copy of alexserv

7
USER DESCRIPTION_x000D_Radio Network Parameters 1 (7) Date: 2013-11-19 Sheet: Heading No: 86/1553-HSD 101 02 Uen Rev: M Radio Network Parameters WCDMA RAN

Upload: nguyen-duc-tai

Post on 12-Nov-2015

39 views

Category:

Documents


15 download

DESCRIPTION

Alexserv

TRANSCRIPT

Radio Network Parameters

Heading

Radio Network ParametersWCDMA RAN

&GUSER DESCRIPTION&B&14_x000D_Radio Network Parameters&P (&N)

Date: 2013-11-19Sheet: HeadingNo: 86/1553-HSD 101 02 UenRev: M

IntroductionRadio Network Parameters0

MOC Name:Managed object class the attribute belongs to.Parameter name:Attribute name as defined in the MOM.Node:Indicates the node to which the parameter belongs (where it is created and configured).Description:A brief description of the parameter.Data TypeThe data type for the parameter. E.g. Long, string.MOM Range:The valid range of values for the parameter.Recommended Range:The recommended range of values for the parameter.Valid values:Values valid for configurationDefault value:The default value, as initially set by the system, if not explicitly set at MO creation. Recommended valueThe recommended value if other than the default value. Note that an intial value might also derive from radio network design (RND) activity. See Initial Value Source below.Initial parameter value source:Source for initial configuration of parameters of access type Read/Write and Restricted. The source can be:- RND: The parameter shall be configured according to Radio Network Design. This includes also cell relation definitions between neighboring cells.- CPI: Guidance how to configure the parameter can be found in a User Description, see the column "CPI Reference"- Recommended/Default: If there is no value in the recommended column, the default value is the recommended configuration. Configuring the system according to Recommended/Default values will ensure a robust initial reference configuration. Further tuning and optimization is necessary in order to adapt to characteristics of a specific network.- RBS Installation: The value is determined by the specific hardware configuration at the site. A typical example is attenuation in feeder cable which is measured at the installation.CPI Reference:Reference to the user description covering the parameterAccess:Indicates if the parameter is Read only, Read & write or Restricted. If restricted, once the corresponding MO has been created, the parameter value can only be retrieved (not set) . It could only be modified by recreating the MO.Mandatory:Indicates whether or not this parameter is mandatory to configure at creation of the corresponding managed object. For mandatory parameters no default value is defined.PersistentIndicates whether or not the value of this parameter is stored persistently in the database of a node. Persistent data will survive a node restart.NotificationIndicates whether or not the Management system will be informed when the parameter value is changed by the system or by a Management set operation.The OSS-RC network manager automatically receives every notification but the RNC and RBS element managers first have to subscribe to a notification.

SequenceIndicates whether or not the parameter represents a sequence of values.Change take effect:Indicates when a change of a parameter will take effect.Network entity:The network entity for which the parameter is configured. Feature name:The name of the feature where the parameter is used.Feature number:The feature number of the feature where the parameter is used.BulkCM MO name:The name of the BulkCM managed object this parameter belongs to.BulkCM parameter name:The name of the parameter on the BulkCM interface.Initial tuning:Indicates whether it is recommended to tune the parameter during the initial tuning phase. It is assumed that all initial parameter values have been correctly defined and loaded. Thus, this column disregards consistency and parameter check activities.RN Optimization:Gives a classification (basic, intermediate or advanced) based on the importance each parameter has during optimization activities. At this stage, it is assumed that there is no need for running consistency checks. N/A will be found for non-optimizable parameters.

&GUSER DESCRIPTION&B&14_x000D_Radio Network Parameters&P (&N)

Date: 2013-11-19Sheet: IntroductionNo: 86/1553-HSD 101 02 UenRev: M

1. Introduction

1.1 Purpose This document describes the WCDMA RAN Radio Network parameters. 1.2 ScopeThis document lists and gives information about the WCDMA RAN Radio Network Parameters. It contains a general description of the parameter, unit, value, range, default value, recommended value, syntax description and reference to BulkCM. 1.3 Structure To assure that the correct information is delivered to the end-user of this document some of the sheets have been been locked. The following information is presented for each parameter:

14.0Radio Network Parameters0MO Class NameParameter NameNodeParameter DescriptionData TypeMOM RangeRecommended RangeValid ValuesDefault ValueRecommended ValueInitial Parameter Value SourceCPI ReferenceAccessMandatoryPersistentNotificationSequenceChange Take EffectNetwork EntityFeature NameFeature NumberBulkCM MO Class NameBulkCM Parameter NameInitial TuningRN OptimizationAgpsPositioningAgpsPositioningIdRNCNaming attribute. Contains the value part of the RDN.Set by the RNC to 1 when the singleton instance of this MO is automatically created.stringN/ARestrictedYYNNN/ARNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningidNN/AAgpsPositioningaltitudeRNCAltitude 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, 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 fall-back position is used as the UE reference position instead. This reference position is sent from the RNC to the UE when starting the GPS measurements.

Takes effect: Ongoing connectionsUnit: mFeature: AgpsPositioninglong0..32767RND122/1553-HSD 101 02/6Read/WriteYYYNNew connectionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningaltitudeNN/AAgpsPositioningaltitudeDirectionRNCAltitude 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 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 fall-back position is used as the UE reference position instead. This reference position is sent from the RNC to the UE when starting the GPS measurements.

Takes effect: Ongoing connectionsFeature: AgpsPositioningSupportedAltitudeDirectionsHEIGHT = 0 DEPTH = 1HEIGHT(0)Recommended122/1553-HSD 101 02/6Read/WriteYYYNNew connectionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningaltitudeDirectionNN/AAgpsPositioningconfidenceRNCConfidence 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 pre-estimate is successful, it is used as the UE reference position. If the pre-estimate fails, a fall-back position is used as the UE reference position instead. This reference position is sent from the RNC to the UE when starting the GPS measurements.

0 indicates that no information is available.

Takes effect: Ongoing connectionsUnit: %Feature: AgpsPositioninglong0..100RND122/1553-HSD 101 02/6Read/WriteYYYNNew connectionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningconfidenceYIntermediateAgpsPositioningelevationThresholdRNCThreshold for satellite elevation. The satellites that are below the elevation threshold will not be used.

Takes effect: Ongoing connectionsUnit: degreesFeature: AgpsPositioninglong0..900..1055Default122/1553-HSD 101 02/6Read/WriteNYYNNew connectionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningelevationThresholdNIntermediateAgpsPositioningpolygonRadiusFactorRNCScale factor that is multiplied with the uncertainty estimate. This value is only used when the pre-estimate is successful.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 fall-back position is used as the UE reference position instead. This reference position is sent from the RNC to the UE when starting the GPS measurements.

Value mapping:1: 0.12: 0.2...n: n / 10...999: 99.91000: 100.0

Takes effect: Ongoing connectionsFeature: AgpsPositioninglong1..100010See CPICPI122/1553-HSD 101 02/6Read/WriteNYYNNew connectionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningpolygonRadiusFactorNAdvancedAgpsPositioningposQualitiesRNCQoS parameters for the A-GPS positioning method.

Takes effect: Ongoing connections (next positioning transaction)Feature: AgpsPositioningPositioningQualitiesN/A122/1553-HSD 101 02/6Read/WriteYYYNAt next positioning transactionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningposQualitiesNN/AAgpsPositioningposQualities.accuracyCodeTypicalRNCExpected accuracy code of the positioning method. Used in the selection of the positioning method for the first positioning attempt. The uncertainty radius of a circular uncertainty measure (in meters) is related to the accuracy code by:Radius = 10 x (1.1^accuracyCodeTypical - 1).

Specification: 3GPP TS 23.032long0..12712..20See CPICPI122/1553-HSD 101 02/6Read/WriteYYYNAt next positioning transactionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningposQualities.accuracyCodeTypicalYBasicAgpsPositioningposQualities.confidenceEstimateRNCExpected confidence of the positioning method to be used for shape conversion.

Unit: %long0..10038Recommended122/1553-HSD 101 02/6Read/WriteYYYNAt next positioning transactionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningposQualities.confidenceEstimateYBasicAgpsPositioningposQualities.responseTimeTypicalRNCExpected response time of the positioning method. Used in the selection of the positioning method for the first positioning attempt.

Unit: msResolution: 100long100..1000004000..24000See CPICPI122/1553-HSD 101 02/6Read/WriteYYYNAt next positioning transactionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningposQualities.responseTimeTypicalYBasicAgpsPositioningposQualities.verticalAccuracyCodeTypicalRNCExpected vertical accuracy code of the positioning method. Used in the selection of the positioning method for the first positioning attempt. The uncertainty (in meters) is related to the vertical accuracy code by:Uncertainty = 45 x (1.025^verticalAccuracyCodeTypical - 1).

Specification: 3GPP TS 23.032long0..12735..127See CPICPI122/1553-HSD 101 02/6Read/WriteYYYNAt next positioning transactionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningposQualities.verticalAccuracyCodeTypicalYBasicAgpsPositioninguncertaintyAltitudeRNCUncertainty 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 the pre-estimate is successful, it is used as the UE reference position. If the pre-estimate fails, a fall-back position is used as the UE reference position instead. This reference position is sent from the RNC to the UE when starting the GPS measurements.

The uncertainty in meters is derived by the formula 45*((1.025)^n - 1).

Value mapping:0 : 0 m (meters)1 : 1.13 m2 : 2.28 m3 : 3.46 m...n : 45*((1.025)^n - 1) m...126 : 965.2 m127 : 990.5 m

Takes effect: Ongoing connectionsFeature: AgpsPositioninglong0..127RND122/1553-HSD 101 02/6Read/WriteYYYNNew connectionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioninguncertaintyAltitudeNBasicAgpsPositioningutranRnsConfidenceRNCConfidence 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 pre-estimate fails, a fall-back position is used as the UE reference position instead. This reference position is sent from the RNC to the UE when starting the GPS measurements.

0 means that no information is available.

Takes effect: Ongoing connectionsUnit: %Feature: AgpsPositioninglong0..10090..100100See CPICPI122/1553-HSD 101 02/6Read/WriteNYYNNew connectionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningutranRnsConfidenceNBasicAgpsPositioningutranRnsPositionRNCFall-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 fall-back position is used as the UE reference position instead. This reference position is sent from the RNC to the UE when starting the GPS measurements.

Takes effect: Ongoing connectionsFeature: AgpsPositioningGeographicalPositionN/A122/1553-HSD 101 02/6Read/WriteNYYNNew connectionRNCA-GPS positioning for commercial services [optional]FAJ 121 1046 R1vsDataAgpsPositioningutranRnsPositionNN/AAgpsPositioningutranRnsPosition.latitudeRNCLatitude value (N), derived by the formula:N eulLockedOptimalNoiseFloorEstimate

false + not used => not usedfalse + => not usedtrue + not used => true + value =>

Unit: 0.1 dBmUndefined value: -1Precondition: E-DCH Resources setup in the cell carrier.long-1150..-600 -1..-1ReadNNYNvsDataCarriereulLockedOptimalNoiseFloorEstimateCarriereulMaxOwnUuLoadRBS DUWThe maximum allowed contribution to uplink interference rise from traffic generated in the own cell carrier. The scheduler limits the E-DCH power based on this parameter. Unit is rise of interference (noise rise) in dB.

