MOC_Name MO Param_Name Baseline_Value Para_DescriptionAal1TpVccTp Aal1TpVccTpId The value component of the RDN.Aal1TpVccTp userLabel Label for free use.Aal1TpVccTp availabilityStatus The availability status. It contains details about operationalState.Aal1TpVccTp ds0BundleId Reference to an instance of Ds0Bundle MO.Aal1TpVccTp partialFill 47 Indicates how many bytes are filled in each ATM cell. The value 47 indicates that cells are not partially filled, that is, all cells are filled completely. Partial filling of cells is used in circuit emulation, to reduce packetization delay. Refer to the Aal1TpVccTp cdvt Specifies the Cell Delay Variation Tolerance (CVDT). Refer to ATM Forum for more details. Unit: 0.001 ms, that is 1 microsecondAal1TpVccTp operationalState The operational state.Aal1TpVccTp continuityCheck 0 Specifies whether VC end-to-end continuity check is active. Continuity checking means that a cell is sent downstream when no user cell has been sent for a period of nominally 1 second. Continuity check both enables generation of continuity check cells as Aal1TpVccTp counterMode 0 PM mode is set to indicate the type of the performance monitoring mode used for the F5 PM OAM flow.Aal1TpVccTp nomPmBlockSize 0 Nominal block size for PM. The minimum number of ATM cells that is sent before sending a Forward Performance Monitoring (FPM) cell. Unit: Number of cellsAal1TpVccTp vclTpId Reference to an instance of VclTp MO.Aal1TpVccTp alarmReport 0 Specifies which type of alarms are reported.Aal1TpVccTp counterActivation 0 Indicates whether PM counters are activated for this MO instance, when MO class activation is used in the Performance Management Service (PMS) interface. If true, this attribute activates all PM counters for this MO instance. This attribute setting is ignAal1TpVccTp Aal1TpVccTpId The value component of the RDN.Aal1TpVccTp userLabel Label for free use.Aal1TpVccTp availabilityStatus The availability status. It contains details about operationalState.Aal1TpVccTp ds0BundleId Reference to an instance of Ds0Bundle MO.Aal1TpVccTp partialFill 47 Indicates how many bytes are filled in each ATM cell. The value 47 indicates that cells are not partially filled, that is, all cells are filled completely. Partial filling of cells is used in circuit emulation, to reduce packetization delay. Refer to the Aal1TpVccTp cdvt Specifies the Cell Delay Variation Tolerance (CVDT). Refer to ATM Forum for more details. Unit: 0.001 ms, that is 1 microsecondAal1TpVccTp operationalState The operational state.Aal1TpVccTp continuityCheck 0 Specifies whether VC end-to-end continuity check is active. Continuity checking means that a cell is sent downstream when no user cell has been sent for a period of nominally 1 second. Continuity check both enables generation of continuity check cells as Aal1TpVccTp counterMode 0 PM mode is set to indicate the type of the performance monitoring mode used for the F5 PM OAM flow.Aal1TpVccTp nomPmBlockSize 0 Nominal block size for PM. The minimum number of ATM cells that is sent before sending a Forward Performance Monitoring (FPM) cell. Unit: Number of cellsAal1TpVccTp vclTpId Reference to an instance of VclTp MO.Aal1TpVccTp alarmReport 0 Specifies which type of alarms are reported.Aal1TpVccTp counterActivation 0 Indicates whether PM counters are activated for this MO instance, when MO class activation is used in the Performance Management Service (PMS) interface. If true, this attribute activa

tes all PM counters for this MO instance. This attribute setting is ignAal1TpVccTp Aal1TpVccTpId The value component of the RDN.Aal1TpVccTp userLabel Label for free use.Aal1TpVccTp availabilityStatus The availability status. It contains details about operationalState.Aal1TpVccTp ds0BundleId Reference to an instance of Ds0Bundle MO.Aal1TpVccTp partialFill 47 Indicates how many bytes are filled in each ATM cell. The value 47 indicates that cells are not partially filled, that is, all cells are filled completely. Partial filling of cells is used in circuit emulation, to reduce packetization delay. Refer to the Aal1TpVccTp cdvt Specifies the Cell Delay Variation Tolerance (CVDT). Refer to ATM Forum for more details. Unit: 0.001 ms, that is 1 microsecondAal1TpVccTp operationalState The operational state.Aal1TpVccTp continuityCheck 0 Specifies whether VC end-to-end continuity check is active. Continuity checking means that a cell is sent downstream when no user cell has been sent for a period of nominally 1 second. Continuity check both enables generation of continuity check cells as Aal1TpVccTp counterMode 0 PM mode is set to indicate the type of the performance monitoring mode used for the F5 PM OAM flow.Aal1TpVccTp nomPmBlockSize 0 Nominal block size for PM. The minimum number of ATM cells that is sent before sending a Forward Performance Monitoring (FPM) cell. Unit: Number of cellsAal1TpVccTp vclTpId Reference to an instance of VclTp MO.Aal1TpVccTp alarmReport 0 Specifies which type of alarms are reported.Aal1TpVccTp counterActivation 0 Indicates whether PM counters are activated for this MO instance, when MO class activation is used in the Performance Management Service (PMS) interface. If true, this attribute activates all PM counters for this MO instance. This attribute setting is ignAal2Ap Aal2ApId The value component of the RDN.Aal2Ap userLabel Label for free use.Aal2Ap reservedBy Contains a list of MO instances that reserve this MO instance.Aal2Ap operationalState The operational state.Aal2Ap availabilityStatus The availability status. It contains details about operationalState.Aal2Ap timerErq 5000 Timer for Q.2630 establishment requests. Unit: 1 msAal2Ap timerRel 2000 Timer for Q.2630 release requests. Unit: 1 msAal2Ap sigLinkId Reference to a UniSaalTp MO or to an Mtp3bAp MO that provides a signalling link for the Aal2Ap MO.Aal2Ap secondarySigLinkId Reference to a UniSaalTp MO that is used as a secondary signalling link. This attribute can be set only when sigLinkId is of type UniSaalTp. The reference to the secondary signalling link can be removed by setting this attribute to NULL.Aal2Ap rpuId The location of an AAL2 AP program represented by a reference to a ReliableProgramUniter MO. When setting the rpuId, the attribute reliableProgramLabel for the new rpuId must be the same as for the previous rpuId. The rpuId must be specified when the MO iAal2Ap aal2QoSCodePointProfileId The identity of the QoSCodePointProfile used by this MO. If this attribute is not specified, no QoS information is sent in outgoing signalling messages from this AAL2 AP. If this attribute is not specified, QoS Class A is assumed for incoming signalling mAal2Ap nrOfConfiguredAal2Paths 0 The total number of Aal2PathVccTp MOs configured on this Aal2 Ap.Aal2Ap nrOfUnavailableAal2Paths 0 The total number of unavailable Aal2PathVccTp instances on this Aal2Ap MO, that is the number of Aal2Pat

hVccTp MOs connectected to this Aal2Ap MO, where administrativeState is LOCKED and operatonalState is DISABLED.Aal2Ap nrOfRemotelyBlockedAal2Paths Number of Aal2PathVccTp instances that are connected to this Aal2Ap MO and where remoteBlockingState is REMOTELY_BLOCKED.Aal2Ap allocationMode MANUAL(0) This attribute indicates if the RPU allocation for the AAL2 AP and its Path Distribution Units is manual or automatic. The manual allocation mode is supported for all types of AAL2 APs, but the automatic allocation mode is only supported for AAL2 APs usinAal2Ap Aal2ApId The value component of the RDN.Aal2Ap userLabel Label for free use.Aal2Ap reservedBy Contains a list of MO instances that reserve this MO instance.Aal2Ap operationalState The operational state.Aal2Ap availabilityStatus The availability status. It contains details about operationalState.Aal2Ap timerErq 5000 Timer for Q.2630 establishment requests. Unit: 1 msAal2Ap timerRel 2000 Timer for Q.2630 release requests. Unit: 1 msAal2Ap sigLinkId Reference to a UniSaalTp MO or to an Mtp3bAp MO that provides a signalling link for the Aal2Ap MO.Aal2Ap secondarySigLinkId Reference to a UniSaalTp MO that is used as a secondary signalling link. This attribute can be set only when sigLinkId is of type UniSaalTp. The reference to the secondary signalling link can be removed by setting this attribute to NULL.Aal2Ap rpuId The location of an AAL2 AP program represented by a reference to a ReliableProgramUniter MO. When setting the rpuId, the attribute reliableProgramLabel for the new rpuId must be the same as for the previous rpuId. The rpuId must be specified when the MO iAal2Ap aal2QoSCodePointProfileId The identity of the QoSCodePointProfile used by this MO. If this attribute is not specified, no QoS information is sent in outgoing signalling messages from this AAL2 AP. If this attribute is not specified, QoS Class A is assumed for incoming signalling mAal2Ap nrOfConfiguredAal2Paths 0 The total number of Aal2PathVccTp MOs configured on this Aal2 Ap.Aal2Ap nrOfUnavailableAal2Paths 0 The total number of unavailable Aal2PathVccTp instances on this Aal2Ap MO, that is the number of Aal2PathVccTp MOs connectected to this Aal2Ap MO, where administrativeState is LOCKED and operatonalState is DISABLED.Aal2Ap nrOfRemotelyBlockedAal2Paths Number of Aal2PathVccTp instances that are connected to this Aal2Ap MO and where remoteBlockingState is REMOTELY_BLOCKED.Aal2Ap allocationMode Iu, Iur: MANUAL(0) Iub: AUTOMATIC(1) This attribute indicates if the RPU allocation for the AAL2 AP and its Path Distribution Units is manual or automatic. The manual allocation mode is supported for all types of AAL2 APs, but the automatic allocation mode is only supported for AAL2 APs usinAal2Ap Aal2ApId The value component of the RDN.Aal2Ap userLabel Label for free use.Aal2Ap reservedBy Contains a list of MO instances that reserve this MO instance.Aal2Ap operationalState The operational state.Aal2Ap availabilityStatus The availability status. It contains details about operationalState.Aal2Ap timerErq 5000 Timer for Q.2630 establishment requests. Unit: 1 msAal2Ap timerRel 2000 Timer for Q.2630 release requests. Unit: 1 msAal2Ap sigLinkId Reference to a UniSaalTp MO or to an Mtp

