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Nokia Siemens Networks WCDMA RAN and I-HSPA, Rel. RU40, Operating Documentation, Pre-release, Issue 01

Flexi Multiradio BTS WCDMA Parameters

Nokia Siemens Networks Proprietary and Confidential

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ReportMO ClassFull NameAbbreviated Name3GPP nameDescriptionMultiplicityRelated functionsRelated parametersParameter relationshipsInterfacesRange and stepDefault valueDefault value notesInternal valueModificationRelated featuresReferencesANTLAdditional antenna line Rx gainadditionalRxGainAdditional Rx gain in decibels, is used in Gain calculation to compensate a Rx gain produced by an external device e.g. the base station when two radio modules are cross-connected together via RX diversity outputs sharing the antenna line. User shall know the gain produced by the external device to apply proper value here. Note: an MHA/TMA gain shall not be included in this parameter. The MHA/TMA gain is commissioned together with the MHA/TMA device commissioning and taken into account as default by the system.1EM WBTS, WBTS RAC, RAC RACApp0...99.9 dB, step 0.1 dB0 dBinternal_value = gui_value * 10BTS restart neededANTLAL DC voltage enabledalDcVoltageEnabledDefines if antenna line DC power is enabled/disabled for an antenna line. The DC power is enabled by default (when the file or parameter is not available for an AL). This parameter is most meaningful for an AL DC power1EM WBTS, WBTS RAC, RAC RACApp-BTS restart neededRAN1750 NetAct integrated RET management (optional)ANTLAntenna identifierantIdIdentifies the specific antenna port in Flexi Radio Module for antenna line.1EM WBTS, WBTS RAC, RAC RACAppANT1 (0), ANT2 (1), ANT3 (2), ANT4 (3), ANT5 (4), ANT6 (5)-BTS restart neededANTLAntenna round trip delayantennaRoundTripDelayThe delay of the all passive units of antenna line can be entered into this parameter, which is then used as the RTT value instead of calculating and defining value for each related parameter (ANTL: cableLength, multiplexerAmounth, multiplexerType, phsFilterTotalDelay, velocityFactor; MHA: active, downlinkDelay, mhaType, UplinkDelay). If related parameters is defined then outcoming value from formula (antennaRoundtripDelay = (10/(2.988*velocityFactor))*cablelenght*2 + delays from passive devices) shall be exactly same as defined to antennaRoundtripDelay parameter othewice there is coming validation warnig. Default RTT delays from passive mode Nokia MHAs is 50ns. For diplexer user defined value is used, Triplexer (25 ns), Filters user defined value. When passive mode other type MHA is used, Uplink and Downlink delays are summed and added to delay value instead of Nokias MHA default value.

In case of BTS Site Manager is used then there is possibility to calculate antennaRoundTripDelay value from related parameter values automatically.1downlinkDelay of MHA - When passive mode "other" type MHA is used, Uplink delay needs to be defined other cases keep empty. (public)uplinkDelay of MHA - When passive mode "other" type MHA is used, Uplink delay needs to be defined other cases keep empty. (public)cableLength of ANTL - Cable lenght and velocity factor is used for RTT delay calculation for feeder cable. (public)multiplexerAmount of ANTL - This is multiplier for RTT delays for multiplexerTotalDelay for other typ and Nokia type of multiplexer default RTT delay. (public)multiplexerTotalDelay of ANTL - If multiplexer type is other than "none" multiplexerTotalDelay must be defined and also calculated to the antennaRoundTripDelay. (public)multiplexerType of ANTL - When multiplexer type is Diplexer/Triplexer then default RTT delay needs to be summent to the antennaRoundTripDelay. (public)phsFilterTotalDelay of ANTL - When phsFilterTotalDelay is defined it needs to be summend to the antennaRoundTripDelay. (public)velocityFactor of ANTL - Cable lenght and velocity factor is used for RTT delay calculation for feeder cable. (public)EM WBTS, WBTS RAC, RAC RACApp4.5...45077.5 ns, step 0.1 ns-internal_value = gui_value * 10BTS restart neededANTLAntenna total lossantennaTotalLossThis parameter contains the total loss calculated from the feederLoss and passive units.1EM WBTS, WBTS RAC, RAC RACApp-214748364...0 dB, step 0.1 dB-3 dBinternal_value = gui_value * 10BTS restart neededANTLAntenna line identifierantlIdThis is the instance identifier of the object ANTL. This parameter appears only in the distinguished name (DN) in the plan file and is used for O&M purposes. Identifies the specific antenna line.1EM WBTS, WBTS RAC, RAC RACApp1...144, step 1-internal_value = gui_valueBTS restart neededRAN1770-e New topology object model for RF Module (standard), RAN1770 RF Sharing WCDMA - GSM (optional), RAN2312 Radio Interface Harmonization in Rel2.x RF modules (standard)ANTLCable lengthcableLengthDefines the antenna RF cable length in meters. This parameter is used by BTS Site Manager to calculate antenna round trip delay. The delay is 4.5 ns/m. The value for this parameter must be left away if the RTT value has already been entered in the antennaRoundTripDelay parameter. The antennaRoundTripDelay value is then used instead of letting the BTS Site Manager calculate the value based on, for example, cableLength.1antennaRoundTripDelay of ANTL - Cable lenght and velocity factor is used for RTT delay calculation for feeder cable. If these parameters is defined then there must use same values when RTT total delay is calculated for antennaRoundTripDelay parameter. (public)EM WBTS, WBTS RAC, RAC RACApp1...9999 m, step 1 m-internal_value = gui_valueBTS restart neededANTLCommunication 3gpp Enabledcommunication3gppEnabledDefines if device scan functionality is enabled/disabled for an capable 3GPP antenna line. The scan is enabled by default (when the file or parameter is not available for an AL).1EM WBTS, WBTS RAC, RAC RACApp-BTS restart neededRAN1750 NetAct integrated RET management (optional)ANTLPower headroom when DPA is enableddpaPowerHeadroomBecause the power fluctuations of R99 traffic cannot be predicted, a power headroom can be set with this parameter to reduce the propability of exceeding the maximum power. The headroom is offset from the power amplifier maximum power.1dpaPowerInUse of ANTL - Applicable if dpaPowerInUse gets value true (public)Parameter is related to DPA functionality.EM WBTS, WBTS RAC, RAC RACApp0...2 dB, step 0.1 dB0.5 dBinternal_value = gui_value * 10BTS restart neededRAN2390 Dynamic Power Allocation between Carriers (standard)ANTLDynamic Power Allocation In UsedpaPowerInUseThe parameter to enable dynamic power allocation between the carrier frequencies.

Note: If parameter is missing, then feature is disabled.1singleCellInUse of BTSSCW - value must be false (public)mimoType of LCELW - value must be SingleTX (public)vamEnabled of LCELW - value must be false (public)dpaPowerHeadroom of ANTL - for DPA related power control (public)DPA feature is allowed for cells where MIMO, VAM and SCS is not used.EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededRAN2390 Dynamic Power Allocation between Carriers (standard)ANTLFeeder lossfeederLossDefines the feeder loss of the antenna cable.1EM WBTS, WBTS RAC, RAC RACApp-99.9...0 dB, step 0.1 dB-3 dBinternal_value = gui_value * 10BTS restart neededANTLFeeder voltagefeederVoltageDefines the voltage level supplied to the antenna line. The values entered for this parameter depend on the MHA type. Non-AISG NSN MHAs: WMHA, WMHB: 12 WMHC: BTS1 Automatic value (Manual voltage override is allowed: possible values [0 V / +12 V/ 14.5 V / +24V/ +28 V (+24 /+28 only for Main branch, value depends on the radio module type)]), BTS2 12 Non-AISG Other (3rd party) MHA: 0 (User can change the line voltage to 12V. AISG MHAs: Currently for all AISG MHA Automatic value is used.1EM WBTS, WBTS RAC, RAC RACAppAutomatic (-1), 0 (0), 12 (1), 14.5 (2), 24 (3), 28 (4)-BTS restart neededANTLForced voltageforcedVoltageDefines the forced voltage level supplied to the antenna line. This parameter can be used only if no MHA exist on antenna line. This parameter overrides auto detected antenna line voltage. In case both parameter Feeder Voltage and Forced Voltage are commissioned Forced Voltage is the voltage level supplied to antenna line.1feederVoltage of ANTL - null (public)If both feederVoltage and forcedVoltage are commissioned forcedVoltage is the voltage level supplied to antenna line.EM WBTS, WBTS RAC, RAC RACAppnot set (-1), 0 (0), 12 (1), 24 (2), 28 (3)BTS restart neededANTLProduct codemrcProdCodeDefines the product code of the unit in question.1EM WBTS, WBTS RAC, RAC RACApp1...80 characters-BTS restart neededANTLMultiplexer amountmultiplexerAmountDefines how many diplexers connected as a series there can be in the antenna line.1antennaRoundTripDelay of ANTL - This is multiplier for RTT delays for multiplexerTotalDelay for other typ and Nokia type of multiplexer default RTT delay. (public)EM WBTS, WBTS RAC, RAC RACApp1...3 pcs, step 1 pcs1 pcsinternal_value = gui_valueBTS restart neededANTLMultiplexer lossmultiplexerLossDefines the diplexer loss.1EM WBTS, WBTS RAC, RAC RACApp-99...0 dB, step 0.1 dB-0.5 dBinternal_value = gui_value * 10BTS restart neededANTLMultiplexer total delaymultiplexerTotalDelayDefines the diplexer total delay both in up- and downlink direction. This parameter is used in BTS Manager to calculate diplexer signal propagation delay.1antennaRoundTripDelay of ANTL - If multiplexer type is other than "none" multiplexerTotalDelay must be defined and also calculated to the antennaRoundTripDelay. (public)EM WBTS, WBTS RAC, RAC RACApp0...1000 ns, step 1 ns25 nsinternal_value = gui_valueBTS restart neededANTLMultiplexer TypemultiplexerTypeDefines a multiplexer type.1EM WBTS, WBTS RAC, RAC RACAppNone (-1), Diplexer (0), Triplexer (1)-BTS restart neededANTLTotal delay for filtersphsFilterTotalDelayTotal delay due to filter use. Filter's total delay is summed automatically to antennaRoundTripDelay when BTS Site Manager is used - otherwice summing needs to be done manuallly.1antennaRoundTripDelay of ANTL - When phsFilterTotalDelay is defined it needs to be summend to the antennaRoundTripDelay. (public)EM WBTS, WBTS RAC, RAC RACApp0...1000 ns, step 1 ns0 nsinternal_value = gui_valueBTS restart neededANTLRadio Module Reference IdrModIdThis parameter identifies the radio module associated with the antenna line.1EM WBTS, WBTS RAC, RAC RACApp1...24, step 1-internal_value = gui_valueBTS restart neededRAN1768 (standard), RAN1770 RF Sharing WCDMA - GSM (optional)ANTLUplink delay for the delay compensationulDelayAntenna Line Uplink Delay in nanoseconds, is used to compensate the antenna line UL delay difference between main and diversity Rx branches of the cell. This is needed to avoid gain (i.e. performance) loss due to the time difference between Rx branches data. For example, offset of 1/2 chip period (130ns) introduces diversity gain degradation of about 1dB. Different delays are met e.g. when two radio modules are cross-connected together via RX diversity outputs. User may provide absolute UL delay values for all Rx branches of the cell, or optionally only the positive difference referred to the smallest delay branch and leave smallest delay branch value to zero. It's not required to apply the UL delay when the delay for Rx branches of the cell are about equal. Note: Multiradio Combiner (MRC) delay shall not be included in this parameter. The MRC delays are taken into account as default by the system when the Multiradio Combiner is commissioned into use.1EM WBTS, WBTS RAC, RAC RACApp0...999 ns, step 1 ns0 nsinternal_value = gui_valueOn-lineANTLVelocity factorvelocityFactorThe Velocity factor is used to calculate RTT more exactly. The velocity factor can be obtained from the specifications of the used cable.1antennaRoundTripDelay of ANTL - Cable lenght and velocity factor is used for RTT delay calculation for feeder cable. If these parameters is defined then there must use same values when RTT total delay is calculated for antennaRoundTripDelay parameter. (public)EM WBTS, WBTS RAC, RAC RACApp0.01...0.99, step 0.010.82internal_value = gui_value * 100BTS restart neededANTLVSWR Major AlarmvswrMajorAlarmDefines a VSWR (voltage standing wave ratio) major alarm level.1EM WBTS, WBTS RAC, RAC RACApp1.5...3.5 VSWR, step 0.1 VSWR-internal_value = gui_value * 10On-lineRAN1750 NetAct integrated RET management (optional)ANTLVSWR Minor AlarmvswrMinorAlarmDefines a VSWR (voltage standing wave ratio) minor alarm level.1EM WBTS, WBTS RAC, RAC RACApp1.5...3.5 VSWR, step 0.1 VSWR-internal_value = gui_value * 10On-lineRAN1750 NetAct integrated RET management (optional)BTSSCWA 20W licences in usea20WLicencesInUseThis parameter defines if BTS should use new 20W licence mechanism or legacy one when we commission BTS with certain output power.