Unit: 0.1 dBlong0..55030without FCC: 80 with FCC: 100Read/WriteNYYNvsDataCarriereulMaxOwnUuLoadCarriereulMaxRotCoverageRBS DUWMaximum RoT (Rise over Thermal) level allowed to preserve coverage.

Unit: 0.1 dBlong0..550100Read/WriteNYYNvsDataCarriereulMaxRotCoverageCarriereulOptimalNoiseFloorLockRBS DUWThe struct attributes eulNoiseFloorLock and eulOptimalNoiseFloorEstimate are set and get together. eulNoiseFloorLock is used together with eulOptimalNoiseFloorEstimate to be able to lock the noise floor level (eulNoiseFloorLock set to true) to either the current level, when eulOptimalNoiseFloorEstimate is set to -1 (= undefined) or to a value defined in eulOptimalNoiseFloorEstimate. When the noise floor level is locked, the used noise floor level is shown by the attribute eulLockedOptimalNoiseFloorEstimate. When eulNoiseFloorLock is set to false, the noise floor level is according to algorithm and eulOptimalNoiseFloorEstimate is negligible.EulOptimalNoiseFloorLockDataStructRead/WriteNYYNvsDataCarriereulOptimalNoiseFloorLockCarriereulOptimalNoiseFloorLock.eulNoiseFloorLockRBS DUWWhen set to true, locks the noise floor level. Used in conjunction with eulOptimalNoiseFloorEstimate to be able to lock the noise floor level to either the current level, when eulOptimalNoiseFloorEstimate is set to -1 (= undefined) or to a value defined in eulOptimalNoiseFloorEstimate.booleanFALSERead/WriteNYYNCombined CellFAJ 121 3249vsDataCarriereulOptimalNoiseFloorLock.eulNoiseFloorLockCarriereulOptimalNoiseFloorLock.eulOptimalNoiseFloorEstimateRBS DUWUsed in conjunction with eullNoiseFloorLock to be able to lock the noise floor level to either the current level, when eulOptimalNoiseFloorEstimate is set to -1 (=undefined value), or to a value defined in eulOptimalNoiseFloorEstimate.

Unit: 0.1 dBmUndefined value: -1long-1150..-600 -1..-1-1040Read/WriteNYYNCombined CellFAJ 121 3249vsDataCarriereulOptimalNoiseFloorLock.eulOptimalNoiseFloorEstimateCarriereulSlidingWindowTimeRBS DUWThe length of the sliding window during which a thermal noise level is found.

Unit: 1 sResolution: 10Takes effect: If the noise floor is locked, at commit. If the noise floor is not locked, at next noise floor lock or at next setup of E-DCH resources.long10..8640001800Read/WriteNYYNvsDataCarriereulSlidingWindowTimeCarriereulThermalLevelPriorRBS DUWThe anticipated uplink noise floor of the unloaded RBS, including feeder and TMA contributions.

Unit: 0.1 dBmTakes effect: If the noise floor is locked, at commit. If the noise floor is not locked, at next noise floor lock or at next setup of E-DCH Resources.long-1150..-600-1040Read/WriteNYYNvsDataCarriereulThermalLevelPriorCarrierfccRotMarginHighRBS DUWRoT (Rise over Thermal) margin relative eulMaxRotCoverage that defines the UL FCC high RoT threshold for stabilizing the cell carrier RoT by control of EUL serving cell traffic.

Unit: 0.1 dBDependencies: Only relevant if NodeBFunction::featureStateUlFcc = ACTIVATED.long-550..55040Read/WriteNYYNvsDataCarrierfccRotMarginHighCarrierfccRotMarginLowRBS DUWRoT (Rise over Thermal) margin relative eulMaxRotCoverage that defines the UL FCC low RoT threshold for stabilizing the cell carrier RoT by control of EUL serving cell traffic.

Unit: 0.1 dBDependencies: Only relevant if NodeBFunction::featureStateUlFcc = ACTIVATED.long-550..55025Read/WriteNYYNvsDataCarrierfccRotMarginLowCarrierfrequencyPlaneRBS DUWDenotes the frequency plane of the carrier. Carriers with the same frequency plane are allocated to cells with the same frequency. If frequencyPlane is not given, or set to 0, at create of the Carrier MO, the RBS system allocates the first free frequency plane from the bottom and sets frequencyPlane to the corresponding value (within the range 1..4).long0..40N/ARestrictedNYNNN/AUtran CellvsDataCarrierfrequencyPlaneNN/ACarriermaxDlPowerCapabilityRBS DUWThe maximum downlink power capability for the carrier.

Unit: 0.1 dBm Undefined value: -1long-1..500ReadNNYNCombined CellFAJ 121 3249vsDataCarriermaxDlPowerCapabilityCarrierminDlPowerCapabilityRBS DUWThe minimum downlink power capability for the carrier.

Unit: 0.1 dBm Undefined value: -301long-301..500ReadNNYNCombined CellFAJ 121 3249vsDataCarrierminDlPowerCapabilityCarriernumberOfRxBranchesRBS DUWParameter for configuration of number of RX (receiver) branches.

Precondition: Sector to which the carrier belongs is not initialized (Sector::proceduralStatus = INITIALIZATION_REQUIRED).Dependencies: It is only possible to set to 4 if there are 2 SectorAntenna MOs (Sector::numberOfSectorAntennas=2). It is only possible to set to 6 if there are 3 SectorAntenna MOs (Sector::numberOfSectorAntennas=3).Takes effect: At commit of initSector. long2..2 4..4 6..62RBS installationRead/WriteNYYNAt next cell setupUtran Cell4-Way Receiver Diversity [optional]FAJ 121 1351 R1vsDataCarriernumberOfRxBranchesNN/ACarriernumberOfTxBranchesRBS DUWParameter for configuration of number of TX (transmit) branches.

Precondition: Sector to which the carrier belongs is not initialized (Sector::proceduralStatus = INITIALIZATION_REQUIRED).Dependencies: At initSector, this attribute must be less than or equal to Sector::numberOfTxBranches, for all carriers within the sector.long1..21RBS installationRead/WriteNYYNUtran CellTX DiversityvsDataCarriernumberOfTxBranchesNN/ACarriernumOfDtxHsOlpcRBS DUWThe number of DTX for the detection of HS-DPCCH quality degradation.long1..3233Read/WriteNYYNSmartphone Retainability for Heterogeneous NetworksFAJ 121 2883vsDataCarriernumOfDtxHsOlpcCarrieroperationalStateRBS DUWDefines the operational state.

Possible values: DISABLED ENABLED

Specification: ITU-T rec. X.731OperStateDISABLED = 0 ENABLED = 1N/AReadNNNNN/AUtran CellNN/ACarrierperiodDtxHsOlpcRBS DUWThe number of previous HSDPA transmissions for the detection of HS-DPCCH quality degradation.long1..321010Read/WriteNYYNSmartphone Retainability for Heterogeneous NetworksFAJ 121 2883vsDataCarrierperiodDtxHsOlpcCarrierreservedByRBS DUWContains a list of MO instances that reserve this MO instance.ManagedObjectN/AReadNYYYN/AUtran CellNN/ACarriersirTargetStepHsOlpcRBS DUWThe SIR target increase step for new SIR target calculation triggered by the HS-DPCCH quality degradation.

Unit: 0.1 dBlong0..20030Read/WriteNYYNSmartphone Retainability for Heterogeneous NetworksFAJ 121 2883vsDataCarriersirTargetStepHsOlpcCarriertpaDeviceRefRBS DUWReference to the TPA device(s) of the carrier. The attribute value is updated at commit of initSector, or at commit of create Carrier (for initiated sector).TpaDeviceN/AReadNYYYN/AUtran CellvsDataCarriertpaDeviceRefNN/ACarriertrDeviceRefRBS DUWReference to the TR device(s) of the carrier. The attribute value is updated at commit of initSector, or at commit of create Carrier (for initiated sector).TrDeviceN/AReadNYYYN/AUtran CellvsDataCarriertrDeviceRefNN/ACarrierulBandwidthRBS DUWDenotes the carrier bandwidth in uplink.

Example: 50 = 5.0 MHz

Unit: 0.1 MHzPrecondition: Cell must not be setup by the RNC. If corresponding sector is initialized the TR devices used by the carrier must be capable of setting UL bandwidth.Dependencies: Can only be set to another value than default in case a valid license key for the feature is installed, that is if NodeBFunction::licenseStateConfigurableCarrierBandwidth = ENABLED. If the value is other than default when the license state changes from ENABLED to DISABLED, a corresponding Carrier_ConfigurableCarrierBandwidthLicenseNotValid alarm is generated.Takes effect: At next cell setup.long38..5042..5050RND894/1543-HRB 105 102/1Read/WriteNYYNAt next cell setupUtran CellConfigurable Carrier Bandwidth [optional]FAJ 121 1357 R1vsDataCarrierulBandwidthNN/ACarrierulFilterProfileRBS DUWDenotes the filter profile that will be used for the carrier bandwidth in uplink.

Possible values: STANDARD ACA800_1

Precondition: Cell must not be setup by the RNC. If corresponding sector is initialized the TR devices used by the carrier must be capable of setting UL filter profile.Takes effect: At next cell setup.Carrier_FilterProfileSTANDARD = 0 ACA800_1 = 1STANDARD(0)RND894/1543-HRB 105 102/1Read/WriteNYYNAt next cell setupUtran CellConfigurable Carrier Bandwidth [optional]FAJ 121 1357 R1vsDataCarrierulFilterProfileNN/ACchFrameSynchCchFrameSynchIdRNCNaming attribute. Contains the value part of the RDN.Set by the RNC to 1.stringN/ARestrictedYYNNN/ARNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataCchFrameSynchidNN/ACchFrameSynchdoStepRNCDownlink offset step size.

Unit: mslong0..1011Default84/1553-HSD 101 02/7Read/WriteNYYNChannel disabledRNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataCchFrameSynchdoStepNAdvancedCchFrameSynchdtoRNCDownlink Transport delay Offset. Part of the Downlink Offset (DO).Represents the maximum transport delay between the RNC and the RBS, including transport network associated delays in each node. Used as a compensation to secure that a traffic frame will have a guaranteed time margin at reception in the RBS (before the ToAWE point).The DTO shall take delay variations into account, assuming a very low probability that the real transport delay exceed the DTO. Note that the same value shall consider the possible intra-RNS as well as inter-RNS transport connections.If this value is set too low, frames may be lost or discarded (due to too-late arrival). As a secondary result, the RBS may issue Timing Adjustment control frames toward the RNC (due to out-of-window detection).

Unit: mslong1..2001010Default84/1553-HSD 101 02/7Read/WriteNYYNChannel disabledRNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataCchFrameSynchdtoNAdvancedCchFrameSynchtoAERNCTime of arrival, early point, in the downlink.

Dependencies: Should be set to the same value as toaeCch in the RBS. The value is used to determine the stepping of the counter pmNoCchDiscardedDataFramesE.Unit: mslong0..1279195195Default84/1553-HSD 101 02/7Read/WriteNYYNChannel disabledRNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataCchFrameSynchtoAENAdvancedCchFrameSynchtoAWERNCTime of arrival window end point.