3bAp MO that provides a signalling link for the Aal2Ap MO.Aal2Ap secondarySigLinkId Reference to a UniSaalTp MO that is used as a secondary signalling link. This attribute can be set only when sigLinkId is of type UniSaalTp. The reference to the secondary signalling link can be removed by setting this attribute to NULL.Aal2Ap rpuId The location of an AAL2 AP program represented by a reference to a ReliableProgramUniter MO. When setting the rpuId, the attribute reliableProgramLabel for the new rpuId must be the same as for the previous rpuId. The rpuId must be specified when the MO iAal2Ap aal2QoSCodePointProfileId The identity of the QoSCodePointProfile used by this MO. If this attribute is not specified, no QoS information is sent in outgoing signalling messages from this AAL2 AP. If this attribute is not specified, QoS Class A is assumed for incoming signalling mAal2Ap nrOfConfiguredAal2Paths 0 The total number of Aal2PathVccTp MOs configured on this Aal2 Ap.Aal2Ap nrOfUnavailableAal2Paths 0 The total number of unavailable Aal2PathVccTp instances on this Aal2Ap MO, that is the number of Aal2PathVccTp MOs connectected to this Aal2Ap MO, where administrativeState is LOCKED and operatonalState is DISABLED.Aal2Ap nrOfRemotelyBlockedAal2Paths Number of Aal2PathVccTp instances that are connected to this Aal2Ap MO and where remoteBlockingState is REMOTELY_BLOCKED.Aal2Ap allocationMode MANUAL(0) This attribute indicates if the RPU allocation for the AAL2 AP and its Path Distribution Units is manual or automatic. The manual allocation mode is supported for all types of AAL2 APs, but the automatic allocation mode is only supported for AAL2 APs usinAal2PathDistributionUnit Aal2PathDistributionUnitIdThe value component of the RDN.Aal2PathDistributionUnit userLabel Label for free use.Aal2PathDistributionUnit rpuId The location of an AAL2 Path Resource Control Program represented by a reference to a ReliableProgramUniter MO. When setting the rpuId, the reliableProgramLabel for the new rpuId must be the same as for the previous rpuId. This attribute must be sAal2PathDistributionUnit aal2PathVccTpList List of references to Aal2PathVccTp MOs. Setting of this attribute removes the current list of Aal2PathVccTp MOs. The value of aal2PathId must be unique amongst all paths within all Aal2PathDistributionUnit MOs that belong to the same Aal2Ap MO. If the Aal2PathDistributionUnit Aal2PathDistributionUnitIdThe value component of the RDN.Aal2PathDistributionUnit userLabel Label for free use.Aal2PathDistributionUnit rpuId The location of an AAL2 Path Resource Control Program represented by a reference to a ReliableProgramUniter MO. When setting the rpuId, the reliableProgramLabel for the new rpuId must be the same as for the previous rpuId. This attribute must be sAal2PathDistributionUnit aal2PathVccTpList List of references to Aal2PathVccTp MOs. Setting of this attribute removes the current list of Aal2PathVccTp MOs. The value of aal2PathId must be unique amongst all paths within all Aal2PathDistributionUnit MOs that belong to the same Aal2Ap MO. If the Aal2PathDistributionUnit Aal2PathDistributionUnitIdThe value component of the RDN.Aal2PathDistributionUnit userLabel Label for free use.Aal2PathDistributionUnit rpuId The location of an AAL2 Path Resource Control Program represented by a reference to a ReliableProgramUniter MO. When setting the rpuId, the reliableProgramLabel for the new rpuId must be the same as for the previous rpuId. This attribute must be s

Aal2PathDistributionUnit aal2PathVccTpList List of references to Aal2PathVccTp MOs. Setting of this attribute removes the current list of Aal2PathVccTp MOs. The value of aal2PathId must be unique amongst all paths within all Aal2PathDistributionUnit MOs that belong to the same Aal2Ap MO. If the Aal2PathVccTp Aal2PathVccTpId The value component of the RDN.Aal2PathVccTp userLabel Label for free use.Aal2PathVccTp vclTpId Reference to an instance of VclTp MO. In order to set this attribute, the administrativeState or therelated physical port must be LOCKED.Aal2PathVccTp administrativeState 0 The administrative state. When setting the admininstrativeState to SHUTTING_DOWN, 1800 seconds (30 minutes) will elapse before the MO goes into state LOCKED.Aal2PathVccTp operationalState The operational state.Aal2PathVccTp reservedBy Contains an MO instance that reserves this MO instance.Aal2PathVccTp availabilityStatus The availability status. It contains details about operationalState.Aal2PathVccTp continuityCheck 0 Specifies whether VC end-to-end continuity check is active. Continuity checking means that a cell is sent downstream when no user cell has been sent for a period of nominally 1 second. Continuity check both enables generation of continuity check cells as Aal2PathVccTp counterMode 0 PM mode is set to indicate the type of the performance monitoring mode used for the F5 PM OAM flow.Aal2PathVccTp nomPmBlocksize 0 Nominal block size for PM. The minimum number of ATM cells that is sent before sending a Forward Performance Monitoring (FPM) cell. Unit: Number of cellsAal2PathVccTp timerCu 10 Timer that assures that CPS packets with one or more octets already packed in the ATM cell, wait at most the duration of timerCu before being scheduled for transmission. Unit: 0.1 ms, that is 100 microsecondsAal2PathVccTp aal2PathId Identifies the path in the Q.2630 protocol. The value must be unique within all Aal2PathDistributionUnit MOs under the same Aal2Ap MO. The aal2PathId is used by the AAL2 connection control function in two AAL2 nodes to uniquely identify an AAL2 path betweAal2PathVccTp aal2PathOwner Indicates whether this AAL2 Path VCC Termination Point is considered to be the owner of the AAL2 Path in order to decide the channel selection procedure in the Q.2630 protocol. In order to set this attribute, the Aal2PathVccTp MO must not be reserved and Aal2PathVccTp alarmReport 0 Specifies which type of alarms are reported.Aal2PathVccTp aal2QoSProfileId Reference to an instance of Aal2QosProfile MO.Aal2PathVccTp aal2QoSAvailableProfiles Specifies which QoS class can be supported by this MO.Aal2PathVccTp remoteBlockingState 0 Represents whether this AAL2 Path VCC Termination Point is locked or unlocked from the remote end.Aal2PathVccTp counterActivation 0 Indicates whether PM counters are activated for this MO instance, when MO class activation is used in the Performance Management Service (PMS) interface. If true, this attribute activates all PM counters for this MO instance. This attribute setting is ignAal2PathVccTp Aal2PathVccTpId The value component of the RDN.Aal2PathVccTp userLabel Label for free use.Aal2PathVccTp vclTpId Reference to an instance of VclTp MO. In order to set this attribute, the administrativeState or therelated physical port must be LOCKED.Aal2PathVccTp administrativeState 0 The administrative state. When setting the admininstrativeState to SHUTTING_DOWN, 1800 seconds (30 minutes) will elapse before the MO goes into state LOCKED.Aal2PathVccTp operationalState The operational state.

Aal2PathVccTp reservedBy Contains an MO instance that reserves this MO instance.Aal2PathVccTp availabilityStatus The availability status. It contains details about operationalState.Aal2PathVccTp continuityCheck 0 Specifies whether VC end-to-end continuity check is active. Continuity checking means that a cell is sent downstream when no user cell has been sent for a period of nominally 1 second. Continuity check both enables generation of continuity check cells as Aal2PathVccTp counterMode 0 PM mode is set to indicate the type of the performance monitoring mode used for the F5 PM OAM flow.Aal2PathVccTp nomPmBlocksize 0 Nominal block size for PM. The minimum number of ATM cells that is sent before sending a Forward Performance Monitoring (FPM) cell. Unit: Number of cellsAal2PathVccTp timerCu Normally: 10If core network use 0.3 ms: 3Timer that assures that CPS packets with one or more octets already packed in the ATM cell, wait at most the duration of timerCu before being scheduled for transmission. Unit: 0.1 ms, that is 100 microsecondsAal2PathVccTp aal2PathId Identifies the path in the Q.2630 protocol. The value must be unique within all Aal2PathDistributionUnit MOs under the same Aal2Ap MO. The aal2PathId is used by the AAL2 connection control function in two AAL2 nodes to uniquely identify an AAL2 path betweAal2PathVccTp aal2PathOwner Indicates whether this AAL2 Path VCC Termination Point is considered to be the owner of the AAL2 Path in order to decide the channel selection procedure in the Q.2630 protocol. In order to set this attribute, the Aal2PathVccTp MO must not be reserved and Aal2PathVccTp alarmReport 0 Specifies which type of alarms are reported.Aal2PathVccTp aal2QoSProfileId Reference to an instance of Aal2QosProfile MO.Aal2PathVccTp aal2QoSAvailableProfiles Specifies which QoS class can be supported by this MO.Aal2PathVccTp remoteBlockingState 0 Represents whether this AAL2 Path VCC Termination Point is locked or unlocked from the remote end.Aal2PathVccTp counterActivation 0 Indicates whether PM counters are activated for this MO instance, when MO class activation is used in the Performance Management Service (PMS) interface. If true, this attribute activates all PM counters for this MO instance. This attribute setting is ignAal2PathVccTp Aal2PathVccTpId The value component of the RDN.Aal2PathVccTp userLabel Label for free use.Aal2PathVccTp vclTpId Reference to an instance of VclTp MO. In order to set this attribute, the administrativeState or therelated physical port must be LOCKED.Aal2PathVccTp administrativeState 0 The administrative state. When setting the admininstrativeState to SHUTTING_DOWN, 1800 seconds (30 minutes) will elapse before the MO goes into state LOCKED.Aal2PathVccTp operationalState The operational state.Aal2PathVccTp reservedBy Contains an MO instance that reserves this MO instance.Aal2PathVccTp availabilityStatus The availability status. It contains details about operationalState.Aal2PathVccTp continuityCheck 0 Specifies whether VC end-to-end continuity check is active. Continuity checking means that a cell is sent downstream when no user cell has been sent for a period of nominally 1 second. Continuity check both enables generation of continuity check cells as Aal2PathVccTp counterMode 0 PM mode is set to indicate the type of the performance monitoring mode used for the F5 PM OAM flow.Aal2PathVccTp nomPmBlocksize 0 Nominal block size for PM. The minimum number of ATM cells that is sent before sending a Forward Performance Monitoring (FPM) cell. Unit: Number of cellsAal2PathVccTp timerCu 10 Timer that assures that CPS packets with