If total 80W carrier power is used from antenna line then 20WLicenceInUse parameter must get value true because only 20W power licences are supported with 80W carrier power.1maxCarrierPower of LCELW - null (public)If total 80W carrier power is used from antenna line then 20WLicenceInUse parameter must get value true because only 20W power licences are supported with 80W carrier power.EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededRAN2429 Flexi 3-sector RF Module 2100 80W (FRGT) (standard), RAN2430 Flexi 3-sector RF Module 2100 60W (FRGS) (standard), RAN2225 20W incremental power Licence Key for Flexi (standard)BTSSCWAAS soft recovery enabledaasSoftRecoveryEnabledAAS soft recovery enabled parameter enables the AAS Soft Recovery feature.Parameter is used for automatic licence activation.1EM WBTS, WBTS RAC, RAC RACAppfalseFeature disabledOn-lineRAN2580 AAS Soft Recovery (standard)BTSSCWActivate Distributed Site 15kmactDistributedSite15Licence key for max. 15km fiber between FSM and furthest radio1EM WBTS, WBTS RAC, RAC RACAppfalseFeature not in useBTS restart neededRAN1088 Distributed Site 40km (optional), RAN1881 RF chaining (optional), RAN1882 Redundant Loop Chaining (optional), RAN1439 Distributed BTS Solution (optional)BTSSCWActivate Ethernet securityactEthernetSecThis parameter activates/deactivates the feature "Security for Ethernet"1EM WBTS, WBTS RAC, RAC RACAppfalsedisabledOn-lineBTSSCWActivate support for RF chainingactRfChainingThe parameter actRfChaining allows RF units chaining. That is, an optical fiber from the system module is chained via a RF unit to another RF unit.1EM WBTS, WBTS RAC, RAC RACAppfalseOn-lineBTSSCWAntenna Line Device SW Download feature enabledaldSwDownloadEnabledWith this parameter operator is able to enable Flexi WCDMA Software Download Capability for Antenna Line Devices

Parameter is used only for automatic licence activation.1WBTS EM, WBTS RAC, RACApp RACfalseFeature is disabled by defaultOn-lineRAN2131 Automatic Licence Distribution to Flexi BTS (standard), RAN2111 Flexi WCDMA Software Download Capability for Antenna Line Devices (standard)BTSSCWAntenna Line Supervision EnabledantLineSupervisionEnabledDefines if the feature is enabled or disabled1EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededRAN2131 Automatic Licence Distribution to Flexi BTS (standard)BTSSCWRx Level Monitoring EnabledantRxLevelMonitoringEnabledDefines if the feature is enabled or disabled1EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededRAN2131 Automatic Licence Distribution to Flexi BTS (standard)BTSSCWAntenna Tilt Support EnabledantTiltSupportEnabledDefines if the feature is enabled or disabled1EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededRAN2131 Automatic Licence Distribution to Flexi BTS (standard)BTSSCWAssociation maximum retransmissionsassocMaxRetransDefines association maximum retransmissions (1-15 attempts, default 5).

This SCTP parameter is used only in IP Iub configuration.1EM WBTS, WBTS RAC, RAC RACApp1...15, step 15internal_value = gui_valueBTS restart neededBTSSCWBTS configurationbtsConfigurationA free text field for defining the used BTS configuration. For example: 1+1+1 20 W.1EM WBTS, WBTS RAC, RAC RACApp1...64 characters-BTS restart neededBTSSCWBTS identifierbtsIdDefines the BTS in question.1EM WBTS, WBTS RAC, RAC RACApp1...65534, step 1-internal_value = gui_valueBTS restart neededBTSSCWBTS NamebtsNameThis parameter can be used for identification of the WCDMA BTS (Node B).1EM WBTS, WBTS RAC, RAC RACApp1...80 characters-On-lineBTSSCWWCDMA BTS site identificationbtsscwIdThis is the instance identifier of the object BTSSCW. This parameter appears only in the distinguished name (DN) in the plan file and is used for O&M purposes. Object for WCDMA specific Base Station level radio parameters.1EM WBTS, WBTS RAC, RAC RACApp1...1, step 11internal_value = gui_valueNot modifiableRAN1770-e New topology object model for RF Module (standard), RAN1770 RF Sharing WCDMA - GSM (optional)BTSSCWDefault CQI value for HS Cell_FACH statecqiDefaultHsCellFachThis parameter defines Default CQI value for HS Cell_FACH state.

Default CQI value used when CQI feedback is disabled (in Rel7) or when CQI has not yet been received (in Rel8). This parameter is valid for RAN1913 High Speed Cell_FACH feature and applicable to only enhance Cell_FACH state.

This parameter is correctly configured if following conditions are true:- HW is Flexi Rel2 or newer1EM WBTS, WBTS RAC, RAC RACApp0...35, step 1255Default value is same than special value, this means that BTS uses NSN recommended default value of current SW release.

In SW upgrade the new default value is taken into use without the need for recommissioning. If the value is set to 0...35 the commissioned value persists over SW upgrades.internal_value = gui_valueOn-lineRAN1637 High speed cell FACH DL (standard)BTSSCWExternal 2.048MHz synchronisation in useext2M048ClkInUseDefines the usage of the external 2.048MHz synchronisation reference.1EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededBTSSCWExternal 2M048 clock out onext2M048ClkOutOnIn case the BTS has lost all reference sources it starts running in internal mode, means the oscillator keeps running with the last known control value. In this case the user shall be able to either feed the external 2.048 MHz output from (divided) system clock (parameter = true), or to switch it off (parameter = false).1syncPropagationEnabled of BTSSCW - FSMr3: only if syncPropagationEnabled is 'true', ext2M048ClkOutOn can be set to 'true' (public)Relationship to be fulfilled when using FSMr3:-ext2M048ClkOutOn can be set to 'true' only if syncPropagationEnabled is set to 'true'.EM WBTS, WBTS RAC, RAC RACAppfalseOn-lineRAN1707 CESoPSN (optional)BTSSCWExtended BTS site capacity enabledextendedBtsSiteCapacityWith this parameter operator is able to enable Flexi WCDMA Extended BTS Site Capacity.

Parameter is automatic license activation parameter to enable support for more than 12 cells.1EM WBTS, WBTS RAC, RAC RACAppfalseFeature is disabled by defaultOn-lineRAN2394 Extended BTS Site Capacity (optional)BTSSCWFrequency Domain Equalizer enabledfdeEnabledThe parameter indicates whether the Frequency Domain Equalizer (FDE) feature is activated in the BTS.

Note: If the parameter is missing from the SCF, then the feature is disabled.Note: 4-way RX diversity and the FDE feature must not be configured at the same time.1resourceList of LCELW - If resuorseList contains four antennas with RX usage, then fdeEnable must not get a value of true.. (public)If resuorseList contains four antennas with RX usage, then fdeEnable must not get a value of true.EM WBTS, WBTS RAC, RAC RACAppfalseFeature disabled.On-lineRAN1702-b Frequency Domain Equalizer (optional)BTSSCWGPS control interface blocked for co-located BTSgpsCtrlBlockForCoLocatedBtsDefines if BTS is in chained or slave mode receiving GPS sync signal via another BTS ('true') or having own GPS receiver ('false').1gpsInUse of BTSSCW - If gpsInUse is set to value of true, then gpsCtrlBlockForCoLocatedBts can get value of false as default; or value of true to avoid unnecessary alarms, when the synchronization is delivered from another BTS. If gpsInUse is set to value of false, then gpsCtrlBlockForCoLocatedBts must get value of false. (public)If gpsInUse is set to value of true, then gpsCtrlBlockForCoLocatedBts can get: -value of false as default. Value 'false' means, that FSM has own GPS receiver connected.-value of true used to avoid unnecessary alarms, when the synchronization is delivered from another BTS. Value 'true' means, that chained or slave FSM has no own GPS receiver connected. If gpsInUse is set to value of false, then gpsCtrlBlockForCoLocatedBts must get value of false.EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededBTSSCWGPS in usegpsInUseDefines the usage of the GPS.1gpsCtrlBlockForCoLocatedBts of BTSSCW - If gpsInUse is set to value of true, then gpsCtrlBlockForCoLocatedBts can get value of false as default; or value of true to avoid unnecessary alarms, when the synchronization is delivered from another BTS. If gpsInUse is set to value of false, then gpsCtrlBlockForCoLocatedBts must get value of false. (public)If gpsInUse is set to value of true, then gpsCtrlBlockForCoLocatedBts can get: -value of false as default. Value 'false' means, that FSM has own GPS receiver connected.-value of true used to avoid unnecessary alarms, when the synchronization is delivered from another BTS. Value 'true' means, that chained or slave FSM has no own GPS receiver connected. If gpsInUse is set to value of false, then gpsCtrlBlockForCoLocatedBts must get value of false.EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededBTSSCWHSUPA happy bit ratio ping filteringhappyBitPingFiltUseParameter is used to to define filtering for Happy bit ratio measurement. If filtering is active, then Happy bit ratio counter is not updated based on Happy bit preceding DTX frame/subframe. The target for filtering is to filter out small data bursts (such as ping) from Happy bit ratio measurement as they do not give reliable information of UE allocation.

Note: Parameter (only) affect the behaviour of counters M5000C266 - M5000C267.1EM WBTS, WBTS RAC, RAC RACApp0...1, step 111 (filtering active)internal_value = gui_valueBTS restart neededBTSSCWHSUPA happy bit ratio UPH thresholdhappyBitUphThresholdParameter defines threshold value for UE Power Headroom (UPH) values in Happy bit ratio measurement. Happy bits that are associated to UPH values that are below the defined threshold, are not taken into account in Happy bit ratio measurement. The target for filtering is to filter out power limited situation from Happy bit ratio measurement as they do not give reliable information of UE allocation.