Unit: mslong0..255922Default84/1553-HSD 101 02/7Read/WriteNYYNChannel disabledRNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataCchFrameSynchtoAWENAdvancedCchFrameSynchtoAWSRNCTime of arrival window starting point.

Unit: mslong0..12793030Default84/1553-HSD 101 02/7Read/WriteNYYNChannel disabledRNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataCchFrameSynchtoAWSNAdvancedCellResourcescellResourcesIdRBS 6401The value of component RDN.stringRestrictedYYNNChannelSwitchingbandwidthMarginRNCThroughput threshold for triggering an upswitch of a downlink radio bearer on DCH to a higher DCH rate. Expressed relative to the maximum allowed rate for the currently allocated radio bearer.When the downlink throughput has been above this threshold for the length of time defined by upswitchTimer, an upswitch from DCH to a higher DCH rate is normally requested. However, the upswitch is not requested after a throughput-based downswitch unless the downlink throughput has fallen below the value of dlThroughputAllowUpswitchThreshold at least once since the downswitch. The upswitch is also not requested if it would cause the transmitted power to become too high, as defined using upswitchPwrMargin.

Special values:0 is used to turn off the use of this threshold, meaning that an upswitch will never take place, regardless of user throughput.

Takes effect: New connectionsDependencies: If dlThroughputAllowUpswitchThreshold = 0, no extra restriction applies to upswitches in the downlink after a throughput-based downswitch.Unit: %long0..1009090Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingbandwidthMarginNIntermediateChannelSwitchingbandwidthMarginUlRNCThroughput threshold for triggering an upswitch of an uplink radio bearer on DCH to a higher DCH rate. Expressed relative to the maximum allowed rate for the currently allocated radio bearer.When the uplink throughput has been above this threshold for the length of time defined by upswitchTimerUl, an upswitch from DCH to a higher DCH rate is normally requested. However, the upswitch is not requested after a throughput-based downswitch unless the uplink throughput has fallen below the value of ulThroughputAllowUpswitchThreshold at least once since the downswitch. The upswitch is also not requested if it would cause the transmitted power to become too high, as defined using upswitchPwrMargin.

Special values:0 is used to turn off the use of this threshold, meaning that an upswitch will never take place, regardless of user throughput.

Takes effect: New connectionsDependencies: If ulThroughputAllowUpswitchThreshold = 0, no extra restriction applies to upswitches in the uplink after a throughput-based downswitch.Unit: %long0..100090Recommended82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Uplink [basic]FAJ 121 978 R2vsDataChannelSwitchingbandwidthMarginUlNIntermediateChannelSwitchingChannelSwitchingIdRNCNaming attribute. Contains the value part of the RDN.Set by the RNC to 1.stringN/ARestrictedYYNNN/ARNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingidNN/AChannelSwitchingcoverageTimerRNCTime after which a downlink radio bearer on DCH is switched down to a lower DCH rate due to high transmitted code power.When the difference between the downlink transmitted code power and the maximum allowed code power has been less than the value of downswitchPwrMargin for this length of time, the RNC requests a downswitch from a higher to a lower DCH rate.

Special values:0 turns off the use of this timer, meaning that the RNC requests a downswitch as soon as the difference between the downlink transmitted code power and the maximum allowed code power becomes less than the value of downswitchPwrMargin.

Takes effect: New connectionsUnit: 0.1 slong0..1001010Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingcoverageTimerNAdvancedChannelSwitchingdlDownswitchBandwidthMarginRNCThroughput threshold for triggering a downswitch of a downlink radio bearer on DCH to a lower DCH rate. Expressed relative to the maximum allowed rate for the radio bearer to which the UE will be downswitched (the next lower rate).When the downlink throughput has been below this threshold for the length of time defined by dlThroughputDownswitchTimer, a downswitch from DCH to a lower DCH rate is requested.

Special values:0 is used to turn off the use of this threshold, meaning that a downswitch will never take place, regardless of user throughput.

Takes effect: New connectionsUnit: %long0..100080Recommended82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingdlDownswitchBandwidthMarginNIntermediateChannelSwitchingdlRlcBufUpswitchRNCDownlink RLC buffer threshold for triggering an upswitch from CELL_FACH or URA_PCH to CELL_DCH.If the RLC buffer load in the RNC exceeds this threshold for a UE in CELL_FACH, an upswitch request is issued.If a UE is paged due to a downlink data transmission while the UE is in URA_PCH, and the RLC buffer load in the RNC exceeds this threshold, an upswitch request is issued upon reception of the Cell Update message from the UE. The upswitch from URA_PCH is only applicable if RncFeature=DirectUpswitchUra is activated and uraToDchEnabledDl is set to TRUE.

Takes effect: New connectionsUnit: BResolution: 100long0..2000500500Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingdlRlcBufUpswitchNIntermediateChannelSwitchingdlRlcBufUpswitchHsFachRNCDownlink RLC buffer threshold for triggering an upswitch from CELL_FACH or URA_PCH to CELL_DCH, for UEs that have support for HS-FACH when they are in a cell where parameter hsFachSupport equals ON. If the RLC buffer load in the RNC exceeds this threshold for a UE in CELL_FACH using HS-FACH, an upswitch request is issued. If a UE is paged due to to a downlink data transmission while the UE is in URA_PCH, and the RLC buffer load in the RNC exceeds this threshold, an upswitch request is issued upon reception of the Cell Update message from the UE. The upswitch from URA_PCH is only applicable if RncFeature=DirectUpswitchUra is activated and uraToDchEnabledDl is set to TRUE.

Takes effect: New connectionsUnit: BResolution: 100long0..10000500500DefaultChannel SwitchingRead/WriteNYYNNew connectionsHigh speed downlink for FACHFAJ 121 1537 R1vsDataChannelSwitchingdlRlcBufUpswitchHsFachChannelSwitchingdlRlcBufUpswitchMrabRNCDownlink RLC buffer threshold for upswitching from the multi-RAB SP0 (Speech + PS 0/0) to a multi-RAB at the preferred rate (Speech + ulPrefRate/dlPrefRate or Speech + ulPrefRate/HS).When the RLC buffer load in the downlink exceeds this threshold, an upswitch request is issued.If the flexible initial rate selection feature is not active for PS Interactive, 64 kbps is used as the preferred rate.This attribute is only used if the SP0 feature is active.

Special values:0 is used to indicate that this threshold is not in use, meaning that no upswitches from SP0 will occur, irrespective of the RLC buffer load.

Takes effect: New connectionsUnit: 100 Blong0..2000Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingdlRlcBufUpswitchMrabNIntermediateChannelSwitchingdlThroughputAllowUpswitchThresholdRNCThroughput threshold for allowing an upswitch in the downlink after a throughput-based downswitch. Expressed relative to the maximum allowed rate for the currently allocated radio bearer (the rate to which the UE has been downswitched).After a throughput-based downswitch, upswitches are prohibited until the downlink throughput has fallen below this threshold at least once.

Special values:0 is used to turn off the use of this threshold, meaning that no extra restriction applies to upswitches in the downlink after a throughput-based downswitch.

Takes effect: New connectionsUnit: %long0..10000Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCThroughput Based Downswitch [basic]FAJ 121 979 R1vsDataChannelSwitchingdlThroughputAllowUpswitchThresholdNIntermediateChannelSwitchingdlThroughputDownswitchTimerRNCTime after which a downlink radio bearer on DCH with low throughput is switched down to a lower DCH rate.When the downlink throughput has been below the percentage defined by dlDownswitchBandwidthMargin for this length of time, the RNC requests a downswitch from a higher to a lower downlink DCH rate.It is recommended to set dlThroughputDownswitchTimer > downswitchTimer. When the throughput is very low on both the uplink and the downlink, the user will then be switched down to FACH rather than to DCH with a lower downlink rate. Note that if the feature InactivityTimerCellConfig is activated, the value of UtranCell::downswitchTimer may override the value of ChannelSwitching::downswitchTimer in some cells.

Takes effect: New connectionsUnit: 0.1 slong0..20002020Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCThroughput Based Downswitch [basic]FAJ 121 979 R1vsDataChannelSwitchingdlThroughputDownswitchTimerNAdvancedChannelSwitchingdownswitchPwrMarginRNCMargin on transmitted code power in the downlink, for triggering a downswitch to a lower DCH rate when the transmitted power is too high. Expressed relative to the maximum allowed code power.When the difference between the downlink transmitted code power and the maximum allowed code power has been less than the value of this margin for the length of time set in coverageTimer, a downswitch from DCH to a lower DCH rate is requested.

Value mapping:0 : 0.0 dB1 : 0.5 dB2 : 1.0 dB...20 : 10.0 dB

Takes effect: New connectionsUnit: 0.5 dBlong0..2022Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingdownswitchPwrMarginNIntermediateChannelSwitchingdownswitchThresholdRNCThroughput threshold for downswitching from dedicated channel to FACH/RACH.Once the throughput on both the uplink and downlink has fallen below this threshold, a downswitch to FACH/RACH is normaly requested after the length of time set in downswitchTimer. However, the downswitch is not requested if the throughput has subsequently increased above the value of downswitchTimerThreshold.

Takes effect: New connectionsDependencies: downswitchThreshold downswitchTimer, ulThroughputDownswitchTimer > downswitchTimer and ulThroughputDownswitchTimer > hsdschInactivityTimer. This ensures that, when the throughput is very low on both the uplink and the downlink, the user will be switched down to FACH rather than to DCH with a lower rate.

0 disables traffic-volume-initiated channel-switching from dedicated channel to FACH/RACH.If RncFeature=InactivityTimerCellConfig is activated, the value of UtranCell::downswitchTimer may override this value in some cells.

Takes effect: New connectionsUnit: 0.1 sResolution: 5long0..10001010Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingdownswitchTimerNAdvancedChannelSwitchingdownswitchTimerSpRNCTime after which a connection is switched down to Multi-RAB SP0 ("Speech 12.2 kbps + Packet 0/0 kbps") if no PS data has been transmitted, either from a "Speech 12.2 kbps + Packet 64/64 kbps" multi-RAB, or if the feature InactivityTimerCellConfig is activated, from a multi-RAB consisting of Speech with a single PS Interactive on HSDPA.If the feature InactivityTimerCellConfig is deactivated, the value of ChannelSwitching::hsdschInactivityTimer is used instead to specify the time after which a multi-RAB consisting of Speech with a single PS Interactive on HSDPA is switched down to Multi-RAB SP0, if no PS data has been transmitted.If Multi-RAB SP0 (feature RabCombination009) is deactivated, the packet part of the connection is released instead.The default value setting for this attribute is based on packet performance criteria. However, the actual value setting may need to deviate from the default value in order to limit the number of simultaneous multi-RAB connections in the RBS, typically to deal with limitations in the transport network.

Special values:0 turns off the use of this timer, meaning that the packet part of the connection will not be downswitched or released due to PS inactivity.

Value mapping:1 : 0.5 s...60 : 30 s...180 : 90 s

Takes effect: New connectionsUnit: 0.5 slong0..18022Default82/1553-HSD 101 02/6Read/WriteNYYNNew connectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingdownswitchTimerSpNAdvancedChannelSwitchingdownswitchTimerThresholdRNCThroughput threshold used to achieve hysteresis for downswitching from dedicated channel to FACH/RACH.Once the throughput on both the uplink and downlink has fallen below the value of downswitchThreshold, a downswitch to FACH/RACH is normally requested after the length of time set in downswitchTimer. However, the downswitch is not requested if the throughput has subsequently increased above this threshold value.

