CoverBSC6900 UMTS V900R012C01Parameter ReferenceHuawei Technologies Co., Ltd. provides customers with comprehensive technical support and service. For any assistance, please contact our local office or company headquarters.Huawei Technologies Co., Ltd.Address:Huawei Industrial BaseBantian, LonggangShenzhen 518129People's Republic of ChinaWebsite:http://www.huawei.comEmail:support@huawei.comCopyright Huawei Technologies Co., Ltd. 2011. All rights reserved.No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.Trademarks and Permissionsand other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.All other trademarks and trade names mentioned in this document are the property of their respective holders.

support@huawei.comhttp://www.huawei.com

About This DocumentPurposeThis document provides information about the BSC6900 parameters, including the meaning, value, and usage of the parameters.Intended AudienceNetwork plannersField engineersSystem engineersShift operatorsOrganizationEach parameter is described in the following aspects.DescriptionRemarksMOManaged object of NEParameter IDSimple string for identifying a parameterParameter NameName of the parameterNENEs on which the parameter is setMML CommandCommands for setting the parameterMeaningDefinition, purpose, and protocols of the parameterIsKeyWhether the parameter is used to identify an MO instanceMandatoryWhether the parameter is mandatory for creating an MO instanceFeature IDID of the feature that uses the parameterFeature NameName of the feature that uses the parameterValue TypeParameter value typeGUI Value RangeParameter value range displayed on the GUIActual Value RangeActual parameter value range corresponding to the GUI Value RangeUnitParameter value unitDefault ValueInitial parameter value assigned by the system. There is no default value for a mandatory parameter. None indicates that there is no default value. For a bit field parameter, the value ON of a sub-parameter means that the bit representing the sub-parameter is set to 1, and the value OFF means that the bit is set to 0.Generally, it is displayed on the configuration window of an ADD command but not displayed on the configuration window of a MOD/RMV/DSP/LST command.Recommended ValueParameter values recommended for different scenariosImpactParameter impact scope, that is, objects specified when the parameter is setParameter RelationshipRelationship between this parameter and other parameters. For example, to use this parameter, you need to set related switches and parameters.AccessWhether this parameter is Read & Write or Read Only.Service Interrupted After ModificationWhether modifying the parameter value interrupts the ongoing servicesInterruption ScopePossible interruption scopeInterruption Duration (min)Possible interruption duration (unit: minute)CautionCautions to be taken during the modificationValidation of ModificationHow this parameter takes effect and whether the equipment needs to be restarted after the modificationImpact on Radio Network PerformanceImpact of the parameter on radio network performanceIntroduced in VersionProduct version in which the parameter is introducedAttributeWhether the parameter is a radio parameter, a transport parameter, or an equipment parameter

Parameter ListMOParameter IDParameter NameMML CommandMeaningIsKeyMandatoryFeature NameValue TypeGUI Value RangeActual Value RangeUnitDefault ValueRecommended ValueImpactParameter RelationshipService Interrupted After ModificationInterruption ScopeInterruption Duration(Min)CautionValidation of ModificationImpact on Radio Network PerformanceUDPUCFGDATAMaccPageRepeatTimesRepeat Times of Macc PagingSET UDPUCFGDATA(Optional)This parameter defines the times of retransmission of paging messages. If the times of retransmission exceed the value of this parameter, retransmission stops. For details, refer to the 3GPP TS 25.331 protocol.NONOPaging UE in Idle, CELL_PCH, URA_PCH State (Type 1)Interval Type0~20~2None11RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneGPSRNCIDRNC IDADD GPS(Mandatory)ID of the RNC where a GPS receiver is installedNOYESBSC/RNC ClockInterval Type0~40950~4095NoneNoneNoneNoneNoneNo (No impact on the UE in idle mode)Not involvedNot involvedThe parameter cannot be modified.Not involvedNoneGPSCellIdCell IDADD GPS(Mandatory)ID of the cell to which a GPS receiver belongsNOYESConfiguration ManagementInterval Type0~655350~65535NoneNoneNoneNoneNoneNo (No impact on the UE in idle mode)Not involvedNot involvedThe parameter cannot be modified.Not involvedNoneLICENSESETOBJECTSet Object LicenseSET LICENSE(Optional)Product application modeNONOLicense ManagementEnumeration TypeUMTS(UMTS)UMTSNoneNoneUMTSBSC6900NoneNo (No impact on the UE in idle mode)Not involvedNot InvolvedNoneThe parameter modification has no impact on the equipment.NoneLICENSEISPRIMARYPLMNPrimary Operator FlagSET LICENSE(Optional)Primary operator flag. YES indicates to activate the license of the primary operator, and NO indicates to activate the license of the secondary operator.NONOLicense ManagementEnumeration TypeNO(NO), YES(YES)NO, YESNoneYESYESBSC6900NoneNot involvedNot involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneLICENSECNOPERATORINDEXCn Operator IndexSET LICENSE(Optional)Operator indexNONONoneInterval Type0~30~3NoneNoneNoneBSC6900NoneNot involvedNot involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneLICENSECsErlangVoice Erlang-ErlangSET LICENSE(Optional)Number of Erlangs for voice servicesNONOLicense ManagementInterval Type0~804000~80400ErlNoneNoneBSC6900NoneNot involvedNot involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneLICENSEPsthroughputPS throughput only-kbpsSET LICENSE(Optional)Max throughput of PSNONOLicense ManagementInterval Type0~120000000~12000000kbit/sNoneNoneBSC6900NoneNot involvedNot involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneLICENSEHSDPAthroughputHSDPA Throughput-kbpsSET LICENSE(Optional)The total HSDPA traffic of all operators cannot exceed the HSDPA value in the license.NONOLicense ManagementInterval Type0~120000000~12000000kbit/sNoneNoneBSC6900NoneNot involvedNot involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneSCPICHCellIdCell IDADD USCPICH(Mandatory)ID of a cell. For detailed information about this parameter, see 3GPP TS 25.401.YESYESNoneInterval Type0~655350~65535NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot InvolvedNoneThe parameter modification has no impact on the equipment.NoneSCPICHScpichPhyIdSCPICH IDADD USCPICH(Optional)Uniquely identifying a SCPICH in a cell.NONONoneInterval Type0~2550~255None55Physical channelNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe cell should be activated after the parameter modification.NoneSCPICHScpichPowerSCPICH transmit power[0.1dB]ADD USCPICH(Optional)TX power of the SCPICH in a cell.NONONoneInterval Type-350~150-35~15, step: 0.1dB00CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedThe parameter modification has no impact on the equipment.The parameter modification has no impact on the equipment.NoneU2GNCELLRNCIdRNC IDADD U2GNCELL(Mandatory)MOD U2GNCELL(Mandatory)RMV U2GNCELL(Mandatory)ID of an RNCYESYESNoneInterval Type0~40950~4095NoneNoneNoneRNCNoneNot involvedNot involvedNot involvedThis parameter cannot be modified.Not involvedNoneU2GNCELLCellIdCell IDADD U2GNCELL(Mandatory)MOD U2GNCELL(Mandatory)RMV U2GNCELL(Mandatory)Uniquely identifying a WCDMA cell, to which neighboring GSM cells can be added.YESYESInter-RAT Handover Based on CoverageInterval Type0~655350~65535NoneNoneNoneCellNoneNot involvedNot involvedNot involvedThis parameter cannot be modified.Not involvedNoneU2GNCELLGSMCellIndexGSM Cell IndexADD U2GNCELL(Mandatory)MOD U2GNCELL(Mandatory)RMV U2GNCELL(Mandatory)Unique ID of a GSM cellYESYESNoneInterval Type0~655350~65535NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneU2GNCELLCIOOffsetNeighboring Cell-Oriented CIOADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Cell individual offset for the GSM cell. This parameter is used for decision making for the inter-RAT handover. A larger value of the parameter indicates the higher the handover priority of the GSM cell. A smaller the value of the parameter indicates the lower the handover priority of the GSM cell.NONOInter-RAT Handover Based on CoverageInter-RAT Handover Based on DL QoSInter-RAT Handover Based on ServiceInterval Type-50~50-50~50dB00CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.A greater value of this parameter indicates that this GSM cell is more possibly selected as the target cell for the handover. If the value of this parameter is too great, a GSM cell that fails to provide qualified services may be selected as the target cell for the handover, thus leading to call drops.A smaller value of this parameter indicates that this GSM cell is less possibly selected as the