Note: Parameter (only) affect the behaviour of counters M5000C266 - M5000C267.1EM WBTS, WBTS RAC, RAC RACApp1...31, step 110internal_value = gui_valueBTS restart neededBTSSCWHSDPA 16QAM SW licence supporthsdpa16QAMSupportThis parameter enables HSDPA 16QAM feature (RAN764).1EM WBTS, WBTS RAC, RAC RACApptrueOn-lineRAN1093 HSDPA 16QAM SW Licence Support (optional), RAN764 HSDPA 16QAM Support (optional)BTSSCWHSDPA BB Resource AllocationhsdpaBbResAllocationDefines how HSDPA users are allocated. The options are Full, BTS and Cell. If the selected option is BTS, it is possible to set 1 - 3 HSDPA cells, each of them situated in the same FSP. The total amount of the HSDPA users cannot exceed 16. The HSDPA capacity requirement is 32 channel elements from FSP. If the selected option is Cell, it is possible to set 1 - n HSDPA cells and each HSDPA cell is situated in a different FSP. The total number of HSDPA users is not limited, but the maximum amount of HSDPA users in one cell (one FSP) is 16. The HSDPA capacity requirement is 32 channel elements from FSP.

Note! This parameter is valid only configurations where is used Rel1 BB HW.1sharedHsdpaSheduler of BTSSCW - When sharedHsdpaSheduler is selected, hspaResBbAllocation shall have value 0 (BTS) or 1 (Cell) but value "Full" will override Shared Scheduler selection. (public)EM WBTS, WBTS RAC, RAC RACAppBTS (0), Cell (1), Full (2), None (3)-BTS restart neededBTSSCWHSDPA Proportional Fair Resource Packet schedulerhsdpaFairPacketSchedThis parameter enables the high-speed downlink packet access (HSDPA) Proportional Fair Resource Packet scheduler feature.1EM WBTS, WBTS RAC, RAC RACApptrueOn-lineRAN849 HSDPA Proportional Fair Resource Packet Scheduler (optional)BTSSCWList of Max throughput per HSDPA schedulershsdpaSchedListWith this BTSSCW parameter list operator can configure more HSDPA encoding capacity per HSDPA scheduler on Rel2 HW. HSDPA encoding capacity can be configured also for Rel3 HW using parameter with the same name but on LCELGW level. Operator can change throughput values for both schedulers in master system module and in extension system module in steps defined by parameter 'hsdpaThroughputStep'. In case there are two Rel2 system modules in configuration and operator has commissioned more than one LCG or mapped part of the HSPA frequencies also to different module then throughput can be commissioned to two schedulers on both modules (scheduler 1 - system module 1, scheduler 2 - system module 1, scheduler 1 - system module 2 and scheduler 2 - system module 2). Otherwise throughput can be commissioned to two schedulers in same system module i.e. scheduler 1 - system module 1 and scheduler 2 - system module 1 or scheduler 1 - system module 2 and scheduler 2 - system module 2. Parameter list is optional and if not used then Telecom will allocate throughput for schedulers with default settings.4Packet SchedulerWBTS EM, WBTS RAC, RACApp RACBTS restart neededRAN1263 Generic RAKE for HSPA baseband efficiency (optional)BTSSCWHSDPA Throughput StephsdpaThroughputStepDefines the throughput step that is commissioned for the scheduler. The bigger the value is more HSDPA throughput is allocated for the scheduler.

- Value '0' has special meaning. It means that HSDPA throughput is not allocated at all for that particular scheduler. Also if value '0' is commissioned for both schedulers in system module it means that HSPA is not allocated at all for that system module ('Rel99 Only'). So if end user wants to use whole BTS capacity only for Rel99 traffic value '0' shall be commissioned for all the schedulers.

- Value '1' means 7.2Mbps throughput, value '2' means 14.4Mbps throughput and so on. So every commissioned HSDPA throughput step corresponds to 7.2Mbps actual throughput. Maximum throughput that can be commissioned for one scheduler (35 HSDPA throughput steps) is 35x7.2Mbps=252Mbps.1Packet SchedulerWBTS EM, WBTS RAC, RACApp RAC1...35, step 1-internal_value = gui_valueBTS restart neededBTSSCWModulemodDefines the system module where the HSDPA scheduler is located.1Packet SchedulerWBTS EM, WBTS RAC, RACApp RACFSM1 (0), FSM2 (1)-BTS restart neededBTSSCWSchedulerschedDefines the scheduler inside the system module.1Packet SchedulerWBTS EM, WBTS RAC, RACApp RAC1...2, step 1-internal_value = gui_valueBTS restart neededBTSSCWIntelligent shutdown in useintShutdownInUseDefines the usage of the Intelligent shutdown feature. If intelligent shutdown has been selected in use (intShutdownInUse gets value true) then intelligent shutdown timeout (intShutdownTimeout) is mandatory for local cells (LCEL).1intShutdownTimeout of LCELW - intShutdownTimeout is mandatory when intShutdownInUse gets value true. (public)mainsPowerAlarmId of BTSSCW - mainsPowerAlarmId gets different values, if intShutdownInUse value is true, depending on the selected mains power alarm indication. (public)numOfLines of BTSSCW - numOfLines gets value 0 if intShutdownInUse value is false. (public)intShutdownTimeout is mandatory when intShutdownInUse gets value true.numOfLines gets value 0 if intShutdownInUse value is false.mainPowerAlarmId gets different calues, if intShutdownInUse value is true, depending on the selected mains power indication.EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededBTSSCWTransmission synchronization (TDM/SyncE/ToP) in useiubClkInUseDefines the usage of the Iub synchronization reference.1EM WBTS, WBTS RAC, RAC RACAppfalseBTS restart neededBTSSCWMains power fault IDmainsPowerAlarmIdDefines the starting external fault line for the mains power fault when Intelligent shutdown is in use. Default values: Flexi Power Module: 13 NSN BBU: 1 Other BBU: a value between 1-12 can be chosen.1intShutdownInUse of BTSSCW - If intShutdownInUse value is true mainsPowerAlarmId gets different values depending on selected mains power alarm indication. (public)numOfLines of BTSSCW - numOfLines defines the number of external fault lines reserved by mains break. (public)If intShutdownInUse value is true mainsPowerAlarmId gets different values depending on selected main power alarm indication.numOfLines defines the number of external fault lines reserved by mains break.EM WBTS, WBTS RAC, RAC RACApp1...26, step 113internal_value = gui_valueBTS restart neededBTSSCWMaximum Iub delay thresholdmaxIubDelayThresholdThe Iub congestion control begins rate control actions when the average delay is above the minimum delay threshold (ThMin). The aggressiveness of the rate control increases linearly as the average delay nears the maximum delay threshold (ThMax). Operator can configure a middle threshold between minimum and maximum thresholds for delay monitoring purposes.The rate control actions are recorded to counter M5000C176 when average delay is between ThMin and ThMid and to M5000C177 when average delay is above ThMid.Note: Delay thresholds are properly configured when following condition is true:Thmin 85 => 96 => 107 => 158 => 209 => 2510 => 3011 => 3512 => 4013...15 => 0 (public)Relation between SPI class id and scheduling weight default value is following: id => weight 0 => 11 => 22 => 53 => 64 => 85 => 96 => 107 => 158 => 209 => 2510 => 3011 => 3512 => 4013...15 => 0EM WBTS, WBTS RAC, RAC RACApp0...100, step 1-internal_value = gui_valueOn-lineBTSSCWResource reservation for non-NBR connectionsreservationPercentageThis parameter can be used to define the percentage of resources (air interface scheduling time and Iub throughput capacity) that cannot be used by the Nominal Bit Rate (NBR) connections in case of Uu or Iub congestion. The defined resource is then shared with the commissioned air interface scheduling weights to all active connections (including GBR/NBR/non-NBR). This ensures that the best effort (non-NBR) users do not starve as they get at least a weight defined portion of this parameter value. The parameter does not limit the resources used by the GBR connections.

Example: if all scheduling resources are described as 100%, then setting parameter to 10 reserves 10% of resources. In congestion, NBR connections cannot take all remaining resources, but must leave the defined 10% for weighted sharing of resources. In case of Guaranteed Bit Rate (GBR) connections experience congestion, they are allowed to use all resources despite this parameter. Operator can define with CCPolicy parameter if the SPI class is treated as GBR (CCPolicy: Control Data over GBR) or NBR class (CCPolicy: Control All Data).1EM WBTS, WBTS RAC, RAC RACApp0...80 %, step 1 %10 %internal_value = gui_valueOn-lineBTSSCWReset BTS if LCG has no HW resourcesresetBTSIfNoLCGResWith this parameter operator can decide if BTS shall be reset in case when LCG has no resources because of EM failure1EM WBTS, WBTS RAC, RAC RACAppfalseNot in useOn-lineRAN1000 Baseband Extension for Flexi WCDMA BTS (standard)BTSSCWRf Sharing EnabledrfSharingEnabledThis parameter enables the RF sharing with GSM or LTE in WCDMA BTS.

Parameter is used for automatic licence activation and in addition this parameter is used for shared RF modules IP address configuration.

This means that the Multi Carrier Power Amplifiers (MCPA) transmitting both GSM/EDGE RF carrier or LTE RF carrier and WCDMA RF carrier signals at the same 3GPP frequency band.

When operating in RF sharing mode, a single RF Module is connected to 2 System Modules simultaneously.

Flexi EDGE System Module is operating in GSM/EDGE SW mode and Flexi Multimode System Module in WCDMA SW mode in GSM -WCDMA RF sharing. In LTE - WCDMA RF sharing one Flexi Multimode System Module operates in LTE SW mode and another in WCDMA SW mode. Both are connected to the one and same Flexi Multiradio RF Module.1linkList of SMOD - When rfSharingEnabled parameter is set to value true then inside linkList should be three items and there shall be linkId with values 1 to 3 (one value for each item) in WCDMA GSM RF sharing or WCDMA LTE RF sharing. In addition radiomaster parameter needs to be set to value true for each item (public)connectionList of RMOD - When rfSharingEnabled parameter is set to value true then should be defined another item to connectionList with different sModId (public)technology of SMOD - When rfSharingEnabled parameter is set to value true then technology in one SMOD instance must be set to value UTRAN and in the other instance to 'GERAN' (WCDMA-GSM RF sharing) or 'EUTRA' (WCDMA - LTE RF sharing). (public)usedInGeran of RMOD - When rfSharingEnabled parameter is set to value true and if external alarm wanted deliverer via GSM BTS then usedInGeran should be set to value true (public)usedInUtran of RMOD - When rfSharingEnabled parameter is set to value true and if external alarm wanted deliverer via WCDMA BTS then usedInUtran should be set to value true (public)secondaryConnection of MRBTS - When rfSharingEnabled parameter is set to value true then secondaryConnection parameter must be set. (public)When rfSharingEnabled parameter is set to value "true" then inside linkList should be three items and there shall be linkId with values 1,2 and 3 (one value for each item) in WCDMA GSM RF sharing or in WCDMA LTE RF sharing. In addition radiomaster parameter needs to be set to value "true" for each item.

When rfSharingEnabled parameter is set to value "true" then should be defined another item to connectionList with different sModId.

When rfSharingEnabled parameter is set to value true then technology in one SMOD instance must be set to value UTRAN and in the other instance to 'GERAN' (WCDMA-GSM RF sharing) or 'EUTRA' (WCDMA - LTE RF sharing).

