounterFilter,plmnFilterEnabled] = Whether or not PLMN filter is enabled.<CR>Change takes effect: Next ROP<CR>Default=false
attr_description[Lrat.PmFlexCounterFilter,plmnFilterMax] = Maximum filter value applied to PLMN Index. Only valid if attribute plmnFilterEnabled is enabled.<CR>Dependencies: plmnFilterMin <= plmnFilterMax<CR>Change takes effect: Next ROP<CR>Default=0<CR>Range: 0 to 5
attr_description[Lrat.PmFlexCounterFilter,plmnFilterMin] = Minimum filter value applied to PLMN Index. Only valid if attribute plmnFilterEnabled is enabled.<CR>Dependencies: plmnFilterMin <= plmnFilterMax<CR>Change takes effect: Next ROP<CR>Default=0<CR>Range: 0 to 5
attr_description[Lrat.PmFlexCounterFilter,pmFlexCounterFilterId] = The value component of the RDN.
attr_description[Lrat.PmFlexCounterFilter,qciFilterEnabled] = Whether or not QCI filter is enabled.<CR>Change takes effect: Next ROP<CR>Default=false
attr_description[Lrat.PmFlexCounterFilter,qciFilterMax] = Maximum filter value applied to QCI. Only valid if attribute qciFilterEnabled is enabled.<CR>Dependencies: qciFilterMin <= qciFilterMax<CR>Change takes effect: Next ROP<CR>Default=0<CR>Range: 0 to 255
attr_description[Lrat.PmFlexCounterFilter,qciFilterMin] = Minimum filter value applied to QCI. Only valid if attribute qciFilterEnabled is enabled.<CR>Dependencies: qciFilterMin <= qciFilterMax<CR>Change takes effect: Next ROP<CR>Default=0<CR>Range: 0 to 255
attr_description[Lrat.PmFlexCounterFilter,spidFilterEnabled] = Whether or not SPID filter is enabled.<CR>Change takes effect: Next ROP<CR>Default=false
attr_description[Lrat.PmFlexCounterFilter,spidFilterMax] = Maximum filter value applied to SPID. Only valid if attribute spidFilterEnabled is enabled.<CR>Dependencies: spidFilterMin <= spidFilterMax<CR>Change takes effect: Next ROP<CR>Default=1<CR>Range: 1 to 256
attr_description[Lrat.PmFlexCounterFilter,spidFilterMin] = Minimum filter value applied to SPID. Only valid if attribute spidFilterEnabled is enabled.<CR>Dependencies: spidFilterMin <= spidFilterMax<CR>Change takes effect: Next ROP<CR>Default=1<CR>Range: 1 to 256
attr_description[Lrat.PmFlexCounterFilter,ueCatFilterEnabled] = Whether or not UE Category filter is enabled.<CR>Change takes effect: Next ROP<CR>Default=false
attr_description[Lrat.PmFlexCounterFilter,ueCatFilterMax] = Maximum filter value applied to UE Category. Only valid if attribute ueCatFilterEnabled is enabled.<CR>Dependencies: ueCatFilterMin <= ueCatFilterMax<CR>Change takes effect: Next ROP<CR>Default=UE_CATEGORY_DL_M1_UL_M1<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33
attr_description[Lrat.PmFlexCounterFilter,ueCatFilterMin] = Minimum filter value applied to UE Category. Only valid if attribute ueCatFilterEnabled is enabled.<CR>Dependencies: ueCatFilterMin <= ueCatFilterMax<CR>Change takes effect: Next ROP<CR>Default=UE_CATEGORY_DL_M1_UL_M1<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33
attr_description[Lrat.PmFlexCounterFilter,uePowerClassFilterEnabled] = Whether or not UE Power Class filter is enabled.<CR>Change takes effect: Next ROP<CR>Default=false
attr_description[Lrat.PmFlexCounterFilter,uePowerClassFilterMax] = Maximum filter value applied to UE Power Class. Only valid if attribute uePowerClassFilterEnabled is true.<CR>Dependencies: uePowerClassFilterMin <= uePowerClassFilterMax<CR>Change takes effect: Next ROP<CR>Default=1<CR>Range: 1 to 5
attr_description[Lrat.PmFlexCounterFilter,uePowerClassFilterMin] = Minimum filter value applied to UE Power Class. Only valid if attribute uePowerClassFilterEnabled is true.<CR>Dependencies: uePowerClassFilterMin <= uePowerClassFilterMax<CR>Change takes effect: Next ROP<CR>Default=1<CR>Range: 1 to 5
attr_description[Lrat.PmUeMeasControl,measGapAllowedPm] = Whether or not measurement gap configuration is allowed for EUTRAN inter-frequency and IRAT measurements.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.PmUeMeasControl,measQuantityUtraFDDPm] = Measurement quantity used for all types of UTRA FDD measurements.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Change takes effect: New connection<CR>Default=RSCP<CR>Range: 0,1
attr_description[Lrat.PmUeMeasControl,pmUeMeasControlId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.PmUeMeasControl,ueMeasInterFreq1] = Specification of UE measurement initiated when PM event UE_MEAS_INTERFREQ1 is activated in cell trace scanner.<CR>Change takes effect: New connection
attr_description[Lrat.PmUeMeasControl,ueMeasInterFreq2] = Specification of UE measurement initiated when PM event UE_MEAS_INTERFREQ2 is activated in cell trace or UE trace scanner.<CR>Change takes effect: New connection
attr_description[Lrat.PmUeMeasControl,ueMeasInterRat1] = Specification of UE measurement initiated when PM event UE_MEAS_GERAN1 or UE_MEAS_UTRAN1 is activated in cell trace scanner.<CR>Change takes effect: New connection
attr_description[Lrat.PmUeMeasControl,ueMeasInterRat2] = Specification of UE measurement initiated when PM event UE_MEAS_GERAN2 or UE_MEAS_UTRAN2 is activated in cell trace or UE trace scanner.<CR>Change takes effect: New connection
attr_description[Lrat.PmUeMeasControl,ueMeasIntraFreq1] = The specification of the UE measurement initiated by activating the PM event UE_MEAS_INTRAFREQ1 in a Cell Trace scanner.<CR>Change takes effect: New connection
attr_description[Lrat.PmUeMeasControl,ueMeasIntraFreq2] = The specification of the UE measurement initiated by activating the PM event UE_MEAS_INTRAFREQ2 in a Cell Trace or UE Trace scanner.<CR>Change takes effect: New connection
attr_description[Lrat.PmUlInterferenceReport,pmUlInterferenceReportId] = The value component of the RDN.
attr_description[Lrat.PmUlInterferenceReport,rfBranchRxRef] = Reference to the instance of RfBranch MO used for the feature Uplink Interference Reporting.<CR>isNillable: true
attr_description[Lrat.PmchMch,dataMcs] = Specifies the value for parameter I-MCS in TS 36.213, Table 7.1.7.1-1, which defines the Modulation and Coding Scheme (MCS) applicable for the subframes of this (P)MCH as indicated by the field commonSF-Alloc. The MCS does however neither apply to the subframes that may carry MCCH i.e. the subframes indicated by the field sf-AllocInfo within SystemInformationBlockType13 nor for the first subframe of each MCH scheduling period (which may contain the MCH scheduling information provided by MAC).<CR>Change takes effect: lock/unlock MbsfnArea<CR>Range: 0 to 28
attr_description[Lrat.PmchMch,mchSchedulingPeriod] = MCH scheduling period. Used to provide MCH scheduling information at applicable lower layers (MAC). Value 8 sets 8 radio frames, 16 sets 16 radio frames and so on.<CR>Values 512 and 1024 cannot be used.<CR>Dependencies: mchSchedulingPeriod must be:<CR>- a multiple of commonSFAllocPeriod in MO class MbsfnArea.<CR>- smaller than or equal to mcchRepetitionPeriod in MO class MbsfnArea.<CR>Change takes effect: lock/unlock MbsfnArea<CR>Default=32<CR>Range: 8,16,32,64,128,256,512,1024
attr_description[Lrat.PmchMch,pmchMchId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.PmchMch,qci] = QCIs that are supported by this (P)MCH. When Autoconfiguration of LTE Broadcast Subframes is not used, use empty sequence.<CR>Dependencies: QCI must be unique value under MbsfnArea.<CR>QCI and serviceAreaId combination can be set for at most two PmchMch under different MbsfnAreas.<CR>QCI must not be changed when MbsfnArea is unlocked.<CR>QCI must not be changed if system-created MO instance exists under any PmchMch MO instance under the MbsfnArea.<CR>Specification: 3GPP TS 23.203 (Release 8)<CR>Disturbances: Can affect traffic if changed. MBMS services can become inconsistent between MBSFN areas.<CR>Change takes effect: Object unlocked<CR>Precondition: All MbmsService MOs under the PmchMch must be deleted. The corresponding MbsfnArea must have administrative state LOCKED.<CR>MinLength=0 MaxLength=10<CR>Range: 0 to 255
attr_description[Lrat.PmchMch,sfAllocEnd] = Last subframe allocated to (P)MCH within a period identified by field commonSF-AllocPeriod. If value is 0, the first subframe defined by the field commonSF-Alloc. If Autoconfiguration of LTE Broadcast Subframes is used, new values are set by system every time subframe allocation changes for (P)MCH. If value is -1, no subframe is allocated.<CR>Change takes effect: lock/unlock MbsfnArea<CR>Default=-1<CR>Range: -1 to 1535
attr_description[Lrat.PmchMch,syncSequenceLength] = Synchronization sequence length used for MBMS data on the M1 interface.<CR>Dependencies: syncSequenceLength must not exceed mchSchedulingPeriod.<CR>Change takes effect: New connection<CR>Default=8<CR>Range: 8,16,32,64,128,256,512,1024<CR>Unit: 10 ms
attr_description[Lrat.PmchMch,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.PrefTrafficMgmt,atoAllowedFrom] = Whether or not ATO is activated from current cell towards any frequency.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=true
attr_description[Lrat.PrefTrafficMgmt,highLoadPlmnReservedEnabled] = Enable function to broadcast PLMN ID(s) as "reserved for operator use" at high load.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.PrefTrafficMgmt,inhibitIMPrioritizationEnabled] = Enable Inhibit Idle Mode Prioritization function for UEs whose SPIDs are defined in inhibitSpidList.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.PrefTrafficMgmt,inhibitIMPrioritizationInterval] = Time interval when Inhibit Idle Mode Prioritization function is applied for UEs whose SPIDs are defined in inhibitSpidList.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=10<CR>Range: 0 to 60<CR>Unit: minutes
attr_description[Lrat.PrefTrafficMgmt,inhibitSpidList] = List that includes all UEs affected by function Inhibit Idle Mode Prioritization.<CR>Disturbances: Changing this attribute can affect traffic.<CR>MinLength=0 MaxLength=6<CR>Range: 1 to 256
attr_description[Lrat.PrefTrafficMgmt,lbStopIncomingIflbThreshold] = Threshold for subscription ratio in cell. If exceeded, IFLB towards cell must be stopped.<CR>Dependencies: lbStopIncomingIFLBThreshold<=lbEUtranTriggerOffloadThreshold<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=60<CR>Range: 0 to 1600<CR>Unit: 0.01 .
attr_description[Lrat.PrefTrafficMgmt,plmnResOpUseMsrUsageThreshold] = Upper threshold for monitored system resource usage. If usage of some monitored system resource is above the threshold, triggers a broadcast of PLMN IDs configured in plmnsToReserveAtHighLoad as "reserved for operator use".<CR>Dependencies: plmnResOpUseMSRUsageThreshold>plmnUnresOpUseMSRUsageThreshold<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=70<CR>Range: 0 to 100
attr_description[Lrat.PrefTrafficMgmt,plmnResOpUseSRatioThreshold] = Upper threshold for total subscription ratio. If total subscription ratio is above the threshold, triggers a broadcast of PLMN IDs configured in plmnsToReserveAtHighLoad as "reserved for operator use".<CR>Dependencies: plmnResOpUseSRatioThreshold>plmnUnresOpUseSRatioThreshold<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=70<CR>Range: 0 to 1600<CR>Unit: 0.01 .
attr_description[Lrat.PrefTrafficMgmt,plmnUnresOpUseMsrUsageThreshold] = Lower threshold for monitored system resource usage.<CR>If usage of all Monitored System Resources is below the threshold and the total subscription ratio is below plmnUnresOpUseSRatioThreshold, then broadcast PLMN IDs configured in plmnsToReserveAtHighLoad as "unreserved", if previously broadcasted as "reserved for operator use".<CR>Dependencies: plmnResOpUseMSRUsageThreshold>plmnUnresOpUseMSRUsageThreshold<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=40<CR>Range: 0 to 100
attr_description[Lrat.PrefTrafficMgmt,plmnUnresOpUseSRatioThreshold] = Lower threshold for total subscription ratio.<CR>If the total subscription ratio is below the threshold and usage of all Monitored System Resources is below plmnUnresOpUseMsrUsageThreshold, then broadcast PLMN IDs configured in plmnsToReserveAtHighLoad as "unreserved", if previously broadcasted as "reserved for operator use".<CR>Dependencies: plmnResOpUseSRatioThreshold>plmnUnresOpUseSRatioThreshold<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=55<CR>Range: 0 to 1600<CR>Unit: 0.01 .
attr_description[Lrat.PrefTrafficMgmt,plmnsToReserveAtHighLoad] = List of PLMN IDs; broadcasted as "reserved for operator use" when total subscription ratio or total usage of any monitored system resource exceeds threshold.<CR>Disturbances: Changing this attribute can affect traffic.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.PrefTrafficMgmt,prefTrafficMgmtId] = The value component of the RDN.<CR>Disturbances: Changing this attribute can affect traffic.
attr_description[Lrat.PrefTrafficMgmt,sendInhibitIMPrioritizationEnabled] = Enable function to send load state Inhibit Idle Mode Prioritization when subscription ratio level in cell is above threshold.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.PrefTrafficMgmt,sendStopIncomingIflbEnabled] = Enable function to send load state Stop Incoming IFLB when subscription ratio level in cell is above threshold.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.PrefTrafficMgmt,spidBlacklistHo] = List of UEs affected by sub-routine to block incoming handover when PLMN ID is broadcasted as "reserved for operator use".<CR>If set to -1, UEs with no SPID value allocated are also affected by the sub-routine to block incoming handover when PLMN ID is broadcasted as "reserved for operator use".<CR>Disturbances: Changing this attribute can affect traffic.<CR>MinLength=0 MaxLength=6<CR>Range: -1,1 to 256
attr_description[Lrat.PrefTrafficMgmt,stopOutgoingIflbEnabled] = Enable function to stop IFLB from source cell to target cell, where the target cell previously signaled load state Stop Incoming IFLB.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.PreschedulingProfile,preschedulingDataSize] = Granted data size during prescheduling period.<CR>Change takes effect: Object unlocked<CR>Default=86<CR>Range: 1 to 5000<CR>Unit: byte
attr_description[Lrat.PreschedulingProfile,preschedulingDuration] = Prescheduling is stopped if there are no UL transmissions during this time.<CR>Change takes effect: Object unlocked<CR>Default=200<CR>Range: 5 to 30000<CR>Unit: ms
attr_description[Lrat.PreschedulingProfile,preschedulingPeriod] = Period in ms lapsed between granted prescheduling instances.<CR>Change takes effect: Object unlocked<CR>Default=5<CR>Range: 1 to 20<CR>Unit: ms
attr_description[Lrat.PreschedulingProfile,preschedulingProfileId] = The value component of the Relative Distinguished Name (RDN).<CR>Change takes effect: Object unlocked
attr_description[Lrat.PreschedulingProfile,preschedulingSinrThreshold] = Prescheduling grants are only sent if filtered SINR is above this threshold level.<CR>Change takes effect: Object unlocked<CR>Default=20<CR>Range: -10 to 40<CR>Unit: dB
attr_description[Lrat.PwsCmas,arrivalTime] = Time when the SIB12 information arrived in the eNB<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.PwsCmas,cellId] = Cells in which SIB12 will be broadcast<CR>The cell is defined by its local cell ID.<CR>MinLength=0 MaxLength=24<CR>Range: 0 to 255
attr_description[Lrat.PwsCmas,dataCodingScheme] = Data coding scheme of the message<CR>Range: 0 to 255
attr_description[Lrat.PwsCmas,messageIdentifier] = Message identifier for SIB12<CR>Range: 0 to 65535
attr_description[Lrat.PwsCmas,numberOfBroadcastsRequested] = Number of requested repetitions of SIB12<CR>Range: 0 to 65535
attr_description[Lrat.PwsCmas,pwsCmasId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.PwsCmas,repetitionPeriod] = Repetition period of the SIB12<CR>Range: 0 to 131071<CR>Unit: Second
attr_description[Lrat.PwsCmas,serialNumber] = Serial number for SIB12<CR>Range: 0 to 65535
attr_description[Lrat.PwsCmas,warningMessageContents] = Contents of the message<CR>Range: 0 to 9600
attr_description[Lrat.QciProfileOperatorDefined,absPrioOverride] = Indicates if the data radio bearer is subject to Absolute Priority Override.<CR>Dependencies: Only relevant if the license for QoS Aware Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=NO_OVERRIDE<CR>Range: 0,1
attr_description[Lrat.QciProfileOperatorDefined,aqmMode] = Active Queue Management (AQM) mode<CR>Change takes effect: Cell lock/unlock<CR>Default=OFF<CR>Range: 0,1,2
attr_description[Lrat.QciProfileOperatorDefined,counterActiveMode] = Defines the interpretation of active for the QCI:<CR>FALSE (DEFAULT):<CR>Active time is measured in the case of:<CR>DRB: as the time when there is data in a buffer, DL and/or UL, with an added guard period of 100 ms thereafter<CR>UE: as the time when there is data in a buffer, DL and/or UL, with an added guard period of 100 ms thereafter in any of the DRBs connected to the UE<CR>The pmCounters for active E-RABs are stepped in case of data in a buffer, DL and/or UL.<CR>TRUE:<CR>Active time is measured in the case of:<CR>DRB: from the first data occurrence in a buffer to the last data occurrence in a buffer for that DRB<CR>UE: from the first data occurrence in a buffer to the last data occurrence in a buffer for any DRB associated with the UE<CR>The pmCounters for active E-RABs are always stepped since the DRB is considered always active<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.QciProfileOperatorDefined,dataFwdPerQciEnabled] = Enables forwarding of data for this QCI.<CR>Dependencies: The parameter is only valid if the IntraLTEHODataFwd or S1HODataFwd licence is installed and active.<CR>Default=false
attr_description[Lrat.QciProfileOperatorDefined,dlMaxHARQTxQci] = Maximum number of transmissions for one HARQ process in DL when this QCI has the highest HARQ priority. Values higher than 7 will be treated as 7.<CR>Specification: 3GPP 36.321<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1,2,3,4,5,6,7,8,10,12,16,20,24,28
attr_description[Lrat.QciProfileOperatorDefined,dlMaxWaitingTime] = The scheduler attempts to achieve dlMaxWaitingTime for DL bearers before giving any DL bearer a higher priority. Value 0 means that the higher priority is never applied. Must be set to a similar or slightly shorter value than the PDB. Setting too low a value can affect other services with higher priority. For more information about PDB refer to TS 23.203.<CR>Dependencies: Only used for Resource Fair Scheduling algorithm. Only relevant if the license for Advanced Differentiation for Resource Fair Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can affect performance of all data bearers. A value that is set too low can affect other services with higher priority. A value that is set too high can cause Dynamic UE Admission Control to fail in keeping the cell stable at overload.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.QciProfileOperatorDefined,dlMinBitRate] = The scheduler will attempt to achieve minbitrate for all bearers before giving any user a higher rate. Value 0 means that the minRate scheduler is not used.<CR>Dependencies: This parameter will only be used if one of the following Proportional Fair scheduling algorithms, "maximum_C_over_I", "proportional_fair_low", "proportional_fair_medium", "proportional_fair_high" or "equal_rate", has been selected.<CR>Only relevant if the license for QoS Aware Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 150000<CR>Unit: kbps
attr_description[Lrat.QciProfileOperatorDefined,dlResourceAllocationStrategy] = Defines the downlink resource allocation strategy of the QoS Class Identifier (QCI).<CR>Dependencies: Changes to this parameter take effect only if the licenses for Downlink Frequency Selective Scheduling and QoS Aware Scheduler are present and the features are active.<CR>Change takes effect: New connection<CR>Default=RESOURCE_FAIR<CR>Range: 0,1
attr_description[Lrat.QciProfileOperatorDefined,drxPriority] = The relative priority among the DRX profiles, i.e. if the bearer that is setup with this QCI has a higher DRX priority than any of the existing bearers, the DRX configuration will be set to those selected by the drxProfileId for this QCI. The drxPriority has to be unique across all the configured QciProfilePredefined and QciProfileOperatorDefined MOC instances except for instances where the drxProfileId is the same. That is, instances that share the same drxProfileId may have the same drxPriority value. Also note that larger drxPriority values indicate higher relative priority.<CR>Disturbances: Changing this attribute can cause loss of traffic. Possible mismatch between DRX setting used by network and UE for ongoing connections.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100
attr_description[Lrat.QciProfileOperatorDefined,drxProfileRef] = Points out the DRX profile associated with this QCI. If not set the default reference will be to the DrxProfile instance corresponding to Local Distinguished Name (LDN) = ManagementElement=1, ENodeBFunction=1, DRxProfile=0.<CR>isNillable: true<CR>Dependencies: The DRX profile must exist, otherwise it will be interpreted as default DRX profile.<CR>Disturbances: Changing this attribute can cause loss of traffic. Possible mismatch between DRX setting used by network and UE for ongoing connections.<CR>Change takes effect: Object unlocked<CR>References: Lrat.DrxProfile[0-]
attr_description[Lrat.QciProfileOperatorDefined,dscp] = The Differentiated Services Code Point for a Quality of Service Class Indicator (QCI). This corresponds to mappings from RAN QoS to Transport Network QoS.<CR>Change takes effect: New connection<CR>Range: 0 to 63
attr_description[Lrat.QciProfileOperatorDefined,harqPriority] = Relative HARQ priority of this QCI. If a bearer that is setup with this QCI has highest HARQ priority, HARQ transmission number is set to ulMaxHARQTxQci and dlMaxHARQTxQci. HARQ priority must be unique for all configured MOC instances for QciProfilePredefined and QciProfileOperatorDefined. Does not apply when ulMaxHARQTxQci and dlMaxHARQTxQci are same. Note that larger harqPriority values indicate higher relative priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 99
attr_description[Lrat.QciProfileOperatorDefined,inactivityTimerOffset] = The offset time value that can be used to prolong the default inactivity timer.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 65535<CR>Unit: s
attr_description[Lrat.QciProfileOperatorDefined,lessMaxDelayThreshold] = Time delay that scheduling stays on-hold for Low Energy Scheduler Solution.<CR>If 0, Low Energy Scheduler Solution is disabled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 20<CR>Unit: ms
attr_description[Lrat.QciProfileOperatorDefined,logicalChannelGroupRef] = Refers to an instance of LogicalChannelGroup. Assigns a Logical Channel Group to a Quality of Service Class Indicator (QCI).<CR>Change takes effect: New connection<CR>References: Lrat.LogicalChannelGroup[0-]
attr_description[Lrat.QciProfileOperatorDefined,measReportConfigParams] = Encapsulates the offset quantities of the mobility measurement thresholds. Only absolute mobility measurement thresholds are considered. The structure holds, for example, offsets for the thresholds a1ThresholdRsrpPrim, a2ThresholdRsrpPrim, and a5Threshold1Rsrp. The offsets are meant mainly to have values that differentiate the measurement thresholds between QCIs.<CR>Change takes effect: New connection
attr_description[Lrat.QciProfileOperatorDefined,pdbOffset] = An offset to the PDB used by Active Queue Management (AQM).<CR>Dependencies: pdb + pdbOffset >= 0<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: -500 to 1000<CR>Unit: ms
attr_description[Lrat.QciProfileOperatorDefined,pdb] = The contribution from eNodeB to the Packet Delay Budget (PDB) for a QCI. Packet delays outside eNodeB e.g. in the transport network are excluded. For more information about PDB refer to TS 23.203<CR>Dependencies: Only relevant if the license for QoS Aware Scheduler is present and active.<CR>Change takes effect: Cell lock/unlock<CR>Default=80<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.QciProfileOperatorDefined,pdcpSNLength] = Indicates the Packet Data Convergence Protocol (PDCP) Sequence Number length in bits as specified in TS 36.323.<CR>Dependencies: RLC UM must be configured (rlcMode = UM) to set this attribute to 7. RLC AM must be configured (rlcMode = AM) to set this attribute to 15. 15-bits PDCP SN is only applied if:<CR> - pdcp-SN-Extension capability is indicated by UE; And<CR> - UE is of category 11 or above; And<CR> - UE is capable of at least 3C Carrier Aggregation.<CR>Otherwise, default value of 12-bits PDCP SN is applied for RLC AM bearers.<CR>Change takes effect: Cell lock/unlock<CR>Default=12<CR>Range: 7,12,15
attr_description[Lrat.QciProfileOperatorDefined,priority] = Quality of Service Class Indicator (QCI)-related priority as defined in 3GPP TS 23.203 (Release 8).<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Range: 1 to 14
attr_description[Lrat.QciProfileOperatorDefined,qciACTuning] = Tuning factor per QCI for admission control. Only valid for QCIs with resource type GBR.<CR>Dependencies: Only relevant if the license for Dynamic GBR admission control is present and the feature is active.<CR>Change takes effect: New connection<CR>Default=1000<CR>Range: 1 to 1999<CR>Unit: 0.001 .
attr_description[Lrat.QciProfileOperatorDefined,qciProfileOperatorDefinedId] = The value component of the RDN.
