Wcdma-Ran-Parameters.pdf

June 19, 2018 | Author: eden2013 | Category: Asynchronous Transfer Mode, Telecommunications Standards, Computing, Technology, Telecommunications Engineering
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WCDMA RAN ParametersDN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 1 (756) WCDMA RAN Parameters The information in this documentation is subject to change without notice and describes only the product defined in the introduction of this documentation. This documentation is intended for the use of Nokia's customers only for the purposes of the agreement under which the documentation is submitted, and no part of it may be reproduced or transmitted in any form or means without the prior written permission of Nokia. The documentation has been prepared to be used by professional and properly trained personnel, and the customer assumes full responsibility when using it. Nokia welcomes customer comments as part of the process of continuous development and improvement of the documentation. The information or statements given in this documentation concerning the suitability, capacity, or performance of the mentioned hardware or software products cannot be considered binding but shall be defined in the agreement made between Nokia and the customer. However, Nokia has made all reasonable efforts to ensure that the instructions contained in the documentation are adequate and free of material errors and omissions. Nokia will, if necessary, explain issues which may not be covered by the documentation. Nokia's liability for any errors in the documentation is limited to the documentary correction of errors. NOKIA WILL NOT BE RESPONSIBLE IN ANY EVENT FOR ERRORS IN THIS DOCUMENTATION OR FOR ANY DAMAGES, INCIDENTAL OR CONSEQUENTIAL (INCLUDING MONETARY LOSSES), that might arise from the use of this documentation or the information in it. This documentation and the product it describes are considered protected by copyright according to the applicable laws. NOKIA logo is a registered trademark of Nokia Corporation. Other product names mentioned in this documentation may be trademarks of their respective companies, and they are mentioned for identification purposes only. Copyright © Nokia Corporation 2003. All rights reserved. 2 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en Contents Contents 3 1 1.1 1.2 1.3 1.4 2 3 4 4.1 4.1.1 4.1.2 4.1.3 4.1.4 4.1.5 4.1.6 4.1.7 4.1.8 4.1.9 4.1.10 4.1.11 4.1.12 4.1.13 4.1.14 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.2.6 4.2.7 4.2.8 4.2.9 4.2.10 4.2.11 4.2.12 4.2.13 4.2.14 4.2.15 4.2.16 4.2.17 4.3 4.3.1 About this document 21 Interfaces 21 Parameter values 22 Structures 23 How to read parameter tables 24 Changes in NetAct documentation 27 NetAct compatibility and capacity information 29 RAN Parameters 31 ADJG Parameters 31 ADJGId (Inter-system adjacency identifier) 31 AdjgBCC (Base Station Colour Code) 32 AdjgBCCH (BCCH ARFCN) 32 AdjgBandIndicator (Band Indicator) 33 AdjgCI (Cell Identifier) 34 AdjgLAC (Location Area Code) 35 AdjgMCC (Mobile Country Code) 36 AdjgMNC (Mobile Network Code) 37 AdjgMNCLength (Mobile Network Code Length) 38 AdjgNCC (Network Colour Code) 39 AdjgTxPwrMaxRACH (Maximum UE TX Power on RACH) 40 AdjgTxPwrMaxTCH (Maximum UE TX Power on TCH) 41 NrtHopgIdentifier (NRT HOPG Identifier) 42 RtHopgIdentifier (RT HOPG Identifier) 42 ADJI Parameters 43 ADJIId (Inter-frequency adjacency identifier) 43 AdjiCI (Cell Identifier) 44 AdjiCPICHTxPwr (Primary CPICH power) 45 AdjiLAC (Location Area Code) 46 AdjiMCC (Mobile Country Code) 47 AdjiMNC (Mobile Network Code) 48 AdjiMNCLength (Mobile Network Code Length) 49 AdjiRAC (Routing Area Code) 50 AdjiRNCid (RNC Identifier) 51 AdjiSIB (Include in System Information) 52 AdjiScrCode (Primary Scrambling Code) 53 AdjiTxDiv (Tx Diversity Indicator) 54 AdjiTxPwrDPCH (Maximum UE TX Power on DPCH) 55 AdjiTxPwrRACH (Maximum UE TX Power on RACH) 56 AdjiUARFCN (UARFCN) 57 NrtHopiIdentifier (NRT HOPI Identifier) 58 RtHopiIdentifier (RT HOPI Identifier) 58 ADJS Parameters 59 ADJSId (Intra-frequency adjacency identifier) 59 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 3 (756) WCDMA RAN Parameters 4.3.2 4.3.3 4.3.4 4.3.5 4.3.6 4.3.7 4.3.8 4.3.9 4.3.10 4.3.11 4.3.12 4.3.13 4.3.14 4.3.15 4.3.16 4.4 4.4.1 4.4.2 4.4.3 4.4.4 4.4.4.1 4.4.5 4.4.5.1 4.4.6 4.4.6.1 4.4.6.2 4.4.6.3 4.4.6.4 4.4.6.5 4.4.6.6 4.4.6.7 4.4.7 4.4.8 4.4.8.1 4.4.8.2 4.4.8.3 4.4.8.4 4.4.8.5 4.4.8.6 4.4.8.7 4.4.8.8 4.4.9 4.4.10 4.4.10.1 4.4.10.2 4.4.10.3 4.4.10.4 4.4.10.5 4.4.11 4.4.12 AdjsCI (Cell Identifier) 60 AdjsCPICHTxPwr (Primary CPICH power) 61 AdjsDERR (Disable Effect on Reporting Range) 62 AdjsEcNoOffset (CPICH Ec/No Offset) 62 AdjsLAC (Location Area Code) 63 AdjsMCC (Mobile Country Code) 64 AdjsMNC (Mobile Network Code) 65 AdjsMNCLength (Mobile Network Code Length) 66 AdjsRAC (Routing Area Code) 67 AdjsRNCid (RNC Identifier) 68 AdjsScrCode (Primary Scrambling Code) 69 AdjsTxDiv (Tx Diversity Indicator) 69 AdjsTxPwrRACH (Maximum UE TX Power on RACH) 70 NrtHopsIdentifier (NRT HOPS Identifier) 71 RtHopsIdentifier (RT HOPS Identifier) 72 COCO Parameters 73 AAL2LossRatio (AAL2 CPS-SDU loss ratio) 73 AAL2Multiplexing (BTS AAL2 multiplexing) 74 AAL2MuxDelay (AAL2 CPS-SDU multiplexing delay) 75 AAL2SignLinkTPList (AAL2 signalling link termination point list) 76 AAL2SignLinkTP (AAL2 signalling link configuration) 77 AAL2TPList (AAL2 User plane termination point list) 84 AAL2TP (AAL2 User Plane link configuration) 84 ATMInterface (ATM interface) 97 ATMIfAdmState (ATM interface administrative state) 98 ATMIfMaxBandwidthEgr (ATM interface maximum bandwidth egress) 98 ATMIfMaxBandwidthIng (ATM interface maximum bandwidth ingress) 99 ATMIfMaxVCIBits (ATM interface maximum VCI bits) 100 ATMIfMaxVPIBits (ATM interface maximum VPI bits) 101 ATMIfPhysicalTTPId (ATM interface physical TTP) 101 ATMInterfaceType (ATM interface type) 102 ATMInterfaceID (ATM interface identifier) 103 CNBAPTP (C-NBAP signalling link configuration) 103 CNBAPCDVT01Egr (C-NBAP VCLtp CDVT egress) 104 CNBAPCDVT01Ing (C-NBAP VCLtp CDVT ingress) 105 CNBAPICSUIndex (ICSU index for C-NBAP link) 106 CNBAPOpState (Operational Status of C-NBAP link) 107 CNBAPPCR01Egr (C-NBAP VCLtp PCR egress) 107 CNBAPPCR01Ing (C-NBAP VCLtp PCR ingress) 108 CNBAPTPAdmState (C-NBAP VCLtp effective administrative state) 109 CNBAPVCI (Virtual channel identifier for C-NBAP) 110 COCOId (Connection configuration identifier) 110 COCOTraffic (COCO Traffic parameters) 111 ConformanceDef (Conformance definition) 112 EarlyPacketDiscard (Early Packet Discard) 113 PartialPacketDiscard (Partial Packet Discard) 114 QualityOfServiceClass (Quality Of Service Class) 115 ServiceCategory (Service category) 115 CalculateCDVT (Calculate CDVT) 116 CreateATMTP (Create ATM termination points) 117 4 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en 4.4.13 4.4.13.1 4.4.14 4.4.15 4.4.15.1 4.4.15.2 4.4.15.3 4.4.15.4 4.4.15.5 4.5 4.5.1 4.5.2 4.5.3 4.5.4 4.5.5 4.5.6 4.5.7 4.5.8 4.5.9 4.5.10 4.5.11 4.5.12 4.5.13 4.5.14 4.5.15 4.5.16 4.5.17 4.5.18 4.5.19 4.5.20 4.5.21 4.5.22 4.6 4.6.1 4.6.2 4.6.3 4.6.4 4.6.5 4.6.6 4.6.7 4.6.8 4.6.9 4.6.10 4.6.11 4.6.12 4.6.13 4.6.14 DNBAPTPList (D-NBAP termination point list) 118 DNBAPTP (D-NBAP signalling link configuration) 119 GenerateAAL2Num (Generate AAL2 user plane link numbers) 127 VPLTP (Virtual Path Link termination point) 128 COCOVPI (Virtual Path Identifier) 129 VPLTPAdmState (VPLtp effective administrative state) 129 VPLTPCDVT01Egr (VPLtp CDVT egress) 130 VPLTPPCR01Egr (VPLtp PCR egress) 131 VPLTPTrafficShaping (VPLtp VP level traffic shaping) 132 FMCG Parameters 133 FMCGId (FMCG identifier) 133 GSMcauseCPICHEcNo (GSM HO caused by CPICH Ec/No) 134 GSMcauseCPICHrscp (GSM HO caused by CPICH RSCP) 135 GSMcauseTxPwrDL (GSM HO caused by DL DPCH TX Power) 136 GSMcauseTxPwrUL (GSM HO caused by UE TX Power) 137 GSMcauseUplinkQuality (GSM HO caused by UL DCH Quality) 138 GsmDLTxPwrThrAMR (DL DPCH TX Power Threshold for AMR) 138 GsmDLTxPwrThrCS (DL DPCH TX Power Threshold for CS) 139 GsmDLTxPwrThrNrtPS (DL DPCH TX Power Threshold for NRT PS) 140 GsmDLTxPwrThrRtPS (DL DPCH TX Power Threshold for RT PS) 141 GsmMaxMeasPeriod (Maximum Measurement Period) 142 GsmMeasAveWindow (Measurement Averaging Window) 143 GsmMeasRepInterval (Measurement Reporting Interval) 144 GsmMinHoInterval (Minimum Interval Between HOs) 145 GsmMinMeasInterval (Minimum Measurement Interval) 146 GsmNcellSearchPeriod (GSM Neighbour Cell Search Period) 147 GsmUETxPwrFilterCoeff (UE TX Power Filter Coefficient) 148 GsmUETxPwrThrAMR (UE TX Power Threshold for AMR) 149 GsmUETxPwrThrCS (UE TX Power Threshold for CS) 150 GsmUETxPwrThrNrtPS (UE TX Power Threshold for NRT PS) 151 GsmUETxPwrThrRtPS (UE TX Power Threshold for RT PS) 152 GsmUETxPwrTimeHyst (UE TX Power Time Hysteresis) 153 FMCI Parameters 155 FMCIId (FMCI identifier) 155 IFHOcauseCPICHEcNo (IFHO caused by CPICH Ec/No) 156 IFHOcauseCPICHrscp (IFHO caused by CPICH RSCP) 157 IFHOcauseTxPwrDL (IFHO caused by DL DPCH TX Power) 158 IFHOcauseTxPwrUL (IFHO caused by UE TX Power) 159 IFHOcauseUplinkQuality (IFHO caused by UL DCH Quality) 160 InterFreqDLTxPwrThrAMR (DL DPCH TX Power Threshold for AMR ) 160 InterFreqDLTxPwrThrCS (DL DPCH TX Power Threshold for CS) 161 InterFreqDLTxPwrThrNrtPS (DL DPCH TX Power Threshold for NRT PS) 162 InterFreqDLTxPwrThrRtPS (DL DPCH TX Power Threshold for RT PS) 163 InterFreqMaxMeasPeriod (Maximum Measurement Period) 164 InterFreqMeasAveWindow (Measurement Averaging Window) 165 InterFreqMeasRepInterval (Measurement Reporting Interval) 166 InterFreqMinHoInterval (Minimum Interval Between HOs) 167 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 5 (756) WCDMA RAN Parameters 4.6.15 4.6.16 4.6.17 4.6.18 4.6.19 4.6.20 4.6.21 4.6.22 4.7 4.7.1 4.7.2 4.7.3 4.7.4 4.7.5 4.7.6 4.7.7 4.7.8 4.7.9 4.7.10 4.7.11 4.7.12 4.7.13 4.7.14 4.7.15 4.7.16 4.7.17 4.7.18 4.7.19 4.7.20 4.7.21 4.8 4.8.1 4.8.2 4.8.3 4.8.4 4.8.5 4.8.6 4.8.7 4.8.8 4.8.9 4.9 4.9.1 4.9.2 4.9.3 4.9.4 4.9.5 4.9.6 4.9.7 4.9.8 4.9.9 4.9.10 InterFreqMinMeasInterval (Minimum Measurement Interval) 168 InterFreqNcellSearchPeriod (Neighbour Cell Search Period) 169 InterFreqUETxPwrFilterCoeff (UE TX Power Filter Coefficient) 170 InterFreqUETxPwrThrAMR (UE TX Power Threshold for AMR) 171 InterFreqUETxPwrThrCS (UE TX Power Threshold for CS) 172 InterFreqUETxPwrThrNrtPS (UE TX Power Threshold for NRT PS) 173 InterFreqUETxPwrThrRtPS (UE TX Power Threshold for RT PS) 174 InterFreqUETxPwrTimeHyst (UE TX Power Time Hysteresis) 175 FMCS Parameters 177 ActiveSetWeightingCoefficient (Active Set Weighting Coefficient) 177 AdditionReportingInterval (Addition Reporting Interval) 178 AdditionTime (Addition Time) 179 AdditionWindow (Addition Window) 181 DropTime (Drop Time) 182 DropWindow (Drop Window ) 184 EcNoFilterCoefficient (CPICH Ec/No Filter Coefficient) 185 FMCSId (FMCS identifier) 186 HHoEcNoCancel (CPICH Ec/No HHO Cancellation) 187 HHoEcNoCancelTime (CPICH Ec/No HHO Cancellation Time) 188 HHoEcNoThreshold (CPICH Ec/No HHO Threshold) 190 HHoEcNoTimeHysteresis (CPICH Ec/No HHO Time Hysteresis) 191 HHoRscpCancel (CPICH RSCP HHO Cancellation) 193 HHoRscpCancelTime (CPICH RSCP HHO Cancellation Time) 194 HHoRscpFilterCoefficient (CPICH RSCP HHO Filter Coefficient) 196 HHoRscpThreshold (CPICH RSCP HHO Threshold) 198 HHoRscpTimeHysteresis (CPICH RSCP HHO Time Hysteresis) 199 MaxActiveSetSize (Maximum Active Set Size) 201 ReplacementReportingInterval (Replacement Reporting Interval) 202 ReplacementTime (Replacement Time) 203 ReplacementWindow (Replacement Window) 205 HOPG Parameters 206 AdjgHCSpriority (Cell Re-selection HCS Priority) 206 AdjgHCSthreshold (Cell Re-selection HCS Threshold) 207 AdjgPenaltyTime (Cell Re-selection Penalty Time) 208 AdjgPriorityCoverage (Ncell Priority for Coverage HO) 209 AdjgQoffset1 (Cell Re-selection Quality Offset 1 ) 210 AdjgQrxlevMin (Cell Re-selection Minimum RX Level ) 211 AdjgRxLevMinHO (Minimum RX Level for Coverage HO) 212 AdjgTempOffset1 (Cell Re-selection Temporary Offset 1) 213 HOPGId (HOPG Identifier) 214 HOPI Parameters 215 AdjiEcNoMargin (CPICH Ec/No Margin for IFHO ) 215 AdjiHCSpriority (Cell Re-selection HCS Priority) 216 AdjiHCSthreshold (Cell Re-selection HCS Threshold) 217 AdjiMinEcNo (Minimum CPICH Ec/No for IFHO ) 218 AdjiMinRSCP (Minimum CPICH RSCP for IFHO ) 219 AdjiPenaltyTime (Cell Re-selection Penalty Time) 220 AdjiPlossMargin (Pathloss Margin for IFHO ) 221 AdjiPriorityCoverage (Ncell Priority for Coverage IFHO ) 221 AdjiPriorityQuality (Ncell Priority for Quality IFHO ) 222 AdjiQoffset1 (Cell Re-selection Quality Offset 1 ) 223 6 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en 4.9.11 4.9.12 4.9.13 4.9.14 4.9.15 4.9.16 4.10 4.10.1 4.10.2 4.10.3 4.10.4 4.10.5 4.10.6 4.10.7 4.10.8 4.10.9 4.10.10 4.10.11 4.10.12 4.10.13 4.10.14 4.10.15 4.10.16 4.10.17 4.11 4.11.1 4.11.2 4.11.3 4.11.4 4.11.5 4.11.6 4.11.7 4.11.8 4.11.9 4.11.10 4.11.11 4.11.12 4.11.13 4.11.14 4.11.15 4.11.15.1 4.11.15.2 4.11.15.3 4.11.15.4 AdjiQoffset2 (Cell Re-selection Quality Offset 2) 224 AdjiQqualMin (Cell Re-selection Minimum Quality ) 225 AdjiQrxlevMin (Cell Re-selection Minimum RX Level ) 226 AdjiTempOffset1 (Cell Re-selection Temporary Offset 1) 227 AdjiTempOffset2 (Cell Re-selection Temporary Offset 2) 229 HOPIId (HOPI Identifier) 230 HOPS Parameters 231 AdjsHCSpriority (Cell Re-selection HCS Priority) 231 AdjsHCSthreshold (Cell Re-selection HCS Threshold) 232 AdjsPenaltyTime (Cell Re-selection Penalty Time) 233 AdjsQoffset1 (Cell Re-selection Quality Offset 1 ) 234 AdjsQoffset2 (Cell Re-selection Quality Offset 2) 235 AdjsQqualMin (Cell Re-selection Minimum Quality ) 236 AdjsQrxlevMin (Cell Re-selection Minimum RX Level ) 237 AdjsTempOffset1 (Cell Re-selection Temporary Offset 1) 238 AdjsTempOffset2 (Cell Re-selection Temporary Offset 2) 239 EcNoAveragingWindow (CPICH Ec/No Averaging Window) 241 EnableInterRNCsho (Enable Inter-RNC Soft Handover) 241 EnableRRCRelease (Enable RRC Connection Release) 242 HHOMarginAverageEcNo (HHO Margin for Average Ec/No) 243 HHOMarginPeakEcNo (HHO Margin for Peak Ec/No) 244 HOPSId (HOPS Identifier) 245 ReleaseMarginAverageEcNo (Release Margin for Average Ec/No) 246 ReleaseMarginPeakEcNo (Release Margin for Peak Ec/No) 247 RNC Parameters 248 A2EA (AAL type 2 end point address for Iur) 248 ActivationTimeOffset (Offset for activation time) 249 BTSfrozenMaxTimer (Supervision timer to defrost frozen WBTS) 250 CMmasterSwitch (Compressed mode master switch) 251 CellReselectionObservingTime (Cell Reselection Observing Time) 252 CrHandlingPolicyDL (Downlink capacity request handling policy) 254 CrHandlingPolicyUL (Uplink capacity request handling policy) 255 CrQueuingTimeDL (Maximum downlink capacity request queuing time) 256 CrQueuingTimeUL (Maximum uplink capacity request queuing time) 256 DLpuncturingLimit (Downlink puncturing limit ) 257 EnableULQualDetRep (Quality deterioration report from UL OLPC controller) 259 ExpectReorderingPDCP (Expect Reordering for PDCP ) 260 FmaxPeriodPDCP (F Max Period for PDCP) 261 FmaxTimePDCP (F Max Time for PDCP ) 262 GainFactorControlPartPRACHmessage (Gain factor for control part of PRACH message) 263 PrachBetaC120 (Gain factor for control part of PRACH message with 120 ksps ) 264 PrachBetaC15 (Gain factor for control part of PRACH message with 15 ksps ) 265 PrachBetaC30 (Gain factor for control part of PRACH message with 30 ksps ) 266 PrachBetaC60 (Gain factor for control part of PRACH message with 60 ksps ) 267 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 7 (756) WCDMA RAN Parameters 4.11.16 4.11.16.1 4.11.16.2 4.11.16.3 4.11.16.4 4.11.17 4.11.18 4.11.18.1 4.11.18.2 4.11.19 4.11.20 4.11.21 4.11.22 4.11.23 4.11.24 4.11.25 4.11.26 4.11.26.1 4.11.26.2 4.11.26.3 4.11.26.4 4.11.26.5 4.11.26.6 4.11.26.7 4.11.26.8 4.11.27 4.11.27.1 4.11.27.2 4.11.27.3 4.11.27.4 4.11.27.5 4.11.27.6 GainFactorDataPartPRACHmessage (Gain factor for data part of PRACH message) 268 PrachBetaD120 (Gain factor for data part of PRACH message with 120 ksps ) 269 PrachBetaD15 (Gain factor for data part of PRACH message with 15 ksps ) 270 PrachBetaD30 (Gain factor for data part of PRACH message with 30 ksps ) 271 PrachBetaD60 (Gain factor for data part of PRACH message with 60 ksps ) 272 GapPositionSingleFrame (Gap position single frame) 273 GlobalRNCid (Global RNC identifier) 274 PLMNid (PLMN identity) 275 RncId (RNC Identifier) 279 GsmHandoverAMR (Handover of AMR Service to GSM) 280 GsmHandoverCS (Handover of CS Service to GSM) 282 GsmHandoverNrtPS (Handover of NRT PS Service to GSM) 283 GsmHandoverRtPS (Handover of RT PS Service to GSM) 284 HLSModeSelection (Higher Layer Scheduling mode selection) 285 HeaderCompressionMethod (Header compression algorithm of PDCP ) 286 InactTmrNRT_RB_Setup (Inactivity timer in NRT RB setup) 287 InactivityTimerDownlinkDCH (Inactivity timer for downlink DCH) 288 InactivityTimerDownlinkDCH128 (Inactivity timer for downlink 128kbps DCH) 290 InactivityTimerDownlinkDCH16 (Inactivity timer for downlink 16kbps DCH) 290 InactivityTimerDownlinkDCH256 (Inactivity timer for downlink 256kbps DCH) 291 InactivityTimerDownlinkDCH32 (Inactivity timer for downlink 32kbps DCH) 292 InactivityTimerDownlinkDCH320 (Inactivity timer for downlink 320kbps DCH) 293 InactivityTimerDownlinkDCH384 (Inactivity timer for downlink 384kbps DCH) 294 InactivityTimerDownlinkDCH64 (Inactivity timer for downlink 64kbps DCH) 294 InactivityTimerDownlinkDCH8 (Inactivity timer for downlink 8kbps DCH) 295 InactivityTimerUplinkDCH (Inactivity timer for uplink DCH) 296 InactivityTimerUplinkDCH128 (Inactivity timer for uplink 128kbps DCH) 297 InactivityTimerUplinkDCH16 (Inactivity timer for uplink 16kbps DCH) 298 InactivityTimerUplinkDCH256 (Inactivity timer for uplink 256kbps DCH) 299 InactivityTimerUplinkDCH32 (Inactivity timer for uplink 32kbps DCH) 300 InactivityTimerUplinkDCH320 (Inactivity timer for uplink 320kbps DCH) 301 InactivityTimerUplinkDCH384 (Inactivity timer for uplink 384kbps 8 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en DCH) 301 4.11.27.7 InactivityTimerUplinkDCH64 (Inactivity timer for uplink 64kbps DCH) 302 4.11.27.8 InactivityTimerUplinkDCH8 (Inactivity timer for uplink 8kbps DCH) 303 4.11.28 IuList (Core Network (Iu interface) list) 304 4.11.28.1 IuDATree (Iu-CS Digit analysis tree) 305 4.11.28.2 IuItem (Iu item information) 306 4.11.28.3 TRelocOverall (T RelocOverall) 320 4.11.28.4 TRelocPrep (T RelocPrep) 321 4.11.29 IuRelComWaitNoRABs (Time supervision for inactive signaling connection towards the PS-CN) 322 4.11.30 IubDATree (Iub Digit analysis tree) 324 4.11.31 IurList (Neighbour RNC (Iur interface) list) 325 4.11.31.1 IurDATree (Iur Digit analysis tree) 326 4.11.31.2 IurItem (Iur item information) 327 4.11.32 LimitedPowerIncrease (Limited Power Increase) 332 4.11.33 LowerRxTxTimeDiff (Lower Rx-Tx TD Threshold) 333 4.11.34 LowerULAMRmodeCM (Compressed Mode: Lower uplink AMR mode) 334 4.11.35 MaxCellReselections (Max cell reselections) 335 4.11.36 MaxHeaderPDCP (Max Header for PDCP) 336 4.11.37 MinDLAMRmodeCM (Compressed Mode: Minimum allowed downlink AMR mode) 337 4.11.38 N300 (N300) 338 4.11.39 N302 (N302) 339 4.11.40 N304 (N304) 340 4.11.41 N308 (N308) 341 4.11.42 NonTCPspacePDCP (Non-TCP Space for PDCP ) 342 4.11.43 PCrangeDL (Radio link downlink power control range) 343 4.11.44 PowerControlAlgorithm (Power control algorithm for combining downlink TPC commands) 344 4.11.45 PowerMarginCMcodeHalving (Compressed Mode: Power margin for halving the spreading code) 345 4.11.46 PrxNoiseMaxTuneAbsolute (Absolute limit in uplink noise autotuning) 346 4.11.47 RANAPprocInitWait (RANAP initiation timer) 347 4.11.48 RNCName (RNC name) 349 4.11.49 RNCTimeStamp (Time stamp) 349 4.11.49.1 RNCDay (Time stamp day) 350 4.11.49.2 RNCHours (Time stamp hours) 351 4.11.49.3 RNCHundreths (Time stamp hundredths of seconds) 352 4.11.49.4 RNCMinutes (Time stamp minutes) 353 4.11.49.5 RNCMonth (Time stamp month) 354 4.11.49.6 RNCSeconds (Time stamp seconds) 354 4.11.49.7 RNCYear (Time stamp year) 355 4.11.50 RNCcongNumberofReAttempts (Re-attempts to hunt resources) 356 4.11.51 RTservicesForPS (PS domain RT service) 357 4.11.52 SIB11_priority (Priority for SIB11) 358 4.11.53 SIB12_priority (Priority for SIB12) 359 4.11.54 SIB18_priority (Priority for SIB18) 359 4.11.55 SIB1_priority (Priority for SIB1) 360 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 9 (756) WCDMA RAN Parameters 4.11.56 4.11.57 4.11.58 4.11.59 4.11.60 4.11.61 4.11.62 4.11.63 4.11.64 4.11.65 4.11.66 4.11.67 4.11.68 4.11.69 4.11.70 4.11.71 4.11.72 4.11.73 4.11.74 4.11.75 4.11.76 4.11.77 4.11.78 4.11.79 4.11.80 4.11.81 4.11.82 4.11.83 4.11.84 4.11.85 4.11.86 4.11.87 4.11.88 SIB2_priority (Priority for SIB2) 361 SIB3_priority (Priority for SIB3) 362 SIB5_priority (Priority for SIB5) 363 SIB7_priority (Priority for SIB7) 364 SignallingLinkInactivityTimer (Signalling link inactivity timer) 365 StandAloneDCCHBitRate (Signalling radio bearer bit rate at RRC connection establishment) 366 T300 (T300) 367 T302 (T302) 368 T304 (T304) 369 T305 (T305) 370 T307 (T307) 371 T308 (T308) 372 T309 (T309) 373 T316 (T316) 374 T317 (T317) 375 TCPspacePDCP (TCP Space for PDCP ) 376 TGPLdoubleframeAMRgsm (Transmision gap pattern length in case of double frame: AMR service and GSM measurement) 377 TGPLdoubleframeAMRinterFreq (Transmision gap pattern length in case of double frame: AMR service and IF measurement) 379 TGPLdoubleframeNRTPSgsm (Transmision gap pattern length in case of double frame: NRT PS service and GSM measurement) 380 TGPLdoubleframeNRTPSinterFreq (Transmision gap pattern length in case of double frame: NRT PS service and IF measurement) 381 TGPLsingleframeAMRgsm (Transmision gap pattern length in case of single frame: AMR service and GSM measurement) 383 TGPLsingleframeAMRinterFreq (Transmision gap pattern length in case of single frame: AMR service and IF measurement) 384 TGPLsingleframeCSgsm (Transmision gap pattern length in case of single frame: CS service and GSM measurement) 385 TGPLsingleframeCSinterFreq (Transmision gap pattern length in case of single frame: CS service and IF measurement) 387 TGPLsingleframeNRTPSgsm (Transmision gap pattern length in case of single frame: NRT PS service and GSM measurement) 388 TGPLsingleframeNRTPSinterFreq (Transmision gap pattern length in case of single frame: NRT PS service and IF measurement) 389 TGPLsingleframeRTPSgsm (Transmision gap pattern length in case of single frame: RT PS service and GSM measurement) 391 TGPLsingleframeRTPSinterFreq (Transmision gap pattern length in case of single frame: RT PS service and IF measurement) 392 ToAWE_CCH (Time of Arrival Window Endpoint for common channels) 393 ToAWE_NRT_DCH_tti10 (Time of Arrival Window Endpoint for NRT DCH (TTI 10)) 394 ToAWE_NRT_DCH_tti20 (Time of Arrival Window Endpoint for NRT DCH (TTI 20)) 395 ToAWE_NRT_DCH_tti40 (Time of Arrival Window Endpoint for NRT DCH (TTI 40)) 396 ToAWE_RT_DCH_tti10 (Time of Arrival Window Endpoint for RT DCH (TTI 10)) 397 10 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ToAWE_RT_DCH_tti20 (Time of Arrival Window Endpoint for RT DCH (TTI 20)) 398 4.11.90 ToAWE_RT_DCH_tti40 (Time of Arrival Window Endpoint for RT DCH (TTI 40)) 399 4.11.91 ToAWE_Speech (Time of Arrival Window Endpoint for speech services) 400 4.11.92 ToAWS_CCH (Time of Arrival Window Startpoint for common channels) 401 4.11.93 ToAWS_NRT_DCH_tti10 (Time of Arrival Window Startpoint for NRT DCH (TTI 10)) 402 4.11.94 ToAWS_NRT_DCH_tti20 (Time of Arrival Window Startpoint for NRT DCH (TTI 20)) 403 4.11.95 ToAWS_NRT_DCH_tti40 (Time of Arrival Window Startpoint for NRT DCH (TTI 40)) 404 4.11.96 ToAWS_RT_DCH_tti10 (Time of Arrival Window Startpoint for RT DCH (TTI 10)) 405 4.11.97 ToAWS_RT_DCH_tti20 (Time of Arrival Window Startpoint for RT DCH (TTI 20)) 406 4.11.98 ToAWS_RT_DCH_tti40 (Time of Arrival Window Startpoint for RT DCH (TTI 40)) 407 4.11.99 ToAWS_Speech (Time of Arrival Window Startpoint for speech services) 408 4.11.100 TrafVolPendingTimeDL (Downlink traffic volume measurement pending time after trigger) 409 4.11.101 TrafVolPendingTimeUL (Uplink traffic volume measurement pending time after trigger) 410 4.11.102 TrafVolThresholdDLHigh (Downlink traffic volume measurement high threshold) 412 4.11.103 TrafVolThresholdULHigh (Uplink traffic volume measurement high threshold) 413 4.11.104 TrafVolTimeToTriggerDL (Downlink traffic volume measurement time to trigger) 414 4.11.105 TrafVolTimeToTriggerUL (Uplink traffic volume measurement time to trigger) 416 4.11.106 ULQualDetRepThreshold (UL quality deterioration reporting threshold) 417 4.11.107 UL_DL_activation_timer (UL/DL activation timer) 418 4.11.108 ULpuncturingLimit (Uplink puncturing limit ) 419 4.11.109 UTRANorigPagingRep (UTRAN originated paging repetition) 421 4.11.110 UTRANorigPagingRepInterv (UTRAN originated paging repetition interval ) 422 4.11.111 UlScrCodeMax (Uplink scrambling code maximum value) 423 4.11.112 UlScrCodeMin (Uplink scrambling code minimum value) 424 4.11.113 UpLinkInitialTransmitPowerMode (Initial transmit power in uplink compressed mode) 425 4.11.114 UpLinkRecoveryPeriodPowerMode (Recovery Period Power in UL Compressed Mode) 426 4.11.115 UpperRxTxTimeDiff (Upper Rx-Tx TD Threshold) 427 4.11.116 WaitTimeRRC (Wait time in RRC connection request rejection) 428 4.11.116.1 WaitTimeRRCbackground (RRC wait time for background causes ) 429 4.11.89 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 11 (756) WCDMA RAN Parameters 4.11.116.2 WaitTimeRRCconversational (RRC wait time for conversational causes ) 430 4.11.116.3 WaitTimeRRCemergency (RRC wait time for emergency causes ) 431 4.11.116.4 WaitTimeRRChighPrioritySignalling (RRC wait time for high priority signalling causes ) 432 4.11.116.5 WaitTimeRRCinterRATreselection (RRC wait time for inter-RAT reselection causes ) 433 4.11.116.6 WaitTimeRRCinteractive (RRC wait time for interactive causes ) 434 4.11.116.7 WaitTimeRRClowPrioritySignalling (RRC wait time for low priority signalling causes ) 435 4.11.116.8 WaitTimeRRCother (RRC wait time for other causes ) 436 4.11.116.9 WaitTimeRRCregistration (RRC wait time for registration causes ) 437 4.11.116.10 WaitTimeRRCstreaming (RRC wait time for streaming causes ) 438 4.11.116.11 WaitTimeRRCsubscribed (RRC wait time for subscribed causes ) 439 4.11.116.12 WaitTimeRRCunknown (RRC wait time for unknown causes ) 440 4.12 WBTS Parameters 441 4.12.1 ATMInterfaceID (ATM interface identifier) 441 4.12.2 COCOId (Connection Configuration Identifier) 442 4.12.3 LoadControlPeriodPS (PS load control period) 443 4.12.4 PSAveragingWindowSize (Load measurement averaging window size for packet scheduling) 444 4.12.5 PrxAlpha (Type of measurement filter for uplink total received power) 445 4.12.6 PrxMeasAveWindow (Number of frames to be used averaging in PrxTotal measurement) 446 4.12.7 PtxAlpha (Type of measurement filter for downlink total transmitted power) 447 4.12.8 PtxDPCHmax (DPCH downlink transmission power maximum value) 448 4.12.9 PtxDPCHmin (DPCH downlink transmission power minimum value) 449 4.12.10 PtxMeasAveWindow (Number of frames to be used averaging in PtxTotal measurement) 450 4.12.11 RACHloadIndicationPeriod (RACH load indication period) 451 4.12.12 RLMeasRepPeriod (Radio link measurement reporting period) 452 4.12.13 RRIndPeriod (Radio Resource Indication Period) 453 4.12.14 SchedulingPeriod (Scheduling period) 454 4.12.15 VCI (Virtual Channel Identifier) 455 4.12.16 VPI (Virtual Path Identifier) 456 4.12.17 WBTSId (WBTS Identifier) 457 4.12.18 WBTSName (WCDMA BTS name) 457 4.12.19 WBTSTimeStamp (Time stamp) 458 4.12.19.1 WBTSDay (Time stamp day) 459 4.12.19.2 WBTSHours (Time stamp hours) 460 4.12.19.3 WBTSHundreths (Time stamp hundredths of seconds) 461 4.12.19.4 WBTSMinutes (Time stamp minutes) 462 4.12.19.5 WBTSMonth (Time stamp month) 463 4.12.19.6 WBTSSeconds (Time stamp seconds) 464 4.12.19.7 WBTSYear (Time stamp year) 465 4.12.20 WinACRABsetupDL (DL measurement averaging window for AC) 466 4.12.21 WinACRABsetupUL (UL measurement averaging window for AC) 467 12 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en 4.12.22 4.12.23 4.13 4.13.1 4.13.2 4.13.3 4.13.4 4.13.5 4.13.6 4.13.7 4.13.8 4.13.9 4.13.10 4.13.11 4.13.12 4.13.13 4.13.14 4.13.15 4.13.16 4.13.17 4.13.18 4.13.19 4.13.20 4.13.21 4.13.22 4.13.23 4.13.24 4.13.25 4.13.26 4.13.27 4.13.28 4.13.29 4.13.30 4.13.31 4.13.32 4.13.33 4.13.34 4.13.35 WinRACHnormalLoadBS (Window for RACH normal load measurement ) 468 WinRACHoverLoadBS (Window for RACH overload measurement ) 469 WCEL Parameters 470 ACBarredList (Access Class Barred list) 470 AICHTraTime (AICH Transmission Timing) 472 AMRModeDL (AMR mode downlink) 473 AMRModeUL (AMR mode uplink) 474 AdminCellState (Administrative Cell State) 475 AllowedPreambleSignatures (Allowed preamble signatures) 476 AllowedRACHSubChannels (Allowed RACH subchannels) 477 AltScramblingCodeCM (Compressed Mode: Alternative scrambling code) 478 CId (Cell identifier) 479 CPICHtoRefRABoffset (Offset of the P-CPICH and reference service powers) 480 CableLoss (Cable Loss) 481 CellBarred (Cell Barred) 482 CellRange (Cell range) 483 Cell_Reserved (Cell Reserved for operator use) 484 CodeTreeOptTimer (Code tree optimisation timer) 485 CodeTreeOptimisation (Code tree optimisation) 486 CodeTreeUsage (Code Tree Usage) 487 DLreferenceBitRate (Downlink bit rate of the reference service) 488 DLreferenceTargetBLER (Downlink BLER target of the reference service) 489 DRRCprxMargin (Prx Margin for DRRC) 490 DRRCprxOffset (Prx Offset for DRRC) 491 DRRCptxMargin (Ptx Margin for DRRC) 492 DRRCptxOffset (Ptx Offset for DRRC) 493 DeltaPrxMaxDown (Maximum uplink power decrease in packet scheduling) 494 DeltaPrxMaxUp (Maximum uplink power increase in packet scheduling) 495 DeltaPtxMaxDown (Maximum downlink power decrease in packet scheduling) 496 DeltaPtxMaxUp (Maximum downlink power increase in packet scheduling) 497 EbNoSetIdentifier (Eb/No parameter set identifier ) 498 FachDataAllowedTotal (Maximum allowed total data amount on FACH) 499 FachLoadMarginCCH (Margin for FACH load for downlink channel type selection) 500 FachLoadThresholdCCH (Threshold for FACH load for downlink channel type selection) 501 HCS_PRIO (HCS priority level for a cell) 502 HHoMaxAllowedBitrateDL (Maximum Allowed DL User Bitrate in HHO) 503 HHoMaxAllowedBitrateUL (Maximum Allowed UL User Bitrate in HHO) 504 IntraFreq_Cell_Reselect_Ind (Intra-frequency cell re-selection DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 13 (756) WCDMA RAN Parameters indicator) 505 LAC (Location area code) 506 LcrId (Local cell resource identifier) 508 MHA (MHA used) 509 MaxBitRateDLPSNRT (Maximum downlink bit rate for PS domain NRT data ) 510 4.13.40 MaxBitRateULPSNRT (Maximum uplink bit rate for PS domain NRT data ) 511 4.13.41 MaxCodeReleases (Max Code Releases) 512 4.13.42 MaxNumbUECMcoverHO (Compressed Mode: Maximum number of UEs) 512 4.13.43 MinAllowedBitRateDL (Initial and minimum allowed bit rate in downlink) 513 4.13.44 MinAllowedBitRateUL (Initial and minimum allowed bit rate in uplink) 514 4.13.45 N312 (N312) 516 4.13.46 N313 (N313) 517 4.13.47 N315 (N315) 518 4.13.48 NASsignVolThrDL (Downlink NAS signalling volume threshold) 519 4.13.49 NASsignVolThrUL (Uplink NAS signalling volume threshold) 521 4.13.50 NCr (Maximum number of cell reselections) 522 4.13.51 NbrOfSCCPCHs (Number of SCCPCHs) 524 4.13.52 NrtFmcgIdentifier (NRT FMCG Identifier) 525 4.13.53 NrtFmciIdentifier (NRT FMCI Identifier) 525 4.13.54 NrtFmcsIdentifier (NRT FMCS Identifier) 526 4.13.55 PI_amount (Number of PI per frame) 527 4.13.56 PRACHRequiredReceivedCI (Required received C/I on PRACH at WCDMA BTS) 528 4.13.57 PRACHScramblingCode (PRACH scrambling code) 529 4.13.58 PRACH_preamble_retrans (PRACH Preamble Retrans Max) 530 4.13.59 PTxPICH (Transmission power of the PICH channel) 531 4.13.60 PowerOffsetLastPreamblePRACHmessage (Power offset last preamble and PRACH message) 532 4.13.61 PowerOffsetSCCPCHTFCI (Power offset for S-CCPCH TFCI) 533 4.13.61.1 PO1_15 (Power offset for SCCPCH TFCI (15 ksps)) 534 4.13.61.2 PO1_30 (Power offset for SCCPCH TFCI (30 ksps)) 535 4.13.61.3 PO1_60 (Power offset for SCCPCH TFCI (60 ksps)) 536 4.13.62 PowerRampStepPRACHpreamble (Power ramp step on PRACH preamble) 537 4.13.63 PriScrCode (Primary downlink scrambling code) 538 4.13.64 PrxNoise (Uplink noise level ) 539 4.13.65 PrxNoiseAutotuning (PrxNoise autotuning allowed) 540 4.13.66 PrxOffset (Offset for received power) 541 4.13.67 PrxTarget (Target for received power) 542 4.13.68 PtxAICH (Transmission power of the AICH channel) 543 4.13.69 PtxDLabsMax (Planned maximum downlink transmission power of a radio link) 544 4.13.70 PtxMarginCCH (Margin for total downlink transmission power for downlink channel type selection) 545 4.13.71 PtxOffset (Offset for transmitted power) 546 4.13.72 PtxPrimaryCCPCH (Transmission power of the primary CCPCH channel) 547 4.13.36 4.13.37 4.13.38 4.13.39 14 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en 4.13.73 4.13.74 4.13.75 4.13.76 4.13.77 4.13.78 4.13.79 4.13.80 4.13.81 4.13.82 4.13.83 4.13.84 4.13.85 4.13.86 4.13.87 4.13.88 4.13.89 4.13.90 4.13.91 4.13.92 4.13.93 4.13.94 4.13.95 4.13.96 4.13.97 4.13.98 4.13.99 4.13.100 4.13.100.1 4.13.100.2 4.13.100.3 4.13.100.4 4.13.100.5 4.13.100.6 4.13.101 4.13.102 4.13.103 4.13.104 4.13.105 4.13.106 4.13.107 4.13.108 4.13.109 PtxPrimaryCPICH (Transmission power of the primary CPICH channel) 548 PtxPrimarySCH (Transmission power of the primary SCH channel) 549 PtxSCCPCH1 (Transmission power of the first Secondary CCPCH channel) 550 PtxSCCPCH2 (Transmission power of the second Secondary CCPCH channel) 552 PtxSecSCH (Transmission power of the secondary SCH channel) 553 PtxTarget (Target for transmitted power ) 554 PtxThresholdCCH (Threshold for total downlink transmission power for downlink channel type selection) 555 QHCS (Quality threshold level for HCS) 556 Qhyst1 (Cell reselection hysteresis 1) 557 Qhyst2 (Cell reselection hysteresis 2) 558 QqualMin (Minimum required quality level in the cell) 559 QrxlevMin (Minimum required RX level in the cell) 560 RAC (Routing Area Code) 561 RACHCapacity (RACH Capacity) 562 RACH_Tx_NB01max (RACH random back-off upper bound) 563 RACH_Tx_NB01min (RACH random back-off lower bound) 565 RACH_tx_Max (RACH maximum number of preamble cycles) 566 RACHnormalLoadBS (Normal load RACH threshold) 567 RACHoverLoadBS (Overload RACH threshold) 568 RachLoadMarginCCH (Margin for RACH load for downlink channel type selection) 569 RachLoadThresholdCCH (Threshold for RACH load for downlink channel type selection) 570 RelocComm_in_InterRNC_HHO (Usage of Relocation Commit procedure in inter RNC HHO) 571 RtFmcgIdentifier (RT FMCG Identifier) 572 RtFmciIdentifier (RT FMCI Identifier) 573 RtFmcsIdentifier (RT FMCS Identifier) 573 SAC (Service Area Code) 574 SHCS_RAT (Threshold for inter-RAT measurement rules in HCS) 575 SIB3CompmaskInfo (List of Compmasks in System Information Block 3) 576 SIB3Compmask1 (System Information Block 3 Compmask 1) 577 SIB3Compmask2 (System Information Block 3 Compmask 2) 579 SIB3Compmask3 (System Information Block 3 Compmask 3) 581 SIB3Compmask4 (System Information Block 3 Compmask 4) 582 SIB3Compmask5 (System Information Block 3 Compmask 5) 583 SIB3Compmask6 (System Information Block 3 Compmask 6) 584 SIB7factor (SIB7 expiration time factor) 585 SectorID (Sector Identifier) 586 ShutdownStepAmount (Shutdown step amount) 587 ShutdownWindow (Shutdown window) 588 Sintersearch (S intersearch) 588 Sintrasearch (S intrasearch) 589 Slimit_SearchRAT (S limit,SearchRAT) 591 SsearchHCS (S searchHCS) 592 Ssearch_RAT (S searchRAT) 593 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 15 (756) 116 4.1 5.111 4.13.1.1.14 5.126.13.13.5 4.119 4.13.6 5.117 4.1.1.1 4.13.127 5 5.1 4.112 4.4 5.7 5.126.1.16 5.1.1.122 4.114 4.13.13.126.13.13.15 5.13.1 5.115 4.2 5.3 4.113 4.13.13.13.13.125 4.124 4.13.126 4.123 4.9 5.13.1.5 5.10 5.13.123.1.13.13.13.120 4.11 5.1.13.1.17 T312 (T312) 594 T313 (T313) 595 T315 (T315) 596 TBarred (Cell barred period) 597 TCrmax (Evaluating period for amount of cell reselections ) 598 TCrmaxHyst (Hysteresis to revert from UE high-mobility measurements) 599 Tcell (Frame timing offset of a cell) 601 TrafVolThresholdDLLow (Downlink traffic volume measurement low threshold) 602 TrafVolThresholdULLow (Uplink traffic volume measurement low threshold) 603 Treselection (Cell reselection triggering time) 604 UARFCN (UARFCN) 605 UEtxPowerMaxDPCH (Maximum UE transmission power on DPCH ) 606 UEtxPowerMaxPRACH (Maximum UE transmission power on PRACH) 607 URAIdList (List of URA identities) 608 URAId (URA identity) 609 UTRAN_DRX_length (UTRAN DRX cycle length) 610 UseOfHCS (Use of HCS) 611 WCELTimeStamp (Time stamp) 613 WCELDay (Time stamp day) 614 WCELHours (Time stamp hours) 614 WCELHundreths (Time stamp hundredths of seconds) 615 WCELMinutes (Time stamp minutes) 616 WCELMonth (Time stamp month) 617 WCELSeconds (Time stamp seconds) 618 WCELYear (Time stamp year) 619 WCelState (WCDMA Cell Operational State) 620 MSC parameters 623 LA Parameters 623 Address 623 Allowed MNC In National Roaming 624 Emergency Priority 624 Handover Priority 625 LA ID 626 Identical LAC Switch 627 LAC 628 MCC 628 MNC 629 Mobile Station Roaming Number Group 630 Name 630 Ordinary Priority 631 NW Name 632 Prohibited MS Power Classes 1 632 Prohibited MS Power Classes 2 633 Re-establishment Priority 634 Repaging Attempts 635 16 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters 4.121 4.4 4.6 4.13 5.1.7 4.1.118 4.13.13.2 4.13.1.1.126.126.3 5.12 5.126.13.1.13.1.126.8 5.110 4. 3.10 5.5 5.1.3.7 5.3.6 5.3.3.4 5.2.3.3.20 5.3.3.26 5.2 5.5.3.3.22 5.1 5.2.29 5.2.3.2 5.2.1 5.2.2.2.3.5 5.2.17 5.19 5.3.3.2.3.14 5.3.16 5.8 5.3.3.2.10 5.8 5.3.3 5.3 5.11 5.21 5.27 5.23 5.2.19 5.3.13 5.2.28 5.3.25 5.2.3.9 5.24 5.16 5.18 5.2 5.6 5.3.3 5.18 5.3.9 5.15 5.4 5.7 5.30 Repaging Interval 635 Default Service Area Code 636 MGWM Parameters 637 Address 637 Administrative State 637 BSSAP Subsystem Number 638 Cell Identification Method 639 MGWM ID 639 Name 640 Not Applicable ( No Pool ) 640 NW Name 641 MGW Operational State 642 Paging Method 643 Priority Assigment Function 643 RNC ID List 644 Service Area List 645 Signalling Network Code 645 Signalling Point Code 646 Traffic Limitation 647 BSSAP Version 648 MSA Parameters 649 Address 649 Administrative State 649 Frequency Band 650 Cell Based QOS for LCS (CQOS) 651 Cell Dependent Routing 651 Cell Test State 652 Charging Area Code 653 ESRK Range Index 654 ESRK Usage 654 Full Rate Traffic Channel Max Count 655 Half Rate Traffic Channel Max Count 656 MSA ID 657 Internal Network Number Indicator 658 Local Area Dialling Code 658 LAC 659 Location Number 660 MGWM ID In MSC 661 MCC 662 MNC 662 Name 663 No NCAS Support 664 Number Presentation Status 664 Number Screening Status 665 Numbering Plan Indentification 666 NW Name 667 Parameter Set (PSET) 667 Position Determination Timers 668 Routing Zone ID 669 Tariff Area 669 Type Of Location Number 670 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 17 (756) .12 5.1.3.2.15 5.3.2.14 5.3.12 5.3.13 5.11 5.17 5.2.2.3. 1 7.3 7.1 6.10 5.2 7.1 7.2 7.18 5.9 5.3 5.1 7.4.3.4.19 5.4 6.3.1 6.8 5.4.4 5.4.2 7.2 7.4.1 5.2 non-network and redefined network parameters 695 ADJG parameters 695 Mobile Country Code 695 Mobile Network Code 696 Target Cell DN 697 ADJI parameters 698 Mobile Country Code 698 Mobile Network Code 699 Target Cell DN 700 ADJS parameters 701 Mobile Country Code 701 Mobile Network Code 702 Target Cell DN 703 ANTE parameters 704 Antenna bearing 704 Antenna tilt 705 Antenna type name 706 18 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .2.4.17 5.1 6.1 6.2 6.2 7 7.2 6.13 5.4.1 7.4.12 5.15 5.3 7.11 5.1 7.4.4.4.1.4.3 7.7 5.WCDMA RAN Parameters 5.4.4.4.2.16 5.2 5.3 6.4.4.2.2.1.3 NWLA Parameters 671 Address 671 Call Tracing Allowed 672 Cell Identification Method 672 NWLA ID 673 Identical LAC Switch 674 Inter MSC Handover Allowed 675 MCC 675 MNC 676 MSC ISDN Number 677 MSC Signalling Network Code 677 MSC Signalling Point Code 678 Name 679 Nature Of MSC Address 680 Nature Of VLR Address 680 NW Name 681 Version Of BSSAP 682 VLR Inquiry Allowed 683 VLR ISDN Number 683 VLR Signalling Network Code 684 VLR Signalling Point Code 685 3GPP parameters 687 How to read 3GPP parameter tables 687 OMC parameters 688 User Defined Network Type 688 User Defined State 689 RNC parameters 690 Managed By 690 User Defined State 691 WBTS parameters 692 Managed By 692 User Defined State 693 RAC2.2 6.20 6 6.4.3.2.4.3.4 5.4.4.5 5.3 7.4.6 5.14 5.4.2 7.4.4 7.1.3.4. 5.6.8.4.5 7.7 7.8 7.8 7.9.12 7.5.9.7.7 7.5 7.5.14 7.6.4 7.1 7.1 7.4.10 7.9.2 7.5.2 7.7.4 7.6 7.13 7.7.2 7.7.4 7.5.9.4 7.5.8 7.5.5.2 7.4.6.5.2 7.5.5.5 7.3 7.6 7.3 7.5.7.1 7.8 Correction Factor 706 Ground Height 707 Height 708 Latitude 709 Longitude 710 Name 711 Notes 711 Technology 712 EWCE parameters 713 Cell Identifier 713 External WCDMA Cell Identifier 714 Local Cell Resource Identifier 715 Location Area Code 716 Maximum UE Transmission Power on DPCH 717 Maximum UE Transmission Power on RACH 718 Mobile Country Code 719 Mobile Network Code 720 Name 721 Primary Downlink Scrambling Code 722 RNC Identifier 723 Routing Area Code 724 Service Area Code 725 SITE ID 726 Transmission Power Of The Primary CPICH Channel 727 Uarfcn Dl 728 Uarfcn Ul 729 WBTS Identifier 730 RNC parameters 731 Mobile Country Code 731 Mobile Network Code 732 Name 733 SITE ID 734 SITE parameters 735 SITE ID 735 Name 736 Address 737 Latitude 738 Longitude 739 Ground height 740 WBTS parameters 741 Name 741 SITE ID 742 WCAL parameters 743 Feeder Length 743 Feeder Loss 744 Feeder Loss Per Metre 745 Feeder Type 745 Linked Cell DN 746 Mast Head Amplifier 747 Mast Head Amplifier Gain 748 Mast Head Amplifier Noise 749 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 19 (756) .6 7.9.4.9 7.9.3 7.11 7.9 7.5.11 7.4.5.9.3 7.15 7.10 7.17 7.4.4 7.4.5 7.1 7.7.6 7.4.8.5.16 7.7.9.7 7.5.6 7.5.6.1 7.7 7.5 7.5.18 7.9 7. 12 7.9.9.9 7.13 7.9.9.10 7.1 Mast Head Amplifier Type 750 Name 750 Receiver Diversity 751 Receiver Diversity Type 752 Transmitter diversity 753 Transmitter Diversity Type 754 WCEL parameters 755 Name 755 20 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .11 7.9.14 7.10.9.10 7.WCDMA RAN Parameters 7. which can be set via plan planning and management system parameters RNC parameters are the parameters implemented in the network. implementation and roll-out. RNC parameters can be modified using plans that are created in planning systems. although a part of it is the same as the NetAct Planner to RAC interface. The management system parameters are auxiliary parameters that are not sent to the network.About this document 1 1. From the network management point of view. the parameters can be divided into the following categories: • • RNC parameters.1 About this document WCDMA RAN Parameters is a reference document for those involved in network planning. Each parameter table contains information on which interfaces the parameter is transferred. but are used in the network planning process. and exported to be implemented to the network with Radio Access Configurator tools interfacing the network. and engineering support. Interfaces This document describes the public interface of RAC. DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 21 (756) . configuration management. for example the WCEL Cell Name parameter. imported to Plan Editor for completion. WCEL. Parameter categories Parameters included RNC. HOPS. ADJI.g Name Parameter category RNC/plan Interface description NetAct Configurator to RNC planning and management system parameters NetAct Planner to NetAct Configurator For more information on the XML interface. WBTS. This document lists UI values for parameters and a formula for calculating the corresponding internal value.2 Parameter values Internal parameter values are used in plan files. FMCS. and COCO parameters e. it should be presented as twos complement in a plan. if value >= 128 Enumerated values for WCEL AdminCellState • • 0 = Locked 1 = Unlocked 22 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . HOPG. FMCG. If an internal value is negative. PtxTarget Twos complement conversion for 16 bit integer values: • • to RNC = value + 65536. When converting UI values given in this document to internal values. if value >= 32768 Example parameters (8 bit): UEtxPowerMaxDPCH.65536. if value < 0 from RNC = value . if value < 0 from RNC = value . refer to XML Interface for Radio Access Planning Data.256. ADJG. Example parameters (16 bit): PtxPrimaryCCPCH. UEtxPowerMaxPRACH Twos complement conversion for 8 bit integer values: • • to RNC = value + 256.WCDMA RAN Parameters Table 1. note that the negative values cannot appear as such in a plan file for RNC. 1. HOPI. FMCI. ADJS. that is. and Mobile Network Code Length. Structure example Lists are special cases of a structure and the same rules apply. An example structure is shown below: <PLMNid class=”PARAM_GROUP”> <MCC>262</MCC> <MNC>3</MNC> <MNCLength>2</MNCLength> </PLMNid> Figure 1. This example is for WCEL URAId <URAIdList class =”PARAM_GROUP”> <URAId>1</URAId> <URAId>5</URAId> </URAIdList> Figure 2. For example. the parameters within a structure are listed under the corresponding structure.) The entire structure must be included in the plan when you change any value in the structure. (If you use Plan Editor. the structures are automatically added to the file. the other parameters must be listed as well.1 * internal value Scaled and shifted values for WCEL QrxlevMin • User interface value = 2 * internal value + 1 1. PLMN Identity is a structure that contains the following parameters: Mobile Country Code.About this document Scaled values for WCEL CPICHtoRefRABoffset • User interface value = 0.3 Structures In addition to parameters. even if they are not changed. In this document. this document also contains parameter structures that are mainly meant for grouping parameters. Mobile Network Code. all the list items must be included when you change the structure. that is. List example DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 23 (756) . WCDMA RAN Parameters 1. Entry How to read parameter tables Description The user interface name for the parameter The parameter name used in radio network plan files (XML) The used parameter name in 3GPP specifications The multiplicity of the parameter Describes the purpose of the parameter and includes extra information on the parameter References (if any) to 3GPP specifications The object for which the parameter is defined The functional group into which the parameter belongs to There are the following parameter groups: • • • • • • • ACConfiguration = Parameter is part of Admission Control related parameter group HCConfiguration = Parameter is part of Handover Control related parameter group PCConfiguration = Parameter is part of Power Control related parameter group PSParameters = Parameter is part of Packet Scheduler related parameter group LCConfiguration = Parameter is part of Load Control related parameter group Identification = Parameter is part of Identification related parameter group <no group> = Parameter is not part of any of the groups listed above Parameter name Abbreviated name 3GPP name Multiplicity Description References Managed object Parameter group Range and step Formula for getting internal value Default value Default value notes Related functions The user interface value range for the parameter The formula for calculating the system internal value (ASN. Nokia specified default value Additional information (if any) on the default value Radio network related functions (in addition to the main function) of the parameter 24 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .4 How to read parameter tables Table 2.1 value) which is used in radio network plan files. Cell shutdown needed = The modification automatically starts the cell shutdown procedure in BTS. After the cell power is dropped to zero. BTS drops the cell power stepwise down. which means that all UEs are forced to make cell reselection or handover to the neighbour cells. the cell is restarted by BTS to take modification to effect.About this document Table 2. Entry Modification How to read parameter tables (Continued) Description Online = The parameter value can be changed without any disturbance to ongoing calls. Requires object locking = The managed object must be locked by the user before modification is possible. Information on user interface applications and MML commands that are used to set the parameter Interface Location in GUI and MML commands DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 25 (756) . Not modifiable = The parameter value can be modified only through recreation of the managed object. Related parameters Parameter relationships Other parameters that affect the parameter Describes the dependencies between the parameter and the related parameters See the section Interfaces above. WCDMA RAN Parameters 26 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . see Changes in NetAct Documentation. This document is compatible with the latest release of NetAct and covers the necessary release specific updates. DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 27 (756) . Note If you are using a PDF print-out of this document and also need the change information. please print out the Changes in NetAct Documentation (dn03511086) document. For information on the release specific changes in this document and the related software changes.Changes in NetAct documentation 2 Changes in NetAct documentation The information in this document relates to OSS3 releases and deliveries. WCDMA RAN Parameters 28 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . see the NetAct Compatibility and Capacity Information document.NetAct compatibility and capacity information 3 NetAct compatibility and capacity information For information on the NetAct system and capacity. DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 29 (756) . and the compatibility between NetAct and network element releases. WCDMA RAN Parameters 30 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Inter-system adjacency identifier Inter-system adjacency identifier ADJGId ADJG Identification 1 Identification of inter-system adjacency (GSM) within a WCDMA cell.RAN Parameters 4 4. 0.1 4..1 RAN Parameters ADJG Parameters ADJGId (Inter-system adjacency identifier) Table 3. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable - • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 31 (756) .31 .1.. 331. Base Station Colour Code Base Station Colour Code AdjgBCC ADJG HCConfiguration 1 Base Station Identity Code (BSIC) is composed of Network Colour Code (NCC) and Base Station Colour Code (BCC). 0.1.. Mobile Device Control On-Line AdjgNCC of ADJG • • • RNC to UE RAC to RNC EM to RNC 3GPP Reference: TS 25.1.7 .3 AdjgBCCH (BCCH ARFCN) Table 5. BCCH ARFCN BCCH ARFCN AdjgBCCH ADJG HCConfiguration Parameter name: Abbreviated name: Managed object: Parameter group: 32 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..WCDMA RAN Parameters 4. RRC Protocol Specification References: • 4.2 AdjgBCC (Base Station Colour Code) Table 4. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control. 251 GSM 900: 1 .....RAN Parameters Table 5.331.. Multiplicity: Description: BCCH ARFCN (Continued) 1 Contains the absolute RF channel number of the Broadcast Control Channel (BCCH) of the GSM neighbour cell. 340 GSM 850: 128 . RRC Protocol Specification References: • 4.4 AdjgBandIndicator (Band Indicator) Table 6... 293 GSM 480: 306 ... GSM 450: 259 ..1.. 124 GSM 900E: 975 .1023 . 1023 and 0 GSM 1800: 512 . 885 GSM 1900: 512 ... Mobile Device Control On-Line AdjgBandIndicator of ADJG • • • RNC to UE RAC to RNC EM to RNC 3GPP Reference: TS 25. step 1 internal_value = gui_value Handover Control. 810 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. Band Indicator Band Indicator AdjgBandIndicator ADJG HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 33 (756) .... which is composed of the PLMN Identifier. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value - 34 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Description: Band Indicator (Continued) This parameter indicates how to interpret the value of the parameter AdjgBCCH.65535 . 0 (GSM 450/480/850/900/900E/1800 band used). RRC Protocol Specification References: • 4. 1 (GSM 1900 band used) • • GSM 450/480/850/900/900E/1800 band used: internal_value = 0 GSM 1900 band used: internal_value = 1 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Mobile Device Control.1.WCDMA RAN Parameters Table 6.. Handover Control Not modifiable AdjgBCCH of ADJG • • • RNC to UE RAC to RNC EM to RNC 3GPP Reference: TS 25.331.5 AdjgCI (Cell Identifier) Table 7. Cell Identifier Cell Identifier AdjgCI ADJG HCConfiguration 1 A GSM neighbour cell is identified with the Cell Global Identifier (CGI). Location Area Code and Cell Identifier. 1.. Mobile Device Control On-Line AdjgMCC of ADJG. AdjgMNC of ADJG DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 35 (756) . AdjgMCC of ADJG. Mobile Device Control On-Line AdjgLAC of ADJG.. Location Area Code Location Area Code AdjgLAC ADJG HCConfiguration 1 The PLMN Identifier and Location Area Code (LAC) determine the Location Area (LAI) to which the GSM neighbour cell belongs to.65535 . 1.1.6 AdjgLAC (Location Area Code) Table 8..RAN Parameters Table 7. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control. UTRAN Iu Interface RANAP Signalling 4. AdjgMNC of ADJG Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • References: • RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 25.413. Cell Identifier (Continued) Handover Control. 7 AdjgMCC (Mobile Country Code) Table 9. AdjgMNC of ADJG 36 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..WCDMA RAN Parameters Table 8. 0. which is composed of the PLMN Identifier. the PLMN Identifier is composed of the Mobile Country Code (MCC) and the Mobile Network Code (MNC).413. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control.. Furthermore.1. UTRAN Iu Interface RANAP Signalling 4. Location Area Code and Cell Identifier.999 . Location Area Code (Continued) Parameter relationships: Interfaces: • • • References: • RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 25. AdjgLAC of ADJG. Mobile Country Code Mobile Country Code AdjgMCC ADJG HCConfiguration 1 A GSM neighbour cell is identified with the Cell Global Identifier (CGI). Mobile Device Control On-Line AdjgCI of ADJG. . Furthermore. 0. the PLMN Identifier is composed of the Mobile Country Code (MCC) and the Mobile Network Code (MNC).8 AdjgMNC (Mobile Network Code) Table 10.413. which is composed of the PLMN Identifier.RAN Parameters Table 9.999 .1. Location Area Code and Cell Identifier. Mobile Country Code (Continued) Parameter relationships: Interfaces: • • • References: • RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 25. Handover Control On-Line AdjgCI of ADJG. AdjgMCC of ADJG.. AdjgMNCLength of ADJG DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 37 (756) . AdjgLAC of ADJG. Mobile Network Code Mobile Network Code AdjgMNC ADJG HCConfiguration 1 A GSM neighbour cell is identified with the Cell Global Identifier (CGI). step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Mobile Device Control. UTRAN Iu Interface RANAP Signalling 4. 413. When this parameter is modified also the value of MNC used by system is always changed. Mobile Network Code Length Mobile Network Code Length AdjgMNCLength ADJG HCConfiguration 1 This parameter defines whether 2 or 3 digits are used in Mobile Network Code.1. 3 (3) • • 2 On-Line AdjgMNC of ADJG 2: internal_value = 2 3: internal_value = 3 38 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Mobile Network Code (Continued) Parameter relationships: Interfaces: • • • References: • RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 25.9 AdjgMNCLength (Mobile Network Code Length) Table 11. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2 (2).WCDMA RAN Parameters Table 10. UTRAN Iu Interface RANAP Signalling 4. 413. Network Colour Code Network Colour Code AdjgNCC ADJG HCConfiguration 1 Base Station Identity Code (BSIC) is composed of Network Colour Code (NCC) and Base Station Colour Code (BCC).331.7 .10 AdjgNCC (Network Colour Code) Table 12. 0.1. UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25. RRC Protocol Specification References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 39 (756) . RRC Protocol Specification 4..331. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control. Mobile Network Code Length (Continued) Parameter relationships: Interfaces: • • References: • • RAC to RNC EM to RNC 3GPP Reference: TS 25.RAN Parameters Table 11. Mobile Device Control On-Line AdjgBCC of ADJG • • • RNC to UE RAC to RNC EM to RNC 3GPP Reference: TS 25.. . which the measurement result of the GSM neighbour cell must exceed before the cell re-selection is possible. The UE uses the parameter in the cell re-selection procedure. -50. Maximum UE TX Power on RACH Maximum UE TX Power on RACH AdjgTxPwrMaxRACH ADJG HCConfiguration 1 This parameter indicates the maximum transmission power level that an UE can use when accessing the GSM neighbour cell on the RACH.11 AdjgTxPwrMaxRACH (Maximum UE TX Power on RACH) Table 13. step 1 dBm internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 33 dBm Mobile Device Control On-Line - • • • • RNC to UE Planner to RAC RAC to RNC EM to RNC 3GPP Reference: TS 25. RRC Protocol Specification (sections 10.1.331. If the maximum output power of the UE is lower than the value of the parameter.2.33 dBm.304.39) References: • • 40 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .4 and 10..3.3.WCDMA RAN Parameters 4.6. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25. the UE adds the power difference (dB value) to the minimum required GSM RSSI level. . If the maximum output power of the UE is lower than the value of the parameter.43 dBm.12 AdjgTxPwrMaxTCH (Maximum UE TX Power on TCH) Table 14. step 1 dBm internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 33 dBm Handover Control On-Line AdjgRxLevMinHO of HOPG • • • RNC to UE RAC to RNC EM to RNC GSM reference: 05.1..RAN Parameters 4. The RNC uses the parameter in the decision algorithm of the inter-RAT (GSM) handover.08 Radio Subsystem Link Control References: • • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 41 (756) . which the measurement result of the GSM neighbour cell must exceed before the handover is possible.05 Radio Transmission and Reception GSM reference: 05. Maximum UE TX Power on TCH Maximum UE TX Power on TCH AdjgTxPwrMaxTCH ADJG HCConfiguration 1 This parameter indicates the maximum transmission power level that an UE may use on a TCH in the GSM neighbour cell. the RNC adds the power difference (dB value) to the minimum required GSM RSSI level. 0. 13 NrtHopgIdentifier (NRT HOPG Identifier) Table 15. NRT HOPG Identifier NRT HOPG Identifier NrtHopgIdentifier ADJG HCConfiguration 1 Defines the parameter set (HOPG object) which controls the inter-RAT handover of a non-real time (NRT) radio bearer to the GSM neighbour cell.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line HOPGId of HOPG • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.14 RtHopgIdentifier (RT HOPG Identifier) Table 16.1.WCDMA RAN Parameters 4. 1..100 . RT HOPG Identifier RT HOPG Identifier RtHopgIdentifier ADJG HCConfiguration Parameter name: Abbreviated name: Managed object: Parameter group: 42 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .1. .2.RAN Parameters Table 16.47 . Inter-frequency adjacency identifier Inter-frequency adjacency identifier ADJIId ADJI Identification 1 Identification of ADJI (Inter-Frequency Adjacency) within a WCDMA Cell.1 ADJI Parameters ADJIId (Inter-frequency adjacency identifier) Table 17.. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line HOPGId of HOPG • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.. 0.2 4. step 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 43 (756) ..100 . Multiplicity: Description: RT HOPG Identifier (Continued) 1 Defines the parameter set (HOPG object) which controls the inter-RAT handover of a real time (RT) radio bearer to the GSM neighbour cell. 1. 65535 .. 1. which is composed of Global RNC Identifier and Cell Identifier.2 AdjiCI (Cell Identifier) Table 18. CId of WCEL 44 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . AdjiMNC of ADJI.2. AdjiRNCid of ADJI. Mobile Device Control On-Line AdjiMCC of ADJI.WCDMA RAN Parameters Table 17. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control.. Cell Identifier Cell Identifier AdjiCI ADJI HCConfiguration 1 An inter-frequency neighbour cell is identified with UTRAN Cell Identifier. Inter-frequency adjacency identifier (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. step 0.. -10..401. UTRAN Iur interface RNSAP Signalling 3GPP Reference: TS 25. Primary CPICH power Primary CPICH power AdjiCPICHTxPwr ADJI HCConfiguration 1 This parameter indicates the transmission power level of the Primary CPICH (Common Pilot Channel) of the inter-frequency neighbour cell.1 dBm internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 45 (756) .3 AdjiCPICHTxPwr (Primary CPICH power) Table 19.331. RRC Protocol Specification 4.423.RAN Parameters Table 18. UTRAN Overall Description 3GPP Reference: TS 25.50 dBm. Cell Identifier (Continued) Parameter relationships: Interfaces: • • • References: • • • RNC to UE RAC to RNC EM to RNC 3GPP Reference: TS 25.2. WCDMA RAN Parameters Table 19..65535 . Primary CPICH power (Continued) Parameter relationships: Interfaces: • • References: • RAC to RNC EM to RNC 3GPP Reference: TS 25. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Mobile Device Control. Handover Control On-Line AdjiCI of ADJI. AdjiRNCid of ADJI..4 AdjiLAC (Location Area Code) Table 20. Location Area Code Location Area Code AdjiLAC ADJI HCConfiguration 1 PLMN Identifier and Location Area Code (LAC) determine the Location Area (LAI) to which the interfrequency neighbour cell belongs to.433 UTRAN Iub Interface NBAP Signalling 4. 1. AdjiMNC of ADJI. LAC of WCEL 46 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . AdjiMCC of ADJI.2. Mobile Country Code Mobile Country Code AdjiMCC ADJI HCConfiguration 1 An inter-frequency neighbour cell is identified with UTRAN Cell Identifier which is composed of Global RNC Identifier and Cell Identifier. addressing and identification 3GPP Reference: TS 25.331. UTRAN Iur interface RNSAP Signalling 3GPP Reference: TS 23..423. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Handover Control.413. Location Area Code (Continued) Parameter relationships: Interfaces: • • • • References: • • • • RNC to UE RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 25.RAN Parameters Table 20. Numbering. 0.5 AdjiMCC (Mobile Country Code) Table 21.. Furthermore.2. UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25. Mobile Device Control On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 47 (756) . which in turn consists of Mobile Country Code (MCC) and Mobile Network Code (MNC). Global RNC Identifier is composed of RNC Identifier and PLMN Identifier.999 .003. RRC Protocol Specification 4. Furthermore. Mobile Network Code Mobile Network Code AdjiMNC ADJI HCConfiguration 1 An inter-frequency neighbour cell is identified with UTRAN Cell Identifier. UTRAN Iur interface RNSAP Signalling 4. Mobile Country Code (Continued) AdjiCI of ADJI. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes - 48 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . MCC of RNC Related parameters: Parameter relationships: Interfaces: • • • • References: • • • • RNC to UE RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 23..003. RRC Protocol Specification 3GPP Reference: TS 25.331.2.. addressing and identification 3GPP Reference: TS 25. UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25.423. AdjiRNCid of ADJI. which in turn consists of Mobile Country Code (MCC) and Mobile Network Code (MNC).413. Numbering. AdjiLAC of ADJI. 0. Global RNC Identifier is composed of RNC Identifier and PLMN Identifier.WCDMA RAN Parameters Table 21.6 AdjiMNC (Mobile Network Code) Table 22. which is composed of Global RNC Identifier and Cell Identifier.999 . AdjiMNC of ADJI. MNC of RNC Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • References: • • • RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 23. AdjiRNCid of ADJI. Mobile Network Code Length Mobile Network Code Length AdjiMNCLength ADJI HCConfiguration 1 This parameter defines whether 2 or 3 digits are used in Mobile Network Code. UTRAN Iur interface RNSAP Signalling 3GPP Reference: TS 25. Handover Control On-Line AdjiCI of ADJI. UTRAN Iu Interface RANAP Signalling 4. Numbering. Mobile Network Code (Continued) Mobile Device Control. AdjiMCC of ADJI. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 2 (2).RAN Parameters Table 22. AdjiMNCLength of ADJI.413.423.2. 3 (3) • • 2 2: internal_value = 2 3: internal_value = 3 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 49 (756) . AdjiLAC of ADJI. addressing and identification 3GPP Reference: TS 25.003. When this parameter is modified also the value of MNC used by system is always changed.7 AdjiMNCLength (Mobile Network Code Length) Table 23. RRC Protocol Specification 3GPP Reference: TS 25. Mobile Network Code Length (Continued) On-Line AdjiMNC of ADJI Modification: Related parameters: Parameter relationships: Interfaces: • • RAC to RNC EM to RNC 3GPP Reference: TS 25. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control. AdjiMCC of ADJI.413. UTRAN Iu Interface RANAP Signalling References: • • 4. Routing Area Code Routing Area Code AdjiRAC ADJI HCConfiguration 1 Location Area (LAI) and Routing Area Code (RAC) determine the Routing Area to which the interfrequency neighbour cell belongs to..2. AdjiLAC of ADJI. RAC of WCEL 50 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .8 AdjiRAC (Routing Area Code) Table 24. AdjiRNCid of ADJI.255 ..WCDMA RAN Parameters Table 23.331. 0. Mobile Device Control On-Line AdjiCI of ADJI. AdjiMNC of ADJI. Handover Control On-Line AdjiCI of ADJI.413. AdjiMNC of ADJI.9 AdjiRNCid (RNC Identifier) Table 25. RNC Identifier RNC Identifier AdjiRNCid ADJI HCConfiguration 1 An inter-frequency neighbour cell is identified with UTRAN Cell Identifier. Routing Area Code (Continued) Parameter relationships: Interfaces: • • • References: • • RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 25.2. UTRAN Iur interface RNSAP Signalling 3GPP Reference: TS 25. Global RNC Identifier is composed of PLMN Identifier and RNC Identifier. AdjiMCC of ADJI.4095 . which is composed of Global RNC Identifier and Cell Identifier. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Mobile Device Control. UTRAN Iu Interface RANAP Signalling 4.RAN Parameters Table 24...423. RncId of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 51 (756) . 1. The inter-frequency neighbour cell is included in the System Information when the value of the parameter is 'yes'.10 AdjiSIB (Include in System Information) Table 26. The maximum number of inter-frequency neighbour cells that can be included in the System Information is 32.423.2.WCDMA RAN Parameters Table 25. Include in System Information Include in System Information AdjiSIB ADJI HCConfiguration 1 This parameter indicates whether the inter-frequency neighbour cell is included in the System Information for the cell selection and re-selection procedures. 1 (True) • • False => 0 True => 1 1 (Yes) Handover Control On-Line - 52 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25. RNC Identifier (Continued) Parameter relationships: Interfaces: • • • References: • • RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 25. UTRAN Iur interface RNSAP Signalling 4.413. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (False). Include in System Information (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4..511 . Mobile Device Control On-Line AdjiUARFCN of ADJI.2. PriScrCode of WCEL • • • RNC to UE RAC to RNC EM to RNC 3GPP Reference: TS 25. RRC Protocol Specification References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 53 (756) . Primary Scrambling Code Primary Scrambling Code AdjiScrCode ADJI HCConfiguration 1 Defines the downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the inter-frequency neighbour cell. 0.RAN Parameters Table 26.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control.11 AdjiScrCode (Primary Scrambling Code) Table 27.331. 331.12 AdjiTxDiv (Tx Diversity Indicator) Table 28. the UE measures the received code power from each antenna separately.2. 1 (Tx Diversity in use) • • 0 Handover Control. whether the Primary CPICH of the interfrequency neighbour cell is broadcast from two antennas. Mobile Device Control On-Line Tx Diversity not used: internal_value = 0 Tx Diversity in use: internal_value = 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. If the Primary CPICH is broadcast from two antennas. RRC Protocol Specification References: • 54 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters 4. Tx Diversity Indicator Tx Diversity Indicator AdjiTxDiv ADJI HCConfiguration 1 Indicates. and sums the measurement results together in order to get the total received code power on the Primary CPICH. 0 (Tx Diversity not used). If the maximum output power of the UE is lower than the value of the parameter. which the measurement result of the neighbour cell must exceed before the handover is possible.33 dBm. The RNC uses the parameter in the decision algorithm of inter-frequency handover. the RNC adds the power difference (dB value) to the minimum required CPICH RSCP level.2.. step 1 dBm internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 24 dBm Handover Control On-Line AdjiMinRSCP of HOPI • • RAC to RNC EM to RNC 3GPP Reference: TS 25. -50.331 RRC Protocol Specification References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 55 (756) .13 AdjiTxPwrDPCH (Maximum UE TX Power on DPCH) Table 29.RAN Parameters 4. Maximum UE TX Power on DPCH Maximum UE TX Power on DPCH AdjiTxPwrDPCH ADJI HCConfiguration 1 This parameter indicates the maximum transmission power level that an UE may use on the DPCH in the neighbouring cell.. 33 dBm. -50. step 1 dBm internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 21 dBm Mobile Device Control On-Line UEtxPowerMaxPRACH of WCEL • • • RNC to UE RAC to RNC EM to RNC 3GPP Reference: TS 25.14 AdjiTxPwrRACH (Maximum UE TX Power on RACH) Table 30.2. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 56 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..WCDMA RAN Parameters 4. Maximum UE TX Power on RACH Maximum UE TX Power on RACH AdjiTxPwrRACH ADJI HCConfiguration 1 This parameter indicates the maximum transmission power level that an UE can use when accessing the neighbouring cell on the RACH. If the maximum output power of the UE is lower than the value of the parameter.304. which the measurement result of the neighbouring cell must exceed before the cell reselection is possible.331. the UE adds the power difference (dB value) to the minimum required CPICH Ec/No level.. The UE uses the parameter in the cell re-selection procedure. RRC Protocol Specification 3GPP Reference: TS 25. .RAN Parameters 4. 0. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. UARFCN UARFCN AdjiUARFCN ADJI HCConfiguration 1 Parameter defines the absolute UTRA RF channel number of the Primary CPICH of the inter-frequency neighbour cell.15 AdjiUARFCN (UARFCN) Table 31..6 MHz. The value of the parameter (Nd) is defined in the following way: Nd = 5 * Fdownlink. UTRAN Iur interface RNSAP Signalling References: • • • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 57 (756) . step 1 internal_value = gui_value Mobile Device Control.2. Handover Control On-Line AdjiScrCode of ADJI.331. UARFCN of WCEL • • • RNC to UE RAC to RNC EM to RNC 3GPP Reference: TS 25.16383 .423. RRC Protocol Specification 3GPP Reference: TS 25. where Fdownlink is the downlink frequency in MHz.101. UE Radio Transmission and Reception (FDD) 3GPP Reference: TS 25. The maximum number of inter-frequency neighbour cells is 48 but only 32 cells out of 48 inter-frequency neighbouring cells may have the same UTRA RF channel number.0 MHz <= Fdownlink <= 3276. 100 ..17 RtHopiIdentifier (RT HOPI Identifier) Table 33.2. RT HOPI Identifier RT HOPI Identifier RtHopiIdentifier ADJI HCConfiguration Parameter name: Abbreviated name: Managed object: Parameter group: 58 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line HOPIId of HOPI • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. 1.2.WCDMA RAN Parameters 4.. NRT HOPI Identifier NRT HOPI Identifier NrtHopiIdentifier ADJI HCConfiguration 1 Defines the parameter set (HOPI object) which controls the inter-frequency handover of a non-real time (NRT) radio bearer to the neighbouring cell.16 NrtHopiIdentifier (NRT HOPI Identifier) Table 32. 3. 1.. 1..RAN Parameters Table 33.1 ADJS Parameters ADJSId (Intra-frequency adjacency identifier) Table 34. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line HOPIId of HOPI • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Intra-frequency adjacency identifier Intra-frequency adjacency identifier ADJSId ADJS Identification 1 Identification of ADJS (Intra-Frequency Adjacency) within a WCDMA cell.31 ..100 . step 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 59 (756) .3 4. Multiplicity: Description: RT HOPI Identifier (Continued) 1 Defines the parameter set (HOPI object) which controls the inter-frequency handover of a real time (RT) radio bearer to the neighbouring cell.. AdjsRNCid of ADJS. which is composed of the Global RNC Identifier and the Cell Identifier. Intra-frequency adjacency identifier (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Cell Identifier Cell Identifier AdjsCI ADJS HCConfiguration 1 An intra-frequency neighbour cell is identified with the UTRAN Cell Identifier.WCDMA RAN Parameters Table 34.3. AdjsMNC of ADJS. 1.65535 .2 AdjsCI (Cell Identifier) Table 35. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control On-Line AdjsMCC of ADJS... CId of WCEL 60 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . .3. UTRAN Iur interface RNSAP Signalling 4. -10. Primary CPICH power Primary CPICH power AdjsCPICHTxPwr ADJS HCConfiguration 1 This parameter indicates the transmission power level of the Primary CPICH (Common Pilot Channel) of the intra-frequency neighbour cell.433 UTRAN Iub Interface NBAP Signalling References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 61 (756) .3 AdjsCPICHTxPwr (Primary CPICH power) Table 36.423.1 dBm internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line - • • RAC to RNC EM to RNC 3GPP Reference: TS 25..RAN Parameters Table 35. Cell Identifier (Continued) Parameter relationships: Interfaces: • • • References: • RNC to UE RAC to RNC EM to RNC 3GPP Reference: TS 25.50 dBm. step 0. if it belongs to the active set. Disable Effect on Reporting Range Disable Effect on Reporting Range AdjsDERR ADJS HCConfiguration 1 This parameter indicates whether the neighbouring cell is forbidden to affect the reporting range (addition/drop window) calculation. CPICH Ec/No Offset CPICH Ec/No Offset AdjsEcNoOffset ADJS Parameter name: Abbreviated name: Managed object: 62 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .4 AdjsDERR (Disable Effect on Reporting Range) Table 37.331.3.3. RRC Protocol Specification References: • 4. 0 (False).5 AdjsEcNoOffset (CPICH Ec/No Offset) Table 38. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (No) Handover Control On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.WCDMA RAN Parameters 4. .331..6 AdjsLAC (Location Area Code) Table 39.5 dB internal_value = gui_value * 2 Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 dB Mobile Device Control. Location Area Code Location Area Code AdjsLAC ADJS HCConfiguration 1 The PLMN Identifier and the Location Area Code (LAC) determine the Location Area (LAI) to which the intrafrequency neighbour cell belongs to.. CPICH Ec/No Offset (Continued) HCConfiguration 1 The CPICH Ec/No Offset determines an offset value.. which the UE adds to the CPICH Ec/No measurement result of the neighbouring cell before it compares the Ec/No value with the reporting criteria. step 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 63 (756) . -10.RAN Parameters Table 38. 1. Handover Control On-Line DropWindow of FMCS • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. step 0.3.65535 .10 dB. RRC Protocol Specification References: • 4. AdjsMCC of ADJS. Mobile Country Code Mobile Country Code AdjsMCC ADJS HCConfiguration 1 An intra-frequency neighbour cell is identified with the UTRAN Cell Identifier.7 AdjsMCC (Mobile Country Code) Table 40. the Mobile Network Code (MNC).999 . UTRAN Iu Interface RANAP Signalling 4.413.WCDMA RAN Parameters Table 39. Furthermore. and the RNC Identifier. Location Area Code (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control On-Line AdjsCI of ADJS.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value - 64 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . which is composed of the Global RNC Identifier and the Cell Identifier. 0.3. the Global RNC Identifier is composed of the PLMN Identifier. LAC of WCEL Parameter relationships: Interfaces: • • • • References: • RNC to MSC RAC to RNC EM to RNC RNC to UE 3GPP Reference: TS 25. which consists of the Mobile Country Code (MCC). AdjsRNCid of ADJS.. AdjsMNC of ADJS. Furthermore.. the Mobile Network Code (MNC). and the RNC Identifier.. which is composed of the Global RNC Identifier and the Cell Identifier. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Handover Control DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 65 (756) . the Global RNC Identifier is composed of the PLMN Identifier.413. Mobile Country Code (Continued) Handover Control On-Line AdjsCI of ADJS. MCC of RNC Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to MSC RAC to RNC EM to RNC RNC to UE 3GPP Reference: TS 25.3. UTRAN Iu Interface RANAP Signalling 4. AdjsMNC of ADJS. Mobile Network Code Mobile Network Code AdjsMNC ADJS HCConfiguration 1 An intra-frequency neighbour cell is identified with the UTRAN Cell Identifier. which consists of the Mobile Country Code (MCC). AdjsLAC of ADJS.999 .RAN Parameters Table 40. AdjsRNCid of ADJS.8 AdjsMNC (Mobile Network Code) Table 41. 0. 3 (3) • • 2 On-Line AdjsMNC of ADJS 2: internal_value = 2 3: internal_value = 3 66 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . AdjsRNCid of ADJS. When this parameter is modified also the value of MNC used by system is always changed. UTRAN Iu Interface RANAP Signalling 4.3. AdjsMNCLength of ADJS. AdjsLAC of ADJS. Mobile Network Code (Continued) On-Line AdjsCI of ADJS. Mobile Network Code Length Mobile Network Code Length AdjsMNCLength ADJS HCConfiguration 1 This parameter defines whether 2 or 3 digits are used in Mobile Network Code.413.9 AdjsMNCLength (Mobile Network Code Length) Table 42. AdjsMCC of ADJS. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2 (2).WCDMA RAN Parameters Table 41. MNC of RNC Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to MSC RAC to RNC EM to RNC RNC to UE 3GPP Reference: TS 25. AdjsMCC of ADJS. UTRAN Iu Interface RANAP Signalling DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 67 (756) .255 ..331. UTRAN Iu Interface RANAP Signalling 4. AdjsMNC of ADJS. AdjsRNCid of ADJS.3. RRC Protocol Specification 3GPP Reference: TS 25. AdjsLAC of ADJS.413.10 AdjsRAC (Routing Area Code) Table 43. RAC of WCEL Parameter relationships: Interfaces: • • • References: • RNC to MSC RAC to RNC EM to RNC 3GPP Reference: TS 25.413. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control On-Line AdjsCI of ADJS.RAN Parameters Table 42. Routing Area Code Routing Area Code AdjsRAC ADJS HCConfiguration 1 The Location Area (LAI) and the Routing Area Code (RAC) determine the Routing Area to which the intrafrequency neighbour cell belongs to.. Mobile Network Code Length (Continued) Parameter relationships: Interfaces: • • References: • • RAC to RNC EM to RNC 3GPP Reference: TS 25. 0. which is composed of the Global RNC Identifier and the Cell Identifier.4095 . The Global RNC Identifier is composed of the PLMN Identifier and the RNC Identifier.11 AdjsRNCid (RNC Identifier) Table 44. UTRAN Iu Interface RANAP Signalling 68 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1. AdjsMCC of ADJS.WCDMA RAN Parameters 4. RncId of RNC Parameter relationships: Interfaces: • • • • References: • RNC to MSC RAC to RNC EM to RNC Planner to RAC 3GPP Reference: TS 25. AdjsMNC of ADJS.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control On-Line AdjsCI of ADJS. RNC Identifier RNC Identifier AdjsRNCid ADJS HCConfiguration 1 An intra-frequency neighbour cell is identified with the UTRAN Cell Identifier.413..3. 13 AdjsTxDiv (Tx Diversity Indicator) Table 46. Tx Diversity Indicator Tx Diversity Indicator AdjsTxDiv ADJS Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 69 (756) . Primary Scrambling Code Primary Scrambling Code AdjsScrCode ADJS HCConfiguration 1 The downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the intra-frequency neighbour cell.3..3.RAN Parameters 4..511 . 0. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control. Mobile Device Control On-Line PriScrCode of WCEL • • • • RNC to UE RAC to RNC EM to RNC Planner to RAC 3GPP Reference: TS 25. RRC Protocol Specification References: • 4.12 AdjsScrCode (Primary Scrambling Code) Table 45.331. 1 (Tx Diversity in use) • • 0 Handover Control.331. Tx Diversity Indicator (Continued) HCConfiguration 1 This parameter indicates whether the Primary CPICH of the intra-frequency neighbour cell is broadcast from two antennas.WCDMA RAN Parameters Table 46. RRC Protocol Specification References: • 4. If the Primary CPICH is broadcast from two antennas.3. Maximum UE TX Power on RACH Maximum UE TX Power on RACH AdjsTxPwrRACH ADJS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 70 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Mobile Device Control On-Line Tx Diversity not used: internal_value = 0 Tx Diversity in use: internal_value = 1 Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 0 (Tx Diversity not used). the UE shall measure the received code power from each antenna separately and sum the measurement results together in order to get the total received code power on the Primary CPICH.14 AdjsTxPwrRACH (Maximum UE TX Power on RACH) Table 47. . -50.15 NrtHopsIdentifier (NRT HOPS Identifier) Table 48.RAN Parameters Table 47. If the maximum output power of the UE is lower than the value of the parameter.331.3. Description: Maximum UE TX Power on RACH (Continued) This parameter indicates the maximum transmission power level that an UE can use when accessing the neighbouring cell on the RACH. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 4. The UE uses the parameter in the cell re-selection procedure. step 1 dBm internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 21 dBm Mobile Device Control On-Line UEtxPowerMaxPRACH of WCEL • • • • RNC to UE RAC to RNC EM to RNC Planner to RAC 3GPP Reference: TS 25. which the measurement result of the neighbouring cell must exceed before the cell reselection is possible..33 dBm. RRC Protocol Specification 3GPP Reference: TS 25. the UE adds the power difference (dB value) to the minimum required CPICH Ec/No level.304. NRT HOPS Identifier NRT HOPS Identifier NrtHopsIdentifier ADJS HCConfiguration Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 71 (756) . 100 . Multiplicity: Description: NRT HOPS Identifier (Continued) 1 This parameter defines the parameter set (HOPS object) which controls the intra-frequency handover of a non-real time (NRT) radio bearer to the neighbouring cell. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 72 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .16 RtHopsIdentifier (RT HOPS Identifier) Table 49... step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line HOPSId of HOPS • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. RT HOPS Identifier RT HOPS Identifier RtHopsIdentifier ADJS HCConfiguration 1 This parameter defines the parameter set (HOPS object) which controls the intra-frequency handover of a real time (RT) radio bearer to the neighbouring cell...WCDMA RAN Parameters Table 48. 1.3. 1.100 . step 1 internal_value = gui_value DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 73 (756) . The resulting loss ratios are between 10^-9 and 10^-3 entered as integers from 9 to 3. The parameter is given in COCO creation and it is applied for all ATM end points related to the COCO object.. RT HOPS Identifier (Continued) Handover Control On-Line HOPSId of HOPS Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Example: Value 3 for the parameter gives the AAL2 loss ratio 10^-3. positive number.1 COCO Parameters AAL2LossRatio (AAL2 CPS-SDU loss ratio) Table 50.RAN Parameters Table 49..9 . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 3.4. AAL2 CPS-SDU loss ratio AAL2 CPS-SDU loss ratio AAL2LossRatio COCO 1 This parameter enables you to specify the allowed AAL type 2 CPS-SDU (Common Part Sublayer Service Data Unit) loss ratio by giving its order of magnitude with a simple.4 4. 4.WCDMA RAN Parameters Table 50. AAL2 CPS-SDU loss ratio (Continued) 3 Not modifiable - Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. 0 (False).2 AAL2Multiplexing (BTS AAL2 multiplexing) Table 51. BTS AAL2 multiplexing BTS AAL2 multiplexing AAL2Multiplexing COCO 1 This parameter indicates whether the BTS AAL2 multiplexing functionality is enabled in the Iub interface. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Not modifiable AAL2TPList of COCO 74 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 4.1 ms..1 milliseconds. The value range is from 10 to 100. AAL2 CPS-SDU multiplexing delay AAL2 CPS-SDU multiplexing delay AAL2MuxDelay COCO 1 This parameter specifies the allowed AAL type 2 CPSSDU (Common Part Sublayer Service Data Unit) multiplexing delay in 0.100 . The parameter is given in COCO creation and it is applied for all ATM end points related to the COCO object. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 10. Example: Value 100 for the parameter gives the AAL2 multiplexing delay of 10 ms. step 0. step 1 internal_value = gui_value 100 Not modifiable - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 75 (756) . BTS AAL2 multiplexing (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.RAN Parameters Table 51.3 AAL2MuxDelay (AAL2 CPS-SDU multiplexing delay) Table 52.. AAL2 signalling link termination point list AAL2 signalling link termination point list AAL2SignLinkTPList COCO 1 The list of AAL2 signalling link termination points.4 AAL2SignLinkTPList (AAL2 signalling link termination point list) Table 53.4. • AAL2SignLinkTP Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 76 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . AAL2 CPS-SDU multiplexing delay (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.WCDMA RAN Parameters Table 52. AAL2 signalling link configuration AAL2 signalling link configuration AAL2SignLinkTP COCO 6 AAL2 signalling link configuration.4. • • • • • • • • AAL2SigCDVT01Egr AAL2SigCDVT01Ing AAL2SigPCR01Egr AAL2SigPCR01Ing AAL2SigTPAdmState AAL2SignICSUIndex AAL2SignLinkTPId AAL2SignLinkVCI Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Not modifiable AAL2SignLinkTPList of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 77 (756) .1 AAL2SignLinkTP (AAL2 signalling link configuration) Table 54.4.RAN Parameters 4. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable AAL2SignLinkTP of COCO. CreateATMTP of COCO Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC AAL2SigCDVT01Ing (AAL2 signalling link VCLtp CDVT ingress) Table 56. AAL2 signalling link VCLtp CDVT ingress AAL2 signalling link VCLtp CDVT ingress AAL2SigCDVT01Ing COCO 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 78 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 0.16777215 . AAL2 signalling link VCLtp CDVT egress AAL2 signalling link VCLtp CDVT egress AAL2SigCDVT01Egr COCO 1 This parameter identifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the egress direction..WCDMA RAN Parameters AAL2SigCDVT01Egr (AAL2 signalling link VCLtp CDVT egress) Table 55.. CalculateCDVT of COCO. CreateATMTP of COCO Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC AAL2SigPCR01Egr (AAL2 signalling link VCLtp PCR egress) Table 57. 0. AAL2 signalling link VCLtp PCR egress AAL2 signalling link VCLtp PCR egress AAL2SigPCR01Egr COCO 1 This parameter identifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the egress direction..353207 .. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable AAL2SignLinkTP of COCO.RAN Parameters Table 56. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 79 (756) ..16777215 . 0. CalculateCDVT of COCO. Description: AAL2 signalling link VCLtp CDVT ingress (Continued) This parameter identifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the ingress direction.. CreateATMTP of COCO Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - AAL2SigPCR01Ing (AAL2 signalling link VCLtp PCR ingress) Table 58. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable AAL2SignLinkTP of COCO.. AAL2 signalling link VCLtp PCR ingress AAL2 signalling link VCLtp PCR ingress AAL2SigPCR01Ing COCO 1 This parameter identifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the ingress direction.WCDMA RAN Parameters Table 57. 0.353207 . CreateATMTP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - 80 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. AAL2 signalling link VCLtp PCR egress (Continued) Not modifiable AAL2SignLinkTP of COCO. 0 (Locked). The state inherited from the higher level object.RAN Parameters AAL2SigTPAdmState (AAL2 signalling link VCLtp effective administrative state) Table 59. 1 (Shutting down). 2 (Unlocked) • • • Locked: internal_value = 0 Shutting down: internal_value = 1 Unlocked: internal_value = 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable AAL2SignLinkTP of COCO • - RNC to EM AAL2SignICSUIndex (ICSU index for AAL2 signalling link) Table 60. AAL2 signalling link VCLtp effective administrative state AAL2 signalling link VCLtp effective administrative state AAL2SigTPAdmState COCO 1 The effective administrative state of the termination point. ICSU index for AAL2 signalling link ICSU index for AAL2 signalling link AAL2SignICSUIndex COCO 1 ICSU unit index of the AAL2 signalling link. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 81 (756) . WCDMA RAN Parameters Table 60....65535 . step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable AAL2SignLinkTP of COCO • - RNC to EM AAL2SignLinkTPId (AAL2 signalling link termination point identifier) Table 61. ICSU index for AAL2 signalling link (Continued) 0.6 . AAL2 signalling link termination point identifier AAL2 signalling link termination point identifier AAL2SignLinkTPId COCO 1 Identification of the Traffic Termination Point for AAL2 signalling link. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable AAL2SignLinkTP of COCO 82 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. 1. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable AAL2TP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 83 (756) .65535 ... 1. AAL2 signalling link termination point identifier (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC AAL2SignLinkVCI (AAL2 signalling link virtual channel identifier) Table 62.RAN Parameters Table 61. AAL2 signalling link virtual channel identifier AAL2 signalling link virtual channel identifier AAL2SignLinkVCI COCO 1 AAL2 signalling link virtual channel identifier. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: 84 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . AAL2 User plane termination point list AAL2 User plane termination point list AAL2TPList COCO 1 The list of AAL2 user plane link termination points.4.5 AAL2TPList (AAL2 User plane termination point list) Table 63. AAL2 User Plane link configuration AAL2 User Plane link configuration AAL2TP COCO 18 AAL2 User Plane link configuration.5.WCDMA RAN Parameters 4. • AAL2TP Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.4.1 AAL2TP (AAL2 User Plane link configuration) Table 64. RAN Parameters Table 64. AAL2 User Plane link configuration (Continued) • • • • • • • • • • • • • • AAL2PathId AAL2SignLinkVCI AAL2UPCDVT01Egr AAL2UPCDVT01Ing AAL2UPPCR01Egr AAL2UPPCR01Ing AAL2UPTPAdmState AAL2UPTPId AAL2UPVCI ANI COCOA2EA DATree EPGroupId Route Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Not modifiable AAL2TPList of COCO • • • • RAC to RNC EM to RNC RAC Application to Planner RAC Application to RAC References: - AAL2PathId (AAL type 2 path identifier) Table 65. AAL type 2 path identifier AAL type 2 path identifier AAL2PathId COCO - Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 85 (756) . 65535 ....4294967295 . The formula is WBTS id * 1000 + AAL2 tp id.WCDMA RAN Parameters Table 65. the AAL2 path id for the WBTS id 4 and AAL2 tp id 8 would be 4008. Multiplicity: Description: AAL type 2 path identifier (Continued) 1 Identifies the AAL type 2 path between two adjacent nodes. AAL2 signalling link virtual channel identifier AAL2 signalling link virtual channel identifier AAL2SignLinkVCI COCO 1 AAL2 signalling link virtual channel identifier. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1. step 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 86 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . step 1 internal_value = gui_value Not modifiable AAL2TP of COCO. GenerateAAL2Num of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - AAL2SignLinkVCI (AAL2 signalling link virtual channel identifier) Table 66.. The AAL2 path id is generated from the corresponding WBTS id and AAL2 tp id. For example. 1. The AAL2 path id is generated by the system for the Iub interface when creating the Routing and Digit analysis for the AAL2 connections (CoCo creation/modification or WBTS creation/modification). RAN Parameters Table 66. AAL2 signalling link virtual channel identifier (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable AAL2TP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - AAL2UPCDVT01Egr (AAL2 user plane link VCLtp CDVT egress) Table 67.16777215 .. CalculateCDVT of COCO. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable AAL2TP of COCO.. CreateATMTP of COCO DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 87 (756) . 0. AAL2 user plane link VCLtp CDVT egress AAL2 user plane link VCLtp CDVT egress AAL2UPCDVT01Egr COCO 1 This parameter identifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the egress direction. . AAL2 user plane link VCLtp CDVT ingress AAL2 user plane link VCLtp CDVT ingress AAL2UPCDVT01Ing COCO 1 This parameter identifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the ingress direction.WCDMA RAN Parameters Table 67.16777215 . CalculateCDVT of COCO. CreateATMTP of COCO Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 88 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 0. AAL2 user plane link VCLtp CDVT egress (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC AAL2UPCDVT01Ing (AAL2 user plane link VCLtp CDVT ingress) Table 68. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable AAL2TP of COCO.. RAN Parameters AAL2UPPCR01Egr (AAL2 user plane link VCLtp PCR egress) Table 69. AAL2 user plane link VCLtp PCR egress AAL2 user plane link VCLtp PCR egress AAL2UPPCR01Egr COCO 1 This parameter identifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the egress direction. 0. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable AAL2TP of COCO.. AAL2 user plane link VCLtp PCR ingress AAL2 user plane link VCLtp PCR ingress AAL2UPPCR01Ing COCO 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 89 (756) .. CreateATMTP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - AAL2UPPCR01Ing (AAL2 user plane link VCLtp PCR ingress) Table 70.353207 . . AAL2 user plane link VCLtp effective administrative state AAL2 user plane link VCLtp effective administrative state AAL2UPTPAdmState COCO 1 The effective administrative state of the termination point. The state inherited from the higher level object. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable AAL2TP of COCO. 0. Description: AAL2 user plane link VCLtp PCR ingress (Continued) This parameter identifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the ingress direction. 1 (Shutting down). 0 (Locked). CreateATMTP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - AAL2UPTPAdmState (AAL2 user plane link VCLtp effective administrative state) Table 71. 2 (Unlocked) • • • Locked: internal_value = 0 Shutting down: internal_value = 1 Unlocked: internal_value = 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes - 90 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 70.353207 .. . AAL2 user plane termination point identifier AAL2 user plane termination point identifier AAL2UPTPId COCO 1 Identification of the AAL2 termination point.18 . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable AAL2TP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 91 (756) .. AAL2 user plane link VCLtp effective administrative state Not modifiable AAL2TP of COCO Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: • - RNC to EM AAL2UPTPId (AAL2 user plane termination point identifier) Table 72. 1.RAN Parameters Table 71. WCDMA RAN Parameters AAL2UPVCI (AAL2 user plane virtual channel identifier) Table 73. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable AAL2TP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - ANI (Adjacent AAL type 2 node identifier) Table 74. Adjacent AAL type 2 node identifier Adjacent AAL type 2 node identifier ANI COCO 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 92 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . AAL2 user plane virtual channel identifier AAL2 user plane virtual channel identifier AAL2UPVCI COCO 1 AAL2 user plane link termination point virtual channel identifier.. 1.65535 .. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: .. the ANI for the WBTS id 4 and AAL2 tp id 8 would be A00004008. The formula is letter "A" + 5 digits for WBTS id + 3 digits for AAL2 tp id. The ANI is generated from the corresponding WBTS id and AAL2 tp id. characters. Description: Adjacent AAL type 2 node identifier (Continued) Identifies the adjacent AAL type 2 node.RAN Parameters Table 74.. internal_value = gui_value Not modifiable AAL2TP of COCO • - RNC to EM COCOA2EA (AAL type 2 end point address for Iub) Table 75. For example. ANI is generated by the system for each AAL2 VCC when creating the Routing and Digit analysis for the Iub AAL2 connections (CoCo creation/modification or WBTS creation/modification). AAL type 2 end point address for Iub AAL type 2 end point address for Iub COCOA2EA COCO 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 93 (756) . the A2EA for the WBTS id 4 and AAL2 tp id 8 would be 4900004008. GenerateAAL2Num of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - 94 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 75. Length of the digit sequence will be 40 in the system. The address is generated from the corresponding WBTS id and AAL2 tp id. This includes the AFI + 5 digits for WBTS id + 3 digits for AAL2 tp id.. The additional characters are filled with 0xFF in the end of the digit sequence when the digit is stored to the system. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1. internal_value = gui_value Not modifiable AAL2TP of COCO.40 characters. It is used to locate the free ATM (AAL2 VCC) resources leading to the BTS.. Description: AAL type 2 end point address for Iub (Continued) This parameter defines the A2EA of the AAL2 termination point in the WCDMA BTS. Digit analyses are created by the system for the Iub interface when creating the Routing and Digit analysis for the AAL2 connections (CoCo creation/modification or WBTS creation/modification). For example. The system automatically adds the used AFI (authority and format identifier) to the beginning of the digit sequence. Digit analyses are created by the system for the Iub interface when creating the Routing and Digit analysis for the AAL2 connections (CoCo creation/modification or WBTS creation/modification)... Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: 1. End point group index End point group index EPGroupId COCO - Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 95 (756) . Iub Digit analysis tree Iub Digit analysis tree DATree COCO 1 This parameter tells in which Digit Analysis Tree the digit analyses for the Iub interface are created. IubDATree of RNC • - RNC to EM EPGroupId (End point group index) Table 77. The recommended value for the Iub tree is 1. step 1 internal_value = gui_value Not modifiable AAL2TP of COCO.RAN Parameters DATree (Iub Digit analysis tree) Table 76.1023 . 65534 . Route identifier Route identifier Route COCO 1 This parameter specifies the ATM route related to the ATM end point. Multiplicity: Description: End point group index (Continued) 1 AAL2 VCC End point group index.15 . 0.. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable AAL2TP of COCO • - RNC to EM Route (Route identifier) Table 78.WCDMA RAN Parameters Table 77... step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable AAL2TP of COCO 96 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. 0. 4.6 ATMInterface (ATM interface) Table 79. Route identifier (Continued) Parameter relationships: Interfaces: References: • RNC to EM 4.RAN Parameters Table 78. • • • • • • • ATMIfAdmState ATMIfMaxBandwidthEgr ATMIfMaxBandwidthIng ATMIfMaxVCIBits ATMIfMaxVPIBits ATMIfPhysicalTTPId ATMInterfaceType Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Not modifiable - • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 97 (756) . ATM interface ATM interface ATMInterface COCO 1 Parameters related to the ATM interface used for the connection configuration. 6.4. ATM interface administrative state ATM interface administrative state ATMIfAdmState COCO 1 This parameter describes the administrative state of the ATM interface.6. ATM interface maximum bandwidth egress ATM interface maximum bandwidth egress ATMIfMaxBandwidthEgr COCO 1 This parameter identifies the numerical value of the maximum egress transmission bandwidth at the ATM interface. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: 98 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .2 ATMIfMaxBandwidthEgr (ATM interface maximum bandwidth egress) Table 81.WCDMA RAN Parameters 4. 1 (Shutting down).1 ATMIfAdmState (ATM interface administrative state) Table 80. 2 (Unlocked) • • • Locked: internal_value = 0 Shutting down: internal_value = 1 Unlocked: internal_value = 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable ATMInterface of COCO • - RNC to EM 4. 0 (Locked).4. ATM interface maximum bandwidth egress (Continued) 0.4.RAN Parameters Table 81. 0. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable ATMInterface of COCO DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 99 (756) ..6.3 ATMIfMaxBandwidthIng (ATM interface maximum bandwidth ingress) Table 82...353207 .353207 . ATM interface maximum bandwidth ingress ATM interface maximum bandwidth ingress ATMIfMaxBandwidthIng COCO 1 This parameter identifies the numerical value of the maximum ingress transmission bandwidth at the ATM interface. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable ATMInterface of COCO • - RNC to EM 4.. The parameter value can range from 1 to 14 for both UNI and NNI interface.4 ATMIfMaxVCIBits (ATM interface maximum VCI bits) Table 83..6. ATM interface maximum bandwidth ingress (Continued) Parameter relationships: Interfaces: References: • RNC to EM 4.WCDMA RAN Parameters Table 82. 1.14 . ATM interface maximum VCI bits ATM interface maximum VCI bits ATMIfMaxVCIBits COCO 1 This parameter identifies the maximum number of allocated bits of the VCI sub field per VPLtp of the defined ATM interface..4. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable ATMInterface of COCO • - RNC to EM 100 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . ATM interface maximum VPI bits ATM interface maximum VPI bits ATMIfMaxVPIBits COCO 1 This parameter identifies the maximum number of allocated bits of the VPI sub field for the defined ATM interface..6 ATMIfPhysicalTTPId (ATM interface physical TTP) Table 85.4. ATM interface physical TTP ATM interface physical TTP ATMIfPhysicalTTPId COCO Identification 1 This parameter identifies the physical resource that the interface is based on. The parameter value can range from 1 to 8 for a UNI interface and from 1 to 12 for an NNI interface.RAN Parameters 4.6. 1.6.4.5 ATMIfMaxVPIBits (ATM interface maximum VPI bits) Table 84.12 . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable ATMInterface of COCO • - RNC to EM 4.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 101 (756) . WCDMA RAN Parameters Table 85. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable ATMInterface of COCO • - RNC to EM 4.7 ATMInterfaceType (ATM interface type) Table 86. ATM interface type ATM interface type ATMInterfaceType COCO 1 This parameter describes the type of the ATM interface.. 0 (UNI).6.. 1 (NNI) • • Not modifiable ATMInterface of COCO UNI: internal_value = 0 NNI: internal_value = 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: • - RNC to EM 102 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .4.320 . ATM interface physical TTP (Continued) 0. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable ATMInterface of COCO • • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM RNC to WBTS References: - 4.7 ATMInterfaceID (ATM interface identifier) Table 87.8 CNBAPTP (C-NBAP signalling link configuration) Table 88..4. ATM interface identifier ATM interface identifier ATMInterfaceID COCO 1 This parameter identifies the ATM external interface used for the VP/VC Link termination point.320 .4. C-NBAP signalling link configuration C-NBAP signalling link configuration CNBAPTP COCO Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 103 (756) .RAN Parameters 4.. 1. 1 CNBAPCDVT01Egr (C-NBAP VCLtp CDVT egress) Table 89.4.8. C-NBAP signalling link configuration (Continued) 1 Common NBAP signalling link configuration. C-NBAP VCLtp CDVT egress C-NBAP VCLtp CDVT egress CNBAPCDVT01Egr COCO 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 104 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . • • • • • • • • CNBAPCDVT01Egr CNBAPCDVT01Ing CNBAPICSUIndex CNBAPOpState CNBAPPCR01Egr CNBAPPCR01Ing CNBAPTPAdmState CNBAPVCI Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Not modifiable - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.WCDMA RAN Parameters Table 88. 4. Description: C-NBAP VCLtp CDVT egress (Continued) This parameter identifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the egress direction..RAN Parameters Table 89..8. C-NBAP VCLtp CDVT ingress C-NBAP VCLtp CDVT ingress CNBAPCDVT01Ing COCO 1 This parameter identifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the ingress direction. CalculateCDVT of COCO.2 CNBAPCDVT01Ing (C-NBAP VCLtp CDVT ingress) Table 90. 0. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable CNBAPTP of COCO. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 105 (756) .. CreateATMTP of COCO Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to EM 4.16777215 . 0..16777215 . CreateATMTP of COCO Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to EM 4. 0. CalculateCDVT of COCO.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable CNBAPTP of COCO • - RNC to EM 106 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . ICSU index for C-NBAP link ICSU index for C-NBAP link CNBAPICSUIndex COCO 1 ICSU unit index of the C-NBAP signalling link.8. C-NBAP VCLtp CDVT ingress (Continued) Not modifiable CNBAPTP of COCO.4..65535 .3 CNBAPICSUIndex (ICSU index for C-NBAP link) Table 91.WCDMA RAN Parameters Table 90. 4.353207 ..5 CNBAPPCR01Egr (C-NBAP VCLtp PCR egress) Table 93. 3 (Blocked.RAN Parameters 4.4. not connected) • • • Blocked: internal_value = 1 Working: internal_value = 2 Blocked. step 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 107 (756) .. 2 (Working). 0. 1 (Blocked).8.8. Operational Status of C-NBAP link Operational Status of C-NBAP link CNBAPOpState COCO 1 Operational state of the Common NBAP link. C-NBAP VCLtp PCR egress C-NBAP VCLtp PCR egress CNBAPPCR01Egr COCO 1 This parameter identifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the egress direction. not connected: internal_value = 3 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable CNBAPTP of COCO • - RNC to EM 4.4 CNBAPOpState (Operational Status of C-NBAP link) Table 92. CreateATMTP of COCO 108 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable CNBAPTP of COCO.WCDMA RAN Parameters Table 93.4. 0..6 CNBAPPCR01Ing (C-NBAP VCLtp PCR ingress) Table 94.8. CreateATMTP of COCO • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - 4.353207 . C-NBAP VCLtp PCR ingress C-NBAP VCLtp PCR ingress CNBAPPCR01Ing COCO 1 This parameter identifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the ingress direction. C-NBAP VCLtp PCR egress (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable CNBAPTP of COCO.. The state inherited from the higher level object.8. C-NBAP VCLtp PCR ingress (Continued) Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to EM 4. 2 (Unlocked) • • • Locked: internal_value = 0 Shutting down: internal_value = 1 Unlocked: internal_value = 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable CNBAPTP of COCO • - RNC to EM DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 109 (756) . 0 (Locked). 1 (Shutting down).7 CNBAPTPAdmState (C-NBAP VCLtp effective administrative state) Table 95.RAN Parameters Table 94. C-NBAP VCLtp effective administrative state C-NBAP VCLtp effective administrative state CNBAPTPAdmState COCO 1 The effective administrative state of the termination point.4. 4. Virtual channel identifier for C-NBAP Virtual channel identifier for C-NBAP CNBAPVCI COCO 1 Identifier which identifies a particular virtual channel link for a given virtual path connection (VPC)..8 CNBAPVCI (Virtual channel identifier for C-NBAP) Table 96.65535 . Connection configuration identifier Connection configuration identifier COCOId COCO Identification 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 110 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .8.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable CNBAPTP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.4.9 COCOId (Connection configuration identifier) Table 97. 1.WCDMA RAN Parameters 4. These parameters define the Service category.. COCO Traffic parameters COCO Traffic parameters COCOTraffic COCO 1 The common parameters for all the termination points in the COCO. conformance definition.RAN Parameters Table 97.65535 . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 111 (756) . step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable - • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS References: - 4. Description: Connection configuration identifier (Continued) The COCO identifier identifies the Connection Configuration object for the Iub interface in the RNW database of the RNC. packet discard and quality of service class for the termination points related to the COCO object.10 COCOTraffic (COCO Traffic parameters) Table 98.4.. 1. 2 (VBR2).10. 1 (VBR1).4. COCO Traffic parameters (Continued) • • • • • ConformanceDef EarlyPacketDiscard PartialPacketDiscard QualityOfServiceClass ServiceCategory Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Not modifiable CreateATMTP of COCO • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - 4.1 ConformanceDef (Conformance definition) Table 99.WCDMA RAN Parameters Table 98. 0 (CBR1). 3 (VBR3). 4 (UBR1) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 112 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Conformance definition Conformance definition ConformanceDef COCO 1 The conformance definition of the ATM termination point. 10. 1 (enabled) • • disabled: internal_value = 0 enabled: internal_value = 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 113 (756) . CreateATMTP of COCO • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - 4.RAN Parameters Table 99.2 EarlyPacketDiscard (Early Packet Discard) Table 100. 0 (disabled). Early Packet Discard Early Packet Discard EarlyPacketDiscard COCO 1 Early Packet Discard option for the ATM termination point.4. Conformance definition (Continued) • • • • • CBR1: internal_value = 0 VBR1: internal_value = 1 VBR2: internal_value = 2 VBR3: internal_value = 3 UBR1: internal_value = 4 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable COCOTraffic of COCO. Early Packet Discard (Continued) Not modifiable COCOTraffic of COCO.WCDMA RAN Parameters Table 100.3 PartialPacketDiscard (Partial Packet Discard) Table 101. 0 (disabled).4. 1 (enabled) • • Not modifiable COCOTraffic of COCO. Partial Packet Discard Partial Packet Discard PartialPacketDiscard COCO 1 Partial Packet Discard option for the ATM termination point.10. CreateATMTP of COCO disabled: internal_value = 0 enabled: internal_value = 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - 114 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . CreateATMTP of COCO Modification: Related parameters: Parameter relationships: Interfaces: • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - 4. 3 (Class3) • • • • Unspecified: internal_value = 0 Class1: internal_value = 1 Class2: internal_value = 2 Class3: internal_value = 3 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable COCOTraffic of COCO. 1 (Class1). Quality Of Service Class Quality Of Service Class QualityOfServiceClass COCO 1 Quality Of Service Class parameter for the ATM termination point. 2 (Class2).4 QualityOfServiceClass (Quality Of Service Class) Table 102. 0 (Unspecified).10.5 ServiceCategory (Service category) Table 103.RAN Parameters 4.4. Service category Service category ServiceCategory COCO Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 115 (756) . CreateATMTP of COCO • • • • • RAC to RNC EM to RNC RAC Application to Planner RAC Application to RAC RNC to EM References: - 4.10.4. 3 (UBR) • • • • CBR: internal_value = 0 rt-VBR: internal_value = 1 nrt-VBR: internal_value = 2 UBR: internal_value = 3 Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable COCOTraffic of COCO.4. 2 (nrt-VBR). Service category (Continued) 1 The service category of the ATM termination point. 1 (rt-VBR). 1 (True) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 116 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 103. CreateATMTP of COCO • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - 4. 0 (CBR). Calculate CDVT Calculate CDVT CalculateCDVT COCO 1 This parameter defines if the CDVT is calculated by the system at ATM termination point creation.11 CalculateCDVT (Calculate CDVT) Table 104. 0 (False). RAN Parameters Table 104. VPLTP of COCO Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to EM 4. DNBAPTP of COCO. i. Create ATM termination points Create ATM termination points CreateATMTP COCO 1 This parameter defines if the termination points are created during the COCO object creation.4. 0 (False). CNBAPTP of COCO. CDVT. CreateATMTP of COCO. If the parameter is enabled the corresponding parameters for the termination points have to be defined. AAL2TP of COCO. Calculate CDVT (Continued) • • False => 0 True => 1 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1 (Yes) Not modifiable AAL2SignLinkTP of COCO. Service Class etc. PCR.e.12 CreateATMTP (Create ATM termination points) Table 105. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 1 (Yes) - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 117 (756) . VPLTP of COCO Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to EM 4. • DNBAPTP Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable - 118 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . CNBAPTP of COCO.13 DNBAPTPList (D-NBAP termination point list) Table 106. AAL2TP of COCO. D-NBAP termination point list D-NBAP termination point list DNBAPTPList COCO 1 The list of D-NBAP termination points. DNBAPTP of COCO.WCDMA RAN Parameters Table 105.4. COCOTraffic of COCO. Create ATM termination points (Continued) Not modifiable AAL2SignLinkTP of COCO. 1 DNBAPTP (D-NBAP signalling link configuration) Table 107.4. D-NBAP signalling link configuration D-NBAP signalling link configuration DNBAPTP COCO 6 Dedicated NBAP signalling link configuration.RAN Parameters Table 106. • • • • • • • • • DNBAPCDVT01Egr DNBAPCDVT01Ing DNBAPICSUIndex DNBAPOpState DNBAPPCR01Egr DNBAPPCR01Ing DNBAPTPAdmState DNBAPVCI TTPId Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - Not modifiable DNBAPTPList of COCO DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 119 (756) .13. D-NBAP termination point list (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. D-NBAP signalling link configuration (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DNBAPCDVT01Egr (D-NBAP VCLtp CDVT egress) Table 108. DNBAPTP of COCO Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 120 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . D-NBAP VCLtp CDVT egress D-NBAP VCLtp CDVT egress DNBAPCDVT01Egr COCO 1 This parameter identifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the egress direction. CreateATMTP of COCO...WCDMA RAN Parameters Table 107. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable CalculateCDVT of COCO.16777215 . 0. D-NBAP VCLtp CDVT ingress D-NBAP VCLtp CDVT ingress DNBAPCDVT01Ing COCO 1 This parameter identifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the ingress direction.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: On-Line CalculateCDVT of COCO. ICSU index for D-NBAP link ICSU index for D-NBAP link DNBAPICSUIndex COCO 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 121 (756) .RAN Parameters DNBAPCDVT01Ing (D-NBAP VCLtp CDVT ingress) Table 109.16777215 . 0. DNBAPTP of COCO Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DNBAPICSUIndex (ICSU index for D-NBAP link) Table 110. CreateATMTP of COCO.. 65535 . not connected: internal_value = 3 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable DNBAPTP of COCO 122 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable DNBAPTP of COCO • - RNC to EM DNBAPOpState (Operational Status of D-NBAP link) Table 111.. 0. not connected) • • • Blocked: internal_value = 1 Working: internal_value = 2 Blocked. Description: ICSU index for D-NBAP link (Continued) ICSU unit index of the D-NBAP signalling link. 1 (Blocked). Operational Status of D-NBAP link Operational Status of D-NBAP link DNBAPOpState COCO 1 The operational status of the dedicated NBAP link.. 2 (Working).WCDMA RAN Parameters Table 110. 3 (Blocked. 353207 .. DNBAPTP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 123 (756) . Operational Status of D-NBAP link (Continued) Parameter relationships: Interfaces: References: • RNC to EM DNBAPPCR01Egr (D-NBAP VCLtp PCR egress) Table 112. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable CreateATMTP of COCO.RAN Parameters Table 111.. 0. D-NBAP VCLtp PCR egress D-NBAP VCLtp PCR egress DNBAPPCR01Egr COCO 1 This parameter identifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the egress direction. D-NBAP VCLtp PCR ingress D-NBAP VCLtp PCR ingress DNBAPPCR01Ing COCO 1 This parameter identifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the ingress direction. DNBAPTP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - DNBAPTPAdmState (D-NBAP VCLtp effective administrative state) Table 114. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable CreateATMTP of COCO. D-NBAP VCLtp effective administrative state D-NBAP VCLtp effective administrative state DNBAPTPAdmState COCO 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 124 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 0.353207 ...WCDMA RAN Parameters DNBAPPCR01Ing (D-NBAP VCLtp PCR ingress) Table 113. 1 (Shutting down). 2 (Unlocked) • • • Locked: internal_value = 0 Shutting down: internal_value = 1 Unlocked: internal_value = 2 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable DNBAPTP of COCO • - RNC to EM DNBAPVCI (Virtual channel identifier for D-NBAP) Table 115. 1. The state inherited from the higher level object. Description: D-NBAP VCLtp effective administrative state (Continued) The effective administrative state of the termination point.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Not modifiable DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 125 (756) .RAN Parameters Table 114. Virtual channel identifier for D-NBAP Virtual channel identifier for D-NBAP DNBAPVCI COCO 1 Virtual channel identifier for dedicated NBAP identifies a particular virtual channel link for a given virtual path connection (VPC).65535 .. 0 (Locked). . Traffic Termination Point identifier Traffic Termination Point identifier TTPId COCO 1 The identification of the Traffic Termination Point. Virtual channel identifier for D-NBAP (Continued) DNBAPTP of COCO Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - TTPId (Traffic Termination Point identifier) Table 116.6 . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable DNBAPTP of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - 126 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. Each WAM unit in the BTS represents one TTP. 1.WCDMA RAN Parameters Table 115. COCOA2EA of COCO • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 127 (756) . Generate AAL2 user plane link numbers Generate AAL2 user plane link numbers GenerateAAL2Num COCO 1 This parameter defines if the A2EA and AAL2 path id for the AAL2 user plane link are generated by the system. If the parameter is disabled then the A2EA and AAL2 path id values have to be given for the AAL2 user plane links.14 GenerateAAL2Num (Generate AAL2 user plane link numbers) Table 117.RAN Parameters 4. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1 (Yes) Not modifiable AAL2PathId of COCO. 0 (False).4. Virtual Path Link termination point Virtual Path Link termination point VPLTP COCO 1 Virtual Path Link termination point parameters of the COCO object • • • • • COCOVPI VPLTPAdmState VPLTPCDVT01Egr VPLTPPCR01Egr VPLTPTrafficShaping Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Not modifiable - • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - 128 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters 4.15 VPLTP (Virtual Path Link termination point) Table 118.4. 4..15.15. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable VPLTP of COCO • • • • RAC to RNC EM to RNC RAC Application to Planner RAC Application to RAC References: - 4. Virtual Path Identifier Virtual Path Identifier COCOVPI COCO 1 Virtual Path Identifier identifies a group of virtual channel links at a given reference point.1 COCOVPI (Virtual Path Identifier) Table 119.4..RAN Parameters 4.2 VPLTPAdmState (VPLtp effective administrative state) Table 120.255 . VPLtp effective administrative state VPLtp effective administrative state VPLTPAdmState COCO 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 129 (756) . that share the same virtual path connection (VPC). 0. 15.16777215 .WCDMA RAN Parameters Table 120. 2 (Unlocked) • • • Locked: internal_value = 0 Shutting down: internal_value = 1 Unlocked: internal_value = 2 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: References: Not modifiable VPLTP of COCO • - RNC to EM 4.. 0 (Locked)..3 VPLTPCDVT01Egr (VPLtp CDVT egress) Table 121. Description: VPLtp effective administrative state (Continued) The effective administrative state of the termination point. 