When rfSharingEnabled parameter is set to value "true" and if external alarm wanted deliverer via GSM BTS then usedInGeran should be set to value "true".

When rfSharingEnabled parameter is set to value "true" and if external alarm wanted deliverer via WCDMA BTS then usedInUtran should be set to value "true".

When rfSharingEnabled parameter is set to value "true" and if external alarm wanted deliverer via LTE BTS then usedInEutra should be set to value "true".

When rfSharingEnabled parameter is set to value "true" then secondaryConnection parameter must be set.EM WBTS, WBTS RAC, RAC RACAppfalseFeature disabledBTS restart neededRAN1770 RF Sharing WCDMA - GSM (optional), RAN2126 RF Sharing WCDMA - LTE (optional)BTSSCWRNC typerncTypeDefines the type of the RNC. If a NSN RNC is in use, there is no need to fill in any other RNC parameters.1EM WBTS, WBTS RAC, RAC RACAppNSN (0), Other (1)NSN (0)BTS restart neededBTSSCWShared HSDPA scheduler for baseband efficiencysharedHsdpaShedulerThis parameter enables simultaneous HSDPA transmission to (max) three HSDPA-capable cells by using a single UltraSite WSPC card or one submodule in FlexiBTS. Note! Shared HSDPA Scheduler is supported only in Rel1 BB HW so parameter is valid only if HSPA is allocated to Rel1 BB HW using "Mapping HSPA cell to HW" parameter or using several Local Cell Groups.1hsdpaBbResAllocation of BTSSCW - When sharedHsdpaSheduler is selected, hspaResBbAllocation shall have value 0 (BTS) or 1 (Cell) but value "Full" will override Shared Scheduler selection. (public)EM WBTS, WBTS RAC, RAC RACApptrueBTS restart neededRAN1034 Shared HSDPA Scheduler for Baseband Efficiency (optional)BTSSCWSingle Cell Solution for Dual RF Sector in UsesingleCellInUseThe licence parameter to enable single cell solution for dual RF sector.

Note: If parameter missing from the SCF then feature is disabled.1vamEnabled of LCELW - null (public)Feature is used for cells where pure VAM is used.EM WBTS, WBTS RAC, RAC RACAppfalseOn-lineRAN2214 Single Cell Solution for Dual RF Sector (optional)BTSSCWSynchronization propagation enabledsyncPropagationEnabledWith co-location the TDM PDH interfaces are working with a clock derived from the selected synchronization reference (i.e 1 pps or external 2.048 MHz). This is not needed in case co-location is not in use, therefore a user configurable parameter is needed to enable proper synchronization scheme. This parameter enables (true) or disables (false) the synchronization scheme for co-location.1ext2M048ClkOutOn of BTSSCW - FSMr3: ext2M048ClkOutOn can only be set to 'true' if syncPropagationEnabled is 'true' (public)Relationship to be fulfilled when using FSMr3:Only if syncPropagationEnabled is set to 'true' ext2M048ClkOutOn can be set to 'true'.EM WBTS, WBTS RAC, RAC RACAppfalseOn-lineRAN1707 CESoPSN (optional)BTSSCWTilting per carrier in usetiltingPerCarrierInUseThe parameter is used to enable Tilting per Carrier (local cell) for AAS1EM WBTS, WBTS RAC, RAC RACAppfalseOn-lineRAN2384 AAS Vertical Sectorization (optional), RAN2383 AAS Active Antenna System 2100/1800 HW (optional), RAN2569 AAS Tilting per Carrier (optional)BTSSCWTilting per TX/RX in usetiltingPerTxRxInUseThe paramerer is used to enable Tilting per TX/RX for AAS1EM WBTS, WBTS RAC, RAC RACAppfalseOn-lineRAN2384 AAS Vertical Sectorization (optional), RAN2383 AAS Active Antenna System 2100/1800 HW (optional), RAN2569 AAS Tilting per Carrier (optional), RAN2579 AAS RX/TX Tilting (optional)BTSSCWVertical sectorization in useverticalSectorizationInUseThe parameter is used to enable Vertical Sectorization for AAS1EM WBTS, WBTS RAC, RAC RACAppfalseOn-lineRAN2384 AAS Vertical Sectorization (optional), RAN2383 AAS Active Antenna System 2100/1800 HW (optional)LCELGWAccess baseband capacityaccessBbCapacityDefines the access to Baseband HW capacity for each local cell group.

When all HW (system modules and radio modules) supports flexible baseband pooling and there is more than one local cell group then Access baseband capacity must get value between 1...99 for each local cell group and the sum of Access baseband capacity in LCGs must be 100.

When all HW (system modules and radio modules) supports flexible baseband pooling and there is only one local cell group then Access baseband capacity must get value 100.

When all HW (system modules and radio modules) does not support flexible baseband pooling and there are two local cell groups then Access baseband capacity must get value 0 for both local cell groups. BTS SW calculates the actual Access baseband capacity based on system modules in HW configuration.

When all HW (system modules and radio modules) does not support flexible baseband pooling and there is only one local cell group then Access baseband capacity must get value 100.1lCelGwId of LCELGW - If only one LCELGW is defined then parameter shall be set to value 100.If fixed BB pooling is used then parameter shall be set to value 0. (public)sModId of LCELGW - When LCELGW - sModId parameter is set other than special value 0 then accessBbCapacity shall be set to special value -1 (public)When LCELGW - sModId parameter is set other than special value 0 then accessBbCapacity shall be set to special value -1.If fixed BB pooling is used then parameter shall be set to value 0.If only one LCELGW is defined then parameter shall be set to value 100.EM WBTS, WBTS RAC, RAC RACApp0...100 %, step 1 %0 %internal_value = gui_valueBTS restart neededLCELGWCell group namecellGroupNameUser definable name for Cell Group. 1-20 characters.1EM WBTS, WBTS RAC, RAC RACApp1...20 characters-BTS restart neededLCELGWDedicated baseband capacitydedicatedBbCapacityDefines the quaranteed Baseband capacity for each local cell group (optional).

When all HW (system modules and radio modules) supports flexible baseband pooling and there is more than one local cell group and dedicated baseband capacity differs from value 0 at least for one local cell group then dedicated baseband capacity must get value between 1...99 for each local cell group and the sum of dedicated baseband capacity in LCGs must not exceed 100. Baseband capacity which is not assigned to any local cell groups is common capacity for all local cell groups.

When all HW (system modules and radio modules) supports flexible baseband pooling and there is only one local cell group then dedicated baseband capacity must get value 0.

When all HW (system modules and radio modules) does not support flexible baseband pooling and there are two local cell groups and dedicated baseband capacity differs from value 0 at least for one local cell group then dedicated baseband capacity must get value between 1...99 for each local cell group and the sum of dedicated baseband capacity in LCGs must not exceed 100. Baseband capacity which is not assigned to any local cell groups is common capacity for all local cell groups. Dedicated baseband capacity in the local cell group must be smaller than or equal to the maximum allowed Access baseband capacity in the local cell group.

When all HW (system modules and radio modules) does not support flexible baseband pooling and there is only one local cell group then dedicated baseband capacity must get value 0.1EM WBTS, WBTS RAC, RAC RACApp0...100 %, step 1 %0 %internal_value = gui_valueBTS restart neededLCELGWList of Max throughput per HSDPA schedulershsdpaSchedListThis LCELGW level parameter is used to configure HSDPA encoding capacity of schedulers located in Rel3 HW (schedulers on Rel3 HW are allocated for each local cell group separately). HSDPA encoding capacity for Rel2 HW can be configured using parameter with the same name but on BTSSCW/BTSSCU level. With this parameter list operator can configure HSDPA encoding capacity per HSDPA scheduler. Operator can change throughput values for both schedulers in each local cell group on Rel3 HW in steps defined by parameter 'hsdpaThroughputStep'. Parameter list is optional and if not used then Telecom will allocate throughput for schedulers with default settings.4WBTS EM, WBTS RAC, RACApp RACOn-lineCN4510 HSDPA throughput commissioning change for RU30 BTS (standard)LCELGWHSDPA Throughput StephsdpaThroughputStepDefines the throughput step that is commissioned for the scheduler. The bigger the value is more HSDPA throughput is allocated for the scheduler.

- Value '1' means 7.2Mbps throughput, value '2' means 14.4Mbps throughput and so on. So every commissioned HSDPA throughput step corresponds to 7.2Mbps actual throughput. Maximum throughput that can be commissioned for one scheduler (35 HSDPA throughput steps) is 35x7.2Mbps=252Mbps.1WBTS EM, WBTS RAC, RACApp RAC1...35, step 1-internal_value = gui_valueOn-lineLCELGWSchedulerschedDefines the scheduler inside local cell group. In case of "Small HSPA" configuration scheduler 1 is always in use.1WBTS EM, WBTS RAC, RACApp RAC1...2, step 1-internal_value = gui_valueOn-lineLCELGWHSPA settinghspaSettingWith this parameter, the operator can set different HSPA configuration option. In addition, there is a "Rel99 only" option that can be used when there is a need to use whole LCG capacity for Rel99 traffic. This parameter is applicable in case the configuration includes FSM-r3 HW. This parameter is optional. If it is not commissioned then HSPA configuration is selected based on default rules.

The required DSP resources are checked from BPF if the following conditions are fulfilled:- More than 1 LCG is commissioned with frequency-based local cell grouping. - Flexible BB pooling is supported for all SM and RF modules.- BTS has only Rel3 BB HW (FSM/FBBs) or newer.- BTS has FSM-r2 + FSM-3 and sector based local cell grouping or fixed frequency based local cell grouping is used.