attr_description[Lrat.QciProfileOperatorDefined,qciSubscriptionQuanta] = Normalized subscription quantity associated with the specific the QCI. Specifies the subscription cost of a bearer with this predefined profile. The subscription cost is used for traffic load balancing purposes.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1<CR>Range: 0 to 50000
attr_description[Lrat.QciProfileOperatorDefined,qci] = Quality of Service Class Indicator (QCI) as defined in 3GPP TS 23.203 (Release 8). Each instance of this MO has a unique value for the QCI.<CR>Dependencies: Each qci must be set to a unique value.<CR>Change takes effect: Object unlocked<CR>Range: 10 to 255
attr_description[Lrat.QciProfileOperatorDefined,relativePriority] = The relative priority associated with a QCI.<CR>Dependencies: Changes to this parameter take effect only if the feature states of the  QoS Aware Scheduler , Proportional Fair Scheduler, and  the Rps are enabled.<CR>Change takes effect: New connection<CR>Default=1<CR>Range: 1 to 65535
attr_description[Lrat.QciProfileOperatorDefined,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.FlexibleQoSGroup[0-]
attr_description[Lrat.QciProfileOperatorDefined,resourceAllocationStrategy] = Defines the resource allocation strategy of the QoS Class Identifier (QCI).<CR>Dependencies: Only relevant if the license for QoS Aware Scheduler is present and the feature is active<CR>Change takes effect: New connection<CR>Default=RESOURCE_FAIR<CR>Range: 0,1
attr_description[Lrat.QciProfileOperatorDefined,resourceType] = Indicates if the resource type of the Quality of Service Class Indicator (QCI) is Guaranteed Bit Rate (GBR) or non-GBR as defined in 3GPP TS 23.203.<CR>Change takes effect: Object unlocked<CR>Range: 0,1
attr_description[Lrat.QciProfileOperatorDefined,rlcMode] = RLC Mode<CR>Dependencies: Can only be set to AM if rlcSNLength is set to 10 or 16 and pdcpSNLength is set to 12 or 15. Must be set to UM if rlcSNLength is set to 5 or pdcpSNLength is set to 7.<CR>Change takes effect: Cell lock/unlock<CR>Default=AM<CR>Range: 0,1,2
attr_description[Lrat.QciProfileOperatorDefined,rlcSNLength] = Radio Link Control (RLC) Sequence Number length in bits as specified in TS 36.322.<CR>Dependencies: RLC UM must be configured (rlcMode = UM) to set this attribute to 5. RLC AM must be configured (rlcMode = AM) to set this attribute to 16. 16-bit RLC SN is only applied if:<CR>- extendedRLC-SN-SO-Field-r13 is indicated by UE; and<CR>- 5CC DL Carrier Aggregation Extension license is enabled; and<CR>- UE is capable of at least 5CC DL Carrier Aggregation.<CR>Otherwise, default value of 10-bit RLC SN is applied for RLC AM bearers.<CR>Change takes effect: Cell lock/unlock<CR>Default=10<CR>Range: 5,10,16
attr_description[Lrat.QciProfileOperatorDefined,rlfPriority] = The relative priority among the RLF (Radio Link Failure) profiles, i.e. if the bearer that is setup with this QCI has a higher RLF priority than any of the existing bearers, the RLF configuration will be set to those selected by the rlfProfileId for this QCI. If more than one QCI has been configured with the same and highest value of rlfPriority the RLF configuration will be set by the lowest QCI. The instances that share the same rlfProfileId may have the same rlfPriority value. Also note that larger rlfPriority values indicate higher relative priority.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100
attr_description[Lrat.QciProfileOperatorDefined,rlfProfileRef] = Points out the RLF profile associated with this QCI. If not set the default reference will be to the RlfProfile instance corresponding to Local Distinguished Name (LDN) = ManagementElement=1, ENodeBFunction=1, RlfProfile=0.<CR>isNillable: true<CR>Dependencies: The RLF profile must exist, otherwise it will be interpreted as default RLF profile.<CR>Change takes effect: Object unlocked<CR>References: Lrat.RlfProfile[0-]
attr_description[Lrat.QciProfileOperatorDefined,rohcEnabled] = Indicates if Robust Header Compression (ROHC) is enabled.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.QciProfileOperatorDefined,schedulingAlgorithm] = Specifies which scheduling algorithm is to be used for a certain QCI.<CR>Dependencies: Only relevant if the license for QoS Aware Scheduler is present and the feature is active. The value DELAY_BASED can only be used if the attribute serviceType has value VOIP.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=RESOURCE_FAIR<CR>Range: 0,1,2,3,4,5,6
attr_description[Lrat.QciProfileOperatorDefined,serviceType] = Indicates the service that the bearer is used for.<CR>Dependencies: Changes to this parameter take effect only if the license for QoS Aware Scheduler is present and the feature is active.<CR>Change takes effect: Cell lock/unlock<CR>Default=UNDEFINED<CR>Range: 0,1,2
attr_description[Lrat.QciProfileOperatorDefined,srsAllocationStrategy] = If the parameter srsAllocationStrategy in the QoS configuration for a Data radio Bearer assigned to a UE is set to ACTIVATED, then an attempt is made to allocate sounding for a UE. If several Data Radio Bearers are setup towards the UE with different QoS configurations, and the QoS configurations has different QCI parameter, an algorithm using the priority parameter in the QoS configuration, will resolve which QoS configuration that will define sounding<CR>Change takes effect: New connection<CR>Default=DEACTIVATED<CR>Range: 0,1
attr_description[Lrat.QciProfileOperatorDefined,tReorderingDl] = This timer is used by the receiving end of Acknowledged Mode (AM) or Unacknowledged Mode (UM) Radio Link Control (RLC) entity in UE, to detect loss of downlink RLC protocol data units at lower layers.<CR>Dependencies: Not applicable for RLC TM. Only relevant when rlcMode is UM or AM<CR>Change takes effect: New connection<CR>Default=35<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,100,110,120,130,140,150,160,170,180,190,200
attr_description[Lrat.QciProfileOperatorDefined,tReorderingUl] = This timer is used by the receiving end of the Acknowledged Mode (AM) or Unacknowledged Mode (UM) Radio Link Control (RLC) entity in eNB, to detect loss of uplink RLC protocol data units at lower layers.<CR>Dependencies: Not applicable for RLC TM. Only relevant when rlcMode is UM or AM<CR>Change takes effect: Cell lock/unlock<CR>Default=35<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,100,110,120,130,140,150,160,170,180,190,200<CR>Unit: ms
attr_description[Lrat.QciProfileOperatorDefined,timerPriority] = Relative priority among the timer profiles. TimerProfile with highest priority can be applied for a new connection in case the bearer QCI has an associated TimerProfile.<CR>In case several bearers with different QCIs are established, the TimerProfile with highest relative priority is applied.<CR>The TimerProfile with lowest QCI number is applied, if TimerProfiles have the same priority,<CR>Larger timerPriority value indicates higher relative priority.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100
attr_description[Lrat.QciProfileOperatorDefined,timerProfileRef] = Refers to the timer profile associated with this QCI.<CR>isNillable: true<CR>Change takes effect: Object unlocked<CR>References: Lrat.TimerProfile[0-]
attr_description[Lrat.QciProfileOperatorDefined,ulMaxHARQTxQci] = Maximum number of transmissions for one HARQ process in UL when this QCI has the highest HARQ priority.<CR>Specification: 3GPP 36.321<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1,2,3,4,5,6,7
attr_description[Lrat.QciProfileOperatorDefined,ulMaxWaitingTime] = The scheduler attempts to achieve ulMaxWaitingTime for UL bearers before giving any UL bearer a higher priority. Value 0 means that the higher priority is never applied. Must be set to a similar or slightly shorter value than the PDB. Setting too low a value can affect other services with higher priority. For more information about PDB refer to TS 23.203.<CR>Dependencies: Only used for Resource Fair Scheduling algorithm. Only relevant if the license for Advanced Differentiation for Resource Fair Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can affect performance of all data bearers. A value that is set too low can affect other services with higher priority. A value that is set too high can cause Dynamic UE Admission Control to fail in keeping the cell stable at overload.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.QciProfileOperatorDefined,ulMinBitRate] = The scheduler will attempt to achieve minbitrate for all bearers before giving any user a higher rate. Value 0 means that the minRate scheduler is not used.<CR>Dependencies: This parameter will only be used if one of the following Proportional Fair scheduling algorithms, "maximum_C_over_I", "proportional_fair_low", "proportional_fair_medium", "proportional_fair_high" or "equal_rate", has been selected.<CR>Only relevant if the license for QoS Aware Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 75000<CR>Unit: kbps
attr_description[Lrat.QciProfileOperatorDefined,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.QciProfilePredefined,absPrioOverride] = Indicates if the data radio bearer is subject to Absolute Priority Override.<CR>Dependencies: Only relevant if the license for QoS Aware Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=NO_OVERRIDE<CR>Range: 0,1
attr_description[Lrat.QciProfilePredefined,aqmMode] = Active Queue Management (AQM) mode<CR>Change takes effect: Cell lock/unlock<CR>Default=OFF<CR>Range: 0,1,2
attr_description[Lrat.QciProfilePredefined,counterActiveMode] = Defines the interpretation of active for the QCI:<CR>FALSE (DEFAULT):<CR>Active time is measured in the case of:<CR>DRB: as the time when there is data in a buffer, DL and/or UL, with an added guard period of 100 ms thereafter<CR>UE: as the time when there is data in a buffer, DL and/or UL, with an added guard period of 100 ms thereafter in any of the DRBs connected to the UE<CR>The pmCounters for active E-RABs are stepped in case of data in a buffer, DL and/or UL.<CR>TRUE:<CR>Active time is measured in the case of:<CR>DRB: from the first data occurrence in a buffer to the last data occurrence in a buffer for that DRB<CR>UE: from the first data occurrence in a buffer to the last data occurrence in a buffer for any DRB associated with the UE<CR>The pmCounters for active E-RABs are always stepped since the DRB is considered always active<CR>Change takes effect: Cell lock/unlock<CR>Default=false
attr_description[Lrat.QciProfilePredefined,dataFwdPerQciEnabled] = Enables forwarding of data for this QCI.<CR>Dependencies: The parameter is only valid if the IntraLTEHODataFwd or S1HODataFwd licence is installed and active.<CR>Default=false
attr_description[Lrat.QciProfilePredefined,dlMaxHARQTxQci] = Maximum number of transmissions for one HARQ process in DL when this QCI has the highest HARQ priority. Values higher than 7 will be treated as 7.<CR>Specification: 3GPP 36.321<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1,2,3,4,5,6,7,8,10,12,16,20,24,28
attr_description[Lrat.QciProfilePredefined,dlMaxWaitingTime] = The scheduler attempts to achieve dlMaxWaitingTime for DL bearers before giving any DL bearer a higher priority. Value 0 means that the higher priority is never applied. Must be set to a similar or slightly shorter value than the PDB. Setting too low a value can affect other services with higher priority. For more information about PDB refer to TS 23.203.<CR>Dependencies: Only used for Resource Fair Scheduling algorithm. Only relevant if the license for Advanced Differentiation for Resource Fair Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can affect performance of all data bearers. A value that is set too low can affect other services with higher priority. A value that is set too high can cause Dynamic UE Admission Control to fail in keeping the cell stable at overload.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.QciProfilePredefined,dlMinBitRate] = The scheduler will attempt to achieve minbitrate for all bearers before giving any user a higher rate. Value 0 means that the minRate scheduler is not used.<CR>Dependencies: This parameter will only be used if one of the following Proportional Fair scheduling algorithms, "maximum_C_over_I", "proportional_fair_low", "proportional_fair_medium", "proportional_fair_high" or "equal_rate", has been selected. Only relevant if the license for QoS Aware Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 150000<CR>Unit: kbps
attr_description[Lrat.QciProfilePredefined,dlResourceAllocationStrategy] = Defines the downlink resource allocation strategy of the QoS Class Identifier (QCI).<CR>Dependencies: Changes to this parameter take effect only if the licenses for Downlink Frequency Selective Scheduling and QoS Aware Scheduler are present and the features are active.<CR>Change takes effect: New connection<CR>Default=RESOURCE_FAIR<CR>Range: 0,1
attr_description[Lrat.QciProfilePredefined,drxPriority] = The relative priority among the DRX profiles, i.e. if the bearer that is setup with this QCI has a higher DRX priority than any of the existing bearers, the DRX configuration will be set to those selected by the drxProfileId for this QCI. The drxPriority has to be unique across all the configured QciProfilePredefined and QciProfileOperatorDefined MOC instances except for instances where the drxProfileId is the same. That is, instances that share the same drxProfileId may have the same drxPriority value. Also note that larger drxPriority values indicate higher relative priority.<CR>Disturbances: Changing this attribute can cause loss of traffic. Possible mismatch between DRX setting used by network and UE for ongoing connections.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100
attr_description[Lrat.QciProfilePredefined,drxProfileRef] = Points out the DRX profile associated with this QCI. If not set the default reference will be to the DrxProfile instance corresponding to Local Distinguished Name (LDN) = ManagementElement=1, ENodeBFunction=1, DRxProfile=0.<CR>isNillable: true<CR>Dependencies: The DRX profile must exist, otherwise it will be interpreted as default DRX profile.<CR>Disturbances: Changing this attribute can cause loss of traffic. Possible mismatch between DRX setting used by network and UE for ongoing connections.<CR>Change takes effect: Object unlocked<CR>References: Lrat.DrxProfile[0-]
attr_description[Lrat.QciProfilePredefined,dscp] = The Differentiated Services Code Point for a Quality of Service Class Indicator (QCI). This corresponds to mappings from RAN QoS to Transport Network QoS.<CR>Change takes effect: New connection.<CR>Range: 0 to 63
attr_description[Lrat.QciProfilePredefined,harqPriority] = Relative HARQ priority of this QCI. If a bearer that is setup with this QCI has highest HARQ priority, HARQ transmission number is set to ulMaxHARQTxQci and dlMaxHARQTxQci. HARQ priority must be unique for all configured MOC instances for QciProfilePredefined and QciProfileOperatorDefined. Does not apply when ulMaxHARQTxQci and dlMaxHARQTxQci are same. Note that larger harqPriority values indicate higher relative priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 99
attr_description[Lrat.QciProfilePredefined,inactivityTimerOffset] = The offset time value that can be used to prolong the default inactivity timer.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 65535<CR>Unit: s
attr_description[Lrat.QciProfilePredefined,lessMaxDelayThreshold] = Time delay that scheduling stays on-hold for Low Energy Scheduler Solution.<CR>If 0, Low Energy Scheduler Solution is disabled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 20<CR>Unit: ms
attr_description[Lrat.QciProfilePredefined,logicalChannelGroupRef] = Refers to an instance of LogicalChannelGroup. Assigns a Logical Channel Group to a Quality of Service Class Indicator (QCI).<CR>Change takes effect: New connection<CR>References: Lrat.LogicalChannelGroup[0-]
attr_description[Lrat.QciProfilePredefined,measReportConfigParams] = Encapsulates the offset quantities of the mobility measurement thresholds. Only absolute mobility measurement thresholds are considered. The structure holds, for example, offsets for the thresholds a1ThresholdRsrpPrim, a2ThresholdRsrpPrim, and a5Threshold1Rsrp. The offsets are meant mainly to have values that differentiate the measurement thresholds between QCIs.<CR>Change takes effect: New connection
attr_description[Lrat.QciProfilePredefined,pdbOffset] = An offset to the PDB used by Active Queue Management (AQM).<CR>Dependencies: pdb + pdbOffset >= 0<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: -500 to 1000
attr_description[Lrat.QciProfilePredefined,pdb] = The contribution from eNodeB to the Packet Delay Budget (PDB) for a QCI. Packet delays outside eNodeB e.g. in the transport network are excluded. For more information about PDB refer to TS 23.203.<CR>Dependencies: Only relevant if the license for QoS Aware Scheduler is present and active.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.QciProfilePredefined,pdcpSNLength] = Indicates the Packet Data Convergence Protocol (PDCP) Sequence Number length in bits as specified in TS 36.323.<CR>Dependencies: RLC UM must be configured (rlcMode = UM) to set this attribute to 7. RLC AM must be configured (rlcMode = AM) to set this attribute to 15. 15-bits PDCP SN is only applied if:<CR> - pdcp-SN-Extension capability is indicated by UE; And<CR> - UE is of category 11 or above; And<CR> - UE is capable of at least 3C Carrier Aggregation.<CR>Otherwise, default value of 12-bits PDCP SN is applied for RLC AM bearers.<CR>Change takes effect: Cell lock/unlock<CR>Default=12<CR>Range: 7,12,15
attr_description[Lrat.QciProfilePredefined,priority] = Quality of Service Class Indicator (QCI)-related priority as defined in 3GPP TS 23.203 (Release 8).<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Range: 1 to 14
attr_description[Lrat.QciProfilePredefined,qciACTuning] = Tuning factor per QCI for admission control. Only valid for QCIs with resource type GBR.<CR>Dependencies: Only relevant if the license for Dynamic GBR admission control is present and the feature is active.<CR>Disturbances: Setting values below one means overbooking of GBR resources and thus a risk of letting in more GBR traffic than can be supported. Setting values above one means underbooking of GBR resources and thus a risk of underutilization of the resources.<CR>Change takes effect: New connection<CR>Default=1000<CR>Range: 1 to 1999<CR>Unit: 0.001 .
attr_description[Lrat.QciProfilePredefined,qciProfilePredefinedId] = The value component of the RDN.
attr_description[Lrat.QciProfilePredefined,qciSubscriptionQuanta] = Normalized subscription quantity associated with the specific the QCI. Specifies the subscription cost of a bearer with this predefined profile.  The subscription cost is used for traffic load balancing purposes.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Default=1<CR>Range: 0 to 50000
attr_description[Lrat.QciProfilePredefined,qci] = Quality of Service Class Indicator (QCI) as defined in 3GPP TS 23.203  (Release 8). Each instance of this MO has a unique value for the QCI.<CR>Special value: 0 refers to a default QCI profile activated whenever a profile related to a specific QCI has not been defined.<CR>Dependencies: Each qci must be set to a unique value.<CR>Range: 0 to 9
attr_description[Lrat.QciProfilePredefined,relativePriority] = The relative priority associated with a QCI.<CR>Dependencies: Changes to this parameter take effect only if the feature states of the  QoS Aware Scheduler , Proportional Fair Scheduler, and  the Rps are enabled.<CR>Change takes effect: New connection<CR>Default=1<CR>Range: 1 to 65535
attr_description[Lrat.QciProfilePredefined,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.FlexibleQoSGroup[0-]
attr_description[Lrat.QciProfilePredefined,resourceAllocationStrategy] = Defines the resource allocation strategy of the QoS Class Identifier (QCI).<CR>Dependencies: Only relevant if the licenses for Uplink Frequency Selective Scheduling and QoS Aware Scheduler are present and the features are active.<CR>Change takes effect: New connection<CR>Default=RESOURCE_FAIR<CR>Range: 0,1
attr_description[Lrat.QciProfilePredefined,resourceType] = Indicates if the resource type of the Quality of Service Class Indicator (QCI) is Guaranteed Bit Rate (GBR) or non-GBR as defined in 3GPP TS 23.203.<CR>Change takes effect: Object unlocked<CR>Range: 0,1
attr_description[Lrat.QciProfilePredefined,rlcMode] = RLC Mode<CR>Dependencies: Can only be set to AM if rlcSNLength is set to 10 or 16 and pdcpSNLength is set to 12 or 15. Must be set to UM if rlcSNLength is set to 5 or pdcpSNLength is set to 7.<CR>Change takes effect: Cell lock/unlock<CR>Default=AM<CR>Range: 0,1,2
attr_description[Lrat.QciProfilePredefined,rlcSNLength] = Radio Link Control (RLC) Sequence Number length in bits as specified in TS 36.322.<CR>Dependencies: RLC UM must be configured (rlcMode = UM) to set this attribute to 5. RLC AM must be configured (rlcMode = AM) to set this attribute to 16. 16-bit RLC SN is only applied if:<CR>- extendedRLC-SN-SO-Field-r13 is indicated by UE; and<CR>- 5CC DL Carrier Aggregation Extension license is enabled; and<CR>- UE is capable of at least 5CC DL Carrier Aggregation.<CR>Otherwise, default value of 10-bit RLC SN is applied for RLC AM bearers.<CR>Change takes effect: Cell lock/unlock<CR>Default=10<CR>Range: 5,10,16
attr_description[Lrat.QciProfilePredefined,rlfPriority] = The relative priority among the RLF (Radio Link Failure) profiles, i.e. if the bearer that is setup with this QCI has a higher RLF priority than any of the existing bearers, the RLF configuration will be set to those selected by the rlfProfileId for this QCI. If more than one QCI has been configured with the same and highest value of rlfPriority the RLF configuration will be set by the lowest QCI. The instances that share the same rlfProfileId may have the same rlfPriority value. Also note that larger rlfPriority values indicate higher relative priority.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100
attr_description[Lrat.QciProfilePredefined,rlfProfileRef] = Points out the RLF profile associated with this QCI. If not set the default reference will be to the RlfProfile instance corresponding to Local Distinguished Name (LDN) = ManagementElement=1, ENodeBFunction=1, RlfProfile=0.<CR>isNillable: true<CR>Dependencies: The RLF profile must exist, otherwise it will be interpreted as default RLF profile.<CR>Change takes effect: Object unlocked<CR>References: Lrat.RlfProfile[0-]
attr_description[Lrat.QciProfilePredefined,rohcEnabled] = Indicates if Robust Header Compression (ROHC) is enabled.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.QciProfilePredefined,schedulingAlgorithm] = Specifies which scheduling algorithm is to be used for a certain QCI.<CR>Dependencies: Only relevant if the license for QoS Aware Scheduler is present and the feature is active. The value DELAY_BASED can only be used if the attribute serviceType has value VOIP.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=RESOURCE_FAIR<CR>Range: 0,1,2,3,4,5,6
attr_description[Lrat.QciProfilePredefined,serviceType] = Indicates the service that the bearer is used for.<CR>Dependencies: Changes to this parameter take effect only if the license for QoS Aware Scheduler is present and the feature is active.<CR>Change takes effect: Cell lock/unlock<CR>Default=UNDEFINED<CR>Range: 0,1,2
attr_description[Lrat.QciProfilePredefined,srsAllocationStrategy] = If the parameter srsAllocationStrategy in the QoS configuration for a Data radio Bearer assigned to a UE is set to ACTIVATED, then an attempt is made to allocate sounding for a UE. If several Data Radio Bearers are setup towards the UE with different QoS configurations, and the QoS configurations has different QCI parameter, an algorithm using the priority parameter in the QoS configuration, will resolve which QoS configuration that will define sounding.<CR>Dependencies: Only relevant if the licenses for QoS Aware Scheduler and frequency selective scheduling are present and the features are active.<CR>Change takes effect: New connection<CR>Default=DEACTIVATED<CR>Range: 0,1
attr_description[Lrat.QciProfilePredefined,tReorderingDl] = This timer is used by the receiving end of Acknowledged Mode (AM) or Unacknowledged Mode (UM) Radio Link Control (RLC) entity in UE, to detect loss of downlink RLC protocol data units at lower layers.<CR>Dependencies: Not applicable for RLC TM. Only relevant when rlcMode is UM or AM<CR>Change takes effect: New connection<CR>Default=35<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,110,120,130,140,150,160,170,180,190,200<CR>Unit: ms
attr_description[Lrat.QciProfilePredefined,tReorderingUl] = This timer is used by the receiving end of the Acknowledged Mode (AM) or Unacknowledged Mode (UM) Radio Link Control (RLC) entity in eNB, to detect loss of uplink RLC protocol data units at lower layers.<CR>Dependencies: Not applicable for RLC TM. Only relevant when rlcMode is UM or AM<CR>Change takes effect: Cell lock/unlock<CR>Default=35<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,110,120,130,140,150,160,170,180,190,200<CR>Unit: ms
attr_description[Lrat.QciProfilePredefined,timerPriority] = Relative priority among the timer profiles. TimerProfile with highest priority can be applied for a new connection in case the bearer QCI has an associated TimerProfile.<CR>In case several bearers with different QCIs are established, the TimerProfile with highest relative priority is applied.<CR>The TimerProfile with lowest QCI number is applied, if TimerProfiles have the same priority,<CR>Larger timerPriority value indicates higher relative priority.<CR>Change takes effect: Object unlocked<CR>Default=0<CR>Range: 0 to 100
attr_description[Lrat.QciProfilePredefined,timerProfileRef] = Refers to the timer profile associated with this QCI.<CR>isNillable: true<CR>Change takes effect: Object unlocked<CR>References: Lrat.TimerProfile[0-]
attr_description[Lrat.QciProfilePredefined,ulMaxHARQTxQci] = Maximum number of transmissions for one HARQ process in UL when this QCI has the highest HARQ priority.<CR>Specification: 3GPP 36.321<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1,2,3,4,5,6,7
attr_description[Lrat.QciProfilePredefined,ulMaxWaitingTime] = The scheduler attempts to achieve ulMaxWaitingTime for UL bearers before giving any UL bearer a higher priority. Value 0 means that the higher priority is never applied. Must be set to a similar or slightly shorter value than the PDB. Setting too low a value can affect other services with higher priority. For more information about PDB refer to TS 23.203.<CR>Dependencies: Only used for Resource Fair Scheduling algorithm. Only relevant if the license for Advanced Differentiation for Resource Fair Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can affect performance of all data bearers. A value that is set too low can affect other services with higher priority. A value that is set too high can cause Dynamic UE Admission Control to fail in keeping the cell stable at overload.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.QciProfilePredefined,ulMinBitRate] = The scheduler will attempt to achieve minbitrate for all bearers before giving any user a higher rate. Value 0 means that the minRate scheduler is not used.<CR>Dependencies: This parameter will only be used if one of the following Proportional Fair scheduling algorithms, "maximum_C_over_I", "proportional_fair_low", "proportional_fair_medium", "proportional_fair_high" or "equal_rate", has been selected.<CR>Only relevant if the license for QoS Aware Scheduler is present and the feature is active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 75000<CR>Unit: kbps
attr_description[Lrat.QciProfilePredefined,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.QciTable,qciTableId] = The value component of the RDN.
attr_description[Lrat.QciTable,reservedBy] = Contains a list of cells that reserves this MO instance.<CR>Change takes effect: New connection.<CR>MinLength=0<CR>References: Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-]
attr_description[Lrat.RATFreqPrio,bandClassPrioListCDMA1xRtt] = CDMA2000 1xRTT frequency prioritization.<CR>This attribute prioritizes CDMA2000 1xRTT frequencies among all frequencies related to the cell for UE cell reselection procedure and for UEs in connected mode. It is not possible to create every possible frequency and band relation since that would require too many instances using this representation.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=128
attr_description[Lrat.RATFreqPrio,bandClassPrioListCDMA2000] = Prioritizes CDMA2000 frequencies among all frequencies related to the cell for UE cell reselection procedure and for Ues in connected mode. It is not possible to create every possible frequency and band relation since that would require to many instances using this representation.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=128
attr_description[Lrat.RATFreqPrio,freqGroupPrioListGERAN] = Prioritizes GERAN frequencies among all frequencies related to the cell for UE cell reselection procedure and for UEs in connected mode.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=96
attr_description[Lrat.RATFreqPrio,freqPrioListEUTRA] = Prioritizes EUTRAN frequencies among all frequencies related to the cell for UE cell reselection procedure and for UEs in connected mode.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=24
attr_description[Lrat.RATFreqPrio,freqPrioListUTRA] = Prioritizes UTRAN frequencies among all frequencies related to the cell for UE cell reselection procedure and for Ues in connected mode.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=64
attr_description[Lrat.RATFreqPrio,rATFreqPrioId] = The value component of the RDN
attr_description[Lrat.RATFreqPrio,spidList] = A list that includes all UEs that are affected by the RAT priorities specified in this MOC.<CR>Note: When value is configured to -1000, the parameter is ignored.<CR>Change takes effect: Ongoing connection<CR>Default=-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000 MinLength=0 MaxLength=20 Default=-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000,-1000<CR>Range: -1000,1 to 256
attr_description[Lrat.RATFreqPrio,t320] = Validity time for cell reselection priority information provided by dedicated signalling. Used by the UE. This parameter is only used in the optional feature 'subscriber triggered mobility' when setting new cell reselection priorities based on SPID value for a specific UE.<CR>Change takes effect: Ongoing connection<CR>Default=30<CR>Range: 5,10,20,30,60,120,180<CR>Unit: min
attr_description[Lrat.RATFreqPrio,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.RadioBearerTable,radioBearerTableId] = The value component of the RDN.
attr_description[Lrat.RadioBearerTable,reservedBy] = Contains a list of cells that reserves this MO instance.<CR>Change takes effect: New connection.<CR>MinLength=0<CR>References: Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-]
attr_description[Lrat.Rcs,rcsId] = The value component of the RDN.