Takes effect: New connectionsDependencies: downswitchTimerThreshold >= downswitchThresholdUnit: kbpslong0..6400Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingdownswitchTimerThresholdNAdvancedChannelSwitchingdownswitchTimerUpRNCTime after which the packet part of a "UDI + 8/8" (CS Data 64 kbps + Packet 8kbps) multi-RAB is released, if no PS data has been transmitted.The default value setting is based on packet performance criteria. However, the actual value setting may need to deviate from the default value in order to limit the number of simultaneous multi-RAB connections in the RBS, typically to deal with limitations in the transport network.

Special values:0 turns off the use of this timer, meaning that the packet part of the connection will not be released due to PS inactivity.

Value mapping:1 : 0.5 s...60 : 30 s...180 : 90 s

Takes effect: New connectionsUnit: 0.5 slong0..1806060Default82/1553-HSD 101 02/6Read/WriteNYYNNew connectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingdownswitchTimerUpNAdvancedChannelSwitchingfachToHsDisabledRNCControls whether direct transitions from FACH to HS-DSCH are allowed for HS category 12 UEs.When set to TRUE, cat 12 UEs are forced to upswitch to HS via DCH. Direct transitions to HS are disabled by removing all HS states from the DCCS when the cat 12 UE is in state CELL_FACH. This will allow the cat 12 UE sufficient time to perform neighbour cell measurements on CELL_DCH before the reconfiguration to HS is started.

Takes effect: New connectionsBooleanValsFALSE = 0 TRUE = 1FALSE(0)FALSE(0)Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingfachToHsDisabledNN/AChannelSwitchinghsdschInactivityTimerRNCTime after which a connection with low throughput is switched down, either from HS-DSCH to CELL_FACH, or if the feature InactivityTimerCellConfig is deactivated, from a multi-RAB consisting of Speech and a single PS Interactive on HSDPA to Multi-RAB SP0.Once the throughput on both the uplink and downlink has fallen below the value of downswitchThreshold, the RNC normally requests a downswitch from HS-DSCH to FACH/RACH after this length of time. If CELL_FACH state is not available, the connection is switched down to IDLE state. However, the downswitch is not requested if the throughput has subsequently increased above the value of downswitchTimerThreshold.If the feature InactivityTimerCellConfig is deactivated, a multi-RAB consisting of Speech and a single PS Interactive on HSDPA is also switched down to Multi-RAB SP0 ("Speech 12.2 kbps + Packet 0/0 kbps") after this length of time, if no PS data has been transmitted. If Multi-RAB SP0 (feature RabCombination009) is deactivated, the packet part of the connection is released instead. However, if the feature InactivityTimerCellConfig is activated, the value of ChannelSwitching::downswitchTimerSp is used in this scenario instead.For radio connections with CPC, the value of hsdschInactivityTimerCpc is used instead.If the feature InactivityTimerCellConfig is activated, the value of UtranCell::hsdschInactivityTimer may override this value in some cells.

Special values:The value 7200 is reserved for internal use only.

Takes effect: New connectionsUnit: slong1..255 7200..720022Default82/1553-HSD 101 02/6Read/WriteNYYNOngoing connectionsRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchinghsdschInactivityTimerNAdvancedChannelSwitchinghsdschInactivityTimerCpcRNCTime after which a CPC-activated connection with low throughput is switched down from CELL_DCH to CELL_FACH.This value is used instead of the value of hsdschInactivityTimer for radio connections with CPC.If the feature InactivityTimerCellConfig is activated, the value of UtranCell::hsdschInactivityTimerCpc may override this value in some cells.

Takes effect: New connectionUnit: 0.1 sResolution: 5long0..10002020Default333/1553-HSD 101 02/10Read/WriteNYYNNew connectionRNCCPC introduction [optional]CPC DRX [optional]FAJ 121 1389 R1FAJ 121 1476 R1vsDataChannelSwitchinghsdschInactivityTimerCpcNAdvancedChannelSwitchinginactivityTimeMultiPsInteractiveRNCTime after which an inactive RB is released from a RAB combination containing more than one PS Interactive RAB.When no data has been transmitted (both the downlink and uplink throughput have been 0 kbps) for an RB in the RAB combination for this length of time, the RNC requests a release of that RB from the CN.If the feature InactivityTimerCellConfig is activated, the value of UtranCell::inactivityTimeMultiPsInteractive may override this value in some cells.

Takes effect: New connectionsUnit: 0.1 slong1..100005050Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchinginactivityTimeMultiPsInteractiveNAdvancedChannelSwitchinginactivityTimerRNCTime after which an inactive connection in CELL_FACH state is switched down to URA_PCH state. When no data has been transmitted for this length of time, the RNC requests a downswitch from CELL_FACH to URA_PCH. If URA_PCH state is not available, the UE is switched down to IDLE state. Both the downlink and uplink throughput must have been 0 kbps for the connection to be considered inactive.

For UEs that support Enhanced UE DRX, if Hsdsch::enhUeDrxSupport == TRUE in the cell, the value of inactivityTimerEnhUeDrx is used instead of this value.If RncFeature=InactivityTimerCellConfig is activated, the value of UtranCell::inactivityTimer may override this value in some cells.

Takes effect: New connectionsUnit: slong1..14401208Recommended82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchinginactivityTimerNAdvancedChannelSwitchinginactivityTimerEnhUeDrxRNCInactivity timer for Enhanced UE DRX. Time after which an inactive connection in CELL_FACH state is switched down to URA_PCH state, for UEs that support Enhanced UE DRX. When no data has been transmitted for this length of time, the RNC requests a downswitch from CELL_FACH to URA_PCH. If URA_PCH state is not available, the UE is switched down to IDLE state. Both the downlink and uplink throughput must have been 0 kbps for the connection to be considered inactive.

If Hsdsch::enhUeDrxSupport == OFF for the cell in which the UE is connected, Enhanced UE DRX is not available in the cell, and the value of inactivityTimer is used instead of this value.If RncFeature=InactivityTimerCellConfig is activated, the value of UtranCell::inactivityTimerEnhUeDrx may override this value in some cells.

Unit: slong1..14400120120Read/WriteNYYNNew connectionsBattery efficiency for high speed FACHFAJ 121 1592 R1vsDataChannelSwitchinginactivityTimerEnhUeDrxChannelSwitchinginactivityTimerPchRNCInactivity timer for URA_PCH. Time after which a connection in URA_PCH state is switched down to IDLE state, if no upswitches have been requested during that time.

If RncFeature=InactivityTimerCellConfig is activated, the value of UtranCell::inactivityTimerPch may override this value in some cells.

Takes effect: New connectionsUnit: minlong0..2403029Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchinginactivityTimerPchNAdvancedChannelSwitchingulDownswitchBandwidthMarginRNCThroughput threshold for triggering a downswitch of an uplink radio bearer on DCH to a lower DCH rate. Expressed relative to the maximum allowed rate for the radio bearer to which the UE will be downswitched (the next lower rate). When the uplink throughput has been below this threshold for the length of time defined by ulThroughputDownswitchTimer, a downswitch from DCH to a lower DCH rate is requested.

If set to 0, a downswitch will never take place, regardless of user throughput.

Takes effect: New connectionsUnit: %long0..100080Recommended82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCThroughput Based Downswitch [basic]FAJ 121 979 R1vsDataChannelSwitchingulDownswitchBandwidthMarginNIntermediateChannelSwitchingulRlcBufUpswitchRNCUplink RLC buffer threshold for triggering an upswitch from CELL_FACH or URA_PCH to CELL_DCH.If the RLC buffer load of a UE exceeds this threshold while the UE is in CELL_FACH, causing the UE to send a measurement report, an upswitch request is issued by the RNC upon reception of the measurement report. If the RLC buffer load of a UE exceeds this threshold while the UE is in URA_PCH, causing the UE to send a Cell Update message with cause "Uplink Data Transmission" and the Traffic Volume Indicator IE set, an upswitch request is issued by the RNC upon reception of the Cell Update message. The upswitch from URA_PCH is only applicable if RncFeature=DirectUpswitchUra is activated.

Takes effect: New connectionsUnit: Blong8..8 16..16 32..32 64..64 128..128 256..256 512..512 1024..1024 2048..2048 3072..3072 4096..4096 6144..6144 8192..8192256256Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingulRlcBufUpswitchNIntermediateChannelSwitchingulRlcBufUpswitchEulFachRNCUplink RLC buffer threshold for upswitching from CELL_FACH to CELL_DCH for EUL-FACH users. When the RLC buffer load in the uplink exceeds this threshold, a measurement report is sent from the UE. An upswitch request is issued upon reception of the measurement report.

Also, uplink RLC buffer threshold for upswitching from URA_PCH to dedicated channel when EUL FACH is in use. If the RLC buffer load in the uplink exceeds this threshold, the UE sets the Traffic Volume Indicator in the Cell Update message.

Takes effect: ImmediatelyUnit: Blong8..8 16..16 32..32 64..64 128..128 256..256 512..512 1024..1024 2048..2048 3072..3072 4096..4096 6144..6144 8192..8192 12288..12288 16384..16384 24576..24576 32768..32768 49152..49152 65536..65536 98304..98304 131072..131072512Read/WriteNYYNFaster Establishment, Direct Upswitch from URAEUL on Cell FACHFAJ 121 1496FAJ 121 1652vsDataChannelSwitchingulRlcBufUpswitchEulFachChannelSwitchingulRlcBufUpswitchMrabRNCUplink RLC buffer threshold for upswitching from the multi-RAB SP0 (Speech + PS 0/0) to a multi-RAB at the preferred rate (Speech + ulPrefRate/dlPrefRate or Speech + ulPrefRate/HS).When the RLC buffer load in the uplink exceeds this threshold, a measurement report is sent from the UE. An upswitch request is issued upon reception of the measurement report.If the flexible initial rate selection feature is not active for PS Interactive, 64 kbps is used as the preferred rate.This attribute is only used if the SP0 feature is active.

Takes effect: New connectionsUnit: Blong8..8 16..16 32..32 64..64 128..128 256..256 512..512 1024..1024 2048..2048 3072..3072 4096..4096 6144..6144 8192..819288Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingulRlcBufUpswitchMrabNIntermediateChannelSwitchingulThroughputAllowUpswitchThresholdRNCThroughput threshold for allowing an upswitch in the uplink after a throughput-based downswitch. Expressed relative to the maximum allowed rate for the currently allocated radio bearer (the rate to which the UE has been downswitched).After a throughput-based downswitch, upswitches are prohibited until the uplink throughput has fallen below this threshold at least once.

Special values:0 is used to turn off the use of this threshold, meaning that no extra restriction applies to upswitches in the uplink after a throughput-based downswitch.