Required DSP resources per HSPA configuration type:- "Rel99 only" - 1 DSP - "Normal HSPA" - 2 DSP- "Small HSPA" - 2 DSP- "HSPA Setting" is not commissioned - same as "Normal HSPA"1EM WBTS, WBTS RAC, RAC RACAppRel99 only (0), Normal HSPA (1), Small HSPA (2)-BTS restart neededRAN2262-b3 Flexi Multimode SMs FSMF and FSMG - BTS resource management adaptation for HSPA with BCP (standard)LCELGWHSUPA BB decoding capacityhsupaBbDecodCapacityDefines Minimum HSUPA decoding capacity per LCG in Mbit/s.1EM WBTS, WBTS RAC, RAC RACApp0 Mbit/s (0), less than 1.4 Mbit/s (1), 1.4 Mbit/s (2), 2.8 Mbit/s (3), 4.2 Mbit/s (4), 5.6 Mbit/s (5)0 Mbit/s (0)BTS restart neededLCELGWHSUPA BB minimum usershsupaBbMinimumUsersDefines minimum amount of users allocate to baseband in HSUPA.1EM WBTS, WBTS RAC, RAC RACApp0...24, step 10internal_value = gui_valueBTS restart neededLCELGWCell group identificationlCelGwIdThis is the instance identifier of the object LCELGW. This parameter appears only in the distinguished name (DN) in the plan file and is used for O&M purposes. Cell group identification.1EM WBTS, WBTS RAC, RAC RACApp1...4, step 1-internal_value = gui_valueBTS restart neededLCELGWLocal cell identifier listlCelIdListDefines the list of local cells belonging to the local cell groups.12EM WBTS, WBTS RAC, RAC RACApp0...268435455, step 1-internal_value = gui_valueBTS restart neededLCELGWMinimum number of HS-FACH usersminNumHsfachUsersThis parameter gives an option to operator to reserve BB capacity for HS-FACH use. With parameter operator can fixedly reserve BB capacity from 1 to 4 Cluster Fractions for HS-FACH use per Local Cell Group. 1CF means 15CE resource block supporting 10 simultaneous active HS-FACH users. So operator can reserve BB resources with commissioning parameter in steps 10 HS-FACH users, 20 HS-FACH users, 30 HS-FACH users or 40 HS-FACH users per LCG. Parameter is LCG specific and can be commissioned for every used LCG. Parameter shall be optional and if not used BTS shall reserve maximum one Cluster Fraction in case HS-FACH is activated for some of the cells in the LCG.1EM WBTS, WBTS RAC, RAC RACApp1...4 CF, step 1 CF1 CFDefault value is 1CF(Cluster Fraction) and 1CF supports 12 active HS-FACH Users.internal_value = gui_valueBTS restart neededRAN1913 High Speed Cell_FACH (optional)LCELGWSystem module identifiersModIdIdentifies system module where HW resources is allocated to the local cell group in guestion.When all HW (system modules and radio modules) supports flexible baseband pooling and there is more than one local cell group and Sector based BB pooling is used then System module identifier must get value between 13 for each local cell group.When all system modules supports flexible baseband pooling and no cell is created to radio modules which does not support flexible baseband pooling and more than one local cell group and Sector based BB pooling is used then System module identifier must get value between 13 for each local cell group.When all HW (system modules and radio modules) supports flexible baseband pooling and there is more than one local cell group and Sector based BB pooling is not used then System module identifier must get value 0 for each local cell group.When all HW (system modules and radio modules) supports flexible baseband pooling and there is only one local cell group then System module identifier must get value 0.When all system modules supports flexible baseband pooling and cell is created to radio module which does not support flexible baseband pooling then System module identifier must get value 0 for each local cell group.When all system modules do not support flexible baseband pooling then System module identifier must get value 0 for each local cell group.All other system modules and radio modules except release 1 system module / radio modules support flexible baseband pooling.1accessBbCapacity of LCELGW - When LCELGW - sModId parameter is set other than special value 0 then accessBbCapacity shall be set to special value -1 (public)sModId of LCELGW - When this LCELGW - sModId is set other value than 0 it is pointing to the specific SMOD instance. (public)When LCELGW - sModId parameter is set other than special value 0 then accessBbCapacity shall be set to special value -1.When this LCELGW - sModId is set other value than 0 it is pointing to the specific SMOD instance.EM WBTS, WBTS RAC, RAC RACApp1...3, step 10Sector based BB pooling is not usedinternal_value = gui_valueBTS restart neededRAN2394 Extended BTS Site Capacity (optional)LCELGWHSDPA user shareshareOfHSDPAUserParameter defines how many licenced HSDPA users belongs to certain LCG.

Sum of LCG shares shall not exceed 100%, but can be less than 100%. If sum is less than 100%, then remaining part is so called common pool. Granularity is one user.

Parameter have additionally special value -1 which means that parameter is not in use.

Note: Not applicable for rel1 HW.1EM WBTS, WBTS RAC, RAC RACApp0...100 %, step 1 %-Default value of parameter is 0% (all licenses are in commom pool).internal_value = gui_valueBTS restart neededRAN2123-b 1GB baseband (standard)LCELGWHSUPA user/throughput licence shareshareOfHSUPALicencesParameter defines how many HSUPA licences belongs to certain LCG.

Sum of LCG shares must be always 100%. No common pool. Granularity is one license. If there is 50%/50% share and 5 lisences, other LCG gives 3 licences and other 2. Parameter have additionally special value -1 which means that parameter is not in use.

Note: Not applicable for rel1 HW.1EM WBTS, WBTS RAC, RAC RACApp0...100 %, step 1 %-Default value of parameter is 100% divided by number of LCGs (max number LCGs in WN7.0 Flexi is 4).

Following default values will be used: 1 LCG => 100%, 2 LCGs => 50%, 3 LCGs => 33, 4 LCGs => 25%internal_value = gui_valueBTS restart neededRAN2123-b 1GB baseband (standard)LCELWAllowed carrier listallowedCarrierListBased on the hardware in the BTS, the BTS Site Manager checks which carrier values are allowed for BTS testing in each cell.

Supported Bands and related downlink UARFCNs are the following:Band I (2110-2170 MHz): 10562 10838

Band II (1930-1990 MHz): 9662 9938 + additional DL channel numbers: 412, 437, 462, 487, 512, 537, 562, 587, 612, 637, 662, and 687.

Band III (1810-1880 MHz): 1162 1513

Band IV (2110-2155 MHz): 1537 1738 + additional DL channel numbers: 1887, 1912, 1937, 1962, 1987, 2012, 2037, 2062, and 2087.

Band V (869-894 MHz): 4357 4458 + additional DL channel numbers: 1007, 1012, 1032, 1037, 1062, and 1087.

Band VI (875-885 MHz): 4387 4413 + additional DL channel numbers: 1037 and 1062.

Band VIII (925-960 MHz): 2937 3088

Band IX (1844.9-1879.9 MHz): 9237 9387

Band X (2110-2170 MHz): 3112 3388 + additional DL channel numbers: 3412, 3437, 3462, 3487, 3512, 3537, 3562, 3587, 3612, 3637, 3662 and 3687.

Band XI (1475.9-1485.9 MHz): 3712 3737

Band XIX (875-885 MHz): 712 763 + additional DL channel numbers: 877.5, 882.5 and 887.5

NSN2000 (2180-2200 MHz): 10912 10988 + additional DL channel numbers: 5912, 5937, 5962 and 5987.

NOTE: In the US Band 2 allowed DL channel numbers are 9663-9712, 9763-9812, and 9888-9937.4EM WBTS, WBTS RAC, RAC RACApp0...16383, step 1-internal_value = gui_valueBTS restart neededLCELWCell rangecellRangeThe radius of one cell. The maximum range of the cell, i.e. the maximum distance from the cell site where a MS can have a radio connection to the cell including soft handover situations. The value is given in meters for non-NSN RNCs.1EM WBTS, WBTS RAC, RAC RACApp100...180000 m, step 100 m20000 minternal_value = gui_valueBTS restart neededLCELWDefault carrierdefaultCarrierThis parameter defines the default carrier used in tests for local cells. The UARFCN values used are operator-specific and defined by the 3GPP. For example, for the 2100 MHz frequency, the allowed values are 10562-10838.1EM WBTS, WBTS RAC, RAC RACApp0...16383, step 1-internal_value = gui_valueBTS restart neededLCELWExpiration timeexpirationTimeThis parameter sets the SIB7 expiration timer for the UE. The allowed values are 1,2,4,8,16,32,64,128, and 256.1EM WBTS, WBTS RAC, RAC RACApp1 (0), 2 (1), 4 (2), 8 (3), 16 (4), 32 (5), 64 (6), 128 (7), 256 (8)1 (0)BTS restart neededLCELWFilter center TxfilterCenterTxThis parameter defines absolute Tx frequency in kHz for overriding normal Filter center frequency tuning.

Parameter can be used to override normal filter tuning to minimize noise to neighbouring frequency band. If parameter value is not defined, Tx filter frequency is evaluated as an average of the configured center frequencies.1EM WBTS0...3000000 kHz, step 1 kHz-internal_value = gui_valueBTS restart neededLCELWMapping HSPA cell to HWhspaMappingWith the Mapping HSPA cell to HW parameter, the user can map HSPA local cells to baseband HW resources (to different system modules). Parameter can have values FSM1, FSM2 AND None.1EM WBTS, WBTS RAC, RAC RACAppNone (-1), FSM1 (0), FSM2 (1)The default value means automatic functionality (so operator does not need set any value).BTS restart neededRAN1671 Enhanced UltraSite Base Band (EUBB) (optional)LCELWIntelligent shutdown timeoutintShutdownTimeoutDefines the backup time after which the cell starts to shut down itself. This parameter is used only when battery backup is used. The time is given in seconds. 0 is immediate and 599940 is infinite. Note that BTS Site Manager UI values are in minutes (0...9999).1intShutdownInUse of BTSSCW - If intelligentShutdownInUse parameter value is false then this parameter is optional. (public)If intelligentShutdownInUse parameter value is false then this parameter is optional.EM WBTS, WBTS RAC, RAC RACApp0...9999 min, step 1 min0 mininternal_value = gui_value * 60BTS restart neededLCELWLocal cell resource identifierlCelwIdThis is the instance identifier of the object LCELW. This parameter appears only in the distinguished name (DN) in the plan file and is used for O&M purposes. The Local cell resource is an object, which consists of the HW required by one cell for transmission and receiving. Local cell resource identifier is used to address one particular local cell resource at the BTS. The lCelId is unique within a BTS. With the Configuration Data message the local cell resource can be associated to the cell identifier (C-ID) used at the radio interface. In cases when configuration is initialized at the BTS, the signalling related to a cell is addressed using C-ID instead of the local cell resource identifier.1EM WBTS, WBTS RAC, RAC RACApp0...268435455, step 1-internal_value = gui_valueBTS restart neededRAN1770-e New topology object model for RF Module (standard)LCELWMaximum carrier powermaxCarrierPowerThe maximum TX carrier power for the local cell in dBm. The value is shown in watts in the BTS Site Manager. The allowed values are 39.0, 40.0, 41.8, 43.0, 44.8, 46.0, 47.8 and 49.0.1EM WBTS, WBTS RAC, RAC RACApp39.0 (0), 40.0 (1), 41.8 (2), 43.0 (3), 44.8 (4), 46.0 (5), 47.8 (6), 49.0 (7)-BTS restart neededLCELWMIMO TypemimoTypeParameter is used to select the static DL mimo type. Parameter value is defined first time when local cell is created. When a cell is created for a single TX transmission, parameter value is 0. For a MIMO enabled cell, parameter value shall be 1 (2 x TX transmission).1hsdpaBbResAllocation of BTSSCW - null (public)vamEnabled of LCELW - null (public)sharedHsdpaSheduler of BTSSCW - null (public)When MIMO is enabled for one or many local cells, HSDPA BB Resource Allocation setting shall be "Full" or Shared scheduler for Baseband Efficiency shall be "true". Otherwise MIMO will be inactivated in BTS.WBTS RAC, RAC RACApp, WBTS EMSingleTX (0), 2xDL MIMO (1)SingleTX (0)BTS restart neededLCELWPIC PoolpicPoolWith this parameter, the operator is able to commission PIC pools in use.

Note: 4-way RX diversity and PIC pools must not be configured at the same time.1resourceList of LCELW - If resourceList contains four antennas with RX usage, then picPool must not be configured in local cell(s). (public)If resourceList contains four antennas with RX usage, then picPool must not be configured in local cell(s).EM WBTS, WBTS RAC, RAC RACApp1...4, step 1-internal_value = gui_valueOn-lineRAN1308-a HSUPA Interference Cancellation (optional)LCELWRACH capacityrachCapacityRACH Capacity defines the HW capacity reserved for a RACH transport channel in the BTS. RACH Capacity is given as a number of decoded RACH messages in a 10 ms or 20 ms radio frame. The options are 1,2,3 and 4.1EM WBTS, WBTS RAC, RAC RACApp1...4, step 12internal_value = gui_valueBTS restart neededLCELWResource ListresourceListThe resource list specifies the antenna line resources allocated for the given local cell.Sector Configuration Type F (Single Antenna Receiving) uses only one antId per radio module.