one or more octets already packed in the ATM cell, wait at most the duration of timerCu before being scheduled for transmission. Unit: 0.1 ms, that is 100 microsecondsAal2PathVccTp aal2PathId Identifies the path in the Q.2630 protocol. The value must be unique within all Aal2PathDistributionUnit MOs under the same Aal2Ap MO. The aal2PathId is used by the AAL2 connection control function in two AAL2 nodes to uniquely identify an AAL2 path betweAal2PathVccTp aal2PathOwner Indicates whether this AAL2 Path VCC Termination Point is considered to be the owner of the AAL2 Path in order to decide the channel selection procedure in the Q.2630 protocol. In order to set this attribute, the Aal2PathVccTp MO must not be reserved and Aal2PathVccTp alarmReport 0 Specifies which type of alarms are reported.Aal2PathVccTp aal2QoSProfileId Reference to an instance of Aal2QosProfile MO.Aal2PathVccTp aal2QoSAvailableProfiles Specifies which QoS class can be supported by this MO.Aal2PathVccTp remoteBlockingState 0 Represents whether this AAL2 Path VCC Termination Point is locked or unlocked from the remote end.Aal2PathVccTp counterActivation 0 Indicates whether PM counters are activated for this MO instance, when MO class activation is used in the Performance Management Service (PMS) interface. If true, this attribute activates all PM counters for this MO instance. This attribute setting is ignAal2QosCodePointProfile Aal2QosCodePointProfileId The value component of the RDN.Aal2QosCodePointProfile userLabel Label for free use.Aal2QosCodePointProfile qualityOfServiceCodePointA 128 The Code Point for Class A. Recommended value for Class A, 128.Aal2QosCodePointProfile qualityOfServiceCodePointB 129 The Code Point for Class B. Recommended value for Class B, 129.Aal2QosCodePointProfile qualityOfServiceCodePointC 130 The Code Point for Class C. Recommended value for Class C, 130.Aal2QosCodePointProfile qualityOfServiceCodePointD 131 The Code Point for Class D. Recommended value for Class D, 131.Aal2QosCodePointProfile reservedBy Contains a list of Aal2Ap MO instances that reserve this MO instance.Aal2QosCodePointProfile Aal2QosCodePointProfileId The value component of the RDN.Aal2QosCodePointProfile userLabel Label for free use.Aal2QosCodePointProfile qualityOfServiceCodePointA 128 The Code Point for Class A. Recommended value for Class A, 128.Aal2QosCodePointProfile qualityOfServiceCodePointB 129 The Code Point for Class B. Recommended value for Class B, 129.Aal2QosCodePointProfile qualityOfServiceCodePointC 130 The Code Point for Class C. Recommended value for Class C, 130.Aal2QosCodePointProfile qualityOfServiceCodePointD 131 The Code Point for Class D. Recommended value for Class D, 131.Aal2QosCodePointProfile reservedBy Contains a list of Aal2Ap MO instances that reserve this MO instance.Aal2QosCodePointProfile Aal2QosCodePointProfileId The value component of the RDN.Aal2QosCodePointProfile userLabel Label for free use.Aal2QosCodePointProfile qualityOfServiceCodePointA 128 The Code Point for Class A. Recommended value for Class A, 128.Aal2QosCodePointProfile qualityOfServiceCodePointB 129 The Code Point for Class B. Recommended value for Class B, 129.Aal2QosCodePointProfile qualityOfServiceCodePointC 130 The Code Point for Class C. Recommended value for Class C, 130.Aal2QosCodePointProfile qualityOfServiceCodePointD 131 The Code Point for Class D. Recommended value for Class D, 131.

Aal2QosCodePointProfile reservedBy Contains a list of Aal2Ap MO instances that reserve this MO instance.Aal2QosProfile Aal2QosProfileId The value component of the RDN.Aal2QosProfile userLabel Label for free use.Aal2QosProfile profileClassA This attribute holds the values applicable for QoS Class A.Aal2QosProfile profileClassB This attribute holds the values applicable for QoS Class B.Aal2QosProfile profileClassC This attribute holds the values applicable for QoS Class C.Aal2QosProfile profileClassD This attribute holds the values applicable for QoS Class D.Aal2QosProfile reservedBy Contains a list of Aal2PathVccTp MO instances that reserve this MO instance.Aal2QosProfile profileClassA.boundOnNodeDelay 10000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassA.boundOnProbOfDelay 500000 Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000Aal2QosProfile profileClassA.boundOnProbOfLoss 500000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile profileClassB.boundOnNodeDelay 20000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassB.boundOnProbOfDelay 500000 Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000Aal2QosProfile profileClassB.boundOnProbOfLoss 500000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile profileClassC.boundOnNodeDelay 25000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassC.boundOnProbOfDelay 1000000000Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000Aal2QosProfile profileClassC.boundOnProbOfLoss 1000000000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile profileClassD.boundOnNodeDelay 50000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassD.boundOnProbOfDelay 1000000000Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000 sAal2QosProfile profileClassD.boundOnProbOfLoss 1000000000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile Aal2QosProfileId The value component of the RDN.Aal2QosProfile userLabel Label for free use.Aal2QosProfile profileClassA This attribute holds the values applicable for QoS Class A.Aal2QosProfile profileClassB This attribute holds the values applicable for QoS Class B.Aal2QosProfile profileClassC This attribute holds the values applicable for QoS Class C.Aal2QosProfile profileClassD This attribute holds the values applicable for QoS Class D.

Aal2QosProfile reservedBy Contains a list of Aal2PathVccTp MO instances that reserve this MO instance.Aal2QosProfile profileClassA.boundOnNodeDelay 10000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassA.boundOnProbOfDelay 500000 Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000Aal2QosProfile profileClassA.boundOnProbOfLoss 500000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile profileClassB.boundOnNodeDelay 20000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassB.boundOnProbOfDelay 500000 Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000Aal2QosProfile profileClassB.boundOnProbOfLoss 500000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile profileClassC.boundOnNodeDelay 25000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassC.boundOnProbOfDelay 1000000000Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000Aal2QosProfile profileClassC.boundOnProbOfLoss 1000000000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile profileClassD.boundOnNodeDelay 50000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassD.boundOnProbOfDelay 1000000000Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000 sAal2QosProfile profileClassD.boundOnProbOfLoss 1000000000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile Aal2QosProfileId The value component of the RDN.Aal2QosProfile userLabel Label for free use.Aal2QosProfile profileClassA This attribute holds the values applicable for QoS Class A.Aal2QosProfile profileClassB This attribute holds the values applicable for QoS Class B.Aal2QosProfile profileClassC This attribute holds the values applicable for QoS Class C.Aal2QosProfile profileClassD This attribute holds the values applicable for QoS Class D.Aal2QosProfile reservedBy Contains a list of Aal2PathVccTp MO instances that reserve this MO instance.Aal2QosProfile profileClassA.boundOnNodeDelay 10000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassA.boundOnProbOfDelay 500000 Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000Aal2QosProfile profileClassA.boundOnProbOfLoss 500000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile profileClassB.boundOnNodeDelay 20000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.

Aal2QosProfile profileClassB.boundOnProbOfDelay 500000 Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000Aal2QosProfile profileClassB.boundOnProbOfLoss 500000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile profileClassC.boundOnNodeDelay 25000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassC.boundOnProbOfDelay 1000000000Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000Aal2QosProfile profileClassC.boundOnProbOfLoss 1000000000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2QosProfile profileClassD.boundOnNodeDelay 50000 The upper bound on the delay (delay=queueing and serving of Aal2 packets in an Aal2 mux + delay on ATM layer) through the current node. Unit: 1 microseconds.Aal2QosProfile profileClassD.boundOnProbOfDelay 1000000000Represents the upper bound on the probability that the delay in the node exceeds the delay limit given by the attribute boundOnNodeDelay. Unit: 1/1000000000 sAal2QosProfile profileClassD.boundOnProbOfLoss 1000000000 Represents the upper bound of the cell loss probability in the current node. Unit: 1/1000000000Aal2RoutingCase Aal2RoutingCaseId The value component of the RDN.Aal2RoutingCase userLabel Label for free use.Aal2RoutingCase routeList An array of alternative routes identified by the concerned Aal2Ap MOs. A routeList can have 0 to 5 Aal2Ap MOs. The Aal2Ap must be unique. If this attribute is set, the routePriorityList must also be set with the same number of values (that is, if the routAal2RoutingCase routePriorityList A list of all the Aal2Ap priorities. The priority values can be in the range 1 to 5, one being the highest priority. The Aal2Aps can have the same priorities.Aal2RoutingCase numberDirection Defines the possible set of AAL type 2 Service Endpoint Addresses (A2EA) that match the routing case. The number direction of a routing case is interpreted as all AAL type 2 Service Endpoint Addresses starting with the string of numbers defined in the numAal2RoutingCase Aal2RoutingCaseId The value component of the RDN.Aal2RoutingCase userLabel Label for free use.Aal2RoutingCase routeList An array of alternative routes identified by the concerned Aal2Ap MOs. A routeList can have 0 to 5 Aal2Ap MOs. The Aal2Ap must be unique. If this attribute is set, the routePriorityList must also be set with the same number of values (that is, if the routAal2RoutingCase routePriorityList A list of all the Aal2Ap priorities. The priority values can be in the range 1 to 5, one being the highest priority. The Aal2Aps can have the same priorities.Aal2RoutingCase numberDirection Defines the possible set of AAL type 2 Service Endpoint Addresses (A2EA) that match the routing case. The number direction of a routing case is interpreted as all AAL type 2 Service Endpoint Addresses starting with the string of numbers defined in the numAal2RoutingCase Aal2RoutingCaseId The value component of the RDN.Aal2RoutingCase userLabel Label for free use.Aal2RoutingCase routeList An array of alternative routes identified by the concerned Aal2Ap MOs. A routeList can have 0 to 5 Aal2Ap MOs. The Aal2Ap must be unique. If this attribute is set, the routePriorityList must also be set with the same number of values (that is, if the routAal2RoutingCase routePriorityList A list of all the Aal2Ap priorities. The priority values can be in the range 1 to 5, one being the highe