attr_description[Lrat.Rcs,rlcDlDeliveryFailureAction] = Attribute controls the action when there is an RLC DL Delivery failure on a DRB in a connection. The action can be set to:<CR>- always make an UE Context release<CR>- resume the connection if higher ARP prioritized DRBs exist to get better retainability<CR>If there is RLC Delivery failure on SRB or on the DRB used for IMS Signaling (indicated by ServiceType in QciProfileOperatorDefined/QciProfilePredefined), the design base behavior applies. In this case, eNodeB triggers a UE Context Release regardless of the value of attribute rlcDlDeliveryFailureAction.<CR>Dependencies: If this attribute is not set to UE_CONTEXT_RELEASE, the behavior depends on:<CR>- ARP priority<CR>- ServiceType attribute<CR>Disturbances: Changing this attribute can affect traffic if the value is not set to make a UE context release. When there is a RLC DL Delivery failure on one of several DRBs of a UE, the DRB may be marked as failed and the other DRBs are then retained. The marked DRB cannot be used after the failure until a handover or an RRC Connection Re-establishment initiated by the UE is successful.<CR>Default=UE_CONTEXT_RELEASE<CR>Range: 0,1,2
attr_description[Lrat.Rcs,tInactivityTimerBr] = Time a Bandwidth reduced UE can be inactive before it is released.<CR>86400s = 24 hours.<CR>Special values:<CR>0 turns timer off. If so, UEs are not released due to inactivity.<CR>Change takes effect: New connection<CR>Default=61<CR>Range: 0 to 86400<CR>Unit: s
attr_description[Lrat.Rcs,tInactivityTimer] = The time a UE can be inactive before it is released.<CR>86400s = 24 hours<CR>Special values:<CR>0 is used to turn off the use of this timer. This means that a UE will not be released due to inactivity.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection.<CR>Default=61<CR>Range: 0,10 to 86400<CR>Unit: s
attr_description[Lrat.ReportConfigA1Prim,a1ThresholdRsrpPrim] = The Reference Signal Received Power (RSRP) threshold value for the primary eventA1.<CR>Dependencies: Only used if triggerQuantityA2Prim is set to RSRP.<CR>Change takes effect: New connection<CR>Default=-136<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigA1Prim,a1ThresholdRsrqPrim] = The Reference Signal Received Quality (RSRQ) threshold value for the primary eventA1.<CR>Dependencies: Only used if triggerQuantityA2Prim is set to RSRQ.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA1Prim,hysteresisA1Prim] = The hysteresis value for the primary eventA1 measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA1Prim,reportAmountA1Prim] = The number of reports for periodical reporting for the primary eventA1 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=1<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigA1Prim,reportConfigA1PrimId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigA1Prim,reportIntervalA1Prim] = The interval for event-triggered periodical reporting for the primary eventA1 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigA1Prim,reportQuantityA1Prim] = The quantities to include in the measurement report for the primary eventA1 measurement.<CR>The value 0 - sameAsTriggerQuantity means that the same quantity as triggerQuantity is included in the measurement report.<CR>The value 1 - BOTH means that both Reference Signal Received Power (RSRP) and Reference Signal Received Quality (RSRQ) quantities are included in the measurement report.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigA1Prim,timeToTriggerA1Prim] = The time-to-trigger value for the primary eventA1 measurement.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigA1Sec,a1ThresholdRsrpSec] = The Reference Signal Received Power (RSRP) threshold value for the secondary eventA1.<CR>Dependencies: Only used if triggerQuantityA2Sec is set to RSRP.<CR>Change takes effect: New connection<CR>Default=-136<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigA1Sec,a1ThresholdRsrqSec] = The Reference Signal Received Quality (RSRQ) threshold value for the secondary eventA1.<CR>Dependencies: Only used if triggerQuantityA2Sec is set to RSRQ.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA1Sec,hysteresisA1Sec] = The hysteresis value for the secondary eventA1 measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA1Sec,reportAmountA1Sec] = The number of reports for periodical reporting for the secondary eventA1 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=1<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigA1Sec,reportConfigA1SecId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigA1Sec,reportIntervalA1Sec] = The interval for event-triggered periodical reporting for the secondary eventA1 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigA1Sec,reportQuantityA1Sec] = The quantities to include in the measurement report for the secondary eventA1 measurement.<CR>The value 0 - sameAsTriggerQuantity means that the same quantity as triggerQuantity is included in the measurement report.<CR>The value 1 - BOTH means that both Reference Signal Received Power (RSRP) and Reference Signal Received Quality (RSRQ) quantities are included in the measurement report.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigA1Sec,timeToTriggerA1Sec] = The time-to-trigger value for the secondary eventA1 measurement.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigA4,a4ThresholdRsrp] = The Reference Signal Received Power (RSRP) threshold value for eventA4.<CR>Dependencies: Only used if triggerQuantityA4 is set to RSRP.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigA4,a4ThresholdRsrq] = The Reference Signal Received Quality (RSRQ) threshold value for eventA4.<CR>Dependencies: Only used if triggerQuantityA4 is set to RSRQ.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA4,hysteresisA4] = The hysteresis value for the eventA4 measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA4,maxReportCellsA4] = Maximum number of cells to include in the measurement report for the eventA4 measurement.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigA4,reportAmountA4] = The number of reports for periodical reporting for the eventA4 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigA4,reportConfigA4Id] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigA4,reportIntervalA4] = The interval for event-triggered periodical reporting for the eventA4 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigA4,reportQuantityA4] = The quantities to include in the measurement report for the eventA4 measurement.<CR>The value 0 - sameAsTriggerQuantity means that the same quantity as triggerQuantity is included in the measurement report.<CR>The value 1 - BOTH means that both Reference Signal Received Power (RSRP) and Reference Signal Received Quality (RSRQ) quantities are included in the measurement report.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigA4,timeToTriggerA4] = The time-to-trigger value for the eventA4 measurement.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigA4,triggerQuantityA4] = The quantity that triggers the eventA4 for the eventA4 measurement.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigA5,a5Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for eventA5.<CR>Dependencies: Only used if triggerQuantityA5 is set to RSRP.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigA5,a5Threshold1Rsrq] = The Reference Signal Received Quality (RSRQ) threshold1 value for eventA5.<CR>Dependencies: Only used if triggerQuantityA5 is set to RSRQ.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5,a5Threshold2Rsrp] = The Reference Signal Received Power (RSRP) threshold2 value for eventA5.<CR>Dependencies: Only used if triggerQuantityA5 is set to RSRP.<CR>Change takes effect: New connection<CR>Default=-136<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigA5,a5Threshold2Rsrq] = The Reference Signal Received Quality (RSRQ) threshold2 value for eventA5.<CR>Dependencies: Only used if triggerQuantityA5 is set to RSRQ.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5,hysteresisA5RsrqOffset] = Offset to obtain the Hysteresis for A5 measurement for trigger quantity RSRQ. hysteresisA5Rsrq = hysteresisA5 + hysteresisA5RsrqOffset<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5,hysteresisA5] = The hysteresis value for the eventA5 measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5,maxReportCellsA5] = Maximum number of cells to include in the measurement report for the eventA5 measurement.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigA5,reportAmountA5] = The number of reports for periodical reporting for the eventA5 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigA5,reportConfigA5Id] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigA5,reportIntervalA5] = The interval for event-triggered periodical reporting for the eventA5 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigA5,reportQuantityA5] = The quantities to include in the measurement report for the eventA5 measurement.<CR>The value 0 - sameAsTriggerQuantity means that the same quantity as triggerQuantity is included in the measurement report.<CR>The value 1 - BOTH means that both Reference Signal Received Power (RSRP) and Reference Signal Received Quality (RSRQ) quantities are included in the measurement report.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigA5,timeToTriggerA5Rsrq] = Time-to-trigger value for event A5 with trigger quantity RSRQ. If set to -1, this attribute is not used for report configuration.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigA5,timeToTriggerA5] = Time-to-trigger value for event A5. If timeToTriggerA5Rsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigA5,triggerQuantityA5] = The quantity that triggers the eventA5 for the eventA5 measurement.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigA5Anr,a5Threshold1RsrpAnrDelta] = This parameter together with a5Threshold1Rsrp specifies "The Reference Signal Received Power (RSRP) threshold1 value for eventA5." . The equation for calculating the RSRP threshold1 value for ANR is a5Threshold1Rsrp + a5Threshold1RsrpAnrDelta . Only used if triggerQuantityA5 onReportConfigA5 MO is set to RSRP.<CR>Dependencies: Not pure dependence towards parameter on ReportConficA5 Mo, but there should be a check that this attribute and corresponding attribute on ReportConfigA5 MO together sends out a valid number to the UE<CR>Change takes effect: New connection<CR>Default=1<CR>Range: -10 to 10<CR>Unit: dB
attr_description[Lrat.ReportConfigA5Anr,a5Threshold1RsrqAnrDelta] = This parameter together with a5Threshold1Rsrq specifies "The Reference Signal Received Quality (RSRQ) threshold1 value for eventA5." . The equation for calculating the RSRQ threshold1 value for ANR is a5Threshold1Rsrq + a5Threshold1RsrqAnrDelta . Only used if triggerQuantityA5 onReportConfigA5 MO is set to RSRQ.<CR>Dependencies: Not pure dependence towards parameter on ReportConficA5 Mo, but there should be a check that this attribute and corresponding attribute on ReportConfigA5 MO together sends out a valid number to the UE<CR>Change takes effect: New connection<CR>Default=10<CR>Range: -10 to 10<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5Anr,a5Threshold2RsrpAnrDelta] = This parameter together with a5Threshold2Rsrp specifies "The Reference Signal Received Power (RSRP) threshold2 value for eventA5." . The equation for calculating the RSRP threshold2 value for ANR is a5Threshold2Rsrp - a5Threshold2RsrpAnrDelta . Only used if triggerQuantityA5 onReportConfigA5 MO is set to RSRP.<CR>Dependencies: Not pure dependence towards parameter on ReportConficA5 Mo, but there should be a check that this attribute and corresponding attribute on ReportConfigA5 MO together sends out a valid number to the UE<CR>Change takes effect: New connection<CR>Default=1<CR>Range: -10 to 10<CR>Unit: dB
attr_description[Lrat.ReportConfigA5Anr,a5Threshold2RsrqAnrDelta] = This parameter together with a5Threshold2Rsrq specifies "The Reference Signal Received Quality (RSRQ) threshold2 value for eventA5." . The equation for calculating the RSRQ threshold2 value for ANR is a5Threshold2Rsrq -a5Threshold2RsrqAnrDelta . Only used if triggerQuantityA5 onReportConfigA5 MO is set to RSRQ.<CR>Dependencies: Not pure dependence towards parameter on ReportConficA5 Mo, but there should be a check that this attribute and corresponding attribute on ReportConfigA5 MO together sends out a valid number to the UE<CR>Change takes effect: New connection<CR>Default=10<CR>Range: -10 to 10<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5Anr,hysteresisA5] = The hysteresis value for the eventA5 measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5Anr,reportConfigA5AnrId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigA5Anr,timeToTriggerA5] = The time-to-trigger value for the eventA5 measurement.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigA5DlComp,a5Threshold1Rsrq] = The RSRQ threshold1 value for event A5 used in Downlink Coordinated Multi-Point.<CR>Change takes effect: New connection<CR>Default=-115<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5DlComp,a5Threshold2Rsrq] = The RSRQ threshold2 value for event A5 used in Downlink Coordinated Multi-Point.<CR>Change takes effect: New connection<CR>Default=-185<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5DlComp,hysteresisA5] = The hysteresis value for the event A5 measurements used in Downlink Coordinated Multi-Point.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5DlComp,reportConfigA5DlCompId] = The value component of the RDN.
attr_description[Lrat.ReportConfigA5DlComp,reportIntervalA5] = The interval for event-triggered periodical reporting for the event A5 measurements used in Downlink Coordinated Multi-Point.<CR>Change takes effect: New connection<CR>Default=MS_1024<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigA5DlComp,timeToTriggerA5] = The time-to-trigger value for event A5 used in Downlink Coordinated Multi-Point.<CR>Change takes effect: New connection<CR>Default=160<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigA5SoftLock,a5Threshold2Rsrp] = RSRP threshold2 value for eventA5.<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigA5SoftLock,hysteresisA5] = Hysteresis value for eventA5 measurement.<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5SoftLock,maxReportCellsA5] = Maximum number of cells to include in the measurement report for eventA5 measurement.<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigA5SoftLock,reportAmountA5] = Number of reports for periodical reporting for eventA5 measurement.<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigA5SoftLock,reportConfigA5SoftLockId] = The value component of the RDN.
attr_description[Lrat.ReportConfigA5SoftLock,reportIntervalA5] = Interval for event-triggered periodical reporting for eventA5 measurement.<CR>Default=MS_640<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigA5SoftLock,timeToTriggerA5] = Time-to-trigger value for eventA5 measurement.<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigA5UlTrig,a5Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for eventA5.<CR>Change takes effect: New connection<CR>Default=-44<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigA5UlTrig,a5Threshold1Rsrq] = The Reference Signal Received Quality (RSRQ) threshold1 value for event A5.<CR>Change takes effect: New connection<CR>Default=-30<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5UlTrig,a5Threshold2Rsrp] = The Reference Signal Received Power (RSRP) threshold2 value for eventA5.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigA5UlTrig,a5Threshold2Rsrq] = The Reference Signal Received Quality (RSRQ) threshold2 value for event A5.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -31<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5UlTrig,hysteresisA5] = The hysteresis value for the eventA5.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigA5UlTrig,maxReportCellsA5] = Max number of cells to include in the measurement report.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigA5UlTrig,reportAmountA5] = Number of reports when periodical reporting is used.<CR>Value of 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigA5UlTrig,reportConfigA5UlTrigId] = The value component of the RDN.
attr_description[Lrat.ReportConfigA5UlTrig,reportIntervalA5] = The interval for event triggered periodical reporting for A5 event.<CR>Change takes effect: New connection<CR>Default=MS_2048<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigA5UlTrig,timeToTriggerA5] = Time-to-trigger value for event A5.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigA5UlTrig,triggerQuantityA5] = The quantity that triggers the event.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigB1Geran,b1ThresholdGeran] = The Signal Quality in the ThresholdGERAN, threshold value for eventB1.<CR>Change takes effect: New connection<CR>Default=-110<CR>Range: -110 to -47<CR>Unit: dBm
attr_description[Lrat.ReportConfigB1Geran,hysteresisB1] = The hysteresis value for the eventB1 measurement on GERAN<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB1Geran,maxReportCellsB1] = Maximum number of cells to include in the measurement report for the eventB1 measurement for GERAN.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB1Geran,reportAmountB1] = The number of reports for periodical reporting for the eventB1 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB1Geran,reportConfigB1GeranId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigB1Geran,reportIntervalB1] = The interval for event triggered periodical reporting for the eventB1 measurement for GERAN.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB1Geran,timeToTriggerB1] = The time to trigger value for the eventB1 measurement.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB1Utra,b1ThresholdEcNoUtra] = Ratio of energy per modulation bit to noise spectral density in the ThresholdUTRA, threshold value for eventB1.<CR>Not applicable for UTRA TDD.<CR>Dependencies: Only used when measQuantityUtraFDD is set to ECNO<CR>Change takes effect: New connection<CR>Default=-240<CR>Range: -245 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB1Utra,b1ThresholdRscpUtra] = RSCP threshold value for the event B1 measurement for Coverage based IRAT handover to UTRAN.<CR>Dependencies: Only used when measQuantityUtraFDD is set to RSCP<CR>Change takes effect: New connection<CR>Default=-115<CR>Range: -120 to -24<CR>Unit: dBm
attr_description[Lrat.ReportConfigB1Utra,hysteresisB1] = The hysteresis value for the eventB1 measurement on UTRAN<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB1Utra,maxReportCellsB1] = Maximum number of cells to include in the measurement report for the eventB1 measurement for UTRA.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB1Utra,reportAmountB1] = The number of reports for periodical reporting for the eventB1 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB1Utra,reportConfigB1UtraId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigB1Utra,reportIntervalB1] = The interval for event triggered periodical reporting for the eventB1 measurement for UTRA.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB1Utra,timeToTriggerB1] = The time to trigger value for the eventB1 measurement on UTRAN.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Cdma2000,b2Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for eventB2.<CR>Dependencies: Only used if triggerQuantityB2 is set to RSRP.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2Cdma2000,b2Threshold1Rsrq] = The Reference Signal Received Quality (RSRQ) threshold1 value for eventB2.<CR>Dependencies: Only used if triggerQuantityB2 is set to RSRQ.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Cdma2000,b2Threshold2Cdma2000] = The Signal Quality in the thresholdCDMA2000, threshold2 value for eventB2.<CR>Change takes effect: New connection<CR>Default=-75<CR>Range: -315 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Cdma2000,hysteresisB2RsrqOffset] = Offset to obtain the Hysteresis for B2 measurement for trigger quantity RSRQ. hysteresisB2Rsrq = hysteresisB2 + hysteresisB2RsrqOffset<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Cdma2000,hysteresisB2] = The hysteresis value for the eventB2 measurement<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Cdma2000,maxReportCellsB2] = Maximum number of cells to include in the measurement report for the eventB2 measurement.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB2Cdma2000,reportAmountB2] = The number of reports for periodical reporting for the eventB2 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB2Cdma2000,reportConfigB2Cdma2000Id] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigB2Cdma2000,reportIntervalB2] = The interval for event triggered periodical reporting for the eventB2 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB2Cdma2000,timeToTriggerB2Rsrq] = Time-to-trigger value for event B2 with trigger quantity RSRQ. If set to -1, attribute is not used for report configuration.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Cdma2000,timeToTriggerB2] = Time-to-trigger value for event B2 measurements. If timeToTriggerB2Rsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Cdma2000,triggerQuantityB2] = The quantity for threshold1 (serving EUTRAN cell) that is sent to the UE, and is used together with threshold2 to trigger the eventB2.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,b2Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for eventB2.<CR>Dependencies: Only used if triggerQuantityB2 is set to RSRP.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,b2Threshold1Rsrq] = The Reference Signal Received Quality (RSRQ) threshold1 value for eventB2.<CR>Dependencies: Only used if triggerQuantityB2 is set to RSRQ.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,b2Threshold2Cdma20001xRtt] = The Signal Quality in the thresholdCDMA2000, threshold2 value for eventB2.<CR>Change takes effect: New connection<CR>Default=-75<CR>Range: -315 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,hysteresisB2RsrqOffset] = Offset to obtain the Hysteresis for B2 measurement for trigger quantity RSRQ. hysteresisB2Rsrq = hysteresisB2 + hysteresisB2RsrqOffset<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,hysteresisB2] = The hysteresis value for the event B2 measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,maxReportCellsB2] = Maximum number of cells to include in the measurement report for the eventB2 measurement.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,reportAmountB2] = The number of reports for periodical reporting for the eventB2 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,reportConfigB2Cdma20001xRttId] = The value component of the RDN.
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,reportIntervalB2] = The interval for event-triggered periodical reporting for the eventB2 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,timeToTriggerB2Rsrq] = Time-to-trigger value for event B2 with trigger quantity RSRQ. If set to -1, this attribute is not used for report configuration.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,timeToTriggerB2] = Time-to-trigger value for event B2 measurements. If timeToTriggerB2Rsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Cdma20001xRtt,triggerQuantityB2] = The quantity for threshold1 that is sent to the UE, and is used together with threshold2 to trigger the eventB2.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigB2CdmaRttUlTrig,b2Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for event B2 used when the measurement is triggered by bad uplink.<CR>Change takes effect: New connection<CR>Default=-44<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2CdmaRttUlTrig,b2Threshold2Cdma20001xRtt] = The Signal Quality in the thresholdCDMA2000, threshold2 value for eventB2.<CR>Change takes effect: New connection<CR>Default=-75<CR>Range: -315 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2CdmaRttUlTrig,hysteresisB2] = The hysteresis value for the event B2.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2CdmaRttUlTrig,maxReportCellsB2] = Max number of cells to include in the measurement report.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB2CdmaRttUlTrig,reportAmountB2] = Number of reports when periodical reporting is used.<CR>Value of 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB2CdmaRttUlTrig,reportConfigB2CdmaRttUlTrigId] = The value component of the RDN.
attr_description[Lrat.ReportConfigB2CdmaRttUlTrig,reportIntervalB2] = The interval for event triggered periodical reporting for B2 event.<CR>Change takes effect: New connection<CR>Default=MS_2048<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB2CdmaRttUlTrig,timeToTriggerB2] = Time-to-trigger value for event B2.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2CdmaUlTrig,b2Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for event B2 used when the measurement is triggered by bad uplink.<CR>Change takes effect: New connection<CR>Default=-44<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2CdmaUlTrig,b2Threshold2Cdma2000] = The Signal Quality in the thresholdCDMA2000, threshold2 value for eventB2.<CR>Change takes effect: New connection<CR>Default=-75<CR>Range: -315 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2CdmaUlTrig,hysteresisB2] = The hysteresis value for the event B2.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2CdmaUlTrig,maxReportCellsB2] = Max number of cells to include in the measurement report.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB2CdmaUlTrig,reportAmountB2] = Number of reports when periodical reporting is used.<CR>Value of 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB2CdmaUlTrig,reportConfigB2CdmaUlTrigId] = The value component of the RDN.
attr_description[Lrat.ReportConfigB2CdmaUlTrig,reportIntervalB2] = The interval for event triggered periodical reporting for B2 event.<CR>Change takes effect: New connection<CR>Default=MS_2048<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB2CdmaUlTrig,timeToTriggerB2] = Time-to-trigger value for event B2.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Geran,b2Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for eventB2.<CR>Dependencies: Only used if triggerQuantityB2 is set to RSRP.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2Geran,b2Threshold1Rsrq] = The Reference Signal Received Quality (RSRQ) threshold1 value for eventB2.<CR>Dependencies: Only used if triggerQuantityB2 is set to RSRQ.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Geran,b2Threshold2Geran] = The Signal Quality in the ThresholdGERAN, threshold2 value for eventB2.<CR>Change takes effect: New connection<CR>Default=-110<CR>Range: -110 to -47<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2Geran,hysteresisB2RsrqOffset] = Offset to obtain the Hysteresis for B2 measurement for trigger quantity RSRQ. hysteresisB2Rsrq = hysteresisB2 + hysteresisB2RsrqOffset<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Geran,hysteresisB2] = The hysteresis value for the eventB2 measurement<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Geran,maxReportCellsB2] = Maximum number of cells to include in the measurement report for the eventB2 measurement.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB2Geran,reportAmountB2] = The number of reports for periodical reporting for the eventB2 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB2Geran,reportConfigB2GeranId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigB2Geran,reportIntervalB2] = The interval for event triggered periodical reporting for the eventB2 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB2Geran,timeToTriggerB2Rsrq] = Time-to-trigger value for event B2 with trigger quantity RSRQ. If set to -1, attribute is not used for report configuration.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Geran,timeToTriggerB2] = Time-to-trigger value for event B2 measurements. If timeToTriggerB2Rsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Geran,triggerQuantityB2] = The quantity for threshold1 (serving EUTRAN cell) that is sent to the UE, and is used together with threshold2 to trigger the eventB2.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigB2GeranUlTrig,b2Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for event B2 used when the measurement is triggered by bad uplink.<CR>Change takes effect: New connection<CR>Default=-44<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2GeranUlTrig,b2Threshold2Geran] = The Signal Quality in the ThresholdGERAN, threshold2 value for eventB2.<CR>Change takes effect: New connection<CR>Default=-110<CR>Range: -110 to -47<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2GeranUlTrig,hysteresisB2] = The hysteresis value for the event B2.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2GeranUlTrig,maxReportCellsB2] = Max number of cells to include in the measurement report.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB2GeranUlTrig,reportAmountB2] = Number of reports when periodical reporting is used.<CR>Value of 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB2GeranUlTrig,reportConfigB2GeranUlTrigId] = The value component of the RDN.
attr_description[Lrat.ReportConfigB2GeranUlTrig,reportIntervalB2] = The interval for event triggered periodical reporting for B2 event.<CR>Change takes effect: New connection<CR>Default=MS_2048<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB2GeranUlTrig,timeToTriggerB2] = Time-to-trigger value for event B2.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Utra,b2Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for eventB2.<CR>Dependencies: Only used if triggerQuantityB2  is set to RSRP.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2Utra,b2Threshold1Rsrq] = The Reference Signal Received Quality (RSRQ) in the threshold1 value for eventB2.<CR>Dependencies: Only used if triggerQuantityB2 is set to RSRQ.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Utra,b2Threshold2EcNoUtra] = Ratio of energy per modulation bit to noise spectral density in the ThresholdUTRA, threshold2 value for eventB2.<CR>Not applicable for UTRA TDD.<CR>Dependencies: Only used when measQuantityUtraFDD is set to ECNO<CR>Change takes effect: New connection<CR>Default=-240<CR>Range: -245 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Utra,b2Threshold2RscpUtra] = Received Signal Code Power in the ThresholdUTRA, threshold2 value for eventB2.<CR>Dependencies: Used when measQuantityUtraFDD is set to RSCP.  Also present for UTRA TDD.<CR>Change takes effect: New connection<CR>Default=-115<CR>Range: -120 to -24<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2Utra,hysteresisB2RsrqOffset] = Offset to obtain the Hysteresis for B2 measurement for trigger quantity RSRQ. hysteresisB2Rsrq = hysteresisB2 + hysteresisB2RsrqOffset<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Utra,hysteresisB2] = The hysteresis value for the eventB2 measurement<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2Utra,maxReportCellsB2] = Maximum number of cells to include in the measurement report for the eventB2 measurement.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB2Utra,reportAmountB2] = The number of reports for periodical reporting for the eventB2 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB2Utra,reportConfigB2UtraId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigB2Utra,reportIntervalB2] = The interval for event triggered periodical reporting for the eventB2 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB2Utra,timeToTriggerB2Rsrq] = Time-to-trigger value for event B2 with trigger quantity RSRQ. If set to -1, this attribute is not used for report configuration.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Utra,timeToTriggerB2] = Time-to-trigger value for event B2 measurements. If timeToTriggerB2Rsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigB2Utra,triggerQuantityB2] = The quantity for threshold1 (serving EUTRAN cell) that is sent to the UE, and is used together with threshold2 to trigger the eventB2.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigB2UtraUlTrig,b2Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for event B2.<CR>Change takes effect: New connection<CR>Default=-44<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2UtraUlTrig,b2Threshold2EcNoUtra] = Ratio of energy per modulation bit to noise spectral density in the ThresholdUTRA, threshold2 value for eventB2.<CR>Not applicable for UTRA TDD.<CR>Used when UeMeasControl::measQuantityUtraFDD is set to ECNO.<CR>Change takes effect: New connection<CR>Default=-240<CR>Range: -240 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2UtraUlTrig,b2Threshold2RscpUtra] = Received Signal Code Power in the ThresholdUTRA, threshold2 value for eventB2.<CR>Also present for UTRA TDD.<CR>Used when UeMeasControl::measQuantityUtraFDD is set to RSCP.<CR>Change takes effect: New connection<CR>Default=-115<CR>Range: -120 to -24<CR>Unit: dBm
attr_description[Lrat.ReportConfigB2UtraUlTrig,hysteresisB2] = The hysteresis value for the event B2.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigB2UtraUlTrig,maxReportCellsB2] = Max number of cells to include in the measurement report.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigB2UtraUlTrig,reportAmountB2] = Number of reports when periodical reporting is used.<CR>Value of 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigB2UtraUlTrig,reportConfigB2UtraUlTrigId] = The value component of the RDN.
attr_description[Lrat.ReportConfigB2UtraUlTrig,reportIntervalB2] = The interval for event triggered periodical reporting for B2 event.<CR>Change takes effect: New connection<CR>Default=MS_2048<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigB2UtraUlTrig,timeToTriggerB2] = Time-to-trigger value for event B2.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigCsfbCdma2000,hysteresis] = Hysteresis value for the eventB1 measurement on CDMA2000<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigCsfbCdma2000,maxReportCells] = Maximum number of cells to include in the measurement report for the eventB1 measurement for CDMA2000<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigCsfbCdma2000,reportAmount] = Number of reports for periodical reporting for the eventB1 measurement<CR>The value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigCsfbCdma2000,reportConfigCsfbCdma2000Id] = Value component of the RDN
attr_description[Lrat.ReportConfigCsfbCdma2000,reportInterval] = Interval for event triggered periodical reporting for the eventB1 measurement for CDMA2000<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigCsfbCdma2000,thresholdCdma20001xRtt] = Signal Quality in the thresholdCDMA2000, threshold value for eventB1<CR>Change takes effect: New connection<CR>Default=-75<CR>Range: -315 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigCsfbCdma2000,timeToTrigger] = Time to trigger value for the eventB1 measurement on CDMA2000<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigCsfbGeran,hysteresis] = The hysteresis value for the event B1 and event B2, threshold2, measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigCsfbGeran,maxReportCells] = Maximum number of cells to include in the measurement report for the event B1 or B2 measurement.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigCsfbGeran,reportAmount] = The number of reports for periodical reporting for the event B1 or B2 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigCsfbGeran,reportConfigCsfbGeranId] = The value component of the RDN.
attr_description[Lrat.ReportConfigCsfbGeran,reportInterval] = The interval for event-triggered periodical reporting for the event B1 or B2 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigCsfbGeran,thresholdGeran] = The Signal Quality in the ThresholdGERAN, threshold value for event B1 or B2.<CR>Change takes effect: New connection<CR>Default=-110<CR>Range: -110 to -47<CR>Unit: dBm
attr_description[Lrat.ReportConfigCsfbGeran,timeToTrigger] = The time to trigger value for the event B1 or B2 measurement.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigCsfbUtra,hysteresis] = The hysteresis value for the event B1 and event B2, threshold2, measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigCsfbUtra,maxReportCells] = Maximum number of cells to include in the measurement report for the event B1 or B2 measurement.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigCsfbUtra,reportAmount] = The number of reports for periodical reporting for the event B1 or B2 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigCsfbUtra,reportConfigCsfbUtraId] = The value component of the RDN.