target cell for the handover. If the value of this parameter is too small, the MS may fail to be handed over to the GSM cell timely, thus leading to call drops.U2GNCELLQoffset1snQoffset1snADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Offset between the neighboring GSM cell and WCDMA cell.This specifies the offset of the measurement value of the neighboring GSM cell signal quality. This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection.In cell reselection algorithm, this parameter is used for moving the border of a cell. Content: During cell selection or resection, the larger the value of the parameter, the smaller the probability of selecting inter-RAT neighboring cells. The smaller the value of the parameter, the larger the probability of selecting inter-RAT neighboring cells. This parameter can be configured by the network planner according to reality.For details, refer to 3GPP TS 25.331.As for the impact on network performance:The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so.NONOInter RNC Cell UpdateInterval Type-50~50-50~50dB00CellNoneNo (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so.U2GNCELLQrxlevminMin RX LevelADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Minimum RX level of the GSM cell.Before the UE camps on the cell, take the measurement of the signal quality in the cell. If the quality is better than this parameter, this indicates that the cell can obtain better QoS and the UE is allowed to camp on this cell. Otherwise, the UE cannot obtain good QoS in this cell and does not camp on the cell.NONOIntra RNC Cell UpdateInter RNC Cell UpdateInterval Type-58~-13-115~-25, step:2 Actual value = -115 + (58 + GUI value) * 2dBm-50-50CellNoneNo (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneU2GNCELLTpenaltyHcsReselectHCS Cell Reselect Penalty TimerADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Specifies the penalty time for cell reselection. If this parameter is set to a greater value, the penalty time for HCS cell reselection is prolonged. If this parameter is set to a smaller value, the penalty time for HCS cell reselection is shortened. When the UE is in idle mode, the ping-pong reselections between HCS cells reduces if this parameter is set to a greater value. In this case, however, the hierarchical cell structure cannot be deployed effectively.NONOHCS (Hierarchical Cell Structure)Intra RNC Cell UpdateInter RNC Cell UpdateEnumeration TypeD0, D10, D20, D30, D40, D50, D600, 10, 20, 30, 40, 50, 60sD0D0CellNoneNo (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneU2GNCELLTempOffset1HCS Cell Reselect TempOffset1ADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Cell offset used for CPICH RSCP measurement value in HCS cell selection. If this parameter is set to a greater value, the probability for selecting a neighboring cell reduces. If this parameter is set to a smaller value, the probability for selecting a neighboring cell increases. If this parameter is set to "INFINITY", a neighboring cell is not selected.NONOHCS (Hierarchical Cell Structure)Intra RNC Cell UpdateInter RNC Cell UpdateEnumeration TypeD3~0 D6~1 D9~2 D12~3 D15~4 D18~5 D21~6 INFINITY3, 6, 9, 12, 15, 18, 21, INFINITYdBD3D3CellThis parameter is valid when "TpenaltyHcsReselect" is not set to D0.No (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneU2GNCELLBlindHoFlagBlind Handover FlagADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Whether to perform blind handover.The value FALSE indicates that the cell is not considered as a candidate cell for blind handover. Therefore, blind over to this cell cannot be triggered.NONOInter Frequency Load BalanceHCS (Hierarchical Cell Structure)Enumeration TypeFALSE, TRUEFALSE, TRUENoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.If this cell is the neighboring cell of the serving cell for the blind handover, it is considered as the target cell for the blind handover and inter-system DRD. If the coverage of the WCDMA cell is not completely included in that of the GSM cell, the blind handover or inter-system DRD may fail, thus leading to call drops.U2GNCELLBlindHOPrioBlind Handover PriorityADD U2GNCELL(Mandatory)MOD U2GNCELL(Mandatory)Priority of the neighboring cell for blind handover.The value 0 represents the highest priority. Priorities 0 to 15 are assigned to concentric neighboring cells, which can ensure successful blind handover. Priorities 16 to 30 are assigned to the neighboring cells, which cannot ensure successful blind handover.NOYES3G/2G Common Load ManagementInterval Type0~300~30NoneNoneNoneCellThis paramter is valid only when "BlindHoFlag" is set to TRUE.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.The RNC hands over the UE preferentially to the neighboring cell with a high priority. It is recommended that the GSM cell that includes the entire WCDMA cell be assigned with a higher priority. Otherwise, the UE may be handed over to the GSM cell that does not include the entire WCDMA cell, thus leading to call drops, handover failures, or DRD failures.U2GNCELLDRDEcN0ThreshholdDRD Ec/No ThresholdADD U2GNCELL(Optional)MOD U2GNCELL(Optional)DRD Ec/No threshold for determining whether to perform the blind handover. The DRD is permitted if Ec/No of the current cell is greater than the DRD Ec/No threshold of a inter-RAT/inter-frequency neighboring cell.NONODRD Introduction PackageInterval Type-24~0-24~0dB-18-18CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.A greater value of this parameter indicates that the inter-RAT DRD is less possibly triggered. A smaller value of this parameter indicates that the inter-RAT DRD is more possibly triggered, however, with a low success rate.U2GNCELLSIB11IndSIB11 IndicatorADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Indicates whether to send the system information block 11 (SIB11) including neighboring cell information. The value "FALSE" indicates that the neighboring information is not included in the SIB11. The value "TRUE" indicates that the neighboring information is included in the SIB11.NONOIntra RNC Cell UpdateInter RNC Cell UpdateEnumeration TypeFALSE(Do not send), TRUE(Send)FALSE, TRUENoneCellNoneNo (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneU2GNCELLSIB12IndSIB12 IndicatorADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Indicates whether to send the SIB12 indication including the neighboring cell information. The value "FALSE" indicates that the neighboring information is not included in the SIB12. The value "TRUE" indicates that the neighboring information is included in the SIB12.NONOIntra RNC Cell UpdateInter RNC Cell UpdateEnumeration TypeFALSE(Do not send), TRUE(Send)FALSE, TRUENoneCellNoneNo (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneU2GNCELLNPrioFlagNeighboring Cell Priority FlagADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Priority flag of neighboring cellsThe value TRUE indicates that the neighboring cell priority is valid, and the value FALSE indicates that the neighboring cell priority is invalid. In the algorithm of neighboring cell combination, the cell with an invalid priority is the last one to be considered as the measurement object.NONOIntra Node B Softer HandoverInter RNC Soft HandoverInter Frequency Hard Handover Based on CoverageEnumeration TypeFALSE, TRUEFALSE, TRUENoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.When the algorithm of neighboring cell combination is enabled, the total number of the neighboring cells connected through links may exceed 32 if more than one link is in the active link set. RNC consider this parameter as a condition for neighboring cell selection. That is, a neighboring cell with a high priority is preferentially selected. If a neighboring cell is not configured with the priority identifier, the lowest priority is assigned to this cell. If a low priority is improperly assigned to the neighboring cell to be measured, the handover to this cell may fail. This leads to call drops.U2GNCELLNPrioPriority of Neighboring CellADD U2GNCELL(Mandatory)MOD U2GNCELL(Mandatory)Priority of neighboring cells. A smaller value of this parameter indicates a higher priority assigned to the neighboring cell. The neighboring cell with a higher priority is more possibly delivered as the measurement object. For example, the neighboring cell with priority 1 is more possible to be selected as the measurement object than the neighboring cell with priority 2. This parameter is valid when "NPrioFlag" is set to TRUE.NOYESInter-RAT Handover Based on CoverageInterval Type0~310~31NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.When the algorithm of neighboring cell combination is enabled, the total number of the neighboring cells connected through links may exceed 32 if more than one link is in the active link set. RNC consider this parameter as a condition for