st priority. The Aal2Aps can have the same priorities.Aal2RoutingCase numberDirection Defines the possible set of AAL type 2 Service Endpoint Addresses (A2EA) that match the routing case. The number direction of a routing case is interpreted as all AAL type 2 Service Endpoint Addresses starting with the string of numbers defined in the numAal2Sp Aal2SpId The value component of the RDN.Aal2Sp userLabel Label for free use.Aal2Sp a2ea An E.164 format number that specifies the AAL type 2 Service Endpoint Address of the node. Length Range: 1..15 Alphabet: 0123456789 It is not allowed to use leading zeros when configuring this attribute.Aal2Sp Aal2SpId The value component of the RDN.Aal2Sp userLabel Label for free use.Aal2Sp a2ea An E.164 format number that specifies the AAL type 2 Service Endpoint Address of the node. Length Range: 1..15 Alphabet: 0123456789 It is not allowed to use leading zeros when configuring this attribute.Aal2Sp Aal2SpId The value component of the RDN.Aal2Sp userLabel Label for free use.Aal2Sp a2ea An E.164 format number that specifies the AAL type 2 Service Endpoint Address of the node. Length Range: 1..15 Alphabet: 0123456789 It is not allowed to use leading zeros when configuring this attribute.Aal5TpVccTp Aal5TpVccTpId The value component of the RDN.Aal5TpVccTp userLabel Label for free use.Aal5TpVccTp processorId Specifies on what processor the termination point resides. The processor can either be a board processor or a main processor (PlugInUnit MO) or an SP processor (Spm MO). The operationalState of this MO is DISABLED, until this attribute is set. This attribAal5TpVccTp vclTpId Reference to an instance of VclTp MO.Aal5TpVccTp operationalState The operational state.Aal5TpVccTp fromUserMaxSduSize The maximum SDU size in number of octets received from the user. The allowed range for the atribute maxSduSize in UniSaalTp MO and NniSaalTp MO, is dependent on the processor type: SP: lowest maxSduSize =1, highest maxSduSize=1600 BP: lowest maxSduSize =1Aal5TpVccTp toUserMaxSduSize The maximum SDU size in number of octets sent to the user. The allowed range for the atribute maxSduSize in UniSaalTp MO and NniSaalTp MO, is dependent on the processor type: SP: lowest maxSduSize =1, highest maxSduSize=1600 BP: lowest maxSduSize =1, highAal5TpVccTp reservedBy Contains an MO instance that reserves this MO instance.Aal5TpVccTp alarmReport 0 Specifies which type of alarms are reported.Aal5TpVccTp continuityCheck 0 Specifies whether VC end-to-end continuity check is active. Continuity checking means that a cell is sent downstream when no user cell has been sent for a period of nominally 1 second. Continuity check both enables generation of continuity check cells as Aal5TpVccTp nomPmBlkSize 0 Nominal block size for PM. The minimum number of ATM cells that is sent before sending a Forward Performance Monitoring (FPM) cell. Unit: Number of cellsAal5TpVccTp counterMode 0 PM mode is set to indicate the type of the performance monitoring mode used for the F5 PM OAM flow.Aal5TpVccTp counterActivation 0 Indicates whether PM counters are activated for this MO instance, when MO class activation is used in the Performance Management Service (PMS) interface. If true, this attribute activates all PM counters for this MO instance. This attribute setting is ignAal5TpVccTp Aal5TpVccTpId The value component of the RDN.Aal5TpVccTp userLabel Label for free use.Aal5TpVccTp processorId Specifies on what processor the termination point resides. The processor can either be a board processor or a main processor (PlugInUnit MO) or an SP processor (Spm MO). The operationalState of this MO is DISABLED, until this attribute is set. This attribAal5TpVccTp vclTpId Reference to an instance of VclTp MO.

Aal5TpVccTp operationalState The operational state.Aal5TpVccTp fromUserMaxSduSize The maximum SDU size in number of octets received from the user. The allowed range for the atribute maxSduSize in UniSaalTp MO and NniSaalTp MO, is dependent on the processor type: SP: lowest maxSduSize =1, highest maxSduSize=1600 BP: lowest maxSduSize =1Aal5TpVccTp toUserMaxSduSize The maximum SDU size in number of octets sent to the user. The allowed range for the atribute maxSduSize in UniSaalTp MO and NniSaalTp MO, is dependent on the processor type: SP: lowest maxSduSize =1, highest maxSduSize=1600 BP: lowest maxSduSize =1, highAal5TpVccTp reservedBy Contains an MO instance that reserves this MO instance.Aal5TpVccTp alarmReport 0 Specifies which type of alarms are reported.Aal5TpVccTp continuityCheck 0 Specifies whether VC end-to-end continuity check is active. Continuity checking means that a cell is sent downstream when no user cell has been sent for a period of nominally 1 second. Continuity check both enables generation of continuity check cells as Aal5TpVccTp nomPmBlkSize 0 Nominal block size for PM. The minimum number of ATM cells that is sent before sending a Forward Performance Monitoring (FPM) cell. Unit: Number of cellsAal5TpVccTp counterMode 0 PM mode is set to indicate the type of the performance monitoring mode used for the F5 PM OAM flow.Aal5TpVccTp counterActivation 0 Indicates whether PM counters are activated for this MO instance, when MO class activation is used in the Performance Management Service (PMS) interface. If true, this attribute activates all PM counters for this MO instance. This attribute setting is ignAal5TpVccTp Aal5TpVccTpId The value component of the RDN.Aal5TpVccTp userLabel Label for free use.Aal5TpVccTp processorId Specifies on what processor the termination point resides. The processor can either be a board processor or a main processor (PlugInUnit MO) or an SP processor (Spm MO). The operationalState of this MO is DISABLED, until this attribute is set. This attribAal5TpVccTp vclTpId Reference to an instance of VclTp MO.Aal5TpVccTp operationalState The operational state.Aal5TpVccTp fromUserMaxSduSize The maximum SDU size in number of octets received from the user. The allowed range for the atribute maxSduSize in UniSaalTp MO and NniSaalTp MO, is dependent on the processor type: SP: lowest maxSduSize =1, highest maxSduSize=1600 BP: lowest maxSduSize =1Aal5TpVccTp toUserMaxSduSize The maximum SDU size in number of octets sent to the user. The allowed range for the atribute maxSduSize in UniSaalTp MO and NniSaalTp MO, is dependent on the processor type: SP: lowest maxSduSize =1, highest maxSduSize=1600 BP: lowest maxSduSize =1, highAal5TpVccTp reservedBy Contains an MO instance that reserves this MO instance.Aal5TpVccTp alarmReport 0 Specifies which type of alarms are reported.Aal5TpVccTp continuityCheck 0 Specifies whether VC end-to-end continuity check is active. Continuity checking means that a cell is sent downstream when no user cell has been sent for a period of nominally 1 second. Continuity check both enables generation of continuity check cells as Aal5TpVccTp nomPmBlkSize 0 Nominal block size for PM. The minimum number of ATM cells that is sent before sending a Forward Performance Monitoring (FPM) cell. Unit: Number of cellsAal5TpVccTp counterMode 0 PM mode is set to indicate the type of the performance monitoring mode used for the F5 PM OAM flow.Aal5TpVccTp counterActivation 0 Indicates whether PM counters are activated for this MO instance, when MO class activation is used in the Performance Management Service (PMS) interface. If true, this attribute activates all PM counters for this MO instance. This attribute setting is ignAccu AccuId

Accu deviceRef Reference to the AC device that supervises this unit. Use cases: Scratch RBS at Site Precondition: PCU created. Ref. [CB_ECF]Accu alarmStatus 0 The alarm status of the non-processing unit. Only bit 0 is settable via Mub. Other bits have only get access.bit0=UNDER_REPAIR bit1=CRITICALbit2=MAJORbit3=MINOR bit4=ALARM_OUTSTANDING (set to 1 when bit 1, 2 or 3 is set to 1) No bit set means no outstandiAccu greenLed Indicates the operational status of the non-processing unit. Possible values: ? NOT_APPLICABLE = This LED is not supported. ? NOT_AVAILABLE = The LED state is currently not available. ? OUT = Power not present, but since the LED state is not readable in tAccu productionDate 0 Date the unit was produced (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]Accu productName Product name of the unit (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]Accu productNumber Product number of the unit (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]Accu productRevision Product revision of the unit (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed Ref. [FS_PIY]Accu productType 0 Product type (PID) is used by product inventory to select products. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]Accu redLed Indicates the fault status of the non-processing unit. Possible values: ? NOT_APPLICABLE = This LED is not supported. ? NOT_AVAILABLE = The LED state is currently not available. ? OUT = No fault. ? STEADY_LIGHT = Fault. Use cases: MEC_310 Ref. [FS_MEC] Accu serialNumber Unique number that identifies the unit (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]Accu yellowLed Indicates the information status of the non-processing unit. Possible values: ? NOT_APPLICABLE = This LED is not supported. ? NOT_AVAILABLE = The LED state is currently not available. ? OUT = Board unlocked. ? STEADY_LIGHT = Board locked. ? SLOW_BLINK = SAccuSubrack AccuSubrackIdAccuSubrack cabinetPosition Free text, that denotes the cabinet position on-site. Use cases: Scratch RBS at Site Requirement: EQHANDL_RBS_FU:12 Ref. [CB_ECF]AccuSubrack subrackPosition The subrack position. The value consist of (): X = Cabinet position within the node starting from the left, one digit (1 - 9). Y = Subrack vertical position within the cabinet starting from the ground, one letter (A - Z). Z = Subrack horizontal pAcDevice AcDeviceIdAcDevice reservedBy Contains a list of MO instances that reserve this MO instance. Use cases: AUC_310 Ref. [FS_AUC]AcDevice availabilityStatus The availability status of the device. Possible values: ? NOT_INSTALLED ? POWER_OFF ? IN_TEST ? DEPENDENCY_LOCKED ? DEPENDENCY_FAILED ? FAILED ? OFF_LINE ? DEGRADED ? OFF_DUTY ? LOG_FULL ? NO STATUS = Full availability. Use cases: AUC_310 Specification: IAcDevice operationalState Defines the operational state. Possible values: ? DISABLED ? ENABLED Use cases: AUC_310 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:04 Ref. [FS_AUC]AcDevice usageState Indicates the usage of the device. Possible values: ? BUSY? IDLEUse cases: AUC_310 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:05 Ref. [FS_AUC]AcDeviceSet AcDeviceSetIdAcDeviceSet availabilityStatus The availability status