Sector Configuration Type A, B, C, G, and I use two antIds per radio module.Type C and H use antennas from two radio modules, one per radio module.

Sector Configuration Type Y (Extended B) uses three antlIds per radio module.

Sector Configuration Type D, J, and Q use four antlIds per radio moduleType E and K use antennas from two radio modules, two per radio module.

Note: 4-way RX diversity and FDE feature or PIC pools must not be configured at the same time.6picPool of LCELW - If resourceList contains four antennas with RX usage, then picPool must not be configured in local cell(s). (public)fdeEnabled of BTSSCW - If resuorseList contains four antennas with RX usage, then fdeEnabled must not get a value of true. (public)If resourceList contains four antennas with RX usage, then picPool must not be configured in local cell(s).If resourceList contains four antennas with RX usage, then fdeEnabled must not get a value of true.EM WBTS, WBTS RAC, RAC RACAppBTS restart neededRAN1768 (standard), RAN1770 RF Sharing WCDMA - GSM (optional), RAN1269 4-Way RX Diversity (standard)LCELWAntenna Line IdantlIdIdentifies the specific antenna line.1antlId of ANTL - Identifies the specific antenna line and it's ID assigned to the local cell. (public)Identifies the specific antenna line and it's ID assigned to the local cell.EM WBTS, WBTS RAC, RAC RACApp1...144, step 1-internal_value = gui_valueBTS restart neededLCELWTX and RX UsagetxRxUsageStates the purpose of use of this antenna line which can be either for receiving and transmitting (main antenna line), just transmitting (diversity antenna line) or just receiving (diversity antenna line).1EM WBTS, WBTS RAC, RAC RACAppTXRX (0), TX (1), RX (2)-BTS restart neededLCELWRx BandwidthrxBandwidthThis parameter is used for setting optional RX BW level during commissionig. It allows operator to narrow Rx bandwidth. Parameter is valid for RF which support configurable Rx bandwdith1EM WBTS, WBTS RAC, RAC RACApp5.0MHz (0), 4.8MHz (1), 4.6MHz (2), 4.4MHz (3), 4.2 MHz (4), 4.0 MHz (5), 3.8 MHz (6)-BTS restart neededRAN2489 Carrier Bandwidth 3.8 MHz (standard)LCELWVertical RX tilt anglerxVerticalTiltAngleThis parameter is used to define RX vertical tilt angle.- defined per cell/carrier- requires AAS Vertical Sectorization licence- if AAS Vertical Sectorization licence exists, one tilt angle is used for all cells (read from the txVerticalTiltAngle from the local cell with the smallest local cell id and the same value used for rxVerticalTiltAngle for each cell)- if Tilting per Carrier licence exists, tilt angle is used separately for each cell (read from the txVerticalTiltAngle from each local cell and the same value used in rxVerticalTiltAngle for each cell)- if Tilting per Rx/Tx licence exists, tilt angle can be set separately for each cells Rx- if AAS Vertical Sectorization licence exists, but no Tilting per Carrier licence, then Tx vertical tilt angle defined for first cell (lowest LCR ID) shall be used for all cells (for both txVerticalTiltAngle and rxVerticalTiltAngle)- if Tilting per Carrier license exists, but no Tilting per Tx/Rx license then Tx vertical tilt angle from each local cell is used separately- if AAS Vertical Sectorization licence, Tilting per Carrier licence and Tilting per Rx/Tx licence exists then rxVerticalTiltAngle from each local cell is used separately1EM WBTS, WBTS RAC, RAC RACApp-7...7 deg, step 0.5 deg0 deginternal_value = gui_value * 10On-lineRAN2384 AAS Vertical Sectorization (optional), RAN2383 AAS Active Antenna System 2100/1800 HW (optional), RAN2569 AAS Tilting per Carrier (optional), RAN2579 AAS RX/TX Tilting (optional)LCELWVertical sector beamwidthsectorVerticalBeamWidthThis parameter is used to define sector vertical beam width.- requires AAS Vertical Sectorization licence1EM WBTS, WBTS RAC, RAC RACApp6...20 deg, step 1 deg7 deginternal_value = gui_valueOn-lineRAN2384 AAS Vertical Sectorization (optional), RAN2383 AAS Active Antenna System 2100/1800 HW (optional), RAN2569 AAS Tilting per Carrier (optional)LCELWShutdown step amountshutdownStepAmountA 3GPP Iub parameter for the gradual shutdown procedure. Indicates in how many steps the transmission power for CPICH, BCH and all other common physical and transport channels is shut down within the shutdown window.1EM WBTS, WBTS RAC, RAC RACApp1...16, step 110internal_value = gui_valueBTS restart neededLCELWShutdown windowshutdownWindowA 3GPP Iub parameter for the shutdown procedure. Indicates how long the actual shutdown procedure for CPICH, BCH and all other common physical and transport channels lasts. The time is given in seconds. If the value is 0, the gradual shutdown procedure is not used at all.1EM WBTS, WBTS RAC, RAC RACApp0 (0), 5 (1), 10 (2), 15 (3), 20 (4), 25 (5), 30 (6), 35 (7), 40 (8), 45 (9)15 (3)BTS restart neededLCELWTx BandwidthtxBandwidthThis parameter is used for setting optional TX BW level during commissionig. It allows operator to narrow Tx bandwidth. Parameter is valid for RF which support configurable Tx bandwdith1EM WBTS, WBTS RAC, RAC RACApp5.0 MHz (0), 4.8 MHz (1), 4.6 MHz (2), 4.4 MHz (3)-BTS restart neededRAN2489 Carrier Bandwidth 3.8 MHz (standard)LCELWVertical TX tilt angletxVerticalTiltAngleThis parameter is used to define TX vertical tilt angle.- defined per cell/carrier- requires AAS Vertical Sectorization licence- if AAS Vertical Sectorization licence exists, one tilt angle is used for all cells (read from the txVerticalTiltAngle from the local cell with the smallest local cell id)- if Tilting per Carrier licence exists, tilt angle is used separately for each cell (read from the txVerticalTiltAngle from each local cell)- if Tilting per Rx/Tx licence exists, tilt angle can be set separately for each cells Tx- if AAS Vertical Sectorization licence exists, but no Tilting per Carrier licence, then Tx vertical tilt angle defined for first cell (lowest LCR ID) shall be used for all cells- if Tilting per Carrier license exists, but no Tilting per Tx/Rx license then Tx vertical tilt angle from each local cell is used separately- if AAS Vertical Sectorization licence, Tilting per Carrier licence and Tilting per Rx/Tx licence exists then txVerticalTiltAngle from each local cell is used separately1EM WBTS, WBTS RAC, RAC RACApp-7...7 deg, step 0.5 deg0 deginternal_value = gui_value * 10On-lineRAN2384 AAS Vertical Sectorization (optional), RAN2383 AAS Active Antenna System 2100/1800 HW (optional), RAN2569 AAS Tilting per Carrier (optional)LCELWVirtual Antenna Mapping EnabledvamEnabledIndicates whether Virtual Antenna Mapping is enabled or not in BTS. VAM can be enabled only in BTS where MIMO is in use (i.e. there is at least one LCEL object with 2xDL MIMO turned on). In such configuration, VAM can be enabled for a MIMO- cell or a non-MIMO cell. When MIMO is turned off (from all LCELs), also VAM shall be disabled (from all LCELs).1mimoType of LCELW - MIMO shall be enabled at least for one LCEL when VAM is enabled (public)When MIMO is cleared for all LCELs, also VAM shall be disabled for all LCELs.WBTS RAC, RAC RACApp, WBTS EMfalseBTS restart neededMHAActiveactiveDefines MHA as AISG MHA or Non-AISG MHA. Selectable values is 0 (false)= Non-AISG MHA and 1 (true )= AISG MHA .1mhaType of MHA - If Active parameter value is false there is relation to MHA type and delay values used in RTT (antennaRoundTripDelay). (public)EM WBTS, WBTS RAC, RAC RACApp-BTS restart neededMHAAISG protocol versionaisgProtocolAISG protocol version1WBTS -> EM, WBTS -> RAC2...255, step 1-internal_value = gui_valueNot modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHAFault threshold levelalarmThresholdLevelDefines a configurable fault threshold level for the mast-head amplifier, used if the MHA fault detection parameter has the value 1 (in use). Default value is depending on Flexi Filter (FF).1EM WBTS, WBTS RAC, RAC RACApp120...1320 mA, step 1 mA165 mAinternal_value = gui_valueBTS restart neededMHAAntenna band listantBandListA list containing: operating frequency band, beamwidth and the operation gain.If the parameter doesnt exist in the commissioning file it is created basing on the valued read from the device after the device has been detected.4EM WBTS, WBTS RAC, RAC RACAppOn-lineRAN1852 RET Device Naming (standard)MHAAntenna beamwidthantBeamwidthThe antenna beamwidth for the band. Some RET types may automatically update the beamwidth information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.1EM WBTS, WBTS RAC, RAC RACApp0...360 deg, step 1 deg-internal_value = gui_valueOn-lineMHAAntenna operating frequency bandantOperFreqBandAntenna operating band(s): 1 - 3GPP band I: 2100 MHz2 - 3GPP band II: 1900 MHz3 - 3GPP band III: 1800 MHz4 - 3GPP band IV: 1700 MHz5 - 3GPP band V: 850 MHz6 - 3GPP band VI: 800 MHz7 - 3GPP band VII: 2600 MHz8 - 3GPP band VIII: 900 MHz9 - 3GPP band IX: 1800 MHz10 - 3GPP band X: 1700 MHz11 - 3GPP band XI: 1500 MHz12 - 3GPP band XII: 700 MHz13 - 3GPP band XIII: 700 MHz14 - 3GPP band XIV: 700 MHz1EM WBTS, WBTS RAC, RAC RACAppBand I (1), Band II (2), Band III (3), Band IV (4), Band V (5), Band VI (6), Band VII (7), Band VIII (8), Band IX (9), Band X (10), Band XI (11), Band XII (12), Band XIII (13), Band XIV (14)-On-lineMHAAntenna operation gainantOperGainThe antenna gain for the band. Some RET types may automatically update the gain information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.1EM WBTS, WBTS RAC, RAC RACApp0...25.5 dBi, step 0.1 dBi-internal_value = gui_value * 10On-lineMHAAntenna bearingantBearingAntenna Bearing.If the parameter doesnt exist in the commissioning file it is created basing on the valued read from the device after the device has been detected.1EM WBTS, WBTS RAC, RAC RACApp0...359.9 deg, step 0.1 deg-internal_value = gui_value * 10On-lineRAN1852 RET Device Naming (standard)MHAAntenna model numberantModelAntenna model number.If the parameter doesnt exist in the commissioning file it is created basing on the valued read from the device after the device has been detected.1EM WBTS, WBTS RAC, RAC RACApp0...15 characters-On-lineRAN1852 RET Device Naming (standard)MHAAntenna serial numberantSerialAntenna serial number.If the parameter doesnt exist in the commissioning file it is created basing on the valued read from the device after the device has been detected.1EM WBTS, WBTS RAC, RAC RACApp0...17 characters-On-lineRAN1852 RET Device Naming (standard)MHAAntenna line identifierantlIdIdentifies the specific antenna line assigned to the MHA.1antId of ANTL - Identifies the specific antenna line id assigned to the MHA. (public)Identifies the specific antenna line id assigned to the MHA.EM WBTS, WBTS RAC, RAC RACApp1...144, step 1-internal_value = gui_valueBTS restart neededMHABase station IDbaseStationIDBase Station ID.If the parameter doesnt exist in the commissioning file it is created basing on the valued read from the device after the device has been detected.1EM WBTS, WBTS RAC, RAC RACApp0...32 characters-On-lineRAN1852 RET Device Naming (standard)MHAConnectionconnectionDefines the connection type for MHA/LNA. Expected values: Internal | Shared | External1EM WBTS, WBTS RAC, RAC RACAppInternal (0), Shared (1), External (2)-BTS restart neededMHADownlink delaydownlinkDelayDefines the "other" type of MHA delay in the downlink direction. If the BTS Site Manager is used to calculate RTT delay, this value must be specified for an "Other" type MHA.1mhaType of MHA - When passive mode "other" type MHA is used, Downlink delay needs to be defined other cases keep empty. (public)antennaRoundTripDelay of ANTL - Delays from passive mode MHA is added to antennaRoundTripDelay value by formula defined in antennaRoundTripDelay parameter description. (public)EM WBTS, WBTS RAC, RAC RACApp0...1000 ns, step 1 ns0 nsinternal_value = gui_valueBTS restart neededMHAGain resolutiongainResolutionGain resolution given as the gain resolution figure expressed in dB.1WBTS -> EM, WBTS -> RAC0...99 dB, step 0.01 dB-internal_value = gui_value * 100Not modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHAInstallation dateinstallDateInstallation Date.If the parameter doesnt exist in the commissioning file it is created basing on the valued read from the device after the device has been detected.1EM WBTS, WBTS RAC, RAC RACApp0...6 characters-On-lineRAN1852 RET Device Naming (standard)MHAInstallers IDinstallerIDInstaller's ID.If the parameter doesnt exist in the commissioning file it is created basing on the valued read from the device after the device has been detected.1EM WBTS, WBTS RAC, RAC RACApp0...5 characters-On-lineRAN1852 RET Device Naming (standard)MHALNA numberlnaNumberParameter for MHA telling LNA number inside one MHA. For Non AISG MHAs is used -1 (not defined).1EM WBTS, WBTS RAC, RAC RACAppNot Defined (-1), LNA1 (0), LNA2 (1)-BTS restart neededMHAMaximum supported gainmaxGainMaximum supported gain given as gain figure expressed in dB.1WBTS -> EM, WBTS -> RAC0...99 dB, step 0.01 dB-internal_value = gui_value * 100Not modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHAMHA AISG Mode EnabledmhaAisgModeEnabledDefines if the active MHA is working in the ASIG mode. It is also used to define if the AISG feature is enabled or disabled. This parameter is mandatory for AISG MHAs (when parameter active is set to true) and shall not be used for passive MHAs. Note: Two LNAs belonging to the same MHA (same product code and serial number) must be commissioned in the same mode (AISG or Current) mhaAisgModeEnabled value for both LNAs must be true or false.1EM WBTS, WBTS RAC, RAC RACApptrueBTS restart neededRAN2131 Automatic Licence Distribution to Flexi BTS (standard)MHAMHA fault detectionmhaAlarmDetectionDefines if fault detection is used or not. The options are 0 (false) and 1 (true). Default values for Non-AISG MHAs and AISG MHAs in passive mode: 1 Default values for AISG and third party MHAs:0 Note: Configurable MHA faults are allowed only for passive MHAs1EM WBTS, WBTS RAC, RAC RACApp-BTS restart neededMHAMHA gainmhaGainDefines the gain of the mast-head amplifier.1EM WBTS, WBTS RAC, RAC RACApp0...99 dB, step 0.01 dB-internal_value = gui_value * 100BTS restart neededMHAMHA identifiermhaIdThis is the instance identifier of the object MHA. This parameter appears only in the distinguished name (DN) in the plan file and is used for O&M purposes.Defines the specific mast-head amplifier unit. The value is given as consecutive numbers starting from 1.1EM WBTS, WBTS RAC, RAC RACApp1...255, step 1-internal_value = gui_valueBTS restart neededMHAMHA typemhaTypeDefines the type of the MHA. The supported MHA types are: WMHA, WMHB, WMHC, WMHD, MDTA, MDPA, MDGA, MDDA, FLJA, DTMAFV1, DTMAFV3, DTMAFV4, DTMARETFV1, DTMARETFV2, DTMARETFV3, DTMARETFV4, SDTMARETFV1, SDTMARETFV2, SDTMARETFV3, TMAFV1, TMAFV3, TMAFV4, TMARETFV1 and other.1active of MHA - Only passsive mode MHAs delay values needs to be defined. Delay from active mode Nokia MHA is not added to RTT delay. (public)downlinkDelay of MHA - When passive mode "other" type MHA is used, Downlink delay needs to be defined other cases keep empty. (public)uplinkDelay of MHA - When passive mode "other" type MHA is used, Uplink delay needs to be defined other cases keep empty. (public)antennaRoundTripDelay of ANTL - RTT delay default values for Nokia MHAs is defined in antennaTripDelay parammeter description. Only "other" - type of MHAs delay value needs to be defined. (public)EM WBTS, WBTS RAC, RAC RACAppWMHA (0), WMHB (1), WMHC (2), WMHD (3), MDTA (4), MDPA (5), MDGA (6), MDDA (7), FLJA (8), DTMAFV1 (9), DTMAFV3 (10), DTMAFV4 (11), DTMARETFV1 (12), DTMARETFV2 (13), DTMARETFV3 (14), DTMARETFV4 (15), SDTMARETFV1 (16), SDTMARETFV2 (17), SDTMARETFV3 (18), TMAFV1 (19), TMAFV3 (20), TMAFV4 (21), TMARETFV1 (22), Other (23)-BTS restart neededMHAMinimum supported gainminGainMinimum supported gain given as gain figure expressed in dB.1WBTS -> EM, WBTS -> RAC0...99 dB, step 0.01 dB-internal_value = gui_value * 100Not modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHAProduct CodeprodCodeDefines the product code of the unit in question.