attr_description[Lrat.ReportConfigCsfbUtra,reportInterval] = The interval for event-triggered periodical reporting for the event B1 or B2 measurement.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigCsfbUtra,thresholdEcNo] = Ratio of energy per modulation bit to noise spectral density  used in the ThresholdUTRA, the threshold value for Event B1 and threshold2 value for Event B2.<CR>Dependencies: Only used when measQuantityUtraFDD is set to ECN0<CR>Change takes effect: New connection<CR>Default=-240<CR>Range: -245 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigCsfbUtra,thresholdRscp] = Received Signal Code Power in the ThresholdUTRA, the threshold value for Event B1 and threshold2 value for Event B2.<CR>Dependencies: Used when measQuantityUtraFDD is set to RSCP.<CR>Change takes effect: New connection<CR>Default=-115<CR>Range: -120 to -24<CR>Unit: dBm
attr_description[Lrat.ReportConfigCsfbUtra,timeToTrigger] = The time to trigger value for the event B1 or B2 measurement.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigCsg,a5Thr1RsrpAltCsgOffset] = Specific offset for redirecting to alternative frequencies for the absolute threshold ReportConfigA5::a5Threshold1Rsrp.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.ReportConfigCsg,a5Thr2RsrpAltCsgOffset] = Specific offset for redirecting to alternative frequencies for the absolute threshold ReportConfigA5::a5Threshold2Rsrp.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.ReportConfigCsg,hysteresisA5AltCsg] = The hysteresis value for the event A5-RSRP measurement used for redirecting to alternative frequency.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigCsg,reportConfigCsgId] = The value component of the RDN.
attr_description[Lrat.ReportConfigCsg,timeToTriggerA5AltCsg] = The time-to-trigger value for event A5-RSRP measurement used for redirecting to alternative frequency.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraBadCovPrim,a2ThresholdRsrpPrim] = The primary Reference Signal Received Power (RSRP) threshold value for eventA2. Used only when triggerQuantityA2Prim is set to RSRP.<CR>Primary and secondary measurement attributes refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraBadCovPrim,a2ThresholdRsrqPrim] = The primary Reference Signal Received Quality (RSRQ) threshold value for eventA2. Used only when triggerQuantityA2Prim is set to RSRQ.<CR>Primary and secondary measurement attributes refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraBadCovPrim,hysteresisA2Prim] = The hysteresis value for the primary eventA2 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraBadCovPrim,maxReportCellsA2Prim] = Maximum number of cells to include in the measurement report for the primary eventA2 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigEUtraBadCovPrim,reportAmountA2Prim] = The number of reports for periodical reporting for the primary eventA2 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigEUtraBadCovPrim,reportConfigEUtraBadCovPrimId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigEUtraBadCovPrim,reportIntervalA2Prim] = The interval for event triggered periodical reporting for the primary eventA2 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=MS_5120<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigEUtraBadCovPrim,reportQuantityA2Prim] = The quantities to include in the measurement report for the primary eventA2 measurement.<CR>The value 0 - sameAsTriggerQuantity means that the same quantity as triggerQuantity is included in the measurement report.<CR>The value 1 - both means that both Reference Symbol Received Power (RSRP) and Reference Symbol Received Quality (RSRQ) quantities are included in the measurement report.<CR>Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraBadCovPrim,timeToTriggerA2Prim] = The time-to-trigger value for the primary eventA2 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraBadCovPrim,triggerQuantityA2Prim] = The quantity that triggers the eventA2 and eventA1 for the primary eventA2 and eventA1 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2 and eventA1.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraBadCovSec,a2ThresholdRsrpSec] = The secondary Reference Signal Received Power (RSRP) threshold value for eventA2. Only used if triggerQuantityA2Sec is set to RSRP.<CR>Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraBadCovSec,a2ThresholdRsrqSec] = The secondary Reference Signal Received Quality (RSRQ) threshold value for eventA2. Only used if triggerQuantityA2Sec is set to RSRQ.<CR>Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraBadCovSec,hysteresisA2Sec] = The hysteresis value for the secondary eventA2 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraBadCovSec,maxReportCellsA2Sec] = Maximum number of cells to include in the measurement report for the secondary eventA2 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigEUtraBadCovSec,reportAmountA2Sec] = Number of reports for periodical reporting for the secondary eventA2 measurement.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigEUtraBadCovSec,reportConfigEUtraBadCovSecId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigEUtraBadCovSec,reportIntervalA2Sec] = The interval for event-triggered periodical reporting for the secondary eventA2 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=MS_5120<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigEUtraBadCovSec,reportQuantityA2Sec] = The quantities to include in the measurement report for the secondary eventA2 measurement.<CR>The value 0, sameAsTriggerQuantity, means that the same quantity as triggerQuantity is included in the measurement report.<CR>The value 1, both, means that both RSRP and RSRQ quantities are included in the measurement report.<CR>Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraBadCovSec,timeToTriggerA2Sec] = The time to trigger value for the secondary eventA2 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraBadCovSec,triggerQuantityA2Sec] = The quantity that triggers the eventA2 and eventA1 for the secondary eventA2 and eventA1 measurement. Primary and secondary measurement parameters refer to the option to use different settings for two simultaneous measurements for eventA2 and eventA1.<CR>Change takes effect: New connection<CR>Default=RSRQ<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraBestCell,a3offset] = The offset value for eventA3.<CR>Change takes effect: New connection<CR>Default=30<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraBestCell,hysteresisA3] = The hysteresis value for eventA3.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraBestCell,maxReportCellsA3] = Max number of cells to include in the measurement report.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigEUtraBestCell,reportAmountA3] = Number of reports when periodical reporting is used.<CR>Value of 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigEUtraBestCell,reportConfigEUtraBestCellId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigEUtraBestCell,reportIntervalA3] = The interval for event triggered periodical reporting.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigEUtraBestCell,reportQuantityA3] = The quantities to include in the measurement report.<CR>Dependencies: The value sameAsTriggerQuantity means that the same quantity as triggerQuantity is to be included in the measurement report.<CR>The value both means that both RSRP and RSRQ quantities is to be included in the measurement report.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraBestCell,timeToTriggerA3Rsrq] = Time-to-trigger value for event A3 with trigger quantity RSRQ. If set to -1, this attribute is not used for report configuration.<CR>Status Information: Since L16B. Has no functional behavior. Planned to be removed.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraBestCell,timeToTriggerA3] = The time-to-trigger value for eventA3.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraBestCell,triggerQuantityA3] = The quantity that triggers the event.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraBestCellAnr,a3offsetAnrDelta] = The offset value for eventA3. Dependent on triggerQuantityA3 on MO ReportConfigEUtraBestCell and is a delta towards a3offset on triggerQuantityA3, The a3offset used in the ANR measure is calculated as a3offset (on ReportConfigEUtraBestCell) - a3offset AnrDelta<CR>Dependencies: Not pure dependence towards parameter on ReportConfigEUtraBestCell Mo, but there should be a check that this attribute and corresponding attribute on ReportConfigEUtraBestCell MO together sends out a valid number to the UE<CR>Change takes effect: New connection<CR>Default=3<CR>Range: -10 to 10<CR>Unit: dB
attr_description[Lrat.ReportConfigEUtraBestCellAnr,hysteresisA3] = The hysteresis value for eventA3.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraBestCellAnr,reportConfigEUtraBestCellAnrId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigEUtraBestCellAnr,timeToTriggerA3] = The time to trigger value for eventA3.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraIFA3UlTrig,a3Offset] = The offset value for event A3.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIFA3UlTrig,hysteresisA3] = The hysteresis value for event A3.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIFA3UlTrig,maxReportCellsA3] = Max number of cells to include in the measurement report.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigEUtraIFA3UlTrig,reportAmountA3] = Number of reports when periodical reporting is used.<CR>Value of 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigEUtraIFA3UlTrig,reportConfigEUtraIFA3UlTrigId] = The value component of the RDN.
attr_description[Lrat.ReportConfigEUtraIFA3UlTrig,reportIntervalA3] = The interval for event triggered periodical reporting.<CR>Change takes effect: New connection<CR>Default=MS_2048<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigEUtraIFA3UlTrig,timeToTriggerA3] = Time-to-trigger value for event A3.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraIFA3UlTrig,triggerQuantityA3] = The quantity that triggers the event.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraIFBestCell,a3RsrqOffset] = Offset to obtain the A3Offset for inter-frequency A3 measurement for trigger quantity RSRQ. a3OffsetRsrq = a3offset + a3RsrqOffset<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIFBestCell,a3offset] = The offset value for eventA3.<CR>Change takes effect: New connection<CR>Default=30<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIFBestCell,hysteresisA3RsrqOffset] = Offset to obtain the Hysteresis for inter-frequency A3 measurement for trigger quantity RSRQ. hysteresisA3Rsrq = hysteresisA3 + hysteresisA3RsrqOffset<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIFBestCell,hysteresisA3] = The hysteresis value for eventA3.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIFBestCell,maxReportCellsA3] = Max number of cells to include in the measurement report.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigEUtraIFBestCell,reportAmountA3] = Number of reports when periodical reporting is used.<CR>Value of 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigEUtraIFBestCell,reportConfigEUtraIFBestCellId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigEUtraIFBestCell,reportIntervalA3] = The interval for event triggered periodical reporting.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigEUtraIFBestCell,reportQuantityA3] = The quantities to include in the measurement report.<CR>The value sameAsTriggerQuantity means that the same quantity as triggerQuantity is to be included in the measurement report.<CR>The value both means that both RSRP and RSRQ quantities is to be included in the measurement report.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraIFBestCell,timeToTriggerA3Rsrq] = Time-to-trigger value for event A3 with trigger quantity RSRQ. If set to -1, this attribute is not used for report configuration.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraIFBestCell,timeToTriggerA3] = Time-to-trigger value for event A3. If timeToTriggerA3Rsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraIFBestCell,triggerQuantityA3] = The quantity that triggers the event.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraInterFreqLb,a5Threshold1Rsrp] = The Reference Signal Received Power (RSRP) threshold1 value for eventA5.<CR>Disturbances: Changing this attribute can affect traffic<CR>Default=-44<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraInterFreqLb,a5Threshold2Rsrp] = The Reference Signal Received Power (RSRP) threshold2 value for eventA5.<CR>Disturbances: Changing this attribute can affect traffic<CR>Default=-44<CR>Range: -140 to 44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraInterFreqLb,a5Threshold2Rsrq] = The Reference Signal Received Quality (RSRQ) threshold2 value for eventA5.<CR>Disturbances: Changing this attribute can affect traffic<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqLb,hysteresisA5] = The hysteresis value for the eventA5 measurement.<CR>Disturbances: Changing this attribute can affect traffic<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqLb,reportConfigEUtraInterFreqLbId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigEUtraInterFreqMbms,a5ThresholdRsrp] = The Reference Signal Received Power (RSRP) threshold2 value for eventA5.<CR>Default=-44<CR>Range: -140 to -44<CR>Unit: dB
attr_description[Lrat.ReportConfigEUtraInterFreqMbms,hysteresisA5] = The hysteresis value for the eventA5 measurement.<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqMbms,reportConfigEUtraInterFreqMbmsId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a1ThresholdRsrpPm] = RSRP threshold value for eventA1.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A1.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a1ThresholdRsrqPm] = RSRQ threshold value for eventA1.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A1.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a2ThresholdRsrpPm] = RSRP threshold value for eventA2.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A2.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a2ThresholdRsrqPm] = RSRQ threshold value for eventA2.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A2.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a3OffsetPm] = Offset value for eventA3.<CR>Dependencies: Used only when measSelectionEUtraPm is set to EVENT_A3.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a3ReportOnLeavePm] = If true, UE initiates measurement report procedure when cell meets leaving condition.<CR>Dependencies: Used only when measSelectionEUtraPm is set to EVENT_A3.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a4ThresholdRsrpPm] = RSRP threshold value for eventA4.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A4.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a4ThresholdRsrqPm] = RSRQ threshold value for eventA4.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A4.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a5Threshold1RsrpPm] = RSRP threshold1 value for eventA5.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A5.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a5Threshold1RsrqPm] = RSRQ threshold1 value for eventA5.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A5.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a5Threshold2RsrpPm] = RSRP threshold2 value for eventA5.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A5.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a5Threshold2RsrqPm] = RSRQ threshold2 value for eventA5.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A5.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqPm,a6OffsetPm] = Offset value for eventA6.<CR>Dependencies: Used only when measSelectionEUtraPm is set to EVENT_A6.<CR>Change takes effect: New connection<CR>Default=30<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqPm,hysteresisPm] = Hysteresis value for trigger condition for measurement report.<CR>Dependencies: Used only when measSelectionEUtraPm is set to EVENT_A1, EVENT_A2, EVENT_A3, EVENT_A4, EVENT_A5 or EVENT_A6.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraInterFreqPm,maxReportCellsPm] = Maximum number of cells included in measurement report for PM Initiated UE Measurements.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigEUtraInterFreqPm,measSelectionEUtraPm] = MO measurement type. Options A1-A6 represent respective thresholds or offsets that trigger these events.<CR>If PERIODICAL, periodical measurements occur with no specific trigger. Periodical measurements limits reporting to strongest cells.<CR>Change takes effect: New connection<CR>Default=PERIODICAL<CR>Range: 0,1,2,3,4,5,6
attr_description[Lrat.ReportConfigEUtraInterFreqPm,reportAmountPm] = Number of periodical reports.<CR>Value 0, reports are sent as long as event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigEUtraInterFreqPm,reportConfigEUtraInterFreqPmId] = The value component of the RDN.
attr_description[Lrat.ReportConfigEUtraInterFreqPm,reportIntervalPm] = Interval for event-triggered periodical reporting.<CR>Change takes effect: New connection<CR>Default=MIN_1<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigEUtraInterFreqPm,reportQuantityPm] = Quantities included in measurement report.<CR>Value 0, SAME_AS_TRIGGER_QUANTITY, means that same quantity as triggerQuantityPm is included in measurement report.<CR>Value 1, BOTH, means both RSRP and RSRQ quantities are included in measurement report.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraInterFreqPm,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>Dependencies: The managed object cannot be deleted if it is reserved.<CR>MinLength=0
attr_description[Lrat.ReportConfigEUtraInterFreqPm,timeToTriggerPm] = Time during which specific event criteria must be met to trigger a measurement report.<CR>Dependencies: Used only when measSelectionEUtraPm is set to EVENT_A1, EVENT_A2, EVENT_A3, EVENT_A4, EVENT_A5 or EVENT_A6.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraInterFreqPm,triggerQuantityPm] = Quantity that triggers PM-initiated EUtra measurements.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a1ThresholdRsrpPm] = The Reference Signal Received Power (RSRP) threshold value for eventA1 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A1.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a1ThresholdRsrqPm] = The Reference Signal Received Quality (RSRQ) threshold value for eventA1 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A1.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a2ThresholdRsrpPm] = The Reference Signal Received Power (RSRP) threshold value for eventA2 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A2.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a2ThresholdRsrqPm] = The Reference Signal Received Quality (RSRQ) threshold value for eventA2 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A2.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a3OffsetPm] = The offset value for eventA3, for PM Initiated UE Measurements.<CR>Only used if measSelectionEUtraPm is set to EVENT_A3.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a3ReportOnLeavePm] = Indicates that the UE initiates the measurement reporting procedure when the leaving condition is met for a cell. Used only when measSelectionEUtraPm is set to EVENT_A3.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a4ThresholdRsrpPm] = The Reference Signal Received Power (RSRP) threshold value for eventA4 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A4.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a4ThresholdRsrqPm] = The Reference Signal Received Quality (RSRQ) threshold value for eventA4 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A4.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a5ThresholdRsrpPm1] = The Reference Signal Received Power (RSRP) threshold 1 value for eventA5 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A5.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a5ThresholdRsrpPm2] = The Reference Signal Received Power (RSRP) threshold 2 value for eventA5 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRP and measSelectionEUtraPm is set to EVENT_A5.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a5ThresholdRsrqPm1] = The Reference Signal Received Quality (RSRQ) threshold 1 value for eventA5 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A5.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,a5ThresholdRsrqPm2] = The Reference Signal Received Quality (RSRQ) threshold 2 value for eventA5 for PM-Initiated UE Measurements. Used only when triggerQuantityPm is set to RSRQ and measSelectionEUtraPm is set to EVENT_A5.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,hysteresisPm] = The hysteresis value for the condition triggering the entering and leaving measurement report for PM-Initiated UE Measurements. Used only when measSelectionEUtraPm is set to EVENT_A1, EVENT_A2, EVENT_A3, EVENT_A4 or EVENT_A5.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,maxReportCellsPm] = Maximum number of cells to include in the measurement report for the PM Initiated UE Measurements.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,measSelectionEUtraPm] = The type of measurement for which this MO is currently configured. The options A1-A5 correspond to respective thresholds/offsets that trigger these events.<CR>Selecting PERIODICAL results in periodical measurement reports with no specific trigger. PERIODICAL measurement reporting is limited to reporting the strongest cells.<CR>Change takes effect: New connection<CR>Default=PERIODICAL<CR>Range: 0,1,2,3,4,5,6
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,reportAmountPm] = The number of periodical reports for PM-Initiated UE Measurements.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,reportConfigEUtraIntraFreqPmId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,reportIntervalPm] = The interval for event-triggered periodical reporting for PM-Initiated UE Measurements.<CR>Change takes effect: New connection<CR>Default=MIN_1<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,reportQuantityPm] = The quantities to include in the measurement report for PM-Initiated UE Measurements.<CR>The value 0, sameAsTriggerQuantity, means that the same quantity as triggerQuantityPm is included in the measurement report.<CR>The value 1, both, means that both Reference Signal Received Power (RSRP) and Reference Signal Received Quality (RSRQ) quantities are included in the measurement report.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>Dependencies: The managed object cannot be deleted if it is reserved.<CR>MinLength=0
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,timeToTriggerPm] = Time during which specific event criteria must be met to trigger a measurement report for PM-Initiated UE Measurements. Used only when measSelectionEUtraPm is set to EVENT_A1, EVENT_A2, EVENT_A3, EVENT_A4 or EVENT_A5.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigEUtraIntraFreqPm,triggerQuantityPm] = The Reference Signal Received Power (RSRP) or Reference Signal Received Quality (RSRQ) quantity that triggers the PM-initiated E-UTRA measurements.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigElcA1A2,a1a2ThresholdRsrp] = RSRP threshold value for events A1 and A2.<CR>Change takes effect: New connection<CR>Default=-134<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigElcA1A2,hysteresisA1A2Rsrp] = Hysteresis value for RSRP in events A1 and A2 measurements.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigElcA1A2,reportAmountA1A2] = Number of reports for periodic reporting for events A1 and A2.<CR>If 0, reports are sent if event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigElcA1A2,reportConfigElcA1A2Id] = The value component of the RDN.
attr_description[Lrat.ReportConfigElcA1A2,reportIntervalA1A2] = Interval for event-triggered periodic-reporting for events A1 and A2.<CR>Change takes effect: New connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigElcA1A2,reportQuantityA1A2] = Quantities to include in measurement report for events A1 and A2.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigElcA1A2,timeToTriggerA1] = Time-to-trigger value for measurement in event A1.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigElcA1A2,timeToTriggerA2] = Time-to-trigger value for measurement in event A2.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigInterEnbUlComp,a3Offset] = The offset value for eventA3.<CR>Change takes effect: New connection<CR>Default=-20<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigInterEnbUlComp,hysteresisA3] = The hysteresis value for eventA3.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigInterEnbUlComp,maxReportCellsA3] = Max number of cells to include in the measurement report.<CR>Change takes effect: New connection<CR>Default=8<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigInterEnbUlComp,reportAmountA3] = Number of reports when periodical reporting is used.<CR>Value of 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigInterEnbUlComp,reportConfigInterEnbUlCompId] = The value component of the RDN.
attr_description[Lrat.ReportConfigInterEnbUlComp,reportIntervalA3] = Interval for event-triggered periodical reporting.<CR>Change takes effect: New connection<CR>Default=MS_1024<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigInterEnbUlComp,reportQuantityA3] = Quantities included in measurement report.<CR>Dependencies: Value sameAsTriggerQuantity gives same quantity as triggerQuantity in measurement report; both RSRP and RSRQ quantities are included.<CR>Change takes effect: New connection<CR>Default=SAME_AS_TRIGGER_QUANTITY<CR>Range: 0,1
attr_description[Lrat.ReportConfigInterEnbUlComp,timeToTriggerA3] = Time-to-trigger value for event A3.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigInterEnbUlComp,triggerQuantityA3] = Quantity that triggers event.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigInterRatLb,reportConfigInterRatLbId] = Value component of the RDN
attr_description[Lrat.ReportConfigInterRatLb,utranB1ThresholdEcNo] = Ratio of energy per modulation bit to noise spectral density in the ThresholdUTRA, threshold value for event B1.<CR>Not applicable for UTRA TDD.<CR>Dependencies: Only used when UeMeasControl::measQuantityUtraFDD is set to ECNO.<CR>Default=-240<CR>Range: -245 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigInterRatLb,utranB1ThresholdRscp] = RSCP threshold value for the event B1 measurement for Load based IRAT handover to UTRAN.<CR>Dependencies: Only used when UeMeasControl::measQuantityUtraFDD is set to RSCP.<CR>Default=-24<CR>Range: -120 to -24<CR>Unit: dBm
attr_description[Lrat.ReportConfigInterRatLb,utranHysteresisB1] = Hysteresis value for the event B1 measurement<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigInterRatPm,b1ThresholdEcNoUtraPm] = UTRAN Ec/No threshold value for eventB1.<CR>Dependencies: Used only when UeMeasControl::measQuantityUtraFDD is set to ECNO, ratSelectionPm is set to UTRAN and measSelectionInterRatPm is set to EVENT_B1. Not applicable for UTRA TDD.<CR>Change takes effect: New connection<CR>Default=-240<CR>Range: -245 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigInterRatPm,b1ThresholdGeranPm] = GERAN threshold value for eventB1.<CR>Dependencies: Used only when ratSelectionPm is set to GERAN and measSelectionInterRatPm is set to EVENT_B1.<CR>Change takes effect: New connection<CR>Default=-110<CR>Range: -110 to -47<CR>Unit: dBm
attr_description[Lrat.ReportConfigInterRatPm,b1ThresholdRscpUtraPm] = UTRAN RSCP threshold value for eventB1.<CR>Dependencies: Used only when UeMeasControl::measQuantityUtraFDD is set to RSCP, ratSelectionPm is set to UTRAN and measSelectionInterRatPm is set to EVENT_B1.<CR>Change takes effect: New connection<CR>Default=-115<CR>Range: -120 to -24<CR>Unit: dBm
attr_description[Lrat.ReportConfigInterRatPm,b2Threshold1RsrpPm] = RSRP threshold1 value for eventB2.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRP and measSelectionInterRatPm is set to EVENT_B2.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigInterRatPm,b2Threshold1RsrqPm] = RSRQ threshold1 value for eventB2.<CR>Dependencies: Used only when triggerQuantityPm is set to RSRQ and measSelectionInterRatPm is set to EVENT_B2.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigInterRatPm,b2Threshold2EcNoUtraPm] = UTRAN Ec/No threshold2 value for eventB2.<CR>Dependencies: Used only when UeMeasControl::measQuantityUtraFDD is set to ECNO, ratSelectionPm is set to UTRAN and measSelectionInterRatPm is set to EVENT_B2. Not applicable for UTRA TDD.<CR>Change takes effect: New connection<CR>Default=-240<CR>Range: -245 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigInterRatPm,b2Threshold2GeranPm] = GERAN threshold2 value for eventB2.<CR>Dependencies: Used only when ratSelectionPm is set to GERAN and measSelectionInterRatPm is set to EVENT_B2.<CR>Change takes effect: New connection<CR>Default=-110<CR>Range: -110 to -47<CR>Unit: dBm
attr_description[Lrat.ReportConfigInterRatPm,b2Threshold2RscpUtraPm] = UTRAN RSCP threshold2 value for eventB2.<CR>Dependencies: Used only when UeMeasControl::measQuantityUtraFDD is set to RSCP, ratSelectionPm is set to UTRAN and measSelectionInterRatPm is set to EVENT_B2.<CR>Change takes effect: New connection<CR>Default=-115<CR>Range: -120 to -24<CR>Unit: dBm
attr_description[Lrat.ReportConfigInterRatPm,hysteresisPm] = Hysteresis value for trigger condition for measurement report.<CR>Dependencies: Used only when measSelectionInterRatPm is set to EVENT_B1 or EVENT_B2.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigInterRatPm,maxReportCellsPm] = Maximum number of cells included in measurement report for PM Initiated UE Measurements.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigInterRatPm,measSelectionInterRatPm] = MO measurement type. Options B1-B2 represent respective thresholds that trigger these events.<CR>If PERIODICAL, periodical measurements occur with no specific trigger. Periodical measurements limits reporting to strongest cells.<CR>Change takes effect: New connection<CR>Default=PERIODICAL<CR>Range: 0,1,2
attr_description[Lrat.ReportConfigInterRatPm,ratSelectionPm] = Whether selected inter-Rat is GERAN or UTRAN.<CR>Change takes effect: New connection<CR>Default=UTRAN<CR>Range: 0,1
attr_description[Lrat.ReportConfigInterRatPm,reportAmountPm] = Number of periodical reports.<CR>Value 0, reports are sent as long as event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigInterRatPm,reportConfigInterRatPmId] = The value component of the RDN.