of the device set. Possible values: ? NOT_INSTALLED ? POWER_OFF ? IN_TEST ? DEPENDENCY_LOCKED ? DEPENDENCY_FAILED ? FAILED ? OFF_LINE ? DEGRADED ? OFF_DUTY ? LOG_FULL ? NO STATUS = Full availability. Use cases: AUC_309 SpecificatioAcDeviceSet operationalState Defines the operational state. Possible values: ? DISABLED ? ENABLED Use cases: AUC_309 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:04 Ref. [FS_AUC]ActiveOtherLMs ActiveOtherLMsId The value component of the RDN.ActiveOtherLMs reservedBy Contains a list of MO instances that reserve this MO instance.ActiveOtherLMs otherLoaderNameContents References to instances of the LoadModule MO, with loaderType set to OTHER and otherLoaderName set.ActiveOtherLMs activeLMs References to active instances of the LoadModule MO, with loaderType set to OTHER.ActiveOtherLMs ActiveOtherLMsId The value component of the RDN.ActiveOtherLMs reservedBy Contains a list of MO instances that reserve this MO instance.ActiveOtherLMs otherLoaderNameContents References to instances of the LoadModule MO, with loaderType set to OTHER and otherLoaderName set.ActiveOtherLMs activeLMs References to active instances of the LoadModule MO, with loaderType set to OTHER.ActiveOtherLMs ActiveOtherLMsId The value component of the RDN.ActiveOtherLMs reservedBy Contains a list of MO instances that reserve this MO instance.ActiveOtherLMs otherLoaderNameContents References to instances of the LoadModule MO, with loaderType set to OTHER and otherLoaderName set.ActiveOtherLMs activeLMs References to active instances of the LoadModule MO, with loaderType set to OTHER.AgpsPositioning AgpsPositioningId Naming attribute.Contains the value part of the RDN. Set by the system to 1.AgpsPositioning altitudeDirection HEIGHT(0) Altitude direction of the UE reference position, independent of whether the pre-estimate is successful or the RNC instead uses a fall-back position. The direction refers to height above or depth below the WGS84 ellipsoid surface.Before starting the GPS meAgpsPositioning altitude Altitude of the UE reference position, independent of whether the pre-estimate is successful or the RNC instead uses a fall-back position. Altitudes larger than 32767 meters are represented as 32767 meters. Before starting the GPS measurements in the UE, AgpsPositioning uncertaintyAltitude Uncertainty in altitude for the UE reference position, independent of whether the pre-estimate is successful or the RNC instead uses a fall-back position. Before starting the GPS measurements in the UE, the RNC makes a pre-estimate of the UE position. If AgpsPositioning confidence Confidence of the UE reference position. This value is only used when the pre-estimate is successful, that is, is used as the UE reference position. Before starting the GPS measurements in the UE, the RNC makes a pre-estimate of the UE position. If the prAgpsPositioning polygonRadiusFactor Scale factor that is multiplied with the uncertainty estimateThis value is only used when the pre-estimate is successful, that is, used as the UE reference position. Before starting the GPS measurements in the UE, the RNC makes a pre-estimate of the UE poAgpsPositioning utranRnsPosition Fall-back position used when the pre-estimate fails. Before starting the GPS measurements in the UE, the RNC makes a pre-estimate of the UE position. If the pre-estimate is successful, it is used as the UE reference position. If the pre-estimate fails, a AgpsPositioning utranRnsUncertaintyRadius Uncertainty semi-major and semi-minor axes for the fall-back position, used when the pre-estimate fails. Both axes are assigned the same value. Before starting the GPS measurements in the UE, the RNC makes a pre-estimate of the UE position. If the pre-est

AgpsPositioning utranRnsConfidence 0 Confidence of the fall-back position, used when the pre-estimate fails. Before starting the GPS measurements in the UE, the RNC makes a pre-estimate of the UE position. If the pre-estimate is successful, it is used as the UE reference position. If the preAgpsPositioning elevationThreshold 5 Threshold for satellite elevation.The satellites that are below the elevation threshold will not be used. Unit: degrees Change takes effect: Ongoing connectionsAgpsPositioning posQualities Typical QoS parameters for the A-GPS positioning method. Change takes effect: Ongoing connections (next positioning transaction)AgpsPositioning utranRnsPosition.latitude 0 Latitude value (N), derived by the formula: N

AiDeviceSet availabilityStatus The availability status of the device set. Possible values: ? NOT_INSTALLED ? POWER_OFF ? IN_TEST ? DEPENDENCY_LOCKED ? DEPENDENCY_FAILED ? FAILED ? OFF_LINE ? DEGRADED ? OFF_DUTY ? LOG_FULL ? NO STATUS = Full availability. Use cases: DBC_905 SpecificatioAiDeviceSet operationalState Defines the operational state. Possible values: ? DISABLED ? ENABLED Use cases: DBC_UC905 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:04 Ref. [FS_DBC]AiDeviceSet usageState Indicates the usage of corresponding device(s). Possible values: ? ACTIVE? BUSY? IDLEUse cases: DBC_UC905 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:05 Ref. [FS_DBC]AiuDeviceGroup AiuDeviceGroupIdAiuDeviceGroup availabilityStatus The availability status of the device group. Possible values: ? NOT_INSTALLED ? POWER_OFF ? IN_TEST ? DEPENDENCY_LOCKED ? DEPENDENCY_FAILED ? FAILED ? OFF_LINE ? DEGRADED ? OFF_DUTY ? LOG_FULL ? NO STATUS = Full availability. Use cases: DBC_904SpecificatiAiuDeviceGroup hwTestResult State of progress of the hardware test. Possible values: ? FAILED ? PASSED ? PENDING ? UNDETERMINED Hardware units not supporting hardware test will always return the default value UNDETERMINED. Use cases: HWT_UC1 Requirement: Test_UTRAN_FU3 Ref. [FS_HWT]AiuDeviceGroup operationalState Defines the operational state. Possible values: ? DISABLED ? ENABLED Use cases: DBC_904Specification: ITU-T rec. X.731Requirement: UTRAN_MM:04 Ref. [FS_DBC]AiuDeviceGroup usageState Indicates the usage of corresponding device(s). Possible values: ? ACTIVE? BUSY? IDLEUse cases: DBC_UC904 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:05 Ref. [FS_DBC]AlarmIRP AlarmIRPIdAlarmIRP irpVersion One or more Alarm IRP version entries Note: For CORBA users, CommonIRPConstDefs::VersionNumberSet, AlarmPort operationalState Defines the operational state of the alarm port.AlarmPort AlarmPortId The identity of the Alarm Port that matches the number on the physical port and provides the value component of the RDN.AlarmPort alarmSlogan Specifies the alarm. Used in additional text in the alarm ExternalAlarm.AlarmPort activeExternalAlarm Indicates that an active alarm has been sent and there is an external alarm on the port.AlarmPort normallyOpen 0 Defines the active state of the alarm port. True = Closing the circuit will generate an alarm. False = Opening the circuit will generate an alarm.AlarmPort perceivedSeverity 0 Specifies the severity level code of the alarm ExternalAlarm. Specification: See 3GPP TS 32.111-2 for usage of severity. Takes effect: At next generated alarm.AlarmPort probableCause 0 Specifies the probable cause code of the alarm ExternalAlarm. The default value is code 550 for EXTERNAL EQUIPMENT FAILURE. Specification: The 3GPP standard 3G TS 32.111 indicates valid cause codes. Takes effect: At next generated alarm.AlarmPort availabilityStatus The availability status. It contains details about operationalState.AlarmPort userLabel Label for free use.AlarmPort administrativeState 0 The administrative state. Takes effect: Immediatley.AlmDevice administrativeState 0 The administrative state of the device. Possible values: ? LOCKED ? UNLOCKED Use cases: EAC_UC100,EAC_UC110, EAC_UC120,EAC_UC130 Specification: ITU-T rec. X.731Ref. [FS_EAC]AlmDevice alarmSlogan Specifies the external alarm. Use cases: EAC_UC110, EAC_UC100 Requirement: AlarmH_RBS_FU_49 Ref. [FS_EAC]AlmDevice AlmDeviceIdAlmDevice almDeviceStatus The current external alarm status of the device. Shows if the device has detected an alarm signal from external

equipment. Possible values: ? 0 = No alarm. ? 1 = Alarm present. Use cases: EAC_UC110 Requirement: AlarmH_RBS_FU_42 Ref. [FS_EAC]AlmDevice normallyOpen 0 Defines the normal (non-active) state of the alarm port. If true the connected external equipment issues an alarm by closing the circuit between the external equipment and the External Alarm and Control Unit. If false the connected external equipment issuAlmDevice perceivedSeverity 0 Specifies the severity level of the external alarm. Possible values: ? CRITICAL ? MAJOR ? MINOR ? WARNING Specification: 3GPP TS 32.111-2 Use cases: EAC_UC110, EAC_UC100 Requirement: AlarmH_RBS_FU_49 Ref. [FS_EAC]AlmDevice probableCause 0 Specifies the probable cause of the external alarm. The probable cause is mapped to a corresponding event type according to the specification 3GPP TS 32.111-2, so the event type for the alarm does not have to be explicitly specified. Specification: 3GPP TAlmDevice availabilityStatus The availability status of the device. Possible values: ? NOT_INSTALLED ? POWER_OFF ? IN_TEST ? DEPENDENCY_LOCKED ? DEPENDENCY_FAILED ? FAILED ? OFF_LINE ? DEGRADED ? OFF_DUTY ? LOG_FULL ? NO STATUS = Full availability. Use cases: AUC_310 Specification: IAlmDevice operationalState Defines the operational state. Possible values: ? DISABLED ? ENABLED Use cases: AUC_310 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:04 Ref. [FS_AUC]AlmDevice usageState Indicates the usage of the device. Possible values: ? BUSY? IDLEUse cases: AUC_310 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:05 Ref. [FS_AUC]AlmDevice userLabel Label for free use. Ref. [DR_MOM]AlmDeviceSet AlmDeviceSetIdAlmDeviceSet availabilityStatus The availability status of the device set. Possible values: ? NOT_INSTALLED ? POWER_OFF ? IN_TEST ? DEPENDENCY_LOCKED ? DEPENDENCY_FAILED ? FAILED ? OFF_LINE ? DEGRADED ? OFF_DUTY ? LOG_FULL ? NO STATUS = Full availability. Use cases: AUC_309 SpecificatioAlmDeviceSet operationalState Defines the operational state. Possible values: ? DISABLED ? ENABLED Use cases: AUC_309 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:04 Ref. [FS_AUC]AntennaBranch AntennaBranchIdAntennaBranch antennaSupervisionThreshold 0 Threshold for supervision of antenna branch. Supervision is done by ASC if part of the configuration, otherwise by AIU or FU. There are two types of supervision, DC resistance supervision, and VSWR supervision. Selection of supervision type is controlled AntennaBranch branchName A, B, C and D indicates the name of an antenna branch within sector. Dependencies: The name of an antenna branch must be unique within a sector, that is, two antenna branches must not have the same name. Use cases: Configure RBS at Site, Modify Antenna EqAntennaBranch fqBandHighEdge Denotes the downlink frequency band high edge. Unit: 0.1 MHz Dependencies: fqBandHighEdge > fqBandLowEdge. Must belong to band defined in action initSector (see MO Sector). Use cases: Configure RBS at Site, Modify Antenna Equipment, Increase Coverage RequAntennaBranch fqBandLowEdge Denotes the downlink frequency band low edge. Unit: 0.1 MHz Dependencies: fqBandLowEdge < fqBandHighEdge. Must belong to band defined in action initSector (see MO Sector). Use cases: Configure RBS at Site, Modify Antenna Equipment, Increase Coverage RequiAntennaBranch mechanicalAntennaTilt 0 The antenna tilt relative the vertical plane for this antenna. Positive values signify tilting of the antenna forwards from the vertical plane (lowering the antenna beam below the horizontal plane for this antenna). Negative values signify tilting of the AntennaBranch reservedBy Contains a list of MO instances that reserve this MO instance. Ref. [CB_MOP]AntennaBranch verticalAntennaTilt 0 The total antenna tilt relative to the vertical plane for this antenna. Vertical antenna tilt = Electrical antenna tilt + Mechanical antenna tilt. Negative values signify tilting the a