Takes effect: New connectionsUnit: %long0..10000Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCThroughput Based Downswitch [basic]FAJ 121 979 R1vsDataChannelSwitchingulThroughputAllowUpswitchThresholdNIntermediateChannelSwitchingulThroughputDownswitchTimerRNCTime after which an uplink radio bearer on DCH with low throughput is switched down to a lower DCH rate.When the uplink throughput has been below the percentage defined by ulDownswitchBandwidthMargin for this length of time, the RNC requests a downswitch from a higher to a lower uplink DCH rate.It is recommended to set ulThroughputDownswitchTimer > downswitchTimer and ulThroughputDownswitchTimer > hsdschInactivityTimer. When the throughput is very low on both the uplink and the downlink, the user will then be switched down to FACH rather than to DCH with a lower uplink rate. Note that if the feature InactivityTimerCellConfig is activated, the value of UtranCell::downswitchTimer may override the value of ChannelSwitching::downswitchTimer in some cells, and the value of UtranCell::hsdschInactivityTimer may likewise override the value of ChannelSwitching::hsdschInactivityTimer in some cells.

Takes effect: New connectionsUnit: 0.1 slong0..2002020Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCThroughput Based Downswitch [basic]FAJ 121 979 R1vsDataChannelSwitchingulThroughputDownswitchTimerNAdvancedChannelSwitchingupswitchPwrMarginRNCMargin on transmitted code power in the downlink, used to prohibit upswitches when the transmitted power is too high. Expressed relative to the maximum allowed code power.Before an upswitch from DCH to a higher DCH rate is requested, an estimate of the power increase due to the upswitch is made. The upswitch is prohibited if the difference between the the maximum allowed code power, and the sum of the current transmitted code power and the estimated increase in power, is less than the sum of this margin and the value of downswitchPwrMargin.

Value mapping:0 : 0.0 dB1 : 0.5 dB2 : 1.0 dB...20 : 10.0 dB

Takes effect: New connectionsUnit: 0.5 dBlong0..2066Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingupswitchPwrMarginNIntermediateChannelSwitchingupswitchTimerRNCTime after which a downlink radio bearer on DCH with high throughput is upswitched to a higher DCH rate.When the downlink throughput has been above the percentage defined by bandwidthMargin for this length of time, an upswitch from DCH to a higher DCH rate is normally requested. However, the upswitch is not requested after a throughput-based downswitch unless the downlink throughput has fallen below the value of dlThroughputAllowUpswitchThreshold at least once since the downswitch. The upswitch is also not requested if it would cause the transmitted power to become too high, as defined using upswitchPwrMargin.

Takes effect: New connectionsDependencies: If bandwidthMargin = 0, an upswitch is never requested, regardless of throughput.If dlThroughputAllowUpswitchThreshold = 0, no extra restriction applies to upswitches in the downlink after a throughput-based downswitch.Unit: 0.1 slong0..10055Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Downlink [basic]FAJ 121 117 R5vsDataChannelSwitchingupswitchTimerNAdvancedChannelSwitchingupswitchTimerUlRNCTime after which an uplink radio bearer on DCH with high throughput is upswitched to a higher DCH rate.When the uplink throughput has been above the percentage defined by bandwidthMarginUl for this length of time, an upswitch from DCH to a higher DCH rate is normally requested. However, the upswitch is not requested after a throughput-based downswitch unless the uplink throughput has fallen below the value of ulThroughputAllowUpswitchThreshold at least once since the downswitch. The upswitch is also not requested if it would cause the transmitted power to become too high, as defined using upswitchPwrMargin.

Takes effect: New connectionsDependencies: If bandwidthMarginUl = 0, an upswitch is never requested, regardless of throughput.If ulThroughputAllowUpswitchThreshold = 0, no extra restriction applies to upswitches in the uplink after a throughput-based downswitch.Unit: 0.1 slong0..10055Default82/1553-HSD 101 02/6Read/WriteNYYNNew ConnectionRNCChannel Switching, Uplink [basic]FAJ 121 978 R2vsDataChannelSwitchingupswitchTimerUlNAdvancedChannelSwitchinguraToDchEnabledDlRNCDetermines if an upswitch from URA_PCH to CELL_DCH is allowed for a downlink data transmission in URA_PCH. If uraToDchEnabledDl equals TRUE, then direct upswitch to CELL_DCH is allowed, else upswitch to FACH is made.Only used if RncFeature=DirectUpswitchUra is activated.

Takes effect: Cell unlocked Feature: DirectUpswitchUraBooleanValsFALSE = 0 TRUE = 1FALSE(0)FALSE(0)DefaultChannel Switching - 82/1553-HSD10102Read/WriteNYYNCell unlockedRNCFaster Establishment, Direct Upswitch from URAFAJ 121 1496vsDataChannelSwitchinguraToDchEnabledDlNCnOperatorCnOperatorIdRNCNaming attribute. Contains the value part of the RDN.stringN/ARestrictedYYNNN/ARNCShared RAN (MOCN) [optional]FAJ 121 974 R2vsDataCnOperatoridNN/ACnOperatorcnOperatorIndexRNCIndex for this core network operator. The index is used for counter and parameter arrays in other MO classes. Must be unique within the RNC. The value 0 means that this CnOperator is not currently indexed.

Takes effect: Ongoing connectionslong0..40Read/WriteNYYNRelease with redirect to LTEFAJ 121 2174vsDataCnOperatorcnOperatorIndexCnOperatordchResourceShareRNCConfigured share of DCH resources for this CN operator. The value of this parameter is divided by the sum of all configured dchResourceShare values (the sum for all CN Operators), resulting in a share ratio for this CN operator. This share ratio is then used in an algorithm that performs congestion-resolve actions.Changes in the value will be taken into account immediately and used in the next periodic overload evaluation, for admission for new connections and reconfigurations.

Takes effect: ImmediatelyFeature: AdmCongCtrlSharedNetworkslong0..10000Read/WriteNYYNAdmission/Congestion Control in Shared NetworksFAJ 121 2525vsDataCnOperatordchResourceShareCnOperatorequivalentPlmnIdentityGroupRefRNCList of groups of PLMN identities. Taken together, these groups identify the external CN operators that have roaming agreements with this sharing CN operator.

Sequence length must be in the range 0..32PlmnIdentityGroupRND108/1553-HSD 101 02/7Read/WriteNYYYRNCShared RAN (MOCN) [optional]FAJ 121 974 R2vsDataCnOperatorequivalentPlmnIdentityGroupRefNN/ACnOperatoriphoNetworkRefsEutranRNCDefines the E-UTRA networks to which a UE registered in this core network is allowed to perform a release with redirect to LTE.Used by the NRI MOCN feature to filter the E-UTRAN frequencies allowed for release with redirect to LTE.

Sequence length must be in the range 0..4Takes effect: Ongoing connectionsFeature: ReleaseRedirectLteEutraNetworkRead/WriteNYYYRelease with redirect to LTEFAJ 121 2174vsDataCnOperatoriphoNetworkRefsEutranCnOperatoriphoNetworkRefsGsmRNCDefines the external GSM networks to which a UE registered in this core network is allowed to perform an inter-PLMN handover.Used by the NRI MOCN feature to filter the ExternalGsmCells allowed for handover.See the class description of GsmRelation for more details.

Sequence length must be in the range 0..64ExternalGsmNetworkRND108/1553-HSD 101 02/7Read/WriteNYYYRNCShared RAN (MOCN) [optional]FAJ 121 974 R2vsDataCnOperatoriphoNetworkRefsGsmNN/ACnOperatoriphoNetworkRefsUtranRNCDefines the UTRAN networks to which a UE registered in this core network is allowed to perform an inter- or intra-PLMN handover.Used by the NRI MOCN feature to filter the ExternalUtranCells allowed for handover.See the class description of UtranRelation for more details.

Sequence length must be in the range 0..64UtranNetworkRND108/1553-HSD 101 02/7Read/WriteNYYYRNCShared RAN (MOCN) [optional]FAJ 121 974 R2vsDataCnOperatoriphoNetworkRefsUtranNN/ACnOperatorplmnIdentityRNCThe PLMN identity of this core network operator.When the NRI MOCN feature is active, this attribute, together with equivalentPlmnIdGroupRef, is used to identify to which CN Node a Ue should be connected, when the routing procedure is based on IMSI.When the Cell MOCN feature is active, this attribute is broadcast as the common PLMN-id in System Information for the cells owned by this CnOperator.The PLMN identity for this CnOperator (constructed from the values of the attributes mcc, mnc, and mncLength) must be unique within the RNC. No two CnOperators handled by the same RNC may have the same PLMN ID.

Takes effect: Ongoing connectionsPlmnIdentityN/A108/1553-HSD 101 02/7RestrictedNYYNN/ARNCShared RAN (MOCN) [optional]FAJ 121 974 R2vsDataCnOperatorplmnIdentityNN/ACnOperatorplmnIdentity.mccRNCMobile Country Code (MCC).long0..9991RND108/1553-HSD 101 02/7RestrictedNYYNN/ARNCShared RAN (MOCN) [optional]FAJ 121 974 R2vsDataCnOperatorplmnIdentity.mccNN/ACnOperatorplmnIdentity.mncRNCMobile Network Code (MNC).long0..9991RND108/1553-HSD 101 02/7RestrictedNYYNN/ARNCShared RAN (MOCN) [optional]FAJ 121 974 R2vsDataCnOperatorplmnIdentity.mncNN/ACnOperatorplmnIdentity.mncLengthRNCNumber of valid digits for the Mobile Network Code (MNC) configured in mnc.long2..32RND108/1553-HSD 101 02/7RestrictedNYYNN/ARNCShared RAN (MOCN) [optional]FAJ 121 974 R2vsDataCnOperatorplmnIdentity.mncLengthNN/ACnOperatorreservedByRNCList of references, updated automatically by the RNC, that point back toward the MO instances that have references to this MO instance.ManagedObjectN/A108/1553-HSD 101 02/7ReadNYYYN/ARNCShared RAN (MOCN) [optional]FAJ 121 974 R2NN/ACnOperatoruserLabelRNCProvides the possibility to put a user-friendly label on the MO instance. The value is not used by the RNC.stringN/ARead/WriteNYYNImmediatelyRNCShared RAN (MOCN) [optional]FAJ 121 974 R2vsDataCnOperatoruserLabelNN/ACommContextsnoOfCommContextsRBS DUWTotal number of Communication Contexts allocated in the RBS.long0..999N/AReadNNNNN/ARBSNN/ACommonChannelResourcescommonChannelResourcesIdRBS 6401The value of component RDN.stringRestrictedYYNNCoverageRelationcoverageIndicatorRNCDefines whether the coverage area of the source cell and the target cell are indicated to overlap (has approximately the same coverage area), or whether the coverage area of the target cell is indicated to cover the source cell or it is contained in the source cell.SupportedCoverageCOVERS = 0 OVERLAP = 1 CONTAINED_IN = 2OVERLAP(1)RND4/1553-HSD 101 02/10Read/WriteNYYNNew connectionCoverage RelationHSDPA Mobility [optional]FAJ 121 801 R1vsDataCoverageRelationcoverageIndicatorYBasicCoverageRelationCoverageRelationIdRNCNaming attribute. Contains the value part of the RDN.stringN/ARestrictedYYNNN/ACoverage RelationConnection Setup and Release [basic]FAJ 121 120 R2vsDataCoverageRelationidNN/ACoverageRelationhsIflsDownswitchRNCSpecifies whether the coverage-related cell configured in utranCellRef shall be used as a candidate for HS interfrequency load-sharing at downswitch.Only used if RncFeature=IflsRedirectDownswitch is activated.