neighboring cell selection. That is, a neighboring cell with a high priority is preferentially selected. If a neighboring cell is not configured with the priority identifier, the lowest priority is assigned to this cell. If a low priority is improperly assigned to the neighboring cell to be measured, the handover to this cell may fail. This leads to call drops.U2GNCELLMBDRFlagFlag of MBDR CellADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Whether the cell supports the measure-based directed retry (MBDR) algorithm. The value TRUE indicates that the cell supports the MBDR algorithm, and the value FALSE indicates that the cell does not support the MBDR algorithm.NONONoneEnumeration TypeFALSE(Do not send), TRUE(Send)FALSE, TRUENoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneU2GNCELLMBDRPrioMBDR Cell PeriorityADD U2GNCELL(Optional)MOD U2GNCELL(Optional)Priority of a MBDR cell. This parameter is valid only when the "MBDRFlag" parameter is set to TRUE. It indicates the tiptop priority when the value is set to 0, and the lowest priority when the value is set to 15. The higher the priority, the easier it is for the MBDR cell to be delivered as the measurement object and the easier to be selected to the handover target cell when there are many of cells meet the quality condition. Attention, when there does not have cell meet the quality condition base on the MBDR measurement result, if there exists a cell which has the priority of 0, and the type of the measurement report is periodic, then it can be selected to blind handover target cell.NONONoneInterval Type0~150~15None00CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUACALGOAcRstrctSwitchAC Restriction SwitchSET UACALGO(Optional)OFF indicates that the AC algorithm is automatically disabled. ON indicates that the AC algorithm is automatically enabled.NONOAccess Class RestrictionEnumeration TypeOFF, ONOFF, ONNoneOFFOFFRNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUACALGOAcRstrctPercentAC Restriction PercentSET UACALGO(Mandatory)Access restriction ratio. When a cell performs access classes restriction, you can select some access classes from AC0 to AC9 based on the ratio specified in this parameter and perform access classes restriction on the selected access classes. After access classes restriction goes on for AcRstrctIntervalLen, the original access classes restriction is released and other access classes of the local cell are selected for access classes restriction based on the ratio specified in this parameter.NOYESAccess Class RestrictionInterval Type1~100.1~1, step:0.1%22RNCThis parameter needs to be set only when the parameter "AcRstrctSwitch" in the "SET UACALGO" command is set to ON.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUACALGOAcIntervalOfCellAC Restriction Interval Of CellSET UACALGO(Mandatory)Interval of automatic access classes restriction between cells. When a subsystem of an RNC performs access classes restriction on cells managed by this subsystem, it selects the first cell at random. After waiting for the time specified in this parameter, the subsystem selects the second cell and the first cell is still with access classes restriction. The process lasts until all the cells are going through access classes restriction. For detailed information of this parameter, refer to 3GPP TS 22.011.NOYESAccess Class RestrictionInterval Type1~3600010~360000, step:10ms5050RNCThis parameter needs to be set only when the parameter "AcRstrctSwitch" in the "SET UACALGO" command is set to ON.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUACALGOAcRstrctIntervalLenAC Restriction Interval lengthSET UACALGO(Mandatory)Interval of access classes restriction. When a cell performs access classes restriction, it selects some access classes and after the restriction on these access classes lasts for the time specified in this parameter, the access classes restriction is released and the cell selects other access classes for restriction.NOYESAccess Class RestrictionInterval Type6~36006~3600s1030RNCThis parameter needs to be set only when the parameter "AcRstrctSwitch" in the "SET UACALGO" command is set to ON.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUACALGOIuAcIntervalOfCellAC Restriction Interval of Cell By IUSET UACALGO(Optional)When the Iu interface is faulty, the RNC gradually restricts cell access in Bar mode. When the Iu interface is restored, the RNC gradually enables cell access in Not Bar mode. This parameter defines the interval between the cell working in Bar mode and in Not Bar mode. In this way, the location update procedure can be distributed to a specified time period and the risk due to congestion is reduced.NONOAccess Class RestrictionInterval Type1~36001~3600s11RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLAFSetObjAFSetObjSET UADMCTRL(Mandatory)The activity factor at the radio layer varies with the service priority. The configuration of the activity factor is performed based on the priorities of gold, silver, and copper. The activity factor of SRB is priority insensitive.YESYESAdmission ControlEnumeration TypeNOPRIORITY(NOPRIORITY), GOLD(GOLD), SILVER(SILVER), COPPER(COPPER)NOPRIORITY, GOLD, SILVER, COPPERNoneNoneNoneRNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLUlSrbActFactorUL AF of SRBSET UADMCTRL(Optional)UL activity factor of SRB.Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None1010RNCThis parameter is valid only when "AFSetObj" is set to NOPRIORITY.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLDlSrbActFactorDL AF of SRBSET UADMCTRL(Optional)DL activity factor of SRB. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None1010RNCThis parameter is valid only when "AFSetObj" is set to NOPRIORITY.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLUlAmrConvAFUL AF of R99 AMR conv serviceSET UADMCTRL(Optional)UL activity factor of the R99 AMR conversational service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None5050RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLDlAmrConvAFDL AF of R99 AMR conv serviceSET UADMCTRL(Optional)DL activity factor of the R99 AMR conversational service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None5050RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLUlNonAmrConvAFUL AF of R99 non AMR conv serviceSET UADMCTRL(Optional)UL activity factor of the R99 non AMR conversational service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLDlNonAmrConvAFDL AF of R99 non AMR conv serviceSET UADMCTRL(Optional)DL activity factor of the R99 non AMR conversational service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLUlStreamAFUL AF of R99 Streaming serviceSET UADMCTRL(Optional)UL activity factor of the R99 streaming service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GGOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLDlStreamAFDL AF of R99 Streaming serviceSET UADMCTRL(Optional)DL activity factor of the R99 streaming service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLUlInteractAFUL AF of R99 interactive serviceSET UADMCTRL(Optional)UL activity factor of the R99 interactive service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None1010RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLDlInteractAFDL AF of R99 interactive serviceSET UADMCTRL(Optional)DL activity factor of the R99 interactive service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None1010RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLUlBackgroundAFUL AF of R99 background serviceSET UADMCTRL(Optional)UL activity factor of the R99 background service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None1010RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLDlBackgroundAFDL AF of R99 background serviceSET UADMCTRL(Optional)DL activity factor of the R99 background service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None1010RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLMbmsAFAF of MBMS serviceSET UADMCTRL(Optional)Activity factor of the MBMS service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLHsupaConvAFAF of hsupa conv serviceSET UADMCTRL(Optional)UL activity factor of the HSUPA conversational service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01NoneNone50RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLHsdpaConvAFAF of hsdpa conv serviceSET UADMCTRL(Optional)DL activity factor of the HSUPA conversational service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None10050RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLHsupaStreamAFAF of hsupa streaming serviceSET UADMCTRL(Optional)UL activity factor of the HSUPA streaming service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLHsdpaStreamAFAF of hsdpa streaming serviceSET UADMCTRL(Optional)DL activity factor of the HSUPA streaming service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLHsupaInteractAFAF of hsupa interactive serviceSET UADMCTRL(Optional)UL activity factor of the HSUPA interactive service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLHsdpaInteractAFAF of hsdpa interactive serviceSET UADMCTRL(Optional)DL activity factor of the HSUPA interactive service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLHsupaBackGroundAFAF of hsupa background serviceSET UADMCTRL(Optional)UL activity factor of the HSUPA background service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD,SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUADMCTRLHsdpaBackGroundAFAF of hsdpa background serviceSET UADMCTRL(Optional)DL activity factor of the HSUPA background service. Signals might be discontinuously transmitted because of the activation detection of conversational service and source changes of data service. The activity factor is defined as the ratio of signal transmission time to channel occupation time. The activity factors of the same transport channel might be different in UL and DL.NONOAdmission ControlInterval Type0~1000~1, step: 0.01None100100RNCThis parameter is valid only when "AFSetObj" is set to GOLD, SILVER, or COPPER.