ntenna backwards from the vertical plane, that is, raising the antenna AntennaBranch alarmStatus 0 The alarm status of the antenna branch. Only bit 0 is settable via Mub. Other bits have only get access.bit0=UNDER_REPAIR bit1=CRITICALbit2=MAJORbit3=MINOR bit4=ALARM_OUTSTANDING (set to 1 when bit 1, 2 or 3 is set to 1) No bit set means no outstanding alAntennaBranch lowCurrentSupervision 0 Turns low current supervision on or off, on the related antenna feeder cable. Ref. [CB_MOP]AntFeederCable antennaBranchRef Reference to the antenna branch to which this cable must be connected. Use cases: Scratch RBS at Site Precondition: The referred to MO must exist. Ref. [CB_ECF]AntFeederCable AntFeederCableIdAntFeederCable connectedToObjectARef Reference to the hardware unit (for example, RRU) to which this cable must be connected. Use cases: Scratch RBS at Site, Modify Antenna Equipment Precondition: The referred to MO must exist, and if a plug-in unit MO also the corresponding device group MO.AntFeederCable dlAttenuation Cable attenuation, downlink. The sequence contains 15 entries and each entry represents one 5 MHz interval. The first entry represents the attenuation value of the lowest frequency interval in the frequency band, and so on. The number of intervals dependsAntFeederCable electricalDlDelay Cable delay, downlink. The sequence contains 15 entries and each entry represents one 5 MHz interval. The first entry represents the delay value of the lowest frequency interval in the frequency band, and so on. The number of intervals depends on the freqAntFeederCable electricalUlDelay Cable delay, uplink. The sequence contains 15 entries and each entry represents one 5 MHz interval. The first entry represents the delay value of the lowest frequency interval in the frequency band, and so on. The number of intervals depends on the frequeAntFeederCable objectAConnector Value representing the connector on the hardware unit, to which this cable is connected. Note that the value NOT_CONNECTED shall only be used temporarily during certain reconfiguration activities. Leaving the cable in this state will result in an alarm atAntFeederCable ulAttenuation Cable attenuation, uplink. The sequence contains 15 entries and each entry represents one 5 MHz interval. The first entry represents the attenuation value of the lowest frequency interval in the frequency band, and so on. The number of intervals depends oAreas AreasId Relative Distinguished Name ArpMap ArpMapId Naming attribute. Contains the value part of the RDN.ArpMap userLabel Provides the possibility to put a user-friendly label on the MO instance.The value is not used by the RNC.ArpMap systemDefaultArpQosEo System default ARP values used when the ARP mapping feature is not activated through its RncFeature MO instance. This attribute may only be changed by Ericsson personnel.Dependencies: The values in this attribute are displayed in the read-only attribute sArpMap systemDefaultArpQos System default ARP values used when the ARP mapping feature is not activated through its RncFeature MO instance. ArpMap defaultArpQos Default ARP values to be used when no External ARP value is received over RANAP, or when 'no priority' (= 15) is received.ArpMap externalArpMapping List of internal priority values to which External ARP values are mapped. The index of the sequence element (its position) corresponds to the external ARP value, and the value at that index specifies the internal priority to be used. ArpMap defaultArpQos.intPrio ARP priority level to be used.ArpMap defaultArpQos.pci Pre-emption capability.ArpMap defaultArpQos.pvi Pre-emption vulnerability.ArpMap systemDefaultArpQos.intPrio ARP priority level to be used.ArpMap systemDefaultArpQos.pci Pre-emption capability.

ArpMap systemDefaultArpQos.pvi Pre-emption vulnerability.ArpMap systemDefaultArpQosEo.intPrio ARP priority level to be used.ArpMap systemDefaultArpQosEo.pci Pre-emption capability.ArpMap systemDefaultArpQosEo.pvi Pre-emption vulnerability.ArpQosClassProfile ArpQosClassProfileId Naming attribute. Contains the value part of the RDN.ArpQosClassProfile userLabel Provides the possibility to put a user-friendly label on the MO instance.The value is not used by the RNC.ArpSpiMap ArpSpiMapId Naming attribute. Contains the value part of the RDN.ArpSpiMap userLabel Provides the possibility to put a user-friendly label on the MO instance.The value is not used by the RNC.ArpSpiMap reservedBy Sequence of references, updated automatically by the system, that point back toward the MOs that have references to this MO.ArpSpiMap externalArpMapping 0 List of SPI values to which External ARP priority values are mapped. The index of the sequence element (its position) corresponds to the external ARP value, and the value at that index points to the SpiQosClass instance to be used. A value of -1 indicatesAscDeviceGroup AscDeviceGroupIdAscDeviceGroup usageState Indicates the usage of corresponding device(s). Possible values: ? ACTIVE? BUSY? IDLEUse cases: AUC_308 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:05 Ref. [FS_AUC]AscDeviceGroup availabilityStatus The availability status of the device group. Possible values: ? NOT_INSTALLED ? POWER_OFF ? IN_TEST ? DEPENDENCY_LOCKED ? DEPENDENCY_FAILED ? FAILED ? OFF_LINE ? DEGRADED ? OFF_DUTY ? LOG_FULL ? NO STATUS = Full availability. Use cases: AUC_308 SpecificatAscDeviceGroup hwTestResult State of progress of the hardware test. Possible values: ? FAILED ? PASSED ? PENDING ? UNDETERMINED Ref. [FS_HWT]AscDeviceGroup operationalState Defines the operational state. Possible values: ? DISABLED ? ENABLED Use cases: AUC_308 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:04 Ref. [FS_AUC]AtmCrossConnection AtmCrossConnectionId The value component of the RDN.AtmCrossConnection userLabel Label for free use.AtmCrossConnection operationalState The operational state.AtmCrossConnection vclTpAId Identifies the VclTp MO involved in the A side of the cross connection (which consists of an A and B side). Must not be the same as vclTpBId.AtmCrossConnection vclTpBId Identifies the VclTp MO involved in the B side of the cross connection (which consists of an A and B side). Must not be the same as vclTpAId.AtmCrossConnection AtmCrossConnectionId The value component of the RDN.AtmCrossConnection userLabel Label for free use.AtmCrossConnection operationalState The operational state.AtmCrossConnection vclTpAId Identifies the VclTp MO involved in the A side of the cross connection (which consists of an A and B side). Must not be the same as vclTpBId.AtmCrossConnection vclTpBId Identifies the VclTp MO involved in the B side of the cross connection (which consists of an A and B side). Must not be the same as vclTpAId.AtmCrossConnection AtmCrossConnectionId The value component of the RDN.

AtmCrossConnection userLabel Label for free use.AtmCrossConnection operationalState The operational state.AtmCrossConnection vclTpAId Identifies the VclTp MO involved in the A side of the cross connection (which consists of an A and B side). Must not be the same as vclTpBId.AtmCrossConnection vclTpBId Identifies the VclTp MO involved in the B side of the cross connection (which consists of an A and B side). Must not be the same as vclTpAId.AtmPort AtmPortId The value component of the RDN.AtmPort userLabel Label for free use.AtmPort operationalState The operational state.AtmPort availabilityStatus The availability status. It contains details about operationalState.AtmPort valueOfLastCellWithUnexp This attribute returns the ATM header (VPI, VCI and PTI) of the last received unexpected cell.AtmPort uses Reference to the physical port, IMA Group or Ds0Bundle used by the ATM port. The possible MOs are: E1PhysPathTerm, J1PhysPathTerm, T1PhysPathTerm, E3PhysPathTerm, T3PhysPathTerm, Sts3CspeTtp, Sts1SpeTtp, Vc4Ttp, E1Ttp, T1Ttp, Ds0Bundle and ImaGroup. If thAtmPort hecCorrectionMode TRUE(1) Header Error Correction. Specifies if the ATM Port detects and corrects single bit errors or detects multiple bit errors in the ATM header.AtmPort loopbackDetection 0 Enables or disables the detection of loopback on the physical path(s) used by AtmPort. If loopback is detected the corresponding physical path is disabled, and an alarm is issued.AtmPort valueOfLastCellWithUnexp.pti 0 The ATM header pti.AtmPort valueOfLastCellWithUnexp.vci 0 The ATM header vci.AtmPort valueOfLastCellWithUnexp.vpi 0 The ATM header vpi.AtmPort AtmPortId The value component of the RDN.AtmPort userLabel Label for free use.AtmPort operationalState The operational state.AtmPort availabilityStatus The availability status. It contains details about operationalState.AtmPort valueOfLastCellWithUnexp This attribute returns the ATM header (VPI, VCI and PTI) of the last received unexpected cell.AtmPort uses Reference to the physical port, IMA Group or Ds0Bundle used by the ATM port. The possible MOs are: E1PhysPathTerm, J1PhysPathTerm, T1PhysPathTerm, E3PhysPathTerm, T3PhysPathTerm, Sts3CspeTtp, Sts1SpeTtp, Vc4Ttp, E1Ttp, T1Ttp, Ds0Bundle and ImaGroup. If thAtmPort hecCorrectionMode TRUE(1) Header Error Correction. Specifies if the ATM Port detects and corrects single bit errors or detects multiple bit errors in the ATM header.AtmPort loopbackDetection 0 Enables or disables the detection of loopback on the physical path(s) used by AtmPort. If loopback is detected the corresponding physical path is disabled, and an alarm is issued.AtmPort valueOfLastCellWithUnexp.pti 0 The ATM header pti.AtmPort valueOfLastCellWithUnexp.vci 0 The ATM header vci.AtmPort valueOfLastCellWithUnexp.vpi 0 The ATM header vpi.AtmPort AtmPortId The value component of the RDN.AtmPort userLabel Label for free use.AtmPort operationalState The operational state.AtmPort availabilityStatus The availability status. It contains details about operationalState.AtmPort valueOfLastCellWithUnexp This attribute returns the ATM header (VPI, VCI and PTI) of the last received unexpected cell.AtmPort uses Reference to the physical port, IMA Group or Ds0Bundle used by the ATM port. The possible MOs are: E1PhysPathTerm, J1PhysPathTerm, T1PhysPathTerm, E3PhysPathTerm, T3PhysPathTerm, Sts3CspeTtp, Sts1SpeTtp, Vc4Ttp, E1Ttp, T1Ttp, Ds0Bundle and ImaGroup. If th