Takes effect: ImmediatelyFeature: IflsRedirectDownswitchOnOffValsOFF = 0 ON = 1OFF(0)Read/WriteNYYNInter Frequency Load Sharing at Down-switchFAJ 121 3426vsDataCoverageRelationhsIflsDownswitchCoverageRelationhsPathlossThresholdRNCPathloss threshold used for both HS IFLS and DCH IFLS. A pathloss check is performed before triggering a blind IFHO to a candidate cell when performing loadsharing from DCH state. If the pathloss is higher than this threshold, the coverage related cell is not a candidate for loadsharing. 0 means that this value is not used; instead the value of UtranCell::pathlossThreshold is used.

Unit: dBlong0..1700170Default4/1553-HSD 101 02/10Read/WriteNYYNNew connectionCoverage RelationHSDPA Mobility [optional]FAJ 121 801 R1vsDataCoverageRelationhsPathlossThresholdNIntermediateCoverageRelationrelationCapabilityRNCSpecifies which features use this relation.RelationCapabilityN/A3/1553-HSD 101 02/10Read/WriteNYYNN/ACoverage RelationHSDPA Inter-frequency loadsharing [optional]Non-HSPA Inter-frequency loadsharing [optional]FAJ 121 1467 R1FAJ 121 1468 R1vsDataCoverageRelationrelationCapabilityNN/ACoverageRelationrelationCapability.dchLoadSharingRNCEnables DCH Inter-frequency Load Sharing (IFLS) between the source and target cells defined by a relation.

Only used if RncFeature=DchLoadSharing is activated.

Feature: DchLoadSharingOnOffValsOFF = 0 ON = 1OFF(0)RND3/1553-HSD 101 02/10Read/WriteNYYNImmediatelyCoverage RelationNon-HSPA Inter-frequency loadsharing [optional]FAJ 121 1468 R1vsDataCoverageRelationrelationCapability.dchLoadSharingNAdvancedCoverageRelationrelationCapability.hsCellSelectionRNCEnables HS cell selection between the source and target cells defined by a relation.

Takes effect: ImmediatelyOnOffValsOFF = 0 ON = 1OFF(0)RND3/1553-HSD 101 02/10Read/WriteNYYNImmediatelyCoverage RelationHSDPA Mobility [optional]FAJ 121 801 R1vsDataCoverageRelationrelationCapability.hsCellSelectionNAdvancedCoverageRelationrelationCapability.hsLoadSharingRNCEnables HS Inter-frequency Load Sharing (IFLS) between the source and target cells defined by a relation. This can also result in selecting a cell based only on capability.

Only used if RncFeature=HspaLoadSharing is activated.

Feature: HspaLoadSharingOnOffValsOFF = 0 ON = 1OFF(0)RND3/1553-HSD 101 02/10Read/WriteNYYNImmediatelyCoverage RelationHSDPA Inter-frequency loadsharing [optional]FAJ 121 1467 R1vsDataCoverageRelationrelationCapability.hsLoadSharingNAdvancedCoverageRelationutranCellRefRNCReference to the target cell in the relation.UtranCellRNDRestrictedYYNNN/ACoverage RelationHSDPA Mobility [optional]FAJ 121 801 R1vsDataCoverageRelationutranCellRefYBasicDchFrameSynchDchFrameSynchIdRNCNaming attribute. Contains the value part of the RDN.stringN/ARestrictedYYNNN/ARNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataDchFrameSynchidNN/ADchFrameSynchdoStepRNCDownlink offset step size.

Unit: mslong0..101See CPICPI84/1553-HSD 101 02/7Read/WriteNYYNNew ConnectionRNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataDchFrameSynchdoStepNAdvancedDchFrameSynchdtoRNCDownlink transport delay offset.

Unit: mslong1..20010See CPICPI84/1553-HSD 101 02/7Read/WriteNYYNNew ConnectionRNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataDchFrameSynchdtoNAdvancedDchFrameSynchreservedByRNCList of references, updated automatically by the RNC, that point back toward the MO instances that have references to this MO instance.ManagedObjectN/AReadNYYYN/ARNCConnection Setup and Release [basic]FAJ 121 120 R2NN/ADchFrameSynchtoAERNCTime of arrival, early point, in the downlink.Should be set to the same value as toaeDch in the RBS.The value is used to determine the stepping of the counter pmNoDlDchDiscardedDataFramesE.

Unit: mslong0..1279170170Default84/1553-HSD 101 02/7Read/WriteNYYNNew ConnectionRNCConnection Setup and Release [basic]FAJ 121 120 R2vsDataDchFrameSynchtoAENAdvancedDchFrameSynchtoAEUlRNCUplink, time of arrival early point.It is recommended to set both (toAWEUl + toAEUl = numHsPdschCodes.long0..156..1566DefaultRead/WriteNYYNAt next use (i.e., shall not affect ongoing connections)Utran CellAdmission Control [basic]FAJ 121 114 R5vsDataHsdschcodeThresholdPdu656NAdvancedHsdschcqiFeedbackCycleRNCThe duration of the CQI feedback cycle on HS-DPCCH. If HSDPA Multi-Carrier with MIMO is used in a connection, then the CQI feedback cycle used for the connection is max(4, cqiFeedbackCycle).

Dependencies: Must be set equal to or greater than 2 ms * initialCqiRepetitionFactor.Unit: mslong2..2 4..4 8..8 10..10 20..20 40..40 80..80 160..1602, 4, 8, 10, 20, 40, 80, 16088Default80/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellHSDPA Introduction [optional]FAJ 121 842 R1vsDataHsdschcqiFeedbackCycleNAdvancedHsdschdeltaAck1RNCThe power offset for acknowledgement messages on HS-DPCCH for UE Connections using one RLS.long0..845Recommended80/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellAdmission Control [basic]FAJ 121 114 R5vsDataHsdschdeltaAck1NAdvancedHsdschdeltaAck2RNCThe power offset for acknowledgement messages on HS-DPCCH for UE Connections using two or more RLSs.long0..887Recommended80/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellAdmission Control [basic]FAJ 121 114 R5vsDataHsdschdeltaAck2NAdvancedHsdschdeltaCqi1RNCThe power offset for CQI report messages on HS-DPCCH for UE Connections using one RLS.long0..844Default80/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellHSDPA Introduction [optional]FAJ 121 842 R1vsDataHsdschdeltaCqi1NAdvancedHsdschdeltaCqi2RNCThe power offset for CQI report messages on HS-DPCCH for UE Connections using two or more RLSs.long0..886Recommended80/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellHSDPA Introduction [optional]FAJ 121 842 R1vsDataHsdschdeltaCqi2NAdvancedHsdschdeltaNack1RNCThe power offset for non-acknowledgement messages on HS-DPCCH for UE Connections using one RLS.long0..845Recommended80/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellAdmission Control [basic]FAJ 121 114 R5vsDataHsdschdeltaNack1NAdvancedHsdschdeltaNack2RNCThe power offset for non-acknowledgement messages on HS-DPCCH for UE Connections using two or more RLSs.long0..887Recommended80/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellAdmission Control [basic]FAJ 121 114 R5vsDataHsdschdeltaNack2NAdvancedHsdschenhancedL2SupportRNCIndicates whether Enhanced Layer 2 is supported in the cell or not, as reported by the RBS in RSI or audit response.OnOffValsOFF = 0 ON = 1N/A93/1553-HSD 101 02/10ReadNNYNN/AUtran CellEnhanced Layer 2 [optional]FAJ 121 1328 R1vsDataHsdschenhancedL2SupportNN/AHsdschenhUeDrxSupportRNCIndicates whether or not the cell supports Enhanced UE DRX. When set to ON, the RNC sends SIB5 IE "HS-DSCH DRX in CELL_FACH information" in System Information Broadcast.

Dependencies: enhUeDrxSupport is set to OFF if RncFunction::enhUeDrxEnabled is FALSE.OnOffValsOFF = 0 ON = 1OFF(0)OFF(0)ReadNNYNN/ABattery efficiency for high speed FACHFAJ 121 1592 R1vsDataHsdschenhUeDrxSupportHsdschhsAqmCongCtrlSpiSupportRNCCapability information indicating if AQM based Congestion Control for HSDPA is supported in the cell per SPI, based on reports from the RBS. Contains a list of SPI values for which AQM based Congestion Control for HSDPA is ON. (This implies that any SPI value not included in the list is set to OFF.)This attribute is only relevant if hsAqmCongCtrlSupport=ON.

Sequence length must be in the range 0..16Feature: AqmCongCtrlHsdpalong0..151,2,3,4,7N/A81/1553-HSD 101 02ReadNNYYAQM based Congestion Control for HSDPAFAJ 121 1664vsDataHsdschhsAqmCongCtrlSpiSupportBasicHsdschhsAqmCongCtrlSupportRNCCapability information indicating if AQM based Congestion Control for HSDPA is supported in this cell, based on reports from the RBS.

Feature: AqmCongCtrlHsdpaOnOffValsOFF = 0 ON = 1OFF(0)N/A81/1553-HSD 101 02ReadNNYNAQM based Congestion Control for HSDPAFAJ 121 1664vsDataHsdschhsAqmCongCtrlSupportBasicHsdschHsdschIdRNCNaming attribute. Contains the value part of the RDN.stringN/ARestrictedYYNNN/AUtran CellHSDPA Introduction [optional]FAJ 121 842 R1vsDataHsdschidNN/AHsdschhsFachSupportRNCIndicating whether or not the cell supports HS-FACH. When set to ON, the RNC includes SIB5 IE HS-DSCH common system information in System Broadcast.OnOffValsOFF = 0 ON = 1ReadNNYNHigh speed downlink for FACHFAJ 121 1537 R1vsDataHsdschhsFachSupportHsdschhsMeasurementPowerOffsetRNCThe Measurement power offset, also called gamma, sent to the UE and RBS via RRC and NBAP. Used to offset the CQI in order to utilize the whole CQI range.

Unit: 0.1 dBResolution: 5long-60..1308080Default93/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellHSDPA Introduction [optional]FAJ 121 842 R1vsDataHsdschhsMeasurementPowerOffsetNAdvancedHsdschinitialAckNackRepetitionFactorRNCThe initial number of repetitions for ACK/NACK feedback transmissions on HS-DPCCH.long1..411Default80/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellHSDPA Introduction [optional]FAJ 121 842 R1vsDataHsdschinitialAckNackRepetitionFactorNAdvancedHsdschinitialCqiRepetitionFactorRNCThe initial number of repetitions for CQI report messages on HS-DPCCH. If HSDPA Multi-Carrier with MIMO is used in a connection and if initialCqiRepetitionFactor > cqiFeedbackCycle / 4, then the CQI repetition factor used for the connection is max(4,cqiFeedbackCycle) / 4, rounded downwards to the nearest integer value.

Dependencies: Must be set less than or equal to cqiFeedbackCycle / 2 ms.long1..411Default80/1553-HSD 101 02/10Read/WriteNYYNNew connectionUtran CellHSDPA Introduction [optional]FAJ 121 842 R1vsDataHsdschinitialCqiRepetitionFactorNAdvancedHsdschnumHsPdschCodesRNCNumber of codes of SF=16 used for the HS-PDSCH.