0.4. VPLtp CDVT egress VPLtp CDVT egress VPLTPCDVT01Egr COCO 1 This parameter identifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the egress direction. 1 (Shutting down). The state inherited from the higher level object. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Not modifiable 130 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 4. 0.4 VPLTPPCR01Egr (VPLtp PCR egress) Table 122.RAN Parameters Table 121. CreateATMTP of COCO. VPLTP of COCO Related parameters: Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to EM 4. VPLtp PCR egress VPLtp PCR egress VPLTPPCR01Egr COCO 1 This parameter identifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the egress direction. VPLtp CDVT egress (Continued) CalculateCDVT of COCO.353207 . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable CreateATMTP of COCO. VPLTP of COCO • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 131 (756) ...15. VPLtp VP level traffic shaping VPLtp VP level traffic shaping VPLTPTrafficShaping COCO 1 This parameter specifies if traffic is shaped on VP level before leaving the system.5 VPLTPTrafficShaping (VPLtp VP level traffic shaping) Table 123.4.WCDMA RAN Parameters 4. VPLTP of COCO none: internal_value = 1 full: internal_value = 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - 132 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .15. 1 (none). 2 (full) • • 1 Not modifiable CreateATMTP of COCO. .100 . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control Not modifiable - • • • • Planner to RAC RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 133 (756) . 1.5.RAN Parameters 4.1 FMCG Parameters FMCGId (FMCG identifier) Table 124. FMCG identifier FMCG identifier FMCGId FMCG Identification 1 This parameter identifies the FMCG (object for intersystem Frequency Measurement Control) uniquely within RNC.5 4.. HHoEcNoTimeHysteresis of FMCS Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 134 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Handover Control On-Line HHoEcNoCancel of FMCS. GSM HO caused by CPICH Ec/No GSM HO caused by CPICH Ec/No GSMcauseCPICHEcNo FMCG HCConfiguration 1 This parameter indicates whether a handover to GSM caused by low measured absolute CPICH Ec/No of the serving cell is enabled.WCDMA RAN Parameters 4. HHoEcNoThreshold of FMCS.2 GSMcauseCPICHEcNo (GSM HO caused by CPICH Ec/No) Table 125. 0 (False). The handover is enabled when the value of the parameter is 'used'.5. HHoEcNoCancelTime of FMCS. RAN Parameters 4. HHoRscpFilterCoefficient of FMCS. HHoRscpThreshold of FMCS. The handover is enabled when the value of the parameter is 'Used'. HHoRscpTimeHysteresis of FMCS Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 135 (756) .5. GSM HO caused by CPICH RSCP GSM HO caused by CPICH RSCP GSMcauseCPICHrscp FMCG HCConfiguration 1 This parameter indicates whether a handover to GSM caused by low measured absolute CPICH RSCP of the serving cell is enabled. HHoRscpCancelTime of FMCS.3 GSMcauseCPICHrscp (GSM HO caused by CPICH RSCP) Table 126. 0 (False). 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Handover Control On-Line HHoRscpCancel of FMCS. HHoMaxAllowedBitrateDL of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 136 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The handover is enabled when the value of the parameter is 'Used'. GSM HO caused by DL DPCH TX Power GSM HO caused by DL DPCH TX Power GSMcauseTxPwrDL FMCG HCConfiguration 1 This parameter indicates whether a handover to GSM caused by high downlink DPCH TX power is enabled. GsmDLTxPwrThrNrtPS of FMCG.5. GsmDLTxPwrThrCS of FMCG.WCDMA RAN Parameters 4. 0 (False). 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Handover Control On-Line GsmDLTxPwrThrAMR of FMCG. GsmDLTxPwrThrRtPS of FMCG.4 GSMcauseTxPwrDL (GSM HO caused by DL DPCH TX Power) Table 127. GSM HO caused by UE TX Power GSM HO caused by UE TX Power GSMcauseTxPwrUL FMCG HCConfiguration 1 This parameter indicates whether a handover to GSM caused by high UE TX power level is enabled. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Handover Control On-Line GsmUETxPwrFilterCoeff of FMCG. 0 (False). GsmUETxPwrThrCS of FMCG. The handover is enabled when the value of the parameter is 'Used'. GsmUETxPwrThrRtPS of FMCG.RAN Parameters 4. GsmUETxPwrTimeHyst of FMCG.5. GsmUETxPwrThrAMR of FMCG.5 GSMcauseTxPwrUL (GSM HO caused by UE TX Power) Table 128. HHoMaxAllowedBitrateUL of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 137 (756) . GsmUETxPwrThrNrtPS of FMCG. DL DPCH TX Power Threshold for AMR DL DPCH TX Power Threshold for AMR GsmDLTxPwrThrAMR FMCG Parameter name: Abbreviated name: Managed object: 138 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 0 (False).6 GSMcauseUplinkQuality (GSM HO caused by UL DCH Quality) Table 129.5.WCDMA RAN Parameters 4. GSM HO caused by UL DCH Quality GSM HO caused by UL DCH Quality GSMcauseUplinkQuality FMCG HCConfiguration 1 This parameter indicates whether a handover to GSM caused by bad uplink DCH quality is enabled. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (No) Handover Control On-Line HHoMaxAllowedBitrateUL of WCEL • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.5. The handover is enabled when the value of the parameter is 'Used'.7 GsmDLTxPwrThrAMR (DL DPCH TX Power Threshold for AMR) Table 130. DL DPCH TX Power Threshold for CS DL DPCH TX Power Threshold for CS GsmDLTxPwrThrCS FMCG HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 139 (756) . the RNC starts inter-RAT (GSM) measurements in compressed mode if the DPCH TX power of a single radio link reaches the threshold.0 dB.. Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -10. The DL DPCH TX power threshold is relative to the allocated maximum transmission power of the DPCH. When the handover to GSM caused by high DL DPCH TX power is enabled..5 dB internal_value = gui_value * 2 -1 dB Handover Control.RAN Parameters Table 130.8 GsmDLTxPwrThrCS (DL DPCH TX Power Threshold for CS) Table 131. Admission Control. Packet Scheduler On-Line GSMcauseTxPwrDL of FMCG Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. DL DPCH TX Power Threshold for AMR (Continued) HCConfiguration 1 This parameter determines the downlink DPCH TX power threshold for a CS voice connection. step 0.5. When the handover to GSM caused by high DL DPCH TX power is enabled.5 dB internal_value = gui_value * 2 -3 dB Packet Scheduler. step 0. Description: DL DPCH TX Power Threshold for CS (Continued) This parameter determines the downlink DPCH TX power threshold for a CS data connection. Handover Control On-Line GSMcauseTxPwrDL of FMCG Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. The DL DPCH TX power threshold is relative to the allocated maximum transmission power of the DPCH.9 GsmDLTxPwrThrNrtPS (DL DPCH TX Power Threshold for NRT PS) Table 132.WCDMA RAN Parameters Table 131. Range and step: Formula for getting internal value: Default value Default value notes Related functions: -10..5. the RNC starts inter-RAT (GSM) measurements in compressed mode if the DPCH TX power of a single radio link reaches the threshold.0 dB. Admission Control. DL DPCH TX Power Threshold for NRT PS DL DPCH TX Power Threshold for NRT PS GsmDLTxPwrThrNrtPS FMCG HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 140 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. 5. step 0. When the handover to GSM caused by high DL DPCH TX power is enabled..0 dB. The DL DPCH TX power threshold is relative to the allocated maximum transmission power of the DPCH.5 dB internal_value = gui_value * 2 Range and step: Formula for getting internal value: Default value Default value notes Related functions: -1 dB Packet Scheduler. Description: DL DPCH TX Power Threshold for NRT PS (Continued) This parameter determines the downlink DPCH TX power threshold for a non-real time PS data connection. DL DPCH TX Power Threshold for RT PS DL DPCH TX Power Threshold for RT PS GsmDLTxPwrThrRtPS FMCG HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 141 (756) .10 GsmDLTxPwrThrRtPS (DL DPCH TX Power Threshold for RT PS) Table 133.. Handover Control On-Line GSMcauseTxPwrDL of FMCG Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Admission Control. the RNC starts inter-RAT (GSM) measurements in compressed mode if the DPCH TX power of a single radio link reaches the threshold. -10.RAN Parameters Table 132. 0 dB. Packet Scheduler On-Line GSMcauseTxPwrDL of FMCG Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. When the handover to GSM caused by high DL DPCH TX power is enabled.11 GsmMaxMeasPeriod (Maximum Measurement Period) Table 134.5 dB internal_value = gui_value * 2 Range and step: Formula for getting internal value: Default value Default value notes Related functions: -3 dB Handover Control. step 0.WCDMA RAN Parameters Table 133. Description: DL DPCH TX Power Threshold for RT PS (Continued) This parameter determines the downlink DPCH TX power threshold for a real time PS data connection..5. Admission Control. the RNC starts inter-RAT (GSM) measurements in compressed mode if the DPCH TX power of a single radio link reaches the threshold. Maximum Measurement Period Maximum Measurement Period GsmMaxMeasPeriod FMCG HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 142 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. The DL DPCH TX power threshold is relative to the allocated maximum transmission power of the DPCH. -10. 120 MeasReport. Description: Maximum Measurement Period (Continued) The maximum number of periodical inter-RAT (GSM) measurement reports determines the maximum allowed duration of the GSM measurement.12 GsmMeasAveWindow (Measurement Averaging Window) Table 135. step 1 MeasReport internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 20 MeasReport Handover Control On-Line GsmMeasRepInterval of FMCG. 1.RAN Parameters Table 134. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 143 (756) . Measurement Averaging Window Measurement Averaging Window GsmMeasAveWindow FMCG HCConfiguration 1 This parameter determines the maximum number of periodical inter-RAT (GSM) measurement reports (maximum size of the sliding averaging window) from which the RNC calculates the averaged GSM RSSI values for the handover decision algorithm.5. it stops the GSM measurement after the UE has sent the predefined number of measurement reports to the RNC.. GsmNcellSearchPeriod of FMCG Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.. If the RNC is not able to execute the handover to GSM. 3 (1 s)... step 1 MeasReport internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 6 MeasReport Handover Control On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.WCDMA RAN Parameters Table 135.32 MeasReport.5 s).5 s: internal_value = 2 1 s: internal_value = 3 2 s: internal_value = 4 3 s: internal_value = 5 4 s: internal_value = 6 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 2 - 144 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .5.13 GsmMeasRepInterval (Measurement Reporting Interval) Table 136. 4 (2 s). 5 (3 s). 6 (4 s) • • • • • 0. Measurement Reporting Interval Measurement Reporting Interval GsmMeasRepInterval FMCG HCConfiguration 1 This parameter determines the measurement reporting interval for periodical inter-RAT (GSM) measurements. 2 (0. Measurement Averaging Window (Continued) 1. . GsmNcellSearchPeriod of FMCG Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.. The range of the parameter is from 1 to 60 seconds.331.14 GsmMinHoInterval (Minimum Interval Between HOs) Table 137. A return handover back to GSM is disabled when the value is 0.60 s.RAN Parameters Table 136. step 1 s internal_value = gui_value 10 s Handover Control On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 145 (756) . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0. RRC Protocol Specification 4.5. Minimum Interval Between HOs Minimum Interval Between HOs GsmMinHoInterval FMCG HCConfiguration 1 This parameter determines the minimum interval between a successful inter-RAT handover from GSM to UTRAN and the following inter-RAT handover attempt back to GSM related to the same RRC connection. Measurement Reporting Interval (Continued) Handover Control On-Line GsmMaxMeasPeriod of FMCG. WCDMA RAN Parameters Table 137. Minimum Measurement Interval Minimum Measurement Interval GsmMinMeasInterval FMCG HCConfiguration 1 This parameter determines the minimum interval between an unsuccessful inter-RAT (GSM) measurement or handover procedure. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0. and the following GSM measurement procedure related to the same RRC connection. The range of the parameter is from 1 to 60 seconds..5. Minimum Interval Between HOs (Continued) - Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. step 1 s internal_value = gui_value 10 s Handover Control On-Line - 146 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..15 GsmMinMeasInterval (Minimum Measurement Interval) Table 138.60 s. Repetitive GSM measurements are disabled when the value is 0. 0. GsmMeasRepInterval of FMCG Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 147 (756) .RAN Parameters Table 138. Minimum Measurement Interval (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. starting from the first report after the measurement setup.16 GsmNcellSearchPeriod (GSM Neighbour Cell Search Period) Table 139. during which a handover to GSM is not possible.. GSM Neighbour Cell Search Period GSM Neighbour Cell Search Period GsmNcellSearchPeriod FMCG HCConfiguration 1 This parameter determines the number of periodical inter-RAT (GSM) measurement reports. step 1 MeasReport internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 MeasReport Handover Control On-Line GsmMaxMeasPeriod of FMCG. This period allows the UE to find and report all potential GSM neighbour cells before the handover decision.20 MeasReport..5. Filtering period approximates 480 ms) • • • • • • • Filtering period approximates 10 ms: internal_value =8 Filtering period approximates 15 ms: internal_value =9 11. Filtering period approximates 30 ms). UE TX Power Filter Coefficient UE TX Power Filter Coefficient GsmUETxPwrFilterCoeff FMCG HCConfiguration 1 In the CELL_DCH state the UE physical layer measurement period for UE TX power measurements is 1 slot. Filtering period approximates 60 ms). 12 (15. The higher layer filtering is described in 3GPP TS 25. Filtering period approximates 120 ms: internal_value = 12 17.331 RRC Protocol Specification. Filtering period approximates 480 ms: internal_value = 14 Formula for getting internal value: Default value Default value notes 8 - 148 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 14 (19. 9 (Filtering period approximates 15 ms).WCDMA RAN Parameters 4. Filtering period approximates 60 ms: internal_value = 11 15. Filtering period approximates 240 ms: internal_value = 13 19. Filtering period approximates 30 ms: internal_value = 10 13.17 GsmUETxPwrFilterCoeff (UE TX Power Filter Coefficient) Table 140. The Filter Coefficient parameter controls the higher layer filtering of physical layer UE TX power measurements before the event evaluation and measurement reporting is performed by the UE. section Filter Coefficient. 13 (17. 11 (13. Filtering period approximates 120 ms). 10 (11. Filtering period approximates 240 ms). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 8 (Filtering period approximates 10 ms).5. 331. If the handover to GSM caused by high UE TX power level is enabled. UE TX Power Threshold for AMR UE TX Power Threshold for AMR GsmUETxPwrThrAMR FMCG HCConfiguration 1 This parameter determines the UE TX power threshold for a CS voice connection.5. UE TX Power Filter Coefficient (Continued) Handover Control On-Line - Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.0 dB. The UE TX power threshold is relative to the maximum TX power level an UE can use on the DPCH in the cell (or the maximum RF output power capability of the UE.18 GsmUETxPwrThrAMR (UE TX Power Threshold for AMR) Table 141. the RNC starts inter-RAT (GSM) measurements in compressed mode when the UE TX power reaches this threshold.. RRC Protocol Specification (section Filter Coefficient) References: • • 4.. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes -1 dB - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 149 (756) . Requirements for Support of Radio Resource Management (FDD) 3GPP Reference: TS 25. -10.133.RAN Parameters Table 140. whichever is lower). Packet Scheduler. whichever is lower). Admission Control On-Line GSMcauseTxPwrUL of FMCG Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. -10. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -3 dB Admission Control. Packet Scheduler.. If the handover to GSM caused by high UE TX power level is enabled.5..19 GsmUETxPwrThrCS (UE TX Power Threshold for CS) Table 142. The UE TX power threshold is relative to the maximum TX power level an UE can use on the DPCH in the cell (or the maximum RF output power capability of the UE. UE TX Power Threshold for CS UE TX Power Threshold for CS GsmUETxPwrThrCS FMCG HCConfiguration 1 This parameter determines the UE TX power threshold for a CS data connection. Handover Control On-Line Modification: 150 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 141. UE TX Power Threshold for AMR (Continued) Handover Control. the RNC starts inter-RAT (GSM) measurements in compressed mode when the UE TX power reaches this threshold.0 dB. Admission Control.20 GsmUETxPwrThrNrtPS (UE TX Power Threshold for NRT PS) Table 143.. UE TX Power Threshold for NRT PS UE TX Power Threshold for NRT PS GsmUETxPwrThrNrtPS FMCG HCConfiguration 1 This parameter determines the UE TX power threshold for a non-real time PS data connection. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -1 dB Packet Scheduler. The UE TX power threshold is relative to the maximum TX power level an UE can use on the DPCH in the cell (or the maximum RF output power capability of the UE.5. whichever is lower).. the RNC starts inter-RAT (GSM) measurements in compressed mode when the UE TX power reaches this threshold. UE TX Power Threshold for CS (Continued) GSMcauseTxPwrUL of FMCG Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.RAN Parameters Table 142. If the handover to GSM caused by high UE TX power level is enabled. Handover Control On-Line GSMcauseTxPwrUL of FMCG Modification: Related parameters: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 151 (756) . -10.0 dB. -10. Handover Control. If the handover to GSM caused by high UE TX power level is enabled.21 GsmUETxPwrThrRtPS (UE TX Power Threshold for RT PS) Table 144. The UE TX power threshold is relative to the maximum TX power level an UE can use on the DPCH in the cell (or the maximum RF output power capability of the UE. UE TX Power Threshold for NRT PS (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.0 dB. the RNC starts inter-RAT (GSM) measurements in compressed mode when the UE TX power reaches this threshold. Packet Scheduler On-Line GSMcauseTxPwrUL of FMCG Modification: Related parameters: 152 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 143.. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -3 dB Admission Control. UE TX Power Threshold for RT PS UE TX Power Threshold for RT PS GsmUETxPwrThrRtPS FMCG HCConfiguration 1 This parameter determines the UE TX power threshold for a real time PS data connection.5. whichever is lower).. 5 (80 ms).5. 11 (320 ms). 4 (60 ms). 9 (200 ms). 13 (1280 ms). 0 (0 ms). 14 (2560 ms). the RNC starts inter-RAT (GSM) measurements in compressed mode when the UE TX power reaches a predefined threshold. 1 (10 ms). UE TX Power Threshold for RT PS (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.22 GsmUETxPwrTimeHyst (UE TX Power Time Hysteresis) Table 145. 3 (40 ms). 7 (120 ms). If the UE TX power goes down again (after the UE TX power threshold has once triggered). 6 (100 ms). 10 (240 ms). UE TX Power Time Hysteresis UE TX Power Time Hysteresis GsmUETxPwrTimeHyst FMCG HCConfiguration 1 If the handover to GSM caused by high UE TX power is enabled. 2 (20 ms). 8 (160 ms). the UE TX Power Time Hysteresis determines the time period during which the UE TX power must stay below the UE TX power threshold before the RNC calls off the GSM measurements caused by the high UE TX power.RAN Parameters Table 144. 15 (5000 ms) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 153 (756) . 12 (640 ms). WCDMA RAN Parameters Table 145. RRC Protocol Specification References: • 154 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .331. UE TX Power Time Hysteresis (Continued) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 1 20 ms: internal_value = 2 40 ms: internal_value = 3 60 ms: internal_value = 4 80 ms: internal_value = 5 100 ms: internal_value = 6 120 ms: internal_value = 7 160 ms: internal_value = 8 200 ms: internal_value = 9 240 ms: internal_value = 10 320 ms: internal_value = 11 640 ms: internal_value = 12 1280 ms: internal_value = 13 2560 ms: internal_value = 14 5000 ms: internal_value = 15 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 13 Handover Control On-Line GSMcauseTxPwrUL of FMCG • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control Not modifiable - • • • • Planner to RAC RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 155 (756) .. FMCI identifier FMCI identifier FMCIId FMCI Identification 1 This parameter identifies the FMCI (object for interfrequency Frequency Measurement Control) uniquely within RNC.1 FMCI Parameters FMCIId (FMCI identifier) Table 146..6 4.6. 1.100 .RAN Parameters 4. 0 (False).2 IFHOcauseCPICHEcNo (IFHO caused by CPICH Ec/No) Table 147. HHoEcNoCancelTime of FMCS.WCDMA RAN Parameters 4. HHoEcNoThreshold of FMCS. HHoEcNoTimeHysteresis of FMCS Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 156 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . IFHO caused by CPICH Ec/No IFHO caused by CPICH Ec/No IFHOcauseCPICHEcNo FMCI HCConfiguration 1 This parameter indicates whether an inter-frequency handover caused by low measured absolute CPICH Ec/No of the serving cell is enabled. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Handover Control On-Line HHoEcNoCancel of FMCS.6. The interfrequency handover is enabled when the value of the parameter is 'Used'. 3 IFHOcauseCPICHrscp (IFHO caused by CPICH RSCP) Table 148. 0 (False). HHoRscpThreshold of FMCS.6. HHoRscpFilterCoefficient of FMCS. HHoRscpCancelTime of FMCS.RAN Parameters 4. The interfrequency handover is enabled when the value of the parameter is 'Used'. HHoRscpTimeHysteresis of FMCS Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 157 (756) . 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Handover Control On-Line HHoRscpCancel of FMCS. IFHO caused by CPICH RSCP IFHO caused by CPICH RSCP IFHOcauseCPICHrscp FMCI HCConfiguration 1 This parameter indicates whether an inter-frequency handover caused by low measured absolute CPICH RSCP of the serving cell is enabled. InterFreqDLTxPwrThrCS of FMCI. IFHO caused by DL DPCH TX Power IFHO caused by DL DPCH TX Power IFHOcauseTxPwrDL FMCI HCConfiguration 1 This parameter indicates whether an inter-frequency handover caused by high downlink DPCH TX power is enabled. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Handover Control On-Line InterFreqDLTxPwrThrAMR of FMCI. HHoMaxAllowedBitrateDL of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 158 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters 4. InterFreqDLTxPwrThrNrtPS of FMCI. InterFreqDLTxPwrThrRtPS of FMCI. 0 (False).4 IFHOcauseTxPwrDL (IFHO caused by DL DPCH TX Power) Table 149. The handover is enabled when the value of the parameter is 'Used'.6. RAN Parameters 4.6.5 IFHOcauseTxPwrUL (IFHO caused by UE TX Power) Table 150. IFHO caused by UE TX Power IFHO caused by UE TX Power IFHOcauseTxPwrUL FMCI HCConfiguration 1 This parameter indicates whether an inter-frequency handover caused by high UE TX power level is enabled. The handover is enabled when the value of the parameter is 'Used'. 0 (False), 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Handover Control On-Line InterFreqUETxPwrFilterCoeff of FMCI, InterFreqUETxPwrThrAMR of FMCI, InterFreqUETxPwrThrCS of FMCI, InterFreqUETxPwrThrNrtPS of FMCI, InterFreqUETxPwrThrRtPS of FMCI, InterFreqUETxPwrTimeHyst of FMCI, HHoMaxAllowedBitrateUL of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 159 (756) WCDMA RAN Parameters 4.6.6 IFHOcauseUplinkQuality (IFHO caused by UL DCH Quality) Table 151. IFHO caused by UL DCH Quality IFHO caused by UL DCH Quality IFHOcauseUplinkQuality FMCI HCConfiguration 1 This parameter indicates whether an inter-frequency handover caused by bad uplink DCH quality is enabled. The handover is enabled when the value of the parameter is 'Used'. 0 (False), 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (No) Handover Control On-Line HHoMaxAllowedBitrateUL of WCEL • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.6.7 InterFreqDLTxPwrThrAMR (DL DPCH TX Power Threshold for AMR ) Table 152. DL DPCH TX Power Threshold for AMR DL DPCH TX Power Threshold for AMR InterFreqDLTxPwrThrAMR FMCI Parameter name: Abbreviated name: Managed object: 160 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 152. DL DPCH TX Power Threshold for AMR (Continued) HCConfiguration 1 This parameter determines the downlink DPCH TX power threshold for a CS voice connection. When the inter-frequency handover caused by high DL DPCH TX power is enabled, the RNC starts inter-frequency measurements in compressed mode if the DPCH TX power of a single radio link reaches the threshold. The DL DPCH TX power threshold is relative to the allocated maximum transmission power of the DPCH. -10...0 dB, step 0.5 dB internal_value = gui_value * 2 Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -1 dB Admission Control, Handover Control, Packet Scheduler On-Line IFHOcauseTxPwrDL of FMCI Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.6.8 InterFreqDLTxPwrThrCS (DL DPCH TX Power Threshold for CS) Table 153. DL DPCH TX Power Threshold for CS DL DPCH TX Power Threshold for CS InterFreqDLTxPwrThrCS FMCI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 161 (756) WCDMA RAN Parameters Table 153. Description: DL DPCH TX Power Threshold for CS (Continued) This parameter determines the downlink DPCH TX power threshold for a CS data connection. When the inter-frequency handover caused by high DL DPCH TX power is enabled, the RNC starts inter-frequency measurements in compressed mode if the DPCH TX power of a single radio link reaches the threshold. The DL DPCH TX power threshold is relative to the allocated maximum transmission power of the DPCH. -10...0 dB, step 0.5 dB internal_value = gui_value * 2 Range and step: Formula for getting internal value: Default value Default value notes Related functions: -3 dB Packet Scheduler, Handover Control, Admission Control On-Line IFHOcauseTxPwrDL of FMCI Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.6.9 InterFreqDLTxPwrThrNrtPS (DL DPCH TX Power Threshold for NRT PS) Table 154. DL DPCH TX Power Threshold for NRT PS DL DPCH TX Power Threshold for NRT PS InterFreqDLTxPwrThrNrtPS FMCI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 162 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 154. Description: DL DPCH TX Power Threshold for NRT PS (Continued) This parameter determines the downlink DPCH TX power threshold for a non-real time PS data connection. When the inter-frequency handover caused by high DL DPCH TX power is enabled, the RNC starts interfrequency measurements in compressed mode if the DPCH TX power of a single radio link reaches the threshold. The DL DPCH TX power threshold is relative to the allocated maximum transmission power of the DPCH. -10...0 dB, step 0.5 dB internal_value = gui_value * 2 Range and step: Formula for getting internal value: Default value Default value notes Related functions: -1 dB Handover Control, Packet Scheduler, Admission Control On-Line IFHOcauseTxPwrDL of FMCI Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.6.10 InterFreqDLTxPwrThrRtPS (DL DPCH TX Power Threshold for RT PS) Table 155. DL DPCH TX Power Threshold for RT PS DL DPCH TX Power Threshold for RT PS InterFreqDLTxPwrThrRtPS FMCI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 163 (756) WCDMA RAN Parameters Table 155. Description: DL DPCH TX Power Threshold for RT PS (Continued) This parameter determines the downlink DPCH TX power threshold for a real time PS data connection. When the inter-frequency handover caused by high DL DPCH TX power is enabled, the RNC starts interfrequency measurements in compressed mode if the DPCH TX power of a single radio link reaches the threshold. The DL DPCH TX power threshold is relative to the allocated maximum transmission power of the DPCH. -10...0 dB, step 0.5 dB internal_value = gui_value * 2 Range and step: Formula for getting internal value: Default value Default value notes Related functions: -3 dB Handover Control, Packet Scheduler, Admission Control On-Line IFHOcauseTxPwrDL of FMCI Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.6.11 InterFreqMaxMeasPeriod (Maximum Measurement Period) Table 156. Maximum Measurement Period Maximum Measurement Period InterFreqMaxMeasPeriod FMCI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 164 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 156. Description: Maximum Measurement Period (Continued) The maximum number of periodical inter-frequency measurement reports determines the maximum allowed duration of the inter-frequency measurement. If the RNC is not able to execute an inter-frequency handover, it shall stop the inter-frequency measurement after the UE has sent the predefined number of measurement reports to the RNC. 1...120 MeasReport, step 1 MeasReport internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 20 MeasReport On-Line InterFreqMeasRepInterval of FMCI, InterFreqNcellSearchPeriod of FMCI Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.6.12 InterFreqMeasAveWindow (Measurement Averaging Window) Table 157. Measurement Averaging Window Measurement Averaging Window InterFreqMeasAveWindow FMCI HCConfiguration 1 This parameter determines the maximum number of periodical inter-frequency measurement reports (maximum size of the sliding averaging window) from where the RNC calculates the averaged CPICH Ec/No and RSCP values for the decision algorithm of the interfrequency handover. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 165 (756) WCDMA RAN Parameters Table 157. Measurement Averaging Window (Continued) 1...32 MeasReport, step 1 MeasReport internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 6 MeasReport On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.6.13 InterFreqMeasRepInterval (Measurement Reporting Interval) Table 158. Measurement Reporting Interval Measurement Reporting Interval InterFreqMeasRepInterval FMCI HCConfiguration 1 This parameter determines the measurement reporting interval for periodical inter-frequency measurements. 2 (0.5 s), 3 (1 s), 4 (2 s), 5 (3 s), 6 (4 s) • • • • • 0.5 s: internal_value = 2 1 s: internal_value = 3 2 s: internal_value = 4 3 s: internal_value = 5 4 s: internal_value = 6 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 2 - 166 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 158. Measurement Reporting Interval (Continued) Handover Control On-Line InterFreqMaxMeasPeriod of FMCI, InterFreqNcellSearchPeriod of FMCI Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331, RRC Protocol Specification 4.6.14 InterFreqMinHoInterval (Minimum Interval Between HOs) Table 159. Minimum Interval Between HOs Minimum Interval Between HOs InterFreqMinHoInterval FMCI HCConfiguration 1 This parameter determines the minimum interval between a successful inter-frequency handover and the following inter-frequency handover attempt related to the same RRC connection. The range of the parameter is from 1 to 60 seconds. Repetitive inter-frequency handovers are disabled when the value is 0. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0...60 s, step 1 s internal_value = gui_value 10 s On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 167 (756) WCDMA RAN Parameters Table 159. Minimum Interval Between HOs (Continued) - Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.6.15 InterFreqMinMeasInterval (Minimum Measurement Interval) Table 160. Minimum Measurement Interval Minimum Measurement Interval InterFreqMinMeasInterval FMCI HCConfiguration 1 This parameter determines the minimum interval between an unsuccessful inter-frequency measurement or handover procedure, and the following interfrequency measurement procedure related to the same RRC connection. The range of the parameter is from 1 to 60 seconds. Repetitive inter-frequency measurements are disabled when the value is 0. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0...60 s, step 1 s internal_value = gui_value 10 s On-Line - 168 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 160. Minimum Measurement Interval (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.6.16 InterFreqNcellSearchPeriod (Neighbour Cell Search Period) Table 161. Neighbour Cell Search Period Neighbour Cell Search Period InterFreqNcellSearchPeriod FMCI HCConfiguration 1 This parameter determines the number of periodical inter-frequency measurement reports, starting from the first report after the measurement setup, during which an inter-frequency handover is not allowed. This period allows the UE to find and report all potential neighbouring cells before the inter-frequency handover decision. 0...20 MeasReport, step 1 MeasReport internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 MeasReport On-Line InterFreqMaxMeasPeriod of FMCI, InterFreqMeasRepInterval of FMCI DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 169 (756) WCDMA RAN Parameters Table 161. Neighbour Cell Search Period (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.6.17 InterFreqUETxPwrFilterCoeff (UE TX Power Filter Coefficient) Table 162. UE TX Power Filter Coefficient UE TX Power Filter Coefficient InterFreqUETxPwrFilterCoeff FMCI HCConfiguration 1 In the CELL_DCH state the UE physical layer measurement period for UE TX power measurements is 1 slot. The Filter Coefficient parameter controls the higher layer filtering of physical layer UE TX power measurements before the event evaluation and measurement reporting is performed by the UE. The higher layer filtering is described in 3GPP TS 25.331 RRC Protocol Specification, section Filter Coefficient. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 8 (Filtering period approximates 10 ms), 9 (Filtering period approximates 15 ms), 10 (11. Filtering period approximates 30 ms), 11 (13. Filtering period approximates 60 ms), 12 (15. Filtering period approximates 120 ms), 13 (17. Filtering period approximates 240 ms), 14 (19. Filtering period approximates 480 ms) 170 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 162. UE TX Power Filter Coefficient (Continued) • • • • • • • Filtering period approximates 10 ms: internal_value =8 Filtering period approximates 15 ms: internal_value =9 11. Filtering period approximates 30 ms: internal_value = 10 13. Filtering period approximates 60 ms: internal_value = 11 15. Filtering period approximates 120 ms: internal_value = 12 17. Filtering period approximates 240 ms: internal_value = 13 19. Filtering period approximates 480 ms: internal_value = 14 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 8 Handover Control On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.133, Requirements for Support of Radio Resource Management (FDD) 3GPP Reference: TS 25.331, RRC Protocol Specification References: • • 4.6.18 InterFreqUETxPwrThrAMR (UE TX Power Threshold for AMR) Table 163. UE TX Power Threshold for AMR UE TX Power Threshold for AMR InterFreqUETxPwrThrAMR FMCI HCConfiguration Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 171 (756) WCDMA RAN Parameters Table 163. Multiplicity: Description: UE TX Power Threshold for AMR (Continued) 1 This parameter determines the UE TX power threshold for a CS voice connection. If the inter-frequency handover caused by high UE TX power level is enabled, the RNC starts inter-frequency measurements in compressed mode when the UE TX power reaches the threshold. The UE TX power threshold is relative to the maximum TX power level an UE can use on the DPCH in the cell (or the maximum RF output power capability of the UE, whichever is lower). -10...0 dB, step 1 dB internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: -1 dB Admission Control, Packet Scheduler, Handover Control On-Line IFHOcauseTxPwrUL of FMCI Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.6.19 InterFreqUETxPwrThrCS (UE TX Power Threshold for CS) Table 164. UE TX Power Threshold for CS UE TX Power Threshold for CS InterFreqUETxPwrThrCS FMCI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 172 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 164. Description: UE TX Power Threshold for CS (Continued) This parameter determines the UE TX power threshold for a CS data connection. If the inter-frequency handover caused by high UE TX power level is enabled, the RNC starts inter-frequency measurements in compressed mode when the UE TX power reaches the threshold. The UE TX power threshold is relative to the maximum TX power level an UE can use on the DPCH in the cell (or the maximum RF output power capability of the UE, whichever is lower). -10...0 dB, step 1 dB internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: -3 dB Packet Scheduler, Handover Control, Admission Control On-Line IFHOcauseTxPwrUL of FMCI Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.6.20 InterFreqUETxPwrThrNrtPS (UE TX Power Threshold for NRT PS) Table 165. UE TX Power Threshold for NRT PS UE TX Power Threshold for NRT PS InterFreqUETxPwrThrNrtPS FMCI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 173 (756) Admission Control On-Line IFHOcauseTxPwrUL of FMCI Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. The UE TX power threshold is relative to the maximum TX power level an UE can use on the DPCH in the cell (or the maximum RF output power capability of the UE.WCDMA RAN Parameters Table 165..6. UE TX Power Threshold for RT PS UE TX Power Threshold for RT PS InterFreqUETxPwrThrRtPS FMCI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 174 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . whichever is lower). Packet Scheduler. Description: UE TX Power Threshold for NRT PS (Continued) This parameter determines the UE TX power threshold for a non-real time PS data connection. -10.21 InterFreqUETxPwrThrRtPS (UE TX Power Threshold for RT PS) Table 166.. the RNC starts inter-frequency measurements in compressed mode when the UE TX power reaches the threshold.0 dB. If the interfrequency handover caused by high UE TX power level is enabled. step 1 dB internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: -1 dB Handover Control. RAN Parameters Table 166. -10. the RNC starts inter-frequency measurements in compressed mode when the UE TX power reaches the threshold.. Packet Scheduler On-Line IFHOcauseTxPwrUL of FMCI Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. UE TX Power Time Hysteresis UE TX Power Time Hysteresis InterFreqUETxPwrTimeHyst FMCI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 175 (756) .. whichever is lower). step 1 dB internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: -3 dB Admission Control.22 InterFreqUETxPwrTimeHyst (UE TX Power Time Hysteresis) Table 167. The UE TX power threshold is relative to the maximum TX power level an UE can use on the DPCH in the cell (or the maximum RF output power capability of the UE. If the interfrequency handover caused by high UE TX power level is enabled.6. Description: UE TX Power Threshold for RT PS (Continued) This parameter determines the UE TX power threshold for a real time PS data connection. Handover Control.0 dB. 7 (120 ms). 5 (80 ms). 2 (20 ms). 14 (2560 ms). 9 (200 ms). 1 (10 ms). 3 (40 ms). 8 (160 ms). 0 (0 ms). 12 (640 ms). Description: UE TX Power Time Hysteresis (Continued) If the inter-frequency handover caused by high UE TX power is enabled. 13 (1280 ms). 4 (60 ms). 15 (5000 ms) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 1 20 ms: internal_value = 2 40 ms: internal_value = 3 60 ms: internal_value = 4 80 ms: internal_value = 5 100 ms: internal_value = 6 120 ms: internal_value = 7 160 ms: internal_value = 8 200 ms: internal_value = 9 240 ms: internal_value = 10 320 ms: internal_value = 11 640 ms: internal_value = 12 1280 ms: internal_value = 13 2560 ms: internal_value = 14 5000 ms: internal_value = 15 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 13 Handover Control On-Line - 176 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . the UE TX Power Time Hysteresis determines the time period during which the UE TX power must stay below the UE TX power threshold before the RNC calls off the inter-frequency measurements caused by high UE TX power. the RNC starts inter-frequency measurements in compressed mode when the UE TX power reaches a predefined threshold. 11 (320 ms). If the UE TX power goes down again (after the UE TX power threshold has once triggered). 10 (240 ms). 6 (100 ms).WCDMA RAN Parameters Table 167. Active Set Weighting Coefficient Active Set Weighting Coefficient ActiveSetWeightingCoefficient FMCS HCConfiguration 1 Active Set Weighting Coefficient (W) is used to weight either the measurement result of the best active set cell (M_best) or the sum of measurement results of all active set cells (M_sum) when the UE calculates the reporting range for the events 1A (cell addition) and 1B (dropping of cell). UE TX Power Time Hysteresis (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.1 internal_value = gui_value * 10 0 Handover Control.1 FMCS Parameters ActiveSetWeightingCoefficient (Active Set Weighting Coefficient) Table 168. RRC Protocol Specification 4. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0.RAN Parameters Table 167.331.2 .. The formula is: W * M_sum + ( 1 . step 0.7.7 4. Mobile Device Control On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 177 (756) .W )* M_best This parameter is part of System Information Block 11/12.. WCDMA RAN Parameters Table 168. Active Set Weighting Coefficient (Continued) AdditionReportingInterval of FMCS. 3 (1 s). 7 (16 s) 178 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . AdditionWindow of FMCS. 6 (8 s). The parameter Addition Reporting Interval determines the interval between periodical measurement reports when such reporting is triggered by the event 1A. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (No periodical reporting). This parameter is part of System Information Block 11/12. 2 (0. DropWindow of FMCS.5 s).2 AdditionReportingInterval (Addition Reporting Interval) Table 169.331. RRC Protocol Specification 4. Addition Reporting Interval Addition Reporting Interval AdditionReportingInterval FMCS HCConfiguration 1 When a monitored cell enters the reporting range and triggers event 1A (cell addition). DropTime of FMCS. MaxActiveSetSize of FMCS Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 1 (0. 4 (2 s). the UE transmits a Measurement Report to the RNC. If the RNC is not able to add the monitored cell to the active set. the UE continues reporting after the initial report by reverting to periodical measurement reporting. AdditionTime of FMCS.25 s.7. 5 (4 s). Not allowed). Addition Reporting Interval (Continued) • • • • • • • • No periodical reporting: internal_value = 0 0.RAN Parameters Table 169. Addition Time Addition Time AdditionTime FMCS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 179 (756) .5 s: internal_value = 2 1 s: internal_value = 3 2 s: internal_value = 4 4 s: internal_value = 5 8 s: internal_value = 6 16 s: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2 Handover Control. Mobile Device Control On-Line ActiveSetWeightingCoefficient of FMCS.25 s.7. MaxActiveSetSize of FMCS Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331. Not allowed: internal_value = 1 0. AdditionTime of FMCS.3 AdditionTime (Addition Time) Table 170. AdditionWindow of FMCS. RRC Protocol Specification 4. 15 (5000 ms) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 1 20 ms: internal_value = 2 40 ms: internal_value = 3 60 ms: internal_value = 4 80 ms: internal_value = 5 100 ms: internal_value = 6 120 ms: internal_value = 7 160 ms: internal_value = 8 200 ms: internal_value = 9 240 ms: internal_value = 10 320 ms: internal_value = 11 640 ms: internal_value = 12 1280 ms: internal_value = 13 2560 ms: internal_value = 14 5000 ms: internal_value = 15 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 6 Mobile Device Control. Handover Control On-Line ActiveSetWeightingCoefficient of FMCS. 4 (60 ms). 11 (320 ms). AdditionWindow of FMCS. This parameter is part of System Information Block 11/12. 9 (200 ms). MaxActiveSetSize of FMCS 180 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Description: Addition Time (Continued) When a monitored cell enters the reporting range (addition window). 8 (160 ms). The length of this period is controlled by the parameter Addition Time. AdditionReportingInterval of FMCS. 1 (10 ms). Range and step: 0 (0 ms). 12 (640 ms). 7 (120 ms). 13 (1280 ms). 2 (20 ms). 3 (40 ms). 14 (2560 ms). 5 (80 ms). 10 (240 ms).WCDMA RAN Parameters Table 170. the cell must continuously stay within the reporting range for a given period of time before the UE can send a Measurement Report to the RNC in order to add the cell into the active set (event 1A). 6 (100 ms). . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 0.5 dB internal_value = gui_value * 2 2.5 dB - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 181 (756) . or to the sum of active set measurement results (M_sum). RRC Protocol Specification 4.7. step 0.331.5 dB.4 AdditionWindow (Addition Window) Table 171.14. Addition Window Addition Window AdditionWindow FMCS HCConfiguration 1 Addition Window determines the relative threshold (A_Win) used by the UE to calculate the reporting range of event 1A.. When the CPICH Ec/No measurement result of a monitored cell (M_new) enters the reporting range.A_Win This parameter is part of System Information Block 11/12.RAN Parameters Table 170. depending on the value of the parameter Active Set Weighting Coefficient (W).W )* M_best . Addition Time (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. the UE transmits a Measurement Report to the RNC in order to add the monitored cell into the active set: M_new >= W * M_sum + ( 1 . The threshold is either relative to the CPICH Ec/No measurement result of the best active set cell (M_best). 15 (5000 ms) 182 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . the cell must continuously stay outside the reporting range for a given period of time before the UE can send a Measurement Report to the RNC in order to remove the cell from the active set (event 1B). 10 (240 ms). 3 (40 ms). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (0 ms). Handover Control On-Line ActiveSetWeightingCoefficient of FMCS.7. 2 (20 ms). AdditionTime of FMCS. 7 (120 ms). 13 (1280 ms). MaxActiveSetSize of FMCS Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 1 (10 ms). AdditionReportingInterval of FMCS. 14 (2560 ms). 4 (60 ms). 12 (640 ms). 5 (80 ms). RRC Protocol Specification 4. Addition Window (Continued) Mobile Device Control.5 DropTime (Drop Time) Table 172. 9 (200 ms). Drop Time Drop Time DropTime FMCS HCConfiguration 1 When an active set cell leaves the reporting range (drop window). This parameter is part of System Information Block 11/12.WCDMA RAN Parameters Table 171. The length of this period is controlled by the parameter Drop Time.331. 6 (100 ms). 8 (160 ms). 11 (320 ms). Mobile Device Control On-Line ActiveSetWeightingCoefficient of FMCS.331. RRC Protocol Specification DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 183 (756) . Drop Time (Continued) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 1 20 ms: internal_value = 2 40 ms: internal_value = 3 60 ms: internal_value = 4 80 ms: internal_value = 5 100 ms: internal_value = 6 120 ms: internal_value = 7 160 ms: internal_value = 8 200 ms: internal_value = 9 240 ms: internal_value = 10 320 ms: internal_value = 11 640 ms: internal_value = 12 1280 ms: internal_value = 13 2560 ms: internal_value = 14 5000 ms: internal_value = 15 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 12 Handover Control. DropWindow of FMCS Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.RAN Parameters Table 172. . step 0.5 dB internal_value = gui_value * 2 4 dB Mobile Device Control.W )* M_best . RRC Protocol Specification 184 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters 4.6 DropWindow (Drop Window ) Table 173.14. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0..5 dB. Handover Control On-Line ActiveSetWeightingCoefficient of FMCS. When the CPICH Ec/No measurement result of an active set cell (M_old) leaves the reporting range. Drop Window Drop Window DropWindow FMCS HCConfiguration 1 Drop Window determines the relative threshold (D_Win) which is used by the UE to calculate the reporting range of event 1B.7.D_Win This parameter is part of System Information Block 11/12.331. DropTime of FMCS Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. depending on the value of the parameter Active Set Weighting Coefficient (W). The threshold is either relative to the CPICH Ec/No measurement result of the best active set cell (M_best) or to the sum of active set measurement results (M_sum). the UE transmits a Measurement Report to the RNC in order to remove the cell from the active set: M_old <= W * M_sum + ( 1 . This parameter is part of System Information Block 11/12.331 RRC Protocol Specification. 4 (Filtering period approximates 800 ms). CPICH Ec/No Filter Coefficient CPICH Ec/No Filter Coefficient EcNoFilterCoefficient FMCS HCConfiguration 1 In the CELL_DCH state the UE physical layer measurement period for intra frequency CPICH Ec/No measurements is 200 ms. The Filter Coefficient parameter controls the higher layer filtering of physical layer CPICH Ec/No measurements before the event evaluation and measurement reporting is performed by the UE. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (Filtering period of 200 ms ). 1 (Filtering period approximates 300 ms).7 EcNoFilterCoefficient (CPICH Ec/No Filter Coefficient) Table 174. 6 (Filtering period approximates 1600 ms) • • • • • • • Filtering period of 200 ms : internal_value = 0 Filtering period approximates 300 ms: internal_value = 1 Filtering period approximates 400 ms: internal_value = 2 Filtering period approximates 600 ms: internal_value = 3 Filtering period approximates 800 ms: internal_value = 4 Filtering period approximates 1100 ms: internal_value = 5 Filtering period approximates 1600 ms: internal_value = 6 Formula for getting internal value: Default value Default value notes 3 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 185 (756) .RAN Parameters 4. The higher layer filtering is described in 3GPP TS 25.7. 2 (Filtering period approximates 400 ms). 3 (Filtering period approximates 600 ms). 5 (Filtering period approximates 1100 ms). 8 FMCSId (FMCS identifier) Table 175..100 .7.. RRC Protocol Specification (Intra-frequency measurement quantity) References: • 4.331.WCDMA RAN Parameters Table 174. 1. Mobile Device Control On-Line - Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. CPICH Ec/No Filter Coefficient (Continued) Handover Control. FMCS identifier FMCS identifier FMCSId FMCS Identification 1 This parameter identifies the FMCS (object for intrafrequency Frequency Measurement Control) uniquely within RNC. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control Not modifiable - 186 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 9 HHoEcNoCancel (CPICH Ec/No HHO Cancellation) Table 176. CPICH Ec/No HHO Cancellation CPICH Ec/No HHO Cancellation HHoEcNoCancel FMCS HCConfiguration 1 If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH Ec/No is enabled.0 dB. even if one or more active set cells trigger the reporting event 1E for CPICH Ec/No. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value -24. FMCS identifier (Continued) Parameter relationships: Interfaces: • • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC RAC to EM 4. step 1 dB internal_value = gui_value -20 dB DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 187 (756) .RAN Parameters Table 175. the RNC does not break off the ongoing measurement. the RNC starts the inter-frequency or GSM measurement in compressed mode when all active set cells have triggered the reporting event 1F for CPICH Ec/No.. Note that once the RNC has started the inter-frequency or inter-RAT (GSM) measurement for the purpose of hard handover due to low measured absolute CPICH Ec/No.7. The RNC cancels the event 1F of an active set cell if the CPICH Ec/No measurement result of the active set cell becomes better than or equal to the threshold HHoEcNoCancel and the UE transmits the corresponding event 1E triggered Measurement Report to the RNC.. IFHOcauseCPICHEcNo of FMCI.WCDMA RAN Parameters Table 176.7. RRC Protocol Specification 4.10 HHoEcNoCancelTime (CPICH Ec/No HHO Cancellation Time) Table 177. CPICH Ec/No HHO Cancellation (Continued) Handover Control On-Line GSMcauseCPICHEcNo of FMCG. CPICH Ec/No HHO Cancellation Time CPICH Ec/No HHO Cancellation Time HHoEcNoCancelTime FMCS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 188 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . HHoEcNoCancelTime of FMCS.331. HHoEcNoThreshold of FMCS Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. the RNC starts the inter-frequency or GSM measurement in compressed mode when all active set cells have triggered the reporting event 1F for CPICH Ec/No. The RNC cancels the event 1F of an active set cell if the CPICH Ec/No measurement result of the active set cell becomes better than or equal to the threshold HHoEcNoCancel and the UE transmits the corresponding event 1E triggered Measurement Report to the RNC. 15 (5000 ms) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 1 20 ms: internal_value = 2 40 ms: internal_value = 3 60 ms: internal_value = 4 80 ms: internal_value = 5 100 ms: internal_value = 6 120 ms: internal_value = 7 160 ms: internal_value = 8 200 ms: internal_value = 9 240 ms: internal_value = 10 320 ms: internal_value = 11 640 ms: internal_value = 12 1280 ms: internal_value = 13 2560 ms: internal_value = 14 5000 ms: internal_value = 15 Formula for getting internal value: Default value 13 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 189 (756) . Range and step: 0 (0 ms). 9 (200 ms). 13 (1280 ms). The parameter HHoEcNoCancelTime determines the time period during which the CPICH Ec/No of the active set cell must stay better than the threshold HHoEcNoCancel before the UE can trigger the reporting event 1E. 8 (160 ms). 12 (640 ms).RAN Parameters Table 177. even if one or more active set cells trigger the reporting event 1E for CPICH Ec/No. Description: CPICH Ec/No HHO Cancellation Time (Continued) If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH Ec/No is enabled. 14 (2560 ms). Note that once the RNC has started the inter-frequency or inter-RAT (GSM) measurement for the purpose of hard handover due to low measured absolute CPICH Ec/No. 11 (320 ms). 6 (100 ms). 10 (240 ms). 1 (10 ms). the RNC does not break off the ongoing measurement. 4 (60 ms). 7 (120 ms). 2 (20 ms). 5 (80 ms). 3 (40 ms). When the measured CPICH Ec/No of all active set cells has become worse than or equal to the threshold in question. RRC Protocol Specification 4. the RNC starts inter-frequency or inter-RAT (GSM) measurements in compressed mode for the purpose of hard handover. The parameter HHoEcNoThreshold determines the absolute CPICH Ec/No threshold which is used by the UE to trigger the reporting event 1F. CPICH Ec/No HHO Threshold CPICH Ec/No HHO Threshold HHoEcNoThreshold FMCS HCConfiguration 1 If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH Ec/No is enabled. IFHOcauseCPICHEcNo of FMCI. HHoEcNoCancel of FMCS Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. the UE transmits an event 1F triggered measurement report to the RNC when the CPICH Ec/No measurement result of an active set cell becomes worse than or equal to an absolute CPICH Ec/No threshold. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: 190 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .11 HHoEcNoThreshold (CPICH Ec/No HHO Threshold) Table 178. CPICH Ec/No HHO Cancellation Time (Continued) Handover Control On-Line GSMcauseCPICHEcNo of FMCG.331.WCDMA RAN Parameters Table 177.7. .0 dB. CPICH Ec/No HHO Time Hysteresis CPICH Ec/No HHO Time Hysteresis HHoEcNoTimeHysteresis FMCS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 191 (756) . step 1 dB internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -22 dB Handover Control On-Line GSMcauseCPICHEcNo of FMCG.331.RAN Parameters Table 178. IFHOcauseCPICHEcNo of FMCI.12 HHoEcNoTimeHysteresis (CPICH Ec/No HHO Time Hysteresis) Table 179. HHoEcNoCancel of FMCS..7. HHoEcNoTimeHysteresis of FMCS Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. CPICH Ec/No HHO Threshold (Continued) -24. RRC Protocol Specification 4. 12 (640 ms). the UE transmits an event 1F triggered measurement report to the RNC when the CPICH Ec/No measurement result of an active set cell becomes worse than the threshold HHoEcNoThreshold. 13 (1280 ms). 15 (5000 ms) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 1 20 ms: internal_value = 2 40 ms: internal_value = 3 60 ms: internal_value = 4 80 ms: internal_value = 5 100 ms: internal_value = 6 120 ms: internal_value = 7 160 ms: internal_value = 8 200 ms: internal_value = 9 240 ms: internal_value = 10 320 ms: internal_value = 11 640 ms: internal_value = 12 1280 ms: internal_value = 13 2560 ms: internal_value = 14 5000 ms: internal_value = 15 Formula for getting internal value: Default value Default value notes Related functions: Modification: 12 Handover Control On-Line 192 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 6 (100 ms). 5 (80 ms).WCDMA RAN Parameters Table 179. 14 (2560 ms). 2 (20 ms). 3 (40 ms). The parameter HHoEcNoTimeHysteresis determines the time period during which the CPICH Ec/No of the active set cell must stay worse than the threshold HHoEcNoThreshold before the UE can trigger the reporting event 1F. Description: CPICH Ec/No HHO Time Hysteresis (Continued) If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH Ec/No is enabled. 9 (200 ms). 10 (240 ms). 1 (10 ms). 4 (60 ms). When the measured CPICH Ec/No of all active set cells has become worse than the threshold in question. 11 (320 ms). 7 (120 ms). 8 (160 ms). Range and step: 0 (0 ms). the RNC starts inter-frequency or inter-RAT (GSM) measurements in compressed mode for the purpose of hard handover. The RNC cancels the event 1F of an active set cell.. IFHOcauseCPICHEcNo of FMCI.13 HHoRscpCancel (CPICH RSCP HHO Cancellation) Table 180. the RNC does not break off the ongoing measurement. that once the RNC has started the interfrequency or inter-RAT (GSM) measurement for the purpose of hard handover due to low measured absolute CPICH RSCP. if the CPICH RSCP measurement result of the active set cell becomes better than or equal to the threshold HHoRscpCancel and the UE transmits the corresponding event 1E triggered measurement report to the RNC. HHoEcNoThreshold of FMCS Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Note..7. CPICH Ec/No HHO Time Hysteresis (Continued) GSMcauseCPICHEcNo of FMCG.-25 dBm. step 1 dBm DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 193 (756) . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: -115. CPICH RSCP HHO Cancellation CPICH RSCP HHO Cancellation HHoRscpCancel FMCS HCConfiguration 1 If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH RSCP is enabled.331. RRC Protocol Specification 4. even if one or more active set cells trigger the reporting event 1E for CPICH RSCP.RAN Parameters Table 179. the RNC starts the inter-frequency or GSM measurement in compressed mode when all active set cells have triggered the reporting event 1F for CPICH RSCP. IFHOcauseCPICHrscp of FMCI.14 HHoRscpCancelTime (CPICH RSCP HHO Cancellation Time) Table 181.331. HHoRscpThreshold of FMCS Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. CPICH RSCP HHO Cancellation (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -100 dBm Handover Control On-Line GSMcauseCPICHrscp of FMCG. HHoRscpCancelTime of FMCS.WCDMA RAN Parameters Table 180.7. RRC Protocol Specification 4. CPICH RSCP HHO Cancellation Time CPICH RSCP HHO Cancellation Time HHoRscpCancelTime FMCS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 194 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . even if one or more active set cells trigger the reporting event 1E for CPICH RSCP. 15 (5000 ms) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 1 20 ms: internal_value = 2 40 ms: internal_value = 3 60 ms: internal_value = 4 80 ms: internal_value = 5 100 ms: internal_value = 6 120 ms: internal_value = 7 160 ms: internal_value = 8 200 ms: internal_value = 9 240 ms: internal_value = 10 320 ms: internal_value = 11 640 ms: internal_value = 12 1280 ms: internal_value = 13 2560 ms: internal_value = 14 5000 ms: internal_value = 15 Formula for getting internal value: Default value 13 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 195 (756) . the RNC does not break off the ongoing measurement. Range and step: 0 (0 ms). 11 (320 ms). 9 (200 ms). 13 (1280 ms). 1 (10 ms). 10 (240 ms). 