attr_description[Lrat.ReportConfigInterRatPm,reportIntervalPm] = Interval for event-triggered periodical reporting.<CR>Change takes effect: New connection<CR>Default=MIN_1<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigInterRatPm,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>Dependencies: The managed object cannot be deleted if it is reserved.<CR>MinLength=0
attr_description[Lrat.ReportConfigInterRatPm,timeToTriggerPm] = Time during which specific event criteria must be met to trigger a measurement report.<CR>Dependencies: Used only when measSelectionInterRatPm is set to EVENT_B1 or EVENT_B2.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigInterRatPm,triggerQuantityPm] = Quantity that triggers PM-initiated IRAT measurements.<CR>Change takes effect: New connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigSCellA1A2,a1a2ThresholdRsrpBidir] = RSRP threshold value for events A1 and A2 below which UL CA is not configured.<CR>Dependencies: hysteresisA1A2RsrpBidirectional applies. When a1a2ThresholdRsrpBidir is less than or equal to a1a2ThresholdRsrp, the capability to remove UL separately from DL is disabled.<CR>Change takes effect: Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigSCellA1A2,a1a2ThresholdRsrp] = The Reference Signal Received Power (RSRP) threshold value for events A1 and A2.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=-126<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigSCellA1A2,a1a2ThresholdRsrq] = The Reference Signal Received Quality (RSRQ) threshold value for events A1 and A2.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=-165<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSCellA1A2,hysteresisA1A2RsrpBidir] = Hysteresis value for RSRP in events A1 and A2 measurements below which UL CA is not configured.<CR>Status Information: Since 17.Q2. Planned to be removed.<CR>Dependencies: When a1a2ThresholdRsrpBidir is less than or equal to a1a2ThresholdRsrp, the capability to remove UL separately from DL is disabled.<CR>Change takes effect: Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Default=20<CR>Range: 0 to 150<CR>Unit: 1 dB
attr_description[Lrat.ReportConfigSCellA1A2,hysteresisA1A2RsrpBidirectional] = Hysteresis value for RSRP in events A1 and A2 measurements below which UL CA is not configured.<CR>Dependencies: When a1a2ThresholdRsrpBidir is less than or equal to a1a2ThresholdRsrp, the capability to remove UL separately from DL is disabled.<CR>Change takes effect: New connection. Also during ongoing connection, related to next SCell configuration during the connection.<CR>Default=20<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSCellA1A2,hysteresisA1A2Rsrp] = The hysteresis value for RSRP in events A1 and A2 measurements for SCell.<CR>Change takes effect: Ongoing connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSCellA1A2,hysteresisA1A2Rsrq] = The hysteresis value for RSRQ in events A1 and A2 measurements.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=15<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSCellA1A2,reportAmountA1A2] = The number of reports for periodic reporting for the events A1 and  A2.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigSCellA1A2,reportConfigSCellA1A2Id] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigSCellA1A2,reportIntervalA1A2] = The interval for event-triggered periodic reporting for the events A1 and A2.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigSCellA1A2,reportQuantityA1A2] = The quantities to include in the measurement report for the events A1 and A2.<CR>The value 0 - sameAsTriggerQuantity means that the same quantity as triggerQuantity is included in the measurement report. (The triggerQuantity for A2 RSRP is "RSRP" and for A2 RSRQ is "RSRQ")<CR>The value 1 - both means that both RSRP and RSRQ quantities are included in the measurement report.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigSCellA1A2,timeToTriggerA1] = The time-to-trigger value for measurement in event A1.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSCellA1A2,timeToTriggerA2] = The time-to-trigger value for measurement in event A2.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSCellA1A2,triggerQuantityA1A2] = The quantity that triggers the eventA2 and eventA1 for SCell measurements.<CR>Change takes effect: Ongoing connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigSCellA4,a4ThresholdRsrp] = The Reference Signal Received Power (RSRP) threshold value for eventA4.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Dependencies: Only used if triggerQuantityA4 is set to RSRP.<CR>Change takes effect: Ongoing connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigSCellA4,a4ThresholdRsrq] = The Reference Signal Received Quality (RSRQ) threshold value for eventA4.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Dependencies: Only used if triggerQuantityA4 is set to RSRQ.<CR>Change takes effect: Ongoing connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSCellA4,hysteresisA4] = The hysteresis value for the eventA4 measurement.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSCellA4,maxReportCellsA4] = Max number of cells to include in the measurement report.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigSCellA4,reportAmountA4] = The number of reports for periodic reporting for event A4<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigSCellA4,reportConfigSCellA4Id] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigSCellA4,reportIntervalA4] = The interval for event-triggered periodic reporting for the event A4.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigSCellA4,reportQuantityA4] = The quantities to include in the measurement report.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Dependencies: The value sameAsTriggerQuantity means that the same quantity as triggerQuantity is to be included in the measurement report. The value both means that both RSRP and RSRQ quantities is to be included in the measurement report.<CR>Change takes effect: Ongoing connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigSCellA4,timeToTriggerA4] = The time-to-trigger value for the eventA4 measurement.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSCellA4,triggerQuantityA4] = The quantity that triggers the eventA4 for the eventA4 measurement.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigSCellA6,a6offset] = The offset value for event A6.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=30<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSCellA6,hysteresisA6] = The hysteresis value for event A6.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSCellA6,maxReportCellsA6] = Max number of cells to include in the measurement report.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=4<CR>Range: 1 to 8
attr_description[Lrat.ReportConfigSCellA6,reportAmountA6] = The number of reports for periodic reporting for event A6.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigSCellA6,reportConfigSCellA6Id] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigSCellA6,reportIntervalA6] = The interval for event-triggered periodic reporting for the event A6.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=MS_480<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigSCellA6,reportQuantityA6] = The quantities to include in the measurement report.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Dependencies: The value sameAsTriggerQuantity means that the same quantity as triggerQuantity is to be included in the measurement report. The value both means that both RSRP and RSRQ quantities is to be included in the measurement report.<CR>Change takes effect: Ongoing connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigSCellA6,timeToTriggerA6] = The time-to-trigger value for event A6.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSCellA6,triggerQuantityA6] = The quantity that triggers the event.<CR>Changed value may take effect related to the next SCell configuration during the ongoing connection.<CR>Change takes effect: Ongoing connection<CR>Default=RSRP<CR>Range: 0,1
attr_description[Lrat.ReportConfigSearch,a1a2SearchThresholdRsrp] = The Reference Signal Received Power (RSRP) threshold value for events A1Search and A2Search.<CR>Change takes effect: New connection<CR>Default=-134<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigSearch,a1a2SearchThresholdRsrq] = The Reference Signal Received Quality (RSRQ) threshold value for events A1Search and A2Search.<CR>Change takes effect: New connection<CR>Default=-165<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,a1a2UlSearchThreshold] = UL-normalized SINR max threshold value for events A1 UL and A2 UL search.<CR>Dependencies: a1a2UlSearchThreshold >= a2UlCriticalThreshold<CR>Default=-150<CR>Range: -150 to 450<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,a2CriticalThrQci1RsrpOffset] = QCI1 offset on cell level for threshold a2CriticalThresholdRsrp, RSRP threshold value for events A2Critical.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.ReportConfigSearch,a2CriticalThrQci1RsrqOffset] = QCI1 offset on cell level for threshold a2CriticalThresholdRsrq, RSRQ threshold value for events A2Critical. Note: RSRQ thresholds are configured in 0.5dB steps according to 3GPP TS36.331. Use multiples of 5 for this attribute. Other values are rounded down to the closest lower multiple of 5.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -240 to 240<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,a2CriticalThresholdRsrp] = The Reference Signal Received Power (RSRP) threshold value for event A2Critical.<CR>Change takes effect: New connection<CR>Default=-140<CR>Range: -140 to -44<CR>Unit: dBm
attr_description[Lrat.ReportConfigSearch,a2CriticalThresholdRsrq] = The Reference Signal Received Quality (RSRQ) threshold value for event A2Critical.<CR>Change takes effect: New connection<CR>Default=-195<CR>Range: -195 to -30<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,a2OuterSearchThrRsrpOffset] = Offset for threshold a1a2SearchThresholdRsrp to configure RSRP threshold value for events A2OuterSearch.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -100 to 0<CR>Unit: dB
attr_description[Lrat.ReportConfigSearch,a2OuterSearchThrRsrqOffset] = Offset for threshold a1a2SearchThresholdRsrq to configure RSRQ threshold value for events A2OuterSearch. Note: RSRQ thresholds are configured in 0.5dB steps according to 3GPP TS36.331. Use multiples of 5 for this attribute. Other values are rounded down to the closest lower multiple of 5.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -240 to 0<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,a2UlCriticalThreshold] = UL-normalized SINR max threshold value for event A2 UL critical.<CR>Dependencies: a1a2UlSearchThreshold >= a2UlCriticalThreshold<CR>Default=-150<CR>Range: -150 to 450<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,hysteresisA1A2SearchRsrp] = The hysteresis value for RSRP in events A1Search and A2Search measurements.<CR>Change takes effect: New connection<CR>Default=20<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,hysteresisA1A2SearchRsrq] = The hysteresis value for RSRQ in events A1Search and A2Search measurements.<CR>Change takes effect: New connection<CR>Default=15<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,hysteresisA1A2UlSearch] = Hysteresis value for UL events A1 UL search and A2 UL search measurements.<CR>Default=20<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,hysteresisA2CriticalRsrp] = The hysteresis value for RSRP in event A2Critical measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,hysteresisA2CriticalRsrq] = The hysteresis value for RSRQ in event A2Critical measurement.<CR>Change takes effect: New connection<CR>Default=10<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,hysteresisA2OuterSearchRsrp] = Hysteresis value for RSRP in events A2OuterSearch measurements.<CR>Change takes effect: New connection<CR>Default=20<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,hysteresisA2OuterSearchRsrq] = Hysteresis value for RSRQ in events A2OuterSearch measurements.<CR>Change takes effect: New connection<CR>Default=15<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,hysteresisA2UlCritical] = Hysteresis value for UL event A2 UL critical measurements.<CR>Default=20<CR>Range: 0 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.ReportConfigSearch,inhibitA2SearchConfig] = Inhibit type of A2Search Report configuration.<CR>Change takes effect: New connection<CR>Default=NOT_INHIBIT<CR>Range: 0,1,2
attr_description[Lrat.ReportConfigSearch,qciA1A2ThrOffsets] = Parameters for adding QCI profile specific offsets to threshold values for events A1Search and A2Search used for mobility decisions. Applicable if Multi-Layer Service-Triggered Mobility is active.<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=19
attr_description[Lrat.ReportConfigSearch,qciA1A2UlThrOffsets] = Array of structure type ReportConfigParamsUlQciOffset, containing parameters for addition of QCI profile specific offsets to UL threshold values for events A1 UL and A2 UL search used for mobility decisions.<CR>Applicable if Multi-Layer Service-Triggered Mobility is active.<CR>MinLength=0 MaxLength=19
attr_description[Lrat.ReportConfigSearch,reportAmountSearch] = Number of reports for periodical reporting for events A1Search, A2Search, A2OuterSearch and A2Critical measurements.<CR>Value 0 means that reports are sent as long as the event is fulfilled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0,1,2,4,8,16,32,64
attr_description[Lrat.ReportConfigSearch,reportConfigSearchId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.ReportConfigSearch,reportIntervalSearch] = Interval for event-triggered periodical reporting for events:<CR>- A1Search,<CR>- A2Search,<CR>- A2OuterSearch and<CR>- A2Critical measurements.<CR>Change takes effect: New connection<CR>Default=MS_5120<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11,12
attr_description[Lrat.ReportConfigSearch,reportQuantitySearch] = Quantities included in the measurement report for the events A1Search, A2Search, A2OuterSearch and A2Critical measurements.<CR>0 - means the same quantity as triggerQuantity is included in the measurement report. TriggerQuantity for A2SearchRSRP is "RSRP" and for A2SearchRSRQ is "RSRQ".<CR>1 - means both RSRP and RSRQ quantities are included in the measurement report.<CR>Change takes effect: New connection<CR>Default=BOTH<CR>Range: 0,1
attr_description[Lrat.ReportConfigSearch,timeToTriggerA1SearchRsrq] = Time-to-trigger value for measurement in event A1Search with trigger quantity RSRQ. The value -1 means that this attribute is not used for report configuration.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA1Search] = Time-to-trigger value for measurement in event A1Search. If timeToTriggerA1SearchRsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=640<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA1UlSearch] = Time-to-trigger value for UL measurement in event A1 UL search.<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA2CriticalRsrq] = Time-to-trigger value for measurement in event A2Critical with trigger quantity RSRQ. The value -1 means that this attribute is not used for report configuration.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA2Critical] = Time-to-trigger value for measurement in event A2Critical. If timeToTriggerA2CriticalRsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA2OutSearchRsrq] = Time-to-trigger value for measurement in event A2OuterSearch with trigger quantity RSRQ. The value -1 means that this attribute is not used for report configuration.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA2OutSearch] = Time-to-trigger value for measurement in event A2OuterSearch. If timeToTriggerA2OutSearchRsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA2SearchRsrq] = Time-to-trigger value for measurement in event A2Search with trigger quantity RSRQ. The value -1 means that this attribute is not used for report configuration.<CR>Change takes effect: New connection<CR>Default=-1<CR>Range: -1,0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA2Search] = Time-to-trigger value for measurement in event A2Search. If timeToTriggerA2SearchRsrq is -1, this attribute is used for both RSRP and RSRQ. But if not set to -1, this attribute is used only for RSRP.<CR>Change takes effect: New connection<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA2UlCritical] = Time-to-trigger value for UL measurement in event A2 UL critical.<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ReportConfigSearch,timeToTriggerA2UlSearch] = Time-to-trigger value for UL measurement in event A2 UL search.<CR>Default=40<CR>Range: 0,40,64,80,100,128,160,256,320,480,512,640,1024,1280,2560,5120<CR>Unit: ms
attr_description[Lrat.ResourcePartition,partitionId] = Resource partition ID.<CR>Dependencies: Unique id among all ResourcePartition MOs.<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: 0,1 to 24
attr_description[Lrat.ResourcePartition,partitionName] = The name of the resource partition.<CR>Status Information: Since L17A. Has no functional behavior. Planned to be removed.<CR>Change takes effect: Cell lock/unlock
attr_description[Lrat.ResourcePartition,plmnList] = Specifies which PLMNs shall be included in the resource partition.<CR>Dependencies: Can only be configured if spidList is empty.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: Cell lock/unlock<CR>MinLength=0 MaxLength=6
attr_description[Lrat.ResourcePartition,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>Dependencies: The MO may not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.ResourcePartitionGroupMember[0-]
attr_description[Lrat.ResourcePartition,resourcePartitionId] = The value component of the RDN.
attr_description[Lrat.ResourcePartition,spidList] = Specifies which SPID values shall be included in the resource partition. A partition with a spidList containing the value 0 will include UEs with no defined SPID value. A partition configured with an empty spidList will include all UE's with a spid value not appearing in any other partition in the ResourcePartitionGroup.<CR>Dependencies: Can only be configured if plmnList is empty.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: Cell lock/unlock<CR>MinLength=0 MaxLength=20<CR>Range: 0 to 256
attr_description[Lrat.ResourcePartitionGroup,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>Dependencies: The MO may not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-]
attr_description[Lrat.ResourcePartitionGroup,resourcePartitionGroupId] = The value component of the RDN.
attr_description[Lrat.ResourcePartitionGroupMember,resourcePartitionGroupMemberId] = The value component of the RDN.
attr_description[Lrat.ResourcePartitionGroupMember,resourcePartitionRef] = Reference to an instance of ResourcePartition MO.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: Cell lock/unlock<CR>References: Lrat.ResourcePartition[0-1]
attr_description[Lrat.ResourcePartitionGroupMember,resourcePartitionShare] = Share of scheduling resources available to a resource partition.<CR>Partitions may use more than their share as long as there are free resources remaining in the cell but in a congested network the additional resources may instead be used to fulfill the shares of other partitions.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: Cell lock/unlock<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.ResourcePartitions,resourcePartitionsId] = The value component of the RDN.
attr_description[Lrat.RlfProfile,n310] = Maximum number of consecutive "out of sync" indications received from lower layers.<CR>Disturbances: Lowering the value can increase drop rate.<CR>Change takes effect: New connection<CR>Default=20<CR>Range: 1,2,3,4,6,8,10,20
attr_description[Lrat.RlfProfile,n311] = Maximum number of consecutive "in-sync" indications received from lower layers.<CR>Disturbances: Increasing the value can increase drop rate.<CR>Change takes effect: New connection<CR>Default=1<CR>Range: 1,2,3,4,5,6,8,10
attr_description[Lrat.RlfProfile,reservedBy] = Contains a list of QciProfile instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.QciProfileOperatorDefined[0-],Lrat.QciProfilePredefined[0-]
attr_description[Lrat.RlfProfile,rlfProfileId] = The value component of the RDN.
attr_description[Lrat.RlfProfile,t301] = UE timer to supervise a response to RRC Connection Reestablishment Request (according to 3GPP TS 36.331), during a radio connection re-establishment procedure. The UE returns to Idle and optionally starts to reconnect over NAS when the timer expires.<CR>Disturbances: Lowering the value can increase drop rate.<CR>Change takes effect: New connection<CR>Default=400<CR>Range: 100,200,300,400,600,1000,1500,2000<CR>Unit: ms
attr_description[Lrat.RlfProfile,t310] = Waiting time for radio link failure.<CR>Used by the UE.<CR>Disturbances: Lowering the value can increase drop rate.<CR>Change takes effect: New connection<CR>Default=2000<CR>Range: 0,50,100,200,500,1000,2000<CR>Unit: ms
attr_description[Lrat.RlfProfile,t311] = UE timer triggered at radio link failure to supervise the period where the UE tries to re-establish the radio connection, either by performing RRC Connection Reestablishment (according to 3GPP TS 36.331), or by finding a suitable cell on another RAT. The UE returns to Idle and optionally starts to reconnect over NAS when the timer expires.<CR>Disturbances: Lowering the value can increase drop rate.<CR>Change takes effect: New connection<CR>Default=3000<CR>Range: 1000,3000,5000,10000,15000,20000,30000<CR>Unit: ms
attr_description[Lrat.Rrc,n310NbIot] = NbIot maximum number of consecutive "out of sync" indications received from lower layers. Provided in NB-SIB2.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Change takes effect: Next cell unlock<CR>Default=20<CR>Range: 1,2,3,4,6,8,10,20
attr_description[Lrat.Rrc,n310] = Maximum number of consecutive "out of sync" indications received from lower layers.<CR>Provided to the UE by System Information.<CR>Default=20<CR>Range: 1,2,3,4,6,8,10,20<CR>Unit: Number of
attr_description[Lrat.Rrc,n311NbIot] = NbIot maximum number of consecutive "in-sync" indications received from lower layers. Provided in NB-SIB2.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Change takes effect: Next cell unlock<CR>Default=1<CR>Range: 1,2,3,4,5,6,8,10
attr_description[Lrat.Rrc,n311] = Maximum number of consecutive "in-sync" indications received from lower layers.<CR>Provided to the UE by System Information.<CR>Default=1<CR>Range: 1,2,3,4,5,6,8,10<CR>Unit: Number of
attr_description[Lrat.Rrc,rrcId] = The value component of the RDN.
attr_description[Lrat.Rrc,t300Br] = UE timer to supervise a response to RRC Connection Request, according to 3GPP TS 36.331.<CR>Provided to the Bandwidth reduced UE by System Information.<CR>Disturbances: Lowering the value can decrease accessibility.<CR>Default=0<CR>Range: 0,2500,3000,3500,4000,5000,6000,8000,10000<CR>Unit: ms
attr_description[Lrat.Rrc,t300NbIot] = NbIot UE timer to supervise a response to RRC Connection Request (according to 3GPP TS 36.331). Provided in NB-SIB2.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Disturbances: Lowering the value can decrease accessibility.<CR>Change takes effect: Next cell unlock<CR>Default=40000<CR>Range: 2500,4000,6000,10000,15000,25000,40000,60000<CR>Unit: ms
attr_description[Lrat.Rrc,t300] = UE timer to supervise a response to RRC Connection Request (according to 3GPP TS 36.331).<CR>Provided to the UE by System Information.<CR>Disturbances: Lowering the value can decrease accessibility.<CR>Default=1000<CR>Range: 100,200,300,400,600,1000,1500,2000<CR>Unit: ms
attr_description[Lrat.Rrc,t301Br] = UE timer to supervise a response to RRC Connection Reestablishment Request, according to 3GPP TS 36.331, during a radio connection re-establishment procedure. The UE returns to Idle and optionally starts to reconnect over NAS when the timer expires.<CR>Provided to the Bandwidth reduced UE by System Information.<CR>Disturbances: Lowering the value can increase drop rate.<CR>Default=0<CR>Range: 0,2500,3000,3500,4000,5000,6000,8000,10000<CR>Unit: ms
attr_description[Lrat.Rrc,t301NbIot] = NbIot UE timer to supervise a response to RRC Connection Reestablishment Request (according to 3GPP TS 36.331), during a radio connection re-establishment procedure. The UE returns to Idle and optionally starts to reconnect over NAS when the timer expires. Provided in NB-SIB2.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Disturbances: Lowering the value can increase drop rate.<CR>Change takes effect: Next cell unlock<CR>Default=10000<CR>Range: 2500,4000,6000,10000,15000,25000,40000,60000<CR>Unit: ms
attr_description[Lrat.Rrc,t301] = UE timer to supervise a response to RRC Connection Reestablishment Request (according to 3GPP TS 36.331), during a radio connection re-establishment procedure. The UE returns to Idle and optionally starts to reconnect over NAS when the timer expires.<CR>Provided to the UE by System Information.<CR>Disturbances: Lowering the value can increase drop rate.<CR>Default=400<CR>Range: 100,200,300,400,600,1000,1500,2000<CR>Unit: ms
attr_description[Lrat.Rrc,t302] = Waiting time at reception of RRC Connection Reject including the IE 'wait time'.<CR>Used by the UE. The value zero (0) means that a random waiting time set by the system is used.<CR>Default=0<CR>Range: 0 to 16<CR>Unit: s
attr_description[Lrat.Rrc,t304] = UE timer to supervise successful handover completion according to 3GPP TS 36.331.<CR>Disturbances: Lowering the value can stop outgoing HO.<CR>Default=1000<CR>Range: 50,100,150,200,500,1000,2000<CR>Unit: ms
attr_description[Lrat.Rrc,t310NbIot] = NbIot waiting time for radio link failure. Provided in NB-SIB2.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Change takes effect: Next cell unlock<CR>Default=8000<CR>Range: 0,200,500,1000,2000,4000,8000<CR>Unit: ms
attr_description[Lrat.Rrc,t310] = Waiting time for radio link failure.<CR>Provided to the UE by System Information.<CR>Default=2000<CR>Range: 0,50,100,200,500,1000,2000<CR>Unit: ms
attr_description[Lrat.Rrc,t311NbIot] = NbIot UE timer triggered at radio link failure to supervise the period where the UE tries to re-establish the radio connection, either by performing RRC Connection Reestablishment (according to 3GPP TS 36.331), or by finding a suitable cell on another RAT. The UE returns to Idle and optionally starts to reconnect over NAS when the timer expires. Provided in NB-SIB2.<CR>Specification: 3GPP TS 36.331 Rel-13<CR>Disturbances: Lowering the value can increase drop rate.<CR>Change takes effect: Next cell unlock<CR>Default=5000<CR>Range: 1000,3000,5000,10000,15000,20000,30000<CR>Unit: ms
attr_description[Lrat.Rrc,t311] = UE timer triggered at radio link failure to supervise the period where the UE tries to re-establish the radio connection, either by performing RRC Connection Reestablishment (according to 3GPP TS 36.331), or by finding a suitable cell on another RAT. The UE returns to Idle and optionally starts to reconnect over NAS when the timer expires.<CR>Provided to the UE by System Information.<CR>Disturbances: Lowering the value can increase drop rate.<CR>Default=3000<CR>Range: 1000,3000,5000,10000,15000,20000,30000<CR>Unit: ms
attr_description[Lrat.Rrc,t320] = Validity time for cell reselection priority information provided by dedicated signaling.<CR>Used by the UE.<CR>Default=30<CR>Range: 5,10,20,30,60,120,180<CR>Unit: min
attr_description[Lrat.Rrc,tRrcConnReest] = Waiting time for the RRC message RRC Connection Reestablishment Complete.<CR>Used by the RBS.<CR>Change takes effect: New connection<CR>Default=1<CR>Range: 1 to 20<CR>Unit: s
attr_description[Lrat.Rrc,tRrcConnectionReconfiguration] = Waiting time for the RRC message RRC Connection Reconfiguration Complete.<CR>Used by the RBS.<CR>Change takes effect: New connection.<CR>Default=6<CR>Range: 1 to 20<CR>Unit: s
attr_description[Lrat.Rrc,tRrcConnectionSetup] = Waiting time for the RRC message RRC Connection Setup Complete.<CR>Used by the RBS.<CR>Change takes effect: New connections.<CR>Default=3<CR>Range: 1 to 20<CR>Unit: s
attr_description[Lrat.Rrc,tWaitForRrcConnReest] = Waiting time for the RRC message RRC Connection Reestablishment Request upon detecting Radio Link Failure.<CR>Used by the RBS.<CR>Change takes effect: New connection<CR>Default=6<CR>Range: 1 to 20<CR>Unit: s
attr_description[Lrat.SciProfile,absPrioOverride] = Indicates if the data radio bearer is subject to Absolute Priority Override.<CR>Dependencies: Only relevant if the licenses for Flexible QoS and QoS Aware Scheduler are present and active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=NO_OVERRIDE<CR>Range: 0,1
attr_description[Lrat.SciProfile,dlMaxWaitingTime] = Scheduler attempts to achieve dlMaxWaitingTime for DL bearers before giving any DL bearer a higher priority. Value 0 means that the higher priority is never applied. Must be set to similar or slightly shorter value than PDB. If value set too low, higher priority services can be affected. For more information about PDB refer to TS23.203.<CR>Dependencies: Only used for Resource Fair Scheduling algorithm. Only relevant if licenses for Flexible QoS and Advanced Differentiation for Resource Fair Scheduling are present and active.<CR>Disturbances: Changing this attribute can affect performance of all data bearers.<CR>A value that is set too low can affect other services with higher priority. A value that is set too high can cause Dynamic UE Admission Control to fail in keeping the cell stable at overload.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.SciProfile,dlMinBitRate] = Scheduler attempts to achieve minbitrate for all bearers before giving any user a higher rate. Value 0 means that minRate scheduler is not used.<CR>Dependencies: Parameter is used only if one of the following Proportional Fair scheduling algorithms is selected: "maximum_C_over_I", "proportional_fair_low", "proportional_fair_medium", "proportional_fair_high" or "equal_rate". Only relevant if the licenses for Flexible QoS and QoS Aware Scheduler are present and active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 15000<CR>Unit: kbps
attr_description[Lrat.SciProfile,dlRelativePriority] = The relative priority for DL associated with an SCI.<CR>Dependencies: Changes to this parameter take effect only if the licenses are present and active for: Flexible QoS, QoS Aware Scheduler, Proportional Fair Scheduler, and the Rps.<CR>Change takes effect: New connection<CR>Default=1<CR>Range: 1 to 65535
attr_description[Lrat.SciProfile,dlResourceAllocationStrategy] = Defines downlink resource allocation strategy of SCI.<CR>Dependencies: Parameter changes take effect only if the licenses are present and active for the following: Flexible QoS, Downlink Frequency Selective Scheduling and QoS Aware Scheduler.<CR>Change takes effect: New connection<CR>Default=RESOURCE_FAIR<CR>Range: 0,1
attr_description[Lrat.SciProfile,lessMaxDelayThreshold] = Time delay that scheduling stays on-hold for Low Energy Scheduler Solution.<CR>If 0, Low Energy Scheduler Solution is disabled.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 20<CR>Unit: ms
attr_description[Lrat.SciProfile,logicalChannelGroupRef] = Refers to an instance of LCG. Assigns LCG to SCI.<CR>Dependencies: Only relevant if the license for Flexible QoS is present and active.<CR>Change takes effect: New connection<CR>References: Lrat.LogicalChannelGroup[0-]
attr_description[Lrat.SciProfile,pdb] = Contribution from eNodeB to PDB for SCI. Packet delays outside eNodeB are excluded, for example in the transport network. For more information about PDB refer to TS23.203.<CR>Dependencies: Only relevant if the licenses for Flexible QoS and QoS Aware Scheduler are present and active.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.SciProfile,priority] = SCI-related bearer priority. Refer to priority defined in 3GPP TS 23.203.<CR>Dependencies: Only relevant if the license for Flexible QoS is present and active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=9<CR>Range: 1 to 14
attr_description[Lrat.SciProfile,reservedBy] = List of MO instances that reserve this MO instance.<CR>Dependencies: MO can not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.FlexibleQoSGroupMember[0-]
attr_description[Lrat.SciProfile,schedulingAlgorithm] = Scheduling algorithm used for certain SCI.<CR>Dependencies: Only relevant if the licenses for Flexible QoS and QoS Aware Scheduler are present and active. Value DELAY_BASED can only be used if attribute serviceType for a bearer has value VOIP.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=RESOURCE_FAIR<CR>Range: 0,1,2,3,4,5,6
attr_description[Lrat.SciProfile,sciProfileId] = The value component of the RDN.