Disturbances: Changing this attribute may affect ongoing traffic.When the number of codes is incremented, all traffic is released from the cell.When the number is decreased, traffic is not released in the cell, but the Hs-dsch throughput may be affected.long1..1555Default83/1553-HSD 101 02/10Read/WriteNYYNObject lockedUtran CellHSDPA Introduction [optional]FAJ 121 842 R1vsDataHsdschnumHsPdschCodesNBasicHsdschnumHsScchCodesRNCNumber of codes of SF=128 used for the HS-SCCH.

Disturbances: Changing this attribute may affect ongoing traffic.When the number of codes is incremented or decreased, all traffic within the cell is released.long1..411Default83/1553-HSD 101 02/10Read/WriteNYYNCell UnlockedUtran CellHSDPA Dynamic Code Allocation [optional]FAJ 121 967 R1vsDataHsdschnumHsScchCodesNAdvancedHsdschoperationalStateRNCThe operational state of the HSDPA resources in the cell.SupportedOperStatesDISABLED = 0 ENABLED = 1N/AReadNNYNN/AUtran CellHSDPA Introduction [optional]FAJ 121 842 R1NN/AHsdschqam64MimoSupportRNCIndicates whether or not the cell supports the combination of 64-QAM and MIMO, based on reports from the RBS.

Takes effect: Next reconfigurationOnOffValsOFF = 0 ON = 1N/AReadNNYNN/AUtran Cell64QAM and MIMO Combination [optional]FAJ 121 1483 R1vsDataHsdschqam64MimoSupportNN/AHsdschqam64SupportRNCIndicates whether 64QAM is supported in the cell or not, as reported by the RBS in RSI or audit response.

Takes effect: New connectionsDependencies: Only used if the features EL2, 16QAM and 64QAM are active.OnOffValsOFF = 0 ON = 1N/A93/1553-HSD 101 02/10ReadNNYNN/AUtran CellSupport for 64 QAM [optional]FAJ 121 1331 R1vsDataHsdschqam64SupportNN/AHsdschuserLabelRNCProvides the possibility to put a user-friendly label on the MO instance. The value is not used by the RNC.stringN/ARead/WriteNYYNImmediatelyUtran CellHSDPA Introduction [optional]FAJ 121 842 R1vsDataHsdschuserLabelNN/AHsDschResourcesavailabilityStatusRBS DUWThe availability status of the resources.

Possible values: NOT_INSTALLED POWER_OFF IN_TEST DEPENDENCY_LOCKED DEPENDENCY_FAILED FAILED OFF_LINE DEGRADED OFF_DUTY LOG_FULL NO STATUS = Full availability.

Specification: ITU-T rec. X.731AvailabilityStatusIN_TEST = 1 FAILED = 2 POWER_OFF = 4 OFF_LINE = 8 OFF_DUTY = 16 DEGRADED = 64 NOT_INSTALLED = 128 LOG_FULL = 256 DEPENDENCY_LOCKED = 544 DEPENDENCY_FAILED = 1056 NO_STATUS = 0N/AReadNNNNN/AUtran CellHSDPA Introduction [optional]FAJ 121 842 R1NN/AHsDschResourceshsDschResourcesIdRBS 6401The value of component RDN.stringRestrictedYYYNHsDschResourcesHsDschResourcesIdRBS DUWThe value component of the RDN.stringN/ARestrictedYNNNN/AUtran CellHSDPA Introduction [optional]FAJ 121 842 R1NN/AHsDschResourcesoperationalStateRBS DUWDefines the operational state.

Possible values: DISABLED ENABLED

Specification: ITU-T rec. X.731OperStateDISABLED = 0 ENABLED = 1N/AReadNNNNN/AUtran CellHSDPA Introduction [optional]FAJ 121 842 R1NN/AIubiubIdRBS 6401The value of component RDN.stringRestrictedYYNNIubrbsIdRBS 6401Used by OSS-RC to identify an RBS and the corresponding Iub in RNC.The attribute is not used by RBS itself, it only serves as storage for OSS-RC.int320..2147483647Read/WriteNYNNIubtrafficIpAddressRBS 6401Reference to IP address for WCDMA CP/UP in the private network.ManagedObjectReadNYNNIubuserLabelRBS DUWLabel for free use.stringN/ARead/WriteNYYNImmediatelyIub LinkvsDataIubuserLabelNN/AIuBcLinkadministrativeStateRNCThe administrative state of the resource modeling the Iu-BC interface between RNC and the CBC.

Disturbances: - When set to LOCKED:Ongoing or scheduled Cell Broadcast Service messages are stopped and cleared in all cells. All open TCP connections towards CBC are closed and no new TCP connections towards CBC are accepted.- When set to UNLOCKED:A SABP Restart message is sent to the Cell Broadcast Center if the feature is active.Takes effect: ImmediatelySupportedAdminStatesLOCKED = 0 UNLOCKED = 1LOCKED(0)N/A126/1553-HSD 101 02/10Read/WriteNYYNImmediatelyRNCCell Broadcast Service [optional]FAJ 121 1326 R1vsDataIuBcLinkadministrativeStateNN/AIuBcLinkavailabilityStatusRNCThe availability status of the resource modeling the Iu-Bc interface between RNC and CBC.More than one of the following conditions can apply for the same object:Bit 0 = 1: INTESTBit 1 = 1: FAILEDBit 2 = 1: POWEROFFBit 3 = 1: OFFLINEBit 4 = 1: OFFDUTYBit 5 = 1: DEPENDENCY (set to 1 when bit 9, bit 10 or bit 11 is set to 1)Bit 6 = 1: DEGRADEDBit 7 = 1: NOTINSTALLEDBit 8 = 1: LOGFULLBit 9 = 1: DEPENDENCYLOCKEDBit 10 = 1: DEPENDENCYFAILEDBit 11 = 1: DEPENDENCYSHUTTINGDOWNlong0..4095N/AReadNNYNN/ARNCCell Broadcast Service [optional]FAJ 121 1326 R1NN/AIuBcLinkcbcIpAddress2RNCIP address of the second CBC.The input format used by the operator is four fields of digits, separated by dots. Each field may consist of three digits. The value of each field shall be in the range 0..255.

Takes effect: New connectionsstringRead/WriteNYYNCell Broadcast ServiceFAJ 121 1326vsDataIuBcLinkcbcIpAddress2IuBcLinkcbsDscpRNCDiffServ code point value for CBS traffic originating from the RNC.

Takes effect: Immediatelylong0..6318Read/WriteNYYNCell Broadcast ServiceFAJ 121 1326vsDataIuBcLinkcbsDscpIuBcLinkipTerminationRefRNCReference to a separate TCP/IP host to use for CBC. Can refer to either a IpAccessHostGpb MO or a IpAccessHostEt MO.If not set, O&M shared TCP/IP termination is used, as in releases before W13B.

Takes effect: ImmediatelyManagedObjectRead/WriteNYYNCell Broadcast ServiceFAJ 121 1326vsDataIuBcLinkipTerminationRefIuBcLinkIuBcLinkIdRNCNaming attribute. Contains the value part of the RDN.stringN/ARestrictedYYNNN/ARNCCell Broadcast Service [optional]FAJ 121 1326 R1vsDataIuBcLinkidNN/AIuBcLinkoperationalStateRNCThe operational state of the resource modeling the Iu-BC interface between RNC and the CBC.SupportedOperStatesDISABLED = 0 ENABLED = 1N/AReadNNYNN/ARNCCell Broadcast Service [optional]FAJ 121 1326 R1vsDataIuBcLinkoperationalStateNN/AIuBcLinkrncTcpConnectionMethodRNCSelects the behavior with respect to the TCP connection when the RNC sends SABP RESTART or SABP FAILURE messages towards a CBC.NEW_CONNECTION means a new TCP connection is always opened (as in releases before W13B).REUSE_CONNECTION means an existing TCP connection is reused if one exists; otherwise a new TCP connection is opened.NO_NEW_CONNECTION means a new TCP connection is never opened; existing TCP connections are reused instead.

Takes effect: ImmediatelySupportedConnectionMethodsNEW_CONNECTION = 0 REUSE_CONNECTION = 1 NO_NEW_CONNECTION = 2REUSE_CONNECTION(1)Read/WriteNYYNCell Broadcast ServiceFAJ 121 1326vsDataIuBcLinkrncTcpConnectionMethodIuBcLinkuserLabelRNCProvides the possibility to put a user-friendly label on the MO instance. The value is not used by the RNC.stringN/ARead/WriteNYYNImmediatelyRNCCell Broadcast Service [optional]FAJ 121 1326 R1vsDataIuBcLinkuserLabelNN/AIubDataStreamshsAqmCongCtrlSpiOnOffRBS 6401Parameter on/off per SPI 0...15 for AQM based Congestion Control for HSDPA.Default = OFF,ON,ON,ON,ON,OFF,OFF,ON,OFF,OFF,OFF,OFF,OFF,OFF,OFF,OFFSchFlowControlStateOFF = 0ON = 1OFF(0),ON(1),ON(1),ON(1),ON(1),OFF(0),OFF(0),ON(1),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0)Read/WriteYYYYIubDataStreamshsAqmCongCtrlSpiOnOffRBS DUWAQM Based Congestion Control for HSDPA status; activated (ON) or deactivated (OFF) for each scheduling priority class (first value in the sequence is for scheduling priority class 0).

Dependencies: Values are only relevant if NodeBFunction::featureStateHsAqmCongCtrl = ACTIVATED. Takes effect: For new connections.SchFlowControlStateOFF = 0 ON = 1OFF(0),ON(1),ON(1),ON(1),ON(1),OFF(0),OFF(0),ON(1),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0)Default81/1553-HSD 101 02Read/WriteNYYYAQM based Congestion Control for HSDPAFAJ 121 1664vsDataIubDataStreamshsAqmCongCtrlSpiOnOffN/AIubDataStreamshsDataFrameDelayThresholdRBS DUWDefines the maximum transport network buffer build-up delay, the dynamic delay. A measured dynamic delay above this limit is interpreted as an Iub congestion detection occurrence.

Unit: 1 mslong10..2006060DefaultRead/WriteNYYNAt commitIubHSDPA TN Optimization [optional]FAJ 121 895 R3vsDataIubDataStreamshsDataFrameDelayThresholdNAdvancedIubDataStreamshsRbrDiscardProbabilityRBS DUWParameter to set discard probability for the flow where the Iub congestion was detected used by feature AQM Based Congestion Control for HSDPA.

Unit: 1%Dependencies: The parameter value is only relevant if NodeBFunction::featureStateHsdpaRbrQosProfiling = ACTIVATED, NodeBFunction::featureStateHsAqmCongCtrl = ACTIVATED and IubDataStreams::hsAqmCongCtrlSpiOnOff is ON for some SPI.long0..1000CPI334/1553-HSD 101 02Read/WriteNYYNImmediatelyIur trafficHSDPA RBR QoS ProfilingFAJ 121 1515vsDataIubDataStreamshsRbrDiscardProbabilityYAdvancedIubDataStreamshsRbrWeightRBS DUWThe attribute controls the relative bitrates which different users get. The weight range of value shall be peak factor normalized around 100% when being calculated or configured. The weight is needed to implement the RBR function. This is valid both for HSDPA Flow Control and for AQM based congestion control for HSDPA.This is done by means of using different weights for the AI part of the AIMD (Additive Increase/Multiplicative Decrease) method in the HSDPA Flow Control algorithm, which is used for TN limited use-cases.For AQM based congestion control for HSDPA the weights are used to calculate normalized rates for PQs. The RBR function will then perform rate control for different PQs depending on the normalized rates.