14 (2560 ms). The RNC cancels the event 1F of an active set cell. The parameter HHoRscpCancelTime determines the time period during which the CPICH RSCP of the active set cell must stay better than the threshold HHoRscpCancel before the UE can trigger the reporting event 1E. if the CPICH RSCP measurement result of the active set cell becomes better than or equal to the threshold HHoRscpCancel and the UE transmits the corresponding event 1E triggered measurement report to the RNC. 7 (120 ms). 6 (100 ms). 8 (160 ms). Description: CPICH RSCP HHO Cancellation Time (Continued) If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH RSCP is enabled. the RNC starts the inter-frequency or GSM measurement in compressed mode when all active set cells have triggered the reporting event 1F for CPICH RSCP. 4 (60 ms). that once the RNC has started the interfrequency or inter-RAT (GSM) measurement for the purpose of hard handover due to low measured absolute CPICH RSCP. 2 (20 ms). 12 (640 ms). Note. 3 (40 ms).RAN Parameters Table 181. 5 (80 ms). section Filter Coefficient. IFHOcauseCPICHrscp of FMCI.331 RRC Protocol Specification. CPICH RSCP HHO Cancellation Time (Continued) Handover Control On-Line GSMcauseCPICHrscp of FMCG.331. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: 196 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .7. The CPICH RSCP measurement reports can be used to trigger off inter-frequency or inter-RAT (GSM) measurements for the purpose of hard handover. The higher layer filtering is described in 3GPP TS 25.WCDMA RAN Parameters Table 181.15 HHoRscpFilterCoefficient (CPICH RSCP HHO Filter Coefficient) Table 182. RRC Protocol Specification 4. HHoRscpCancel of FMCS Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. The Filter Coefficient parameter controls the higher layer filtering of physical layer CPICH RSCP measurements before the event evaluation and measurement reporting is performed by the UE. CPICH RSCP HHO Filter Coefficient CPICH RSCP HHO Filter Coefficient HHoRscpFilterCoefficient FMCS HCConfiguration 1 In the CELL_DCH state the UE physical layer measurement period for intra-frequency CPICH RSCP measurements is 200 ms. 6 (Filtering period approximates 1600 ms) • • • • • • • Filtering period of 200 ms: internal_value = 0 Filtering period approximates 300 ms: internal_value = 1 Filtering period approximates 400 ms: internal_value = 2 Filtering period approximates 600 ms: internal_value = 3 Filtering period approximates 800 ms: internal_value = 4 Filtering period approximates 1100 ms: internal_value = 5 Filtering period approximates 1600 ms: internal_value = 6 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.RAN Parameters Table 182.331. RRC Protocol Specification References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 197 (756) . CPICH RSCP HHO Filter Coefficient (Continued) 0 (Filtering period of 200 ms). 4 (Filtering period approximates 800 ms). 3 (Filtering period approximates 600 ms). 5 (Filtering period approximates 1100 ms). 1 (Filtering period approximates 300 ms). 2 (Filtering period approximates 400 ms). IFHOcauseCPICHrscp of FMCI. the UE transmits an event 1F triggered measurement report to the RNC when the CPICH RSCP measurement result of an active set cell becomes worse than or equal to an absolute CPICH RSCP threshold.7. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -115. HHoRscpTimeHysteresis of FMCS 198 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ... The parameter HHoRscpThreshold determines the absolute CPICH RSCP threshold which is used by the UE to trigger the reporting event 1F.WCDMA RAN Parameters 4. HHoRscpCancel of FMCS.-25 dBm.16 HHoRscpThreshold (CPICH RSCP HHO Threshold) Table 183. the RNC starts inter-frequency or inter-RAT (GSM) measurements in compressed mode for the purpose of hard handover. step 1 dBm internal_value = gui_value -105 dBm Handover Control On-Line GSMcauseCPICHrscp of FMCG. When the measured CPICH RSCP of all active set cells has become worse than or equal to the threshold in question. CPICH RSCP HHO Threshold CPICH RSCP HHO Threshold HHoRscpThreshold FMCS HCConfiguration 1 If the inter-frequency or inter-RAT (GSM) handover caused by low measured CPICH RSCP is enabled. 11 (320 ms). 7 (120 ms). 1 (10 ms).17 HHoRscpTimeHysteresis (CPICH RSCP HHO Time Hysteresis) Table 184. The parameter HHoRscpTimeHysteresis determines the time period during which the CPICH RSCP of the active set cell must stay worse than the threshold HHoRscpThreshold before the UE can trigger the reporting event 1F.RAN Parameters Table 183. 12 (640 ms).331. 2 (20 ms). the UE transmits an event 1F triggered measurement report to the RNC when the CPICH RSCP measurement result of an active set cell becomes worse than the threshold HHoRscpThreshold. 4 (60 ms). 14 (2560 ms). 13 (1280 ms). 8 (160 ms). 6 (100 ms).7. RRC Protocol Specification 4. 3 (40 ms). the RNC starts inter-frequency or inter-RAT (GSM) measurements in compressed mode for the purpose of hard handover. 9 (200 ms). CPICH RSCP HHO Threshold (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 5 (80 ms). 10 (240 ms). CPICH RSCP HHO Time Hysteresis CPICH RSCP HHO Time Hysteresis HHoRscpTimeHysteresis FMCS HCConfiguration 1 If the inter-frequency or inter-RAT (GSM) handover caused by low measured CPICH RSCP is enabled. 15 (5000 ms) DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 199 (756) . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (0 ms). When the measured CPICH RSCP of all active set cells has become worse than the threshold in question. HHoRscpThreshold of FMCS Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.WCDMA RAN Parameters Table 184. RRC Protocol Specification 200 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . CPICH RSCP HHO Time Hysteresis (Continued) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 1 20 ms: internal_value = 2 40 ms: internal_value = 3 60 ms: internal_value = 4 80 ms: internal_value = 5 100 ms: internal_value = 6 120 ms: internal_value = 7 160 ms: internal_value = 8 200 ms: internal_value = 9 240 ms: internal_value = 10 320 ms: internal_value = 11 640 ms: internal_value = 12 1280 ms: internal_value = 13 2560 ms: internal_value = 14 5000 ms: internal_value = 15 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 12 Handover Control On-Line GSMcauseCPICHrscp of FMCG.331. IFHOcauseCPICHrscp of FMCI. 7. ReplacementTime of FMCS.18 MaxActiveSetSize (Maximum Active Set Size) Table 185. ReplacementReportingInterval of FMCS.3 . step 1 internal_value = gui_value 3 Handover Control. ReplacementWindow of FMCS DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 201 (756) . Maximum Active Set Size Maximum Active Set Size MaxActiveSetSize FMCS HCConfiguration 1 This parameter determines the maximum number of cells which can participate in a soft/softer handover. The RNC calculates the deactivation threshold from the parameter MaxActiveSetSize: Reporting Deactivation Threshold = MaxActiveSetSize 1 Reporting Deactivation Threshold parameter is part of System Information Block 11/12. AdditionReportingInterval of FMCS. Replacement Activation Threshold parameter is part of System Information Block 11/12.RAN Parameters 4. AdditionTime of FMCS. Reporting deactivation threshold indicates the maximum number of cells allowed in the active set in order for the event 1A to trigger.. The threshold equals to the maximum size of the active set which is controlled with the parameter MaxActiveSetSize. Mobile Device Control On-Line ActiveSetWeightingCoefficient of FMCS. Replacement activation threshold information element indicates the minimum number of cells allowed in the active set in order for the event 1C to trigger.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2. AdditionWindow of FMCS. The parameter Replacement Reporting Interval determines the interval of periodical measurement reports when such reporting is triggered by the event 1C.331. the UE transmits a Measurement Report to the RNC in order to replace the active cell with the monitored cell (event 1C). 2 (0. 6 (8 s). 7 (16 s) 202 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 5 (4 s). the UE continues reporting after the initial report by reverting to periodical measurement reporting. 4 (2 s). RRC Protocol Specification 4.5 s). Replacement Reporting Interval Replacement Reporting Interval ReplacementReportingInterval FMCS HCConfiguration 1 When the number of cells in the active set has reached the maximum. If the RNC is not able to replace the active cell with the monitored cell. and a monitored cell becomes better than an active set cell. 3 (1 s). Not allowed). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (No periodical reporting). 1 (0.19 ReplacementReportingInterval (Replacement Reporting Interval) Table 186.25 s. Maximum Active Set Size (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. This parameter is part of System Information Block 11/12.WCDMA RAN Parameters Table 185.7. Not allowed: internal_value = 1 0.RAN Parameters Table 186.25 s. RRC Protocol Specification 4.20 ReplacementTime (Replacement Time) Table 187.5 s: internal_value = 2 1 s: internal_value = 3 2 s: internal_value = 4 4 s: internal_value = 5 8 s: internal_value = 6 16 s: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2 Handover Control. Replacement Reporting Interval (Continued) • • • • • • • • No periodical reporting: internal_value = 0 0. ReplacementWindow of FMCS Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.7. ReplacementTime of FMCS.331. Replacement Time Replacement Time ReplacementTime FMCS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 203 (756) . Mobile Device Control On-Line MaxActiveSetSize of FMCS. ReplacementReportingInterval of FMCS. Mobile Device Control On-Line MaxActiveSetSize of FMCS. The length of this period is controlled by the parameter Replacement Time. 15 (5000 ms) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 1 20 ms: internal_value = 2 40 ms: internal_value = 3 60 ms: internal_value = 4 80 ms: internal_value = 5 100 ms: internal_value = 6 120 ms: internal_value = 7 160 ms: internal_value = 8 200 ms: internal_value = 9 240 ms: internal_value = 10 320 ms: internal_value = 11 640 ms: internal_value = 12 1280 ms: internal_value = 13 2560 ms: internal_value = 14 5000 ms: internal_value = 15 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 6 Handover Control. ReplacementWindow of FMCS 204 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Description: Replacement Time (Continued) When the number of cells in the active set has reached the maximum. 11 (320 ms). 7 (120 ms). 4 (60 ms).WCDMA RAN Parameters Table 187. 6 (100 ms). 9 (200 ms). 2 (20 ms). Range and step: 0 (0 ms). 1 (10 ms). the monitored cell must continuously stay within the reporting range for a given period of time before the UE can send a Measurement Report to the RNC in order to replace an active set cell with the monitored cell (event 1C). 12 (640 ms). 14 (2560 ms). 3 (40 ms). 13 (1280 ms). and a monitored cell enters the reporting range (replacement window). 5 (80 ms). This parameter is part of System Information Block 11/12. 8 (160 ms). 10 (240 ms). 5 dB. RRC Protocol Specification 4..7.331. Replacement Time (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. The parameter Replacement Window determines the margin by which the CPICH Ec/No measurement result of the monitored cell (MNew) must exceed the CPICH Ec/No measurement result of the an active set cell (MInAS) before the UE can send the event 1C triggered Measurement Report to the RNC: MNew >= MInAs + ReplacementWindow / 2 This parameter is part of System Information Block 11/12. Replacement Window Replacement Window ReplacementWindow FMCS HCConfiguration 1 When the number of cells in the active set has reached the maximum specified by the parameter MaxActiveSetSize and a monitored cell becomes better than an active set cell.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 0.7. step 0.21 ReplacementWindow (Replacement Window) Table 188.5 dB internal_value = gui_value * 2 2 dB - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 205 (756) .RAN Parameters Table 187. the UE transmits a Measurement Report to the RNC in order to replace the active cell with the monitored cell (event 1C). 1 HOPG Parameters AdjgHCSpriority (Cell Re-selection HCS Priority) Table 189.7 .WCDMA RAN Parameters Table 188. Cell Re-selection HCS Priority Cell Re-selection HCS Priority AdjgHCSpriority HOPG HCConfiguration 1 Defines the priority level of the GSM neighbour cell in the hierarchical cell re-selection procedure. Lower HCS priority values are meant for larger macro cells and higher HCS priority values are meant for smaller pico/micro cells.8 4.. ReplacementReportingInterval of FMCS. Handover Control On-Line MaxActiveSetSize of FMCS. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 0 - 206 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Replacement Window (Continued) Mobile Device Control. ReplacementTime of FMCS Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. RRC Protocol Specification 4.331.. 0 indicates the lowest HCS priority and 7 indicates the highest HCS priority.8. 0. 304.331. RRC Protocol Specification References: • • 4.8. -110.-37 dBm.RAN Parameters Table 189... step 1 dBm internal_value = (gui_value + 110) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -110 dBm Mobile Device Control On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 207 (756) . Cell Re-selection HCS Priority (Continued) Mobile Device Control On-Line - Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.2 AdjgHCSthreshold (Cell Re-selection HCS Threshold) Table 190. Cell Re-selection HCS Threshold Cell Re-selection HCS Threshold AdjgHCSthreshold HOPG HCConfiguration 1 Defines the threshold which must be exceeded by the RSSI measurement result of the GSM neighbour cell before the hierarchical cell re-selection becomes possible. 0. Radio Subsystem Link Control 3GPP Reference: TS 25..60 s.WCDMA RAN Parameters Table 190. step 10 s internal_value = gui_value/10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0s Mobile Device Control On-Line - 208 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. RRC Protocol Specification 3GPP Reference: TS 25. Requirements for Support of Radio Resource Management (FDD) GSM reference: TS 05.3 AdjgPenaltyTime (Cell Re-selection Penalty Time) Table 191.133.8.331. Cell Re-selection HCS Threshold (Continued) Parameter relationships: Interfaces: • • • • References: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4. Cell Re-selection Penalty Time Cell Re-selection Penalty Time AdjgPenaltyTime HOPG HCConfiguration 1 Determines the time period during which the Temporary Offset 1 is applied in the cell re-selection procedure for the GSM neighbour cell in question.08.304. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0.304. step 1 internal_value = gui_value 0 Handover Control On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 209 (756) ..8. RRC Protocol Specification • 4.331. The priority level of a GSM neighbour cell is controlled by the parameter GSMncellPriorityCoverage. The range of the parameter varies from zero to 7.4 AdjgPriorityCoverage (Ncell Priority for Coverage HO) Table 192. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.7 . the RNC ranks the potential target cells according to priority levels and selects the highest ranked GSM neighbour cell to be the target cell. Ncell Priority for Coverage HO Ncell Priority for Coverage HO AdjgPriorityCoverage HOPG HCConfiguration 1 If there are several GSM neighbour cells which meet the required radio link properties for the coverage (or quality) reason handover at the same time.. Zero is the lowest and 7 the highest priority level. Cell Re-selection Penalty Time (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.RAN Parameters Table 191. WCDMA RAN Parameters Table 192.5 AdjgQoffset1 (Cell Re-selection Quality Offset 1 ) Table 193. Cell Re-selection Quality Offset 1 Cell Re-selection Quality Offset 1 AdjgQoffset1 HOPG HCConfiguration 1 This parameter is used in the cell re-selection and ranking between WCDMA and GSM cells. The value of this parameter is subtracted from the measured GSM carrier RSSI of the neighbouring cell before the UE compares the quality measure with the cell reselection/ranking criteria. -50.. Ncell Priority for Coverage HO (Continued) - Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.50 dB.. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 dB Mobile Device Control On-Line - 210 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .8. 6 AdjgQrxlevMin (Cell Re-selection Minimum RX Level ) Table 194.304.1)/2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -105 dBm Mobile Device Control On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 211 (756) . step 2 dBm internal_value = (gui_value .RAN Parameters Table 193.. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.8.331. Cell Re-selection Minimum RX Level Cell Re-selection Minimum RX Level AdjgQrxlevMin HOPG HCConfiguration 1 Determines the minimum required RSSI level which the measurement result of the GSM neighbour cell must exceed before the cell re-selection becomes possible. RRC Protocol Specification • 4. -115.. Cell Re-selection Quality Offset 1 (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.-25 dBm. Cell Re-selection Minimum RX Level (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.08. RRC Protocol Specification 3GPP Reference: TS 25. Minimum RX Level for Coverage HO Minimum RX Level for Coverage HO AdjgRxLevMinHO HOPG HCConfiguration 1 This parameter determines the minimum required GSM RSSI level which the averaged RSSI value of the GSM neighbour cell must exceed before the coverage (or quality) reason handover to GSM is possible.304.8.331.-47 dBm.7 AdjgRxLevMinHO (Minimum RX Level for Coverage HO) Table 195. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode GSM reference: TS 05. Radio Subsystem Link Control • 4. step 1 dBm internal_value = (gui_value + 110) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -95 dBm Handover Control On-Line - 212 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . -110...WCDMA RAN Parameters Table 194. 15 dB. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (3 dB). 9 dB. If the GSM neighbour cell has a different HCS priority level. 7 (100 dB.8 AdjgTempOffset1 (Cell Re-selection Temporary Offset 1) Table 196.8. The offset is subtracted (during Penalty Time) from the measured RSSI level of the GSM neighbour cell. 6 (21 dB).RAN Parameters Table 195. Infinity) • • • • • • • • 3 dB: internal_value = 0 6 dB: internal_value = 1 9 dB: internal_value = 2 12 dB: internal_value = 3 15 dB: internal_value = 4 18 dB: internal_value = 5 21 dB: internal_value = 6 100 dB. 5 (18 dB). 6 dB. 2 (9 dB). 21 dB and 'Infinity'. 1 (6 dB). The alternative values are the following: 3 dB. 18 dB. Cell Re-selection Temporary Offset 1 Cell Re-selection Temporary Offset 1 AdjgTempOffset1 HOPG HCConfiguration 1 This parameter is used in the cell ranking between GSM and WCDMA cells when the GSM neighbour cell has the same HCS priority level as the serving cell. 3 (12 dB). 12 dB. 4 (15 dB). Infinity: internal_value = 7 Formula for getting internal value: Default value Default value notes 0 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 213 (756) . the offset value is applied for the HCS cell reselection between GSM and WCDMA cells. Minimum RX Level for Coverage HO (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. 100 ..8. RRC Protocol Specification 3GPP Reference: TS 25.WCDMA RAN Parameters Table 196. Cell Re-selection Temporary Offset 1 (Continued) Mobile Device Control On-Line AdjgPenaltyTime of HOPG Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.304.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control Not modifiable - 214 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 4.9 HOPGId (HOPG Identifier) Table 197.331. HOPG Identifier HOPG Identifier HOPGId HOPG Identification 1 This parameter identifies the HOPG (object for intersystem Handover Path) uniquely within RNC. HOPG Identifier (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.RAN Parameters Table 197. step 0. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -24.24 dB.9 4.. CPICH Ec/No Margin for IFHO CPICH Ec/No Margin for IFHO AdjiEcNoMargin HOPI HCConfiguration 1 This parameter determines the margin by which the averaged CPICH Ec/No measurement result of the best inter-frequency neighbour cell must exceed the averaged CPICH Ec/No measurement result of the best active set cell before the quality reason inter-frequency handover is possible.5 dB internal_value = gui_value * 2 3 dB Handover Control On-Line InterFreqMeasAveWindow of FMCI DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 215 (756) ..1 HOPI Parameters AdjiEcNoMargin (CPICH Ec/No Margin for IFHO ) Table 198.9. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 Mobile Device Control On-Line - 216 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. Cell Re-selection HCS Priority Cell Re-selection HCS Priority AdjiHCSpriority HOPI HCConfiguration 1 Defines the priority level of the inter-frequency neighbour cell in the hierarchical cell re-selection procedure..2 AdjiHCSpriority (Cell Re-selection HCS Priority) Table 199. 0. 0 indicates the lowest HCS priority and 7 indicates the highest HCS priority. Lower HCS priority values are meant for larger macro cells and higher HCS priority values are meant for smaller pico/micro cells.7 .9. CPICH Ec/No Margin for IFHO (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.WCDMA RAN Parameters Table 198. 0 dB..9. Cell Re-selection HCS Priority (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331. RRC Protocol Specification 3GPP Reference: TS 25.5 dB internal_value = (gui_value + 24) * 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -24 dB Mobile Device Control On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 217 (756) .. Cell Re-selection HCS Threshold Cell Re-selection HCS Threshold AdjiHCSthreshold HOPI HCConfiguration 1 Defines the threshold level which must be exceeded by the CPICH Ec/No of the inter-frequency neighbour cell before the hierarchical cell re-selection becomes possible. -24.304.RAN Parameters Table 199. step 0. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4.3 AdjiHCSthreshold (Cell Re-selection HCS Threshold) Table 200. Minimum CPICH Ec/No for IFHO Minimum CPICH Ec/No for IFHO AdjiMinEcNo HOPI HCConfiguration 1 This parameter determines the minimum required CPICH Ec/No level which the averaged measurement result of the best inter-frequency neighbour cell must exceed before the coverage reason inter-frequency handover is possible.304..5) * 2 -14 dB Handover Control On-Line InterFreqMeasAveWindow of FMCI 218 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .4 AdjiMinEcNo (Minimum CPICH Ec/No for IFHO ) Table 201.0 dB. Requirements for Support of Radio Resource Management (FDD) • 4. RRC Protocol Specification 3GPP Reference: TS 25.331. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -24. Cell Re-selection HCS Threshold (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25..9.5 dB internal_value = (gui_value + 24. step 0.133.WCDMA RAN Parameters Table 200. 9.5 AdjiMinRSCP (Minimum CPICH RSCP for IFHO ) Table 202.RAN Parameters Table 201.-25 dBm. Minimum CPICH Ec/No for IFHO (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. Minimum CPICH RSCP for IFHO Minimum CPICH RSCP for IFHO AdjiMinRSCP HOPI HCConfiguration 1 This parameter determines the minimum required CPICH RSCP level which the averaged measurement result of the best inter-frequency neighbour cell must exceed before the quality reason inter-frequency handover is possible. step 1 dBm internal_value = (gui_value + 116) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: -95 dBm Handover Control On-Line InterFreqMeasAveWindow of FMCI • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 219 (756) . -115... 0. RRC Protocol Specification 3GPP Reference: TS 25.331. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 220 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Cell Re-selection Penalty Time Cell Re-selection Penalty Time AdjiPenaltyTime HOPI HCConfiguration 1 Defines the time period during which the Temporary Offset 1/2 is applied in the cell re-selection procedure for the inter-frequency neighbour cell. step 10 s internal_value = gui_value/10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0s Mobile Device Control On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.60 s..9.304.6 AdjiPenaltyTime (Cell Re-selection Penalty Time) Table 203..WCDMA RAN Parameters 4. RAN Parameters 4.9. Ncell Priority for Coverage IFHO Ncell Priority for Coverage IFHO AdjiPriorityCoverage HOPI Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 221 (756) . step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 6 dB Handover Control On-Line InterFreqMeasAveWindow of FMCI • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4... -50.7 AdjiPlossMargin (Pathloss Margin for IFHO ) Table 204.100 dB.9.8 AdjiPriorityCoverage (Ncell Priority for Coverage IFHO ) Table 205. Pathloss Margin for IFHO Pathloss Margin for IFHO AdjiPlossMargin HOPI HCConfiguration 1 This parameter determines the margin by which the averaged propagation loss of the best active set cell must exceed the averaged propagation loss of the best inter-frequency neighbour cell before the coverage reason inter-frequency handover is possible. 9 AdjiPriorityQuality (Ncell Priority for Quality IFHO ) Table 206. The range of the parameter varies from zero to 7. Ncell Priority for Coverage IFHO HCConfiguration 1 (Continued) Parameter group: Multiplicity: Description: The inter-frequency measurement procedure measures one frequency at a time.7 .. In case of a coverage reason handover. the measurement order is controlled by the parameter InterFreqNcellPriorityCoverage. If there is more than one carrier frequency to be measured. Zero is the lowest and 7 the highest priority level.WCDMA RAN Parameters Table 205. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. the RNC selects a subset of inter-frequency neighbour cells (having the same UTRA RF channel number) which are measured first. step 1 internal_value = gui_value 0 Handover Control On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Ncell Priority for Quality IFHO Ncell Priority for Quality IFHO AdjiPriorityQuality HOPI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 222 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..9. the measurement order is controlled by the parameter InterFreqNcellPriorityQuality.RAN Parameters Table 206. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. Cell Re-selection Quality Offset 1 Cell Re-selection Quality Offset 1 AdjiQoffset1 HOPI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 223 (756) .10 AdjiQoffset1 (Cell Re-selection Quality Offset 1 ) Table 207. In case of a quality reason handover..9. the RNC selects a subset of inter-frequency neighbour cells (having the same UTRA RF channel number) which are measured first. Zero is the lowest and 7 the highest priority level. The range of the parameter varies from zero to 7.. Description: Ncell Priority for Quality IFHO (Continued) The inter-frequency measurement procedure measures one frequency at a time. step 1 internal_value = gui_value 0 Handover Control On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. If there is more than one carrier frequency to be measured.7 . 11 AdjiQoffset2 (Cell Re-selection Quality Offset 2) Table 208. step 1 dB internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 dB Mobile Device Control On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. RRC Protocol Specification 3GPP Reference: TS 25. -50. Cell Re-selection Quality Offset 2 Cell Re-selection Quality Offset 2 AdjiQoffset2 HOPI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 224 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .304..9. The value of this parameter is subtracted from the measured CPICH RSCP of the inter-frequency neighbour cell before the UE compares the quality measure with the cell reselection/ranking criteria.50 dB.331. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 4.WCDMA RAN Parameters Table 207. Description: Cell Re-selection Quality Offset 1 (Continued) This parameter is used in the cell re-selection and ranking between WCDMA cells.. -50.9.. Description: Cell Re-selection Quality Offset 2 (Continued) This parameter is used in the cell re-selection and ranking between WCDMA cells.12 AdjiQqualMin (Cell Re-selection Minimum Quality ) Table 209.50 dB. The value of this parameter is subtracted from the measured CPICH Ec/No of the inter-frequency neighbour cell before the UE compares the quality measure with the cell reselection/ranking criteria. RRC Protocol Specification References: • • 4.RAN Parameters Table 208.304.. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25. step 1 dB internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 dB Mobile Device Control On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331. Cell Re-selection Minimum Quality Cell Re-selection Minimum Quality AdjiQqualMin HOPI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 225 (756) . -24.WCDMA RAN Parameters Table 209.331.0 dB.9. Cell Re-selection Minimum RX Level Cell Re-selection Minimum RX Level AdjiQrxlevMin HOPI HCConfiguration 1 Determines the minimum required CPICH RSCP level which must be exceeded by the measurement result of the inter-frequency neighbour cell before the cell reselection becomes possible.. Description: Cell Re-selection Minimum Quality (Continued) Determines the minimum required CPICH Ec/No level which must be exceeded by the measurement result of the inter-frequency neighbour cell before the cell reselection becomes possible. RRC Protocol Specification 3GPP Reference: TS 25..13 AdjiQrxlevMin (Cell Re-selection Minimum RX Level ) Table 210.304. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: 226 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . step 1 dB internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: -20 dB Mobile Device Control On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 4. 1)/2 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: -115 dBm Mobile Device Control On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.14 AdjiTempOffset1 (Cell Re-selection Temporary Offset 1) Table 211. Cell Re-selection Minimum RX Level (Continued) -115.. Cell Re-selection Temporary Offset 1 Cell Re-selection Temporary Offset 1 AdjiTempOffset1 HOPI HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 227 (756) .331. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 4.9.-25 dBm. RRC Protocol Specification 3GPP Reference: TS 25.304.. step 2 dBm internal_value = (gui_value .RAN Parameters Table 210. 2 (9 dB). 21 dB and 'Infinity'. 6 dB. the offset value is applied for the HCS cell re-selection between GSM and WCDMA cells. RRC Protocol Specification 3GPP Reference: TS 25.331. 6 (21 dB). 18 dB. 3 (12 dB). Description: Cell Re-selection Temporary Offset 1 (Continued) This parameter is used in the cell ranking between GSM and WCDMA cells when the inter-frequency neighbour cell has the same HCS priority level as the serving cell. 4 (15 dB). 5 (18 dB). Range and step: 0 (3 dB). 1 (6 dB). If the neighbour cell has a different HCS priority level. Infinity: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 Mobile Device Control On-Line AdjiPenaltyTime of HOPI • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. The offset is subtracted (during Penalty Time) from the measured CPICH RSCP of the inter-frequency neighbour cell. 9 dB.WCDMA RAN Parameters Table 211. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 228 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .304. Infinity) • • • • • • • • 3 dB: internal_value = 0 6 dB: internal_value = 1 9 dB: internal_value = 2 12 dB: internal_value = 3 15 dB: internal_value = 4 18 dB: internal_value = 5 21 dB: internal_value = 6 100 dB. 12 dB. 15 dB. The alternative values are the following: 3 dB. 7 (100 dB. 8 dB.9.RAN Parameters 4. Infinity) • • • • • • • • 2 dB: internal_value = 0 3 dB: internal_value = 1 4 dB: internal_value = 2 6 dB: internal_value = 3 8 dB: internal_value = 4 10 dB: internal_value = 5 12 dB: internal_value = 6 100 dB. If the neighbour cell has a different HCS priority level. The alternative values are the following: 2 dB. 7 (100 dB. 10 dB. 4 (8 dB). 1 (3 dB). 4 dB. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (2 dB).15 AdjiTempOffset2 (Cell Re-selection Temporary Offset 2) Table 212. 12 dB and 'Infinity'. 3 dB. the offset value is applied for the HCS cell re-selection between WCDMA cells. Cell Re-selection Temporary Offset 2 Cell Re-selection Temporary Offset 2 AdjiTempOffset2 HOPI HCConfiguration 1 This parameter is used in the cell ranking between WCDMA cells when the inter-frequency neighbour cell has the same HCS priority level as the serving cell. 2 (4 dB). Infinity: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 Mobile Device Control On-Line AdjiPenaltyTime of HOPI DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 229 (756) . The offset is subtracted (during Penalty Time) from the measured CPICH Ec/No of the inter-frequency neighbour cell. 3 (6 dB). 6 dB. 5 (10 dB). 6 (12 dB). RRC Protocol Specification 3GPP Reference: TS 25.9.. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4.16 HOPIId (HOPI Identifier) Table 213. 1. Cell Re-selection Temporary Offset 2 (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. HOPI Identifier HOPI Identifier HOPIId HOPI Identification 1 This parameter identifies the HOPI (object for interfrequency Handover Path) uniquely within RNC.331.100 .WCDMA RAN Parameters Table 212..304. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Handover Control Not modifiable - 230 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Lower HCS priority values are meant for larger macro cells and higher HCS priority values are meant for smaller pico/micro cells.7 . HOPI Identifier (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.RAN Parameters Table 213. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 Mobile Device Control On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 231 (756) . 0 indicates the lowest HCS priority and 7 indicates the highest HCS priority...10.10 4. 0.1 HOPS Parameters AdjsHCSpriority (Cell Re-selection HCS Priority) Table 214. Cell Re-selection HCS Priority Cell Re-selection HCS Priority AdjsHCSpriority HOPS HCConfiguration 1 Defines the priority level of the neighbouring cell in the hierarchical cell re-selection procedure. 10.. -24.5 dB internal_value = (gui_value + 24) * 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -24 dB Mobile Device Control On-Line - 232 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .304.0 dB. Cell Re-selection HCS Priority (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4. step 0.WCDMA RAN Parameters Table 214.2 AdjsHCSthreshold (Cell Re-selection HCS Threshold) Table 215. Cell Re-selection HCS Threshold Cell Re-selection HCS Threshold AdjsHCSthreshold HOPS HCConfiguration 1 Defines the threshold level which must be exceeded by the CPICH Ec/No of the neighbouring cell before the hierarchical cell re-selection becomes possible. RRC Protocol Specification 3GPP Reference: TS 25.. 331.10.. Cell Re-selection Penalty Time Cell Re-selection Penalty Time AdjsPenaltyTime HOPS HCConfiguration 1 Defines the time period during which the Temporary Offset 1/2 is applied in the cell re-selection procedure for the neighbour cell in question. RRC Protocol Specification 3GPP Reference: TS 25. step 10 s internal_value = gui_value/10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0s Mobile Device Control On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 233 (756) . UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25. Requirements for Support of Radio Resource Management (FDD) • 4.RAN Parameters Table 215. Cell Re-selection HCS Threshold (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25..60 s.3 AdjsPenaltyTime (Cell Re-selection Penalty Time) Table 216. 0.304.133. -50. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 dB Mobile Device Control On-Line - 234 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The value of this parameter is subtracted from the measured CPICH RSCP of the neighbour cell before the UE compares the quality measure with the cell re-selection/ranking criteria..50 dB.10.331. Cell Re-selection Quality Offset 1 Cell Re-selection Quality Offset 1 AdjsQoffset1 HOPS HCConfiguration 1 This parameter is used in the cell re-selection and ranking between WCDMA cells.304.4 AdjsQoffset1 (Cell Re-selection Quality Offset 1 ) Table 217.WCDMA RAN Parameters Table 216. RRC Protocol Specification • 4. Cell Re-selection Penalty Time (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25. -50.50 dB.10. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.. RRC Protocol Specification • 4.5 AdjsQoffset2 (Cell Re-selection Quality Offset 2) Table 218.RAN Parameters Table 217.304.331. Cell Re-selection Quality Offset 2 Cell Re-selection Quality Offset 2 AdjsQoffset2 HOPS HCConfiguration 1 This parameter is used in the cell re-selection and ranking between WCDMA cells. Cell Re-selection Quality Offset 1 (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. The value of this parameter is subtracted from the measured CPICH Ec/No of the neighbour cell before the UE compares the quality measure with the cell re-selection/ranking criteria. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 dB Mobile Device Control On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 235 (756) .. -24. Cell Re-selection Quality Offset 2 (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -20 dB Mobile Device Control On-Line - 236 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..0 dB.10.304.WCDMA RAN Parameters Table 218. Cell Re-selection Minimum Quality Cell Re-selection Minimum Quality AdjsQqualMin HOPS HCConfiguration 1 Determines the minimum required CPICH Ec/No level which must be exceeded by the measurement result of the neighbouring cell before the cell re-selection becomes possible. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25. RRC Protocol Specification • 4.6 AdjsQqualMin (Cell Re-selection Minimum Quality ) Table 219.. step 2 dBm internal_value = (gui_value . Cell Re-selection Minimum Quality (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.1)/2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -115 dBm Mobile Device Control On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 237 (756) .331.10. RRC Protocol Specification • 4.RAN Parameters Table 219.304. -115.7 AdjsQrxlevMin (Cell Re-selection Minimum RX Level ) Table 220...-25 dBm. Cell Re-selection Minimum RX Level Cell Re-selection Minimum RX Level AdjsQrxlevMin HOPS HCConfiguration 1 Determines the minimum required CPICH RSCP level which must be exceeded by the measurement result of the neighbouring cell before the cell re-selection becomes possible. 12 dB. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4. Infinity) 238 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .331. The alternative values are the following: 3 dB. 3 (12 dB). 6 dB. 2 (9 dB). Cell Re-selection Temporary Offset 1 Cell Re-selection Temporary Offset 1 AdjsTempOffset1 HOPS HCConfiguration 1 This parameter is used in the cell ranking between GSM and WCDMA cells when the neighbour cell has the same HCS priority level as the serving cell. RRC Protocol Specification 3GPP Reference: TS 25. 15 dB. 21 dB and 'Infinity'. If the neighbour cell has a different HCS priority level. 6 (21 dB). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (3 dB). 4 (15 dB). the offset value is applied for the HCS cell re-selection between GSM and WCDMA cells. 9 dB. 18 dB.8 AdjsTempOffset1 (Cell Re-selection Temporary Offset 1) Table 221.WCDMA RAN Parameters Table 220. 5 (18 dB).304. 7 (100 dB.10. The offset is subtracted (during Penalty Time) from the measured CPICH RSCP of the neighbour cell. Cell Re-selection Minimum RX Level (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 1 (6 dB). RAN Parameters Table 221.9 AdjsTempOffset2 (Cell Re-selection Temporary Offset 2) Table 222. Infinity: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 Mobile Device Control On-Line AdjsPenaltyTime of HOPS • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.304. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 4. RRC Protocol Specification 3GPP Reference: TS 25.10.331. Cell Re-selection Temporary Offset 2 Cell Re-selection Temporary Offset 2 AdjsTempOffset2 HOPS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 239 (756) . Cell Re-selection Temporary Offset 1 (Continued) • • • • • • • • 3 dB: internal_value = 0 6 dB: internal_value = 1 9 dB: internal_value = 2 12 dB: internal_value = 3 15 dB: internal_value = 4 18 dB: internal_value = 5 21 dB: internal_value = 6 100 dB. WCDMA RAN Parameters Table 222. Description: Cell Re-selection Temporary Offset 2 (Continued) This parameter is used in the cell ranking between WCDMA cells when the neighbour cell has the same HCS priority level as the serving cell. If the neighbour cell has a different HCS priority level, the offset value is applied for the HCS cell re-selection between WCDMA cells. The offset is subtracted (during Penalty Time) from the measured CPICH Ec/No of the neighbour cell. The alternative values are the following: 2 dB, 3 dB, 4 dB, 6 dB, 8 dB, 10 dB, 12 dB and 'Infinity'. Range and step: 0 (2 dB), 1 (3 dB), 2 (4 dB), 3 (6 dB), 4 (8 dB), 5 (10 dB), 6 (12 dB), 7 (100 dB. Infinity) • • • • • • • • 2 dB: internal_value = 0 3 dB: internal_value = 1 4 dB: internal_value = 2 6 dB: internal_value = 3 8 dB: internal_value = 4 10 dB: internal_value = 5 12 dB: internal_value = 6 100 dB. Infinity: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 Mobile Device Control On-Line AdjsPenaltyTime of HOPS • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.304, UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.331, RRC Protocol Specification References: • • 240 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters 4.10.10 EcNoAveragingWindow (CPICH Ec/No Averaging Window) Table 223. CPICH Ec/No Averaging Window CPICH Ec/No Averaging Window EcNoAveragingWindow HOPS HCConfiguration 1 This parameter determines the number of event triggered periodic intra-frequency measurement reports from which the RNC calculates the averaged CPICH Ec/No values. 1...32 MeasReport, step 1 MeasReport internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 8 MeasReport Handover Control On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.10.11 EnableInterRNCsho (Enable Inter-RNC Soft Handover) Table 224. Enable Inter-RNC Soft Handover Enable Inter-RNC Soft Handover EnableInterRNCsho HOPS HCConfiguration Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 241 (756) WCDMA RAN Parameters Table 224. Multiplicity: Description: Enable Inter-RNC Soft Handover (Continued) 1 Parameter indicates whether the neighbouring cell can participate in a soft handover, if it is controlled by a RNC other than the local RNC. 0 (False), 1 (True) • • False => 0 True => 1 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1 (Yes) Handover Control On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.10.12 EnableRRCRelease (Enable RRC Connection Release) Table 225. Enable RRC Connection Release Enable RRC Connection Release EnableRRCRelease HOPS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 242 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 225. Description: Enable RRC Connection Release (Continued) When the intra-frequency neighbour cell in question enters the reporting range and triggers either event 1A (cell addition) or event 1C (cell replacement), the UE shall transmit a Measurement Report to the RNC in order to add the neighbouring cell to the active set. If the RNC is not able to add the neighbouring cell to the active set, the parameter Enable RRC Connection Release indicates whether a RRC connection release (excluding emergency calls) is required in order to avoid excessive uplink interference due to non-optimum fast closed loop power control. 0 (False), 1 (True) • • False => 0 True => 1 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (No) Handover Control On-Line ReleaseMarginAverageEcNo of HOPS, ReleaseMarginPeakEcNo of HOPS Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.10.13 HHOMarginAverageEcNo (HHO Margin for Average Ec/No) Table 226. HHO Margin for Average Ec/No HHO Margin for Average Ec/No HHOMarginAverageEcNo HOPS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 243 (756) WCDMA RAN Parameters Table 226. Description: HHO Margin for Average Ec/No (Continued) This parameter determines the maximum allowed difference between the averaged CPICH Ec/No of the neighbouring cell and the averaged CPICH Ec/No of the best active cell in situations when an inter-RNC soft handover is not possible between these cells. If the difference between the averaged CPICH Ec/No values exceeds the value of the parameter, the RNC performs an intra-frequency hard handover in order to avoid excessive uplink interference due to non-optimum fast closed loop power control. -6...6 dB, step 0.1 dB internal_value = gui_value * 10 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1 dB Handover Control On-Line HHOMarginPeakEcNo of HOPS • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.10.14 HHOMarginPeakEcNo (HHO Margin for Peak Ec/No) Table 227. HHO Margin for Peak Ec/No HHO Margin for Peak Ec/No HHOMarginPeakEcNo HOPS HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 244 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 227. Description: HHO Margin for Peak Ec/No (Continued) This parameter determines the maximum allowed difference between the CPICH Ec/No of the neighbour cell and the CPICH Ec/No of the best active cell in situations when an inter-RNC soft handover is not possible between these cells. If the difference in CPICH Ec/No values exceeds the value of the parameter, the RNC performs an intra-frequency hard handover in order to avoid excessive uplink interference due to nonoptimum fast closed loop power control. -6...6 dB, step 0.5 dB internal_value = gui_value * 2 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2 dB Handover Control On-Line HHOMarginAverageEcNo of HOPS • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.10.15 HOPSId (HOPS Identifier) Table 228. HOPS Identifier HOPS Identifier HOPSId HOPS Identification 1 This parameter identifies the HOPS (object for intrafrequency Handover Path) uniquely within RNC. 1...100 , step 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 245 (756) WCDMA RAN Parameters Table 228. HOPS Identifier (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control Not modifiable - • • • • • RAC to RNC EM to RNC RAC Application to RAC Planner to RAC RAC to EM References: - 4.10.16 ReleaseMarginAverageEcNo (Release Margin for Average Ec/No) Table 229. Release Margin for Average Ec/No Release Margin for Average Ec/No ReleaseMarginAverageEcNo HOPS HCConfiguration 1 This parameter determines the maximum allowed difference between the averaged CPICH Ec/No of the neighbouring cell and the averaged CPICH Ec/No of the best active cell in situations when the RNC is not able to perform a soft handover between these cells. If the difference between the averaged CPICH Ec/No values exceeds the value of the parameter, the RNC releases the RRC connection in order to avoid excessive uplink interference due to non-optimum fast closed loop power control. -6...6 dB, step 0.1 dB Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 246 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 229. Release Margin for Average Ec/No (Continued) internal_value = gui_value * 10 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2.5 dB Handover Control On-Line EnableRRCRelease of HOPS, ReleaseMarginPeakEcNo of HOPS Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.10.17 ReleaseMarginPeakEcNo (Release Margin for Peak Ec/No) Table 230. Release Margin for Peak Ec/No Release Margin for Peak Ec/No ReleaseMarginPeakEcNo HOPS HCConfiguration 1 This parameter determines the maximum allowed difference between the CPICH Ec/No of the neighbour cell and the CPICH Ec/No of the best active cell in situations when the RNC is not able to perform a soft handover between these cells. If the difference between CPICH Ec/No values exceeds the value of the parameter, the RNC releases the RRC connection in order to avoid excessive uplink interference due to nonoptimum fast closed loop power control. -6...6 dB, step 0.5 dB internal_value = gui_value * 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 3.5 dB DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 247 (756) WCDMA RAN Parameters Table 230. Release Margin for Peak Ec/No (Continued) Handover Control On-Line EnableRRCRelease of HOPS, ReleaseMarginAverageEcNo of HOPS Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.11 4.11.1 RNC Parameters A2EA (AAL type 2 end point address for Iur) Table 231. AAL type 2 end point address for Iur AAL type 2 end point address for Iur A2EA RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 248 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 231. Description: AAL type 2 end point address for Iur (Continued) This parameter defines the A2EA address of the RNC. It is used in locating the free ATM (AAL2 VCC) resources between the RNCs. The following AFI fields can be used for A2EA address of the RNC: - AFI 49, private numbering plan - AFI 45, E.164 ATM format - AFI 39, DCC ATM format - AFI 47, ICD ATM format The A2EA address should be given in long format including the F separators if applicable. At the adjacent RNC site the short format of the address is used with digit analysis configuration by MML commands. Length of the digit sequence will be 40 in the system. The additional digits are initialized with F digits when the digit sequence is stored into the system. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1...40 characters. internal_value = gui_value On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.11.2 ActivationTimeOffset (Offset for activation time) Table 232. Offset for activation time Offset for activation time ActivationTimeOffset RNC Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 249 (756) WCDMA RAN Parameters Table 232. Offset for activation time (Continued) PSParameters 1 Connection Frame Number (CFN) is used in NBAP and RRC messages, when a radio link is reconfigured. It is used to indicate the activation time of the reconfiguration, and it is set by the PS. The CFN, which is set to the "activation time" field in L3 messages, is (the CFN provided by FP + (ActivationTimeOffset + SignalingDelayOffset)/10) mod 256. ActivationTimeOffset part represent the processing delay of RNC and BTS. The SignalingDelayOffset is RNC internal parameter that implies a required offset based on e.g. the SRB bit rate, the actual procedure and the lenght of a RRC message. 0...2550 ms, step 10 ms internal_value = gui_value Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 300 ms Packet Scheduler On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.11.3 BTSfrozenMaxTimer (Supervision timer to defrost frozen WBTS) Table 233. Supervision timer to defrost frozen WBTS Supervision timer to defrost frozen WBTS BTSfrozenMaxTimer RNC ACConfiguration Parameter name: Abbreviated name: Managed object: Parameter group: 250 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 233. Multiplicity: Description: Supervision timer to defrost frozen WBTS (Continued) 1 This timer ensures that, once frozen, a BTS is not locked to frozen state because a defrost command is missing or arrives too late. Timer defines the maximum time a BTS can be frozen due to one RRC connection or RAB establishment. If the timer is set to 0 s, a BTS cannot be frozen at all, and the RNC does not make any forced releases of NRT DCH or RT RAB due to an emergency call, pre-emption or any RT call. 0...10 s, step 0.1 s internal_value = gui_value * 10 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 3s Admission Control On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.11.4 CMmasterSwitch (Compressed mode master switch) Table 234. Compressed mode master switch Compressed mode master switch CMmasterSwitch RNC PSParameters 1 This parameter defines whether or not compressed mode is used on the system level. 0 (False), 1 (True) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 251 (756) WCDMA RAN Parameters Table 234. Compressed mode master switch (Continued) • • False => 0 True => 1 Formula for getting internal value: Default value Default value notes Related functions: 0 (No) Admission Control, Handover Control, Packet Scheduler On-Line AltScramblingCodeCM of WCEL, MaxNumbUECMcoverHO of WCEL, GapPositionSingleFrame of RNC, HLSModeSelection of RNC, LowerULAMRmodeCM of RNC, MinDLAMRmodeCM of RNC, PowerMarginCMcodeHalving of RNC, TGPLdoubleframeAMRgsm of RNC, TGPLdoubleframeAMRinterFreq of RNC, TGPLdoubleframeNRTPSgsm of RNC, TGPLdoubleframeNRTPSinterFreq of RNC, TGPLsingleframeAMRgsm of RNC, TGPLsingleframeAMRinterFreq of RNC, TGPLsingleframeCSgsm of RNC, TGPLsingleframeCSinterFreq of RNC, TGPLsingleframeNRTPSgsm of RNC, TGPLsingleframeNRTPSinterFreq of RNC, TGPLsingleframeRTPSgsm of RNC, TGPLsingleframeRTPSinterFreq of RNC Modification: Related parameters: Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.11.5 CellReselectionObservingTime (Cell Reselection Observing Time) Table 235. Cell Reselection Observing Time Cell Reselection Observing Time CellReselectionObservingTime RNC - Parameter name: Abbreviated name: Managed object: Parameter group: 252 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 235. Multiplicity: Description: Cell Reselection Observing Time (Continued) 1 The timer is set when the first Cell Update message due to 'cell reselection' is received while UE is in CELL_FACH or CELL_PCH state. In expiry of the timer, the counter MaxCellReselections is reset. Below is an example of target RRC state selection when value 3 is used for MaxCellReselections: Velocity Cell radius Cell Update Target RRC state km/h 50 50 75 75 100 100 km frequency 1012 minutesCELL_PCH 2024 minutesCELL_PCH 10 8 minutesURA_PCH 2016 minutesCELL_PCH 10 6 minutesURA_PCH 2012 minutesCELL_PCH Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1...60 min, step 1 min internal_value = gui_value 30 min On-Line MaxCellReselections of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 253 (756) WCDMA RAN Parameters 4.11.6 CrHandlingPolicyDL (Downlink capacity request handling policy) Table 236. Downlink capacity request handling policy Downlink capacity request handling policy CrHandlingPolicyDL RNC PSParameters 1 This parameter defines the criteria which are taken into account when the capacity requests are arranged for DCH scheduling. 1 (arrival time only), 2 (arrival time and bearer class), 3 (arrival time, bearer class and traffic handling pr) • • • arrival time only: internal_value = 1 arrival time and bearer class: internal_value = 2 arrival time, bearer class and traffic handling pr: internal_value = 3 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2 Packet Scheduler On-Line CrHandlingPolicyUL of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 254 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en 1 (arrival time only). 2 (arrival time and bearer class). 3 (arrival time. bearer class and traffic handling pr: internal_value = 3 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2 Packet Scheduler On-Line CrHandlingPolicyDL of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 255 (756) .7 CrHandlingPolicyUL (Uplink capacity request handling policy) Table 237.RAN Parameters 4.11. bearer class and traffic handling pr) • • • arrival time only: internal_value = 1 arrival time and bearer class: internal_value = 2 arrival time. Uplink capacity request handling policy Uplink capacity request handling policy CrHandlingPolicyUL RNC PSParameters 1 This parameter defines the criteria which are taken into account when the capacity requests are arranged for DCH scheduling. step 1 sec internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 sec Packet Scheduler On-Line CrQueuingTimeUL of RNC.9 CrQueuingTimeUL (Maximum uplink capacity request queuing time) Table 239. Maximum downlink capacity request queuing time Maximum downlink capacity request queuing time CrQueuingTimeDL RNC PSParameters 1 This parameter defines how long a downlink capacity request can stay in the queue before it is permanently removed..8 CrQueuingTimeDL (Maximum downlink capacity request queuing time) Table 238. 1.30 sec.WCDMA RAN Parameters 4..11.11. Maximum uplink capacity request queuing time Maximum uplink capacity request queuing time CrQueuingTimeUL RNC Parameter name: Abbreviated name: Managed object: 256 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . TrafVolPendingTimeDL of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. 30 sec.8). 2 (0..11.48).64). 9 (0.76). Downlink puncturing limit Downlink puncturing limit DLpuncturingLimit RNC ACConfiguration 1 The parameter defines the maximum puncturing ratio allowed to be used in DL DCH's.6). 13 (0.0 means that no puncturing is used.96).44).88). Maximum uplink capacity request queuing time (Continued) PSParameters 1 This parameter defines how long an uplink capacity request can stay in the queue before it is permanently removed. default). 3 (0. 8 (0. step 1 sec internal_value = gui_value Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 sec Packet Scheduler On-Line CrQueuingTimeDL of RNC. 11 (0. 0 (0. 1. 10 (0. 14 (0.4). 7 (0.72).52).RAN Parameters Table 239.68. 15 (1) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 257 (756) . 6 (0. 1 (0. 5 (0.84).10 DLpuncturingLimit (Downlink puncturing limit ) Table 240. TrafVolPendingTimeUL of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. 12 (0. 4 (0..92). Value 1.56). 52: internal_value = 3 0.64: internal_value = 6 0.96: internal_value = 14 1: internal_value = 15 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 7 Admission Control On-Line ULpuncturingLimit of RNC • • • • • RNC to WBTS Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.8: internal_value = 10 0.433. Downlink puncturing limit (Continued) • • • • • • • • • • • • • • • • 0.44: internal_value = 1 0.88: internal_value = 12 0. UTRAN Iub Interface NBAP Signalling References: • 258 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .92: internal_value = 13 0.72: internal_value = 8 0.6: internal_value = 5 0.4: internal_value = 0 0.WCDMA RAN Parameters Table 240.48: internal_value = 2 0. default: internal_value = 7 0.76: internal_value = 9 0.84: internal_value = 11 0.68.56: internal_value = 4 0. the RNC may tell the mobile station to start inter-frequency/system measurements when it receives the quality deterioration report from the UL outer loop PC controller.RAN Parameters 4.11 EnableULQualDetRep (Quality deterioration report from UL OLPC controller) Table 241. it may initiate a bearer reconfiguration procedure. Quality deterioration report from UL OLPC controller Quality deterioration report from UL OLPC controller EnableULQualDetRep RNC PCConfiguration 1 This parameter enables or disables the quality deterioration report from UL OLPC controller procedure. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (False). or if the serving cell (or cells participating in soft handover) has neighboring cells in another carrier frequency or system. When enabled.11. 1 (True) • • False => 0 True => 1 0 (No) Power Control On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 259 (756) . 11. FmaxTimePDCP of RNC. 1 (Reordering expected) • • 0 Admission Control On-Line FmaxPeriodPDCP of RNC. MaxHeaderPDCP of RNC. Expect Reordering for PDCP Expect Reordering for PDCP ExpectReorderingPDCP RNC ACConfiguration 1 The parameter defines whether the header compression algorithm shall reorder PDCP SDUs or not. 0 (Reordering not expected).331. Parameter is used by the PDCP header compression algorithm. TCPspacePDCP of RNC Reordering not expected: internal_value = 0 Reordering expected: internal_value = 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • • References: • RNC to UE Planner to RAC RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. NonTCPspacePDCP of RNC. HeaderCompressionMethod of RNC.WCDMA RAN Parameters 4. RRC Protocol Specification (PDCP info) 260 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .12 ExpectReorderingPDCP (Expect Reordering for PDCP ) Table 242. TCPspacePDCP of RNC Parameter relationships: Interfaces: • • • • • • • References: • RNC to UE Planner to RAC RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. F Max Period for PDCP F Max Period for PDCP FmaxPeriodPDCP RNC ACConfiguration 1 The parameter defines the largest number of compressed non-TCP headers that may be sent without sending a full header. 1. RRC Protocol Specification (PDCP info) DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 261 (756) .65535 ...RAN Parameters 4. FmaxTimePDCP of RNC.331.13 FmaxPeriodPDCP (F Max Period for PDCP) Table 243. HeaderCompressionMethod of RNC.11. NonTCPspacePDCP of RNC. Parameter is used by the PDCP header compression algorithm. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 256 Admission Control On-Line ExpectReorderingPDCP of RNC. MaxHeaderPDCP of RNC. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5s Admission Control On-Line ExpectReorderingPDCP of RNC. MaxHeaderPDCP of RNC. 1. F Max Time for PDCP F Max Time for PDCP FmaxTimePDCP RNC ACConfiguration 1 Compressed UDCP/IP or TCP/IP headers may not be sent more than the number of seconds given by the value of this parameter after sending the last full header.255 s..11. FmaxPeriodPDCP of RNC. NonTCPspacePDCP of RNC. The parameter is used by the PDCP header compression algorithm.WCDMA RAN Parameters 4. RRC Protocol Specification (PDCP info) 262 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . HeaderCompressionMethod of RNC.331.14 FmaxTimePDCP (F Max Time for PDCP ) Table 244. TCPspacePDCP of RNC Parameter relationships: Interfaces: • • • • • • • References: • RNC to UE Planner to RAC RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25.. The PRACH physical channel data bit rates 15.15 GainFactorControlPartPRACHmessage (Gain factor for control part of PRACH message) Table 245. 128. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: • • • • PrachBetaC120 PrachBetaC15 PrachBetaC30 PrachBetaC60 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - Power Control On-Line GainFactorDataPartPRACHmessage of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 263 (756) . 64 or 32) for the data part of a PRACH message.is defined as a ratio of the gain factor for the control part of the PRACH message (BetaC in 3GPP specs) to the gain factor for the data part of the PRACH message (BetaD in 3GPP specs).11. a gain factor value has to be defined for each data part symbol rate. Therefore. 60 or 120 ks/s are supported. There are four possible spreading factors (256.RAN Parameters 4. The amplitude ratio of the control part of a PRACH message and the data part of a PRACH message . 30. Gain factor for control part of PRACH message Gain factor for control part of PRACH message GainFactorControlPartPRACHmessage RNC PCConfiguration 1 Defines the gain factor for the control part of a PRACH message. This parameter is part of System Information Block 5.with a particular data part symbol rate . 1 PrachBetaC120 (Gain factor for control part of PRACH message with 120 ksps ) Table 246. Physical channels and mapping of transport channels onto physical channels (FDD) 3GPP Reference: TS 25. Gain factor for control part of PRACH message (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Gain factor for control part of PRACH message with 120 ksps Gain factor for control part of PRACH message with 120 ksps PrachBetaC120 RNC PCConfiguration 1 Defines the gain factor for the control part of a PRACH message when the data part symbol rate is 120 ks/s.. 1. RRC Protocol Specification 3GPP Reference: TS 25.15 .213.331.WCDMA RAN Parameters Table 245.11.15.. Spreading and modulation (FDD) • • 4.211. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 10 Power Control On-Line GainFactorControlPartPRACHmessage of RNC 264 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Spreading and modulation (FDD) 3GPP Reference: TS 25. Physical channels and mapping of transport channels onto physical channels (FDD) 4.15. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 13 Power Control On-Line GainFactorControlPartPRACHmessage of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 265 (756) .213..331.2 PrachBetaC15 (Gain factor for control part of PRACH message with 15 ksps ) Table 247.15 . 1.11..RAN Parameters Table 246. RRC Protocol Specification 3GPP Reference: TS 25. Gain factor for control part of PRACH message with 120 ksps Parameter relationships: Interfaces: • • • • References: • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.211. Gain factor for control part of PRACH message with 15 ksps Gain factor for control part of PRACH message with 15 ksps PrachBetaC15 RNC PCConfiguration 1 Defines the gain factor for the control part of a PRACH message when the data part symbol rate is 15 ks/s. 3 PrachBetaC30 (Gain factor for control part of PRACH message with 30 ksps ) Table 248.WCDMA RAN Parameters Table 247.15 . Spreading and modulation (FDD) 3GPP Reference: TS 25. RRC Protocol Specification 3GPP Reference: TS 25. Gain factor for control part of PRACH message with 30 ksps Gain factor for control part of PRACH message with 30 ksps PrachBetaC30 RNC PCConfiguration 1 Defines the gain factor for the control part of a PRACH message when the data part symbol rate is 30 ks/s.331. Gain factor for control part of PRACH message with 15 ksps Parameter relationships: Interfaces: • • • • References: • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.11. Physical channels and mapping of transport channels onto physical channels (FDD) 4..15. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 12 Power Control On-Line GainFactorControlPartPRACHmessage of RNC 266 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .211.. 1.213. 213..11. Physical channels and mapping of transport channels onto physical channels (FDD) 3GPP Reference: TS 25. Gain factor for control part of PRACH message with 60 ksps Gain factor for control part of PRACH message with 60 ksps PrachBetaC60 RNC PCConfiguration 1 Defines the gain factor for the control part of a PRACH message when the data part symbol rate is 60 ks/s.211.331.4 PrachBetaC60 (Gain factor for control part of PRACH message with 60 ksps ) Table 249. Gain factor for control part of PRACH message with 30 ksps Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.15. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 11 Power Control On-Line GainFactorControlPartPRACHmessage of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 267 (756) . RRC Protocol Specification • 4.15 .RAN Parameters Table 248.. 1. Spreading and modulation (FDD) 3GPP Reference: TS 25. 211. Therefore. 128. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: 268 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .16 GainFactorDataPartPRACHmessage (Gain factor for data part of PRACH message) Table 250.WCDMA RAN Parameters Table 249. Spreading and modulation (FDD) 3GPP Reference: TS 25. There are four possible spreading factors (256. The PRACH physical channel data bit rates 15. a gain factor value has to be defined for each data part symbol rate.331. Gain factor for control part of PRACH message with 60 ksps Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. RRC Protocol Specification • • 4. Physical channels and mapping of transport channels onto physical channels (FDD) 3GPP Reference: TS 25.is defined as a ratio of the gain factor for the control part of the PRACH message (BetaC in 3GPP specs) to the gain factor for the data part of the PRACH message (BetaD in 3GPP specs). The amplitude ratio of the control part of a PRACH message and the data part of a PRACH message .with a particular data part symbol rate . 30. 60 or 120 ks/s are supported. This parameter is part of System Information Block 5. 64 or 32) for the data part of a PRACH message.11. Gain factor for data part of PRACH message Gain factor for data part of PRACH message GainFactorDataPartPRACHmessage RNC PCConfiguration 1 Defines the gain factor for the data part of a PRACH message.213. 211.1 PrachBetaD120 (Gain factor for data part of PRACH message with 120 ksps ) Table 251. 1.16. Gain factor for data part of PRACH message (Continued) • • • • PrachBetaD120 PrachBetaD15 PrachBetaD30 PrachBetaD60 Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Power Control On-Line GainFactorControlPartPRACHmessage of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Physical channels and mapping of transport channels onto physical channels (FDD) References: • • • 4..11. Spreading and modulation (FDD) 3GPP Reference: TS 25. step 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 269 (756) . Gain factor for data part of PRACH message with 120 ksps Gain factor for data part of PRACH message with 120 ksps PrachBetaD120 RNC PCConfiguration 1 Defines the gain factor for the data part of a PRACH message when the data part symbol rate is 120 ks/s.331. RRC Protocol Specification 3GPP Reference: TS 25.15 .213.RAN Parameters Table 250.. RRC Protocol Specification References: • • • 4.213.16.15 .11. Gain factor for data part of PRACH message with 120 ksps internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 15 Power Control On-Line GainFactorDataPartPRACHmessage of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Gain factor for data part of PRACH message with 15 ksps Gain factor for data part of PRACH message with 15 ksps PrachBetaD15 RNC PCConfiguration 1 Defines the gain factor for the data part of a PRACH message when the data part symbol rate is 15 ks/s.WCDMA RAN Parameters Table 251.331.2 PrachBetaD15 (Gain factor for data part of PRACH message with 15 ksps ) Table 252...211. 1. Spreading and modulation (FDD) 3GPP Reference: TS 25. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 15 270 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Physical channels and mapping of transport channels onto physical channels (FDD) 3GPP Reference: TS 25. Spreading and modulation (FDD) References: • • • 4.15 .. Gain factor for data part of PRACH message with 15 ksps Power Control On-Line GainFactorDataPartPRACHmessage of RNC Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.. Gain factor for data part of PRACH message with 30 ksps Gain factor for data part of PRACH message with 30 ksps PrachBetaD30 RNC PCConfiguration 1 Defines the gain factor for the data part of a PRACH message when the data part symbol rate is 30 ks/s. RRC Protocol Specification 3GPP Reference: TS 25.RAN Parameters Table 252. Physical channels and mapping of transport channels onto physical channels (FDD) 3GPP Reference: TS 25.213.3 PrachBetaD30 (Gain factor for data part of PRACH message with 30 ksps ) Table 253.211.16. 1. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 15 Power Control On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 271 (756) .11.331. . Physical channels and mapping of transport channels onto physical channels (FDD) 3GPP Reference: TS 25. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 15 Power Control On-Line GainFactorDataPartPRACHmessage of RNC 272 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .331. Gain factor for data part of PRACH message with 30 ksps GainFactorDataPartPRACHmessage of RNC Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Gain factor for data part of PRACH message with 60 ksps Gain factor for data part of PRACH message with 60 ksps PrachBetaD60 RNC PCConfiguration 1 Defines the gain factor for the data part of a PRACH message when the data part symbol rate is 60 ks/s. Spreading and modulation (FDD) References: • • • 4.213.WCDMA RAN Parameters Table 253.16.211.15 . 1..4 PrachBetaD60 (Gain factor for data part of PRACH message with 60 ksps ) Table 254. RRC Protocol Specification 3GPP Reference: TS 25.11. Gain factor for data part of PRACH message with 60 ksps Parameter relationships: Interfaces: • • • • References: • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Gap position single frame Gap position single frame GapPositionSingleFrame RNC PSParameters 1 This parameter determines the position of the gap inside a frame in case of single frame compressed mode. Spreading and modulation (FDD) 3GPP Reference: TS 25. Physical channels and mapping of transport channels onto physical channels (FDD) 4.RAN Parameters Table 254.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 4 Packet Scheduler. RRC Protocol Specification 3GPP Reference: TS 25.213. Admission Control On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 273 (756) .211.11.17 GapPositionSingleFrame (Gap position single frame) Table 255.8 .. 0.331. 18 GlobalRNCid (Global RNC identifier) Table 256. MinDLAMRmodeCM of RNC. CMmasterSwitch of RNC. TGPLsingleframeRTPSgsm of RNC. TGPLsingleframeNRTPSgsm of RNC. TGPLsingleframeAMRinterFreq of RNC. LowerULAMRmodeCM of RNC.215. MaxNumbUECMcoverHO of WCEL. PowerMarginCMcodeHalving of RNC. TGPLsingleframeNRTPSinterFreq of RNC. TGPLsingleframeCSgsm of RNC. TGPLsingleframeRTPSinterFreq of RNC Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. TGPLsingleframeAMRgsm of RNC.WCDMA RAN Parameters Table 255. Physical Layer Measurements (FDD) 4. Global RNC identifier Global RNC identifier GlobalRNCid RNC Identification 1 This parameter is used to identify an RNC globally. Gap position single frame (Continued) AltScramblingCodeCM of WCEL. • • PLMNid RncId Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes - - 274 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . HLSModeSelection of RNC. TGPLsingleframeCSinterFreq of RNC.11. Global RNC identifier (Continued) Not modifiable - Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RAC to RNC EM to RNC MSC to RNC RAC Application to RAC 3GPP Reference: TS 25. addressing and identification References: • • 4.003.18.11.RAN Parameters Table 256. PLMNid consists of Mobile Country Code (MCC) and Mobile Network Code (MNC). PLMN identity PLMN identity PLMNid RNC Identification 1 A Public Land Mobile Network is uniquely identified by its PLMN identity. Numbering.413.1 PLMNid (PLMN identity) Table 257. UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 23. • • • MCC MNC MNCLength Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - Not modifiable - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 275 (756) . MCC consists of three digits.WCDMA RAN Parameters Table 257..003. MNC of RNC 276 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . RRC Protocol Specification 3GPP Reference: TS 23. PLMN identity (Continued) Parameter relationships: Interfaces: • • • • • • References: • • • RNC to UE RNC to MSC Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable PLMNid of RNC.331.999 . UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25.413.. Numbering. MCC together with MNC identifies the PLMN uniquely (globally). 0. addressing and identification MCC (Mobile Country Code) Table 258. Mobile Country Code Mobile Country Code MCC RNC Identification 1 Unique country identification. 0. Numbering.999 .RAN Parameters Table 258. Mobile Network Code Mobile Network Code MNC RNC Identification 1 Unique network identification within country. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Not modifiable PLMNid of RNC. UTRAN Iu Interface RANAP Signalling MNC (Mobile Network Code) Table 259. RRC Protocol Specification 3GPP Reference: TS 25. MCC of RNC.413. MNC together with MCC identifies the PLMN uniquely (globally).003.. MNCLength of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 277 (756) .. addressing and identification 3GPP Reference: TS 25. Mobile Country Code (Continued) Parameter relationships: Interfaces: • • • • • • References: • • • RNC to UE RNC to MSC Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 23.331. MNC consists of two or three digits. Mobile Network Code (Continued) Parameter relationships: Interfaces: • • • • • • References: • • • RNC to UE RNC to MSC Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. RRC Protocol Specification 3GPP Reference: TS 23. When this parameter is modified also the value of MNC used by system is always changed. 3 (3) • • 2 Not modifiable PLMNid of RNC. addressing and identification MNCLength (Mobile Network Code Length) Table 260. UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25.331.WCDMA RAN Parameters Table 259. Numbering. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2 (2). Mobile Network Code Length Mobile Network Code Length MNCLength RNC Identification 1 This parameter defines whether 2 or 3 digits are used in Mobile Network Code. MNC of RNC 2: internal_value = 2 3: internal_value = 3 278 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .413.003. RAN Parameters Table 260. Iur and Iu interfaces. Mobile Network Code Length (Continued) Parameter relationships: Interfaces: • • • References: • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. The RNC id is used in the Iub. UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25. step 1 internal_value = gui_value Not modifiable GlobalRNCid of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 279 (756) . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1.. RRC Protocol Specification 4.331.2 RncId (RNC Identifier) Table 261.4095 . The RNC identifier together with the PLMN identifier is used to globally identify the RNC.413.11. This parameter is part of System Information Block 3.18. RNC Identifier RNC Identifier RncId RNC Identification 1 A unique identification for an RNC node within the UTRAN.. Numbering.19 GsmHandoverAMR (Handover of AMR Service to GSM) Table 262. Handover of AMR Service to GSM Handover of AMR Service to GSM GsmHandoverAMR RNC HCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 280 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . addressing and identification 3GPP Reference: TS 25. RNC Identifier (Continued) Parameter relationships: Interfaces: • • • • • • • • • References: • • • • RNC to UE RNC to MSC RAC to RNC EM to RNC Planner to RAC RAC Application to RAC Planner to RNC RNC to WBTS MSC to RNC 3GPP Reference: TS 25.003.413.423.331. RRC Protocol Specification 3GPP Reference: TS 23.WCDMA RAN Parameters Table 261. UTRAN Iur interface RNSAP Signalling 3GPP Reference: TS 25.11. UTRAN Iu Interface RANAP Signalling 4. handover to GSM is allowed for CS voice services. Range and step: Formula for getting internal value: 0 (No). . a handover to GSM must be allowed for all CS and PS services which participate in the multiservice before the handover is possible. In case of multiservice. Description: Handover of AMR Service to GSM (Continued) This parameter indicates whether an inter-RAT handover to GSM is allowed for circuit switched (CS) voice services. The handover is also prohibited if a CS voice service is a part of multiservice. . 2 (Priority) • • • No: internal_value = 0 Yes: internal_value = 1 Priority: internal_value = 2 Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1 Handover Control On-Line GsmHandoverCS of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 281 (756) . The alternative values of the parameter are the following: . 1 (Yes).Yes. handover to GSM is allowed for CS voice services.No. The handover is also allowed if a CS voice service is a part of multiservice. handover to GSM is not allowed for CS voice services.RAN Parameters Table 262.Priority. Yes. In case of multiservice. 1 (Yes).11. The handover is also allowed if a CS data service is a part of multiservice. Handover of CS Service to GSM Handover of CS Service to GSM GsmHandoverCS RNC HCConfiguration 1 This parameter indicates whether an inter-RAT handover to GSM is allowed for circuit switched (CS) data services. a handover to GSM must be allowed for all CS and PS services which participate in the multiservice before the handover is possible. The handover is also prohibited if a CS data service is a part of multiservice.No. 2 (Priority) • • • No: internal_value = 0 Yes: internal_value = 1 Priority: internal_value = 2 Default value Default value notes Related functions: Modification: Related parameters: 0 Handover Control Not modifiable GsmHandoverAMR of RNC 282 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . handover to GSM is allowed for CS data services. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 0 (No). The alternative values of the parameter are the following: . .Priority.WCDMA RAN Parameters 4.20 GsmHandoverCS (Handover of CS Service to GSM) Table 263. . handover to GSM is not allowed for CS data services. handover to GSM is allowed for CS data services. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 0 (No).RAN Parameters Table 263.21 GsmHandoverNrtPS (Handover of NRT PS Service to GSM) Table 264. The handover/cell change to GSM/GPRS is also prohibited if a non-real time PS data service is a part of multiservice. In case of multiservice.No. The alternative values of the parameter are the following: . Handover of CS Service to GSM (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. 1 (Yes) • • 0 No: internal_value = 0 Yes: internal_value = 1 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 283 (756) .11. cell change to GSM/GPRS is not allowed for nonreal time PS data services. a handover/cell change to GSM/GPRS must be allowed for all CS and PS services which participate in the multiservice before the handover/cell change is possible. cell change to GSM/GPRS is allowed for non-real time PS data services. Handover of NRT PS Service to GSM Handover of NRT PS Service to GSM GsmHandoverNrtPS RNC HCConfiguration 1 This parameter indicates whether an inter-RAT handover (cell change) to GSM/GPRS is allowed for non-real time packet switched (PS) data services in CELL_DCH state of connected mode.Yes. . Handover of NRT PS Service to GSM (Continued) Handover Control On-Line GsmHandoverAMR of RNC. a handover/cell change to GSM/GPRS must be allowed for all CS and PS services which participate in the multiservice before the handover/cell change is possible.11. cell change to GSM/GPRS is not allowed for real time PS data services. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (No). The alternative values of the parameter are the following: .WCDMA RAN Parameters Table 264. In case of multiservice.No.Yes. 1 (Yes) 284 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . . Handover of RT PS Service to GSM Handover of RT PS Service to GSM GsmHandoverRtPS RNC HCConfiguration 1 This parameter indicates whether an inter-RAT handover (cell change) to GSM/GPRS is allowed for real time packet switched (PS) data services in CELL_DCH state of connected mode. cell change to GSM/GPRS is allowed for real time PS data services.22 GsmHandoverRtPS (Handover of RT PS Service to GSM) Table 265. The handover/cell change to GSM/GPRS is also prohibited if a real time PS data service is a part of multiservice. GsmHandoverCS of RNC Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0 (No) Admission Control.RAN Parameters Table 265. Packet Scheduler On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 285 (756) . Handover of RT PS Service to GSM (Continued) • • 0 Handover Control On-Line GsmHandoverAMR of RNC. whether compressed mode by HLS (single frame) is allowed to use if possible or is HLS (double frame) used instead. provided that HLS is possible at all. 0 (False). GsmHandoverCS of RNC No: internal_value = 0 Yes: internal_value = 1 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. on the system level.11.23 HLSModeSelection (Higher Layer Scheduling mode selection) Table 266. Higher Layer Scheduling mode selection Higher Layer Scheduling mode selection HLSModeSelection RNC PSParameters 1 This parameter controls. CMmasterSwitch of RNC. 0 (Header compression not used). TGPLdoubleframeAMRinterFreq of RNC. TGPLsingleframeNRTPSinterFreq of RNC. 1 (Algorithm RFC2507 used) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 286 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . TGPLdoubleframeAMRgsm of RNC. TGPLsingleframeAMRgsm of RNC. TGPLsingleframeRTPSgsm of RNC. LowerULAMRmodeCM of RNC. PowerMarginCMcodeHalving of RNC. TGPLsingleframeRTPSinterFreq of RNC Related parameters: Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. MinDLAMRmodeCM of RNC. TGPLsingleframeAMRinterFreq of RNC. TGPLsingleframeCSgsm of RNC. TGPLdoubleframeNRTPSinterFreq of RNC.24 HeaderCompressionMethod (Header compression algorithm of PDCP ) Table 267. the parameter defines the header compression algorithm. Header compression algorithm of PDCP Header compression algorithm of PDCP HeaderCompressionMethod RNC ACConfiguration 1 The parameter defines whether the header compression function of the PDCP is employed or not.WCDMA RAN Parameters Table 266.11. TGPLdoubleframeNRTPSgsm of RNC. MaxNumbUECMcoverHO of WCEL. GapPositionSingleFrame of RNC. TGPLsingleframeNRTPSgsm of RNC. Higher Layer Scheduling mode selection (Continued) AltScramblingCodeCM of WCEL. TGPLsingleframeCSinterFreq of RNC. If it is employed. FmaxPeriodPDCP of RNC. MaxHeaderPDCP of RNC.RAN Parameters Table 267.25 InactTmrNRT_RB_Setup (Inactivity timer in NRT RB setup) Table 268.11. RRC Protocol Specification (PDCP info) 4.331. FmaxTimePDCP of RNC. Inactivity timer in NRT RB setup Inactivity timer in NRT RB setup InactTmrNRT_RB_Setup RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 287 (756) . NonTCPspacePDCP of RNC. TCPspacePDCP of RNC Header compression not used: internal_value = 0 Algorithm RFC2507 used: internal_value = 1 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • • References: • RNC to UE Planner to RAC RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. Header compression algorithm of PDCP (Continued) • • 0 Admission Control Not modifiable ExpectReorderingPDCP of RNC. step 0.WCDMA RAN Parameters Table 268.5 s internal_value = gui_value * 2 5s Mobile Device Control On-Line SignallingLinkInactivityTimer of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. In expiry of the timer (no capasity request received from the MS or MAC entity of RNC).26 InactivityTimerDownlinkDCH (Inactivity timer for downlink DCH) Table 269. the state transition from CELL_DCH to CELL_FACH is initiated when also the 'SignallingLinkInactivity Timer' has expired (and no RT RB(s). Timer is also used in all cases when the MS is in CELL_DCH state and there is a RAB Assignment Request received from the PS CN. capasity request received from the MS or MAC entity of RNC).20 s. Description: Inactivity timer in NRT RB setup (Continued) The timer is set after a DCH for a signaling link is allocated in RRC connection setup phase.. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. nor another active NRT RB(s) exists at this moment).11.e. Inactivity timer for downlink DCH Inactivity timer for downlink DCH InactivityTimerDownlinkDCH RNC PSParameters 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 288 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The timer is reset when any DL/UL activity detected (i.. RAN Parameters Table 269. MSActivitySupervision of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 289 (756) . Default values: 8 kbps: 5 s 16 kbps: 5 s 32 kbps: 5 s 64 kbps: 3 s 128 kbps: 2 s 256 kbps: 2 s 320 kbps: 2 s 384 kbps: 2 s Child parameters: • • • • • • • • InactivityTimerDownlinkDCH128 InactivityTimerDownlinkDCH16 InactivityTimerDownlinkDCH256 InactivityTimerDownlinkDCH32 InactivityTimerDownlinkDCH320 InactivityTimerDownlinkDCH384 InactivityTimerDownlinkDCH64 InactivityTimerDownlinkDCH8 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - Packet Scheduler On-Line InactivityTimerUplinkDCH of RNC. Description: Inactivity timer for downlink DCH (Continued) The time indicating how long the radio and transmission resources are reserved after silence detection on downlink DCH before release procedures. . Inactivity timer for downlink 16kbps DCH Inactivity timer for downlink 16kbps DCH InactivityTimerDownlinkDCH16 RNC PSParameters Parameter name: Abbreviated name: Managed object: Parameter group: 290 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters 4. Inactivity timer for downlink 128kbps DCH Inactivity timer for downlink 128kbps DCH InactivityTimerDownlinkDCH128 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on downlink DCH before release procedures.2 InactivityTimerDownlinkDCH16 (Inactivity timer for downlink 16kbps DCH) Table 271.20 s.11..1 InactivityTimerDownlinkDCH128 (Inactivity timer for downlink 128kbps DCH) Table 270.11.26.26. Timer is defined separately for each bit rate. step 1 s internal_value = gui_value 2s Packet Scheduler On-Line InactivityTimerDownlinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. 20 s. Timer is defined separately for each bit rate.26. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used. Inactivity timer for downlink 256kbps DCH Inactivity timer for downlink 256kbps DCH InactivityTimerDownlinkDCH256 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on downlink DCH before release procedures.. Multiplicity: Description: Inactivity timer for downlink 16kbps DCH (Continued) 1 The time indicating how long the radio and transmission resources are reserved after silence detection on downlink DCH before release procedures. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used.RAN Parameters Table 271. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. Timer is defined separately for each bit rate. step 1 s DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 291 (756) ...3 InactivityTimerDownlinkDCH256 (Inactivity timer for downlink 256kbps DCH) Table 272. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0..20 s.11. step 1 s internal_value = gui_value 5s Packet Scheduler On-Line InactivityTimerDownlinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Timer is defined separately for each bit rate.26. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used. step 1 s internal_value = gui_value 5s Packet Scheduler On-Line 292 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Inactivity timer for downlink 256kbps DCH (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2s Packet Scheduler On-Line InactivityTimerDownlinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.. Inactivity timer for downlink 32kbps DCH Inactivity timer for downlink 32kbps DCH InactivityTimerDownlinkDCH32 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on downlink DCH before release procedures..20 s.WCDMA RAN Parameters Table 272. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0.11.4 InactivityTimerDownlinkDCH32 (Inactivity timer for downlink 32kbps DCH) Table 273. 5 InactivityTimerDownlinkDCH320 (Inactivity timer for downlink 320kbps DCH) Table 274. Inactivity timer for downlink 32kbps DCH (Continued) InactivityTimerDownlinkDCH of RNC Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used. Inactivity timer for downlink 320kbps DCH Inactivity timer for downlink 320kbps DCH InactivityTimerDownlinkDCH320 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on downlink DCH before release procedures. step 1 s internal_value = gui_value 2s Packet Scheduler On-Line InactivityTimerDownlinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 293 (756) .RAN Parameters Table 273.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.11.20 s..26. Timer is defined separately for each bit rate. . Inactivity timer for downlink 384kbps DCH Inactivity timer for downlink 384kbps DCH InactivityTimerDownlinkDCH384 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on downlink DCH before release procedures.7 InactivityTimerDownlinkDCH64 (Inactivity timer for downlink 64kbps DCH) Table 276. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used.6 InactivityTimerDownlinkDCH384 (Inactivity timer for downlink 384kbps DCH) Table 275. step 1 s internal_value = gui_value 2s Packet Scheduler On-Line InactivityTimerDownlinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.20 s. Inactivity timer for downlink 64kbps DCH Inactivity timer for downlink 64kbps DCH InactivityTimerDownlinkDCH64 RNC PSParameters Parameter name: Abbreviated name: Managed object: Parameter group: 294 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .26..11.26. Timer is defined separately for each bit rate.11. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.WCDMA RAN Parameters 4. . step 1 s DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 295 (756) . Inactivity timer for downlink 8kbps DCH Inactivity timer for downlink 8kbps DCH InactivityTimerDownlinkDCH8 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on downlink DCH before release procedures.20 s. Timer is defined separately for each bit rate. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.26. Multiplicity: Description: Inactivity timer for downlink 64kbps DCH (Continued) 1 The time indicating how long the radio and transmission resources are reserved after silence detection on downlink DCH before release procedures...8 InactivityTimerDownlinkDCH8 (Inactivity timer for downlink 8kbps DCH) Table 277. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used.RAN Parameters Table 276.20 s. Timer is defined separately for each bit rate.11. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used.. step 1 s internal_value = gui_value 3s Packet Scheduler On-Line InactivityTimerDownlinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Inactivity timer for downlink 8kbps DCH (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 5s Packet Scheduler On-Line InactivityTimerDownlinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.WCDMA RAN Parameters Table 277.27 InactivityTimerUplinkDCH (Inactivity timer for uplink DCH) Table 278. Inactivity timer for uplink DCH Inactivity timer for uplink DCH InactivityTimerUplinkDCH RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures.11. Default values: 8 kbps: 5 s 16 kbps: 5 s 32 kbps: 5 s 64 kbps: 3 s 128 kbps: 2 s 256 kbps: 2 s 320 kbps: 2 s 384 kbps: 2 s Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: 296 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used. Inactivity timer for uplink 128kbps DCH Inactivity timer for uplink 128kbps DCH InactivityTimerUplinkDCH128 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures. Inactivity timer for uplink DCH (Continued) • • • • • • • • InactivityTimerUplinkDCH128 InactivityTimerUplinkDCH16 InactivityTimerUplinkDCH256 InactivityTimerUplinkDCH32 InactivityTimerUplinkDCH320 InactivityTimerUplinkDCH384 InactivityTimerUplinkDCH64 InactivityTimerUplinkDCH8 Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - Packet Scheduler On-Line InactivityTimerDownlinkDCH of RNC.RAN Parameters Table 278. Timer is defined separately for each bit rate.1 InactivityTimerUplinkDCH128 (Inactivity timer for uplink 128kbps DCH) Table 279.27. MSActivitySupervision of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 297 (756) .11. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used. step 1 s internal_value = gui_value 5s Packet Scheduler 298 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Inactivity timer for uplink 16kbps DCH Inactivity timer for uplink 16kbps DCH InactivityTimerUplinkDCH16 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures.11.20 s. Inactivity timer for uplink 128kbps DCH (Continued) 0. Timer is defined separately for each bit rate. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 0...WCDMA RAN Parameters Table 279.2 InactivityTimerUplinkDCH16 (Inactivity timer for uplink 16kbps DCH) Table 280.27.20 s.. step 1 s internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2s Packet Scheduler On-Line InactivityTimerUplinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.. step 1 s internal_value = gui_value 2s Packet Scheduler On-Line InactivityTimerUplinkDCH of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 299 (756) . Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used.RAN Parameters Table 280.27.20 s.11. Inactivity timer for uplink 256kbps DCH Inactivity timer for uplink 256kbps DCH InactivityTimerUplinkDCH256 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures. Inactivity timer for uplink 16kbps DCH (Continued) On-Line InactivityTimerUplinkDCH of RNC Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.3 InactivityTimerUplinkDCH256 (Inactivity timer for uplink 256kbps DCH) Table 281. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0... Timer is defined separately for each bit rate. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. step 1 s internal_value = gui_value 5s Packet Scheduler On-Line InactivityTimerUplinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 300 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Timer is defined separately for each bit rate.11. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used.4 InactivityTimerUplinkDCH32 (Inactivity timer for uplink 32kbps DCH) Table 282.. Inactivity timer for uplink 256kbps DCH (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.WCDMA RAN Parameters Table 281. Inactivity timer for uplink 32kbps DCH Inactivity timer for uplink 32kbps DCH InactivityTimerUplinkDCH32 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures.20 s..27. step 1 s internal_value = gui_value 2s Packet Scheduler On-Line InactivityTimerUplinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4..20 s.11..27.6 InactivityTimerUplinkDCH384 (Inactivity timer for uplink 384kbps DCH) Table 284.27.5 InactivityTimerUplinkDCH320 (Inactivity timer for uplink 320kbps DCH) Table 283. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.11. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used.RAN Parameters 4. Timer is defined separately for each bit rate. Inactivity timer for uplink 320kbps DCH Inactivity timer for uplink 320kbps DCH InactivityTimerUplinkDCH320 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures. Inactivity timer for uplink 384kbps DCH Inactivity timer for uplink 384kbps DCH InactivityTimerUplinkDCH384 RNC PSParameters Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 301 (756) . Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used. Timer is defined separately for each bit rate.20 s... Timer is defined separately for each bit rate..WCDMA RAN Parameters Table 284.27.7 InactivityTimerUplinkDCH64 (Inactivity timer for uplink 64kbps DCH) Table 285..20 s. Multiplicity: Description: Inactivity timer for uplink 384kbps DCH (Continued) 1 The time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures. step 1 s internal_value = gui_value 2s Packet Scheduler On-Line InactivityTimerUplinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. Inactivity timer for uplink 64kbps DCH Inactivity timer for uplink 64kbps DCH InactivityTimerUplinkDCH64 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures.11. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used. step 1 s 302 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 8 InactivityTimerUplinkDCH8 (Inactivity timer for uplink 8kbps DCH) Table 286.27.11. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used. Timer is defined separately for each bit rate.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0.RAN Parameters Table 285. Inactivity timer for uplink 64kbps DCH (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 3s Packet Scheduler On-Line InactivityTimerUplinkDCH of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.20 s. Inactivity timer for uplink 8kbps DCH Inactivity timer for uplink 8kbps DCH InactivityTimerUplinkDCH8 RNC PSParameters 1 The time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures. step 1 s internal_value = gui_value 5s Packet Scheduler On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 303 (756) .. Inactivity timer for uplink 8kbps DCH (Continued) InactivityTimerUplinkDCH of RNC Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.28 IuList (Core Network (Iu interface) list) Table 287.WCDMA RAN Parameters Table 286. Core Network (Iu interface) list Core Network (Iu interface) list IuList RNC 1 The list contains the data related to the Core network interface. One item on the list defines one connection from the RNC towards the Core Network. • • • • IuDATree IuItem TRelocOverall TRelocPrep Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - On-Line - 304 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .11. RAN Parameters Table 287. The value of the tree is not to be changed after the digit analyses are created for the Iu-CS interface. The recommended value for the Iu-CS digit analysis tree is 3. Digit analyses are created with MML (RDC) commands for the Iu-CS interface. Iu-CS Digit analysis tree Iu-CS Digit analysis tree IuDATree RNC 1 Tells in which Digit Analysis Tree the digit analyses for the Iu-CS interface are created. 1..11. and the tree value used has to be the same that is given with this parameter. Core Network (Iu interface) list (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 3 Not modifiable IuList of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 305 (756) .1 IuDATree (Iu-CS Digit analysis tree) Table 288.1023 .28.. 2 IuItem (Iu item information) Table 289.WCDMA RAN Parameters 4.11. Iu item information Iu item information IuItem RNC 2 Iu item information.28. • • • • • • • • • • • • • • CNDRXLength CNDomainIndicator CSAttachDetachAllowed CS_T3212 MSActivitySupervision NetworkInd PS_NMO RelocationSupport SignPointCode TDataFwd TRafC TRatC TigOR TinTR Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - On-Line IuList of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 306 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . ) This parameter is part of System Information Block 1.304. where 'k' is the used DRX cycle length coefficient for CN. This parameter is given for CS domain and PS domain separately. RRC Protocol Specification 3GPP Reference: TS 25. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 6 (640 ms). (The duration of the DRX cycle is 2 <power> k frames. CN domain specific DRX cycle length CN domain specific DRX cycle length CNDRXLength RNC 1 The DRX cycle length used for CN domain to count paging occasions for discontinuous reception. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 307 (756) . 9 (5120 ms) • • • • 640 ms: internal_value = 6 1280 ms: internal_value = 7 2560 ms: internal_value = 8 5120 ms: internal_value = 9 Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 6 Mobile Device Control On-Line IuItem of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331.RAN Parameters CNDRXLength (CN domain specific DRX cycle length) Table 290. 7 (1280 ms). 8 (2560 ms). or to which the message will be sent.WCDMA RAN Parameters CNDomainIndicator (CN Domain Indicator) Table 291. RRC Protocol Specification References: • • 308 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25.413. This parameter is also part of System Information Block 1 (SIB1). CN Domain Indicator CN Domain Indicator CNDomainIndicator RNC 1 Indicates the CN domain from which the message originates.331. 1 (Packet Switched) • • On-Line IuItem of RNC Circuit Switched: internal_value = 0 Packet Switched: internal_value = 1 • • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC Planner to RAC 3GPP Reference: TS 25. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (Circuit Switched). Part of CS domain specific NAS System information in SIB1.008. Mobile radio interface layer 3 specification. 1 (MSs shall apply IMSI attach and detach procedure). 255 (Not Defined) • • • MSs shall not apply IMSI attach and detach procedu: internal_value = 0 MSs shall apply IMSI attach and detach procedure: internal_value = 1 Not Defined: internal_value = 255 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1 On-Line IuItem of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331. RRC Protocol Specification 3GPP Reference: TS 24. The value "Not defined" shall be used for PS domain. 0 (MSs shall not apply IMSI attach and detach procedu). Given only for CS domain. Attach-detach allowed Attach-detach allowed CSAttachDetachAllowed RNC 1 Defines whether IMSI attach and detach are allowed or not. Core Network Protocols References: • • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 309 (756) .RAN Parameters CSAttachDetachAllowed (Attach-detach allowed) Table 292. Mobile radio interface layer 3 specification.. that is. periodic location updating is not used. step 1 decihours internal_value = gui_value 0 decihours On-Line IuItem of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 24. Given only for CS domain. (Part of CS domain specific NAS System information in SIB1). T3212 T3212 CS_T3212 RNC 1 The timeout value. Core Network Protocols 3GPP Reference: TS 25. in decihours (6 min). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. The value 0 is used for an infinite timeout value. for periodic location updating.255 decihours. RRC Protocol Specification References: • • 310 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .008.331..WCDMA RAN Parameters CS_T3212 (T3212) Table 293. MS activity supervision timer MS activity supervision timer MSActivitySupervision RNC 1 MSActivitySupervision timer is used in RRC states CELL_PCH and URA_PCH for supervising the inactivity of NRT RAB(s).e. the MS will be switched to the Idle Mode .state transition to Cell_PCH/URA_PCH is not allowed when inactivity is detected in Cell_FACH state. Cell/URA Update. the MS will be switched to the Idle Mode within 5 minutes (an internal fixed-value timer in RRC entity) when inactivity is detected in Cell_DCH state. step 1 min internal_value = gui_value 30 min Mobile Device Control On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 311 (756) .RAN Parameters MSActivitySupervision (MS activity supervision timer) Table 294. Timer is restarted (from the initial value) when the inactivity of NRT RAB(s) detected again and the MS is moved back to the CELL_PCH or URA_PCH again.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0. which does not cause the (re)initiation of the signaling or data flow) is received from the MS.1440 min. Timer is started when a state transition to either of these states is executed.. Note: If the parameter value is set to zero: . MSActivitySupervision timer is stopped when any activity of NRT RAB(s) is detected and the MS is moved to CELL_FACH or CELL_DCH state. In expiry of the MSActivitySupervision timer when the first "inactive state indication" (i. the RNC asks SGSN to release the Iu connection.when the DCH specific inactivity timers (InactivityTimerUplinkDCH and InactivityTimerDownlinkDCH) is/are set to value ?DCH inactivity supervision not used?. 12 (national network 1). 8 (national network 0). Network indicator Network indicator NetworkInd RNC 1 Network indicator defines the signalling network to which the signalling point belongs. 255 (not in use) • • • • • international network 0: internal_value = 0 international network 1: internal_value = 4 national network 0: internal_value = 8 national network 1: internal_value = 12 not in use: internal_value = 255 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: On-Line IuItem of RNC 312 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 294. 4 (international network 1). IuItem of RNC Related parameters: Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC NetworkInd (Network indicator) Table 295. MS activity supervision timer (Continued) InactivityTimerDownlinkDCH of RNC. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (international network 0). InactivityTimerUplinkDCH of RNC. Network indicator (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC PS_NMO (Network Mode of Operation) Table 296. 255 (Not Defined) • • • Network Mode of Operation I: internal_value = 0 Network Mode of Operation II: internal_value = 1 Not Defined: internal_value = 255 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1 On-Line IuItem of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 313 (756) .RAN Parameters Table 295. Network Mode of Operation Network Mode of Operation PS_NMO RNC 1 In Operation Mode I it is possible to have combined CS and PS side paging via SGSN. The value "Not defined" shall be used for CS domain. 1 (Network Mode of Operation II). Used only for the PS domain. 0 (Network Mode of Operation I). NMO is part of PS CN domain specific NAS System information in SIB1. In Operation Mode II the combined paging procedure is not possible (and neither are combined attach procedures). Network Mode of Operation (Continued) Parameter relationships: Interfaces: • • • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 24. General Packet Radio Service (GPRS) Service description.008. 1 (Supported) • • 1 On-Line IuItem of RNC Not supported: internal_value = 0 Supported: internal_value = 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 314 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Serving RNC Relocation Support Serving RNC Relocation Support RelocationSupport RNC 1 Identifies whether the Core Network supports the relocation of SRNC or not. Core Network Protocols 3GPP Reference: TS 23. 0 (Not supported). Mobile radio interface layer 3 specification.WCDMA RAN Parameters Table 296. Stage 2 RelocationSupport (Serving RNC Relocation Support) Table 297.060. Signalling point code Signalling point code SignPointCode RNC 1 The code that uniquely identifies the signalling point in the signalling network. step 1 internal_value = gui_value On-Line IuItem of RNC.413.4294967295 .. Serving RNC Relocation Support (Continued) Parameter relationships: Interfaces: • • • References: • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UTRAN Iu Interface RANAP Signalling (Relocation procedures) SignPointCode (Signalling point code) Table 298.. NetworkInd of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 315 (756) .RAN Parameters Table 297. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. The timer is internally stopped in the SRNC when the RANAP:SRNS Data Forwarding procedure has been completed. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 4s On-Line IuItem of RNC • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.WCDMA RAN Parameters TDataFwd (T DATAfwd) Table 299.10 s..413. TRafC TRafC TRafC RNC Parameter name: Abbreviated name: Managed object: 316 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. UTRAN Iu Interface RANAP Signalling References: • TRafC (TRafC) Table 300. T DATAfwd T DATAfwd TDataFwd RNC 1 The timer is set when a RANAP:SRNS Data Forward Command message (or a RANAP:Relocation Command message) is received from the PS CN. 1. . step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 15 s DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 317 (756) . step 1 s internal_value = gui_value Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 60 s On-Line IuItem of RNC • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25... 1.300 s.RAN Parameters Table 300. 30..180 s. UTRAN Iu Interface RANAP Signalling References: • TRatC (TRatC) Table 301. TRafC (Continued) 1 This parameter specifies the maximum time for Reset procedure in the RNC. TRatC TRatC TRatC RNC 1 This parameter specifies a guard period in the RNC before sending a RANAP:RESET ACKNOWLEDGE message.413. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5s On-Line IuItem of RNC 318 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1. which is used to determine when the additional level of traffic reduction in Core Network overload should take place. UTRAN Iu Interface RANAP Signalling References: • TigOR (TigOR) Table 302. While this timer is running all OVERLOAD messages or signalling point congested information received by the RNC are ignored. TigOR TigOR TigOR RNC 1 This parameter is a timer.WCDMA RAN Parameters Table 301..413.. TRatC (Continued) On-Line IuItem of RNC Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.120 s. TinTR TinTR TinTR RNC 1 This timer is used to determine when the Core Network overload can be considered cleared. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 15 s On-Line IuItem of RNC • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. the RNC is not allowed to increase traffic. 1..413. TigOR (Continued) Parameter relationships: Interfaces: • • • References: • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.RAN Parameters Table 302.413. UTRAN Iu Interface RANAP Signalling References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 319 (756) . While this timer is running..180 s. UTRAN Iu Interface RANAP Signalling TinTR (TinTR) Table 303. or the relocation procedure is cancelled.413. T RelocOverall T RelocOverall TRelocOverall RNC 1 Specifies the maximum time for the protection of overall Relocation procedure in the source RNC. The timer is set in the target RNC when a RANAP:Relocation Request Acknowledge message is sent. The timer is stopped when a RANAP:Relocation Complete message is sent.28.. The timer is set in the source RNC when a RANAP:Relocation Command message is received.11.3 TRelocOverall (T RelocOverall) Table 304.WCDMA RAN Parameters 4.16 s. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 8s On-Line IuList of RNC. 1. UTRAN Iu Interface RANAP Signalling References: • 320 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. The timer is stopped when a RANAP:Iu Release Command is received. or the relocation procedure is cancelled. TRelocPrep of RNC • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. TRelocOverall of RNC • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.RAN Parameters 4. UTRAN Iu Interface RANAP Signalling References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 321 (756) ..28.4 TRelocPrep (T RelocPrep) Table 305. The timer is stopped when a RANAP:Relocation Command or a Relocation Preparation Failure message is received. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 6s On-Line IuList of RNC. The timer is set when a RANAP:Relocation Required message is sent. T RelocPrep T RelocPrep TRelocPrep RNC 1 Specifies the maximum time for Relocation Preparation procedure in the source RNC. 1.11.16 s.413.. 11.29 IuRelComWaitNoRABs (Time supervision for inactive signaling connection towards the PS-CN) Table 306.WCDMA RAN Parameters 4. Time supervision for inactive signaling connection towards the PSCN Time supervision for inactive signaling connection towards the PS-CN IuRelComWaitNoRABs RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 322 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 4 (60 s). In RAN1. default). 2 (20 s).The last NRT-RAB for the MS has been released in CELL_DCH state or in CELL_FACH state. Default value notes: When the signaling connection towards the SGSN is maintained. If the value '0 seconds' is used.g. the MS is switched to CELL_FACH state (if allowed). this will significantly reduce the time consumed for signaling (RRC. 1 (10 s). 3 (30 s. an inactive signaling connection is not allowed and the Iu release is immediately (or after an expiry of the RANAPprocInitWait) requested from the SGSN. . the RRC entity initiates the Iu Release Request procedure and the MS is switched to the Idle Mode. RANAP) when the next service establishment (activation of the new PDP-context) or NAS signaling sequence (e. . 7 (600 s) DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 323 (756) .When the RANAPprocInitWait expires after a NAS signaling sequence between the MS and the SGSN in CELL_DCH state. Timer is used for supervising the reception of Iu Release Command from the SGSN when: . NOTE: the value of IuRelComWaitNoRABs >> RANAPprocInitWait.A signaling connection is established towards the PSCN and there is no RAB setup executed within the time supervision RANAPprocInitWait.The SGSN releases the last RAB for the MS in CELL_DCH / CELL_FACH state.RAN Parameters Table 306. Also the signaling load of the network will be reduced when compared to paging and/or RRC Connection establishment of an Idle Mode MS. 6 (300 s). NBAP. Description: Range and step: 0 (0 s). Timer is started if/when: . If the RAB release is executed in CELL_DCH state. SMS) is executed. 5 (120 s). The MS is switched to CELL_FACH state (if allowed). Time supervision for inactive signaling connection towards the PSCN (Continued) This timer defines whether it is allowed to maintain an inactive signaling connection towards the PS-CN and how long the RNC keeps the connection before the Iu Release Request procedure. In expiry of the timer and if not a new RAB Assignment Request (or any other relevant RANAP procedure) or Iu Release Command is received from the SGSN.5 the MS is not switched to CELL/URA_PCH state during the IuRelComWaitNoRABs. 1.11. default: internal_value = 3 60 s: internal_value = 4 120 s: internal_value = 5 300 s: internal_value = 6 600 s: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 3 On-Line RANAPprocInitWait of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. The recommended value for the Iub tree is 1. Time supervision for inactive signaling connection towards the PSCN (Continued) • • • • • • • • 0 s: internal_value = 0 10 s: internal_value = 1 20 s: internal_value = 2 30 s..WCDMA RAN Parameters Table 306. Digit analyses are created by the system for the Iub interface when creating the Routing and Digit analysis for the AAL2 connections. Iub Digit analysis tree Iub Digit analysis tree IubDATree RNC 1 Tells in which Digit Analysis Tree the digit analyses for the Iub interface are created. step 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 324 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .30 IubDATree (Iub Digit analysis tree) Table 307..1023 . Neighbour RNC (Iur interface) list Neighbour RNC (Iur interface) list IurList RNC 1 This parameter is a collection of Iur-interfaces related to one RNC. • • IurDATree IurItem Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 325 (756) .31 IurList (Neighbour RNC (Iur interface) list) Table 308.11. Iub Digit analysis tree (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1 On-Line DATree of COCO • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.RAN Parameters Table 307. 1023 . Iur Digit analysis tree Iur Digit analysis tree IurDATree RNC 1 This parameter tells in which Digit Analysis Tree the digit analyses for the Iur interface will be created.11. The value of the tree is not be changed when digit analyses are created for the Iur interface.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2 Not modifiable IurList of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 326 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. Neighbour RNC (Iur interface) list (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.WCDMA RAN Parameters Table 308.1 IurDATree (Iur Digit analysis tree) Table 309. The recommended value for the Iur tree is 2. 1. Digit analyses are created with MML (RDC) commands for the Iur interface.31. 2 IurItem (Iur item information) Table 310.31. User Plane support of Iur connection User Plane support of Iur connection IurUPSupport RNC Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 327 (756) . Iur item information Iur item information IurItem RNC 32 This parameter consists of all the needed information from the neighbour RNC.11. • • • • • IurUPSupport NRncId NRncNetworkInd NRncRelocationSupport NRncSignPointCode Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - On-Line IurList of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - IurUPSupport (User Plane support of Iur connection) Table 311.RAN Parameters 4. Neighbour RNC identifier Neighbour RNC identifier NRncId RNC 1 This parameter identifies the neighbour RNC. 1. If the user plane is not supported between SRNC and DRNC.4095 . 1 (Supported) • • 1 On-Line IurList of RNC.. step 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 328 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . IurItem of RNC Not supported: internal_value = 0 Supported: internal_value = 1 • • • RAC to RNC EM to RNC RAC Application to RAC References: - NRncId (Neighbour RNC identifier) Table 312. Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (Not supported). User Plane support of Iur connection (Continued) 1 This parameter indicates a user plane procedure support of the Iur connection.WCDMA RAN Parameters Table 311. A unique identification for an RNC node within the UTRAN. This information is given separately for each neighboring RNC.. initiation of a soft handover procedure is not possible. 255 (not in use) DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 329 (756) . Network indicator of neighbour RNC Network indicator of neighbour RNC NRncNetworkInd RNC 1 Network indicator defines the signalling network to which the signalling point belongs. addressing and identification 3GPP Reference: TS 25.RAN Parameters Table 312.413. IurItem of RNC • • • • RAC to RNC EM to RNC RAC Application to RAC Planner to RAC 3GPP Reference: TS 25. UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 23. 4 (international network 1). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (international network 0). Numbering. UTRAN Iur interface RNSAP Signalling References: • • • NRncNetworkInd (Network indicator of neighbour RNC) Table 313. 8 (national network 0).003. 12 (national network 1).423. Neighbour RNC identifier (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: On-Line RncId of RNC. 0 (Not supported). Network indicator of neighbour RNC (Continued) • • • • • international network 0: internal_value = 0 international network 1: internal_value = 4 national network 0: internal_value = 8 national network 1: internal_value = 12 not in use: internal_value = 255 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: On-Line IurItem of RNC.WCDMA RAN Parameters Table 313. 1 (Supported) • • 1 On-Line Not supported: internal_value = 0 Supported: internal_value = 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 330 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . NetworkInd of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - NRncRelocationSupport (Serving RNC Relocation Support of neighbour RNC) Table 314. Serving RNC Relocation Support of neighbour RNC Serving RNC Relocation Support of neighbour RNC NRncRelocationSupport RNC 1 This parameter identifies whether a neighboring RNC supports relocation of SRNC or not. SignPointCode of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 331 (756) . Serving RNC Relocation Support of neighbour RNC (Continued) IurItem of RNC.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0. UTRAN Iu Interface RANAP Signalling (Relocation procedures) References: • NRncSignPointCode (Signalling point code of neighbour RNC) Table 315. step 1 internal_value = gui_value On-Line IurItem of RNC.4294967295 . RelocationSupport of RNC Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Signalling point code of neighbour RNC Signalling point code of neighbour RNC NRncSignPointCode RNC 1 The code that uniquely identifies the signalling point in the signalling network.413. NRncNetworkInd of RNC..RAN Parameters Table 314. Parameter enables/disables Limited Power Increase. If the limited power increase is used.32 LimitedPowerIncrease (Limited Power Increase) Table 316. Limited Power Increase Limited Power Increase LimitedPowerIncrease RNC PCConfiguration 1 Parameter is used in Optimized downlink Power Control for NRT users.433.11. Physical layer procedures (FDD) 3GPP Reference: TS 25. UTRAN Iub Interface NBAP Signalling References: • • 332 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters 4. 