AtmPort hecCorrectionMode TRUE(1) Header Error Correction. Specifies if the ATM Port detects and corrects single bit errors or detects multiple bit errors in the ATM header.AtmPort loopbackDetection 0 Enables or disables the detection of loopback on the physical path(s) used by AtmPort. If loopback is detected the corresponding physical path is disabled, and an alarm is issued.AtmPort valueOfLastCellWithUnexp.pti 0 The ATM header pti.AtmPort valueOfLastCellWithUnexp.vci 0 The ATM header vci.AtmPort valueOfLastCellWithUnexp.vpi 0 The ATM header vpi.AtmTrafficDescriptor AtmTrafficDescriptorId The value component of the RDN.AtmTrafficDescriptor userLabel Label for free use.AtmTrafficDescriptor ingressAtmPcr 0 Ingress ATM Peak cell rate (cells/s). Only non-negative values are allowed. The attribute is only mandatory when serviceCategory is CBR.AtmTrafficDescriptor ingressAtmQos Ingress ATM quality of service. This attribute can be set to Class 1 and 2 if attribute serviceCategory is set to CBR. This attribute can be set to Class 3 if attribute serviceCategory is set to UBR+. This attribute can be set to Class 4 if attribute servAtmTrafficDescriptor egressAtmPcr 0 Egress ATM Peak cell rate (cells/s). Only non-negative values are allowed. This attribute is only mandatory when serviceCategory is CBR. When serviceCategory is set to UBR+, egressAtmPcr < egressAtmMcr disables shaping. egressAtmPcr >= egressAtmMcr enableAtmTrafficDescriptor egressAtmQos Egress ATM quality of service. This attribute can be set to Class 1 and 2 if attribute serviceCategory is set to CBR. This attribute can be set to Class 3 if attribute serviceCategory is set to UBR+. This attribute can be set to Class 4 if attribute serviAtmTrafficDescriptor reservedBy Contains a list of MO instances that reserve this MO instance.AtmTrafficDescriptor egressAtmMcr 0 Egress ATM minimum desired cell rate. Only non-negative values are allowed. The attribute is only mandatory when serviceCategory is UBR+.AtmTrafficDescriptor ingressAtmMcr 0 Ingress minimum desired cell rate (cells/s). Only non-negative values are allowed. This attribute is mandatory only when serviceCategory is UBR+.AtmTrafficDescriptor serviceCategory The service category.AtmTrafficDescriptor packetDiscard 0 Controls the functions Early Packet Discard (EPD) and Partial Packet Discard (PPD) used in AAL5 for traffic classes UBR and UBR+. N.B. should never be enabled for non-AAL5 traffic.AtmTrafficDescriptor AtmTrafficDescriptorId The value component of the RDN.AtmTrafficDescriptor userLabel Label for free use.AtmTrafficDescriptor ingressAtmPcr 0 Ingress ATM Peak cell rate (cells/s). Only non-negative values are allowed. The attribute is only mandatory when serviceCategory is CBR.AtmTrafficDescriptor ingressAtmQos Ingress ATM quality of service. This attribute can be set to Class 1 and 2 if attribute serviceCategory is set to CBR. This attribute can be set to Class 3 if attribute serviceCategory is set to UBR+. This attribute can be set to Class 4 if attribute servAtmTrafficDescriptor egressAtmPcr 0 Egress ATM Peak cell rate (cells/s). Only non-negative values are allowed. This attribute is only mandatory when serviceCategory is CBR. When serviceCategory is set to UBR+, egressAtmPcr < egressAtmMcr disables shaping. egressAtmPcr >= egressAtmMcr enableAtmTrafficDescriptor egressAtmQos Egress ATM quality of service. This attribute can be set to Class 1 and 2 if attribute serviceCategory is set to CBR. This attribute can be set to Class 3 if attribute serviceCategory is set to UBR+. This attribute can be set to Class 4 if attribute serviAtmTrafficDescriptor reservedBy Contains a list of MO instances that reserve this MO instance.AtmTrafficDescriptor egressAtmMcr 0 Egress ATM minimum desir

ed cell rate. Only non-negative values are allowed. The attribute is only mandatory when serviceCategory is UBR+.AtmTrafficDescriptor ingressAtmMcr 0 Ingress minimum desired cell rate (cells/s). Only non-negative values are allowed. This attribute is mandatory only when serviceCategory is UBR+.AtmTrafficDescriptor serviceCategory The service category.AtmTrafficDescriptor packetDiscard 0 Controls the functions Early Packet Discard (EPD) and Partial Packet Discard (PPD) used in AAL5 for traffic classes UBR and UBR+. N.B. should never be enabled for non-AAL5 traffic.AtmTrafficDescriptor AtmTrafficDescriptorId The value component of the RDN.AtmTrafficDescriptor userLabel Label for free use.AtmTrafficDescriptor ingressAtmPcr 0 Ingress ATM Peak cell rate (cells/s). Only non-negative values are allowed. The attribute is only mandatory when serviceCategory is CBR.AtmTrafficDescriptor ingressAtmQos Ingress ATM quality of service. This attribute can be set to Class 1 and 2 if attribute serviceCategory is set to CBR. This attribute can be set to Class 3 if attribute serviceCategory is set to UBR+. This attribute can be set to Class 4 if attribute servAtmTrafficDescriptor egressAtmPcr 0 Egress ATM Peak cell rate (cells/s). Only non-negative values are allowed. This attribute is only mandatory when serviceCategory is CBR. When serviceCategory is set to UBR+, egressAtmPcr < egressAtmMcr disables shaping. egressAtmPcr >= egressAtmMcr enableAtmTrafficDescriptor egressAtmQos Egress ATM quality of service. This attribute can be set to Class 1 and 2 if attribute serviceCategory is set to CBR. This attribute can be set to Class 3 if attribute serviceCategory is set to UBR+. This attribute can be set to Class 4 if attribute serviAtmTrafficDescriptor reservedBy Contains a list of MO instances that reserve this MO instance.AtmTrafficDescriptor egressAtmMcr 0 Egress ATM minimum desired cell rate. Only non-negative values are allowed. The attribute is only mandatory when serviceCategory is UBR+.AtmTrafficDescriptor ingressAtmMcr 0 Ingress minimum desired cell rate (cells/s). Only non-negative values are allowed. This attribute is mandatory only when serviceCategory is UBR+.AtmTrafficDescriptor serviceCategory The service category.AtmTrafficDescriptor packetDiscard 0 Controls the functions Early Packet Discard (EPD) and Partial Packet Discard (PPD) used in AAL5 for traffic classes UBR and UBR+. N.B. should never be enabled for non-AAL5 traffic.AuxPlugInUnit administrativeState 0 The administrative state of the auxiliary plug-in unit. Possible values: ? LOCKED ? SHUTTING_DOWN ? UNLOCKED Use cases: MBD_UC_AUX_LOCK, MBD_UC_AUX_UNLOCK, MBD_READ_ADM. Specification: ITU-T rec. X.731 Requirement: LOCK_UNLOCK_RBS_FU:21, 24, 25 DisturbancAuxPlugInUnit auType Type of auxiliary unit. Possible values: ? ARETU ? ASC ? ATMAU ? BFU ? CLU ? CU ? FAN ? FCU ? FU ? MCPA ? PAU ? PCU ? PSU ? RETU ? RRU? RRUW ? RU ? RUW ? SAIU ? XALM ? XCU Use cases: AUC_300, AUC_307 Ref. [FS_AUC]AuxPlugInUnit AuxPlugInUnitIdAuxPlugInUnit availabilityStatus The availability status of the auxiliary plug-in unit. Possible values: ? NOT_INSTALLED ? POWER_OFF ? IN_TEST ? DEPENDENCY_LOCKED ? DEPENDENCY_FAILED ? FAILED ? OFF_LINE ? DEGRADED ? OFF_DUTY ? LOG_FULL ? NO STATUS = Full availability. Use cases: AUC_307 AuxPlugInUnit greenLed Indicates the operational status of the auxiliary plug-in unit as shown by the green operation LED. Possible values: ? NOT_APPLICABLE = The LED is not supported. ? NOT_AVAILABLE = The LED state is currently not available. ? STEADY_LIGHT = Power present. ?AuxPlugInUnit operationalState Defines the operational state. Possible values: ? DISABLED ? ENABLED Use cases: AUC_307 Specification: ITU-T rec. X.731Requirement: UTRAN_MM:04 Ref. [FS_AUC]AuxPlugInUnit piuType Reference to corresponding PiuType MO. I