For SPIs where the value is OFF for IubDataStreams::schHsFlowControlOnOff or hsAqmCongCtrlSpiOnOff the hsRbrWeight value = 100% shall be used.

The first value in the sequence represents SPI0 and the last SPI15.

Unit: 1%long32..320100,100,50,100,200,100,100,100,100,100,100,100,100,100,100,100Default334/1553-HSD 101 02Read/WriteNYYYImmediatelyRBSHSDPA RBR QoS Profiling [Optional]FAJ 121 1515vsDataIubDataStreamshsRbrWeightNN/AIubDataStreamsiubDataStreamsIdRBS 6401The value of component RDN.stringRestrictedYYNNIubDataStreamsmaxHsRateRBS DUWMaximum HSDPA bit rate over Iub.

Unit: 0.1 Mbpslong1..100001515Default93/1553-HSD 101 02/10Read/WriteNYYNAt commitIubHSDPA TN Optimization [optional]FAJ 121 895 R3vsDataIubDataStreamsmaxHsRateNAdvancedIubDataStreamsschHsFlowControlOnOffRBS 6401Existing on/off parameter per SPI 0...15 for Hsdpa Flow Control. SchFlowControlStateOFF = 0ON = 1Read/WriteYYYYIubDataStreamsschHsFlowControlOnOffRBS DUWHsdpa Flow control status; activated (ON) or deactivated (OFF) for each scheduling priority class (first value in the sequence is for scheduling priority class 0).

Dependencies: This parameter is ignored if NodeBFunction::featureStateHsAqmCongCtrl = ACTIVATED. SchFlowControlStateOFF = 0 ON = 1OFF(0),ON(1),ON(1),ON(1),ON(1),OFF(0),OFF(0),ON(1),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0),OFF(0)DefaultRead/WriteNYYYAt commitIubHSDPA QoS Scheduler [optional]FAJ 121 1115 R1vsDataIubDataStreamsschHsFlowControlOnOffNIntermediateIubEdchedchDataFrameDelayThresholdRNCMaximum dynamic delay (buffer build-ups over Iub, including the node's ET boards) that the E-DCH data frames can have without being detected as a dynamic delay Iub congestion.

Unit: mslong10..2006060Default115/1553-HSD 101 02/6Read/WriteNYYNOngoing connectionIub LinkEnhanced Uplink Introduction Package [optional]FAJ 121 1023 R1vsDataIubEdchedchDataFrameDelayThresholdNAdvancedIubEdchIubEdchIdRNCNaming attribute. Contains the value part of the RDN.stringN/ARestrictedYYNNN/AIub LinkEnhanced Uplink Introduction Package [optional]FAJ 121 1023 R1vsDataIubEdchidNN/AIubEdchuserLabelRNCProvides the possibility to put a user-friendly label on the MO instance. The value is not used by the RNC.stringN/ARead/WriteNYYNImmediatelyIub LinkEnhanced Uplink Introduction Package [optional]FAJ 121 1023 R1vsDataIubEdchuserLabelNN/AIubLinkadministrativeStateRNCThe administrative state of the Iub link.SupportedAdminStatesLOCKED = 0 UNLOCKED = 1LOCKED(0)N/ARead/WriteNYYNAt commitIub LinkvsDataIubLinkadministrativeStateNN/AIubLinkavailabilityStatusRNCThe availability status of the Iub.More than one of the following conditions can apply for the same object:Bit 0 = 1: INTESTBit 1 = 1: FAILEDBit 2 = 1: POWEROFFBit 3 = 1: OFFLINEBit 4 = 1: OFFDUTYBit 5 = 1: DEPENDENCY (set to 1 when bit 9, bit 10 or bit 11 is set to 1)Bit 6 = 1: DEGRADEDBit 7 = 1: NOTINSTALLEDBit 8 = 1: LOGFULLBit 9 = 1: DEPENDENCYLOCKEDBit 10 = 1: DEPENDENCYFAILEDBit 11 = 1: DEPENDENCYSHUTTINGDOWNlong0..4095N/AReadNNYNN/AIub LinkNN/AIubLinkdlHwAdmRNCAdmission limit on RBS downlink hardware resource utilization, applicable to all admission requests.

Special values:Setting dlHwAdm to 100 % will disable the downlink hardware admission policy.

Takes effect: ImmediatelyUnit: %long0..100100100Default83/1553-HSD 101 02/10Read/WriteNYYNNew connectionIub LinkAdmission Control [basic]FAJ 121 114 R5vsDataIubLinkdlHwAdmNBasicIubLinkIubLinkIdRNCNaming attribute. Contains the value part of the RDN.stringN/ARestrictedYYNNN/AIub LinkIubLinkidNN/AIubLinkoperationalStateRNCThe operational state of the Iub.SupportedOperStatesDISABLED = 0 ENABLED = 1N/AReadNNYNN/AIub LinkNN/AIubLinkrbsIdRNCIub connection identity.This value is not used by the RNC. It is used in OSS-RC for correlation between RNC and RBS.

Dependencies: The value of this attribute must be unique within the RNC. long0..RNDRead/WriteYYYNImmediatelyIub LinkConfiguration Management [basic]FAJ 121 103 R2vsDataIubLinkrbsIdNN/AIubLinkreservedByRNCList of references, updated automatically by the RNC, that point back toward the MO instances that have references to this MO instance.

Sequence length must be in the range 0..12UtranCellN/AReadNYYYN/AIub LinkIubLinkiubLinkUtranCellNN/AIubLinkrncModuleRefRNCReference to the RncModule that it belongs to.RncModuleN/AReadNYYNN/AIub LinkConfiguration Management [basic]FAJ 121 103 R2vsDataIubLinkrncModuleRefNN/AIubLinkspareARNCSpare attribute.

Spare attributes in the RNC are intended for temporary solutions, and their usage may vary depending on the installed RNC software. It is strongly recommended to only set the spare attributes that correspond to a desired functionality and leave all other spare attributes set to zero (0). Information in the descriptions about what spare attributes are in use may be overridden by the information in PLM Info documents. Note that a later RNC release may use another attribute to control the functionality previously provided by a spare attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR and reflected in the description of the spare attribute.

Sequence length must be in the range 10..10long0,0,0,0,0,0,0,0,0,0Read/WriteNYYYvsDataIubLinkspareAIubLinkulHwAdmRNCAdmission limit on RBS uplink hardware resource utilization, applicable to all admission requests.

Special values:Setting ulHwAdm to 100 % will disable the uplink hardware admission policy.

Takes effect: ImmediatelyUnit: %long0..100100See CPICPI83/1553-HSD 101 02/10Read/WriteNYYNNew connectionIub LinkAdmission Control [basic]FAJ 121 114 R5vsDataIubLinkulHwAdmNBasicIubLinkuserLabelRNCProvides the possibility to put a user-friendly label on the MO instance. The value is not used by the RNC.stringN/ARead/WriteNYYNImmediatelyIub LinkIubLinkuserLabelNN/AIuLinkspareARNCSpare attribute.

Spare attributes in the RNC are intended for temporary solutions, and their usage may vary depending on the installed RNC software. It is strongly recommended to only set the spare attributes that correspond to a desired functionality and leave all other spare attributes set to zero (0). Information in the descriptions about what spare attributes are in use may be overridden by the information in PLM Info documents. Note that a later RNC release may use another attribute to control the functionality previously provided by a spare attribute, or may remove the functionality altogether. In these cases, the change is documented in the NIR and reflected in the description of the spare attribute.

Sequence length must be in the range 10..10long0,0,0,0,0,0,0,0,0,0Read/WriteNYYYvsDataIuLinkspareAIurLinkcellCapabilityControlRNCAllows cell capabilities to be manually switched off for the external RNC represented by this IurLink when it acts as DRNC. If a particular cell capability is set to OFF, that cell capability setting will be switched off for the ExternalUtranCells under this IurLink, regardless of the value of ExternalUtranCell::cellCapability.CellCapabilityN/ARead/WriteNYYNIur LinkvsDataIurLinkcellCapabilityControlNN/AIurLinkcellCapabilityControl.cpcSupportRNCSupport for CPC.

Takes effect: New connectionsOnOffValsOFF = 0 ON = 1OFF(0)RND333/1553-HSD 101 02/10Read/WriteNYYNNew connectionIur LinkCPC introduction [optional]CPC DRX [optional]FAJ 121 1389 R1FAJ 121 1476 R1vsDataIurLinkcellCapabilityControl.cpcSupportNN/AIurLinkcellCapabilityControl.edchSupportRNCSupport for EUL.OnOffValsOFF = 0 ON = 1OFF(0)RND76/1553-HSD 101 02/10Read/WriteNYYNIur LinkEnhanced UL Mobility [optional]FAJ 121 1002 R2vsDataIurLinkcellCapabilityControl.edchSupportNN/AIurLinkcellCapabilityControl.edchTti2SupportRNCSupport for 2 ms TTI EUL.OnOffValsOFF = 0 ON = 1OFF(0)RND76/1553-HSD 101 02/10Read/WriteNYYNIur LinkEnhanced Uplink, 2 ms TTI [optional]FAJ 121 1317 R2vsDataIurLinkcellCapabilityControl.edchTti2SupportNN/AIurLinkcellCapabilityControl.enhancedL2SupportRNCSupport for Enhanced Layer 2.OnOffValsOFF = 0 ON = 1OFF(0)RND93/1553-HSD 101 02/10Read/WriteNYYNNew connectionIur LinkEnhanced Layer 2 [optional]FAJ 121 1328 R1vsDataIurLinkcellCapabilityControl.enhancedL2SupportNN/AIurLinkcellCapabilityControl.fdpchSupportRNCSupport for F-DPCH.OnOffValsOFF = 0 ON = 1OFF(0)RND4/1553-HSD 101 02/10Read/WriteNYYNNew connectionsIur LinkF-DPCH [optional]SRB on HSDPA [optional]FAJ 121 1481 R1FAJ 121 1320 R1vsDataIurLinkcellCapabilityControl.fdpchSupportNN/AIurLinkcellCapabilityControl.hsdschSupportRNCSupport for HS.OnOffValsOFF = 0 ON = 1OFF(0)RNDRead/WriteNYYNIur LinkHSDPA Mobility phase 2 [optional]FAJ 121 860 R2vsDataIurLinkcellCapabilityControl.hsdschSupportNN/AIurLinkcellCapabilityControl.qam64MimoSupportRNCSupport for the combination of 64-QAM and MIMO.

Takes effect: New connectionsOnOffValsOFF = 0 ON = 1OFF(0)RNDRead/WriteNYYNNew connectionsIur Link64QAM and MIMO Combination [optional]FAJ 121 1483 R1vsDataIurLinkcellCapabilityControl.qam64MimoSupportNN/AIurLinkcmDoubleFramesSupportedRNCIndicates if the RNC represented by this Iurlink supports compressed mode with double frame gaps.Only used if RncFeature=DoubleFrameCmPatterns is activated.

Takes effect: Ongoing connections