The immediate update to the new parameter value applies either after administrative actions for the radio module, i.e. block and unblock, or a BTS restart.1EM WBTS, WBTS RAC, RAC RACApp1...80 characters-Requires object lockingMHA3GPP release IDreleaseId3Gpp3GPP protocol version1WBTS -> EM, WBTS -> RAC0...255, step 1-internal_value = gui_valueNot modifiableRAN1852 RET Device Naming (standard)MHAScanned antenna interfacescannedAntennaInterfaceDefines which antenna interface is scanned. Expected value: RMODx-ANTx and empty string where RMODx: 1...12 and ANTx: 1...6 It is depending on radio module type which antennas are capable for scanning / AISG device detection.1EM WBTS, WBTS RAC, RAC RACAppNONE (-1), RMOD1-ANT1 (0), RMOD1-ANT3 (1), RMOD1-ANT5 (2), RMOD2-ANT1 (3), RMOD2-ANT3 (4), RMOD2-ANT5 (5), RMOD3-ANT1 (6), RMOD3-ANT3 (7), RMOD3-ANT5 (8), RMOD4-ANT1 (9), RMOD4-ANT3 (10), RMOD4-ANT5 (11), RMOD5-ANT1 (12), RMOD5-ANT3 (13), RMOD5-ANT5 (14), RMOD6-ANT1 (15), RMOD6-ANT3 (16), RMOD6-ANT5 (17), RMOD7-ANT1 (18), RMOD7-ANT3 (19), RMOD7-ANT5 (20), RMOD8-ANT1 (21), RMOD8-ANT3 (22), RMOD8-ANT5 (23), RMOD9-ANT1 (24), RMOD9-ANT3 (25), RMOD9-ANT5 (26), RMOD10-ANT1 (27), RMOD10-ANT3 (28), RMOD10-ANT5 (29), RMOD11-ANT1 (30), RMOD11-ANT3 (31), RMOD11-ANT5 (32), RMOD12-ANT1 (33), RMOD12-ANT3 (34), RMOD12-ANT5 (35), RMOD13-ANT1 (36), RMOD13-ANT3 (37), RMOD13-ANT5 (38), RMOD14-ANT1 (39), RMOD14-ANT3 (40), RMOD14-ANT5 (41), RMOD15-ANT1 (42), RMOD15-ANT3 (43), RMOD15-ANT5 (44), RMOD16-ANT1 (45), RMOD16-ANT3 (46), RMOD16-ANT5 (47), RMOD17-ANT1 (48), RMOD17-ANT3 (49), RMOD17-ANT5 (50), RMOD18-ANT1 (51), RMOD18-ANT3 (52), RMOD18-ANT5 (53), RMOD19-ANT1 (54), RMOD19-ANT3 (55), RMOD19-ANT5 (56), RMOD20-ANT1 (57), RMOD20-ANT3 (58), RMOD20-ANT5 (59), RMOD21-ANT1 (60), RMOD21-ANT3 (61), RMOD21-ANT5 (62), RMOD22-ANT1 (63), RMOD22-ANT3 (64), RMOD22-ANT5 (65), RMOD23-ANT1 (66), RMOD23-ANT3 (67), RMOD23-ANT5 (68), RMOD24-ANT1 (69), RMOD24-ANT3 (70), RMOD24-ANT5 (71)-BTS restart neededRAN1770 RF Sharing WCDMA - GSM (optional), RAN1770-e New topology object model for RF Module (standard), RAN2312 Radio Interface Harmonization in Rel2.x RF modules (standard)MHASector IDsectorIDSector ID.If the parameter doesnt exist in the commissioning file it is created basing on the valued read from the device after the device has been detected.1EM WBTS, WBTS RAC, RAC RACApp0...32 characters-On-lineRAN1852 RET Device Naming (standard)MHASerial NumberserNumDefines the serial number of the unit in question.