ndirectly used to control the loading of software on the auxiliary unit and the auto-configuration of contained MOs. Note! For historical reasons the reference may be NULL for certain non-loadable auxiliary units. UAuxPlugInUnit plugInUnitRef1 Reference to the plug-in unit, through which the MP communicates with the auxiliary unit. Use cases: AUC_300, AUC_307 Precondition: The PlugInUnit or AuxPlugInUnit MO must exist. Ref. [FS_AUC]AuxPlugInUnit plugInUnitRef2 Reference to the redundant plug-in unit, through which the MP communicates with the auxiliary unit. Note that it is not possible to remove a reference to a redundant PIU by setting the attribute to null. This is only possible by deleting the MO and recreaAuxPlugInUnit productionDate 0 Date the unit was produced (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]AuxPlugInUnit productName Product name of the unit (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]AuxPlugInUnit productNumber Product number of the unit (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]AuxPlugInUnit productRevision Product revision of the unit (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed Ref. [FS_PIY]AuxPlugInUnit productType 0 Product type (PID) is used by product inventory to select products. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]AuxPlugInUnit redLed Indicates the fault status of the auxiliary plug-in unit as shown by the red fault LED. Possible values: ? NOT_APPLICABLE= The LED is not supported. ? NOT_AVAILABLE = The LED state is currently not available. ? OUT = No HW fault. ? STEADY_LIGHT = HW faultAuxPlugInUnit reservedBy Contains a list of MO instances that reserve this MO instance. Use cases: AUC_307 Ref. [FS_SUE]AuxPlugInUnit serialNumber Unique number that identifies the unit (part of PID). Persistent in hardware. Use cases: UC1, UC2 Requirement: PID_RBS_FU:3 Precondition: Hardware must be installed. Ref. [FS_PIY]AuxPlugInUnit yellowLed Indicates the information status of the auxiliary plug-in unit as shown by the yellow information LED. Possible values: ? NOT_APPLICABLE = The LED is not supported. ? NOT_AVAILABLE = The LED state is currently not available. ? OUT = Board unlocked. ? STEAAuxPlugInUnit hubPosition 0 The auxiliary plug-in unit connection in the AU hub, used for HDLC addressing purposes.Mandatory for AU types BFU, PSU, CLU and FCU. Not applicable to other AU types.Possible values: ? A-J = Hub positions valid for hub type 1. ? A1-A8, B1-B8 = Hub positioAuxPlugInUnit unitType Type of unit. Displays the same value as the struct member productName of the productData attribute on the corresponding PiuType MO. Ref. [FS_AUC]AuxPlugInUnit uniqueHwId An ID intended only for ARETU and used to uniquely identify an ARET among others cascaded ARETs in one sector. The ID is a concatenation of the vendor code and the ARET serial number and should contain just enough number of significant characters/digits tAuxPlugInUnit position 0 Specifies the absolute position of the auxiliary plug-in unit in a shelf. Positions start from left or ground with the first position numbered 1. A plug-in unit can occupy more than one position, depending on its width. When a plug-in unit occupies more tAuxPlugInUnit positionInformation The position of an auxiliary plug-in unit can be ? in a shelf, ? not in a shelf but inside or outside the cabinet, or ? at a remote site. If the plug-in unit is contained in a shelf, the attribute position is used. Otherwise this attribute can be used, foAuxPlugInUnit positionRef Reference to the cabinet or shelf which the auxiliary plug-in unit is placed in or belongs to. Use cases: Manufacture RBS, Scratch RBS at Site Ref. [CB_ECF]

Battery batteryCapacityDefaultValue 0 Nominal battery capacity. Unit: 1 Ah Dependencies: If =< 30 then PowerSupplySystem: batteryTestEnable may not be set to true (battery test is not allowed for low capacity batteries). Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery BatteryIdBattery batteryTestEndLimit 0 Voltage limit at which battery test is terminated. Example: -480 = -48 V Unit: 0.1 V Scope: Battery test Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery batteryVoltageDefaultValue 0 Nominal battery voltage.Example: -480 = -48 V Unit: 0.1 V Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery chargeLimit 0 After an AC failure or a battery test, the battery is recharged. This parameter denotes the battery capacity, which has to be recharged within the time limit chargeTimeLimit. The parameter is given as a percentage of discharged capacity. Unit: 1% Scope: BBattery chargeOffset 0 Voltage offset used during boost charging. Example: 12 = 1.2 V Unit: 0.1 V Scope: Battery charging Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery chargeTimeLimit 0 Limit for the recharging time of the battery, after a battery test or AC failure. Unit: 1 h Scope: Battery test Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery compFactor 0 Compensation factor, shows how much the voltage changes with temperature. Example: 2500 = 2.5 V per 1 degree Celsius Unit: 0.001 V/?C Scope: Float charging Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery cyclicChargeInterval 0 Indicates number of days between cyclic charging. Unit: 1 d Scope: Battery charging Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery dischargeLimit 0 During an AC failure or a battery test, the battery is discharged. This parameter denotes the battery capacity, that can be discharged before the battery voltage has dropped to the level set by batteryTestEndVoltage. The parameter is given as a percentageBattery freeDate2 Date field, user defined. Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery freeDate3 Date field, user defined. Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery freeText1 Text field, user defined. Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery freeText2 Text field, user defined. Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC] Battery freeText3 Text field, user defined. Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC] Battery freeText4 Text field, user defined. Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC] Battery initialBatteryTestStartTime 0 Start time of the initial battery test after the battery test function has been enabled. The value 0 means 'initial test disabled'. Unit: 1 h Scope: Battery test Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery minDaysBeforeCyclicCharge 0 Indicates minimum number of days before next cyclic charging is allowed. Unit: 1 d Takes effect: At commit or at next charging if charging is active. Scope: Battery charging Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery remainingBackupTime 0 Estimated remaining time in minutes until the battery is empty. The remainingBackupTime is based on the present current load and nominal battery capacity (see attribute batteryCapacityDefaultValue). The battery capacity is continuously calculated as the bBattery tempCharging 0 Nominal temperature for float charging. Example: 25 = 2.5 degrees Celsius Unit: 0.1?C Scope: Float charging Use cases: PSC_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]Battery freeDate1 Date field, user defined. Use cases: PSC

_UC221, PSC_UC223, PSC_UC224 Ref. [FS_PSC]BatteryBackup BatteryBackupId The value component of the RDN.BatteryBackup userLabel Label for free use.BatteryBackup batteryCurrent The measured battery current. The current is positive when the battery is being charged and negative when it is being discharged. Undefined value: -9999 (no contact with BFU). Undefined value: -9999 (no contact with BFU) Unit: 1 A Resolution: 1BatteryBackup batteryDisconnectTemp 0 Specifies the battery temperature at which the battery is disconnected. Applies to both main and priority loads. The battery is disconnected when batteryTemperature > batteryDisconnectTemp. Note! Only specified batteries should be set to values > 60, and BatteryBackup batteryDisconnectTempCeaseOffset 0 Specifies the offset for the disconnected temperature below which the battery will be reconnected. Applies to both main and priority loads. The battery is reconnected when batteryTemperature < batteryDisconnectedTemp-batteryDisconnectTempCeaseOffset. UnitBatteryBackup batteryTemperature Current temperature value as reported by the battery temperature sensor, mounted on the battery. Undefined value: 999 (no contact with BFU) Unit: 1?C Resolution: 1BatteryBackup batteryType 0 Indicates the type of battery to which the installed battery conforms. The type is related to the capabilities of the battery.Dependencies: batteryType = UNKNOWN is valid only when chargingMode = USER_DEFINED. Takes effect: Immediately.BatteryBackup batteryVoltage The measured battery voltage. 0 means the battery is disconnected. It is equal to the attribute systemVoltage, PowerSupply MO, when the battery is connected. Undefined value: -1 (no contact with BFU) Unit: 0.1 V Resolution: 1BatteryBackup boostChargeTime 0 The time in boost charge. Value zero (0) means that boost charging is disabled. Unit: 1 h Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relevant if attribute chargingMode in MO BatteryBackup has the value USER_DEFINED.BatteryBackup boostChargeTriggerVoltage 0 Defines the trigger voltage for boost charge. When the trigger voltage is surpassed during discharge, the consecutive charging is boost charging. Unit: 0.1 V Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relevant if attributeBatteryBackup chargingMode 0 Defines the type of battery charging used. If User Defined - the user must specify the charging algorithm to use and indicate the parameters. Dependencies: If the charging mode is Automatic, the system charges according to defined behavior determined by aBatteryBackup chargeMaxCurrent 0 Maximum allowed battery current during charging. Unit: 1 A Resolution: 1Takes effect: Immediately.BatteryBackup chargingVoltage 0 The desired battery voltage for charging at 25 degree Celsius. Unit: 0.1 V Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relevant if attribute chargingMode in MO BatteryBackup has the value USER_DEFINED.BatteryBackup equalizeChargeCyclicInterval 0 Indicates the number of days between equalize charging. The cycle is reset at restart. Unit: 1 day Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relevant if attribute chargingMode in MO BatteryBackup has the value USER_DEFINEBatteryBackup equalizeChargeTime 0 The time in equalize charge. Value zero (0) means that equalize charging is disabled. To enable equalize charging the value shall differ from zero (0). Unit: 1 h Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relevant if attriBatteryBackup increasedChargeVoltage 0 The charge voltage used at boost charging and equalize charging. Unit: 0.1 V Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relevant if attribute chargingMode in MO BatteryBackup has the value USER_DEFINED.BatteryBackup intermittentChargeConnectTime 0 Defines the period following disconnection after which the battery is reconnected. Used in intermittent charging. Unit: 1 h Resolution: 1 Takes effect: Immediately. Dependency:

This attribute is only relevant if attribute chargingMode in MO BatteryBackup BatteryBackup intermittentChargeConnectVoltage 0 Defines the minimum battery voltage level allowed for a disconnected battery. When minimum level is reached, the battery is reconnected. Used in intermittent charging. Unit: 0.1 V Resolution: 1 Takes effect: Immediately. Dependency: This attribute is onlyBatteryBackup intermittentChargeDisconnectTime 0 Defines the time until the batteries are disconnected (during this time the batteries are connected). Value zero (0) means that intermittent charging is not enabled. Unit: 1 h Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relBatteryBackup nominalTemp 0 Nominal temperature for temperature compensated float charging. Unit: 0.1?C Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relevant if attribute chargingMode in MO BatteryBackup has the value USER_DEFINED.BatteryBackup tempCompMaxVoltage 0 The maximum voltage allowed for float charging. Used in temperature compensated float charging. Unit: 0.1 V Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relevant if attribute chargingMode in MO BatteryBackup has the value USBatteryBackup tempCompMinVoltage 0 The minimum voltage allowed for float charging. Used in temperature compensated float charging. Unit: 0.1 V Resolution: 1 Takes effect: Immediately. Dependency: This attribute is only relevant if attribute chargingMode in MO BatteryBackup has the value USBatteryBackup tempCompVoltageSlope 0 A compensation factor that expresses the amount of voltage changes caused by temperature. Used in temperat