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUAICHCellIdCell IDADD UAICH(Mandatory)RMV UAICH(Mandatory)ID of a cell. For detailed information about this parameter, see 3GPP TS 25.401.YESYESNoneInterval Type0~655350~65535NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot InvolvedNoneThe parameter modification has no impact on the equipment.NoneUAICHPRACHPhyChIdPRACH IDADD UAICH(Optional)Uniquely identifying a PRACH in a cell corresponding to the AICHYESNO3GPP SpecificationsInterval Type0~2550~255None44CellNoneNot involvedNot involvedNot involvedThis parameter cannot be modified.Not involvedNoneUAICHPhyChIdAICH IDADD UAICH(Optional)RMV UAICH(Mandatory)Uniquely identifying an AICH in a cellYESNO3GPP SpecificationsInterval Type0~2550~255None66Physical channelNoneNot involvedNot involvedNot involvedThis parameter cannot be modified.Not involvedNoneUAICHAICHTxTimingAICH Transmission TimingADD UAICH(Optional)This parameter specifies the transmission timing information of an AICH relative to uplink PRACH. "0" indicates that there are 7680 chips offset between the access preamble of the PRACH and AICH. "1" indicates that there are 12800 chips offset between them. For detailed information of this parameter, refer to 3GPP TS 25.211.NONOOpen Loop Power ControlInner Loop Power ControlInterval Type0~10~1None11CellNoneNot involvedNot involvedNot involvedThis parameter cannot be modified.Not involvedNoneUAICHSTTDIndSTTD IndicatorADD UAICH(Optional)This parameter indicates whether the SCCPCH shall use STTD or not. For detailed information of this parameter, refer to 3GPP 25.346.NONOPhysical Channel ManagementEnumeration TypeTRUE, FALSETRUE, FALSENonePhysical channelNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUAICHPWROFFSETCellIdCell IDMOD UAICHPWROFFSET(Mandatory)ID of a cell. For detailed information about this parameter, see 3GPP TS 25.401.YESYESNoneInterval Type0~655350~65535NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot InvolvedNoneThe parameter modification has no impact on the equipment.NoneUAICHPWROFFSETAICHPowerOffsetAICH Power OffsetMOD UAICHPWROFFSET(Mandatory)This parameter specifies the power offset between the transmit power of an AICH and that of P-CPICH.NOYESOpen Loop Power ControlInterval Type-22~5-22~5dB-6-6Physical channelNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.If the value is set too small, the UEs on the cell edge cannot receive the acquisition indication properly. This problem affects the coverage of the downlink common channel and furthermore the coverage of the cell. If the value is set too great, it causes interference to other channels, occupies the downlink transmit power, and affects the cell capacity.UAMRCDlThdE1DL E1 Event Relative ThresholdSET UAMRC(Optional)Threshold E1 of DL AMR speech rate adjustment. Periodical reporting is used for DL measurement. When the value calculated on the basis of the measurement report is higher than the upper threshold E1, AMRC lowers the DL AMR speech rate by one level. This parameter specifies the relative threshold. The absolute threshold is equal to the maximum DL TX power minus the relative threshold.NONOAMR/WB-AMR Speech Rates ControlInterval Type0~5590~55.9, step: 0.1dB5050RNCThe following relationship must be satisfied: "DlThdE1" = "MtchRsvPwr".No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCACMtchRsvSfMTCH reserve SFADD UCELLCAC(Optional)MOD UCELLCAC(Optional)Available guarantee codes of all the MTCHs. This parameter is a protection for the MBMS PTM bearing.NONOAdmission ControlInterval Type0~630~63None1616CellThe value of this parameter must satisfy the following relationship:"MtchMaxSf" >= "MtchRsvSf"No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCACMtchMaxPwrMTCH maximal powerADD UCELLCAC(Optional)MOD UCELLCAC(Optional)Available guarantee codes of all the MTCHs. This parameter is a protection for the MBMS PTM bearing. When the codes of all the MTCHs are few, pre-emption of MBMS PTM bearing should be avoided. This is because the MBMS PTM bearing serves multiple users at the same time. The value should not be too high. Otherwise, all the system resources may be consumed by the MBMS PTM bearing and too little capacity is left for the non-MBMS services.NONOAdmission ControlInterval Type0~1000~1, step:0.01%6060CellThe value of this parameter must satisfy the following relationship:"MtchMaxPwr" >= "MtchRsvPwr"No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCACMtchMaxSfMTCH maximal SFADD UCELLCAC(Optional)MOD UCELLCAC(Optional)Maximum code limit of all the MTCHs. This parameter is a limit to the maximum bearing of the MBMS PTM bearing. When the code of all the MTCHs is few, pre-emption of MBMS PTM bearing should be avoided. This is because the MBMS PTM bearing serves multiple users at the same time. The value should not be too high. Otherwise, all the system resources may be consumed by the MBMS PTM bearing and too little capacity is left for the non-MBMS services.NONOAdmission ControlInterval Type0~630~63None4040CellThe value of this parameter must satisfy the following relationship:"MtchMaxSf" >= "MtchRsvSf"No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCACUlHoCeResvSfUL handover credit reserved SFADD UCELLCAC(Optional)MOD UCELLCAC(Optional)Uplink Credit Reserved by Spread Factor for HandOver. SFOFF means that none of them are reserved for handover.NONOAdmission ControlEnumeration TypeSF4(SF4), SF8(SF8), SF16(SF16), SF32(SF32), SF64(SF64), SF128(SF128), SF256(SF256), SFOFF(SFOFF)SF4, SF8, SF16, SF32, SF64, SF128, SF256, SFOFFNoneSF16SF16CellThe value of this parameter must satisfy the following relationship:"UlHoCeResvSf" >= "UlLdrCreditSfResThd". The comparison between the spreading factors is based on the number following the acronym "SF", for example, SF32>SF8. (For detailed information, refer to "ADD UCELLLDR".)No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.The backer position the value is in {SF4,SF8,SF16,SF32,SF64,SF128,SF256,SFOFF}, the less code and credit resources reserved for handover UEs. The possibility of rejecting handover UE admissions increases and performance of UEs cannot be guaranteed. The more frontal position the value is, the more the possibility of rejecting new UEs is and some idle resources are wasted.UCELLCACDlHoCeCodeResvSfDL handover credit and code reserved SFADD UCELLCAC(Optional)MOD UCELLCAC(Optional)Some cell resources can be reserved for handover UEs to guarantee handover success rate and improve access priority of handover services. This parameter defines the quantity of downlink code and CE resources reserved for handover. SFOFF refers to that no resources is reserved. SF32 refers to that a code resource with SF = 32 and its corresponding credit resource are reserved.NONOAdmission ControlEnumeration TypeSF4(SF4), SF8(SF8), SF16(SF16), SF32(SF32), SF64(SF64), SF128(SF128), SF256(SF256), SFOFF(SFOFF)SF4, SF8, SF16, SF32, SF64, SF128, SF256, SFOFFNoneSF32SF32CellThe value of this parameter must satisfy the following relationship:"DlHoCeCodeResvSf" >= "DlLdrCreditSfResThd";"DlHoCeCodeResvSf" >= "CellLdrSfResThd". The comparison between the spreading factors is based on the number following the acronym "SF", for example, SF32>SF8.