attr_description[Lrat.SciProfile,sci] = SCI specifies eNodeB configuration that controls packet-forwarding treatment for bearers. Each MO instance has unique SCI value.<CR>Special value: 0 activates default SCI profile. Used for specific bearer with no defined profile.<CR>Dependencies: Each SCI must be unique.<CR>Change takes effect: Object unlocked<CR>Range: 0 to 18
attr_description[Lrat.SciProfile,srsAllocationStrategy] = If parameter srsAllocationStrategy in QoS configuration for UE DRB is ACTIVATED, then an attempt is made to allocate UE sounding. Algorithm uses priority parameter in QoS configuration to resolve which QoS configuration defines sounding, if several DRBs are setup to UE with different QoS configurations.<CR>Dependencies: Only relevant if the licenses are present and active for: Flexible QoS, QoS Aware Scheduler and frequency selective scheduling.<CR>Change takes effect: New connection<CR>Default=DEACTIVATED<CR>Range: 0,1
attr_description[Lrat.SciProfile,ulMaxWaitingTime] = Scheduler attempts to achieve ulMaxWaitingTime for UL bearers before giving any UL bearer a higher priority. Value 0 means that the higher priority is never applied. Must be set to similar or slightly shorter value than PDB. If value set too low, higher priority services can be affected. For more information about PDB refer to TS23.203.<CR>Dependencies: Only used for Resource Fair Scheduling algorithm. Only relevant if licenses for Flexible QoS and Advanced Differentiation for Resource Fair Scheduler are present and active.<CR>Disturbances: Changing this attribute can affect performance of all data bearers.<CR> A value that is set too low can affect other services with higher priority. A value that is set too high can cause Dynamic UE Admission Control to fail in keeping the cell stable at overload.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 500<CR>Unit: ms
attr_description[Lrat.SciProfile,ulMinBitRate] = Scheduler attempts to achieve minbitrate for all bearers before giving any user a higher rate. Value 0 means that minRate scheduler is not used.<CR>Dependencies: Parameter is used only if one of the following Proportional Fair scheduling algorithms is selected: "maximum_C_over_I", "proportional_fair_low", "proportional_fair_medium", "proportional_fair_high" or "equal_rate". Only relevant if licenses for Flexible QoS and QoS Aware Scheduler are present and active.<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 75000<CR>Unit: kbps
attr_description[Lrat.SciProfile,ulRelativePriority] = The relative priority for UL associated with an SCI.<CR>Dependencies: Parameter changes take effect only if the licenses are present and active for: Flexible QoS, QoS Aware Scheduler, Proportional Fair Scheduler, and RPS.<CR>Change takes effect: New connection<CR>Default=1<CR>Range: 1 to 65535
attr_description[Lrat.SciProfile,ulResourceAllocationStrategy] = Defines uplink resource allocation strategy of SCI.<CR>Dependencies: Only relevant if the licenses are present and active for: Flexible QoS, Uplink Frequency Selective Scheduling and QoS Aware Scheduler.<CR>Change takes effect: New connection<CR>Default=RESOURCE_FAIR<CR>Range: 0,1
attr_description[Lrat.SectorCarrier,availabilityStatus] = The availability status. It contains details about operationalState. This attribute is set by the application in the RBS.<CR>Disturbances: Change can affect traffic<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.SectorCarrier,configuredMaxTxPower] = Maximum output power to be used in a SectorCarrier. The output power is evenly distributed over antenna connectors used for TX transmission allocated for the SectorCarrier.<CR>Value 0 must not be used.<CR>To prevent the cell from transmitting, it must be locked.<CR>Specification: 3GPP TS 28.658<CR>Disturbances: Changing this attribute can affect traffic<CR>Change takes effect: Object unlocked<CR>Precondition: Attribute can be set only when cell is locked.<CR>Default=20000<CR>Range: 0 to 10000000<CR>Unit: mW
attr_description[Lrat.SectorCarrier,csiRsPowerRatio] = The ratio of the PDSCH Energy Per Resource Element (EPRE) to the Channel State Information-Reference Signal (CSI-RS) EPRE that must be assumed by the UE when deriving CSI feedback.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: -8 to 15<CR>Unit: dB
attr_description[Lrat.SectorCarrier,csiRsReConfigIndex] = The Channel State Information-Reference Signal (CSI-RS) Resource Configuration Index for the sector defines the resource elements used for non-zero-power CSI-RS, as defined in Table 6.10.5.2-1 in 3GPP TS 36.211.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 31
attr_description[Lrat.SectorCarrier,csiRsSfConfigIndex] = The Channel State Information-Reference Signal (CSI-RS) Subframe Configuration Index value for the sector defines the periodicity of the CSI-RS occasions and the CSI-RS subframe offset, as defined in Table 6.10.5.3-1 of 3GPP TS 36.211.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 154
attr_description[Lrat.SectorCarrier,csiRsZeroPwrReConfigList] = The Channel State Information-Reference Signal (CSI-RS) Zero Power Resource Configuration List for the sector defines the resource elements used for zero-power CSI-RS. The parameter is a 16-bit bitmap where each bit set to 1 indicates 0 transmission power for the resource elements that correspond to the configuration for 4 CSI reference signals in Tables 6.10.5.2-1 in 3GPP TS 36.211. The MSB corresponds to the lowest CSI reference signal configuration index.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 65535
attr_description[Lrat.SectorCarrier,csiRsZeroPwrSfConfigIndex] = The Channel State Information-Reference Signal (CSI-RS) Zero Power Subframe Configuration Index value for the sector defines the periodicity and the subframe offset for any zero-power CSI reference signals configured in the cell, as defined in Table 6.10.5.3-1 of 3GPP TS 36.211.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 154
attr_description[Lrat.SectorCarrier,customComBeamfrmWtsAmplPort0] = Array of amplitudes for each antenna for custom beamforming weights of common channels on antenna port 0.<CR>Dependencies: Equipment used must support 2D beamforming.<CR>At least one amplitude must be non-zero for custom beamforming weights to take effect.<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 100<CR>Unit: 0.01
attr_description[Lrat.SectorCarrier,customComBeamfrmWtsAmplPort1] = Array of amplitudes for each antenna for custom beamforming weights of common channels on antenna port 1.<CR>Dependencies: Equipment used must support 2D beamforming.<CR>At least one amplitude must be non-zero for custom beamforming weights to take effect.<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 100<CR>Unit: 0.01
attr_description[Lrat.SectorCarrier,customComBeamfrmWtsPhasePort0] = Array of phases for each antenna for custom beamforming weights of common channels on antenna port 0.<CR>Dependencies: Equipment used must support 2D beamforming.<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 359<CR>Unit: degrees
attr_description[Lrat.SectorCarrier,customComBeamfrmWtsPhasePort1] = Array of phases for each antenna for custom beamforming weights of common channels on antenna port 1.<CR>Dependencies: Equipment used must support 2D beamforming.<CR>Change takes effect: Next cell unlock<CR>MinLength=0 MaxLength=64<CR>Range: 0 to 359<CR>Unit: degrees
attr_description[Lrat.SectorCarrier,digitalTilt] = Digitally-controlled tilt through beamforming. Positive value gives downwards tilt and negative value give upwards tilt.<CR>Only MACRO sector shape is affected.<CR>Dependencies: Equipment used must support 2D beamforming.<CR>Change takes effect: Next cell unlock<CR>Default=0<CR>Range: -80 to 80<CR>Unit: 0.1 degrees
attr_description[Lrat.SectorCarrier,dlCalibrationData] = Downlink antenna calibration information.
attr_description[Lrat.SectorCarrier,dlPimCandidate] = Include DL carriers for PIM calculation.<CR>Status Information: Since 17.Q2. Replaced by PimCancellationConfig::dlPimCandidate. Planned to be removed.<CR>Default=false
attr_description[Lrat.SectorCarrier,maximumTransmissionPower] = Maximum possible power at the antenna reference point, for all downlink channels in all TX branches used simultaneously in the SectorCarrier.<CR>-1 is used as an undefined value.<CR>Note: Setting configuredMaxTxPower (MO SectorCarrier) has an impact on this attribute. See Radio Network Configuration user guide 11/1553-HSC 105 50/1.<CR>Range: -1 to 1200<CR>Unit: 0.1 dBm
attr_description[Lrat.SectorCarrier,microSleepTxActivation] = Micro Sleep Tx functions in baseband are activated at cell unlock.
attr_description[Lrat.SectorCarrier,noOfMutedTxAntennas] = Number of muted Tx antennas when MIMO sleep mode is activated.<CR>Range: 0 to 7
attr_description[Lrat.SectorCarrier,noOfRxAntennas] = Number of antennas that SectorCarrier uses for UL transmission.<CR>When there are SectorCarriers with different number of RX antennas in the node, set the parameter explicitly to the number of RX antennas that the SectorCarrier uses.<CR>If parameter is set to 0, and optional features enabling usage of RX antennas are deactivated, then SectorCarrier uses two RX branches.<CR>If parameter is set to 0, and optional features enabling usage of RX antennas are activated, then SectorCarrier uses the maximum number of RX antennas defined by the operable features.<CR>Dependencies: Dependent on optional features that enable usage of multiple Rx antennas.<CR>Disturbances: Change can affect traffic<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0,1,2,4,8
attr_description[Lrat.SectorCarrier,noOfTxAntennas] = Number of antennas that SectorCarrier uses for DL transmission.<CR>When there are SectorCarriers with different number of TX antennas in the node, set the parameter explicitly to the number of TX antennas that the SectorCarrier uses.<CR>If parameter is set to 0, and optional features enabling usage of TX antennas are deactivated, then SectorCarrier uses one TX branch.<CR>If parameter is set to 0, and optional features enabling usage of TX antennas are activated, then SectorCarrier uses the maximum number of TX antennas defined by the operable features.<CR>Dependencies: Dependent on optional features that enable usage of multiple Tx antennas.<CR>Disturbances: Change can affect traffic<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0,1,2,4,8,16
attr_description[Lrat.SectorCarrier,noOfUsedRxAntennas] = The number of used receive antennas. The value -1 indicates that the number of used antennas is undefined. The value 0 indicates that no Rx antennas are used. The maximum number of this parameter is determined by the parameter noOfRxAntennas.<CR>Range: -1,0,1,2,4,8
attr_description[Lrat.SectorCarrier,noOfUsedTxAntennas] = The number of used transmit antennas. The value -1 indicates that the number of used antennas is undefined. The maximum number of this parameter is determined by the parameter noOfTxAntennas.<CR>Range: -1,1,2,4,8,16
attr_description[Lrat.SectorCarrier,operationalState] = The operational state. This attribute is set by the application in the RBS.<CR>Disturbances: Change can affect traffic<CR>Range: 0,1
attr_description[Lrat.SectorCarrier,partOfSectorPower] = Requested part of the total power in the SectorEquipment that must be allocated for the sectorCarrier. The output power is evenly distributed over antenna connectors used for TX transmission allocated for the SectorCarrier.<CR>When the total amount of power for each antenna connector of a SectorEquipment exceeds the limit of 100%, an alarm is generated when the cell that uses the SectorCarrier is unlocked.<CR>To prevent the cell from transmitting, it must be locked.<CR>Status Information: Since L16B. Replaced by configuredMaxTxPower. Planned to be removed.<CR>Disturbances: Change may affect traffic<CR>Change takes effect: Object disabled/enabled<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[Lrat.SectorCarrier,pimcFunctionReference] = Reference to PimCancellationFunction MO to indicate PIM cancellation function SectorCarrier is participating in. The value is the LDN of refered PimCancellationFunction MO.<CR>Status Information: Since 17.Q2. Replaced by PimCancellationConfig::pimCancellationFunctionRef. Planned to be removed.
attr_description[Lrat.SectorCarrier,prsEnabled] = If true, the Positioning Reference Signal is sent from this sector carrier.<CR>1: For indoor antennas at the same location, if the sector carriers are isolated, set prsEnabled to true for all sector carriers. Transmission of PDSCH on the PRS subframe is not scheduled.<CR>2: For combined macro and pico sector carriers, set prsEnabled to true for the macro sector only. The other sector or sectors have prsEnabled = false. However, transmission of PDSCH is still not scheduled on the same subframe to prevent undesirable interferences.<CR>Note: To reclaim PRS subframe for PDSCH transmission, OTDOA Supl license state must be set to DISABLED.<CR>Disturbances: Change can affect traffic<CR>Change takes effect: Object disabled/enabled<CR>Default=true
attr_description[Lrat.SectorCarrier,radioTransmitPerformanceMode] = A desired radio transmit operating mode, which is tailored to achieve good throughput performance for a given highest modulation in downlink.<CR>Change takes effect: Cell lock/unlock<CR>Default=DEFAULT<CR>Range: 0,1,2,3
attr_description[Lrat.SectorCarrier,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.CellPortion[0-],Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-],Lrat.NbIotCell[0-],Lrat.UlCompGroup[0-]
attr_description[Lrat.SectorCarrier,rfBranchRxRef] = Contains references to the RF Branches whose RF ports are to be used for RX Carrier allocations for this particular SectorCarrier. If no reference is specified Carrier allocation is based on the RF Branch MOM list (default behavior).<CR>Disturbances: Modifying this attribute requires blocking and de-blocking the cell.<CR>Change takes effect: Object unlocked<CR>Precondition: Locked Cell<CR>MinLength=0 MaxLength=8
attr_description[Lrat.SectorCarrier,rfBranchTxRef] = Contains references to the RF Branches whose RF ports are to be used for TX Carrier allocations for this particular SectorCarrier. If no reference is specified Carrier allocation is based on the RF Branch MOM list (default behavior).<CR>Disturbances: Modifying this attribute requires blocking and de-blocking the cell.<CR>Change takes effect: Object unlocked<CR>Precondition: Locked Cell<CR>MinLength=0 MaxLength=16
attr_description[Lrat.SectorCarrier,sectorCarrierId] = The value component of the RDN.
attr_description[Lrat.SectorCarrier,sectorFunctionRef] = Reference to an instance of SectorEquipmentFunction MO.
attr_description[Lrat.SectorCarrier,sectorShape] = Shape of sector carrier.<CR>Dependencies: Equipment used must support 2D beamforming.<CR>Change takes effect: Next cell unlock<CR>Default=MACRO<CR>Range: 0,1,2
attr_description[Lrat.SectorCarrier,txPowerPersistentLock] = Indicates if attribute configuredMaxTxPower is locked or not.<CR>When true, attribute configuredMaxTxPower cannot be changed and parent MO cannot be deleted.<CR>Note: This attribute is only intended to be used on mRBS and mRRU.<CR>Precondition: Once set to true there is no possibility to change the value back to false unless a node re-integration is performed.<CR>Default=false
attr_description[Lrat.SectorCarrier,ulCalibrationData] = UL antenna calibration information.
attr_description[Lrat.SectorCarrier,ulForcedTimingAdvanceCommand] = Forced additional value for Timing Advance Command in Random Access Response according to 3GPP TS 36.213.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0 to 10<CR>Unit: 0.52 microsecond
attr_description[Lrat.SectorCarrier,ulPimCancellationMode] = PIM cancellation mode on UL carriers.<CR>Status Information: Since 17.Q2. Replaced by PimCancellationConfig::ulPimCancellationMode. Planned to be removed.<CR>Default=EXCLUDED<CR>Range: 0,1,2
attr_description[Lrat.SectorCarrier,virtualComChBeamfrmWtsAmplitude] = Array of eight amplitudes for common channel beamforming weights of virtual sector. One of eight amplitudes must be non-zero for beamforming weights to take effect. Actual value = Set value / 100.<CR>Disturbances: Changed coverage can affect traffic.<CR>Change takes effect: Next cell unlock<CR>Default=0,0,0,0,0,0,0,0 MinLength=0 MaxLength=8 Default=0,0,0,0,0,0,0,0<CR>Range: 0 to 100<CR>Unit: 0.01
attr_description[Lrat.SectorCarrier,virtualComChBeamfrmWtsPhase] = Array of eight phases for common channel beamforming weights of virtual sector.<CR>Disturbances: Changed coverage can affect traffic.<CR>Change takes effect: Next cell unlock<CR>Default=0,0,0,0,0,0,0,0 MinLength=0 MaxLength=8 Default=0,0,0,0,0,0,0,0<CR>Range: 0 to 359<CR>Unit: degrees
attr_description[Lrat.SectorCarrier,virtualSector] = Whether or not sector carrier is virtual sector, modelled by MO SectorCarrier.<CR>Sector carriers can have different sector carrier shapes by using custom channel beamforming weights, so called "virtual sector".<CR>Virtual sector cannot carrier aggregate with other virtual sectors in same sector.<CR>Dependencies: If true, then virtualComChBeamfrmWtsAmplitude must be valid.<CR>Change takes effect: Next cell unlock<CR>Default=false
attr_description[Lrat.SectorCarrier,zzzTemporary1] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.
attr_description[Lrat.SectorCarrier,zzzTemporary2] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.
attr_description[Lrat.SectorCarrier,zzzTemporary3] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.SectorCarrier,zzzTemporary4] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.SectorCarrier,zzzTemporary5] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.SectorCarrier,zzzTemporary6] = Temporary attribute intended for temporary solution. Usage depends on the installed software. Only set this attribute when it corresponds to a desired functionality and leave all other temporary attributes set to default values. Information in the descriptions about the used attributes can be overridden by information in CPI documents. Note that a later release can use another attribute or completely remove the functionality. Changes are documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.SecurityHandling,cipheringAlgoPrio] = An array specifying the ciphering algorithms that should be allowed and their priority order. The array has a maximum length of 4 and a minimum length of 1. The algorithm in index zero has the highest priority. Each algorithm shall be written only once in the array.<CR>Change takes effect: New connection<CR>MinLength=1 MaxLength=4 Default=EEA1,EEA2,EEA0<CR>Range: 0,1,2,3
attr_description[Lrat.SecurityHandling,countWrapSupervisionActive] = Parameter for controlling whether or not to supervise if COUNT-C is about to wrap.<CR>Change takes effect: Cell lock/unlock.<CR>Default=true
attr_description[Lrat.SecurityHandling,countWrapThreshold] = Sets the threshold for acting when COUNT-C is about to wrap.<CR>Change takes effect: Cell lock/unlock.<CR>Default=4242467296<CR>Range: 0 to 4294967295
attr_description[Lrat.SecurityHandling,integrityProtectAlgoPrio] = An array specifying the integrity protection algorithms that should be allowed and their priority order. The array has a maximum length of 3 and a minimum length of 1. The algorithm in index zero has the highest priority. Each algorithm shall be written only once in the array.<CR>Change takes effect: New connection<CR>MinLength=1 MaxLength=3 Default=EIA2,EIA1<CR>Range: 1,2,3
attr_description[Lrat.SecurityHandling,integrityProtectionActive] = Parameter for controlling if integrity protection of RRC messages is on or off in the RBS.<CR>Change takes effect: New connection.<CR>Default=true
attr_description[Lrat.SecurityHandling,rbIdSupervisionActive] = Controls supervision when the same radio bearer ID with the same set of parameters occurs in the ciphering algorithm.<CR>Default=true
attr_description[Lrat.SecurityHandling,securityHandlingId] = The value component of the RDN.
attr_description[Lrat.SignalingRadioBearer,dlMaxRetxThreshold] = Maximum number RLC re-transmissions in DL before stopping and indicating to RRC that the RLC threshold is reached.<CR>Change takes effect: Cell lock/unlock<CR>Default=8<CR>Range: 1,2,3,4,6,8,16,32
attr_description[Lrat.SignalingRadioBearer,dlPollPDU] = Maximum number of PDUs before polling for a STATUS report.<CR>Special value: 0 means infinity.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0,4,8,16,32,64,128,256
attr_description[Lrat.SignalingRadioBearer,signalingRadioBearerId] = The value component of the RDN.
attr_description[Lrat.SignalingRadioBearer,tPollRetransmitDl] = Time lapsed before request for new poll if no STATUS report arrives for the Sequence Number that is contained in the DL RLC Data PDU where the poll bit is set.<CR>Change takes effect: Cell lock/unlock<CR>Default=80<CR>Range: 5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,300,350,400,450,500<CR>Unit: ms
attr_description[Lrat.SignalingRadioBearer,tPollRetransmitUl] = Time lapsed before request for new poll if no STATUS report arrives for the Sequence Number that is contained in the UL RLC Data PDU where the poll bit is set.<CR>Disturbances: High values can cause high drop rate.<CR>Change takes effect: New connection.<CR>Default=80<CR>Range: 5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,300,350,400,450,500<CR>Unit: ms
attr_description[Lrat.SignalingRadioBearer,tReorderingDl] = Time before sending STATUS report when a Sequence Number is outstanding.<CR>Change takes effect: New connection.<CR>Default=35<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,110,120,130,140,150,160,170,180,190,200<CR>Unit: ms
attr_description[Lrat.SignalingRadioBearer,tReorderingUl] = This timer is used by the receiving end of the Acknowledged Mode (AM) Radio Link Control (RLC) entity in eNB for SRB1 or SRB2, to detect loss of uplink RLC protocol data units at lower layers.<CR>Disturbances: Low values can cause high drop rate.<CR>Change takes effect: New connection.<CR>Default=35<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,110,120,130,140,150,160,170,180,190,200<CR>Unit: ms
attr_description[Lrat.SignalingRadioBearer,tStatusProhibitDl] = Time after sending STATUS report before a new STATUS report is allowed to be sent.<CR>Change takes effect: New connection.<CR>Default=0<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,300,350,400,450,500<CR>Unit: ms
attr_description[Lrat.SignalingRadioBearer,tStatusProhibitUl] = Time after sending STATUS report before a new STATUS report is allowed to be sent.<CR>Change takes effect: Cell lock/unlock<CR>Default=0<CR>Range: 0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,300,350,400,450,500<CR>Unit: ms
attr_description[Lrat.SignalingRadioBearer,ulMaxRetxThreshold] = Maximum number RLC re-transmissions in UL before stopping and indicating to RRC that the RLC threshold is reached.<CR>Disturbances: Low values can cause high drop rate.<CR>Change takes effect: New connection.<CR>Default=8<CR>Range: 1,2,3,4,6,8,16,32
attr_description[Lrat.SignalingRadioBearer,ulPollPDU] = Maximum number of PDUs before polling for a STATUS report.<CR>Special value: 0 means infinity.<CR>Change takes effect: New connection.<CR>Default=0<CR>Range: 0,4,8,16,32,64,128,256
attr_description[Lrat.Srb1Profile,logicalChannelPriority] = Corresponds to the logical channel priority (see TS 36.321) for SRB1.<CR>Change takes effect: New connection.<CR>Default=1<CR>Range: 1 to 16
attr_description[Lrat.Srb1Profile,srb1ProfileId] = The value component of the RDN.
attr_description[Lrat.Srb1Profile,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.Srb2Profile,logicalChannelPriority] = Corresponds to the logical channel priority (see TS 36.321) for SRB2.<CR>Change takes effect: New connection.<CR>Default=3<CR>Range: 1 to 16
attr_description[Lrat.Srb2Profile,srb2ProfileId] = The value component of the RDN.
attr_description[Lrat.Srb2Profile,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.SrbLogicalChannelGroup,srbLogicalChannelGroupId] = The value component of the Relative Distinguished Name (RDN).<CR>The Logical Channel Group ID for signalling radio bearers. The RDN for this MO type must always be 0.
attr_description[Lrat.SrbTable,reservedBy] = Contains a list of cells that reserves this MO instance.<CR>Change takes effect: New connection.<CR>MinLength=0<CR>References: Lrat.EUtranCellFDD[0-],Lrat.EUtranCellTDD[0-]
attr_description[Lrat.SrbTable,srbTableId] = The value component of the RDN.
attr_description[Lrat.SubscriberProfileID,subscriberProfileIDId] = The value component of the RDN
attr_description[Lrat.SubscriberProfileID,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.TermPointToENB,administrativeState] = The administrative state.<CR>Note: If this attribute is set to SHUTTING_DOWN, it will immediately go into the state LOCKED.<CR>Disturbances: Changing this attribute to LOCKED or SHUTTINGDOWN causes loss of X2 connectivity.<CR>Default=LOCKED<CR>Range: 0,1,2
attr_description[Lrat.TermPointToENB,availabilityStatus] = The availability status. It contains details about operational state. This attribute is set by the application in the RBS.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.TermPointToENB,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator or X2<CR>Range: 0,1,2
attr_description[Lrat.TermPointToENB,domainName] = The fully-qualified domain name of the RBS.<CR>A valid domain name consists of 1 or more labels separated by dots (.). Valid characters for a label are limited to letters a-z, A-Z, digits 0-9, and the character - (dash).<CR>The following format is used for automatically created domain names:<CR>x2.enbidDDDDD.enb.tac-lbEE.tac-hbFF.tac.eutran.mncBBB.mccCCC.3gppnetwork.org.<CR>The D's (five or seven) represent hexadecimal coding of ENBID (enodeB Identity) without padding.<CR>B & C represent BCD (binary coded decimal) coding of MNC (mobile network code) and MCC (mobile country code) respectively.<CR>E & F represent hexadecimal coding of the least and most significant bytes (low & high byte) of the tracking area code.<CR>B, C, E & F are always padded with leading zeros to match the number of characters in the format above.<CR>Range: 0 to 255
attr_description[Lrat.TermPointToENB,interEnbSwCompatibilityState] = Reflects whether the eNodeBs designated in the endpoints between eNodeBs have inter-eNodeB-compatible capabilities.<CR>Dependencies: If not compatible, no baseband-to-baseband connections are set up between these eNodeBs.<CR>Range: 0,1,2
attr_description[Lrat.TermPointToENB,interEnbUlCompSwCompatibility] = Whether eNodeBs designated in endpoints between eNodeBs are compatible for Inter-eNodeB UL CoMP.<CR>Dependencies: If not compatible, no baseband-to-baseband connections are set up between these eNodeBs.<CR>Range: 0,1,2
attr_description[Lrat.TermPointToENB,ipAddress] = The IP address of the neighboring RBS. The input format is four fields of digits, separated by dots. Each field may consist of three digits. The value of each field is in the range 0-255.<CR>Dependencies: To set this attribute, administrativeState must be LOCKED.<CR>Disturbances: Changing this attribute can cause loss of X2 connectivity.<CR>Default=0.0.0.0<CR>Range: 7 to 15
attr_description[Lrat.TermPointToENB,ipsecEpAddress] = The outer address of the X2 neighbor.
attr_description[Lrat.TermPointToENB,ipv6Address] = The IP address of the neighboring RBS. The format is eight fields, separated by colons.<CR>Each field consists of four hexadecimal characters. The value of each field is in the range 0-FFFF.<CR>Leading zeroes can be omitted in a field, and multiple groups of 16 bits of zeroes can be compressed to ::<CR>The :: can appear only once in an address.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Disturbances: Changing this attribute can cause loss of X2 connectivity.<CR>Default=::<CR>Range: 2 to 39
attr_description[Lrat.TermPointToENB,lastModification] = Indicates whether the MO was last modified by the Automated Neighbor Relations (ANR) function or operator or X2 and if the MO is to be deleted who triggered the deletion<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.TermPointToENB,operationalState] = The operational state. This attribute is set by the application in the RBS.<CR>Range: 0,1
attr_description[Lrat.TermPointToENB,portNumber] = The SCTP port number where the neighboring RBS is listening to incoming connections.<CR>Change takes effect: New connection<CR>Default=36422<CR>Range: 1 to 65535
attr_description[Lrat.TermPointToENB,termPointToENBId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.TermPointToENB,timeOfCreation] = Indicates the time and date when the MO was created.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.TermPointToENB,timeOfLastModification] = Indicates the time and date when the MO was last modified.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.TermPointToENB,usedIpAddress] = The destination address used for initialization of the underlying SCTP association of the latest successful X2-Setup.<CR>The IP address can be an IPv4 or an IPv6 address.<CR>Note: usedIpAddress never changes during the lifetime of the SCTP association.<CR>Range: 2 to 39
attr_description[Lrat.TermPointToGNB,administrativeState] = The administrative state.<CR>Note: If this attribute is set to SHUTTING_DOWN, it will immediately go into the state LOCKED.<CR>Default=LOCKED<CR>Range: 0,1,2
attr_description[Lrat.TermPointToGNB,availabilityStatus] = The availability status. It contains details about operational state. This attribute is set by the application in the RBS.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.TermPointToGNB,domainName] = The fully-qualified domain name of the RBS.<CR>A valid domain name consists of 1 or more labels separated by dots (.). Valid characters for a label are limited to letters a-z, A-Z, digits 0-9, and the character - (dash).<CR>The following format is used for automatically created domain names:<CR>x2.enbidDDDDD.enb.tac-lbEE.tac-hbFF.tac.eutran.mncBBB.mccCCC.3gppnetwork.org.<CR>The D's (five or seven) represent hexadecimal coding of ENBID (enodeB Identity) without padding.<CR>B & C represent BCD (binary coded decimal) coding of MNC (mobile network code) and MCC (mobile country code) respectively.<CR>E & F represent hexadecimal coding of the least and most significant bytes (low & high byte) of the tracking area code.<CR>B, C, E & F are always padded with leading zeros to match the number of characters in the format above.<CR>Range: 0 to 255
attr_description[Lrat.TermPointToGNB,ipAddress] = The IP address of the neighboring RBS. The input format is four fields of digits, separated by dots. Each field may consist of three digits. The value of each field is in the range 0-255.<CR>Dependencies: To set this attribute, administrativeState must be LOCKED.<CR>Default=0.0.0.0<CR>Range: 7 to 15
attr_description[Lrat.TermPointToGNB,ipv6Address] = The IP address of the neighboring RBS. The format is eight fields, separated by colons.<CR>Each field consists of four hexadecimal characters. The value of each field is in the range 0-FFFF.<CR>Leading zeroes can be omitted in a field, and multiple groups of 16 bits of zeroes can be compressed to ::<CR>The :: can appear only once in an address.<CR>Dependencies: To set this attribute, administrativeState must be LOCKED.<CR>Default=::<CR>Range: 2 to 39
attr_description[Lrat.TermPointToGNB,operationalState] = The operational state. This attribute is set by the application in the RBS.<CR>Range: 0,1
attr_description[Lrat.TermPointToGNB,termPointToGNBId] = The value component of the RDN.