The immediate update to the new parameter value applies either after administrative actions for the radio module, i.e. block and unblock, or a BTS restart.1EM WBTS, WBTS RAC, RAC RACApp1...80 characters-Requires object lockingMHASubstancesubstanceSubstance version number1WBTS -> EM, WBTS -> RAC2...255, step 1-internal_value = gui_valueNot modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHATMA Subunit Receive Frequency Band MaxtmaSubunitRxFreqBandMaxTMA Subunit receive frequency bandTMA Subunit receive frequency band1WBTS -> EM, WBTS -> RAC0...6553500 kHz, step 100 kHz-internal_value = gui_valueNot modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHATMA Subunit Receive Frequency Band MintmaSubunitRxFreqBandMinTMA Subunit receive frequency bandTMA Subunit receive frequency band1WBTS -> EM, WBTS -> RAC0...6553500 kHz, step 100 kHz-internal_value = gui_valueNot modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHATMA Subunit Transmit Frequency Band MaxtmaSubunitTxFreqBandMaxTMA Subunit transmit frequency bandTMA Subunit transmit frequency band1WBTS -> EM, WBTS -> RAC0...6553500 kHz, step 100 kHz-internal_value = gui_valueNot modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHATMA Subunit Transmit Frequency Band MintmaSubunitTxFreqBandMinTMA Subunit transmit frequency bandTMA Subunit transmit frequency band1WBTS -> EM, WBTS -> RAC0...6553500 kHz, step 100 kHz-internal_value = gui_valueNot modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHATMA Subunit TypetmaSubunitTypeTMA Subunit typeTMA Subunit type1WBTS -> EM, WBTS -> RACBit 0: Bypass, Bit 1: VSWR, Bit 2: spare (Always 0), Bit 3: spare (Always 0), Bit 4: spare (Always 0), Bit 5: spare (Always 0), Bit 6: spare (Always 0), Bit 7: spare (Always 0),0Not modifiableRAN1852 RET Device Naming (standard)3GPP Reference: AISG v.2.0 (public)MHAUplink delayuplinkDelayDefines the MHA delay in the uplink direction for an "Other" type MHA. If the BTS Site Manager is used to calculate antenna round trip time delay, this value must be specified.1mhaType of MHA - When passive mode "other" type MHA is used, Uplink delay needs to be defined other cases keep empty. (public)antennaRoundTripDelay of ANTL - Delays from passive mode MHA is added to antennaRoundTripDelay value by formula defined in antennaRoundTripDelay parameter description. (public)EM WBTS, WBTS RAC, RAC RACApp0...1000 ns, step 1 ns0 nsinternal_value = gui_valueBTS restart neededMHAWMH connectorwmhConnectorDefines the MHA connector in question of WMHC and TMARET MHA types. The options are BTS1 (Pass-through) and BTS2 (Power) for WMHC, NODEB0 and NODEB1 for TMARET MHA types. If other than WMHC or TMARET MHA types are used then wmhConnector parameter value is None1EM WBTS, WBTS RAC, RAC RACAppNone (-1), BTS1 (0), BTS2 (1), NODEB0 (2), NODEB1 (3)BTS1 (0)BTS restart neededMRBTSEnable SW MonitoringactSwMonitoringDefines if SW Monitoring is used to license optional features. If yes, Generic License Key is used instead of feature specific license files.1WBTS EM, WBTS RAC, RACApp RACfalseBy default, feature specific license files are used.On-lineRAN2370 Generic License Key (standard)MRBTSHW serial numberautoConHWIdSystem Module Core Assembly serial number : always present in FSM HW.1WBTS -> RAC, RAC -> RACApp1...11 characters-Not modifiableRAN1298 BTS Auto Connection (optional), RAN1299 BTS Auto Configuration (optional)MRBTSSite IDautoConSiteIdSite ID inserted by operator during autoconnection.1WBTS -> RAC, RAC -> RACApp0...50 characters-Not modifiableRAN1298 BTS Auto Connection (optional), RAN1299 BTS Auto Configuration (optional)MRBTSAuto configuration blockedautoConfBlockedThis parameter indicates if auto configuration is allowed or blocked in auto configuration case.1WBTS -> RAC, RAC -> RACAppfalseAuto configuration is not blocked.Not modifiableRAN1299 BTS Auto Configuration (optional)MRBTSConfiguration requiredcommissioningRequiredThis parameter indicates if BTS requires configuration in auto configuration case.1WBTS -> RAC, RAC -> RACAppfalseNot modifiableRAN1299 BTS Auto Configuration (optional)MRBTSEnable Automatic License RequestenAutoLicReqThe flag is used to control automatic license request mechanism triggered from BTS. In case that the flag is set BTS will either automatically request licenses from NetAct pool or the operator will be able to allocate the licenses manually to BTS. In case the flag is cleared the automatic license requesting mechanism will be deactivated but it will be still possible for the operator to manually allocate the licenses to BTS.1WBTS EM, WBTS RAC, RACApp RACtrueThe automatic license requests triggered from BTS are active.On-lineRAN2131 Automatic Licence Distribution to Flexi BTS (standard)MRBTSMultiradio Flexi BTS site identifiermrbtsIdThis is an instance identifier of object MRBTS. This parameter appears only in the distinguished name (DN) in the plan file and is used for O&M purposes. It is used as Multiradio Flexi BTS Site Id. In RU30, this id is always 1.1RAC RACApp, RAC WBTS, EM WBTS1...1, step 11internal_value = gui_valueNot modifiableRAN1770 RF Sharing WCDMA - GSM (optional), RAN1770-e New topology object model for RF Module (standard)MRBTSPassive unit listpassUnitListThe list defines commissioned passive units.100EM WBTS, WBTS RAC, RAC RACAppOn-lineMRBTSCommentcommentFree text about the passive unit in question.1EM WBTS, WBTS RAC, RAC RACApp1...60 characters-On-lineMRBTSNamenameDefines the name of the passive unit in question.1EM WBTS, WBTS RAC, RAC RACApp1...60 characters-On-lineMRBTSProduct codeprodCodeDefines the product code of the passive unit in question.1EM WBTS, WBTS RAC, RAC RACApp0...60 characters-On-lineMRBTSSerial numberserNumDefines the serial number of the passive unit in question.1EM WBTS, WBTS RAC, RAC RACApp0...60 characters-On-lineMRBTSVersionversionDefines the version of the passive unit in question.1EM WBTS, WBTS RAC, RAC RACApp1...20 characters-BTS restart neededMRBTSReset BTS to test dedicated stateresetToTestDedicatedThis parameter indicates if BTS should automatically go to "Test Dedicated" state in start-up.1WBTS RAC, RAC RACApp, EM WBTSfalseStart-up normally.BTS restart neededRAN1299 BTS Auto Configuration (optional)MRBTSShared RF technologiessharedRfTechnologiesThis parameter indicate the partner technologies which do share the same RF equipment. The system will set this parameter automatically based on RF sharing configuration defined to the BTS.1WBTS -> EM, WBTS -> RACnone (0), UTRAN-EUTRA (1), UTRAN-GERAN (2), EUTRA-GERAN (3)-Not modifiableRAN2126 RF Sharing WCDMA - LTE (optional)MRBTSTime zonetimeZoneDefines the used Time Zone.

The format is predefined, for example for Helsinki "(GMT+2) Europe/Helsinki".1EM WBTS, WBTS RAC, RAC RACApp(GMT-11) Etc/GMT+11 (0), (GMT-11) MIT (1), (GMT-11) Pacific/Apia (2), (GMT-11) Pacific/Midway (3), (GMT-11) Pacific/Niue (4), (GMT-11) Pacific/Pago_Pago (5), (GMT-11) Pacific/Samoa (6), (GMT-11) US/Samoa (7), (GMT-10) America/Adak (8), (GMT-10) America/Atka (9), (GMT-10) Etc/GMT+10 (10), (GMT-10) HST (11), (GMT-10) Pacific/Fakaofo (12), (GMT-10) Pacific/Honolulu (13), (GMT-10) Pacific/Johnston (14), (GMT-10) Pacific/Rarotonga (15), (GMT-10) Pacific/Tahiti (16), (GMT-10) SystemV/HST10 (17), (GMT-10) US/Aleutian (18), (GMT-10) US/Hawaii (19), (GMT-10.5) Pacific/Marquesas (20), (GMT-9) AST (21), (GMT-9) America/Anchorage (22), (GMT-9) America/Juneau (23), (GMT-9) America/Nome (24), (GMT-9) America/Yakutat (25), (GMT-9) Etc/GMT+9 (26), (GMT-9) Pacific/Gambier (27), (GMT-9) SystemV/YST9 (28), (GMT-9) SystemV/YST9YDT (29), (GMT-9) US/Alaska (30), (GMT-8) America/Dawson (31), (GMT-8) America/Ensenada (32), (GMT-8) America/Los_Angeles (33), (GMT-8) America/Tijuana (34), (GMT-8) America/Vancouver (35), (GMT-8) America/Whitehorse (36), (GMT-8) Canada/Pacific (37), (GMT-8) Canada/Yukon (38), (GMT-8) Etc/GMT+8 (39), (GMT-8) Mexico/BajaNorte (40), (GMT-8) PST (41), (GMT-8) PST8PDT (42), (GMT-8) Pacific/Pitcairn (43), (GMT-8) SystemV/PST8 (44), (GMT-8) SystemV/PST8PDT (45), (GMT-8) US/Pacific (46), (GMT-8) US/Pacific-New (47), (GMT-7) America/Boise (48), (GMT-7) America/Cambridge_Bay (49), (GMT-7) America/Chihuahua (50), (GMT-7) America/Dawson_Creek (51), (GMT-7) America/Denver (52), (GMT-7) America/Edmonton (53), (GMT-7) America/Hermosillo (54), (GMT-7) America/Inuvik (55), (GMT-7) America/Mazatlan (56), (GMT-7) America/Phoenix (57), (GMT-7) America/Shiprock (58), (GMT-7) America/Yellowknife (59), (GMT-7) Canada/Mountain (60), (GMT-7) Etc/GMT+7 (61), (GMT-7) MST (62), (GMT-7) MST7MDT (63), (GMT-7) Mexico/BajaSur (64), (GMT-7) Navajo (65), (GMT-7) PNT (66), (GMT-7) SystemV/MST7 (67), (GMT-7) SystemV/MST7MDT (68), (GMT-7) US/Arizona (69), (GMT-7) US/Mountain (70), (GMT-6) America/Belize (71), (GMT-6) America/Cancun (72), (GMT-6) America/Chicago (73), (GMT-6) America/Costa_Rica (74), (GMT-6) America/El_Salvador (75), (GMT-6) America/Guatemala (76), (GMT-6) America/Indiana/Knox (77), (GMT-6) America/Indiana/Tell_City (78), (GMT-6) America/Knox_IN (79), (GMT-6) America/Managua (80), (GMT-6) America/Menominee (81), (GMT-6) America/Merida (82), (GMT-6) America/Mexico_City (83), (GMT-6) America/Monterrey (84), (GMT-6) America/North_Dakota/Center (85), (GMT-6) America/North_Dakota/New_Salem (86), (GMT-6) America/Rainy_River (87), (GMT-6) America/Rankin_Inlet (88), (GMT-6) America/Regina (89), (GMT-6) America/Swift_Current (90), (GMT-6) America/Tegucigalpa (91), (GMT-6) America/Winnipeg (92), (GMT-6) CST (93), (GMT-6) CST6CDT (94), (GMT-6) Canada/Central (95), (GMT-6) Canada/East-Saskatchewan (96), (GMT-6) Canada/Saskatchewan (97), (GMT-6) Chile/EasterIsland (98), (GMT-6) Etc/GMT+6 (99), (GMT-6) Mexico/General (100), (GMT-6) Pacific/Easter (101), (GMT-6) Pacific/Galapagos (102), (GMT-6) SystemV/CST6 (103), (GMT-6) SystemV/CST6CDT (104), (GMT-6) US/Central (105), (GMT-6) US/Indiana-Starke (106), (GMT-5) America/Atikokan (107), (GMT-5) America/Bogota (108), (GMT-5) America/Cayman (109), (GMT-5) America/Coral_Harbour (110), (GMT-5) America/Detroit (111), (GMT-5) America/Eirunepe (112), (GMT-5) America/Fort_Wayne (113), (GMT-5) America/Grand_Turk (114), (GMT-5) America/Guayaquil (115), (GMT-5) America/Havana (116), (GMT-5) America/Indiana/Indianapolis (117), (GMT-5) America/Indiana/Marengo (118), (GMT-5) America/Indiana/Petersburg (119), (GMT-5) America/Indiana/Vevay (120), (GMT-5) America/Indiana/Vincennes (121), (GMT-5) America/Indiana/Winamac (122), (GMT-5) America/Indianapolis (123), (GMT-5) America/Iqaluit (124), (GMT-5) America/Jamaica (125), (GMT-5) America/Kentucky/Louisville (126), (GMT-5) America/Kentucky/Monticello (127), (GMT-5) America/Lima (128), (GMT-5) America/Louisv