(For detailed information, refer to "ADD UCELLLDR")No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.The backer position the value is in {SF4,SF8,SF16,SF32,SF64,SF128,SF256,SFOFF}, the less code and credit resources reserved for handover UEs. The possibility of rejecting handover UE admissions increases and performance of UEs cannot be guaranteed. The more frontal position the value is, the more the possibility of rejecting new UEs is and some idle resources are wasted.UCELLCACBgnStartTimeBackground noise update start timeADD UCELLCAC(Mandatory)MOD UCELLCAC(Mandatory)(1) This parameter, along with the [Algorithm stop time], is used to limit the validation time of the background noise automatic update algorithm. If [Algorithm stop time] is greater than [Algorithm start time], and the background noise automatic update algorithm is enabled, then the algorithm is activated during the period of [Algorithm stop time] to [Algorithm start time] each day. In other periods, the algorithm fails. If [Algorithm stop time] is less than [Algorithm start time], and the background noise automatic update algorithm is enabled, then the algorithm is activated during the period of [Algorithm stop time] each day to [Algorithm start time] of the next day. In other periods, the algorithm fails.(2) Input format: HH&MM&SSNOYESAdmission ControlLoad MeasurementCompound Typehour, min, sechour{0~23}, min{0~59}, sec{0~59}NoneNone01&00&00CellThe value of this parameter must satisfy the following relationship:"BgnEndTime" >"MBgnStartTime" .No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCACBgnEndTimeBackground noise update end timeADD UCELLCAC(Mandatory)MOD UCELLCAC(Mandatory)(1) This parameter, along with the [Algorithm start time], is used to limit the validation time of the background noise automatic update algorithm. If [Algorithm stop time] is greater than [Algorithm start time], and the background noise automatic update algorithm is enabled, then the algorithm is activated during the period of [Algorithm stop time] to [Algorithm start time] each day. In other periods, the algorithm fails. If [Algorithm stop time] is less than [Algorithm start time], and the background noise automatic update algorithm is enabled, then the algorithm is activated during the period of [Algorithm stop time] each day to [Algorithm start time] of the next day. In other periods, the algorithm fails(2) Input format: HH&MM&SSNOYESAdmission ControlLoad MeasurementCompound Typehour, min, sechour{0~23}, min{0~59}, sec{0~59}NoneNone06&00&00CellThe value of this parameter must satisfy the following relationship:"BgnEndTime" >"MBgnStartTime" .No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCACBgnUpdateThdBackground noise update trigger thresholdADD UCELLCAC(Optional)MOD UCELLCAC(Optional)The difference of RTWP that trigger the update of background noise. If the difference is larger than the threshold, the background will be updated.NONOAdmission ControlLoad MeasurementInterval Type1~1000.1~10, step:0.1dBm55CellThe value of this parameter must satisfy the following relationship:"BgnAbnormalThd" >= "BgnUpdateThd"No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCACBgnAbnormalThdBackground noise abnormal thresholdADD UCELLCAC(Optional)MOD UCELLCAC(Optional)This parameter is applied when "BGNSwitch" is set to ON. (1) If the difference of measured background noise without filtered and the current background noise is larger than the RTWP threshold, the background noise will not be updated. (2) If the difference of new background noise and the configured value is larger than the RTWP threshold, the background noise will not be updated.NONOAdmission ControlLoad MeasurementInterval Type1~4000.1~40, step:0.1dB100100CellThe value of this parameter must satisfy the following relationship:"BgnAbnormalThd" >= "BgnUpdateThd"No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCACMAXEFACHUserNumMaximum EFACH user numberADD UCELLCAC(Optional)MOD UCELLCAC(Optional)The parameter indicates the max user number the EFACH channel can supports.NONOAdmission ControlInterval Type0~480~48None4848CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCACCellUlEquNumCapacityCell Uplink Capacity of Equal User NumberADD UCELLCAC(Optional)MOD UCELLCAC(Optional)Used to check whether the number of equivalent users is overlarge in a cell. If the rate of equivalent users to total equivalent users allowed in the cell is greater than this parameter, the number of equivalent users will be judged as overlarge, Otherwise the number of equivalent users will not be judged as overlarge. If the number of equivalent users is not overlarge, and the switch of RTWP anti-interference algorithm is enabled, the RTWP anti-interference algorithm is validated. Admission requests will be accepted even when the RTWP value is great, and related OLC operations will be cancelled.NONONoneInterval Type0~1000~1, step:0.01%4040CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.With the RTWP anti-interference switch enabled, if this parameter is set to a small value, the number of equivalent users will be easy to be judged as overlarge. That is, the probability of accepting an admission request becomes low, and OLC operations will be performed. In this case, cell capacity may not be fully used. If this parameter is set to a great value, the number of equivalent users will be hard to be judged as overlarge. That is, the probability of accepting an admission request becomes high, and OLC operations may be cancelled. In this case, cell load may become heavy.UCELLCACHsdpaMaxGBPThdThreshold of Maximum Guaranteed Bit Rates for HSDPAADD UCELLCAC(Optional)MOD UCELLCAC(Optional)Threshold of the maximum guaranteed power for HSDPA users. This threshold limits the power that can be used by HSDPA users. Thus, some power resources are reserved for DCH users to ensure their network access.NONONoneInterval Type0~1000~1, step:0.01%100100CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.If this parameter is set to a too great value, the guaranteed power of HSDPA users is high, and the power available for DCH users is low. As a result, the capacity of the cell decreases.UCELLCACHsupaMaxGBPThdThreshold of Maximum Guaranteed Bit Rates for HSUPAADD UCELLCAC(Optional)MOD UCELLCAC(Optional)Threshold of the maximum guaranteed power for HSUPA users. This threshold limits the power that can be used by HSUPA users. Thus, some power resources are reserved for DCH users to ensure their network access.NONONoneInterval Type0~1000~1, step:0.01%100100CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.If this parameter is set to a too great value, the guaranteed power of HSUPA users is high, and the power available for DCH users is low. As a result, the capacity of the cell decreases.UCELLCBSDRXCellIdCell IDADD UCELLCBSDRX(Mandatory)RMV UCELLCBSDRX(Mandatory)ID of a cell. For detailed information about this parameter, see 3GPP TS 25.401.YESYESNoneInterval Type0~655350~65535NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot InvolvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCBSSACCellIdCell IDADD UCELLCBSSAC(Mandatory)MOD UCELLCBSSAC(Mandatory)RMV UCELLCBSSAC(Mandatory)Uniquely identifying a cell. For detailed information of this parameter, refer to 3GPP TS 25.401.YESYES3GPP SpecificationsStreaming QoS ClassIntra RNC Cell UpdateIntra RNC URA UpdateInter RNC URA UpdateDynamic Channel Configuration Control (DCCC)Shared Network Support in Connected ModeNACC Procedure OptimizationMBSC Load BalancingMBSC Service DistributionMBSC Handover based on Load EnhancementMulti-Carrier Switch off Based on Traffic LoadCell ID + RTT Function Based LCSOTDOA Based LCSA-GPS Based LCSLCS over IurCell BarringDedicated Carrier for Each OperatorMOCN Introduction PackageCarrier Sharing by OperatorsRNC Node RedundancySatellite Transmission on Iub InterfaceLoad Based 3G-2G Handover Enhancement Based on Iur-gInterval Type0~655350~65535NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNot involvedThe parameter modification has no impact on the equipment.NoneUCELLCBSSACCnOpIndexCn Operator IndexADD UCELLCBSSAC(Mandatory)MOD UCELLCBSSAC(Mandatory)Represent an index for a CN operator.NOYESRAN Sharing Introduction PackageMOCN Introduction PackageInterval Type0~30~3NoneNoneNoneRNCNoneNot involvedNot involvedNot involvedThis parameter cannot be modified.Not involvedNoneUCELLCMCFCellIdCell IDADD UCELLCMCF(Mandatory)RMV UCELLCMCF(Mandatory)MOD UCELLCMCF(Mandatory)Unique ID of a cellYESYESIntra Node B Softer HandoverInterval Type0~655350~65535NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCMCFCmcfCellTypeCM Cell TypeADD UCELLCMCF(Optional)MOD UCELLCMCF(Optional)CM type of the cell.The CM parameters are configured on the basis of the CM type of the cell. That is, the CM sequence number is determined after the CM type of the cell is determined.NONOInter-RAT Handover Based on CoverageInter Frequency Hard Handover Based on CoverageEnumeration TypeWALKING_SPEED_AND_HOT_SPOT_CELL, MID_SPEED_AND_HOT_SPOT_CELL, HIGH_SPEED_AND_HOT_SPOT_CELL, LOW_SPEED_AND_MEDIUM_COVERAGE_CELL, HIGH_SPEED_AND_MEDIUM_COVERAGE_CELL, LOW_SPEED_AND_HIGH_COVERAGE_CELL, HIGH_SPEED_AND_HIGH_COVERAGE_CELL, OTHER_CELLWALKING_SPEED_AND_HOT_SPOT_CELL, MID_SPEED_AND_HOT_SPOT_CELL, HIGH_SPEED_AND_HOT_SPOT_CELL, LOW_SPEED_AND_MEDIUM_COVERAGE_CELL, HIGH_SPEED_AND_MEDIUM_COVERAGE_CELL, LOW_SPEED_AND_HIGH_COVERAGE_CELL, HIGH_SPEED_AND_HIGH_COVERAGE_CELL, OTHER_CELLNoneWALKING_SPEED_AND_HOT_SPOT_CELLWALKING_SPEED_AND_HOT_SPOT_CELLCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCMCFDlSFTurnPointDL SF ThresholdADD UCELLCMCF(Optional)MOD UCELLCMCF(Optional)Downlink compressed mode (CM) implementation mode selection threshold. When the downlink spreading factor is greater than or equal to the value of this parameter, the SF/2 mode is preferred. Otherwise, the high-layer scheduling mode is preferred.The SF/2 mode consumes more system resources and therefore this mode is recommended only for low-rate users. The high-layer scheduling mode requires variable multiplexing positions of transport channels and is applicable to a relatively narrow range. In addition, this approach affects the transmission rate of users. Therefore, this mode is recommended only when the SF/2 approach is unavailable or there are high-rate users.NONOInter-RAT Handover Based on CoverageInter Frequency Hard Handover Based on CoverageEnumeration TypeD8, D16, D32, D64, D128, D2568, 16, 32, 64, 128, 256NoneD64D64CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLCMCFUlSFTurnPointUL SF thresholdADD UCELLCMCF(Optional)MOD UCELLCMCF(Optional)Uplink CM implementation mode selection threshold. When the uplink spreading factor is greater than or equal to the value of this parameter, the SF/2 mode is preferred. Otherwise, the high-layer scheduling mode is preferred.The SF/2 mode consumes more system resources and therefore this mode is recommended only for low-rate users. The high-layer scheduling mode requires variable multiplexing positions of transport channels and is applicable to a relatively narrow range. In addition, this approach affects the transmission rate of users. Therefore, this mode is recommended only when the SF/2 approach is unavailable or there are high-rate users.NONOInter-RAT Handover Based on CoverageInter Frequency Hard Handover Based on CoverageEnumeration TypeD8, D16, D32, D64, D128, D2568, 16, 32, 64, 128, 256NoneD64D64CellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDCCCCellIdCell IDADD UCELLDCCC(Mandatory)RMV UCELLDCCC(Mandatory)MOD UCELLDCCC(Mandatory)ID of a cell. For detailed information about this parameter, see 3GPP TS 25.401.YESYESNoneInterval Type0~655350~65535NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot InvolvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDCCCBePwrMarginBE Event F Reporting Power MarginADD UCELLDCCC(Optional)MOD UCELLDCCC(Optional)The relative power margin of single BE traffic, used to calculate the triggering threshold of event F, can avoid the fluctuation of traffic rate in case the power becomes restricted after rate is increased.NONODynamic Channel Configuration Control (DCCC)Interval Type0~1000~10, step: 0.1dB1010CellThis parameter is available if the value of "BEQosPerform" in "SET UQOSACT" is YES.No (No impact on the UE in idle mode)Not involvedNot involvedNoneNot involvedNoneUCELLDCCCCombPwrMarginComb Event F Reporting Power MarginADD UCELLDCCC(Optional)MOD UCELLDCCC(Optional)The relative power margin of combined traffics, used to calculate the triggering threshold of event F, can avoid the fluctuation of traffic rate in case the power becomes restricted after rate is increased.NONODynamic Channel Configuration Control (DCCC)Interval Type0~1000~10, step: 0.1dB2020CellThis parameter is available if the value of "BEQosPerform" in "SET UQOSACT" is YES.No (No impact on the UE in idle mode)Not involvedNot involvedNoneNot involvedNoneUCELLDCCCUlFullCvrRateUplink Full Coverage Bit RateADD UCELLDCCC(Optional)MOD UCELLDCCC(Optional)Maximum UL rate when coverage of the entire cell is ensured under certain load. For a BE service that has a low maximum rate, the DCCC algorithm is not obviously effective yet it increases algorithm processing. Thus, the coverage-based DCCC algorithm is applied to BE services whose maximum UL rate is greater than the threshold.NONODynamic Channel Configuration Control (DCCC)Enumeration TypeD8, D16, D32, D64, D128, D144, D256, D3848, 16, 32, 64, 128, 144, 256, 384kbit/sD64D64CellThis parameter is available if the value of "BEQosPerform" in "SET UQOSACT" is YES.No (No impact on the UE in idle mode)Not involvedNot involvedNoneNot involvedNoneUCELLDCCCDlFullCvrRateDownlink Full Coverage Bit RateADD UCELLDCCC(Optional)MOD UCELLDCCC(Optional)Maximum DL rate during network planning when coverage of the entire cell is ensured. When the DL TCP is limited, the current rate is reduced to the full coverage rate if the current rate is greater than the full coverage rate. For a BE service that has a low maximum rate, the DCCC algorithm is not obviously effective yet it increases algorithm processing. Thus, the DCCC algorithm is applied to BE services whose maximum DL rate is greater than the threshold.NONODynamic Channel Configuration Control (DCCC)Enumeration TypeD8, D16, D32, D64, D128, D144, D256, D3848, 16, 32, 64, 128, 144, 256, 384kbit/sD64D64CellThis parameter is available if the value of "BEQosPerform" in "SET UQOSACT" is YES.No (No impact on the UE in idle mode)Not involvedNot involvedNoneNot involvedNoneUCELLDISTANCEREDIRECTIONCellIdCell IDADD UCELLDISTANCEREDIRECTION(Mandatory)MOD UCELLDISTANCEREDIRECTION(Mandatory)RMV UCELLDISTANCEREDIRECTION(Mandatory)Unique ID of a cellYESYESNoneInterval Type0~655350~65535NoneNoneNoneNoneNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDISTANCEREDIRECTIONRedirSwitchRedirection SwitchADD UCELLDISTANCEREDIRECTION(Optional)MOD UCELLDISTANCEREDIRECTION(Optional)This parameter specifies whether the distance based RRC redirection algorithm is valid. The algorithm is valid only when the switch is set to ON.NONOInter-RAT Redirection Based on DistanceEnumeration TypeOFF, ONOFF, ONNoneOFFNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDISTANCEREDIRECTIONDelayThsPropagation delay thresholdADD UCELLDISTANCEREDIRECTION(Optional)MOD UCELLDISTANCEREDIRECTION(Optional)Redirection algorithm works only when the propagation delay between UE and NodeB is larger then this threshold. For details, see 3GPP TS 25.433.NONOInter-RAT Redirection Based on DistanceInterval Type0~2550~765, step: 3chip255NoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDISTANCEREDIRECTIONRedirFactorOfLDRRedirection Factor Of LDRADD UCELLDISTANCEREDIRECTION(Optional)MOD UCELLDISTANCEREDIRECTION(Optional)When the UL load state or DL load state of the serving cell is LDR(basic congestion) or OLC(overload congestion), a UE may be redirected to another cell according to the distance between UE and current cell. This parameter specifies the possibility of redirecting the UE to another cell. When this parameter is set to 0, the distance based RRC redirection is not performed if the load state on the serving cell is LDR or OLC.NONOInter-RAT Redirection Based on DistanceInterval Type0~1000~100%50NoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDISTANCEREDIRECTIONRedirFactorOfNormRedirection Factor Of NormalADD UCELLDISTANCEREDIRECTION(Optional)MOD UCELLDISTANCEREDIRECTION(Optional)When the load of the serving cell is within the normal range, a UE may be redirected to another cell according to the distance between UE and current cell. This parameter specifies the possibility of redirecting the UE to another cell. When this parameter is set to 0, the RRC redirection is not performed if the load of the serving cell is within the normal range.NONOInter-RAT Redirection Based on DistanceInterval Type0~1000~100%0NoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDCellIdCell IDADD UCELLDRD(Mandatory)MOD UCELLDRD(Mandatory)RMV UCELLDRD(Mandatory)Unique ID of a cellYESYESNoneInterval Type0~655350~65535NoneNoneNoneNoneNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDDRMaxGSMNumMaximum Times of Inter-RAT Direct RetryADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Maximum number of inter-RAT RAB directed retries. It decides the size of the candidate set for inter-RAT DRD. The value 0 indicates that inter-RAT RAB DRD is not applicable. This parameter can be cell-oriented.NONOInter System Direct RetryInterval Type0~50~5None22CellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDServiceDiffDrdSwitchService Steering DRD SwitchADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Whether the service steering DRD algorithm is applied.NONOService Steering and Load Sharing in RRC Connection SetupEnumeration TypeON, OFFON, OFFNoneOFFOFFCellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDLdbDRDSwitchDCHLoad balance DRD switch for DCHADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Whether the load balancing DRD algorithm is applied to DCH services. - ON: The load balancing DRD algorithm will be applied. - OFF: The load balancing DRD algorithm will not be applied.NONODRD Introduction PackageEnumeration TypeON, OFFON, OFFNoneOFFOFFCellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDLdbDRDSwitchHSDPALoad balance DRD switch for HSDPAADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Whether the load balancing DRD algorithm is applied to HSDPA services. - ON: The load balancing DRD algorithm will be applied. - OFF: The load balancing DRD algorithm will not be applied.NONOHSDPA DRDEnumeration TypeON, OFFON, OFFNoneOFFOFFCellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDLdbDRDchoiceLoad Balancing DRD ChoiceADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Whether load balancing DRD is based on power or on user number. - Power: Power(Downlink none-HSDPA power is used for DCH services, and downlink HSDPA guarantee power is used for HSDPA services) will be applied to the load balancing DRD algorithm. - UserNumber: User number(Downlink R99 equivalent user number is used for DCH services, and downlink HSDPA user number is used for HSDPA services) will be applied to the load balancing DRD algorithm.NONODRD Introduction PackageEnumeration TypePower, UserNumberPower, UserNumberNoneUserNumberUserNumberCellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDLdbDRDLoadRemainThdDCHDl load balance DRD power remain threshold for DCHADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Downlink load threshold to trigger load balancing DRD for DCH services. The load balancing DRD will be triggered only when the downlink remnant non-H power or remnant R99 equivalent user number of the cell is less than this threshold.NONODRD Introduction PackageInterval Type0~1000~100%3535CellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails. This parameter is valid only when the "LdbDRDSwitchDCH" parameter is set to ON.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDLdbDRDLoadRemainThdHSDPADl load balance DRD power remain threshold for HSDPAADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Downlink load threshold to trigger load balancing DRD for HSDPA services. The load balancing DRD will probably be triggered only when the downlink remnant HSDPA guarantee power or remnant HSDPA user number of the cell is less than this threshold.NONOHSDPA DRDInterval Type0~1000~100%100100CellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails. This parameter is valid only when the "LdbDRDSwitchHSDPA" parameter is set to ON.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDCodeBalancingDrdSwitchCode Balancing DRD SwitchADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Whether to apply the code balancing DRD algorithm. The "DR_RAB_SING_DRD_SWITCH" parameter in "SET UCORRMALGOSWITCH" needs to be enabled. For combination services, the "DR_RAB_COMB_DRD_SWITCH" parameter needs to be enabled.NONODRD Introduction PackageEnumeration TypeON, OFFON, OFFNoneOFFOFFCellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDCodeBalancingDrdMinSFThdMinimum SF Threshold for Code Balancing DRDADD UCELLDRD(Optional)MOD UCELLDRD(Optional)One of the triggering conditions of code balancing DRD. The other condition is the code occupancy threshold. Code balancing DRD is applied only when the minimum spreading factor in the best cell is not lower than the value of this parameter.NONODRD Introduction PackageEnumeration TypeSF4, SF8, SF16, SF32, SF64, SF128, SF256SF4, SF8, SF16, SF32, SF64, SF128, SF256NoneSF8SF8CellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails. This parameter is valid only when the "CodeBalancingDrdSwitch" parameter is set to ON.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDCodeBalancingDrdCodeRateThdCode Occupancy Thres for Code Balancing DRDADD UCELLDRD(Optional)MOD UCELLDRD(Optional)One of the triggering conditions of code balancing DRD. The other condition is the minimum spreading factor. Code balancing DRD is applied only when the code occupancy in the best cell is not lower than the value of this parameter.NONODRD Introduction PackageInterval Type0~1000~100%1313CellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails. This parameter is valid only when the "CodeBalancingDrdSwitch" parameter is set to ON.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDReDirBandIndReDirection target band indicatorADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Frequency band of the target UL and DL UARFCNs to which the UE is redirected. It is recommended that this parameter is set to Depending on the configuration of neighboring cells without the consideration of NRNC neighboring cells, that is, in the non-overlapped network. This helps avoid auto-redirection. Auto-redirection is a case in which redirection is initiated in the current cell when the UARFCN to which the UE is redirected is the same as that of the current cell.NONODRD Introduction PackageInter System RedirectEnumeration TypeBand1, Band2, Band3, Band4, Band5, Band6, Band7, Band8, Band9, DependOnNCell, BandIndNotUsedBand1, Band2, Band3, Band4, Band5, Band6, Band7, Band8, Band9, DependOnNCell, BandIndNotUsedNoneDependOnNCellDependOnNCellCellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDReDirUARFCNUplinkIndRedirection Target UL Frequency IndexADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Whether the target UL UARFCN to which the UE is redirected needs to be configured. TRUE indicates that the UL UARFCN needs to be configured. FALSE indicates that the UL UARFCN need not be manually configured and it is automatically configured according to the relation between the UL and DL UARFCNs.NONOInter System RedirectEnumeration TypeTRUE, FALSETRUE, FALSENoneNoneNoneCellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDReDirUARFCNUplinkRedirection target uplink UARFCNADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Target uplink UARFCN of a cell for RRC redirection. The value range of the UL UARFCN depends on the value of "RedirBandInd". The relation between "RedirBandInd" and the value range of the UL UARFCN is as follows: BAND1Common UARFCNs: [9612-9888]Special UARFCNs: noneBAND2Common UARFCNs: [9262-9538]Special UARFCNs: {12, 37, 62, 87, 112, 137, 162, 187, 212, 237, 262, 287}BAND3Common UARFCNs: [937-1288]Special UARFCNs: noneBAND4Common UARFCNs: [1312-1513]Special UARFCNs: {1662, 1687, 1712, 1737, 1762, 1787, 1812, 1837, 1862}BAND5Common UARFCNs: [4132-4233]Special UARFCNs: {782, 787, 807, 812, 837, 862}BAND6Common UARFCNs: [4162-4188]Special UARFCNs: {812, 837}BAND7Common UARFCNs: [2012-2338]Special UARFCNs: {2362, 2387, 2412, 2437, 2462, 2487, 2512, 2537, 2562, 2587, 2612, 2637, 2662, 2687}BAND8Common UARFCNs: [2712-2863]Special UARFCNs: noneBAND9Common UARFCNs: [8762-8912]Special UARFCNs: noneBandIndNotUsed: [0-16383]If the UL UARFCN is not manually configured, if RedirBandInd is set to BAND1, BAND2, BAND3, BAND4, BAND5, BAND6, BAND7, BAND8, or BAND9, and if the DL UARFCN is valid, then the target UL UARFCN of the redirection is automatically configured according to the following principles: If the DL UARFCN is a common UARFCN, the relation between the UL UARFCN and the DL UARFCN is as follows: BAND1: UL UARFCN = DL UARFCN - 950BAND2: UL UARFCN = DL UARFCN - 400BAND3: UL UARFCN = DL UARFCN - 225BAND4: UL UARFCN = DL UARFCN - 225BAND5: UL UARFCN = DL UARFCN - 225BAND6: UL UARFCN = DL UARFCN - 225BAND7: UL UARFCN = DL UARFCN - 225BAND8: UL UARFCN = DL UARFCN - 225BAND9: UL UARFCN = DL UARFCN - 475If the DL UARFCN is a special UARFCN, the relation between the UL UARFCN and the DL UARFCN is as follows:BAND2: UL UARFCN = DL UARFCN - 400BAND4: UL UARFCN = DL UARFCN - 225BAND5: UL UARFCN = DL UARFCN - 225BAND6: UL UARFCN = DL UARFCN - 225BAND7: UL UARFCN = DL UARFCN - 225NONOService Steering and Load Sharing in RRC Connection SetupInterval Type0~163830~16383NoneNoneNoneCellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.This parameter is required only when the "ReDirUARFCNUplinkInd" parameter is set to TRUE.The value range of this parameter depends on the setting of the "ReDirBandInd" parameter, as shown below:BAND1 Common UARFCNs: [9612-9888] Special UARFCNs: noneBAND2 Common UARFCNs: [9262-9538] Special UARFCNs: {12, 37, 62, 87, 112, 137, 162, 187, 212, 237, 262, 287}BAND3 Common UARFCNs: [937-1288] Special UARFCNs: noneBAND4 Common UARFCNs: [1312-1513] Special UARFCNs: {1662, 1687, 1712, 1737, 1762, 1787, 1812, 1837, 1862}BAND5 Common UARFCNs: [4132-4233] Special UARFCNs: {782, 787, 807, 812, 837, 862}BAND6 Common UARFCNs: [4162-4188] Special UARFCNs: {812, 837}BAND7 Common UARFCNs: [2012-2338] Special UARFCNs: {2362, 2387, 2412, 2437, 2462, 2487, 2512, 2537, 2562, 2587, 2612, 2637, 2662, 2687}BAND8 Common UARFCNs: [2712-2863] Special UARFCNs: noneBAND9 Common UARFCNs: [8762-8912] Special UARFCNs: noneBandIndNotUsed [0-16383]No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDReDirUARFCNDownlinkRedirection target downlink UARFCNADD UCELLDRD(Optional)MOD UCELLDRD(Optional)Target DL UARFCN for the RRC redirection. Different values of "RedirBandInd" correspond to different value ranges of the UARFCN.NONODRD Introduction PackageInterval Type0~163830~16383NoneNoneNoneCellIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command prevails.The value range of this parameter depends on the setting of the "ReDirBandInd" parameter, as shown below:BAND1 Common UARFCNs: [10562-10838] Special UARFCNs: noneBAND2 Common UARFCNs: [9662-9938] Special UARFCNs: {412, 437, 462, 487, 512, 537, 562, 587, 612, 637, 662, 687}BAND3 Common UARFCNs: [1162-1513] Special UARFCNs: noneBAND4 Common UARFCNs: [1537-1738] Special UARFCNs: {1887, 1912, 1937, 1962, 1987, 2012, 2037, 2062, 2087}BAND5 Common UARFCNs: [4357-4458] Special UARFCNs: {1007, 1012, 1032, 1037, 1062, 1087}BAND6 Common UARFCNs: [4387-4413] Special UARFCNs: {1037, 1062}BAND7 Common UARFCNs: [2237-2563] Special UARFCNs: {2587, 2612, 2637, 2662, 2687, 2712, 2737, 2762, 2787, 2812, 2837, 2862, 2887, 2912}BAND8 Common UARFCNs: [2937-3088] Special UARFCNs: noneBAND9 Common UARFCNs: [9237-9387] Special UARFCNs: noneBandIndNotUsed [0-16383]No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDULLdbDRDSwitchDcHSDPAUplink load balance DRD Switch for DC-HSDPAADD UCELLDRD(Optional)MOD UCELLDRD(Optional)This parameter specifies whether to enable the uplink load balance for DC-HSDPA traffic. The uplink load balance is performed on the basis of the equivalent number of users.NONOInter System Direct RetryEnumeration TypeON, OFFON, OFFNoneOFFONRNCIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command takes precedence over that set through the "SET UDRD" command.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDULLdbDRDLoadRemainThdDcHSDPAUplink load balance DRD remain threshold for DC-HSDPAADD UCELLDRD(Optional)MOD UCELLDRD(Optional)This parameter specifies the threshold of triggering the uplink load balance for DC-HSDPA traffic. If the remaining number of equivalent users in the uplink is less than the value of this parameter, uplink load balance for DC-HSDPA traffic is triggered.NONOInter System Direct RetryInterval Type0~1000~100%2525RNCIf this parameter is set through both the "ADD UCELLDRD" and "SET UDRD" commands, the parameter set through the "ADD UCELLDRD" command takes precedence over that set through the "SET UDRD" command.No (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOCellIdCell IDADD UCELLDRDMIMO(Mandatory)MOD UCELLDRDMIMO(Mandatory)RMV UCELLDRDMIMO(Mandatory)Unique ID of a cellYESYESNoneInterval Type0~655350~65535NoneNoneNoneNoneNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOLegacyHDrdSwitchOfSTTDDRD Switch for LegacyH under STTDADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)Whether to enable DRD for technological satisfaction of non-MIMO legacyH in STTD mode.NONOInter Frequency Load BalanceEnumeration TypeON, OFFON, OFFNoneOFFOFFRNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOLegacyHDrdSwitchOfSCPICHDRD Switch for LegacyH under P and S CPICHADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)Whether to enable DRD for technological satisfaction of non-MIMO legacyH in primary and secondary CPICH mode.NONOInter Frequency Load BalanceEnumeration TypeON, OFFON, OFFNoneOFFOFFRNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOCQIRefValueOfSTTDCQI reference value for STTDADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)Reference CQI for determining the channel condition by comparing with the CQI threshold during RAB setup.NONOInter Frequency Load BalanceInterval Type0~300~30None1010RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOCQIRefValueOfSCPICHCQI reference value for P and S CPICHADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)Reference CQI for determining the channel condition by comparing with the CQI threshold during RAB setup.NONOInter Frequency Load BalanceInterval Type0~300~30None1010RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOExcellentCQIThdOfSTTDExcellent CQI Threshold for STTDADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)CQI threshold for determining that the channel condition is Excellent.NONOInter Frequency Load BalanceInterval Type0~300~30None2525RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOGoodCQIThdOfSTTDGood CQI Threshold for STTDADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)CQI threshold for determining that the channel condition is Good.NONOInter Frequency Load BalanceInterval Type0~300~30None1717RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOBadCQIThdOfSTTDBad CQI Threshold for STTDADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)CQI threshold for determining that the channel condition is Bad.NONOInter Frequency Load BalanceInterval Type0~300~30None1515RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOExcellentCQIThdOfSCPICHExcellent CQI Threshold for P and S CPICHADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)CQI threshold for determining that the channel condition is Excellent.NONOInter Frequency Load BalanceInterval Type0~300~30None2525RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOGoodCQIThdOfSCPICHGood CQI Threshold for P and S CPICHADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)CQI threshold for determining that the channel condition is Good.NONOInter Frequency Load BalanceInterval Type0~300~30None2020RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDRDMIMOBadCQIThdOfSCPICHBad CQI Threshold for P and S CPICHADD UCELLDRDMIMO(Optional)MOD UCELLDRDMIMO(Optional)CQI threshold for determining that the channel condition is Bad.NONOInter Frequency Load BalanceInterval Type0~300~30None1515RNCNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDSACMANUALPARACellIdCell IDADD UCELLDSACMANUALPARA(Mandatory)MOD UCELLDSACMANUALPARA(Mandatory)RMV UCELLDSACMANUALPARA(Mandatory)ID of a cell. For detailed information about this parameter, see 3GPP TS 25.401.YESYESNoneInterval Type0~655350~65535NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot InvolvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDSACMANUALPARACnOpIndexCN Operator indexADD UCELLDSACMANUALPARA(Mandatory)MOD UCELLDSACMANUALPARA(Mandatory)RMV UCELLDSACMANUALPARA(Mandatory)Specifies the index of the telecom operator.YESYESDomain Specific Access Control (DSAC)Interval Type0~30~3NoneNoneNoneCellNoneNo (No impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDSACMANUALPARACsRestrictionRestriction for CSADD UCELLDSACMANUALPARA(Mandatory)MOD UCELLDSACMANUALPARA(Optional)Specifies whether to impose the access restriction on the CS domain.NOYESDomain Specific Access Control (DSAC)Enumeration TypeFALSE, TRUEFALSE, TRUENoneNoneNoneCellNoneNo (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDSACMANUALPARAPsRestrictionRestriction for PSADD UCELLDSACMANUALPARA(Mandatory)MOD UCELLDSACMANUALPARA(Optional)Specifies whether to impose the access restriction on the PS domain.NOYESDomain Specific Access Control (DSAC)Enumeration TypeFALSE, TRUEFALSE, TRUENoneNoneNoneCellNoneNo (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDSACMANUALPARARestrictionTypeRestriction TypeADD UCELLDSACMANUALPARA(Mandatory)MOD UCELLDSACMANUALPARA(Optional)Specifies the mode of restricting the access classes.NOYESDomain Specific Access Control (DSAC)Enumeration TypeRestrictionFixed, RestrictionFlexibleRestrictionFixed, RestrictionFlexibleNoneNoneNoneCellNoneNo (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDSACMANUALPARAAcRestrictionAC Restriction IndicatorADD UCELLDSACMANUALPARA(Mandatory)MOD UCELLDSACMANUALPARA(Mandatory)Specifies the access classes that are restricted according to the fixed restriction mode.NOYESDomain Specific Access Control (DSAC)Bit Field TypeAC0(Access Class 0 Restriction), AC1(Access Class 1 Restriction), AC2(Access Class 2 Restriction), AC3(Access Class 3 Restriction), AC4(Access Class 4 Restriction), AC5(Access Class 5 Restriction), AC6(Access Class 6 Restriction), AC7(Access Class 7 Restriction), AC8(Access Class 8 Restriction), AC9(Access Class 9 Restriction), AC10(Access Class 10 Restriction), AC11(Access Class 11 Restriction), AC12(Access Class 12 Restriction), AC13(Access Class 13 Restriction), AC14(Access Class 14 Restriction), AC15(Access Class 15 Restriction)AC0, AC1, AC2, AC3, AC4, AC5, AC6, AC7, AC8, AC9, AC10, AC11, AC12, AC13, AC14, AC15NoneNoneNoneCellWhen "RestrictionType" in "ADD UCELLDSACMANUALPARA" is RestrictionFixed, AcRestriction should be configured. When "RestrictionType" in "ADD UCELLDSACMANUALPARA" is RestrictionFlexible, AcRestriction should not be configured.No (Impact on the UE in idle mode)Not involvedNot involvedNoneThe parameter modification has no impact on the equipment.NoneUCELLDSACMANUALPARANumberOfACsNumber of restrained AC every timeADD UCELLDSACMANUAL