attr_description[Lrat.TermPointToGNB,usedIpAddress] = The destination address used for initialization of the underlying SCTP association of the latest successful X2-Setup.<CR>The IP address can be an IPv4 or an IPv6 address.<CR>Note: usedIpAddress never changes during the lifetime of the SCTP association.<CR>Range: 2 to 39
attr_description[Lrat.TermPointToLbm,lbmIdLocal] = Logical baseband module ID at the local end.<CR>Range: 0 to 16
attr_description[Lrat.TermPointToLbm,lbmIdRemote] = Logical baseband module ID at the remote end.<CR>Range: 0 to 16
attr_description[Lrat.TermPointToLbm,operationalState] = Operational state of inter-eNodeB tunnels.<CR>Range: 0,1
attr_description[Lrat.TermPointToLbm,termPointToLbmId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.TermPointToMme,additionalCnRef] = Refers to the AdditionalCoreNetwork instance to point out the source S1AP SCTP endpoint.<CR>isNillable: true<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: Next MO unlock<CR>References: Lrat.AdditionalCoreNetwork[0-1]
attr_description[Lrat.TermPointToMme,administrativeState] = The administrative state.<CR>Note: If this attribute is set to SHUTTING_DOWN, it will immediately go into the state LOCKED.<CR>Disturbances: Changing this attribute to LOCKED or SHUTTINGDOWN causes loss of traffic.<CR>Change takes effect: Immediatley.<CR>Default=LOCKED<CR>Range: 0,1,2
attr_description[Lrat.TermPointToMme,availabilityStatus] = The availability status. It contains details about operationalState. This attribute is set by the application in the RBS.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.TermPointToMme,dcnType] = Type of dedicated core network that MME serves. During initial attach, eNodeB selects an MME that belongs to default dedicated core network during NAS node selection.<CR>Default=DEFAULT<CR>Range: 0,1
attr_description[Lrat.TermPointToMme,domainName] = The fully-qualified domain name of the MME.<CR>A valid domain name consists of 1 or more labels separated by dots (.).<CR>Valid characters for a label are limited to letters a - z, A - Z, digits 0 - 9, and the character - (dash). Character case is preserved. Length of a label may not exceed 255 characters.<CR>NOTE: The first and last character in the domain name must be one of the following: alphanumerical a - z, A - Z and digits 0 - 9. For more information refer to RFC 952, 1101 and 1123.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Range: 0 to 255
attr_description[Lrat.TermPointToMme,ipAddress1] = The primary IP address of the MME. A unique IP address is required for each MME.<CR>The input format is four fields of digits, separated by dots. Each field consists of three digits. The value of each field must be in the range 0-255.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Disturbances: Changing this attribute can cause loss of S1 connectivity.<CR>Default=0.0.0.0<CR>Range: 7 to 15
attr_description[Lrat.TermPointToMme,ipAddress2] = The secondary IP address of the MME. A unique IP address is required for each MME.<CR>The input format is four fields of digits, separated by dots. Each field consists of three digits. The value of each field must be in the range 0-255.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Disturbances: Changing this attribute can cause loss of S1 connectivity.<CR>Default=0.0.0.0<CR>Range: 7 to 15
attr_description[Lrat.TermPointToMme,ipv6Address1] = The primary IPv6 address of the MME. The input format is eight fields, separated by colons.<CR>Each field consists of four hexadecimal characters. The value of each field must  be in the range 0-FFFF.<CR>Leading zeroes can be omitted in a field, and multiple groups of 16 bits of zeroes can be compressed to ::. The :: can be used only once in an address.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Change takes effect: Object enabled<CR>Default=::<CR>Range: 2 to 39
attr_description[Lrat.TermPointToMme,ipv6Address2] = The secondary IPv6 address of the MME. The input format is eight fields, separated by colons.<CR>Each field consists of four hexadecimal characters. The value of each field must be in the range 0-FFFF.<CR>Leading zeroes can be omitted in a field and multiple groups of 16 bits of zeroes can be compressed to ::.<CR>The :: can be used only once in an address.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Change takes effect: Object enabled<CR>Default=::<CR>Range: 2 to 39
attr_description[Lrat.TermPointToMme,logicalName] = The attribute reflects the value of attribute logicalName on MO ManagedElement. This value is used when MO ManagedElement is not accessible during restart or JVM unavailable.<CR>Range: 0 to 255
attr_description[Lrat.TermPointToMme,mmeCodeListLTERelated] = MME code for LTE.<CR>MinLength=0 MaxLength=256<CR>Range: -1 to 255
attr_description[Lrat.TermPointToMme,mmeCodeListOtherRATs] = MME code for radio technologies other than LTE.<CR>MinLength=0 MaxLength=256<CR>Range: -1 to 255
attr_description[Lrat.TermPointToMme,mmeGIListLTERelated] = MME group ID for LTE.<CR>MinLength=0 MaxLength=16<CR>Range: -1 to 65535
attr_description[Lrat.TermPointToMme,mmeName] = Used by OSS-RC to identify an MME. The attribute is set by the RBS at S1-SETUP.<CR>Range: 0 to 150
attr_description[Lrat.TermPointToMme,mmeSupportLegacyLte] = Enable/disable MME to serve legacy LTE traffic.<CR>Default=true
attr_description[Lrat.TermPointToMme,mmeSupportNbIoT] = Enable/disable MME to serve NbIot traffic.<CR>Default=false
attr_description[Lrat.TermPointToMme,operationalState] = The operational state.  This attribute is set by the application in the RBS.<CR>Range: 0,1
attr_description[Lrat.TermPointToMme,relativeMmeCapacity] = Relative processing capacity of an MME to the other MMEs in the pool. The capacity is used to balance the load between MMEs in a pool.<CR>Range: 0 to 255
attr_description[Lrat.TermPointToMme,servedPlmnListLTERelated] = Lists the PLMN IDs served by the MME. The attribute is set by the RBS at S1-SETUP. The PLMN ID consists of:<CR>1. MobileCountryCode, MCC, 3 digits<CR>2. MobileNetworkCode, MNC, 2 or 3 digits (the correct number of digits is set in the mncLength member of this Struct)<CR>Example: If MCC=125 and MNC=46, then plmnId=12546.<CR>MinLength=0 MaxLength=16
attr_description[Lrat.TermPointToMme,servedPlmnListOtherRATs] = Lists PLMN IDs served by the MME for radio technologies other than LTE. The attribute is set by the RBS at S1-SETUP. The PLMN ID consists of:<CR>1. MobileCountryCode, MCC, 3 digits<CR>2. MobileNetworkCode, MNC, 2 or 3 digits (the correct number of digits is set in the mncLength member of this Struct)<CR>Example: If MCC=125 and MNC=46, then plmnId=12546.<CR>MinLength=0 MaxLength=32
attr_description[Lrat.TermPointToMme,termPointToMmeId] = The value component of the RDN.
attr_description[Lrat.TermPointToMme,usedIpAddress] = The destination address used for initialization of the underlying SCTP association of the latest successful S1-Setup.<CR>The IP address can be an IPv4 or an IPv6 address.<CR>Note: usedIpAddress never changes during the lifetime of the SCTP association.<CR>Range: 2 to 39
attr_description[Lrat.TermPointToSGW,termPointToSGWId] = The value component of the RDN.
attr_description[Lrat.TermPointToSGW,timeOfCreation] = Time and date when MO was created. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.TermPointToSGW,usedIpAddress] = Remote address used for SGW termination point. Can be IPv4 or IPv6 address.<CR>Range: 2 to 39
attr_description[Lrat.TestModeFunction,general1] = General attributes are intended as solutions for specific customer requirements. Each attribute corresponds to a desired functionality. Used attributes are described in feature NDS.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.TestModeFunction,general2] = General attributes are intended as solutions for specific customer requirements. Each attribute corresponds to a desired functionality. Used attributes are described in feature NDS.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.TestModeFunction,general3] = General attributes are intended as solutions for specific customer requirements. Each attribute corresponds to a desired functionality. Used attributes are described in feature NDS.<CR>MinLength=0 MaxLength=10
attr_description[Lrat.TestModeFunction,general4] = General attributes are intended as solutions for specific customer requirements. Each attribute corresponds to a desired functionality. Used attributes are described in feature NDS.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.TestModeFunction,general5] = General attributes are intended as solutions for specific customer requirements. Each attribute corresponds to a desired functionality. Used attributes are described in feature NDS.<CR>MinLength=0 MaxLength=5
attr_description[Lrat.TestModeFunction,testModeFunctionId] = The value component of the RDN.
attr_description[Lrat.TimerProfile,reservedBy] = Contains a list of managed object instances that reserves this managed object instance.<CR>Dependencies: The MO cannot be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.QciProfileOperatorDefined[0-],Lrat.QciProfilePredefined[0-]
attr_description[Lrat.TimerProfile,tRelocOverall] = Supervision timer of the outgoing S1/X2/intra-eNodeB handover execution procedure according to 3GPP TS 36.413 and TS 36.423.<CR>If the feature Multi-Target RRC Connection Re-establishment is active this timer also supervises the Context Fetch procedure.<CR>Disturbances: Low values can stop outgoing HO.<CR>Change takes effect: New connection<CR>Range: 1 to 20<CR>Unit: s
attr_description[Lrat.TimerProfile,tRrcConnReest] = Waiting time for the RRC message RRC Connection Reestablishment Complete.<CR>Used by the RBS.<CR>Change takes effect: New connection<CR>Range: 1 to 20<CR>Unit: s
attr_description[Lrat.TimerProfile,tRrcConnectionReconfiguration] = Waiting time for the RRC message RRC Connection Reconfiguration Complete.<CR>Used by the RBS.<CR>Change takes effect: New connection<CR>Range: 1 to 20<CR>Unit: s
attr_description[Lrat.TimerProfile,tWaitForRrcConnReest] = Waiting time for the RRC message RRC Connection Reestablishment Request upon detecting Radio Link Failure.<CR>Used by the RBS.<CR>Change takes effect: New connection<CR>Range: 1 to 20<CR>Unit: s
attr_description[Lrat.TimerProfile,timerProfileId] = The value component of the RDN.
attr_description[Lrat.UcToolFunction,activateVcXoClock] = Indicates that the 30.72 MHz VcXo clock shall be sent out on the production test port by the GIC.<CR>Disturbances: Requires a node restart to take affect<CR>Change takes effect: At node restart<CR>Default=false
attr_description[Lrat.UcToolFunction,initUcToolConnection] = Initiates the connection to UCTool<CR>Dependencies: At least one SrioTestPort MO must be created to be able to set the parameter to true.<CR>Disturbances: Requires a node restart to take affect<CR>Change takes effect: At node restart<CR>Default=false
attr_description[Lrat.UcToolFunction,operationalState] = Defines the operational state<CR>Range: 0,1
attr_description[Lrat.UcToolFunction,ucToolFunctionId] = The value component of the RDN.
attr_description[Lrat.UeMeasControl,a3SuspendCsgTimer] = The length of time the eNodeB discards A3 measurement report for CSG or Hybrid CSG cells from UE. If 0, timer is not started.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 120000<CR>Unit: ms
attr_description[Lrat.UeMeasControl,a5B2MobilityTimer] = Length of time the eNodeB waits for reports from A3/A5/B2 measurements configured in UE for mobility reasons.<CR>If 0, timer is not started.<CR>If ULTRIG is enabled, timer is also applicable for UL-triggered measurements.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 120000<CR>Unit: ms
attr_description[Lrat.UeMeasControl,allowReleaseQci1] = This attribute specifies whether or not blind and measurement-based Release of a User Equipment (UE) with a QCI1 bearer is allowed.<CR>Default=false
attr_description[Lrat.UeMeasControl,bothA5RsrpRsrqCheck] = This attribute is used to turn on/off the functionality for checking the second value - RSRP or RSRQ - in an A5 Target Good Enough measurement report triggered by RSRQ or RSRP respectively.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.UeMeasControl,checkA2SearchLevel] = Disables or enables functionality of Level Based Search Zone Transitions. If enabled, eNodeB checks reported RSRP or RSRQ level of A2 Search or A2 Outer Search measurement to trigger measurement and mobility action.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.UeMeasControl,csfbHoTargetSearchTimer] = Length of time the eNodeB waits for reports from B1 and B2 measurements configured in the UE for CS Fallback reasons.<CR>Change takes effect: New connection<CR>Default=500<CR>Range: 1 to 12000<CR>Unit: ms
attr_description[Lrat.UeMeasControl,excludeInterFreqAtCritical] = If set, E-UTRA Inter-frequencies must be excluded when eNodeB selects the highest priority frequency at A2Critical.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.UeMeasControl,filterCoefficientEUtraNI] = Filtering coefficient for noise and interference value measure in eNodeB and used in calculation of uplink SINR. Coefficient filters noise and interference samples used to compare uplink quality in source and potential target cell. The filter coefficient assumes a sample period of 200ms.<CR>Default=9<CR>Range: 0 to 31
attr_description[Lrat.UeMeasControl,filterCoefficientEUtraRsrp] = The filtering coefficient for E-UTRA using the measured quantity Reference Signal Received Power (RSRP). The coefficient filters measurements before event evaluation.<CR>Change takes effect: New connection.<CR>Default=4<CR>Range: 0,1,2,3,4,5,6,7,8,9,11,13,15,17,19
attr_description[Lrat.UeMeasControl,filterCoefficientEUtraRsrq] = The filtering coefficient for E-UTRA using the measured quantity Reference Signal Received Quality (RSRQ). The coefficient filters measurements before event evaluation.<CR>Change takes effect: New connection.<CR>Default=11<CR>Range: 0,1,2,3,4,5,6,7,8,9,11,13,15,17,19
attr_description[Lrat.UeMeasControl,filterCoefficientEUtraUlSinrMax] = Filtering coefficient for the UE UL-normalized Signal-to-Noise-Max measurements in eNodeB. The coefficient filters measurements before event evaluation.<CR>Default=11<CR>Range: 0,1,2,3,4,5,6,7,8,9,11,13,15,17,19
attr_description[Lrat.UeMeasControl,filterCoefficientGeran] = Specifies the filtering coefficient for GERAN measurements. Used to filter measurements before event evaluation.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 0,1,2,3,4,5,6,7,8,9,11,13,15,17,19
attr_description[Lrat.UeMeasControl,filterCoefficientUtra] = Specifies the filtering coefficient for UTRA measurements. Used to filter measurements before event evaluation.<CR>Change takes effect: New connection<CR>Default=4<CR>Range: 0,1,2,3,4,5,6,7,8,9,11,13,15,17,19
attr_description[Lrat.UeMeasControl,inhibitB2RsrqConfig] = Disables or enables configuration of B2-RSRQ if event A2Search-RSRQ is triggered when the UE enters the search zone.<CR>Dependencies: This attribute is only effective when feature Mobility Control at Poor Coverage is activated.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.UeMeasControl,lowPrioMeasThresh] = Frequency priority threshold to specify the low priority measurement group from connectedModeMobilityPrio or voicePrio in search zone. Those less than this threshold are put in low priority measurement group and can be configured after event A2OuterSearch is triggered from UE.<CR>Dependencies: Feature Mobility Control at Poor Coverage must be active.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 7
attr_description[Lrat.UeMeasControl,maxMeasCdma20001xRtt] = Number of measurements that can be concurrently performed by the UE on CDMA2000 1xRTT measurement objects<CR>Change takes effect: New connection<CR>Default=3<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxMeasCdma2000eHrpd] = The number of measurements that can be concurrently performed by the UE on CDMA2000 eHRPD measurement objects.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxMeasEUtraOther] = The number of measurements that can be concurrently performed by the UE on E-UTRA frequencies of a type (FDD - TDD) other than the serving cell frequency.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxMeasGeran] = The number of measurements that can be concurrently performed by the UE on GERAN measurement objects.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxMeasInterFreqEUtra] = The number of measurements that can be concurrently performed by the UE on E-UTRA frequencies other than the serving cell frequency.<CR>Change takes effect: New connection<CR>Default=7<CR>Range: 1 to 7
attr_description[Lrat.UeMeasControl,maxMeasUtraFdd] = The number of measurements that can be concurrently performed by the UE on UTRA FDD measurement objects.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxMeasUtraTdd] = The number of measurements that can be concurrently performed by the UE on UTRA TDD measurement objects.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxNoMeasReportsInact] = Maximal value of reports that any UE must provide any system functions, based on periodical measurements, that are used to measure on EUtran, Utran and Geran neighbors.<CR>Special Value: 0 means infinity.<CR>Disturbances: Changing this attribute can affect UE battery consumption and user throughput.<CR>Default=1<CR>Range: 0 to 100
attr_description[Lrat.UeMeasControl,maxRepCriteriaCDMA2000Hrpd] = Restricts the number of reporting criteria on CDMA2000 eHRPD which can be concurrently assigned to a UE.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxRepCriteriaGeran] = Restricts the number of reporting criteria on GERAN which can be concurrently assigned to a UE.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxRepCriteriaInterFreq] = Restricts the number of reporting criteria on E-UTRA frequencies other than the serving frequency which can be concurrently assigned to a UE.<CR>Change takes effect: New connection<CR>Default=7<CR>Range: 1 to 7
attr_description[Lrat.UeMeasControl,maxRepCriteriaInterOther] = Restricts the number of reporting criteria on E-UTRA frequencies of another type (FDD - TDD) than the serving frequency which can be concurrently assigned to a UE.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxRepCriteriaIntraFreq] = Restricts the number of reporting criteria which can be concurrently assigned to an UE, on E-UTRA frequencies that are the same as the serving frequency.<CR>Change takes effect: New connection<CR>Default=9<CR>Range: 1 to 9
attr_description[Lrat.UeMeasControl,maxRepCriteriaUtranFDD] = Restricts the number of reporting criteria on UTRAN FDD carrier frequencies which can currently be assigned to a UE.<CR>Change takes effect: New connection<CR>Default=5<CR>Range: 1 to 5
attr_description[Lrat.UeMeasControl,maxTotalReportingCriteria] = Restricts the total number of reporting criteria which can be concurrently assigned to a UE.<CR>Change takes effect: New connection<CR>Default=21<CR>Range: 1 to 21
attr_description[Lrat.UeMeasControl,maxUtranCellsToMeasure] = Defines the maximal number of UTRAN cells to perform mobility measurements upon.<CR>Default=32<CR>Range: 0 to 64
attr_description[Lrat.UeMeasControl,measQuantityUtraFDD] = Measurement quantity used for all types of UTRA FDD measurements.<CR>Change takes effect: New connection<CR>Default=RSCP<CR>Range: 0,1
attr_description[Lrat.UeMeasControl,sMeasure] = Primary cell (PCell) quality threshold controlling whether or not the UE is required to perform measurements of intra-frequency, inter-frequency and inter-RAT neighboring cells.<CR>Value "0" indicates to disable s-Measure.<CR>Corresponds to s-Measure in TS 36.331.<CR>Disturbances: High values can stop outgoing HO.<CR>Change takes effect: New connection.<CR>Default=0<CR>Range: -140 to -44,0<CR>Unit: dBm
attr_description[Lrat.UeMeasControl,searchEffortTime] = Time used in feature Mobility Control at Poor Coverage to determine if measured frequencies must be excluded for mobility action at critical threshold.<CR>Special value: 0 means infinity.<CR>If ULTRIG is enabled, timer is also applicable for UL-triggered measurements.<CR>Default=40<CR>Range: 0 to 1200<CR>Unit: 0.1 s
attr_description[Lrat.UeMeasControl,servOrPrioIFHoTimer] = The length of time the eNodeB waits for measurement reports from the UE in the feature Service or Priority-triggered inter-freq Handover.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: 0 to 60000<CR>Unit: ms
attr_description[Lrat.UeMeasControl,targetA2UlSearchOffset] = Offset value above a1a2UlSearchThreshold that UL SINR in target cell must reach for handover to be allowed. Used when feature Uplink-Triggered Inter-Frequency Mobility is enabled. Configured in target cell.<CR>Change takes effect: New connection<CR>Default=20<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.UeMeasControl,ueMeasControlId] = The value component of the RDN.
attr_description[Lrat.UeMeasControl,ueMeasurementsActiveCDMA20001xRtt] = Activates or deactivates CDMA 1xRtt measurements for mobility purposes when Mobility Control at Poor Coverage feature is enabled.<CR>Disturbances: Changing this attribute to false can cause loss of traffic. Blocks measurement based mobility to CDMA 1xRtt.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.UeMeasControl,ueMeasurementsActiveCDMA2000] = Activates or deactivates CDMA2000 measurements for mobility purposes when Mobility Control at Poor Coverage feature is enabled.<CR>Disturbances: Changing this attribute to false can cause loss of traffic. Blocks measurement based mobility to CDMA2000.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.UeMeasControl,ueMeasurementsActiveGERAN] = Activates or deactivates GERAN measurements for mobility and soft lock of cells purposes when feature Mobility Control at Poor Coverage is enabled.<CR>Disturbances: Changing this attribute to false can cause loss of traffic. Blocks measurement based mobility to GERAN.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.UeMeasControl,ueMeasurementsActiveIF] = Activates or deactivates EUTRAN inter-frequency measurements for mobility and soft lock of cells purposes when feature Mobility Control at Poor Coverage is enabled.<CR>Disturbances: Changing this attribute to false can cause loss of traffic. Blocks measurement based IF mobility.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.UeMeasControl,ueMeasurementsActiveUTRAN] = Activates or deactivates UTRAN measurements for mobility and soft lock of cells purposes when feature Mobility Control at Poor Coverage is enabled.<CR>Disturbances: Changing this attribute to false can cause loss of traffic. Blocks measurement based mobility to UTRAN.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.UeMeasControl,ueMeasurementsActive] = Activates or deactivates A3/A5/B2 measurements on EUTRAN inter-frequencies and on GERAN, UTRAN, CDMA2000 HRPD and CDMA2000 1xRtt frequencies for mobility purposes. This attribute also activates or deactivates A4/B1 measurements on EUTRAN inter-frequencies, GERAN and UTRAN frequencies for soft lock of cell purposes.<CR>Note that this parameter has no effect when feature Mobility Control at Poor Coverage is enabled.<CR>Disturbances: Changing this attribute to false can cause loss of traffic. Blocks outgoing measurement-based IF and IRAT mobility.<CR>Change takes effect: New connection<CR>Default=false
attr_description[Lrat.UeMeasControl,ulSinrOffset] = Offset value above UL SINR in source cell that estimated UL SINR in target cell must reach for handover to be allowed. Used when feature UL-Triggered Inter-Frequency Mobility is enabled. Configured in source cell.<CR>Change takes effect: New connection<CR>Default=30<CR>Range: -150 to 150<CR>Unit: 0.1 dB
attr_description[Lrat.UeMeasControl,zzzTemporary10] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary11] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary12] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary13] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary14] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary15] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary16] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary17] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary18] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary19] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since L17A. Replaced by checkA2SearchLevel. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary1] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.UeMeasControl,zzzTemporary20] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Status Information: Since 17.Q1. Replaced by ReportConfigSCellA1A2::a1a2ThresholdRsrpBidir. Planned to be removed.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary21] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary22] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary23] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary24] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary25] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary26] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary27] = Temporary attributes are intended as temporary solutions. Their usage can vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use can be overridden by the information in CPI documents. Note that a later release can use another attribute to control functionality previously provided by a temporary attribute, or can remove functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary2] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.UeMeasControl,zzzTemporary3] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.UeMeasControl,zzzTemporary4] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.
attr_description[Lrat.UeMeasControl,zzzTemporary5] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary6] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary7] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary8] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UeMeasControl,zzzTemporary9] = Temporary attributes are intended for temporary solutions, and their usage may vary depending on the installed software. It is strongly recommended to only set the attributes that correspond to a desired functionality and leave all other temporary attributes set to default value. Information in the descriptions about what attributes are in use may be overridden by the information in CPI Info documents. Note that a later release may use another attribute to control the functionality previously provided by a temporary attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR.<CR>Default=-2000000000
attr_description[Lrat.UlCompGroup,administrativeState] = The administrative state.<CR>Note: If this attribute is set to SHUTTING_DOWN, it will immediately go into the state LOCKED.<CR>Disturbances: Changing this attribute to LOCKED or SHUTTINGDOWN disables UL CoMP.<CR>Default=LOCKED<CR>Range: 0,1,2
attr_description[Lrat.UlCompGroup,availabilityStatus] = The availability status. It contains details about operationalState. This attribute is set by the application in the RBS.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[Lrat.UlCompGroup,operationalState] = The operational state. This attribute is set by the application in the RBS.<CR>Range: 0,1
attr_description[Lrat.UlCompGroup,sectorCarrierRef] = Defines a set of sectorCarriers. Uplink Coordinated multi-point reception of antenna signals is possible only between antenna signals from sectorCarriers within the same set of sectorCarriers. There shall be at least one sectorCarrier per UlCompGroup.<CR>Change takes effect: Object enabled<CR>MinLength=1 MaxLength=600<CR>References: Lrat.SectorCarrier[0-]
attr_description[Lrat.UlCompGroup,ulCompGroupId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.UnlicensedAccessFunction,laaChannelEvaluationTimer] = When timer expires, channel evaluation is performed to find better carrier. Only applicable for Dynamic Channel Selection.<CR>Change takes effect: Next cell unlock<CR>Default=180<CR>Range: 1 to 1500<CR>Unit: minutes
attr_description[Lrat.UnlicensedAccessFunction,laaChannelSelectionType] = Selects channel selection type:<CR>- Static channel selection configures carriers according to UnlicensedBandProfile.<CR>- Dynamic channel selection dynamically chooses best available channels.<CR>Change takes effect: Next cell unlock<CR>Default=DYNAMIC_CHANNEL_SELECTION<CR>Range: 0,1
attr_description[Lrat.UnlicensedAccessFunction,laaDrsOffset] = Offset of DRS within a DMTC. Depending on DRS periodicity, the value can be set within the ranges 0-39, 0-79 or 0-159.<CR>Dependencies: laaDrsOffset < laaDrsPeriodicity<CR>Change takes effect: Cell lock/unlock<CR>Default=5<CR>Range: 0 to 159<CR>Unit: ms
attr_description[Lrat.UnlicensedAccessFunction,laaDrsPeriodicity] = Periodicity of DRS.<CR>Dependencies: laaDrsOffset < laaDrsPeriodicity<CR>Change takes effect: Cell lock/unlock<CR>Default=40<CR>Range: 40,80,160<CR>Unit: ms
attr_description[Lrat.UnlicensedAccessFunction,laaLbtCheckTimer] = When timer expires, LBT success rate is evaluated. If less than threshold, new channel evaluation is performed to find better carrier.<CR>Only applicable for Dynamic Channel Selection.<CR>Change takes effect: Next cell unlock<CR>Default=900<CR>Range: 1 to 1800<CR>Unit: seconds
attr_description[Lrat.UnlicensedAccessFunction,laaLbtSuccessRateThreshold] = Level of LBT success rate for an acceptable LAA carrier. If less than threshold, new carrier is considered. Only applicable for Dynamic Channel Selection.<CR>Change takes effect: Next cell unlock<CR>Default=50<CR>Range: 10 to 90<CR>Unit: %
attr_description[Lrat.UnlicensedAccessFunction,laaMasterCarrierTimer] = For future use.<CR>When timer expires, LBT master carrier is evaluated to get best master carrier. Only applicable for Multi-Carrier Access type B.<CR>Change takes effect: Next cell unlock<CR>Default=10<CR>Range: 1 to 60<CR>Unit: seconds
attr_description[Lrat.UnlicensedAccessFunction,laaMaxOccupancy] = Duration of SCell occupancy. Complies with regulations for maximum transmission time.<CR>Change takes effect: Cell lock/unlock<CR>Default=8<CR>Range: 4 to 20<CR>Unit: ms
attr_description[Lrat.UnlicensedAccessFunction,laaMultiCarrierAccessProcedureType] = Selects LBT multi-carrier procedure type:<CR>- Type A procedure checks LBT on carriers independently.<CR>- Type B checks LBT on master carrier first, if successful LBT is performed on slave carriers.<CR>Change takes effect: Next cell unlock<CR>Default=MULTI_CARRIER_PROCEDURE_TYPE_A<CR>Range: 0,1
attr_description[Lrat.UnlicensedAccessFunction,laaRssiDuty] = RSSI measurement sample duty cycle.<CR>Dependencies: laaRssiPeriodicity > laaRssiDuty<CR>Change takes effect: Next cell unlock<CR>Default=50<CR>Range: 10 to 500<CR>Unit: microseconds
attr_description[Lrat.UnlicensedAccessFunction,laaRssiPeriodicity] = Time between two RSSI measurement samples.<CR>Dependencies: laaRssiPeriodicity > laaRssiDuty<CR>Change takes effect: Next cell unlock<CR>Default=500<CR>Range: 500 to 10000<CR>Unit: microseconds
attr_description[Lrat.UnlicensedAccessFunction,laaRssiSamples] = Number of RSSI measurement samples.<CR>Change takes effect: Next cell unlock<CR>Default=1000<CR>Range: 100 to 10000
attr_description[Lrat.UnlicensedAccessFunction,laaSCellActDeactDataThresHyst] = Deactivation of one component carrier is considered if:<CR>minimum time to transmit all bits in all priority queues of a UE is less than or equal to laaSCellActDeactDataThres minus laaSCellActDeactDataThresHyst.<CR>Minimum time is calculated as number of bits in all priority queues, divided by number of bits that can be transmitted in one TTI by all active serving cells (after deactivation decision). Computed as if UE is given all resources in those cells.<CR>If laaSCellActDeactDataThres is set to "-1", data-triggered deactivation condition is never satisfied and value of laaSCellActDeactDataThresHyst is ignored.<CR>Dependencies: laaSCellActDeactDataThresHyst <= laaSCellActDeactDataThres when sCellActDeactDataThres is not equal to -1.<CR>Change takes effect: Next cell unlock<CR>Default=90<CR>Range: -1 to 5000<CR>Unit: 0.1 Number of DL subframes
attr_description[Lrat.UnlicensedAccessFunction,laaSCellActDeactDataThres] = SCells can be activated if minimum time needed to transmit all bits in all priority queues of UE is higher than laaSCellActDeactDataThres.<CR>Minimum time is calculated as number of bits in all priority queues, divided by number of bits that can be transmitted in one TTI by all active serving cells (prior to activation decision). Computed as if UE is given all resources in those cells.<CR>If condition for activating one SCell is satisfied, a second SCell is also considered for activation. Minimum time needed to transmit all bits is now re-calculated with added capacity of new SCell. Another SCell is added if still over threshhold.<CR>"-1" means data-triggered activation condition is always satisfied even with no data in buffer, and also that data-triggered deactivation condition is never satisfied<CR>Only used if LAA is configured in RBS.<CR>Dependencies: laaSCellActDeactDataThresHyst <= laaSCellActDeactDataThres when sCellActDeactDataThres is not equal to -1.<CR>Change takes effect: Next cell unlock<CR>Default=100<CR>Range: -1 to 5000<CR>Unit: 0.1 Number of DL subframes
attr_description[Lrat.UnlicensedAccessFunction,unlicensedAccessFunctionId] = The value component of the RDN.
attr_description[Lrat.UnlicensedBandProfile,reservedBy] = List of MO instances that reserve this MO instance.<CR>Dependencies: MO can not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.EUtranFreqRelationUnlicensed[0-]
attr_description[Lrat.UnlicensedBandProfile,unlicensedBandProfileId] = The value component of the RDN.
attr_description[Lrat.UnlicensedBandProfile,unlicensedBandProfileList] = Details of regulatory requirements for unlicensed bands.<CR>MinLength=0 MaxLength=36
attr_description[Lrat.UserProfile,arpList] = Which ARP values are included in user profile. Empty list means all are included.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=15<CR>Range: 1 to 15
attr_description[Lrat.UserProfile,plmnList] = Which PLMNs are included in user profile. Empty list means all are included.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=6
attr_description[Lrat.UserProfile,reservedBy] = List of MO instances that reserve this MO instance.<CR>Dependencies: MO can not be deleted if it is reserved.<CR>MinLength=0<CR>References: Lrat.FlexibleQoSGroupMember[0-]
attr_description[Lrat.UserProfile,spidList] = Which SPID values are included in user profile. Empty list means all are included.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=20<CR>Range: 1 to 256
attr_description[Lrat.UserProfile,userProfileId] = The value component of the RDN.
attr_description[Lrat.UserProfile,userProfileName] = Name of user profile.<CR>Change takes effect: New connection
attr_description[Lrat.UtraNetwork,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.UtraNetwork,utraNetworkId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.UtranCellRelation,calculatedUeRelevance] = Estimated percentage of UEs that have ranked the associated neighbor cell as the strongest. The parameter is used by the feature best neighbor for redirect with SI.<CR>Range: 0 to 100
attr_description[Lrat.UtranCellRelation,coverageIndicator] = Defines whether the coverage areas of the EUTRAN cell and the UTRAN FDD/TDD cell are indicated to overlap (have approximately the same coverage area), or whether the coverage area of the UTRAN FDD/TDD cell is indicated to cover the EUTRAN cell, or if it is contained in the EUTRAN cell.<CR>Disturbances: Changes may affect traffic<CR>Default=NONE<CR>Range: 0,1,2,3
attr_description[Lrat.UtranCellRelation,createdBy] = Indicates whether the MO has been created by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1
attr_description[Lrat.UtranCellRelation,externalUtranCellFDDRef] = Reference to the external UTRAN FDD/TDD cell MO.<CR>References: Lrat.ExternalUtranCellFDD[0-],Lrat.ExternalUtranCellTDD[0-]
attr_description[Lrat.UtranCellRelation,hoSuccessRateLpFilt] = This parameter specifies the low-pass filtered handover success rate.<CR>Range: 0 to 10000<CR>Unit: 0.01 %
attr_description[Lrat.UtranCellRelation,isHoAllowed] = Specifies if handover between the cells in this relation is allowed.<CR>Disturbances: Changing this attribute to false stops outgoing HO.<CR>Default=true
attr_description[Lrat.UtranCellRelation,isRemoveAllowed] = Indicates if the Automated Neighbor Relations (ANR) function is allowed to remove this object. It does not restrict operator removal of the object. Objects created by ANR have this parameter set to true initially.<CR>Default=false
attr_description[Lrat.UtranCellRelation,lastModification] = Indicates whether the MO has been last modified by the Automated Neighbor Relations (ANR) function or operator.<CR>Range: 0,1,2,3,4,5
attr_description[Lrat.UtranCellRelation,lbBnrAllowed] = Specifies if the feature Best Neighbor Relations for WCDMA IRAT Offload is allowed to automatically change the loadBalancing attribute for this Utran cell relation.<CR>Default=true
attr_description[Lrat.UtranCellRelation,lbCovIndicated] = Determines if the cell relation has high hitRate towards the source cell.<CR>Default=false
attr_description[Lrat.UtranCellRelation,lbUeMeasScaling] = Scaling factor for the required number of UE candidates needed for load balancing measurements to meet the load balancing target. Special value: 0 means automatic scaling factor.<CR>The attribute has no effect when the feature Coverage Adapted Load Management is operable.<CR>Default=0<CR>Range: 0,10 to 100<CR>Unit: 0.1 .
attr_description[Lrat.UtranCellRelation,loadBalancing] = Load balancing<CR>The value specifies whether load balancing action to the referenced target UTRAN cell is allowed.<CR>Default=NOT_ALLOWED<CR>Range: 0,2
attr_description[Lrat.UtranCellRelation,removingMonitoringStart] = Indicates the time and date when the MO was started for monitoring for automatic removal by the (automatic neighbor relation) function.<CR>Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.UtranCellRelation,timeOfCreation] = Indicates the time and date when the MO was created by the Automated Neighbor Relations (ANR) function or operator. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.UtranCellRelation,timeOfLastModification] = The date and time when the MO was last modified by the Automated Neighbor Relations (ANR) function or operator. Format: YYYY-MM-DD HH:MM:SS<CR>Range: 0 to 19
attr_description[Lrat.UtranCellRelation,utranCellRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.UtranFreqRelation,allowedPlmnList] = List of all Public Land Mobile Network (PLMN) IDs allowed for this frequency relation.<CR>A UE that does not support one of the IDs included in the allowedPlmnList does not measure on this frequency, according to the UE Handover Restriction List.<CR>No values in allowedPlmnList imply that the frequency has no restrictions for PLMN.<CR>The PLMN ID contains the following parts:<CR>1. MobileCountryCode, MCC, 3 digits<CR>2. MobileNetworkCode, MNC, 2 or 3 digits (the correct number of digits is set in the mncLength member of this Struct)<CR>For example, if MCC=125 and MNC=46, then plmnId=12546.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=15
attr_description[Lrat.UtranFreqRelation,altCsfbTargetPrioEc] = Prioritizes UTRAN frequencies for emergency calls among all frequencies related to the cell for UEs in connected mode.<CR>Sets the priority to the alternative target frequency/frequency group to which to make release with redirect when measurement or handover to selected target fails for emergency calls.<CR>Value -1 means the frequency is excluded.<CR>Value 0 means the lowest priority.<CR>Value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.UtranFreqRelation,altCsfbTargetPrio] = Prioritizes UTRAN frequencies among all frequencies related to the cell for UEs in connected mode.<CR>Sets the priority to the alternative target frequency/frequency group to which  to make release with redirect when measurement or handover to selected target fails.<CR>Value -1 means the frequency is excluded.<CR>Value 0 means the lowest priority.<CR>Value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.UtranFreqRelation,anrMeasOn] = ANR performs measurement on the referenced frequency if this parameter is set to true. Otherwise, ANR does not perform any measurements on this frequency.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.UtranFreqRelation,atoAllowed] = Specifies whether Admission-triggered offload (ATO) is activated from the current cell towards a certain UTRAN frequency.<CR>Disturbances: Changing this attribute can affect traffic.<CR>Default=false
attr_description[Lrat.UtranFreqRelation,b2Thr1RsrpUtraFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold1Rsrp, RSRP threshold1 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.UtranFreqRelation,b2Thr1RsrqUtraFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold1Rsrq, RSRQ threshold1 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -240 to 240<CR>Unit: 0.1 dB
attr_description[Lrat.UtranFreqRelation,b2Thr2EcNoUtraFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold2EcNo, Ratio of energy for each modulation bit to noise spectral density in the ThresholdUTRA for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -50 to 50<CR>Unit: 0.1 dB
attr_description[Lrat.UtranFreqRelation,b2Thr2RscpUtraFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold2Rscp, RSCP in the ThresholdUTRA for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -24 to 24<CR>Unit: dB
attr_description[Lrat.UtranFreqRelation,cellReselectionPriority] = The absolute priority of the carrier frequency used by the cell reselection procedure. Corresponds to parameter priority in 3GPP TS 36.304.<CR>Value 0 means lowest priority. The UE behavior when the field is empty if applicable, is specified in 3GPP TS 36.304.<CR>Dependencies: The value must be unique and not already used by other RAT, i.e. equal priorities between RATs are not supported.<CR>Default=6<CR>Range: 0 to 7
attr_description[Lrat.UtranFreqRelation,connectedModeMobilityPrio] = Prioritizes UTRA frequencies among all frequencies related to the cell for UEs in connected mode.<CR>(0 means the lowest priority. -1 means the frequency is excluded.)<CR>Change takes effect: New connection<CR>Default=6<CR>Range: -1 to 7
attr_description[Lrat.UtranFreqRelation,csFallbackPrioEC] = Prioritizes UTRAN frequencies for emergency calls among all frequencies/frequency groups related to the cell for UEs in connected mode.<CR>Sets the priority to which frequency to make emergency call CS Fallback to.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.UtranFreqRelation,csFallbackPrio] = Prioritizes UTRAN frequencies among all frequencies related to the cell for UEs in connected mode.<CR>Sets the priority to which frequency/frequency group to make CS Fallback to.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.UtranFreqRelation,lbBnrPolicy] = Specifies the policy for updating the loadBalancing attribute by the feature Best Neighbor Relations for WCDMA IRAT Offload. The policy is valid for all cell relations corresponding to this UtranFreqRelation.<CR>Default=OFFLOAD_ONLY<CR>Range: 0,3
attr_description[Lrat.UtranFreqRelation,maxNrUtranCellRelations] = This parameter specifies the maximum number of UtranCellRelations per UtranFreqRelation. The value is set by the action with name SetMaxNrUtranCellRelations.<CR>Range: 0 to 64
attr_description[Lrat.UtranFreqRelation,mobilityActionCsfb] = The preferred way to transfer a UE in connected mode to a UTRAN FDD frequency in case of CS Fallback.<CR>Change takes effect: New connection<CR>Default=RELEASE_WITH_REDIRECT<CR>Range: 0,1,2
attr_description[Lrat.UtranFreqRelation,mobilityAction] = The preferred way to transfer a UE in connected mode to a UTRAN FDD frequency in case of coverage triggered mobility.<CR>Change takes effect: New connection<CR>Default=HANDOVER<CR>Range: 0,1,2
attr_description[Lrat.UtranFreqRelation,pMaxUtra] = Used to calculate the parameter Pcompensation (defined in 3GPP TS 36.304) at cell reselection to a UTRAN cell.<CR>Default=33<CR>Range: -50 to 33<CR>Unit: dBm
attr_description[Lrat.UtranFreqRelation,qOffsetFreq] = Indicates a frequency-specific offset to apply when evaluating triggering conditions for measurement reporting.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -15 to 15<CR>Unit: dB
attr_description[Lrat.UtranFreqRelation,qQualMin] = Minimum required quality level in the cell (dB). Corresponds to parameter Qqualmin in 3GPP TS 25.304<CR>Default=-18<CR>Range: -24 to 0<CR>Unit: dB
attr_description[Lrat.UtranFreqRelation,qRxLevMin] = The required minimum received Rx level in the UTRAN frequency used in cell reselection. Corresponds to parameter Qrxlevmin in 3GPP TS 36.304.<CR>Default=-119<CR>Range: -119 to -25<CR>Unit: dBm
attr_description[Lrat.UtranFreqRelation,threshXHighQ] = Specifies the quality level threshold used by the UE when reselecting towards a higher priority UTRA frequency than the current serving frequency.<CR>Corresponds to ThreshX, HighQ in 3GPP TS 36.304<CR>Dependencies: This parameter is included in SIB6 if the threshServingLowQ in SIB3 is included in systemInformationBlockType3.<CR>Default=0<CR>Range: 0 to 31<CR>Unit: dB
attr_description[Lrat.UtranFreqRelation,threshXHigh] = The threshold used by the UE when reselecting towards a higher priority frequency from the current serving frequency. Each UTRAN frequency may have a specific threshold. The threshold is specified as parameter Thresx,high in 3GPP TS 36.304.<CR>Default=4<CR>Range: 0 to 62
attr_description[Lrat.UtranFreqRelation,threshXLowQ] = Specifies the quality level threshold used by the UE when reselecting towards a lower priority UTRA frequency than the current serving frequency.<CR>Corresponds to ThreshX, LowQ in 3GPP TS 36.304<CR>Dependencies: This parameter is included in SIB6 if the threshServingLowQ in SIB3 is included in systemInformationBlockType3.<CR>Default=0<CR>Range: 0 to 31<CR>Unit: dB
attr_description[Lrat.UtranFreqRelation,threshXLow] = The threshold used in reselection towards a lower frequency priority from a higher priority frequency. Each frequency of UTRAN may have a specific threshold. The threshold is specified as parameter Thresx,low in 3GPP TS 36.304.<CR>Default=0<CR>Range: 0 to 62
attr_description[Lrat.UtranFreqRelation,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.UtranFreqRelation,utranFreqRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.UtranFreqRelation,utranFreqToQciProfileRelation] = QCI profile relation<CR>The attribute encapsulates parameters for service specific load management for specific QCI profiles.<CR>MinLength=0 MaxLength=19
attr_description[Lrat.UtranFreqRelation,utranFrequencyRef] = Reference to the UTRAN frequency MO, UtranFreq.<CR>References: Lrat.UtranFrequency[0-]
attr_description[Lrat.UtranFreqRelation,voicePrio] = Prioritizes UTRAN frequencies among all frequencies related to the cell for UEs in connected mode. Sets the priority to which frequency to perform mobility to for a voice session.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.UtranFrequency,arfcnValueUtranDl] = Indicates the ARFCN applicable for a downlink UTRA carrier frequency, as defined in 3GPP TS 25.331.<CR>Allowed ARFCN values are specified in 3GPP TS 25.101 (UTRAN FDD) and 3GPP TS 25.102 (UTRAN TDD).<CR>Range: 0 to 16383
attr_description[Lrat.UtranFrequency,reservedBy] = Contains a list of MO instances that reserve this MO instance.<CR>MinLength=0<CR>References: Lrat.UtranFreqRelation[0-],Lrat.UtranTDDFreqRelation[0-]
attr_description[Lrat.UtranFrequency,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.UtranFrequency,utranFrequencyId] = The value component of the Relative Distinguished Name (RDN).
attr_description[Lrat.UtranTDDFreqRelation,allowedPlmnList] = List of all Public Land Mobile Network (PLMN) IDs allowed for this frequency relation.<CR>A UE that does not support one of the IDs included in the allowedPlmnList does not measure on this frequency, according to the UE Handover Restriction List.<CR>No values in allowedPlmnList imply that the frequency has no restrictions for PLMN.<CR>The PLMN ID contains the following parts:<CR>1. MobileCountryCode, MCC, 3 digits<CR>2. MobileNetworkCode, MNC, 2 or 3 digits (the correct number of digits is set in the mncLength member of this Struct)<CR>For example, if MCC=125 and MNC=46, then plmnId=12546.<CR>Change takes effect: New connection<CR>MinLength=0 MaxLength=15
attr_description[Lrat.UtranTDDFreqRelation,anrMeasOn] = ANR performs measurement on the referenced frequency if this parameter is set to true. Otherwise, ANR does not perform any measurements on this frequency.<CR>Change takes effect: New connection<CR>Default=true
attr_description[Lrat.UtranTDDFreqRelation,b2Thr1RsrpUtraFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold1Rsrp, RSRP threshold1 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -100 to 100<CR>Unit: dB
attr_description[Lrat.UtranTDDFreqRelation,b2Thr1RsrqUtraFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold1Rsrq, RSRQ threshold1 for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -240 to 240<CR>Unit: 0.1 dB
attr_description[Lrat.UtranTDDFreqRelation,b2Thr2RscpUtraFreqOffset] = The frequency-relation specific offset for the absolute threshold b2Threshold2Rscp, RSCP in the ThresholdUTRATDD for event B2, used for Multi-Layer Service-Triggered Mobility.<CR>Change takes effect: Ongoing connection<CR>Default=0<CR>Range: -24 to 24<CR>Unit: dB
attr_description[Lrat.UtranTDDFreqRelation,cellReselectionPriority] = CellReselectionPriority concerns the absolute priority of the concerned carrier frequency, as used by the cell reselection procedure. Corresponds with parameter "priority" in TS 36.304.<CR>Value 0 means lowest priority. The UE behaviour for the case the field is absent, if applicable, is specified in TS 36.304.<CR>Dependencies: The value must be unique and not already used by other RAT, i.e. equal priorities between RATs are not supported.<CR>Default=6<CR>Range: 0 to 7
attr_description[Lrat.UtranTDDFreqRelation,connectedModeMobilityPrio] = Prioritizes UTRA frequencies among all frequencies related to the cell for UEs in connected mode.<CR>(0 means the lowest priority. -1 means the frequency is excluded.)<CR>Change takes effect: New connection<CR>Default=6<CR>Range: -1 to 7
attr_description[Lrat.UtranTDDFreqRelation,csFallbackPrioEC] = Prioritizes UTRAN frequencies for emergency calls among all frequencies/frequency groups related to the cell for UEs in connected mode.<CR>Sets the priority to which frequency to make emergency call CS Fallback to.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.UtranTDDFreqRelation,csFallbackPrio] = Prioritizes UTRAN frequencies among all frequencies related to the cell for UEs in connected mode.<CR>Sets the priority to which frequency/frequency group to make CS Fallback to.<CR>The value -1 means the frequency is excluded.<CR>The value 0 means the lowest priority.<CR>The value 7 means the highest priority.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -1 to 7
attr_description[Lrat.UtranTDDFreqRelation,mobilityActionCsfb] = The preferred way to transfer a UE in connected mode to a UTRAN TDD frequency in case of CS Fallback mobility.<CR>Default=HANDOVER<CR>Range: 0,1,2
attr_description[Lrat.UtranTDDFreqRelation,mobilityAction] = The preferred way to transfer a UE in connected mode to a UTRAN TDD frequency in case of coverage triggered mobility.<CR>Change takes effect: New connection<CR>Default=HANDOVER<CR>Range: 0,1,2
attr_description[Lrat.UtranTDDFreqRelation,pMaxUtra] = The maximum allowed transmission power on the (uplink) carrier frequency, see TS 25.304.<CR>Default=33<CR>Range: -50 to 33<CR>Unit: dBm
attr_description[Lrat.UtranTDDFreqRelation,qOffsetFreq] = Indicates a frequency-specific offset to apply when evaluating triggering conditions for measurement reporting.<CR>Change takes effect: New connection<CR>Default=0<CR>Range: -15 to 15<CR>Unit: dB
attr_description[Lrat.UtranTDDFreqRelation,qRxLevMin] = Parameter Qrxlevmin, see TS 25.304. Specifies the minimum required Rx level in the cell expressed in dBm.<CR>Default=-119<CR>Range: -119 to -25<CR>Unit: dBm
attr_description[Lrat.UtranTDDFreqRelation,qciB2ThrOffsets] = Parameters for adding QCI profile and frequency relation specific offsets to B2 threshold values used for mobility decisions. Applicable if Multi-Layer Service-Triggered Mobility (MLSTM) is active<CR>Change takes effect: Ongoing connection<CR>MinLength=0 MaxLength=19
attr_description[Lrat.UtranTDDFreqRelation,threshXHigh] = This specifies the threshold used by the UE when reselecting towards the higher priority frequency X than current serving frequency. Each frequency of UTRAN might have a specific threshold. Parameter "Threshx,high" in TS 36.304<CR>Default=4<CR>Range: 0 to 62<CR>Unit: dB
attr_description[Lrat.UtranTDDFreqRelation,threshXLow] = This specifies the threshold used in reselection towards frequency X priority from a higher priority frequency. Each frequency of UTRAN might have a specific threshold. Parameter "Threshx,low" in TS 36.304.<CR>Default=0<CR>Range: 0 to 62<CR>Unit: dB
attr_description[Lrat.UtranTDDFreqRelation,userLabel] = Label for free use.<CR>isNillable: true<CR>Range: 1 to 128
attr_description[Lrat.UtranTDDFreqRelation,utranFrequencyRef] = Reference to the UTRAN frequency MO, UtranFrequency.<CR>isNillable: true<CR>References: Lrat.UtranFrequency[0-]
attr_description[Lrat.UtranTDDFreqRelation,utranTDDFreqRelationId] = The value component of the Relative Distinguished Name (RDN).
attr_description[LratBb.BbProcessingResource,bbProcessingResourceId] = The value component of the RDN.
attr_description[LratBb.BbProcessingResource,licCapDistr] = Used to set the amount of the licensed capacity a baseband processing resource is allowed to use.<CR>Dependencies: Can only be set if licCapDistrMethod is set to OPERATOR.<CR>If the sum of all BbProcessingResources isn't 100% the setting will be rejected.<CR>Will show the distribution made by the RBS if licCapDistrMethod is set to SYSTEM.<CR>Change takes effect: Immediately<CR>Default=0<CR>Range: 0 to 100<CR>Unit: %
attr_description[LratBb.BbProcessingResource,licPrbUnit] = Bin step size representing PRB license unit for the DL/UL distribution of PRB capacity usage.<CR>Change takes effect: Immediately<CR>Default=25<CR>Range: 1 to 600<CR>Unit: PRB
attr_description[LratMce.MceFunction,mceFunctionId] = The value component of the RDN.
attr_description[LratMce.MceFunction,release] = The product release of the MceFunction
attr_description[LratMce.MceFunction,useM3dnsFormat] = This parameter specifies if the DNS lookup shall use the M3 or S1 format for the TAI domain name:<CR>m3mme.tac-lb<tac-lb>.tac-hb<tac-hb>.tac.epc.mnc<mnc>.mcc<mcc>.3gppnetwork.org (true)<CR>s1mme.tac-lb<tac-lb>.tac-hb<tac-hb>.tac.epc.mnc<mnc>.mcc<mcc>.3gppnetwork.org (false)<CR>Disturbances: Changing this attribute can cause loss of traffic.<CR>Change takes effect: New connection<CR>Default=false
attr_description[LratMce.MceFunction,userLabel] = Used for product free-text description.
attr_description[LratMce.TermPointToMmeM3,administrativeState] = The administrative state.<CR>Note: If this attribute is set to SHUTTING_DOWN, it will immediately go into the state LOCKED.<CR>Disturbances: Changing this attribute to LOCKED or SHUTTINGDOWN can cause loss of traffic. Loss of MBMS capability if Internal MCE is used.<CR>Change takes effect: Immediately<CR>Default=LOCKED<CR>Range: 0,1,2
attr_description[LratMce.TermPointToMmeM3,availabilityStatus] = The availability status. It contains details about operationalState. This attribute is set by the application in the RBS.<CR>MinLength=0<CR>Range: 0,1,2,3,4,5,6,7,8,9,10,11
attr_description[LratMce.TermPointToMmeM3,domainName] = The fully-qualified domain name of the MME.<CR>A valid domain name consists of 1 or more labels separated by dots (.).<CR>Valid characters for a label are limited to letters a - z, A - Z, digits 0 - 9, and the character - (dash). Character case is preserved. Length of a label may not exceed 255 characters.<CR>NOTE: The first and last character in the domain name must be one of the following alphanumeric characters a - z, A - Z or digits 0 - 9. For more information refer to RFC 952, 1101 and 1123.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Disturbances: Changing this attribute can cause loss of traffic. Possible loss of MBMS capability if Internal MCE is used.<CR>Change takes effect: Object unlocked<CR>Range: 0 to 255
attr_description[LratMce.TermPointToMmeM3,ipAddress1] = The primary IP address of the MME. A unique IP address is required for each MME.<CR>The input format is four fields of digits, separated by dots. Each field consists of three digits. The value of each field must be in the range 0-255.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Change takes effect: Object unlocked<CR>Default=0.0.0.0<CR>Range: 7 to 15
attr_description[LratMce.TermPointToMmeM3,ipAddress2] = The secondary IP address of the MME. A unique IP address is required for each MME.<CR>The input format is four fields of digits, separated by dots. Each field consists of three digits. The value of each field must be in the range 0-255.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Change takes effect: Object unlocked<CR>Default=0.0.0.0<CR>Range: 7 to 15
attr_description[LratMce.TermPointToMmeM3,ipv6Address1] = The primary IPv6 address of the MME.<CR>The input format is eight fields, separated by colons. Each field consists of four hexadecimal characters. The value of each field must be in the range 0-FFFF. Leading zeroes can be omitted in a field, and multiple groups of 16 bits of zeroes can be compressed to ::. The :: can be used only once in an address.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Change takes effect: Object unlocked<CR>Default=::<CR>Range: 2 to 39
attr_description[LratMce.TermPointToMmeM3,ipv6Address2] = The secondary IPv6 address of the MME.<CR>The input format is eight fields, separated by colons. Each field consists of four hexadecimal characters. The value of each field must be in the range 0-FFFF. Leading zeroes can be omitted in a field, and multiple groups of 16 bits of zeroes can be compressed to ::. The :: can be used only once in an address.<CR>To set this attribute, administrativeState must be LOCKED.<CR>Change takes effect: Object unlocked<CR>Default=::<CR>Range: 2 to 39
attr_description[LratMce.TermPointToMmeM3,operationalState] = The operational state. This attribute is set by the application in the RBS.<CR>Range: 0,1
attr_description[LratMce.TermPointToMmeM3,termPointToMmeM3Id] = The value component of the RDN.
attr_description[LratMce.TermPointToMmeM3,usedIpAddress] = The destination address used for initialization of the underlying SCTP association of the latest successful M3-Setup.<CR>The IP address can be an IPv4 or an IPv6 address.<CR>Note: usedIpAddress never changes during the lifetime of the SCTP association.<CR>Range: 2 to 39
attr_description[LratMp.MpProcessingResource,mpProcessingResourceId] = The value component of the RDN.
attr_description[LratMp.MpProcessingResource,piuFroId] = Same value as DU Id.<CR>Range: 0 to 65535