0 (False). BTS shall use the limited power increase algorithm.214. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (No) Power Control Not modifiable - • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. The RNC adjusts the DL DPCH air-interface timing by replacing the old radio link (which triggered the reporting event 6G) by a new radio link (with renewed air-interface timing) in the same active set cell..896 chips.33 LowerRxTxTimeDiff (Lower Rx-Tx TD Threshold) Table 317. step 1 chips internal_value = gui_value 874 chips Handover Control On-Line UpperRxTxTimeDiff of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25..RAN Parameters 4. The RNC uses the measurement report to adjust the DL DPCH airinterface timing of the radio link.11. RRC Protocol Specification References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 333 (756) . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 768. The UE sends an event 6G triggered measurement report to the RNC when the UE Rx-Tx time difference for a radio link included in the active set becomes smaller than the threshold.331. Lower Rx-Tx TD Threshold Lower Rx-Tx TD Threshold LowerRxTxTimeDiff RNC HCConfiguration 1 Lower Rx-Tx TD Threshold defines the absolute threshold which is used by the UE to trigger the reporting event 6G due to UE Rx-Tx time difference. 2 kbit/s: internal_value = 2 7.95 kbit/s: internal_value = 3 7.75 kbit/s: internal_value = 8 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 1 Admission Control.75 kbit/s) • • • • • • • • 12.11.2 kbit/s). 4 (7.7 kbit/s: internal_value = 5 5.15 kbit/s: internal_value = 7 4. SF/2 as such allows gap. Compressed Mode: Lower uplink AMR mode Compressed Mode: Lower uplink AMR mode LowerULAMRmodeCM RNC PSParameters 1 This parameter defines the lower AMR mode to be used in uplink compressed mode.15 kbit/s).4 kbit/s: internal_value = 4 6.2 kbit/s. 3 (7. 2 (10. but lower AMR mode is added to reduce power increase. default: internal_value = 1 10. 6 (5. Parameter LowerULAMRModeCM defines directly lower AMR mode to be used. Uplink compressed mode method for AMR service is SF/2 and lower AMR mode adding to AMR TFSs. 8 (4.9 kbit/s: internal_value = 6 5.9 kbit/s). UE can automatically use lower AMR mode if UE Tx power is approaching its maximum. 1 (12.WCDMA RAN Parameters 4. 5 (6. default). Packet Scheduler Not modifiable 334 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .7 kbit/s).34 LowerULAMRmodeCM (Compressed Mode: Lower uplink AMR mode) Table 318.95 kbit/s). 7 (5.2 kbit/s.4 kbit/s). . TGPLdoubleframeAMRinterFreq of RNC. MaxNumbUECMcoverHO of WCEL. When the MS is in CELL_FACH state. Max cell reselections Max cell reselections MaxCellReselections RNC 1 Maximum allowed number of Cell Reselections in CELL_FACH or CELL_PCH state before transition to URA_PCH state.35 MaxCellReselections (Max cell reselections) Table 319.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 0. but it is used when deciding a target state after the MAC-c entity has sent an inactivity indication to Layer 3. TGPLsingleframeAMRgsm of RNC. GapPositionSingleFrame of RNC. CMmasterSwitch of RNC. step 1 times internal_value = gui_value 0 times DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 335 (756) . HLSModeSelection of RNC. TGPLsingleframeAMRinterFreq of RNC Related parameters: Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. PowerMarginCMcodeHalving of RNC.RAN Parameters Table 318. the value of counter MaxCellReselections cannot be used as a trigger for CELL_FACH to URA_PCH transition.11. TGPLdoubleframeAMRgsm of RNC. Amount of cell reselection is counted in both CELL_FACH and CELL_PCH states. MinDLAMRmodeCM of RNC. Compressed Mode: Lower uplink AMR mode (Continued) AltScramblingCodeCM of WCEL.100 times. . HeaderCompressionMethod of RNC. FmaxPeriodPDCP of RNC.11.WCDMA RAN Parameters Table 319. The parameter is used by the PDCP header compression algorithm. NonTCPspacePDCP of RNC. Max cell reselections (Continued) Not modifiable CellReselectionObservingTime of RNC Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.36 MaxHeaderPDCP (Max Header for PDCP) Table 320.4096 octets.. 60. FmaxTimePDCP of RNC. step 1 octets internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 168 octets Admission Control On-Line ExpectReorderingPDCP of RNC. Max Header for PDCP Max Header for PDCP MaxHeaderPDCP RNC ACConfiguration 1 The parameter defines the largest UDCP/IP or TCP/IP header size in octets that may be compressed. TCPspacePDCP of RNC 336 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Compressed Mode: Minimum allowed downlink AMR mode Compressed Mode: Minimum allowed downlink AMR mode MinDLAMRmodeCM RNC PSParameters 1 This parameter defines the minimum allowed downlink AMR mode in compressed mode. Double frame (4 slots out of 15) gap is requested. 2 (10. If gap can not be obtained with allowed AMR mode and puncturing.2 kbit/s). RRC Protocol Specification (PDCP info) 4. compressed mode SF/2 is used.4 kbit/s).15 kbit/s).11.7 kbit/s). 16 (6.95 kbit/s). 64 (5. 4 (7.331. Max Header for PDCP (Continued) Parameter relationships: Interfaces: • • • • • • • References: • RNC to UE Planner to RAC RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. This new lower AMR mode candidate has to belong to the set of modes allowed by both Iu interface and MinDLAMRModeCM parameter. 128 (4. 1 (12. 8 (7.37 MinDLAMRmodeCM (Compressed Mode: Minimum allowed downlink AMR mode) Table 321. 32 (5.RAN Parameters Table 320.2 kbit/s. default value). Puncturing is used only for AMR service when reason for compressed mode is too high downlink RL Tx power.9 kbit/s). RNC calculates which is biggest allowed AMR mode which enables gap with the aid of puncturing (note also RNP parameter DLPuncturingLimit).75 kbit/s) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 337 (756) . TGPLdoubleframeAMRgsm of RNC. MaxNumbUECMcoverHO of WCEL. PowerMarginCMcodeHalving of RNC.2 kbit/s: internal_value = 2 7.95 kbit/s: internal_value = 4 7. TGPLsingleframeAMRgsm of RNC. Compressed Mode: Minimum allowed downlink AMR mode • • • • • • • • 12.75 kbit/s: internal_value = 128 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1 Admission Control.4 kbit/s: internal_value = 8 6.38 N300 (N300) Table 322. Packet Scheduler Not modifiable AltScramblingCodeCM of WCEL. TGPLdoubleframeAMRinterFreq of RNC. CMmasterSwitch of RNC.WCDMA RAN Parameters Table 321. LowerULAMRmodeCM of RNC.7 kbit/s: internal_value = 16 5.15 kbit/s: internal_value = 64 4.11.9 kbit/s: internal_value = 32 5. HLSModeSelection of RNC. N300 N300 N300 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 338 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . default value: internal_value = 1 10. GapPositionSingleFrame of RNC. TGPLsingleframeAMRinterFreq of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.2 kbit/s. DLpuncturingLimit of RNC. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 0..39 N302 (N302) Table 323. step 1 internal_value = gui_value 3 On-Line T300 of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. This parameter is part of System Information Block 1. N302 N302 N302 RNC 1 CELL UPDATE/URA UPDATE retransmission counter (MS counter).331.11.. step 1 internal_value = gui_value DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 339 (756) . Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.. This parameter is part of System Information Block 1.7 .7 . Description: N300 (Continued) RRC CONNECTION REQUEST retransmission counter (MS counter)..RAN Parameters Table 322. RRC Protocol Specification References: • 4. N302 (Continued) 3 On-Line T302 of RNC Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.7 . RRC Protocol Specification References: • 4. N304 N304 N304 RNC 1 UE CAPABILITY INFORMATION retransmission counter (MS counter).11. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0.331.WCDMA RAN Parameters Table 323. step 1 internal_value = gui_value 2 On-Line T304 of RNC 340 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..40 N304 (N304) Table 324. This parameter is part of System Information Block 1.. 41 N308 (N308) Table 325. RRC Protocol Specification 4. N308 N308 N308 RNC 1 This counter is used to define the maximum number of retransmissions of the RRC CONNECTION RELEASE COMPLETE message by the MS when the MS is in CELL_DCH state. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2 On-Line T308 of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 341 (756) .. N304 (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.. 1.8 .331.11.RAN Parameters Table 324. MaxHeaderPDCP of RNC.11.65535 octets. Non-TCP Space for PDCP Non-TCP Space for PDCP NonTCPspacePDCP RNC ACConfiguration 1 The parameter defines the maximum Context Identifier (CID) value for non-TCP connections. step 1 octets internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 15 octets Admission Control On-Line ExpectReorderingPDCP of RNC. RRC Protocol Specification 4. TCPspacePDCP of RNC 342 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . N308 (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 3. FmaxPeriodPDCP of RNC..331.42 NonTCPspacePDCP (Non-TCP Space for PDCP ) Table 326. The parameter is used by the PDCP header compression algorithm.WCDMA RAN Parameters Table 325. FmaxTimePDCP of RNC. HeaderCompressionMethod of RNC.. .331.43 PCrangeDL (Radio link downlink power control range) Table 327. Radio link downlink power control range Radio link downlink power control range PCrangeDL RNC ACConfiguration 1 The parameter defines the downlink power control range in relation to the maximum allocated transmission power of the radio link.. Non-TCP Space for PDCP (Continued) Parameter relationships: Interfaces: • • • • • • • References: • RNC to UE Planner to RAC RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. the minimum BTS output power of the code channel defines the absolute lower limit for the minimum transmission power. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 15 dB Admission Control.RAN Parameters Table 326. Packet Scheduler On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 343 (756) . 0.25 dB. However.11. The minimum transmisson power is achieved by subtracting the value of the parameter from the maximum transmission power of the radio link. RRC Protocol Specification (PDCP info) 4. PtxDPCHmax of WBTS.44 PowerControlAlgorithm (Power control algorithm for combining downlink TPC commands) Table 328. Algorithm 2 performs better than Algorithm 1 when the UE moves faster than 80km/h or slower than 3km/h.11. Power control algorithm for combining downlink TPC commands Power control algorithm for combining downlink TPC commands PowerControlAlgorithm RNC PCConfiguration 1 This parameter specifies the algorithm that is to be used by the UE to interpret downlink TPC commands. 2 (algorithm 2) • • 1 algorithm 1: internal_value = 1 algorithm 2: internal_value = 2 344 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . PtxDPCHmin of WBTS Related parameters: Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 4. At the higher speed up to about 80 km/h a power control step size of 2dB gives better results. Algorithm 1 with a power control step size of 1dB can effectively track a typical Rayleigh fading channel up to a Doppler frequency of about 55Hz. which corresponds to a mobile speed of about 30km/h.WCDMA RAN Parameters Table 327. Note: The optimum power control step size (DTPC) varies depending on the speed at which the UE is moving. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 1 (algorithm 1). Radio link downlink power control range (Continued) PtxDLabsMax of WCEL. RRC Protocol Specification 3GPP Reference: TS 25. if possible.331.RAN Parameters Table 328. then power levels are not checked at all.214. Physical layer procedures (FDD) References: • • 4...11. Compressed Mode: Power margin for halving the spreading code Compressed Mode: Power margin for halving the spreading code PowerMarginCMcodeHalving RNC PSParameters 1 This parameter defines how many dB below the maximum downlink radiolink power the actual downlink radiolink power has to be before the compressed mode method halving of the spreading code in downlink is possible. If this condition is not satisfied. Power control algorithm for combining downlink TPC commands Power Control On-Line UplinkInnerLoopPCStepSize of RNC Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.25 dB internal_value = gui_value * 4 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 345 (756) . Note.10 dB. step 0.45 PowerMarginCMcodeHalving (Compressed Mode: Power margin for halving the spreading code) Table 329. the next compressed mode method is used. 0. that if halving the spreading code is the last compressed mode method option. MaxNumbUECMcoverHO of WCEL. LowerULAMRmodeCM of RNC.20 dB. Absolute limit in uplink noise autotuning Absolute limit in uplink noise autotuning PrxNoiseMaxTuneAbsolute RNC LCConfiguration 1 Parameter sets absolute limit for uplink noise autotuning compared to PrxNoise value.11. GapPositionSingleFrame of RNC.5 dBm and parameter PrxNoiseMaxTuneAbsolute is set to value 2dB.WCDMA RAN Parameters Table 329. 0. E. Compressed Mode: Power margin for halving the spreading code 3 dB Packet Scheduler. Operator sets PrxNoise initial value to ?101.46 PrxNoiseMaxTuneAbsolute (Absolute limit in uplink noise autotuning) Table 330. MinDLAMRmodeCM of RNC Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. HLSModeSelection of RNC.g. step 0.5 dBm and ?103.. CMmasterSwitch of RNC. Admission Control On-Line AltScramblingCodeCM of WCEL.5 dBm.5 dB internal_value = gui_value * 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 20 dB - 346 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . This limits PrxNoise value between ?99.. 11.RAN Parameters Table 330. PrxNoiseAutotuning of WCEL Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. RANAP initiation timer RANAP initiation timer RANAPprocInitWait RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 347 (756) .47 RANAPprocInitWait (RANAP initiation timer) Table 331. Absolute limit in uplink noise autotuning (Continued) Load Control On-Line PrxNoise of WCEL. a release of the established Iu connection is requested from the MSC and the MS is ? depending on the current RRC state ? switched to or kept in the CELL_FACH state (or switched to CELL/URA_PCH state there exists inactive NRT-RAB(s) for this MS). . Timer is started when the Initial UE message is forwarded towards the CS/PS-CN. Description: RANAP initiation timer (Continued) Timer is used for supervising a reception of a RANAP procedure (RAB Assignment Request. step 1 s internal_value = gui_value 10 s On-Line IuRelComWaitNoRABs of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 348 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .If the connection was established towards the CS-CN.. In expiry of the timer: . Timer is stopped when a RANAP procedure (e. there doesn?t exist any RABs for this MS and the supervision timer IuRelComWaitNoRABs is set to '0 seconds'. etc. there is no signaling connection towards the PS-CN.If the connection was established towards the PS-CN.30 s. Otherwise the MS is handled as defined by the IuRelComWaitNoRABs. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. Iu Release Command. RAB Assignment) is received from the CN.If there exists a connection towards the PS-CN for this MS.) from the CS/PS-CN during the signaling connection establishment phase in CELL_FACH and CELL_DCH states. . a release of the established Iu connection is requested from the MSC and the MS is switched to the Idle Mode.WCDMA RAN Parameters Table 331.g.. a release of the Iu connection is requested from the SGSN and the MS is switched to the Idle Mode. internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: On-Line RncId of RNC • • • • Planner to RAC RAC to RNC EM to RNC RAC Application to RAC References: - 4. Time stamp Time stamp RNCTimeStamp RNC Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 349 (756) . The maximum length of the name is 15 ASCII chars.. 1.11.11.15 characters.RAN Parameters 4.48 RNCName (RNC name) Table 332. RNC name RNC name RNCName RNC Identification 1 This parameter can be used for identification of the RNC..49 RNCTimeStamp (Time stamp) Table 333. Time stamp day Time stamp day RNCDay RNC - Parameter name: Abbreviated name: Managed object: Parameter group: 350 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . RNC time stamp is updated every time when any of the RNW objects is updated.1 RNCDay (Time stamp day) Table 334.11.WCDMA RAN Parameters Table 333. Parameter group: Multiplicity: Description: Child parameters: • • • • • • • RNCDay RNCHours RNCHundreths RNCMinutes RNCMonth RNCSeconds RNCYear Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Not modifiable - • • RNC to RAC RAC Application to RAC References: - 4. The value for the parameter can not be modified by the user.49. Time stamp (Continued) 1 Parameter identifies the time when the RNC object (or any other object beneath it in object hierarchy) was modified the last time. RAN Parameters Table 334.11. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1. Time stamp hours Time stamp hours RNCHours RNC 1 Parameter identifies the hour of time when the RNC object (or any other object beneath it in object hierarchy) was modified the last time. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 351 (756) . Multiplicity: Description: Time stamp day (Continued) 1 Parameter identifies the day when the RNC object (or any other object beneath it in object hierarchy) was modified the last time.. The value for the parameter can not be modified by the user. The value for the parameter can not be modified by the user. RNC time stamp is updated every time when any of the RNW objects is updated. RNC time stamp is updated every time when any of the RNW objects is updated. step 1 day internal_value = gui_value Not modifiable RNCTimeStamp of RNC • • RNC to RAC RAC Application to RAC References: - 4..49.2 RNCHours (Time stamp hours) Table 335.31 day. 23 hour.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 0. RNC time stamp is updated every time when any of the RNW objects is updated.49..WCDMA RAN Parameters Table 335. step 1 hundredths internal_value = gui_value - 352 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Time stamp hours (Continued) 0.. The value for the parameter can not be modified by the user.3 RNCHundreths (Time stamp hundredths of seconds) Table 336.. step 1 hour internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable RNCTimeStamp of RNC • • RNC to RAC RAC Application to RAC References: - 4.11.99 hundredths. Time stamp hundredths of seconds Time stamp hundredths of seconds RNCHundreths RNC 1 Parameter identifies the hundredths of seconds of time when the RNC object (or any other object beneath it in object hierarchy) was modified the last time. RAN Parameters Table 336.. Time stamp minutes Time stamp minutes RNCMinutes RNC 1 Parameter identifies the minutes of time when the RNC object (or any other object beneath it in object hierarchy) was modified the last time. The value for the parameter can not be modified by the user.11. RNC time stamp is updated every time when any of the RNW objects is updated.59 minute(s). Time stamp hundredths of seconds (Continued) Not modifiable RNCTimeStamp of RNC Modification: Related parameters: Parameter relationships: Interfaces: • • RNC to RAC RAC Application to RAC References: - 4. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. step 1 minute(s) internal_value = gui_value Not modifiable RNCTimeStamp of RNC • • RNC to RAC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 353 (756) .4 RNCMinutes (Time stamp minutes) Table 337..49. 5 RNCMonth (Time stamp month) Table 338.11... step 1 month internal_value = gui_value Not modifiable RNCTimeStamp of RNC • • RNC to RAC RAC Application to RAC References: - 4. RNC time stamp is updated every time when any of the RNW objects is updated.WCDMA RAN Parameters 4. Time stamp month Time stamp month RNCMonth RNC 1 Parameter identifies the month when the RNC object (or any other object beneath it in object hierarchy) was modified the last time.49. Time stamp seconds Time stamp seconds RNCSeconds RNC - Parameter name: Abbreviated name: Managed object: Parameter group: 354 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .6 RNCSeconds (Time stamp seconds) Table 339.11.12 month.49. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1. The value for the parameter can not be modified by the user. step 1 second(s) internal_value = gui_value Not modifiable RNCTimeStamp of RNC • • RNC to RAC RAC Application to RAC References: - 4. Multiplicity: Description: Time stamp seconds (Continued) 1 Parameter identifies the seconds of time when the RNC object (or any other object beneath it in object hierarchy) was modified the last time.11.. The value for the parameter can not be modified by the user. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 355 (756) . The value for the parameter can not be modified by the user.7 RNCYear (Time stamp year) Table 340.59 second(s). RNC time stamp is updated every time when any of the RNW objects is updated.RAN Parameters Table 339.. RNC time stamp is updated every time when any of the RNW objects is updated. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.49. Time stamp year Time stamp year RNCYear RNC 1 Parameter identifies the year when the RNC object (or any other object beneath it in object hierarchy) was modified the last time. step 1 year internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable RNCTimeStamp of RNC • • RNC to RAC RAC Application to RAC References: - 4.. 0. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 2 Admission Control 356 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .50 RNCcongNumberofReAttempts (Re-attempts to hunt resources) Table 341.WCDMA RAN Parameters Table 340. Re-attempts to hunt resources Re-attempts to hunt resources RNCcongNumberofReAttempts RNC ACConfiguration 1 This parameter defines how many re-attempts the RNC shall perform when hunting congested logical or hardware resources. If the parameter is set to 0.10 ...11. and for all RT calls.. This operation is performed only for emergency calls.2100 year. in case of pre-emption. no re-attempts are allowed. Time stamp year (Continued) 1980. 2 (PS streaming service available).11.RAN Parameters Table 341.51 RTservicesForPS (PS domain RT service) Table 342. Re-attempts to hunt resources (Continued) On-Line - Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. 1 (PS conversational service available). 3 (PS RT services available) • • • • PS RT services not available: internal_value = 0 PS conversational service available: internal_value =1 PS streaming service available: internal_value = 2 PS RT services available: internal_value = 3 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0 Admission Control Not modifiable DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 357 (756) . This parameter is significant in both the assignment of RAB and the relocation of the serving RNC. PS domain RT service PS domain RT service RTservicesForPS RNC ACConfiguration 1 This parameter determines whether PS domain RT services are available in the RNC or not. RT services use either 'conversational' or 'streaming' traffic class RAB. 0 (PS RT services not available). 52 SIB11_priority (Priority for SIB11) Table 343. step 1 internal_value = gui_value 4 On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 358 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . which is used by the scheduling algorithm in the RNC to give precedence to the SIB... 1 = highest priority 4 = lowest priority Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1. PS domain RT service (Continued) - Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.WCDMA RAN Parameters Table 342. Priority for SIB11 Priority for SIB11 SIB11_priority RNC 1 The priority of the system information block.4 .11. 53 SIB12_priority (Priority for SIB12) Table 344..54 SIB18_priority (Priority for SIB18) Table 345.. step 1 internal_value = gui_value 4 On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Priority for SIB18 Priority for SIB18 SIB18_priority RNC Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 359 (756) .RAN Parameters 4. 1 = highest priority 4 = lowest priority Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1.11. which is used by the scheduling algorithm in the RNC to give precedence to the SIB. Priority for SIB12 Priority for SIB12 SIB12_priority RNC 1 The priority of the system information block.4 .11. WCDMA RAN Parameters Table 345. which is used by the scheduling algorithm in the RNC to give precedence to the SIB. 1 = highest priority 4 = lowest priority Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1. Priority for SIB18 (Continued) 1 The priority of the system information block..4 . Priority for SIB1 Priority for SIB1 SIB1_priority RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 360 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .11..55 SIB1_priority (Priority for SIB1) Table 346. step 1 internal_value = gui_value 4 On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. step 1 internal_value = gui_value 2 On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.. 1 = highest priority 4 = lowest priority Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1.RAN Parameters Table 346.56 SIB2_priority (Priority for SIB2) Table 347.. which is used by the scheduling algorithm in the RNC to give precedence to the SIB. step 1 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 361 (756) .4 .. which is used by the scheduling algorithm in the RNC to give precedence to the SIB.4 .. Priority for SIB2 Priority for SIB2 SIB2_priority RNC 1 The priority of the system information block. 1 = highest priority 4 = lowest priority Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 1. Description: Priority for SIB1 (Continued) The priority of the system information block 1.11. .57 SIB3_priority (Priority for SIB3) Table 348.11..WCDMA RAN Parameters Table 347. Priority for SIB3 Priority for SIB3 SIB3_priority RNC 1 The priority of the system information block. step 1 internal_value = gui_value 3 On-Line 362 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .4 . which is used by the scheduling algorithm in the RNC to give precedence to the SIB. 1 = highest priority 4 = lowest priority Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 1. Priority for SIB2 (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2 On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. which is used by the scheduling algorithm in the RNC to give precedence to the SIB.11. 1 = highest priority 4 = lowest priority Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1..RAN Parameters Table 348. Priority for SIB3 (Continued) - Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Priority for SIB5 Priority for SIB5 SIB5_priority RNC 1 The priority of the system information block.58 SIB5_priority (Priority for SIB5) Table 349.4 . step 1 internal_value = gui_value 3 On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 363 (756) .. 59 SIB7_priority (Priority for SIB7) Table 350. step 1 internal_value = gui_value 1 On-Line - • • • • RAC to RNC EM to RNC RAC Application to RAC RNC to EM References: - 364 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1 = highest priority 4 = lowest priority Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1.11..4 .. which is used by the scheduling algorithm in the RNC to give precedence to the SIB.WCDMA RAN Parameters 4. Priority for SIB7 Priority for SIB7 SIB7_priority RNC 1 The priority of the system information block. 60 SignallingLinkInactivityTimer (Signalling link inactivity timer) Table 351.20 s.5 s internal_value = gui_value * 2 2s On-Line InactTmrNRT_RB_Setup of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 365 (756) . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. Signalling link inactivity timer Signalling link inactivity timer SignallingLinkInactivityTimer RNC 1 The timer is used for inactivity detection of the signalling link in CELL_DCH state. In expiry of the timer. The timer is set after inactivity of the signalling link is detected and reset when any activity detected.. step 0.11. a state transition from CELL_DCH to CELL_FACH state is initiated when also the corresponding RB inactivity timer(s) expired.RAN Parameters 4.. 6 kbit/s: internal_value = 136 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 366 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .61 StandAloneDCCHBitRate (Signalling radio bearer bit rate at RRC connection establishment) Table 352. 136 (13.11. 34 (3. This bit rate is used for RRC signalling until a RAB has been established for the RRC connection.4 kbit/s).WCDMA RAN Parameters 4. Signalling radio bearer bit rate at RRC connection establishment Signalling radio bearer bit rate at RRC connection establishment StandAloneDCCHBitRate RNC ACConfiguration 1 Parameter defines the bit rate to be used for the signalling radio bearer at the RRC connection establishment.4 kbit/s: internal_value = 34 13.6 kbit/s) • • 34 Admission Control On-Line 3. 4 (800 ms). 8 (1600 ms). 5 (1000 ms).RAN Parameters 4. 11 (3000 ms). 2 (400 ms). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (100 ms). 12 (4000 ms). 14 (8000 ms) • • • • • • • • • • • • • • • 100 ms: internal_value = 0 200 ms: internal_value = 1 400 ms: internal_value = 2 600 ms: internal_value = 3 800 ms: internal_value = 4 1000 ms: internal_value = 5 1200 ms: internal_value = 6 1400 ms: internal_value = 7 1600 ms: internal_value = 8 1800 ms: internal_value = 9 2000 ms: internal_value = 10 3000 ms: internal_value = 11 4000 ms: internal_value = 12 6000 ms: internal_value = 13 8000 ms: internal_value = 14 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 11 On-Line N300 of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 367 (756) . 10 (2000 ms). 7 (1400 ms). 9 (1800 ms). 13 (6000 ms).11. 3 (600 ms). This parameter is part of System Information Block 1. 6 (1200 ms).62 T300 (T300) Table 353. T300 T300 T300 RNC 1 The RRC CONNECTION REQUEST retransmission timer (MS timer). 1 (200 ms). 0 4. 3 (600 ms). 3. 11 (3000 ms).11. 5 (1000 ms). 9 (1800 ms). 8 (1600 ms). 2 (400 ms). 7 (1400 ms). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (100 ms). This parameter is part of System Information Block 1. 14 (8000 ms) 368 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .331 v. 6 (1200 ms). 1 (200 ms).WCDMA RAN Parameters Table 353.63 T302 (T302) Table 354. 10 (2000 ms). 4 (800 ms). 12 (4000 ms). T302 T302 T302 RNC 1 The CELL UPDATE/URA UPDATE retransmission timer (MS timer). T300 (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: 3GPP TS 25.6. 13 (6000 ms). RRC Protocol Specification References: • 4.331.11. T302 (Continued) • • • • • • • • • • • • • • • 100 ms: internal_value = 0 200 ms: internal_value = 1 400 ms: internal_value = 2 600 ms: internal_value = 3 800 ms: internal_value = 4 1000 ms: internal_value = 5 1200 ms: internal_value = 6 1400 ms: internal_value = 7 1600 ms: internal_value = 8 1800 ms: internal_value = 9 2000 ms: internal_value = 10 3000 ms: internal_value = 11 4000 ms: internal_value = 12 6000 ms: internal_value = 13 8000 ms: internal_value = 14 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 12 On-Line N302 of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. T304 T304 T304 RNC Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 369 (756) .64 T304 (T304) Table 355.RAN Parameters Table 354. RRC Protocol Specification References: • 4. T305 T305 T305 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 370 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Parameter group: Multiplicity: Description: Range and step: 0 (100 ms). 1 (200 ms). 3 (1000 ms).331. This parameter is part of System Information Block 1.WCDMA RAN Parameters Table 355. T304 (Continued) 1 The UE CAPABILITY INFORMATION retransmission timer (MS timer).11. 2 (400 ms).65 T305 (T305) Table 356. 4 (2000 ms) • • • • • 100 ms: internal_value = 0 200 ms: internal_value = 1 400 ms: internal_value = 2 1000 ms: internal_value = 3 2000 ms: internal_value = 4 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 4 On-Line N304 of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 7 (720 min) • • • • • • • • infinity. 6 (360 min). 2 (10 min). RRC Protocol Specification References: • 4. This parameter is part of System Information Block 1.RAN Parameters Table 356. T307 T307 T307 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 371 (756) .331. Description: T305 (Continued) The periodic cell update/URA update timer (MS timer). no update). 5 (120 min). 3 (30 min).66 T307 (T307) Table 357.11. 1 (5 min). Range and step: 0 (infinity. 4 (60 min). no update: internal_value = 0 5 min: internal_value = 1 10 min: internal_value = 2 30 min: internal_value = 3 60 min: internal_value = 4 120 min: internal_value = 5 360 min: internal_value = 6 720 min: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 3 On-Line T307 of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. This parameter is part of System Information Block 1.11. 5 (40 s). Description: T307 (Continued) The timer for transition to idle mode. 4 (30 s).WCDMA RAN Parameters Table 357. Range and step: 0 (5 s). 1 (10 s). 3 (20 s). when the timer T305 has expired. 2 (15 s).67 T308 (T308) Table 358.331. RRC Protocol Specification References: • 4. and the MS detects an "out of service area" (MS timer). T308 T308 T308 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 372 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 6 (50 s) • • • • • • • 5 s: internal_value = 0 10 s: internal_value = 1 15 s: internal_value = 2 20 s: internal_value = 3 30 s: internal_value = 4 40 s: internal_value = 5 50 s: internal_value = 6 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 4 On-Line T305 of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 2 (160 ms). This parameter is part of System Information Block 1. This parameter is part of System Information Block 1. 3 (320 ms) • • • • 40 ms: internal_value = 0 80 ms: internal_value = 1 160 ms: internal_value = 2 320 ms: internal_value = 3 Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2 On-Line N308 of RNC • • • • • RNC to UE EM to RNC RAC to RNC Planner to RNC RAC Application to RAC 3GPP Reference: TS 25. T309 T309 T309 RNC 1 The timer for supervising successful connection establishment in case of an inter-RAT cell re-selection (MS timer). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 373 (756) .11.331. Range and step: Formula for getting internal value: 0 (40 ms).RAN Parameters Table 358.68 T309 (T309) Table 359. 1 (80 ms). RRC Protocol Specification References: • 4. Description: T308 (Continued) The RRC CONNECTION RELEASE COMPLETE retransmission timer. This parameter is part of System Information Block 1. This timer is stopped when the UE detects an "in service area".WCDMA RAN Parameters Table 359. 5 (50 seconds). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (0 seconds). 3 (30 seconds). T316 T316 T316 RNC 1 This timer is started when the UE detects an "out of service area" in URA_PCH or CELL_PCH state. step 1 seconds internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 5 seconds On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331. 1 (10 seconds).69 T316 (T316) Table 360.11. 4 (40 seconds). infinity) 374 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. 2 (20 seconds). When the timer expires the UE initiates cell update procedure (MS timer). T309 (Continued) 1..8 seconds. RRC Protocol Specification References: • 4. 6 (999 seconds. This timer is stopped when the UE detects an "in service area". Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 375 (756) . When the timer expires the UE transits to idle mode (MS timer).RAN Parameters Table 360.70 T317 (T317) Table 361. infinity: internal_value = 6 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 3 On-Line T317 of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. This parameter is part of System Information Block 1. T317 T317 T317 RNC 1 This timer is started when the T316 expires and the UE detects an "out of service area".331. T316 (Continued) • • • • • • • 0 seconds: internal_value = 0 10 seconds: internal_value = 1 20 seconds: internal_value = 2 30 seconds: internal_value = 3 40 seconds: internal_value = 4 50 seconds: internal_value = 5 999 seconds.11. RRC Protocol Specification References: • 4. 5 (600 s). RRC Protocol Specification References: • 4. 1 (10 s).WCDMA RAN Parameters Table 361.71 TCPspacePDCP (TCP Space for PDCP ) Table 362. The parameter is used by the PDCP header compression algorithm. 7 (1800 s) • • • • • • • • 0 s: internal_value = 0 10 s: internal_value = 1 30 s: internal_value = 2 60 s: internal_value = 3 180 s: internal_value = 4 600 s: internal_value = 5 1200 s: internal_value = 6 1800 s: internal_value = 7 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 4 On-Line T316 of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 4 (180 s).11. 6 (1200 s). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: 376 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 2 (30 s). T317 (Continued) 0 (0 s). TCP Space for PDCP TCP Space for PDCP TCPspacePDCP RNC ACConfiguration 1 The parameter defines the maximum Context Identifier (CID) value for TCP connections. 3 (60 s).331. 331. FmaxPeriodPDCP of RNC. FmaxTimePDCP of RNC. MaxHeaderPDCP of RNC. NonTCPspacePDCP of RNC Parameter relationships: Interfaces: • • • • • • • References: • RNC to UE Planner to RAC RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. step 1 octets internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 15 octets Admission Control On-Line ExpectReorderingPDCP of RNC.. TCP Space for PDCP (Continued) 3.RAN Parameters Table 362. RRC Protocol Specification (PDCP info) 4. HeaderCompressionMethod of RNC.72 TGPLdoubleframeAMRgsm (Transmision gap pattern length in case of double frame: AMR service and GSM measurement) Table 363..255 octets.11. Transmision gap pattern length in case of double frame: AMR service and GSM measurement Transmision gap pattern length in case of double frame: AMR service and GSM measurement TGPLdoubleframeAMRgsm RNC PSParameters 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 377 (756) . TGPLsingleframeRTPSinterFreq of RNC Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. TGPLsingleframeNRTPSinterFreq of RNC. TGPLsingleframeAMRgsm of RNC.WCDMA RAN Parameters Table 363.215. Transmision gap pattern length in case of double frame: AMR service and GSM measurement (Continued) This parameter defines the length of transmission gap pattern for GSM inter-RAT measurement in case of compressed mode with double frame gap and UE using AMR service. TGPLdoubleframeNRTPSinterFreq of RNC. TGPLsingleframeRTPSgsm of RNC. Admission Control On-Line AltScramblingCodeCM of WCEL. TGPLsingleframeCSgsm of RNC. 3. MinDLAMRmodeCM of RNC. TGPLdoubleframeNRTPSgsm of RNC. step 1 internal_value = gui_value Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 Packet Scheduler. TGPLsingleframeNRTPSgsm of RNC.331. HLSModeSelection of RNC. MaxNumbUECMcoverHO of WCEL. Physical Layer Measurements (FDD) 3GPP Reference: TS 25. PowerMarginCMcodeHalving of RNC.144 . TGPLsingleframeAMRinterFreq of RNC. TGPLsingleframeCSinterFreq of RNC. TGPLdoubleframeAMRinterFreq of RNC.. RRC Protocol Specification 378 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . CMmasterSwitch of RNC.. GapPositionSingleFrame of RNC. LowerULAMRmodeCM of RNC. HLSModeSelection of RNC.73 TGPLdoubleframeAMRinterFreq (Transmision gap pattern length in case of double frame: AMR service and IF measurement) Table 364. TGPLsingleframeRTPSgsm of RNC. CMmasterSwitch of RNC. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 Admission Control. TGPLsingleframeCSgsm of RNC. TGPLsingleframeRTPSinterFreq of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 379 (756) .18 . GapPositionSingleFrame of RNC. TGPLsingleframeNRTPSinterFreq of RNC. Transmision gap pattern length in case of double frame: AMR service and IF measurement Transmision gap pattern length in case of double frame: AMR service and IF measurement TGPLdoubleframeAMRinterFreq RNC PSParameters 1 This parameter defines the length of transmission gap pattern for WCDMA inter-frequency measurement in case of compressed mode with double frame gap and UE using AMR service.. TGPLdoubleframeNRTPSinterFreq of RNC. 3. TGPLsingleframeNRTPSgsm of RNC. PowerMarginCMcodeHalving of RNC. MinDLAMRmodeCM of RNC. LowerULAMRmodeCM of RNC.11. MaxNumbUECMcoverHO of WCEL.RAN Parameters 4. TGPLsingleframeCSinterFreq of RNC. TGPLdoubleframeAMRgsm of RNC. TGPLsingleframeAMRgsm of RNC.. TGPLdoubleframeNRTPSgsm of RNC. Packet Scheduler On-Line AltScramblingCodeCM of WCEL. TGPLsingleframeAMRinterFreq of RNC. Transmision gap pattern length in case of double frame: AMR service and IF measurement (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25... RRC Protocol Specification 3GPP Reference: TS 25. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 4 Admission Control.11. Physical Layer Measurements (FDD) 4.215.WCDMA RAN Parameters Table 364.144 .74 TGPLdoubleframeNRTPSgsm (Transmision gap pattern length in case of double frame: NRT PS service and GSM measurement) Table 365. Packet Scheduler On-Line 380 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .331. Transmision gap pattern length in case of double frame: NRT PS service and GSM measurement Transmision gap pattern length in case of double frame: NRT PS service and GSM measurement TGPLdoubleframeNRTPSgsm RNC PSParameters 1 This parameter defines the length of transmission gap pattern for GSM inter-RAT measurement in case of compressed mode with double frame gap and UE using non-real time packet scheduled data service. 3. 215. TGPLsingleframeCSgsm of RNC. HLSModeSelection of RNC. TGPLsingleframeNRTPSinterFreq of RNC. TGPLdoubleframeNRTPSinterFreq of RNC. TGPLsingleframeAMRgsm of RNC. TGPLsingleframeAMRinterFreq of RNC. PowerMarginCMcodeHalving of RNC.75 TGPLdoubleframeNRTPSinterFreq (Transmision gap pattern length in case of double frame: NRT PS service and IF measurement) Table 366. LowerULAMRmodeCM of RNC.RAN Parameters Table 365. CMmasterSwitch of RNC. TGPLsingleframeNRTPSgsm of RNC. GapPositionSingleFrame of RNC. TGPLsingleframeRTPSinterFreq of RNC Related parameters: Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Transmision gap pattern length in case of double frame: NRT PS service and GSM measurement (Continued) AltScramblingCodeCM of WCEL. TGPLsingleframeCSinterFreq of RNC. TGPLsingleframeRTPSgsm of RNC. Transmision gap pattern length in case of double frame: NRT PS service and IF measurement Transmision gap pattern length in case of double frame: NRT PS service and IF measurement TGPLdoubleframeNRTPSinterFreq RNC PSParameters 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 381 (756) .331. MaxNumbUECMcoverHO of WCEL.11. MinDLAMRmodeCM of RNC. RRC Protocol Specification 4. TGPLdoubleframeAMRinterFreq of RNC. Physical Layer Measurements (FDD) 3GPP Reference: TS 25. TGPLdoubleframeAMRgsm of RNC. MinDLAMRmodeCM of RNC. PowerMarginCMcodeHalving of RNC. HLSModeSelection of RNC. TGPLdoubleframeAMRinterFreq of RNC.. MaxNumbUECMcoverHO of WCEL. RRC Protocol Specification 3GPP Reference: TS 25. TGPLsingleframeNRTPSgsm of RNC. 3. step 1 internal_value = gui_value Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 Packet Scheduler. Physical Layer Measurements (FDD) 382 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 366. TGPLsingleframeRTPSinterFreq of RNC Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. TGPLsingleframeNRTPSinterFreq of RNC. TGPLsingleframeCSgsm of RNC. Admission Control On-Line AltScramblingCodeCM of WCEL. TGPLdoubleframeAMRgsm of RNC. TGPLsingleframeAMRgsm of RNC.. TGPLsingleframeCSinterFreq of RNC. TGPLsingleframeRTPSgsm of RNC.18 .215. LowerULAMRmodeCM of RNC. Transmision gap pattern length in case of double frame: NRT PS service and IF measurement (Continued) This parameter defines the length of transmission gap pattern for WCDMA inter-frequency measurement in case of compressed mode with double frame gap and UE using non-real time packet scheduled data service.331. TGPLsingleframeAMRinterFreq of RNC. TGPLdoubleframeNRTPSgsm of RNC. GapPositionSingleFrame of RNC. CMmasterSwitch of RNC. TGPLdoubleframeNRTPSgsm of RNC. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 Packet Scheduler. TGPLsingleframeCSgsm of RNC. CMmasterSwitch of RNC. TGPLsingleframeRTPSinterFreq of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 383 (756) . MaxNumbUECMcoverHO of WCEL.76 TGPLsingleframeAMRgsm (Transmision gap pattern length in case of single frame: AMR service and GSM measurement) Table 367.11. TGPLsingleframeNRTPSinterFreq of RNC. TGPLsingleframeAMRinterFreq of RNC. TGPLsingleframeRTPSgsm of RNC.RAN Parameters 4. TGPLsingleframeNRTPSgsm of RNC. 2. MinDLAMRmodeCM of RNC. TGPLdoubleframeAMRgsm of RNC. TGPLdoubleframeNRTPSinterFreq of RNC. HLSModeSelection of RNC. GapPositionSingleFrame of RNC. LowerULAMRmodeCM of RNC. PowerMarginCMcodeHalving of RNC. Transmision gap pattern length in case of single frame: AMR service and GSM measurement Transmision gap pattern length in case of single frame: AMR service and GSM measurement TGPLsingleframeAMRgsm RNC PSParameters 1 This parameter defines the length of transmission gap pattern for GSM inter-RAT measurement in case of compressed mode with single frame gap and UE using AMR service.. TGPLdoubleframeAMRinterFreq of RNC. Admission Control On-Line AltScramblingCodeCM of WCEL..144 . TGPLsingleframeCSinterFreq of RNC. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 4 Admission Control. Packet Scheduler On-Line 384 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 2.331.11. Transmision gap pattern length in case of single frame: AMR service and IF measurement Transmision gap pattern length in case of single frame: AMR service and IF measurement TGPLsingleframeAMRinterFreq RNC PSParameters 1 This parameter defines the length of transmission gap pattern for WCDMA inter-frequency measurement in case of compressed mode with single frame gap and UE using AMR service.WCDMA RAN Parameters Table 367.18 .. Transmision gap pattern length in case of single frame: AMR service and GSM measurement (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.77 TGPLsingleframeAMRinterFreq (Transmision gap pattern length in case of single frame: AMR service and IF measurement) Table 368. RRC Protocol Specification 4..215. Physical Layer Measurements (FDD) 3GPP Reference: TS 25. LowerULAMRmodeCM of RNC. TGPLsingleframeCSinterFreq of RNC. CMmasterSwitch of RNC. TGPLsingleframeAMRgsm of RNC.331.215. Transmision gap pattern length in case of single frame: AMR service and IF measurement (Continued) AltScramblingCodeCM of WCEL. TGPLdoubleframeAMRgsm of RNC. TGPLdoubleframeNRTPSinterFreq of RNC. HLSModeSelection of RNC. TGPLsingleframeNRTPSinterFreq of RNC. PowerMarginCMcodeHalving of RNC.11. TGPLdoubleframeAMRinterFreq of RNC. RRC Protocol Specification 3GPP Reference: TS 25.RAN Parameters Table 368. MinDLAMRmodeCM of RNC. Transmision gap pattern length in case of single frame: CS service and GSM measurement Transmision gap pattern length in case of single frame: CS service and GSM measurement TGPLsingleframeCSgsm RNC PSParameters 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 385 (756) . TGPLsingleframeRTPSinterFreq of RNC Related parameters: Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Physical Layer Measurements (FDD) 4. TGPLdoubleframeNRTPSgsm of RNC.78 TGPLsingleframeCSgsm (Transmision gap pattern length in case of single frame: CS service and GSM measurement) Table 369. TGPLsingleframeRTPSgsm of RNC. GapPositionSingleFrame of RNC. MaxNumbUECMcoverHO of WCEL. TGPLsingleframeCSgsm of RNC. TGPLsingleframeNRTPSgsm of RNC. TGPLsingleframeRTPSgsm of RNC. TGPLsingleframeAMRinterFreq of RNC. Packet Scheduler On-Line AltScramblingCodeCM of WCEL.WCDMA RAN Parameters Table 369.331. 2. TGPLdoubleframeAMRinterFreq of RNC. CMmasterSwitch of RNC. TGPLdoubleframeAMRgsm of RNC. HLSModeSelection of RNC. TGPLsingleframeRTPSinterFreq of RNC Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. GapPositionSingleFrame of RNC. TGPLsingleframeNRTPSgsm of RNC.. PowerMarginCMcodeHalving of RNC. step 1 internal_value = gui_value Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 Admission Control. Physical Layer Measurements (FDD) 3GPP Reference: TS 25. MaxNumbUECMcoverHO of WCEL. TGPLdoubleframeNRTPSinterFreq of RNC. MinDLAMRmodeCM of RNC. RRC Protocol Specification 386 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. TGPLsingleframeAMRgsm of RNC.215. TGPLsingleframeCSinterFreq of RNC. TGPLsingleframeNRTPSinterFreq of RNC. LowerULAMRmodeCM of RNC. Transmision gap pattern length in case of single frame: CS service and GSM measurement (Continued) This parameter defines the length of transmission gap pattern for GSM inter-RAT measurement in case of compressed mode with single frame gap and UE using circuit switched data service. TGPLdoubleframeNRTPSgsm of RNC.144 . MaxNumbUECMcoverHO of WCEL. TGPLsingleframeNRTPSinterFreq of RNC. LowerULAMRmodeCM of RNC.18 . TGPLsingleframeRTPSgsm of RNC. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 Admission Control.11. TGPLsingleframeNRTPSgsm of RNC. TGPLsingleframeAMRinterFreq of RNC. TGPLsingleframeRTPSinterFreq of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 387 (756) . Transmision gap pattern length in case of single frame: CS service and IF measurement Transmision gap pattern length in case of single frame: CS service and IF measurement TGPLsingleframeCSinterFreq RNC PSParameters 1 This parameter defines the length of transmission gap pattern for WCDMA inter-frequency measurement in case of compressed mode with single frame gap and UE using circuit switched data service. HLSModeSelection of RNC.. PowerMarginCMcodeHalving of RNC. 2. TGPLdoubleframeNRTPSgsm of RNC.RAN Parameters 4. CMmasterSwitch of RNC.. TGPLsingleframeCSgsm of RNC.79 TGPLsingleframeCSinterFreq (Transmision gap pattern length in case of single frame: CS service and IF measurement) Table 370. Packet Scheduler On-Line AltScramblingCodeCM of WCEL. TGPLsingleframeAMRgsm of RNC. TGPLdoubleframeAMRinterFreq of RNC. MinDLAMRmodeCM of RNC. TGPLdoubleframeAMRgsm of RNC. TGPLdoubleframeNRTPSinterFreq of RNC. GapPositionSingleFrame of RNC. Packet Scheduler On-Line 388 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . RRC Protocol Specification 4.144 . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 4 Admission Control.215. Physical Layer Measurements (FDD) 3GPP Reference: TS 25. Transmision gap pattern length in case of single frame: CS service and IF measurement (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331.11.80 TGPLsingleframeNRTPSgsm (Transmision gap pattern length in case of single frame: NRT PS service and GSM measurement) Table 371. 2. Transmision gap pattern length in case of single frame: NRT PS service and GSM measurement Transmision gap pattern length in case of single frame: NRT PS service and GSM measurement TGPLsingleframeNRTPSgsm RNC PSParameters 1 This parameter defines the length of transmission gap pattern for GSM inter-RAT measurement in case of compressed mode with single frame gap and UE using non-real time packet scheduled service...WCDMA RAN Parameters Table 370. TGPLsingleframeCSinterFreq of RNC.81 TGPLsingleframeNRTPSinterFreq (Transmision gap pattern length in case of single frame: NRT PS service and IF measurement) Table 372.11. TGPLsingleframeCSgsm of RNC. TGPLsingleframeAMRinterFreq of RNC. GapPositionSingleFrame of RNC. MaxNumbUECMcoverHO of WCEL.RAN Parameters Table 371. HLSModeSelection of RNC. TGPLsingleframeAMRgsm of RNC. LowerULAMRmodeCM of RNC.331. TGPLsingleframeNRTPSinterFreq of RNC. RRC Protocol Specification 3GPP Reference: TS 25. MinDLAMRmodeCM of RNC. PowerMarginCMcodeHalving of RNC. TGPLdoubleframeAMRinterFreq of RNC. Physical Layer Measurements (FDD) 4. TGPLsingleframeRTPSgsm of RNC. TGPLdoubleframeNRTPSinterFreq of RNC.215. Transmision gap pattern length in case of single frame: NRT PS service and IF measurement Transmision gap pattern length in case of single frame: NRT PS service and IF measurement TGPLsingleframeNRTPSinterFreq RNC PSParameters 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 389 (756) . Transmision gap pattern length in case of single frame: NRT PS service and GSM measurement (Continued) AltScramblingCodeCM of WCEL. CMmasterSwitch of RNC. TGPLsingleframeRTPSinterFreq of RNC Related parameters: Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. TGPLdoubleframeNRTPSgsm of RNC. TGPLdoubleframeAMRgsm of RNC. 18 . 2. step 1 internal_value = gui_value Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 Admission Control.331. TGPLdoubleframeAMRinterFreq of RNC. TGPLsingleframeRTPSinterFreq of RNC Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. TGPLsingleframeAMRgsm of RNC. GapPositionSingleFrame of RNC. TGPLsingleframeNRTPSgsm of RNC. RRC Protocol Specification 390 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . MinDLAMRmodeCM of RNC. TGPLsingleframeCSinterFreq of RNC. HLSModeSelection of RNC.WCDMA RAN Parameters Table 372. TGPLsingleframeAMRinterFreq of RNC.. CMmasterSwitch of RNC. TGPLdoubleframeNRTPSinterFreq of RNC. Physical Layer Measurements (FDD) 3GPP Reference: TS 25.. LowerULAMRmodeCM of RNC. TGPLsingleframeRTPSgsm of RNC. Packet Scheduler On-Line AltScramblingCodeCM of WCEL. PowerMarginCMcodeHalving of RNC. TGPLdoubleframeNRTPSgsm of RNC. Transmision gap pattern length in case of single frame: NRT PS service and IF measurement (Continued) This parameter defines the length of transmission gap pattern for WCDMA inter-frequency measurement in case of compressed mode with single frame gap and UE using non-real time packet scheduled service.215. TGPLdoubleframeAMRgsm of RNC. MaxNumbUECMcoverHO of WCEL. TGPLsingleframeCSgsm of RNC. RAN Parameters 4. GapPositionSingleFrame of RNC. LowerULAMRmodeCM of RNC.. TGPLsingleframeRTPSinterFreq of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 391 (756) . HLSModeSelection of RNC. TGPLsingleframeCSgsm of RNC.. Transmision gap pattern length in case of single frame: RT PS service and GSM measurement Transmision gap pattern length in case of single frame: RT PS service and GSM measurement TGPLsingleframeRTPSgsm RNC PSParameters 1 This parameter defines the length of transmission gap pattern for GSM inter-RAT measurement in case of compressed mode with single frame gap and UE using real time packet scheduled service. MinDLAMRmodeCM of RNC.144 . 2. TGPLdoubleframeNRTPSgsm of RNC. TGPLsingleframeNRTPSgsm of RNC. TGPLsingleframeNRTPSinterFreq of RNC. TGPLsingleframeAMRgsm of RNC.11. TGPLsingleframeCSinterFreq of RNC. MaxNumbUECMcoverHO of WCEL.82 TGPLsingleframeRTPSgsm (Transmision gap pattern length in case of single frame: RT PS service and GSM measurement) Table 373. Admission Control On-Line AltScramblingCodeCM of WCEL. PowerMarginCMcodeHalving of RNC. TGPLsingleframeAMRinterFreq of RNC. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 4 Packet Scheduler. TGPLdoubleframeNRTPSinterFreq of RNC. CMmasterSwitch of RNC. TGPLdoubleframeAMRinterFreq of RNC. TGPLdoubleframeAMRgsm of RNC. 2. Transmision gap pattern length in case of single frame: RT PS service and IF measurement Transmision gap pattern length in case of single frame: RT PS service and IF measurement TGPLsingleframeRTPSinterFreq RNC PSParameters 1 This parameter defines the length of transmission gap pattern for WCDMA inter-frequency measurement in case of compressed mode with single frame gap and UE using real time packet scheduled service..215.331. Packet Scheduler On-Line 392 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 373. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 4 Admission Control.18 . RRC Protocol Specification 3GPP Reference: TS 25.11. Physical Layer Measurements (FDD) 4.. Transmision gap pattern length in case of single frame: RT PS service and GSM measurement (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.83 TGPLsingleframeRTPSinterFreq (Transmision gap pattern length in case of single frame: RT PS service and IF measurement) Table 374. RAN Parameters Table 374. TGPLdoubleframeNRTPSgsm of RNC. TGPLsingleframeNRTPSgsm of RNC. MaxNumbUECMcoverHO of WCEL. CMmasterSwitch of RNC. PowerMarginCMcodeHalving of RNC. MinDLAMRmodeCM of RNC.331. HLSModeSelection of RNC. RRC Protocol Specification 4. Physical Layer Measurements (FDD) 3GPP Reference: TS 25. Transmision gap pattern length in case of single frame: RT PS service and IF measurement (Continued) AltScramblingCodeCM of WCEL. TGPLsingleframeCSgsm of RNC. Time of Arrival Window Endpoint for common channels Time of Arrival Window Endpoint for common channels ToAWE_CCH RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 393 (756) . TGPLsingleframeCSinterFreq of RNC.11.215. TGPLsingleframeAMRgsm of RNC. GapPositionSingleFrame of RNC. TGPLsingleframeRTPSgsm of RNC Related parameters: Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. TGPLdoubleframeAMRgsm of RNC. TGPLdoubleframeAMRinterFreq of RNC.84 ToAWE_CCH (Time of Arrival Window Endpoint for common channels) Table 375. TGPLdoubleframeNRTPSinterFreq of RNC. TGPLsingleframeNRTPSinterFreq of RNC. LowerULAMRmodeCM of RNC. TGPLsingleframeAMRinterFreq of RNC. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 10 ms Admission Control. Description: Time of Arrival Window Endpoint for common channels (Continued) This parameter defines the ending point of the receiving window..11. Packet Scheduler On-Line ToAWS_CCH of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UTRAN Iub/Iur interface user plane protocol for DCH data streams References: • • 4. This parameter is for common channels FACH and PCH. 0. DL data frames are expected to be received before this window endpoint.427.WCDMA RAN Parameters Table 375.433. Time of Arrival Window Endpoint for NRT DCH (TTI 10) Time of Arrival Window Endpoint for NRT DCH (TTI 10) ToAWE_NRT_DCH_tti10 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 394 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..85 ToAWE_NRT_DCH_tti10 (Time of Arrival Window Endpoint for NRT DCH (TTI 10)) Table 376. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25.10 ms. UTRAN Iub Interface NBAP Signalling References: • • 4.433.86 ToAWE_NRT_DCH_tti20 (Time of Arrival Window Endpoint for NRT DCH (TTI 20)) Table 377. Time of Arrival Window Endpoint for NRT DCH (TTI 20) Time of Arrival Window Endpoint for NRT DCH (TTI 20) ToAWE_NRT_DCH_tti20 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 395 (756) .RAN Parameters Table 376.11. 0. UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25. Description: Time of Arrival Window Endpoint for NRT DCH (TTI 10) (Continued) This parameter defines the ending point of the receiving window..10 ms. This parameter is for Non Real Time dedicated channel configured to 10 ms transmission time interval..427. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 10 ms Admission Control. Packet Scheduler On-Line ToAWS_NRT_DCH_tti10 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. DL data frames are expected to be received before this window endpoint. UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25.427.87 ToAWE_NRT_DCH_tti40 (Time of Arrival Window Endpoint for NRT DCH (TTI 40)) Table 378.WCDMA RAN Parameters Table 377.. Admission Control On-Line ToAWS_NRT_DCH_tti20 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Description: Time of Arrival Window Endpoint for NRT DCH (TTI 20) (Continued) This parameter defines the ending point of the receiving window. 0.433.11.10 ms. Time of Arrival Window Endpoint for NRT DCH (TTI 40) Time of Arrival Window Endpoint for NRT DCH (TTI 40) ToAWE_NRT_DCH_tti40 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 396 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . DL data frames are expected to be received before this window endpoint.. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 10 ms Packet Scheduler. UTRAN Iub Interface NBAP Signalling References: • • 4. This parameter is for Non Real Time dedicated channel configured to 20 ms transmission time interval. . step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 10 ms Admission Control. Time of Arrival Window Endpoint for RT DCH (TTI 10) Time of Arrival Window Endpoint for RT DCH (TTI 10) ToAWE_RT_DCH_tti10 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 397 (756) .RAN Parameters Table 378. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25.10 ms.11. This parameter is for Non Real Time dedicated channel configured to 40 ms transmission time interval. Description: Time of Arrival Window Endpoint for NRT DCH (TTI 40) (Continued) This parameter defines the ending point of the receiving window. UTRAN Iub/Iur interface user plane protocol for DCH data streams References: • • 4.433.88 ToAWE_RT_DCH_tti10 (Time of Arrival Window Endpoint for RT DCH (TTI 10)) Table 379.. 0.427. Packet Scheduler On-Line ToAWS_NRT_DCH_tti40 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. DL data frames are expected to be received before this window endpoint. Packet Scheduler On-Line ToAWS_RT_DCH_tti10 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Description: Time of Arrival Window Endpoint for RT DCH (TTI 10) (Continued) This parameter defines the ending point of the receiving window. 0..11.427. This parameter is for Real Time dedicated channel configured to 10 ms transmission time interval. Time of Arrival Window Endpoint for RT DCH (TTI 20) Time of Arrival Window Endpoint for RT DCH (TTI 20) ToAWE_RT_DCH_tti20 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 398 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . UTRAN Iub/Iur interface user plane protocol for DCH data streams References: • • 4. DL data frames are expected to be received before this window endpoint.10 ms. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 10 ms Admission Control. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25.433.89 ToAWE_RT_DCH_tti20 (Time of Arrival Window Endpoint for RT DCH (TTI 20)) Table 380.WCDMA RAN Parameters Table 379.. Packet Scheduler On-Line ToAWS_RT_DCH_tti20 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Time of Arrival Window Endpoint for RT DCH (TTI 40) Time of Arrival Window Endpoint for RT DCH (TTI 40) ToAWE_RT_DCH_tti40 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 399 (756) . UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25.427.. 0. This parameter is for Real Time dedicated channel configured to 20 ms transmission time interval. DL data frames are expected to be received before this window endpoint.RAN Parameters Table 380.90 ToAWE_RT_DCH_tti40 (Time of Arrival Window Endpoint for RT DCH (TTI 40)) Table 381.10 ms. UTRAN Iub Interface NBAP Signalling References: • • 4. Description: Time of Arrival Window Endpoint for RT DCH (TTI 20) (Continued) This parameter defines the ending point of the receiving window.11. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 10 ms Admission Control.433.. 10 ms.427.11.91 ToAWE_Speech (Time of Arrival Window Endpoint for speech services) Table 382. 0. This parameter is for Real Time dedicated channel configured to 40 ms transmission time interval.433... Admission Control On-Line ToAWS_RT_DCH_tti40 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.WCDMA RAN Parameters Table 381. Time of Arrival Window Endpoint for speech services Time of Arrival Window Endpoint for speech services ToAWE_Speech RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 400 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . UTRAN Iub Interface NBAP Signalling References: • • 4. Description: Time of Arrival Window Endpoint for RT DCH (TTI 40) (Continued) This parameter defines the ending point of the receiving window. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 10 ms Packet Scheduler. UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25. DL data frames are expected to be received before this window endpoint. 427. UTRAN Iub Interface NBAP Signalling References: • • 4. Description: Time of Arrival Window Endpoint for speech services (Continued) This parameter defines the ending point of the receiving window.11. UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25. This parameter is used for speech service. Packet Scheduler On-Line ToAWS_Speech of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 0.RAN Parameters Table 382.. Time of Arrival Window Startpoint for common channels Time of Arrival Window Startpoint for common channels ToAWS_CCH RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 401 (756) ..10 ms. informed by RANAP specifications speech indicator and/or transfer delay requirements 100 ms and below.433.92 ToAWS_CCH (Time of Arrival Window Startpoint for common channels) Table 383. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 5 ms Admission Control. DL data frames are expected to be received before this window endpoint. 199 ms. DL data frames are expected to be received after this window start point. This parameter is for common channels FACH and PCH... UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25. 0.11. Packet Scheduler On-Line ToAWE_CCH of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Description: Time of Arrival Window Startpoint for common channels This parameter defines the starting point for the receiving window supported by BTS.WCDMA RAN Parameters Table 383.433.427. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 25 ms Admission Control. Time of Arrival Window Startpoint for NRT DCH (TTI 10) Time of Arrival Window Startpoint for NRT DCH (TTI 10) ToAWS_NRT_DCH_tti10 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 402 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .93 ToAWS_NRT_DCH_tti10 (Time of Arrival Window Startpoint for NRT DCH (TTI 10)) Table 384. UTRAN Iub Interface NBAP Signalling References: • • 4. 11.. Description: Time of Arrival Window Startpoint for NRT DCH (TTI 10) This parameter defines the starting point for the receiving window supported by BTS..RAN Parameters Table 384. Time of Arrival Window Startpoint for NRT DCH (TTI 20) Time of Arrival Window Startpoint for NRT DCH (TTI 20) ToAWS_NRT_DCH_tti20 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 403 (756) . UTRAN Iub Interface NBAP Signalling References: • • 4. Packet Scheduler On-Line ToAWE_NRT_DCH_tti10 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25.199 ms.94 ToAWS_NRT_DCH_tti20 (Time of Arrival Window Startpoint for NRT DCH (TTI 20)) Table 385. This parameter is for Non Real Time dedicated channel configured to 10 ms transmission time interval. DL data frames are expected to be received after this window start point.427. 0. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 25 ms Admission Control.433. 95 ToAWS_NRT_DCH_tti40 (Time of Arrival Window Startpoint for NRT DCH (TTI 40)) Table 386. Time of Arrival Window Startpoint for NRT DCH (TTI 40) Time of Arrival Window Startpoint for NRT DCH (TTI 40) ToAWS_NRT_DCH_tti40 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 404 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . This parameter is for Non Real Time dedicated channel configured to 20 ms transmission time interval..199 ms. 0..WCDMA RAN Parameters Table 385. Description: Time of Arrival Window Startpoint for NRT DCH (TTI 20) This parameter defines the starting point for the receiving window supported by BTS. Admission Control On-Line ToAWE_NRT_DCH_tti20 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UTRAN Iub Interface NBAP Signalling References: • • 4. DL data frames are expected to be received after this window start point.433. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 25 ms Packet Scheduler. UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25.11.427. Packet Scheduler On-Line ToAWE_NRT_DCH_tti40 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. DL data frames are expected to be received after this window start point.433.RAN Parameters Table 386.427.96 ToAWS_RT_DCH_tti10 (Time of Arrival Window Startpoint for RT DCH (TTI 10)) Table 387.. 0.11. UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25. Description: Time of Arrival Window Startpoint for NRT DCH (TTI 40) This parameter defines the starting point for the receiving window supported by BTS. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 25 ms Admission Control. This parameter is for Non Real Time dedicated channel configured to 40 ms transmission time interval. UTRAN Iub Interface NBAP Signalling References: • • 4.199 ms. Time of Arrival Window Startpoint for RT DCH (TTI 10) Time of Arrival Window Startpoint for RT DCH (TTI 10) ToAWS_RT_DCH_tti10 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 405 (756) .. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25.11. Description: Time of Arrival Window Startpoint for RT DCH (TTI 10) (Continued) This parameter defines the starting point for the receiving window supported by BTS. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 25 ms Admission Control. DL data frames are expected to be received after this window start point. Time of Arrival Window Startpoint for RT DCH (TTI 20) Time of Arrival Window Startpoint for RT DCH (TTI 20) ToAWS_RT_DCH_tti20 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 406 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .97 ToAWS_RT_DCH_tti20 (Time of Arrival Window Startpoint for RT DCH (TTI 20)) Table 388. Packet Scheduler On-Line ToAWE_RT_DCH_tti10 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 0.427.. This parameter is for Real Time dedicated channel configured to 10 ms transmission time interval.WCDMA RAN Parameters Table 387.. UTRAN Iub/Iur interface user plane protocol for DCH data streams References: • • 4.199 ms.433. 0. UTRAN Iub/Iur interface user plane protocol for DCH data streams 3GPP Reference: TS 25.RAN Parameters Table 388.11. This parameter is for Real Time dedicated channel configured to 20 ms transmission time interval. DL data frames are expected to be received after this window start point.427.. Admission Control On-Line ToAWE_RT_DCH_tti20 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UTRAN Iub Interface NBAP Signalling References: • • 4. Description: Time of Arrival Window Startpoint for RT DCH (TTI 20) (Continued) This parameter defines the starting point for the receiving window supported by BTS.98 ToAWS_RT_DCH_tti40 (Time of Arrival Window Startpoint for RT DCH (TTI 40)) Table 389. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 25 ms Packet Scheduler.433.199 ms. Time of Arrival Window Startpoint for RT DCH (TTI 40) Time of Arrival Window Startpoint for RT DCH (TTI 40) ToAWS_RT_DCH_tti40 RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 407 (756) .. 0.WCDMA RAN Parameters Table 389.433.99 ToAWS_Speech (Time of Arrival Window Startpoint for speech services) Table 390. Description: Time of Arrival Window Startpoint for RT DCH (TTI 40) (Continued) This parameter defines the starting point for the receiving window supported by BTS..11. Packet Scheduler On-Line ToAWE_RT_DCH_tti40 of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 25 ms Admission Control. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25.. Time of Arrival Window Startpoint for speech services Time of Arrival Window Startpoint for speech services ToAWS_Speech RNC 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 408 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .427. This parameter is for Real Time dedicated channel configured to 40 ms transmission time interval. DL data frames are expected to be received after this window start point.199 ms. UTRAN Iub/Iur interface user plane protocol for DCH data streams References: • • 4. DL data frames are expected to be received after this window start point. This parameter is used for speech service.11.427. step 1 ms internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 15 ms Admission Control. informed by RANAP specifications speech indicator and/or transfer delay requirements 100 ms and below.433.RAN Parameters Table 390. UTRAN Iub/Iur interface user plane protocol for DCH data streams References: • • 4. 0.199 ms. Packet Scheduler On-Line ToAWE_Speech of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.. Downlink traffic volume measurement pending time after trigger Downlink traffic volume measurement pending time after trigger TrafVolPendingTimeDL RNC PSParameters 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 409 (756) .. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. Description: Time of Arrival Window Startpoint for speech services (Continued) This parameter defines the starting point for the receiving window supported by BTS.100 TrafVolPendingTimeDL (Downlink traffic volume measurement pending time after trigger) Table 391. 101 TrafVolPendingTimeUL (Uplink traffic volume measurement pending time after trigger) Table 392. CrQueuingTimeDL of RNC. 400 (4000 ms). 800 (8000 ms). 100 (1000 ms). 1600 (16000 ms) • • • • • • • 250 ms: internal_value = 25 500 ms: internal_value = 50 1000 ms: internal_value = 100 2000 ms: internal_value = 200 4000 ms: internal_value = 400 8000 ms: internal_value = 800 16000 ms: internal_value = 1600 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 200 Packet Scheduler On-Line TrafVolThresholdDLLow of WCEL. 50 (500 ms).11. even if the triggering condition is fulfilled again. during which it is forbidden to send any new downlink capacity requests with the same RB id. Description: Downlink traffic volume measurement pending time after trigger This parameter indicates the period of time. TrafVolTimeToTriggerDL of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. in seconds.WCDMA RAN Parameters Table 391. 200 (2000 ms). 25 (250 ms). Uplink traffic volume measurement pending time after trigger Uplink traffic volume measurement pending time after trigger TrafVolPendingTimeUL RNC PSParameters Parameter name: Abbreviated name: Managed object: Parameter group: 410 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . TrafVolThresholdDLHigh of RNC. This parameter also indicates the period during which the UE blocks DTCH transmissions on the RACH after a measurement report is triggered. Parameter is sent to UE using an RRC: MEASUREMENT CONTROL message. CrQueuingTimeUL of RNC.RAN Parameters Table 392. in seconds. TrafVolTimeToTriggerUL of RNC Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. RRC Protocol Specification DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 411 (756) . 1600 (16000 ms) • • • • • • • 250 ms: internal_value = 25 500 ms: internal_value = 50 1000 ms: internal_value = 100 2000 ms: internal_value = 200 4000 ms: internal_value = 400 8000 ms: internal_value = 800 16000 ms: internal_value = 1600 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 200 Packet Scheduler On-Line TrafVolThresholdULLow of WCEL. 400 (4000 ms). 100 (1000 ms). Multiplicity: Description: Uplink traffic volume measurement pending time after trigger 1 This parameter indicates the period of time. 800 (8000 ms). Range and step: 25 (250 ms).331. even if the triggering condition is fulfilled again. 200 (2000 ms). 50 (500 ms). TrafVolThresholdULHigh of RNC. during which it is forbidden to send any new traffic volume measurement reports with the same measurement ID. 64 (64 bytes).11. 3072 (3 KB).102 TrafVolThresholdDLHigh (Downlink traffic volume measurement high threshold) Table 393. 16 (16 bytes). 2048 (2 KB). TrafVolPendingTimeDL of RNC. Downlink traffic volume measurement high threshold Downlink traffic volume measurement high threshold TrafVolThresholdDLHigh RNC PSParameters 1 This parameter defines the threshold of data in the RLC buffer of RB in bytes which triggers downlink traffic volume measurement report (capacity request) on MAC. 128 (128 bytes). when UE is in a Cell_DCH state and the initial bit rate DCH is allocated for the radio bearer. 0 (0 bytes). 1024 (1 KB). TrafVolTimeToTriggerDL of RNC 412 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 8 (8 bytes).WCDMA RAN Parameters 4. 256 (256 bytes). 4096 (4 KB) • • • • • • • • • • • • 0 bytes: internal_value = 0 8 bytes: internal_value = 8 16 bytes: internal_value = 16 32 bytes: internal_value = 32 64 bytes: internal_value = 64 128 bytes: internal_value = 128 256 bytes: internal_value = 256 512 bytes: internal_value = 512 1 KB: internal_value = 1024 2 KB: internal_value = 2048 3 KB: internal_value = 3072 4 KB: internal_value = 4096 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1024 Packet Scheduler On-Line TrafVolThresholdDLLow of WCEL. 512 (512 bytes). 32 (32 bytes). 1 (16 bytes).RAN Parameters Table 393. 3 KB). 8 (2048 bytes. 2 (32 bytes). 7 (1024 bytes. 4 (128 bytes). Uplink traffic volume measurement high threshold Uplink traffic volume measurement high threshold TrafVolThresholdULHigh RNC PSParameters 1 The parameter defines the threshold of data in RLC buffer of RB in bytes. 5 (256 bytes). Downlink traffic volume measurement high threshold (Continued) Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to UE 4.103 TrafVolThresholdULHigh (Uplink traffic volume measurement high threshold) Table 394. The parameter is sent to the UE using the RRC: MEASUREMENT CONTROL message. This threshold triggers the uplink traffic volume measurement report when the UE is in a Cell_DCH state and the initial bit rate DCH is allocated for the radio bearer. 10 (4096 bytes. 1 KB). 3 (64 bytes). 9 (3072 bytes. 4 KB) DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 413 (756) . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (8 bytes). 6 (512 bytes).11. 2 KB). 3 KB: internal_value = 9 4096 bytes.331. 1 KB: internal_value = 7 2048 bytes.11. RRC Protocol Specification 4. TrafVolTimeToTriggerUL of RNC Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Downlink traffic volume measurement time to trigger Downlink traffic volume measurement time to trigger TrafVolTimeToTriggerDL RNC PSParameters Parameter name: Abbreviated name: Managed object: Parameter group: 414 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 394. 2 KB: internal_value = 8 3072 bytes. 4 KB: internal_value = 10 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 7 Packet Scheduler On-Line TrafVolThresholdULLow of WCEL. TrafVolPendingTimeUL of RNC. Uplink traffic volume measurement high threshold (Continued) • • • • • • • • • • • 8 bytes: internal_value = 0 16 bytes: internal_value = 1 32 bytes: internal_value = 2 64 bytes: internal_value = 3 128 bytes: internal_value = 4 256 bytes: internal_value = 5 512 bytes: internal_value = 6 1024 bytes.104 TrafVolTimeToTriggerDL (Downlink traffic volume measurement time to trigger) Table 395. 10 (10 ms).RAN Parameters Table 395. 160 (160 ms). 20 (20 ms). 640 (640 ms). 80 (80 ms). TrafVolPendingTimeDL of RNC. Multiplicity: Description: Downlink traffic volume measurement time to trigger (Continued) 1 This parameter defines. 60 (60 ms). 5000 (5000 ms) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 10 20 ms: internal_value = 20 40 ms: internal_value = 40 60 ms: internal_value = 60 80 ms: internal_value = 80 100 ms: internal_value = 100 120 ms: internal_value = 120 160 ms: internal_value = 160 200 ms: internal_value = 200 240 ms: internal_value = 240 320 ms: internal_value = 320 640 ms: internal_value = 640 1280 ms: internal_value = 1280 2560 ms: internal_value = 2560 5000 ms: internal_value = 5000 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 Packet Scheduler On-Line TrafVolThresholdDLLow of WCEL. the period of time between the timing of event detection and the timing of sending a downlink capacity request. 320 (320 ms). TrafVolThresholdDLHigh of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 415 (756) . 100 (100 ms). 0 (0 ms). 240 (240 ms). 1280 (1280 ms). 2560 (2560 ms). 40 (40 ms). 120 (120 ms). in ms. 200 (200 ms). 640 (640 ms). 160 (160 ms). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (0 ms). 240 (240 ms). 320 (320 ms). in ms. 1280 (1280 ms). 10 (10 ms). 60 (60 ms). 120 (120 ms). Uplink traffic volume measurement time to trigger Uplink traffic volume measurement time to trigger TrafVolTimeToTriggerUL RNC PSParameters 1 This parameter defines.105 TrafVolTimeToTriggerUL (Uplink traffic volume measurement time to trigger) Table 396.11. the period of time between the timing of event detection and the timing of sending a traffic volume measurement report.WCDMA RAN Parameters 4. 100 (100 ms). 2560 (2560 ms). 200 (200 ms). 80 (80 ms). This parameter is sent to the UE using an RRC: MEASUREMENT CONTROL message. 20 (20 ms). 5000 (5000 ms) • • • • • • • • • • • • • • • • 0 ms: internal_value = 0 10 ms: internal_value = 10 20 ms: internal_value = 20 40 ms: internal_value = 40 60 ms: internal_value = 60 80 ms: internal_value = 80 100 ms: internal_value = 100 120 ms: internal_value = 120 160 ms: internal_value = 160 200 ms: internal_value = 200 240 ms: internal_value = 240 320 ms: internal_value = 320 640 ms: internal_value = 640 1280 ms: internal_value = 1280 2560 ms: internal_value = 2560 5000 ms: internal_value = 5000 Formula for getting internal value: Default value Default value notes Related functions: 0 Packet Scheduler 416 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 40 (40 ms). then the uplink outer loop PC controller sends a quality deterioration report to HC. or further actions are taken by HC.5 s. and the uplink SIR Target modification commands. 0. received by the outer loop PC controller from the current active PC Entity during ULQualDetRepThreshold seconds. are all greater than zero..331. TrafVolThresholdULHigh of RNC Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.RAN Parameters Table 396. RRC Protocol Specification 4. with ULQualDetREpTreshold defining the period. The quality deterioration message to the HC is periodically repeated. Uplink traffic volume measurement time to trigger (Continued) On-Line TrafVolThresholdULLow of WCEL.5 s internal_value = gui_value * 2 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 5s DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 417 (756) . TrafVolPendingTimeUL of RNC. UL quality deterioration reporting threshold UL quality deterioration reporting threshold ULQualDetRepThreshold RNC PCConfiguration 1 If the uplink SIR target has reached the maximum..5.11. until eiher the quality target is resumed. step 0.106 ULQualDetRepThreshold (UL quality deterioration reporting threshold) Table 397. meaning that the condition specified above is no longer met. Based on this timer the MAC -c shall give the No_Data indication to the RRC. which is in Cell_FACH state. 50.WCDMA RAN Parameters Table 397.. Packet Scheduler On-Line - 418 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. UL quality deterioration reporting threshold (Continued) On-Line - Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. which further can change the state of the RRC from Cell_FACH state to the Cell_PCH state (or URA_PCH state).10000 ms. step 50 ms internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2000 ms Admission Control.107 UL_DL_activation_timer (UL/DL activation timer) Table 398. UL/DL activation timer UL/DL activation timer UL_DL_activation_timer RNC 1 This timer is used on MAC -c to detect idle periods on data transmission (NRT RBs and SRBs) for the UE.11. Value 1.72). 12 (0.44). 3 (0. 1 (0.76).108 ULpuncturingLimit (Uplink puncturing limit ) Table 399. default). 9 (0.0 means that no puncturing is used. 15 (1) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 419 (756) .88).68. 10 (0. UL/DL activation timer (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. 5 (0. 4 (0.6). 6 (0.4). Uplink puncturing limit Uplink puncturing limit ULpuncturingLimit RNC ACConfiguration 1 The parameter defines the maximum puncturing ratio allowed to be used in UL DCH's.96). 0 (0. Value 0.RAN Parameters Table 398.8).92). 2 (0.56).52).64). 13 (0. 14 (0. 8 (0.11.68 corresponds to puncturing from 1/3 coding rate to coding rate.48). 7 (0.84). 11 (0. 72: internal_value = 8 0.52: internal_value = 3 0.88: internal_value = 12 0. Uplink puncturing limit (Continued) • • • • • • • • • • • • • • • • 0.WCDMA RAN Parameters Table 399. UTRAN Iub Interface NBAP Signalling References: • 420 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .44: internal_value = 1 0.6: internal_value = 5 0.96: internal_value = 14 1: internal_value = 15 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 7 Admission Control On-Line DLpuncturingLimit of RNC • • • • • RNC to WBTS Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.84: internal_value = 11 0.92: internal_value = 13 0.64: internal_value = 6 0.48: internal_value = 2 0.56: internal_value = 4 0. default: internal_value = 7 0.76: internal_value = 9 0.433.4: internal_value = 0 0.68.8: internal_value = 10 0. 0..RAN Parameters 4.11.. the UTRAN originated paging message is repeated as defined by this parameter.10 times. UTRAN originated paging repetition UTRAN originated paging repetition UTRANorigPagingRep RNC 1 After the first UTRAN originated paging message (RRC:PAGING TYPE 1) is sent to the MS in CELL_PCH or URA_PCH state and no response (RRC:Cell Update with cause value 'Paging Response') received from MS. step 1 times internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2 times On-Line UTRANorigPagingRepInterv of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 421 (756) . Repetition is made using an interval defined by the parameter 'UTRAN originated paging repetition interval'.109 UTRANorigPagingRep (UTRAN originated paging repetition) Table 400. step 1 times internal_value = gui_value 2 times On-Line UTRAN_DRX_length of WCEL.11. Note: If the UTRAN DRX Cycle Length is reduced from the default value. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0.. then this parameter must be increased accordingly. UTRAN originated paging repetition interval UTRAN originated paging repetition interval UTRANorigPagingRepInterv RNC 1 Repetition interval of UTRAN originated paging procedure is a multiply of UTRAN DRX Cycle Length of an individual MS.WCDMA RAN Parameters 4.10 times..110 UTRANorigPagingRepInterv (UTRAN originated paging repetition interval ) Table 401. UTRANorigPagingRep of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 422 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The shortest repetition period is one UTRAN DRX Cycle Length. If the MS has not responded to a last paging procedure. the repeated paging message is sent during the next awake period of the MS. The UL DPCH will be scrambled with a long scrambling code.111 UlScrCodeMax (Uplink scrambling code maximum value) Table 402. All uplink physical channels are subjected to scrambling with a complex-valued scrambling code. even if the frequency is changed.16777215 ..11.RAN Parameters 4.. Uplink scrambling code maximum value Uplink scrambling code maximum value UlScrCodeMax RNC ACConfiguration 1 This parameter defines the maximum value of the uplink scrambling code. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 8192. The uplink scrambling code is unique for each MS and it is used continuously. step 1 internal_value = gui_value 2000000 On-Line UlScrCodeMin of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 423 (756) . The first 0?8191 scrambling codes are reserved to be used in inter-RAT handovers from GSM to UTRAN. 112 UlScrCodeMin (Uplink scrambling code minimum value) Table 403.16777215 . even if the frequency is changed. Uplink scrambling code minimum value Uplink scrambling code minimum value UlScrCodeMin RNC ACConfiguration 1 This parameter defines the minimum value of the uplink scrambling code. The first 0?8191 scrambling codes are reserved to be used in inter-RAT handovers from GSM to UTRAN..WCDMA RAN Parameters 4. The uplink scrambling code is unique for each MS and it is used continuously. step 1 internal_value = gui_value 1000000 On-Line UlScrCodeMax of RNC • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC References: - 424 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 8192.11. The UL DPCH will be scrambled with a long scrambling code.. All uplink physical channels are subjected to scrambling with a complex-valued scrambling code. 0 (False). 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (No) Power Control On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. RRC Protocol Specification References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 425 (756) . The UE applies a change in the transmit power of the uplink DPCCH at the beginning of the first slot after an uplink transmission gap.331. The value of RESUME (in dB) is determined by the UE according to this parameter value. Initial transmit power in uplink compressed mode Initial transmit power in uplink compressed mode UpLinkInitialTransmitPowerMode RNC PCConfiguration 1 This RNC based parameter is used by the UE when in uplink compressed mode.RAN Parameters 4.11.113 UpLinkInitialTransmitPowerMode (Initial transmit power in uplink compressed mode) Table 404. with respect to the uplink DPCCH power in the most recently transmitted uplink slot. 114 UpLinkRecoveryPeriodPowerMode (Recovery Period Power in UL Compressed Mode) Table 405. Recovery Period Power in UL Compressed Mode Recovery Period Power in UL Compressed Mode UpLinkRecoveryPeriodPowerMode RNC PCConfiguration 1 This RNC based parameter is used by the UE when in compressed mode. 0 (Not Used). 1 (Used) • • 0 Power Control On-Line Not Used: internal_value = 0 Used: internal_value = 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.WCDMA RAN Parameters 4. the mode of the uplink power control algorithm and the uplink power step size are not changed.331.11. If set to "0". RRC Protocol Specification References: • 426 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The Recovery Period Power parameter value defines the mode of the uplink power control algorithm and the uplink power step size. during the recovery period (the recovery period length is the minimum value of the transmission gap length and 7 slots). after each transmission gap (within the compressed frames). RAN Parameters 4. Upper Rx-Tx TD Threshold Upper Rx-Tx TD Threshold UpperRxTxTimeDiff RNC HCConfiguration 1 This parameter defines the absolute threshold which is used by the UE to trigger the reporting event 6F due to UE Rx-Tx time difference.. RRC Protocol Specification References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 427 (756) . step 1 chips internal_value = gui_value 1174 chips Handover Control On-Line LowerRxTxTimeDiff of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1152.331.1280 chips. The RNC adjusts the DL DPCH air-interface timing by replacing the old radio link (which triggered the reporting event 6F) by a new radio link (with renewed air-interface timing) in the same active set cell.11. The RNC uses the measurement report to adjust the DL DPCH air-interface timing of the radio link.. The MS sends an event 6F triggered measurement report to the RNC when the UE Rx-Tx time difference for a radio link included in the active set becomes larger than the threshold.115 UpperRxTxTimeDiff (Upper Rx-Tx TD Threshold) Table 406. 11. WaitTimeRRCstreaming. WaitTimeRRCunknown. Wait time in RRC connection request rejection Wait time in RRC connection request rejection WaitTimeRRC RNC ACConfiguration 1 Defines the value of the parameter Wait Time included in the RRC: RRC Connection Reject message. WaitTimeRRCemergency. WaitTimeRRCbackground. Value 0 of the parameter indicates that repeated requests are not allowed.116 WaitTimeRRC (Wait time in RRC connection request rejection) Table 407.WCDMA RAN Parameters 4. WaitTimeRRChighPrioritySignalling. WaitTimeRRCsubscribed. The value of the parameter is dependant on the value of the Establishment Cause received originally in the RRC: RRC Connection Request message. or enters idle mode if the maximum number of attempts has already been reached. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: • • • • • • • • • • • • WaitTimeRRCbackground WaitTimeRRCconversational WaitTimeRRCemergency WaitTimeRRChighPrioritySignalling WaitTimeRRCinterRATreselection WaitTimeRRCinteractive WaitTimeRRClowPrioritySignalling WaitTimeRRCother WaitTimeRRCregistration WaitTimeRRCstreaming WaitTimeRRCsubscribed WaitTimeRRCunknown 428 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . WaitTimeRRClowPrioritySignalling. The MS waits for at least the duration of the time period specified in the parameter before it sends a new RRC: RRC Connection Request message. and each group corresponds to a management parameter: WaitTimeRRCconversational. WaitTimeRRCinterRATreselection. WaitTimeRRCother. WaitTimeRRCregistration. WaitTimeRRCinteractive. Cause values are classified to particular cause groups. 15 s..331. Wait time in RRC connection request rejection (Continued) - Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Admission Control On-Line - • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.11. Terminating Background Call. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 5s Admission Control DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 429 (756) .RAN Parameters Table 407.116..1 WaitTimeRRCbackground (RRC wait time for background causes ) Table 408. RRC wait time for background causes RRC wait time for background causes WaitTimeRRCbackground RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message. 0. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Originating Background Call. RRC Protocol Specification References: • 4. Terminating Conversational Call.116. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Originating Conversational Call. step 1 s internal_value = gui_value 3s Admission Control On-Line WaitTimeRRC of RNC 430 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .15 s. RRC wait time for conversational causes RRC wait time for conversational causes WaitTimeRRCconversational RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message. RRC Protocol Specification References: • 4.2 WaitTimeRRCconversational (RRC wait time for conversational causes ) Table 409. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0.. RRC wait time for background causes (Continued) On-Line WaitTimeRRC of RNC Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25..331.WCDMA RAN Parameters Table 408.11. 0. RRC wait time for emergency causes RRC wait time for emergency causes WaitTimeRRCemergency RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message.. RRC wait time for conversational causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.11.15 s..331. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1s Admission Control On-Line WaitTimeRRC of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 431 (756) . RRC Protocol Specification 4.RAN Parameters Table 409.116. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Emergency Call.3 WaitTimeRRCemergency (RRC wait time for emergency causes ) Table 410. RRC wait time for emergency causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.116. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1s Admission Control On-Line WaitTimeRRC of RNC 432 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Originating high priority signalling.331.. 0.4 WaitTimeRRChighPrioritySignalling (RRC wait time for high priority signalling causes ) Table 411.15 s.. RRC Protocol Specification 4.11. Terminating high priority signalling.WCDMA RAN Parameters Table 410. RRC wait time for high priority signalling causes RRC wait time for high priority signalling causes WaitTimeRRChighPrioritySignalling RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message. 116. RRC wait time for inter-RAT re-selection causes RRC wait time for inter-RAT re-selection causes WaitTimeRRCinterRATreselection RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message. RRC wait time for high priority signalling causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Inter-RAT cell change order..331. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 3s Admission Control On-Line WaitTimeRRC of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 433 (756) .15 s.RAN Parameters Table 411.. 0.11.5 WaitTimeRRCinterRATreselection (RRC wait time for inter-RAT re-selection causes ) Table 412. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Inter-RAT cell re-selection. RRC Protocol Specification 4. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Originating Interactive Call.331.WCDMA RAN Parameters Table 412. 0. Terminating Interactive Call. RRC Protocol Specification 4.6 WaitTimeRRCinteractive (RRC wait time for interactive causes ) Table 413.15 s..11. RRC wait time for interactive causes RRC wait time for interactive causes WaitTimeRRCinteractive RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message.116.. RRC wait time for inter-RAT re-selection causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5s Admission Control On-Line WaitTimeRRC of RNC 434 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . RRC wait time for low priority signalling causes RRC wait time for low priority signalling causes WaitTimeRRClowPrioritySignalling RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message. Terminating low priority signalling. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5s Admission Control On-Line WaitTimeRRC of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 435 (756) .7 WaitTimeRRClowPrioritySignalling (RRC wait time for low priority signalling causes ) Table 414. RRC wait time for interactive causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.116.RAN Parameters Table 413.15 s. RRC Protocol Specification 4. 0.11.331. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Originating low priority signalling... 331.116.. RRC wait time for low priority signalling causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. RRC wait time for other causes RRC wait time for other causes WaitTimeRRCother RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message.. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0s Admission Control On-Line WaitTimeRRC of RNC 436 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .15 s. RRC Protocol Specification 4.8 WaitTimeRRCother (RRC wait time for other causes ) Table 415.WCDMA RAN Parameters Table 414. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Call reestablishment. 0.11. RRC Protocol Specification 4.331.116.. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Registration. 0. RRC wait time for registration causes RRC wait time for registration causes WaitTimeRRCregistration RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message.11. RRC wait time for other causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.15 s. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1s Admission Control On-Line WaitTimeRRC of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 437 (756) . Detach.RAN Parameters Table 415.9 WaitTimeRRCregistration (RRC wait time for registration causes ) Table 416.. . 0.10 WaitTimeRRCstreaming (RRC wait time for streaming causes ) Table 417..331.116. RRC Protocol Specification 4.WCDMA RAN Parameters Table 416.11.15 s. RRC wait time for registration causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 3s Admission Control On-Line WaitTimeRRC of RNC 438 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Originating Streaming Call. Terminating Streaming Call. RRC wait time for streaming causes RRC wait time for streaming causes WaitTimeRRCstreaming RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message. 0. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Originating Subscribed Traffic Call.11.116. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 3s Admission Control On-Line WaitTimeRRC of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 439 (756) .15 s.. RRC wait time for subscribed causes RRC wait time for subscribed causes WaitTimeRRCsubscribed RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message.331.11 WaitTimeRRCsubscribed (RRC wait time for subscribed causes ) Table 418.. RRC Protocol Specification 4.RAN Parameters Table 417. RRC wait time for streaming causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 11.WCDMA RAN Parameters Table 418. RRC Protocol Specification 4..15 s. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1s Admission Control On-Line WaitTimeRRC of RNC 440 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . RRC wait time for subscribed causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 0.12 WaitTimeRRCunknown (RRC wait time for unknown causes ) Table 419.116. RRC wait time for unknown causes RRC wait time for unknown causes WaitTimeRRCunknown RNC ACConfiguration 1 Defines the value of the Wait Time included in the RRC: RRC Connection Reject message..331. when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Terminating ? cause unknown. RRC wait time for unknown causes (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.12.331. ATM interface id. VPI of WBTS DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 441 (756) .RAN Parameters Table 419. VCI of WBTS. 1. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Requires object locking ATMInterfaceID of COCO.. COCOId of WBTS.1 WBTS Parameters ATMInterfaceID (ATM interface identifier) Table 420. VPI and C-NBAP VCI forms an unique reference to the COCO object if the COCO id is not used as a reference. RRC Protocol Specification 4.12 4..320 . ATM interface identifier ATM interface identifier ATMInterfaceID WBTS 1 The ATM interface identifier identifies the ATM external interface used for the VP/VC Link termination point. .65535 . Connection Configuration Identifier Connection Configuration Identifier COCOId WBTS 1 Parameter identifies the Connection Configuration object for the Iub interface in the RNW database of the RNC.2 COCOId (Connection Configuration Identifier) Table 421. VCI of WBTS. The COCO identifier is used as a reference to the COCO object containing the Iub link configuration for the WBTS. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Requires object locking COCOId of COCO. ATM interface identifier (Continued) Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS 4. VPI of WBTS 442 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 420. 1. ATMInterfaceID of WBTS.12.. 2000 ms.. step 100 ms internal_value = gui_value/100 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 400 ms Packet Scheduler On-Line SchedulingPeriod of WBTS • • • RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 443 (756) .RAN Parameters Table 421. 100. PS load control period PS load control period LoadControlPeriodPS WBTS PSParameters 1 This parameter defines the period how often PS can perform load control actions in the certain cell. Connection Configuration Identifier (Continued) Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS 4.12..3 LoadControlPeriodPS (PS load control period) Table 422. WinACRABsetupUL of WBTS Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 444 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1..20 .12.messages.4 PSAveragingWindowSize (Load measurement averaging window size for packet scheduling) Table 423. are included in the sliding window used in averaging.. Load measurement averaging window size for packet scheduling Load measurement averaging window size for packet scheduling PSAveragingWindowSize WBTS PSParameters 1 The parameter defines how many PrxTotal/PtxTotal measurements that are received in the NBAP: RADIO RESOURCE INDICATION . SchedulingPeriod of WBTS. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5 Packet Scheduler On-Line RRIndPeriod of WBTS. WinACRABsetupDL of WBTS.WCDMA RAN Parameters 4. 5 PrxAlpha (Type of measurement filter for uplink total received power) Table 424.. If the value is between 0 . Packet Scheduler On-Line PrxMeasAveWindow of WBTS • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 445 (756) . If the value is 0.05 internal_value = gui_value * 100 0 Admission Control. trimmed mean filter is used.RAN Parameters 4. step 0. Type of measurement filter for uplink total received power Type of measurement filter for uplink total received power PrxAlpha WBTS LCConfiguration 1 PrxAlpha defines the type of measurement filter used for the total received wideband power (PrxTotal) in a cell. pure sliding window mean filter is used and if the value is 0. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.0. Load Control.. sliding window median filter is used.5.5 .12.0.5. 200 Frames. Admission Control On-Line PrxAlpha of WBTS • • • • • RNC to WBTS Planner to RAC RAC to RNC EM to RNC RAC Application to RAC References: - 446 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 10..WCDMA RAN Parameters 4.. step 1 Frames internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 10 Frames Packet Scheduler. Number of frames to be used averaging in PrxTotal measurement Number of frames to be used averaging in PrxTotal measurement PrxMeasAveWindow WBTS LCConfiguration 1 The parameter defines the number of frames used for long term averaging at the BS of the short term (frame based) averages of PrxTotal measurements. Load Control.6 PrxMeasAveWindow (Number of frames to be used averaging in PrxTotal measurement) Table 425.12. If the value is 0. step 0.0. If the value is between 0 .RAN Parameters 4.7 PtxAlpha (Type of measurement filter for downlink total transmitted power) Table 426.05 internal_value = gui_value * 100 0 Load Control. pure sliding window mean filter is used and if the value is 0. Type of measurement filter for downlink total transmitted power Type of measurement filter for downlink total transmitted power PtxAlpha WBTS LCConfiguration 1 PtxAlpha defines the type of measurement filter for the total transmitted power (PtxTotal) in a cell.12.0. Admission Control. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. trimmed mean filter is used.5 .5...5. sliding window median filter is used. Packet Scheduler On-Line PtxMeasAveWindow of WBTS • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 447 (756) . DPCH downlink transmission power maximum value DPCH downlink transmission power maximum value PtxDPCHmax WBTS ACConfiguration 1 Parameter defines the maximum code channel output power for the power control dynamic range of BTS. The power control dynamic range of BTS is the difference between the maximum and the minimum transmit output power of a code channel. PCrangeDL of RNC 448 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The maximum transmission power is calculated by adding the value of the parameter to the BTS maximum output power (Pmax in dBm). Packet Scheduler On-Line CPICHtoRefRABoffset of WCEL. DLreferenceBitRate of WCEL.8 PtxDPCHmax (DPCH downlink transmission power maximum value) Table 427.0 dB. -3.. Power Control.. step 0.1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -3 dB Admission Control.WCDMA RAN Parameters 4. DLreferenceTargetBLER of WCEL. PtxDPCHmin of WBTS.12. PtxDLabsMax of WCEL. The power control dynamic range of BTS is the difference between the maximum and the minimum transmit output power of a code channel.-28 dB. -60. UTRA (BS) FDD. Radio resource management strategies (allowable transmission power) 3GPP Reference: TS 25.9 PtxDPCHmin (DPCH downlink transmission power minimum value) Table 428.RAN Parameters Table 427. step 1 dB internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: -28 dB Admission Control. Power Control.922.12. Packet Scheduler On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 449 (756) . Radio transmission and Reception (power control dynamic range) • 4. Minimum transmission power is calculated by adding the value of the parameter to the BTS maximum output power (Pmax in dBm).. DPCH downlink transmission power minimum value DPCH downlink transmission power minimum value PtxDPCHmin WBTS ACConfiguration 1 Parameter defines the minimum code channel output power for the power control dynamic range of BTS..104. DPCH downlink transmission power maximum value (Continued) Parameter relationships: Interfaces: • • • • • References: • RAC to RNC EM to RNC RAC Application to RAC AC to PS AC to PC 3GPP Reference: TR 25. WCDMA RAN Parameters Table 428. PtxDPCHmax of WBTS. Load Control 450 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . DLreferenceBitRate of WCEL.104. Radio resource management strategies (allowable transmission power) • 4. 10. DPCH downlink transmission power minimum value (Continued) CPICHtoRefRABoffset of WCEL.922. step 1 radio fram internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 10 radio fram Admission Control. UTRA (BS) FDD. Packet Scheduler. DLreferenceTargetBLER of WCEL.12.. Number of frames to be used averaging in PtxTotal measurement Number of frames to be used averaging in PtxTotal measurement PtxMeasAveWindow WBTS LCConfiguration 1 The parameter defines the number of frames used for long term averaging at the BS of short term averages of the PtxTotal measurements.10 PtxMeasAveWindow (Number of frames to be used averaging in PtxTotal measurement) Table 429. Radio transmission and Reception (power control dynamic range) 3GPP Reference: TR 25. PCrangeDL of RNC Related parameters: Parameter relationships: Interfaces: • • • • • References: • RAC to RNC EM to RNC RAC Application to RAC AC to PS AC to PC 3GPP Reference: TS 25.200 radio fram.. RACH load indication period RACH load indication period RACHloadIndicationPeriod WBTS LCConfiguration 1 The parameter defines the reporting period of the PRACHs in a BTS. Number of frames to be used averaging in PtxTotal measurement On-Line PtxAlpha of WBTS Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to WBTS Planner to RAC RAC to RNC RAC Application to RAC References: - 4. 0. WinRACHoverLoadBS of WBTS DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 451 (756) . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1 Admission Control.11 RACHloadIndicationPeriod (RACH load indication period) Table 430.12. The BTS may report load figures to the RNC in every Nth (N=1-20) NBAP Radio Resource Indication message... WinRACHnormalLoadBS of WBTS. Load Control On-Line RACHnormalLoadBS of WCEL. Value 0 of the parameter means that the BTS does not report the load information for RACH.RAN Parameters Table 429.20 . RACHoverLoadBS of WCEL. RRIndPeriod of WBTS. RACH load indication period (Continued) Parameter relationships: Interfaces: • • • • • References: RNC to WBTS RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 4. Value 0 of the parameter means OFF. It is used as an input for defining initial power for PS and AC.2000 ms.. Handover Control. step 100 ms internal_value = gui_value/10 500 ms Admission Control. The measurement report includes transmitted code power. Radio link measurement reporting period Radio link measurement reporting period RLMeasRepPeriod WBTS PCConfiguration 1 The parameter defines the reporting period of the Radio link measurements. The report affects the accuracy of PS and AC initial power definition. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0.12 RLMeasRepPeriod (Radio link measurement reporting period) Table 431.12.WCDMA RAN Parameters Table 430.. Power Control On-Line - 452 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The BTS informs the RNC about the current load at the radio interface from the radio resource point of view and the load of every RACH in each cell. Radio link measurement reporting period (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25..12.2000 ms. step 100 ms internal_value = gui_value/10 200 ms - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 453 (756) .13 RRIndPeriod (Radio Resource Indication Period) Table 432. the total transmitted power of the cell and RACH load.RAN Parameters Table 431. In the Radio Resource Indication message the BTS reports periodically the total uplink interference power of the cells. For that purpose the BTS sends periodically a Radio Resource Indication message to the RNC.433. The RNC sends the reporting parameters to the BTS in a Configuration Data message.. which are used for cell based load measurements. UTRAN Iub Interface NBAP Signalling 4. Radio Resource Indication Period Radio Resource Indication Period RRIndPeriod WBTS LCConfiguration 1 The parameter defines the reporting period of the Radio Resource Indication messages. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 100. These parameters are Radio resource indication reporting period and RACH load indication period. Load Control On-Line RACHloadIndicationPeriod of WBTS Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC References: - 4.14 SchedulingPeriod (Scheduling period) Table 433. Scheduling period Scheduling period SchedulingPeriod WBTS PSParameters 1 This parameter defines how often the packet scheduler makes scheduling decisions. and when it can start doing allocations.WCDMA RAN Parameters Table 432. Radio Resource Indication Period (Continued) Admission Control..12. PSAveragingWindowSize of WBTS.2000 ms. RRIndPeriod of WBTS 454 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. step 100 ms internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 200 ms Packet Scheduler On-Line LoadControlPeriodPS of WBTS. 100. VPI of WBTS Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 455 (756) . This VCI value is a reference to C-NBAP link in the connection configuration object.15 VCI (Virtual Channel Identifier) Table 434. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Requires object locking CNBAPVCI of COCO. ATMInterfaceID of WBTS.. COCOId of WBTS.RAN Parameters Table 433.65535 .12. VCI together with ATM interface id and VPI forms an unique reference to the COCO object if the COCO id is not used as a reference. 1. Virtual Channel Identifier Virtual Channel Identifier VCI WBTS 1 This identifies a particular virtual channel link for a given virtual path connection (VPC).. Scheduling period (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. 12. ATM interface id. Virtual Path Identifier Virtual Path Identifier VPI WBTS 1 This identifies a group of virtual channel links. that share the same virtual path connection (VPC).WCDMA RAN Parameters 4... ATMInterfaceID of WBTS.255 . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Requires object locking COCOVPI of COCO. VCI of WBTS Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 456 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 0.16 VPI (Virtual Path Identifier) Table 435. COCOId of WBTS. at a given reference point. VPI and C-NBAP VCI forms an unique reference to the COCO object if the COCO id is not used as a reference. Configuration Management. WBTS Identifier WBTS Identifier WBTSId WBTS Identification 1 This parameter identifies the WBTS uniquely under its controlling RNC.18 WBTSName (WCDMA BTS name) Table 437.12. WCDMA BTS name WCDMA BTS name WBTSName WBTS Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 457 (756) . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Not modifiable - • • • • Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 32.106-5.RAN Parameters 4.12...17 WBTSId (WBTS Identifier) Table 436. Part 5: Basic Configuration Management IRP References: • 4. 1. Telecommunication Management.65534 . internal_value = gui_value Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: On-Line WBTSId of WBTS • • • • RAC to RNC EM to RNC Planner to RAC RAC Application to RAC References: - 4. WCDMA BTS name (Continued) Identification 1 This parameter can be used for identification of the WCDMA BTS (Node B). 1.WCDMA RAN Parameters Table 437. The maximum length of the name is 15 ASCII chars.19 WBTSTimeStamp (Time stamp) Table 438... Time stamp Time stamp WBTSTimeStamp WBTS 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 458 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .15 characters.12. 1 WBTSDay (Time stamp day) Table 439.RAN Parameters Table 438. The value for the parameter can not be modified by the user. Description: Time stamp (Continued) Parameter identifies the time when the WBTS object (or any other object beneath it in object hierarchy) was modified the last time. Time stamp day Time stamp day WBTSDay WBTS 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 459 (756) .19. WBTS time stamp is updated every time when any WCEL or ADJS or ADJI or ADJG object under it has been changed. Child parameters: • • • • • • • WBTSDay WBTSHours WBTSHundreths WBTSMinutes WBTSMonth WBTSSeconds WBTSYear Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Not modifiable RNCTimeStamp of RNC • • RNC to RAC RAC Application to RAC References: - 4.12. The value for the parameter can not be modified by the user. Time stamp hours Time stamp hours WBTSHours WBTS 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 460 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .19.WCDMA RAN Parameters Table 439. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1.31 day..2 WBTSHours (Time stamp hours) Table 440..12. Description: Time stamp day (Continued) Parameter identifies the day when the WBTS object (or any other object beneath it in object hierarchy) was modified the last time. WBTS time stamp is updated every time when any WCEL or ADJS or ADJI or ADJG object under it has been changed. step 1 day internal_value = gui_value Not modifiable WBTSTimeStamp of WBTS • • RNC to RAC RAC Application to RAC References: - 4. .12. Description: Time stamp hours (Continued) Parameter identifies the hour of time when the WBTS object (or any other object beneath it in object hierarchy) was modified the last time. The value for the parameter can not be modified by the user.23 hour. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.3 WBTSHundreths (Time stamp hundredths of seconds) Table 441. step 1 hour internal_value = gui_value Not modifiable WBTSTimeStamp of WBTS • • RNC to RAC RAC Application to RAC References: - 4. Time stamp hundredths of seconds Time stamp hundredths of seconds WBTSHundreths WBTS 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 461 (756) .. WBTS time stamp is updated every time when any WCEL or ADJS or ADJI or ADJG object under it has been changed.RAN Parameters Table 440.19. 12. The value for the parameter can not be modified by the user. Description: Time stamp hundredths of seconds (Continued) Parameter identifies the hundredths of seconds of time when the WBTS object (or any other object beneath it in object hierarchy) was modified the last time. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.99 hundredths.4 WBTSMinutes (Time stamp minutes) Table 442. step 1 hundredths internal_value = gui_value Not modifiable WBTSTimeStamp of WBTS • • RNC to RAC RAC Application to RAC References: - 4. Time stamp minutes Time stamp minutes WBTSMinutes WBTS 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 462 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..WCDMA RAN Parameters Table 441.19.. WBTS time stamp is updated every time when any WCEL or ADJS or ADJI or ADJG object under it has been changed. 5 WBTSMonth (Time stamp month) Table 443..19. Time stamp month Time stamp month WBTSMonth WBTS 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 463 (756) . The value for the parameter can not be modified by the user.59 minute(s). Description: Time stamp minutes (Continued) Parameter identifies the minutes of time when the WBTS object (or any other object beneath it in object hierarchy) was modified the last time. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0..RAN Parameters Table 442.12. WBTS time stamp is updated every time when any WCEL or ADJS or ADJI or ADJG object under it has been changed. step 1 minute(s) internal_value = gui_value Not modifiable WBTSTimeStamp of WBTS • • RNC to RAC RAC Application to RAC References: - 4. 12. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1. Time stamp seconds Time stamp seconds WBTSSeconds WBTS 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 464 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..12 month. step 1 month internal_value = gui_value Not modifiable WBTSTimeStamp of WBTS • • RNC to RAC RAC Application to RAC References: - 4.19..WCDMA RAN Parameters Table 443. Description: Time stamp month (Continued) Parameter identifies the month when the WBTS object (or any other object beneath it in object hierarchy) was modified the last time. WBTS time stamp is updated every time when any WCEL or ADJS or ADJI or ADJG object under it has been changed.6 WBTSSeconds (Time stamp seconds) Table 444. The value for the parameter can not be modified by the user. Description: Time stamp seconds (Continued) Parameter identifies the seconds of time when the WBTS object (or any other object beneath it in object hierarchy) was modified the last time.7 WBTSYear (Time stamp year) Table 445. Time stamp year Time stamp year WBTSYear WBTS 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 465 (756) . The value for the parameter can not be modified by the user.12..RAN Parameters Table 444. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0..19.59 second(s). step 1 second(s) internal_value = gui_value Not modifiable WBTSTimeStamp of WBTS • • RNC to RAC RAC Application to RAC References: - 4. WBTS time stamp is updated every time when any WCEL or ADJS or ADJI or ADJG object under it has been changed. step 1 year internal_value = gui_value Not modifiable WBTSTimeStamp of WBTS • • RNC to RAC RAC Application to RAC References: - 4.2100 year. WBTS time stamp is updated every time when any WCEL or ADJS or ADJI or ADJG object under it has been changed. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1980. DL measurement averaging window for AC DL measurement averaging window for AC WinACRABsetupDL WBTS ACConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 466 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 445. Description: Time stamp year (Continued) Parameter identifies the year when the WBTS object (or any other object beneath it in object hierarchy) was modified the last time.. The value for the parameter can not be modified by the user.12.20 WinACRABsetupDL (DL measurement averaging window for AC) Table 446.. . RRIndPeriod of WBTS Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 4. This window is used in averaging the total transmission power measurement results of a cell that are received from the BTS in the NBAP: Radio Resource Indication messages. 1.RAN Parameters Table 446. Sliding type of window is used: the oldest measurement result is removed when a new one is received from BTS.21 WinACRABsetupUL (UL measurement averaging window for AC) Table 447. Description: DL measurement averaging window for AC (Continued) This parameter determines the DL load measurement averaging window size in number of NBAP: Radio Resource Indication message periods..12.20 . UL measurement averaging window for AC UL measurement averaging window for AC WinACRABsetupUL WBTS ACConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 467 (756) . step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5 Admission Control On-Line PSAveragingWindowSize of WBTS. 22 WinRACHnormalLoadBS (Window for RACH normal load measurement ) Table 448. 1. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5 Admission Control On-Line PSAveragingWindowSize of WBTS.20 . RRIndPeriod of WBTS Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 4.. This window is used in averaging the total wideband interference power measurement results received from BTS in the NBAP: Radio Resource Indication messages.. Description: UL measurement averaging window for AC (Continued) This parameter determines the UL load measurement averaging window size in number of NBAP: Radio Resource Indication message periods. Sliding type of window is used: the oldest measurement result is removed when a new one is received from BTS.WCDMA RAN Parameters Table 447. Window for RACH normal load measurement Window for RACH normal load measurement WinRACHnormalLoadBS WBTS ACConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 468 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .12. RACHloadIndicationPeriod of WBTS. and is a multiple of the the radio resource indication period..23 WinRACHoverLoadBS (Window for RACH overload measurement ) Table 449.RAN Parameters Table 448. The RACH load reporting period is determined by a BTS configuration data parameter. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5 Load Control. Admission Control On-Line RACHnormalLoadBS of WCEL.100 . 0.. The RACH load is considered normal when all RACH load measurement results received during the period determined by the parameter are below the threshold RACHnormalLoadBS. RACHoverLoadBS of WCEL. Description: Window for RACH normal load measurement (Continued) Parameter defines the comparison window size for RACH normal load detection in RACH load indication periods.12. WinRACHoverLoadBS of WBTS Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 4. Window for RACH overload measurement Window for RACH overload measurement WinRACHoverLoadBS WBTS ACConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 469 (756) . The RACH is considered overloaded when all RACH load measurement results received during the period determined by the parameter exceed the threshold RACHOverLoadBS..100 . Access Class Barred list Access Class Barred list ACBarredList WCEL Parameter name: Abbreviated name: Managed object: 470 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . RACHoverLoadBS of WCEL. Load Control On-Line RACHnormalLoadBS of WCEL. 0.. The RACH load reporting period is determined by a BTS configuration data parameter. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1 Admission Control. and is a multiple of the radio resource indication period.13.1 WCEL Parameters ACBarredList (Access Class Barred list) Table 450.WCDMA RAN Parameters Table 449. WinRACHnormalLoadBS of WBTS Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 4. RACHloadIndicationPeriod of WBTS.13 4. Description: Window for RACH overload measurement (Continued) Parameter defines the comparison window size for RACH overload detection in RACH load indication periods. bit 15 indicates if access is barred or not for AC15 If a bit is set to 1.. This parameter is part of System Information Block 3.. Access Class Barred list (Continued) 1 'Access Class Barred list' information defines for each of the 16 Access Classes (AC0. emergency calls are not allowed if both Access Class 10 and the relevant Access Class (11 to 15) are barred.RAN Parameters Table 450. 'Access Class Barred list' uses binary notation of 16 bits where .. If a bit is set to 0..bit 2 indicates if access is barred or not for AC2 . . emergency calls are allowed for those UEs.bit 1 indicates if access is barred or not for AC1 . Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - 0 On-Line SIB3Compmask6 of WCEL DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 471 (756) . UEs with Access Class 0 to 9 or without an IMSI are not allowed to initiate emergency calls in this cell. AC1.bit 0 indicates if access is barred or not for AC0 . the corresponding Access Class is 'barred'. Otherwise.. If Access Class 10 is indicated as barred in a cell. For UEs with Access Classes 11 to 15.AC15) whether access is barred or not . the corresponding Access Class is 'not barred'. AI is transmitted in the 2nd AICH access slot after the PRACH access slot. AICH Transmission Timing AICH Transmission Timing AICHTraTime WCEL 1 AICH transmission timing defines the delay between the reception of a PRACH access slot including a correctly detected preamble and the transmission of the Acquisition Indicator in the AICH: 0 = Delay is 0 access slots. Access Class Barred list (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 22. AI is transmitted in the 1st AICH access slot after the PRACH access slot.011. RRC Protocol Specification 4. step 1 internal_value = gui_value 0 On-Line - 472 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1 = Delay is 1 access slot.1 .2 AICHTraTime (AICH Transmission Timing) Table 451... Service accessibility 3GPP Reference: TS 25.13.331. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0.WCDMA RAN Parameters Table 450. AICH Transmission Timing (Continued) Parameter relationships: Interfaces: • • • • • • • References: • • • RNC to UE RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC Planner to RAC RAC to EM 3GPP Reference: TS 25. AMR mode downlink AMR mode downlink AMRModeDL WCEL ACConfiguration 1 The parameter defines the default AMR modes for a cell in downlink. - Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1 Admission Control Not modifiable - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 473 (756) . UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. RRC Protocol Specification 3GPP Reference: TS 25.13.331.RAN Parameters Table 451.211. Only one downlink AMR mode per cell is allowed.3 AMRModeDL (AMR mode downlink) Table 452. Physical channels and mapping of transport channels onto physical channels (FDD) 4.433. WCDMA RAN Parameters Table 452.4 AMRModeUL (AMR mode uplink) Table 453. then only one mode is used. If the two modes are equal. - Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1 Admission Control Not modifiable - • • • • RAC to RNC EM to RNC RAC Application to RAC Planner to RAC References: - 474 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . AMR mode uplink AMR mode uplink AMRModeUL WCEL ACConfiguration 1 The parameter defines the default AMR modes for a cell in uplink. AMR mode downlink (Continued) Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC Planner to RAC 4. Two simultaneous uplink AMR modes per cell are allowed.13. 5 AdminCellState (Administrative Cell State) Table 454. 3G Configuration Management References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 475 (756) . 1 (Unlocked) • • 0 Requires object locking Locked: internal_value = 0 Unlocked: internal_value = 1 • • • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 32. Administrative Cell State Administrative Cell State AdminCellState WCEL 1 Each logical cell recource in the RNC has an administrative state. incomplete configuration).106.g.13. which the operator can change. In the RNC RNW configuration management functionality there may be restrictions for unlocking a logical cell (e. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (Locked).RAN Parameters 4. 6 AllowedPreambleSignatures (Allowed preamble signatures) Table 455.WCDMA RAN Parameters 4. bit 1 indicates if the signature #1 is allowed. Allowed preamble signatures specifies which signatures are used in a cell. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - 15 On-Line - 476 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Allowed preamble signatures Allowed preamble signatures AllowedPreambleSignatures WCEL 1 The preamble part in a PRACH channel carries one of 16 different orthogonal complex signatures. If a bit is set to 1. Allowed preamble signatures uses binary notation. etc. the corresponding signature is allowed. BTS Restriction: A maximum of four signatures can be allowed.13. where bit 0 indicates if the signature #0 is allowed. RRC Protocol Specification 3GPP Reference: TS 25. Allowed preamble signatures (Continued) Parameter relationships: Interfaces: • • • • • References: • • • RNC to UE RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.13.7 AllowedRACHSubChannels (Allowed RACH subchannels) Table 456.331. There are a total of 12 RACH subchannels. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. Bit 0 = Sub Channel Number 0 Bit 1 = Sub Channel Number 1 . Allowed RACH subchannels Allowed RACH subchannels AllowedRACHSubChannels WCEL 1 A RACH sub-channel defines a sub-set of the total set of access slots.433. Bit 11 = Sub Channel Number 11 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: - 4095 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 477 (756) .RAN Parameters Table 455.211.. Physical channels and mapping of transport channels onto physical channels (FDD) 4.. 331. Physical layer procedures (FDD) References: • • • 4. Allowed RACH subchannels (Continued) On-Line - Modification: Related parameters: Parameter relationships: Interfaces: • • • • • RNC to UE RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Compressed Mode: Alternative scrambling code Compressed Mode: Alternative scrambling code AltScramblingCodeCM WCEL PSParameters 1 This parameter defines whether the alternative scrambling code is allowed to be used in case of compressed mode method halving the spreading factor.13. Packet Scheduler On-Line 478 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0 (No) Admission Control.433.8 AltScramblingCodeCM (Compressed Mode: Alternative scrambling code) Table 457. RRC Protocol Specification 3GPP Reference: TS 25.214.WCDMA RAN Parameters Table 456. 0 (False). UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. RAN Parameters Table 457. LowerULAMRmodeCM of RNC. Cell identifier Cell identifier CId WCEL Identification 1 The parameter identifies the cell within a RNC. PowerMarginCMcodeHalving of RNC Related parameters: Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.9 CId (Cell identifier) Table 458. Physical Layer Measurements (FDD) 4. GapPositionSingleFrame of RNC.331.13. RRC Protocol Specification 3GPP Reference: TS 25. CMmasterSwitch of RNC.215. MinDLAMRmodeCM of RNC. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1.65535 . HLSModeSelection of RNC.. Compressed Mode: Alternative scrambling code (Continued) MaxNumbUECMcoverHO of WCEL. step 1 internal_value = gui_value Not modifiable - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 479 (756) .. This parameter is part of System Information Block 3. 331. -10.WCDMA RAN Parameters Table 458..17 dB.13. Offset of the P-CPICH and reference service powers Offset of the P-CPICH and reference service powers CPICHtoRefRABoffset WCEL ACConfiguration 1 The parameter defines the offset of the primary CPICH transmission power. Cell identifier (Continued) Parameter relationships: Interfaces: • • • • • • References: • • RNC to UE RNC to WBTS RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 3GPP Reference: TS 25. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. and the maximum DL transmission power of the reference service channel in DL power allocation.433. step 0. The maximum transmission power of the reference service is calculated (in dBm) by subtracting the value of the parameter from the transmission power of the primary CPICH..10 CPICHtoRefRABoffset (Offset of the P-CPICH and reference service powers) Table 459.5 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 2 dB Admission Control. RRC Protocol Specification 4. Packet Scheduler On-Line 480 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 100 dB.1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 3 dB Admission Control.13.. PtxDLabsMax of WCEL. PtxDPCHmax of WBTS Related parameters: Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 4.11 CableLoss (Cable Loss) Table 460. step 0. 0.. DLreferenceTargetBLER of WCEL. while producing the CPICH power value for the needs of the UL open loop power control. PtxPrimaryCPICH of WCEL DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 481 (756) . Its value is subtracted from the antenna connector power value of the primary CPICH read from the management parameter PtxPrimaryCPICH.RAN Parameters Table 459. Cable Loss Cable Loss CableLoss WCEL ACConfiguration 1 Parameter defines the difference in DL linkloss in relation to the UL linkloss when the mast head amplifier is used. Power Control On-Line MHA of WCEL. Offset of the P-CPICH and reference service powers (Continued) DLreferenceBitRate of WCEL. A barred cell is a cell where a UE is not allowed to camp on. RRC Protocol Specification 3GPP Reference: TS 25. Base station conformance testing (FDD) 4. not even for emergency calls. 1 (Not barred) • • 1 On-Line Barred: internal_value = 0 Not barred: internal_value = 1 482 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .12 CellBarred (Cell Barred) Table 461.331. Cell Barred Cell Barred CellBarred WCEL 1 Defines whether the cell is barred or not. When cell status is "barred". the UE is not permitted to select/re-select the cell. Cable Loss (Continued) Parameter relationships: Interfaces: • • • • • • References: • • Planner to RAC RAC to RNC RAC to WBTS EM to RNC EM to WBTS RAC Application to RAC 3GPP Reference: TS 25.WCDMA RAN Parameters Table 460.141. This parameter is part of System Information Block 3. Emergency calls shall be allowed in all cells whose barred status is "not barred". Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0 (Barred).13. 20000 m.13.304. Note: Changing the parameter value will start the cell shutdown procedure in the BTS.e.. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4.RAN Parameters Table 461. Cell range Cell range CellRange WCEL 1 Defines the maximum range of the cell. Cell Barred (Continued) IntraFreq_Cell_Reselect_Ind of WCEL.331. If AICH Transmission Timing has value 0 or four antennas are used the maximum value can be 10 km. RRC Protocol Specification 3GPP Reference: TS 25. SIB3Compmask6 of WCEL.. step 100 m internal_value = gui_value - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 483 (756) . TBarred of WCEL Related parameters: Parameter relationships: Interfaces: • • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS 3GPP Reference: TS 25. i. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 100. the maximum distance from the cell site where a UE can have a radio connection to the cell including soft handover situations.13 CellRange (Cell range) Table 462. The maximum cell range can be 20 km when using two antennas and AICH Transmission Timing has value 1. except for particular UEs. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (Reserved). the UEs assigned to Access Class 11 or 15 may select/re-select this cell if in the home PLMN. if so indicated. 1 (Not reserved) 484 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Cell range (Continued) Cell shutdown is needed AICHTraTime of WCEL Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC RAC to WBTS References: - 4. When cell status is "not barred" and "not reserved" for operator use the UE may select/re-select this cell during the cell selection and cell re-selection procedures in Idle mode and in Connected mode. When cell status is "not barred" and "reserved" for operator use.WCDMA RAN Parameters Table 462.13. UEs assigned to Access Class in the range 0 to 9 and 12 to 14 shall behave as if cell status "barred" is indicated. This parameter is part of System Information Block 3.14 Cell_Reserved (Cell Reserved for operator use) Table 463. Cell Reserved for operator use Cell Reserved for operator use Cell_Reserved WCEL 1 Defines whether the cell is reserved for operator use or not. A reserved cell is a cell on which camping is not allowed. . Code tree optimisation timer Code tree optimisation timer CodeTreeOptTimer WCEL ACConfiguration 1 The parameter defines the timer value that triggers code tree optimisation..304. step 1 s internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 3600 s - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 485 (756) .RAN Parameters Table 463. Cell Reserved for operator use (Continued) • • 1 On-Line CellBarred of WCEL.15 CodeTreeOptTimer (Code tree optimisation timer) Table 464. 1. RRC Protocol Specification 3GPP Reference: TS 25.65535 s.13.331. if it is not triggered otherwise. SIB3Compmask6 of WCEL Reserved: internal_value = 0 Not reserved: internal_value = 1 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 4. Code tree optimisation Code tree optimisation CodeTreeOptimisation WCEL ACConfiguration 1 The parameter indicates if rearrangement can be applied to a specific cell.16 CodeTreeOptimisation (Code tree optimisation) Table 465. MaxCodeReleases of WCEL 486 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . CodeTreeUsage of WCEL. 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1 (Yes) On-Line CodeTreeOptTimer of WCEL.13. CodeTreeUsage of WCEL.WCDMA RAN Parameters Table 464. 0 (False). Code tree optimisation timer (Continued) On-Line CodeTreeOptimisation of WCEL. MaxCodeReleases of WCEL Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 4. MaxCodeReleases of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 487 (756) . step 1 % internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 25 % On-Line CodeTreeOptTimer of WCEL.13...17 CodeTreeUsage (Code Tree Usage) Table 466.RAN Parameters Table 465. Code Tree Usage Code Tree Usage CodeTreeUsage WCEL ACConfiguration 1 The parameter defines the minimum usage of code tree before rearrangement is applied to a specific cell. 0. CodeTreeOptimisation of WCEL.100 %. Code tree optimisation (Continued) Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 4. if the bit rate is one of the followings: 12. DLreferenceTargetBLER of WCEL. UTRAN Iu Interface RANAP Signalling 488 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .7.18 DLreferenceBitRate (Downlink bit rate of the reference service) Table 467. PtxDPCHmax of WBTS Parameter relationships: Interfaces: • • • • • References: • Planner to RAC RAC to RNC EM to RNC RAC Application to RAC AC to PS 3GPP Reference: TS 25. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0.01 kbit/s internal_value = gui_value * 100 12.4. 7. 4.2. PtxDLabsMax of WCEL. 7. 5. Downlink bit rate of the reference service Downlink bit rate of the reference service DLreferenceBitRate WCEL ACConfiguration 1 The parameter defines the downlink bit rate of the reference service.2 kbit/s Admission Control.WCDMA RAN Parameters 4..2.15.13. 6.95. The service is considered to be AMR speech. Otherwise the service is data service..413.01. 10.9. 5.16000 kbit/s . Reference service is used in the determination of the maximum downlink code channel transmission power. step 0.75 (kbit/s). Packet Scheduler On-Line CPICHtoRefRABoffset of WCEL. Value of the parameter is the log10 of the BLER value. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -8.1 internal_value = gui_value * 10 -2. step 0.. PtxDLabsMax of WCEL.0 .13.RAN Parameters 4.19 DLreferenceTargetBLER (Downlink BLER target of the reference service) Table 468. Reference service is used in the determination of the maximum downlink code channel transmission power..2 Admission Control. Downlink BLER target of the reference service Downlink BLER target of the reference service DLreferenceTargetBLER WCEL ACConfiguration 1 The parameter defines the downlink target BLER for the reference service in the downlink power allocation. DLreferenceBitRate of WCEL. PtxDPCHmax of WBTS Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 489 (756) . Packet Scheduler On-Line CPICHtoRefRABoffset of WCEL. . DRRCptxOffset of WCEL.0 dB.13..20 DRRCprxMargin (Prx Margin for DRRC) Table 469. step 0. Prx Margin for DRRC Prx Margin for DRRC DRRCprxMargin WCEL ACConfiguration 1 This parameter determines the threshold level which the uplink load of the cell may not exceed in order for the Directed RRC Connection Setup to be possible from another cell (source cell) of the same sector.5 dB Admission Control On-Line DRRCprxOffset of WCEL.1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -0. DRRCptxMargin of WCEL.WCDMA RAN Parameters 4. SectorID of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 490 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . -10. The Admission control of the RNC calculates the threshold level by adding the value of the parameter to the total received power level of the source cell. 13. DRRCptxOffset of WCEL.1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -1 dB Admission Control On-Line DRRCprxMargin of WCEL.0 dB.. step 0. The Admission control calculates the threshold level by adding the value of the parameter to the target value of the total received power (PrxTarget).RAN Parameters 4. Prx Offset for DRRC Prx Offset for DRRC DRRCprxOffset WCEL ACConfiguration 1 This parameter determines the threshold level which the uplink load of the source cell must exceed before the Admission control of the RNC may direct the RRC connection setup to another cell within the sector. -10. SectorID of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 491 (756) .. DRRCptxMargin of WCEL.21 DRRCprxOffset (Prx Offset for DRRC) Table 470. Ptx Margin for DRRC Ptx Margin for DRRC DRRCptxMargin WCEL ACConfiguration 1 This parameter determines the threshold level which the downlink load of the cell may not exceed in order for the Directed RRC Connection Setup to be possible from another cell (source cell) of the same sector. DRRCprxOffset of WCEL..WCDMA RAN Parameters 4. SectorID of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 492 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .22 DRRCptxMargin (Ptx Margin for DRRC) Table 471. The Admission control of the RNC calculates the threshold level by adding the value of the parameter to the total transmitted power level of the source cell. -10.13. DRRCptxOffset of WCEL..1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -2 dB Admission Control On-Line DRRCprxMargin of WCEL. step 0.0 dB. SectorID of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 493 (756) .23 DRRCptxOffset (Ptx Offset for DRRC) Table 472.. step 0. -30. Ptx Offset for DRRC Ptx Offset for DRRC DRRCptxOffset WCEL ACConfiguration 1 This parameter determines the threshold level which the downlink load of the source cell must exceed before the Admission control of the RNC may direct the RRC connection setup to another cell within the sector..13.RAN Parameters 4. The Admission control calculates the threshold level by adding the value of the parameter to the target value of the total transmitted power (PtxTarget).1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -3 dB Admission Control On-Line DRRCprxMargin of WCEL. DRRCptxMargin of WCEL.0 dB. DRRCprxOffset of WCEL. 24 DeltaPrxMaxDown (Maximum uplink power decrease in packet scheduling) Table 473. Maximum uplink power decrease in packet scheduling Maximum uplink power decrease in packet scheduling DeltaPrxMaxDown WCEL PSParameters 1 Defines the maximum received uplink power decrease in a cell. DeltaPtxMaxUp of WCEL Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC RAC Application to RAC RNC to EM 494 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .13.. relative to PrxTotal. 0.2 dB internal_value = gui_value * 5 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 3 dB Packet Scheduler On-Line DeltaPrxMaxUp of WCEL.5 dB. used when bit rates are decreased by the packet scheduler.WCDMA RAN Parameters 4. step 0.. DeltaPtxMaxDown of WCEL. step 0. DeltaPtxMaxDown of WCEL. DeltaPtxMaxUp of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 495 (756) . Maximum uplink power increase in packet scheduling Maximum uplink power increase in packet scheduling DeltaPrxMaxUp WCEL PSParameters 1 Defines the maximum received uplink power increase in a cell..RAN Parameters 4.. 0.5 dB. relative to PrxTotal.13. used when bit rates are allocated or increased by the packet scheduler.2 dB internal_value = gui_value * 5 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1.25 DeltaPrxMaxUp (Maximum uplink power increase in packet scheduling) Table 474.6 dB Packet Scheduler On-Line DeltaPrxMaxDown of WCEL. WCDMA RAN Parameters 4.13.26 DeltaPtxMaxDown (Maximum downlink power decrease in packet scheduling) Table 475. Maximum downlink power decrease in packet scheduling Maximum downlink power decrease in packet scheduling DeltaPtxMaxDown WCEL PSParameters 1 Defines the maximum transmitted downlink power decrease in a cell, used when bit rates are decreased by the packet scheduler, relative to PtxTotal. 0...5 dB, step 0.2 dB internal_value = gui_value * 5 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 3 dB Packet Scheduler On-Line DeltaPrxMaxDown of WCEL, DeltaPrxMaxUp of WCEL, DeltaPtxMaxUp of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 496 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters 4.13.27 DeltaPtxMaxUp (Maximum downlink power increase in packet scheduling) Table 476. Maximum downlink power increase in packet scheduling Maximum downlink power increase in packet scheduling DeltaPtxMaxUp WCEL PSParameters 1 Defines the maximum transmitted downlink power increase in a cell, used when bit rates are allocated or increased by the packet scheduler, relative to PtxTotal. 0...5 dB, step 0.2 dB internal_value = gui_value * 5 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1.6 dB Packet Scheduler On-Line DeltaPrxMaxDown of WCEL, DeltaPrxMaxUp of WCEL, DeltaPtxMaxDown of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 497 (756) WCDMA RAN Parameters 4.13.28 EbNoSetIdentifier (Eb/No parameter set identifier ) Table 477. Eb/No parameter set identifier Eb/No parameter set identifier EbNoSetIdentifier WCEL ACConfiguration 1 This parameter defines the identifier of a particular parameter set of the planned Eb/No's. Set includes also the Delta SIR values that are used by L1 power control in the compressed mode. This parameter determines the parameters that are producing the parameter set. The parameter set is associated to a particular cell with its identifier. Description of the set according to its identifier: Value 1: Two way receiver diversity Value 2: One way receiver diversity Value 3: Four way receiver diversity Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1...3 , step 1 internal_value = gui_value 1 Load Control, Admission Control, Packet Scheduler On-Line - • • • • RAC to RNC EM to RNC Planner to RAC RAC Application to RAC References: - 498 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters 4.13.29 FachDataAllowedTotal (Maximum allowed total data amount on FACH) Table 478. Maximum allowed total data amount on FACH Maximum allowed total data amount on FACH FachDataAllowedTotal WCEL PSParameters 1 This parameter defines the maximum amount of user data in all RLC buffers that can be transmitted at any given time on FACH (FACH is already selected). 0 (0 bytes), 8 (8 bytes), 16 (16 bytes), 32 (32 bytes), 64 (64 bytes), 128 (128 bytes), 256 (256 bytes), 512 (512 bytes), 1024 (1 KB), 1536 (1536 bytes), 2048 (2 KB), 3072 (3 KB), 4096 (4 KB), 6144 (6 KB), 8192 (8 KB), 12288 (12 KB), 16384 (16 KB), 24576 (24 KB), 32768 (32 KB) • • • • • • • • • • • • • • • • • • • 0 bytes: internal_value = 0 8 bytes: internal_value = 8 16 bytes: internal_value = 16 32 bytes: internal_value = 32 64 bytes: internal_value = 64 128 bytes: internal_value = 128 256 bytes: internal_value = 256 512 bytes: internal_value = 512 1 KB: internal_value = 1024 1536 bytes: internal_value = 1536 2 KB: internal_value = 2048 3 KB: internal_value = 3072 4 KB: internal_value = 4096 6 KB: internal_value = 6144 8 KB: internal_value = 8192 12 KB: internal_value = 12288 16 KB: internal_value = 16384 24 KB: internal_value = 24576 32 KB: internal_value = 32768 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 1024 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 499 (756) WCDMA RAN Parameters Table 478. Maximum allowed total data amount on FACH (Continued) Packet Scheduler On-Line FachLoadMarginCCH of WCEL, FachLoadThresholdCCH of WCEL Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.13.30 FachLoadMarginCCH (Margin for FACH load for downlink channel type selection) Table 479. Margin for FACH load for downlink channel type selection Margin for FACH load for downlink channel type selection FachLoadMarginCCH WCEL PSParameters 1 The margin for the total load of SCCPCH (FACH/PCH) for downlink channel type selection. When the measured load is below the threshold by at least this margin, FACH usage is possible. 0...10 %, step 1 % internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5% Packet Scheduler On-Line FachDataAllowedTotal of WCEL, FachLoadThresholdCCH of WCEL 500 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 479. Margin for FACH load for downlink channel type selection Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.13.31 FachLoadThresholdCCH (Threshold for FACH load for downlink channel type selection) Table 480. Threshold for FACH load for downlink channel type selection Threshold for FACH load for downlink channel type selection FachLoadThresholdCCH WCEL PSParameters 1 The threshold for the total load of SCCPCH (FACH/PCH) channel for downlink channel type selection. If the threshold is exceeded, DCH is allocated. 0...100 %, step 1 % internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 75 % Packet Scheduler On-Line FachDataAllowedTotal of WCEL, FachLoadMarginCCH of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 501 (756) WCDMA RAN Parameters 4.13.32 HCS_PRIO (HCS priority level for a cell) Table 481. HCS priority level for a cell HCS priority level for a cell HCS_PRIO WCEL 1 This parameter defines the HCS priority level for a cell. Value 0 indicates the lowest HCS priority and value 7 indicates the highest HCS priority. This parameter is not needed if HCS is not used. This parameter is part of System Information Block 3. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0...7 , step 1 internal_value = gui_value 0 On-Line AdjgPenaltyTime of HOPG, AdjgQoffset1 of HOPG, AdjgTempOffset1 of HOPG, AdjiPenaltyTime of HOPI, AdjiQoffset1 of HOPI, AdjiQoffset2 of HOPI, AdjiTempOffset1 of HOPI, AdjiTempOffset2 of HOPI, AdjsPenaltyTime of HOPS, AdjsQoffset1 of HOPS, AdjsQoffset2 of HOPS, AdjsTempOffset1 of HOPS, AdjsTempOffset2 of HOPS, QHCS of WCEL, Qhyst1 of WCEL, Qhyst2 of WCEL, SHCS_RAT of WCEL, SIB3Compmask3 of WCEL, Sintersearch of WCEL, Sintrasearch of WCEL, Slimit_SearchRAT of WCEL, SsearchHCS of WCEL, Ssearch_RAT of WCEL, Treselection of WCEL, UseOfHCS of WCEL 502 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 481. HCS priority level for a cell (Continued) Parameter relationships: Interfaces: • • • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25.304, UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.331, RRC Protocol Specification • 4.13.33 HHoMaxAllowedBitrateDL (Maximum Allowed DL User Bitrate in HHO) Table 482. Maximum Allowed DL User Bitrate in HHO Maximum Allowed DL User Bitrate in HHO HHoMaxAllowedBitrateDL WCEL HCConfiguration 1 This parameter determines the bitrate threshold which the maximum allocated user bitrate on the downlink DPCH may not exceed in order for the inter-frequency or inter-RAT (GSM) handover to be possible due to high downlink DPCH power level. 32 (32 kbit/s), 64 (64 kbit/s), 128 (128 kbit/s), 256 (256 kbit/s), 320 (320 kbit/s), 384 (384 kbit/s) • • • • • • 32 kbit/s: internal_value = 32 64 kbit/s: internal_value = 64 128 kbit/s: internal_value = 128 256 kbit/s: internal_value = 256 320 kbit/s: internal_value = 320 384 kbit/s: internal_value = 384 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 64 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 503 (756) WCDMA RAN Parameters Table 482. Maximum Allowed DL User Bitrate in HHO (Continued) Handover Control On-Line - Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.13.34 HHoMaxAllowedBitrateUL (Maximum Allowed UL User Bitrate in HHO) Table 483. Maximum Allowed UL User Bitrate in HHO Maximum Allowed UL User Bitrate in HHO HHoMaxAllowedBitrateUL WCEL HCConfiguration 1 This parameter determines the bitrate threshold which the maximum allocated user bitrate on the uplink DPCH may not exceed in order for the inter-frequency or interRAT (GSM) handover to be possible due to high UE TX power level or bad uplink DCH quality. In case of bad uplink DCH quality, the bitrate threshold concerns only RT data (CS or PS) connections. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 32 (32 kbit/s), 64 (64 kbit/s), 128 (128 kbit/s), 256 (256 kbit/s), 320 (320 kbit/s), 384 (384 kbit/s) • • • • • • 32 kbit/s: internal_value = 32 64 kbit/s: internal_value = 64 128 kbit/s: internal_value = 128 256 kbit/s: internal_value = 256 320 kbit/s: internal_value = 320 384 kbit/s: internal_value = 384 Formula for getting internal value: 504 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 483. Maximum Allowed UL User Bitrate in HHO (Continued) 32 Handover Control On-Line - Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.13.35 IntraFreq_Cell_Reselect_Ind (Intra-frequency cell re-selection indicator) Table 484. Intra-frequency cell re-selection indicator Intra-frequency cell re-selection indicator IntraFreq_Cell_Reselect_Ind WCEL 1 Defines whether intra-frequency cell re-selection is allowed or not when the cell is barred. When a cell's status is "barred", the UE is not permitted to select/re-select this cell, except in some cases for an emergency call. If the "Intra-frequency cell re-selection indicator" is set to value "allowed", the UE may select another cell on the same frequency if selection/reselection criteria are fulfilled. If the "Intra-frequency cell re-selection indicator" is set to "not allowed" the UE shall not re-select even a different cell on the same frequency as the barred cell. For emergency call, the Intra-frequency cell re-selection indicator IE" shall be ignored. "Intra-frequency cell re-selection indicator" is part of SIB3/4 in the case the "cell barred" indicator is true. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (Allowed), 1 (Not allowed) DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 505 (756) WCDMA RAN Parameters Table 484. Intra-frequency cell re-selection indicator (Continued) • • 0 On-Line CellBarred of WCEL Allowed: internal_value = 0 Not allowed: internal_value = 1 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25.331, RRC Protocol Specification 3GPP Reference: TS 25.304, UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 4.13.36 LAC (Location area code) Table 485. Location area code Location area code LAC WCEL Identification 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 506 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters Table 485. Description: Location area code (Continued) This parameter contains the Location area code (LAC) of a WCDMA cell. The coding of the Location area code (two octets) is the responsibility of administration. LAI (Location Area Identification) consists of PLMNid and LAC. If LAI has to be deleted, LAC is set as 0xFFFE. This parameter is also part of System Information Block 1 and known as IE: GSM-MAP NAS system information. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1...65535 , step 1 internal_value = gui_value On-Line PLMNid of RNC • • • • • • RNC to UE RNC to MSC RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 3GPP Reference: TS 25.413, UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25.331, RRC Protocol Specification 3GPP Reference: TS 23.003, Numbering, addressing and identification 3GPP Reference: TS 24.008, Mobile radio interface layer 3 specification; Core Network Protocols References: • • • • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 507 (756) WCDMA RAN Parameters 4.13.37 LcrId (Local cell resource identifier) Table 486. Local cell resource identifier Local cell resource identifier LcrId WCEL Identification 1 The Local cell resource is an object, which consists of the HW required by one cell for transmission and receiving. Local cell resource id is used to address one particular local cell resource at the BTS. The LCR Id is unique within 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 id. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0...268435455 , step 1 internal_value = gui_value Not modifiable CId of WCEL • • • • • • RNC to WBTS RAC to RNC EM to RNC EM to WBTS Planner to RAC RAC Application to RAC 3GPP Reference: TS 25.401, UTRAN Overall Description 3GPP Reference: TS 25.433, UTRAN Iub Interface NBAP Signalling References: • • 508 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters 4.13.38 MHA (MHA used) Table 487. MHA used MHA used MHA WCEL ACConfiguration 1 The MHA is a preamplifier for uplink reception, normally in the mast or near the antenna. Parameter is used also for the needs of the UL open loop power control to find out, whether the MHA is in use or not. 0 (False), 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 (No) Admission Control, Power Control On-Line CableLoss of WCEL • • • • • • • Planner to RAC RAC to RNC RAC to WBTS EM to RNC EM to WBTS RAC Application to RAC Planner to WBTS References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 509 (756) WCDMA RAN Parameters 4.13.39 MaxBitRateDLPSNRT (Maximum downlink bit rate for PS domain NRT data ) Table 488. Maximum downlink bit rate for PS domain NRT data Maximum downlink bit rate for PS domain NRT data MaxBitRateDLPSNRT WCEL ACConfiguration 1 This parameter defines the maximum downlink user bit rate allowed in a cell for an NRT PS domain RAB. 8 (8 kbit/s), 16 (16 kbit/s), 32 (32 kbit/s), 64 (64 kbit/s), 128 (128 kbit/s), 256 (256 kbit/s), 320 (320 kbit/s), 384 (Default value) • • • • • • • • 8 kbit/s: internal_value = 8 16 kbit/s: internal_value = 16 32 kbit/s: internal_value = 32 64 kbit/s: internal_value = 64 128 kbit/s: internal_value = 128 256 kbit/s: internal_value = 256 320 kbit/s: internal_value = 320 Default value: internal_value = 384 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 384 Admission Control, Packet Scheduler On-Line MaxBitRateULPSNRT of WCEL, MinAllowedBitRateDL of WCEL Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 510 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAN Parameters 4.40 MaxBitRateULPSNRT (Maximum uplink bit rate for PS domain NRT data ) Table 489. 64 (64 kbit/s). 16 (16 kbit/s).13. 256 (256 kbit/s). Packet Scheduler On-Line MaxBitRateDLPSNRT of WCEL. 384 (Default value) • • • • • • • • 8 kbit/s: internal_value = 8 16 kbit/s: internal_value = 16 32 kbit/s: internal_value = 32 64 kbit/s: internal_value = 64 128 kbit/s: internal_value = 128 256 kbit/s: internal_value = 256 320 kbit/s: internal_value = 320 Default value: internal_value = 384 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 384 Admission Control. Maximum uplink bit rate for PS domain NRT data Maximum uplink bit rate for PS domain NRT data MaxBitRateULPSNRT WCEL ACConfiguration 1 This parameter defines the maximum uplink user bit rate allowed in a cell for an NRT PS domain RAB. 32 (32 kbit/s). 8 (8 kbit/s). 128 (128 kbit/s). MinAllowedBitRateUL of WCEL Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 511 (756) . 320 (320 kbit/s). 13.WCDMA RAN Parameters 4. Max Code Releases Max Code Releases MaxCodeReleases WCEL ACConfiguration 1 The parameter defines the maximum amount of code release actions allowed in a code tree before rearrangement is applied to this code tree. Compressed Mode: Maximum number of UEs Compressed Mode: Maximum number of UEs MaxNumbUECMcoverHO WCEL Parameter name: Abbreviated name: Managed object: 512 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1. CodeTreeUsage of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.42 MaxNumbUECMcoverHO (Compressed Mode: Maximum number of UEs) Table 491.41 MaxCodeReleases (Max Code Releases) Table 490.65535 . CodeTreeOptimisation of WCEL.13... step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 25 On-Line CodeTreeOptTimer of WCEL. HLSModeSelection of RNC.43 MinAllowedBitRateDL (Initial and minimum allowed bit rate in downlink) Table 492.RAN Parameters Table 491. MinDLAMRmodeCM of RNC. This limit is temporarily allowed to exceed when new soft handover branch to be added to this cell belongs to the RRC connection that is in compressed mode.. Handover Control On-Line AltScramblingCodeCM of WCEL. Compressed Mode: Maximum number of UEs (Continued) PSParameters 1 With this parameter is defined maximum number of UEs in compressed mode simultaneously in the cell due to coverage or quality based HO measurement reason. PowerMarginCMcodeHalving of RNC Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4..13. Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0. GapPositionSingleFrame of RNC.255 . LowerULAMRmodeCM of RNC. step 1 internal_value = gui_value 16 Packet Scheduler. CMmasterSwitch of RNC. Initial and minimum allowed bit rate in downlink Initial and minimum allowed bit rate in downlink MinAllowedBitRateDL WCEL PSParameters Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 513 (756) . 44 MinAllowedBitRateUL (Initial and minimum allowed bit rate in uplink) Table 493. 32 (32 kbps). 16 (16 kbps). 256 (256 kbps). Multiplicity: Description: Initial and minimum allowed bit rate in downlink (Continued) 1 This parameter defines the minimum allowed bit rate in downlink that can be allocated by the PS.13. 128 (128 kbps). 384 (384 kbps) • • • • • • • • 8 kbps: internal_value = 8 16 kbps: internal_value = 16 32 kbps: internal_value = 32 64 kbps: internal_value = 64 128 kbps: internal_value = 128 256 kbps: internal_value = 256 320 kbps: internal_value = 320 384 kbps: internal_value = 384 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 32 Packet Scheduler On-Line MaxBitRateDLPSNRT of WCEL. 320 (320 kbps). 64 (64 kbps). The allocated bit rate corresponds to the highest bit rate in the TFS from which the TFCS is constructed.WCDMA RAN Parameters Table 492. MinAllowedBitRateUL of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. Initial and minimum allowed bit rate in uplink Initial and minimum allowed bit rate in uplink MinAllowedBitRateUL WCEL Parameter name: Abbreviated name: Managed object: 514 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 8 (8 kbps). RAN Parameters Table 493. 320 (320 kbps). 32 (32 kbps). 256 (256 kbps). 16 (16 kbps). 384 (384 kbps) • • • • • • • • 8 kbps: internal_value = 8 16 kbps: internal_value = 16 32 kbps: internal_value = 32 64 kbps: internal_value = 64 128 kbps: internal_value = 128 256 kbps: internal_value = 256 320 kbps: internal_value = 320 384 kbps: internal_value = 384 Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 8 Packet Scheduler On-Line MaxBitRateULPSNRT of WCEL. 64 (64 kbps). Initial and minimum allowed bit rate in uplink (Continued) PSParameters 1 This parameter defines the minimum allowed bit rate in uplink that can be allocated by the PS. MinAllowedBitRateDL of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 515 (756) . The allocated bit rate corresponds to the highest bit rate in the TFS from which the TFCS is constructed. 8 (8 kbps). 128 (128 kbps). 4 (400). 6 (800). 5 (600). 10 (10). 1 (50).45 N312 (N312) Table 494. 11 (20) • • • • • • • • • • • • 1: internal_value = 0 50: internal_value = 1 100: internal_value = 2 200: internal_value = 3 400: internal_value = 4 600: internal_value = 5 800: internal_value = 6 1000: internal_value = 7 2: internal_value = 8 4: internal_value = 9 10: internal_value = 10 20: internal_value = 11 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 9 On-Line T312 of WCEL 516 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 2 (100). This parameter is part of System Information Block 1.WCDMA RAN Parameters 4. 8 (2). 7 (1000). N312 N312 N312 WCEL 1 This parameter defines the maximum number of "in sync" indications received from L1 during the establishment of a physical channel (UE counter used in idle and connected mode). 9 (4). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (1). 3 (200).13. 6 (100). This parameter is part of System Information Block 1. 5 (50).331. 1 (2).13.RAN Parameters Table 494.46 N313 (N313) Table 495. RRC Protocol Specification 4. N313 N313 N313 WCEL 1 This parameter defines the maximum number of successive "out of sync" indications received from L1 (MS counter). 3 (10). 4 (20). N312 (Continued) Parameter relationships: Interfaces: • • • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 0 (1). 2 (4). 7 (200) • • • • • • • • 1: internal_value = 0 2: internal_value = 1 4: internal_value = 2 10: internal_value = 3 20: internal_value = 4 50: internal_value = 5 100: internal_value = 6 200: internal_value = 7 Default value Default value notes Related functions: 4 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 517 (756) . N315 N315 N315 WCEL 1 This parameter defines the maximum number of successive "in sync" indications received from L1 while T313 is being activated (UE counter). 6 (800). 2 (100). 5 (600). 3 (200). 1 (50). 11 (20) 518 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . N313 (Continued) On-Line T313 of WCEL Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. 7 (1000). This parameter is part of System Information Block 1.13. 10 (10). 9 (4). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (1). 8 (2).47 N315 (N315) Table 496. 4 (400). RRC Protocol Specification References: • 4.WCDMA RAN Parameters Table 495.331. 48 NASsignVolThrDL (Downlink NAS signalling volume threshold) Table 497.331.RAN Parameters Table 496.13. Downlink NAS signalling volume threshold Downlink NAS signalling volume threshold NASsignVolThrDL WCEL PSParameters Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 519 (756) . N315 (Continued) • • • • • • • • • • • • 1: internal_value = 0 50: internal_value = 1 100: internal_value = 2 200: internal_value = 3 400: internal_value = 4 600: internal_value = 5 800: internal_value = 6 1000: internal_value = 7 2: internal_value = 8 4: internal_value = 9 10: internal_value = 10 20: internal_value = 11 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0 On-Line T313 of WCEL • • • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. RRC Protocol Specification References: • 4. 7 (512 bytes). 16 KB: internal_value = 15 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 8 Packet Scheduler On-Line NASsignVolThrUL of WCEL 520 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 10 (3072 bytes. it performs state transition from Cell_FACH state to Cell_DCH state and allocates signalling link only for the RRC connection. 2 KB: internal_value = 9 3072 bytes. 4 (64 bytes). 3 KB: internal_value = 10 4096 bytes. 5 (128 bytes). 15 (16384 bytes. 2 KB). 1 (8 bytes). 8 KB: internal_value = 13 12288 bytes. 6 KB: internal_value = 12 8192 bytes. 13 (8192 bytes. 12 KB). capacity request is rejected and state transition is not performed. 2 (16 bytes). 4 KB: internal_value = 11 6144 bytes. 12 KB: internal_value = 14 16384 bytes. 6 KB). 9 (2048 bytes. 3 KB). 8 (1024 bytes. 11 (4096 bytes. 0 (0 bytes). 12 (6144 bytes.WCDMA RAN Parameters Table 497. 8 KB). If RNC detects that threshold is exceeded. 6 (256 bytes). 16 KB) • • • • • • • • • • • • • • • • 0 bytes: internal_value = 0 8 bytes: internal_value = 1 16 bytes: internal_value = 2 32 bytes: internal_value = 3 64 bytes: internal_value = 4 128 bytes: internal_value = 5 256 bytes: internal_value = 6 512 bytes: internal_value = 7 1024 bytes. 1 KB: internal_value = 8 2048 bytes. 3 (32 bytes). If threshold is not exceeded. 14 (12288 bytes. 1 KB). Multiplicity: Description: Downlink NAS signalling volume threshold (Continued) 1 This parameter defines downlink threshold for the sum of the RLC buffer loads of the SRB3 and SRB4. 4 KB). 12 (6144 bytes. 6 KB). 13 (8192 bytes. 4 (64 bytes). capacity request is rejected and state transition is not performed. 9 (2048 bytes. Uplink NAS signalling volume threshold Uplink NAS signalling volume threshold NASsignVolThrUL WCEL PSParameters 1 This parameter defines uplink threshold for the sum of the RLC buffer loads of the SRB3 and SRB4. 1 (8 bytes). 2 (16 bytes). 0 (0 bytes). 3 KB). 2 KB). 8 (1024 bytes. Downlink NAS signalling volume threshold (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. 1 KB).49 NASsignVolThrUL (Uplink NAS signalling volume threshold) Table 498. 6 (256 bytes). If RNC detects that threshold is exceeded.13. 15 (16384 bytes. 8 KB). If threshold is not exceeded. 3 (32 bytes). 10 (3072 bytes. 16 KB) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 521 (756) . 12 KB).RAN Parameters Table 497. 4 KB). 5 (128 bytes). 11 (4096 bytes. it performs state transition from Cell_FACH state to Cell_DCH state and allocates signalling link only for the RRC connection. 7 (512 bytes). 14 (12288 bytes. 50 NCr (Maximum number of cell reselections) Table 499. 16 KB: internal_value = 15 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 8 Packet Scheduler On-Line NASsignVolThrDL of WCEL • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. 4 KB: internal_value = 11 6144 bytes.13. 2 KB: internal_value = 9 3072 bytes. Maximum number of cell reselections Maximum number of cell reselections NCr WCEL - Parameter name: Abbreviated name: Managed object: Parameter group: 522 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 12 KB: internal_value = 14 16384 bytes. 1 KB: internal_value = 8 2048 bytes.WCDMA RAN Parameters Table 498. 8 KB: internal_value = 13 12288 bytes. 3 KB: internal_value = 10 4096 bytes. Uplink NAS signalling volume threshold (Continued) • • • • • • • • • • • • • • • • 0 bytes: internal_value = 0 8 bytes: internal_value = 1 16 bytes: internal_value = 2 32 bytes: internal_value = 3 64 bytes: internal_value = 4 128 bytes: internal_value = 5 256 bytes: internal_value = 6 512 bytes: internal_value = 7 1024 bytes. 6 KB: internal_value = 12 8192 bytes. step 1 internal_value = gui_value 8 On-Line TCrmax of WCEL. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.16 . Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1. UseOfHCS of WCEL Parameter relationships: Interfaces: • • • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. If the number of cell reselections during the TCrmax time period exceeds the value of NCr. RRC Protocol Specification • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 523 (756) . TCrmaxHyst of WCEL.. Multiplicity: Description: Maximum number of cell reselections (Continued) 1 This parameter defines the maximum number of cell reselections. Not used if TCrmax equals 'not used' This parameter is part of System Information Block 3. Treselection of WCEL..304. Needed only if HCS is used.331. high mobility has been detected.RAN Parameters Table 499. WCDMA RAN Parameters 4.2 . PtxSCCPCH2 of WCEL • • • RAC to RNC EM to RNC RAC Application to RAC References: - 524 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . If two SCCPCHs is used.51 NbrOfSCCPCHs (Number of SCCPCHs) Table 500. the first SCCPCH will carry FACHs only and the second SCCPCH will carry PCH only. step 1 internal_value = gui_value 1 Requires object locking PtxSCCPCH1 of WCEL. If only one SCCPCH is used. Recommended value of the transmission power of the SCCPCH is dependent on the number of SCCPCHs Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1..13.. it will carry FACHs and PCH. Number of SCCPCHs Number of SCCPCHs NbrOfSCCPCHs WCEL 1 This parameter tells how many SCCPCHs will be configured for the cell. 13.53 NrtFmciIdentifier (NRT FMCI Identifier) Table 502.13.100 . NRT FMCI Identifier NRT FMCI Identifier NrtFmciIdentifier WCEL HCConfiguration Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 525 (756) ..52 NrtFmcgIdentifier (NRT FMCG Identifier) Table 501. NRT FMCG Identifier NRT FMCG Identifier NrtFmcgIdentifier WCEL HCConfiguration 1 This parameter identifies the Measurement Control Parameter Set (FMCG object) which controls the interRAT (GSM) measurements of a non-real time (NRT) radio bearer..RAN Parameters 4. 1. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line FMCGId of FMCG • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. WCDMA RAN Parameters Table 502. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line FMCIId of FMCI • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. 1.13. 1.54 NrtFmcsIdentifier (NRT FMCS Identifier) Table 503.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 526 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .100 . Multiplicity: Description: NRT FMCI Identifier (Continued) 1 This parameter identifies the Measurement Control Parameter Set (FMCI object) which controls the interfrequency measurements of a non-real time (NRT) radio bearer..100 ... NRT FMCS Identifier NRT FMCS Identifier NrtFmcsIdentifier WCEL HCConfiguration 1 Identifies the Measurement Control Parameter Set (FMCS object) which controls the intra-frequency measurements of a non-real time (NRT) radio bearer. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 0 (18). NRT FMCS Identifier (Continued) On-Line FMCSId of FMCS Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RAC to RNC EM to RNC RAC Application to RAC Planner to RAC References: - 4. Number of PI per frame Number of PI per frame PI_amount WCEL 1 The number of Page Indicators that can be paged in one PICH radio frame. 3 (144) • • • • 18: internal_value = 0 36: internal_value = 1 72: internal_value = 2 144: internal_value = 3 Default value Default value notes Related functions: Modification: 2 On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 527 (756) . This parameter is part of System Information Block 5. 1 (36). 2 (72).RAN Parameters Table 503.13.55 PI_amount (Number of PI per frame) Table 504. 56 PRACHRequiredReceivedCI (Required received C/I on PRACH at WCDMA BTS) Table 505. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -35. Required received C/I on PRACH at WCDMA BTS Required received C/I on PRACH at WCDMA BTS PRACHRequiredReceivedCI WCEL PCConfiguration 1 This UL required received C/I value is used by the UE to calculate the initial output power on PRACH according to the Open loop power control procedure. PowerRampStepPRACHpreamble of WCEL 528 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .433. This parameter is part of System Information Block 5.WCDMA RAN Parameters Table 504. step 1 dB internal_value = gui_value -25 dB On-Line PowerOffsetLastPreamblePRACHmessage of WCEL... Number of PI per frame (Continued) PTxPICH of WCEL Related parameters: Parameter relationships: Interfaces: • • • • • RNC to UE RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.13. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25.-10 dB.331. RRC Protocol Specification References: • • 4. 331. Required received C/I on PRACH at WCDMA BTS (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Physical layer procedures (FDD) 4.214. PRACH scrambling code PRACH scrambling code PRACHScramblingCode WCEL 1 The scrambling code for the preamble part and the message part of a PRACH channel..13. RRC Protocol Specification 3GPP Reference: TS 25. PRACH scrambling code is part of "PRACH info" which is part of "PRACH system information list" which is part of SIB5/6 0.15 ..RAN Parameters Table 505. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 529 (756) .57 PRACHScramblingCode (PRACH scrambling code) Table 506. 64 . RRC Protocol Specification 3GPP Reference: TS 25.433. UTRAN Iub Interface NBAP Signalling 4.13..331. Spreading and modulation (FDD) 3GPP Reference: TS 25.213. RACH_tx_Max of WCEL 530 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. RACH_Tx_NB01min of WCEL. PRACH Preamble Retrans Max PRACH Preamble Retrans Max PRACH_preamble_retrans WCEL 1 The maximum number of preambles allowed in one preamble ramping cycle.58 PRACH_preamble_retrans (PRACH Preamble Retrans Max) Table 507.WCDMA RAN Parameters Table 506. 1. PRACH scrambling code (Continued) Parameter relationships: Interfaces: • • • • • References: • • • RNC to UE RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. PRACH Preamble Retrans Max is part of "PRACH power offset" which is part of "PRACH system information list" which is part of SIB5/6. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 8 On-Line RACH_Tx_NB01max of WCEL. -5 This parameter is part of System Information Block 5. Power relative to CPICH (dB): 18. The following table shows the recommended values for the different cases N. It carries the paging indicators which tell the UE to read the paging message from the associated secondary CCPCH. It may depend on the number of paging indicators (PI) per frame. -8 144.5 dB. Transmission power of the PICH channel Transmission power of the PICH channel PTxPICH WCEL PCConfiguration 1 This is the transmission power of the PICH channel. Repetition of PICH bits. RRC Protocol Specification 4. 2. 16. 8. -10 72. PRACH Preamble Retrans Max (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.331.13. step 1 dB internal_value = gui_value -8 dB - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 531 (756) . 4. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes -10. -10 36.. PI per frame (NP)..RAN Parameters Table 507.59 PTxPICH (Transmission power of the PICH channel) Table 508. The transmission power value is relative to the CPICH transmission power. . This parameter is part of System Information Block 5.331.10 dB. Transmission power of the PICH channel (Continued) Power Control On-Line PI_amount of WCEL.433. RRC Protocol Specification References: • • 4.WCDMA RAN Parameters Table 508.60 PowerOffsetLastPreamblePRACHmessage (Power offset last preamble and PRACH message) Table 509. Power offset last preamble and PRACH message Power offset last preamble and PRACH message PowerOffsetLastPreamblePRACHmessage WCEL PCConfiguration 1 The power offset between the last transmitted preamble and the control part of the PRACH message (added to the preamble power to receive the power of the message control part).13. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: -5. PtxPrimaryCPICH of WCEL Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RNC to WBTS RAC to RNC RAC Application to RAC 3GPP Reference: TS 25.. step 1 dB internal_value = gui_value 2 dB Power Control On-Line 532 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. Power offset last preamble and PRACH message (Continued) PRACHRequiredReceivedCI of WCEL. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: • • • PO1_15 PO1_30 PO1_60 Formula for getting internal value: Default value Default value notes - - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 533 (756) . Physical layer procedures (FDD) 3GPP Reference: TS 25. 3 dB for 30 ksps. This parameter is part of System Information Block 5. and 4 dB for 60 ksps. RRC Protocol Specification 4. PowerRampStepPRACHpreamble of WCEL Related parameters: Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. The power offsets vary in time according to the bit-rate.331.214.RAN Parameters Table 509. Note: The TFCI field is offset relative to the power of the data field. Power offset for S-CCPCH TFCI Power offset for S-CCPCH TFCI PowerOffsetSCCPCHTFCI WCEL PCConfiguration 1 Defines the power offset for the TFCI symbols relative to the downlink transmission power of a Secondary CCPCH.13. Proposed values are: 2 dB for 15 ksps.61 PowerOffsetSCCPCHTFCI (Power offset for S-CCPCH TFCI) Table 510. and 4 dB for 60 ksps.61.25 dB internal_value = gui_value * 4 2 dB Power Control On-Line 534 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . PtxSCCPCH2 of WCEL Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.6 dB. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. Power offset for SCCPCH TFCI (15 ksps) Power offset for SCCPCH TFCI (15 ksps) PO1_15 WCEL PCConfiguration 1 Defines the power offset for the TFCI symbols relative to the downlink transmission power of a Secondary CCPCH. step 0. 3 dB for 30 ksps. The power offsets vary in time according to the bit-rate.13.1 PO1_15 (Power offset for SCCPCH TFCI (15 ksps)) Table 511. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0. Physical layer procedures (FDD) References: • • 4. Proposed values are: 2 dB for 15 ksps.. Note: The TFCI field is offset relative to the power of the data field.214..WCDMA RAN Parameters Table 510. Power offset for S-CCPCH TFCI (Continued) Power Control On-Line PtxSCCPCH1 of WCEL.433. PtxSCCPCH2 of WCEL Related parameters: Parameter relationships: Interfaces: • • • • References: • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.433. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. Power offset for SCCPCH TFCI (15 ksps) (Continued) PowerOffsetSCCPCHTFCI of WCEL.61. 3 dB for 30 ksps. Power offset for SCCPCH TFCI (30 ksps) Power offset for SCCPCH TFCI (30 ksps) PO1_30 WCEL PCConfiguration 1 Defines the power offset for the TFCI symbols relative to the downlink transmission power of a Secondary CCPCH. PtxSCCPCH1 of WCEL. Physical layer procedures (FDD) 4. PtxSCCPCH1 of WCEL. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0. PtxSCCPCH2 of WCEL DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 535 (756) .214..25 dB internal_value = gui_value * 4 3 dB Power Control On-Line PowerOffsetSCCPCHTFCI of WCEL.13.RAN Parameters Table 511..2 PO1_30 (Power offset for SCCPCH TFCI (30 ksps)) Table 512. Proposed values are: 2 dB for 15 ksps. and 4 dB for 60 ksps. The power offsets vary in time according to the bit-rate. step 0.6 dB. Note: The TFCI field is offset relative to the power of the data field. The power offsets vary in time according to the bit-rate.13. step 0.WCDMA RAN Parameters Table 512.433.. PtxSCCPCH1 of WCEL. Power offset for SCCPCH TFCI (60 ksps) Power offset for SCCPCH TFCI (60 ksps) PO1_60 WCEL PCConfiguration 1 Defines the power offset for the TFCI symbols relative to the downlink transmission power of a Secondary CCPCH.61. Proposed values are: 2 dB for 15 ksps. Note: The TFCI field is offset relative to the power of the data field. and 4 dB for 60 ksps. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0.25 dB internal_value = gui_value * 4 4 dB Power Control On-Line PowerOffsetSCCPCHTFCI of WCEL. UTRAN Iub Interface NBAP Signalling 4. 3 dB for 30 ksps. Physical layer procedures (FDD) 3GPP Reference: TS 25.6 dB..214. PtxSCCPCH2 of WCEL 536 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Power offset for SCCPCH TFCI (30 ksps) (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.3 PO1_60 (Power offset for SCCPCH TFCI (60 ksps)) Table 513. 62 PowerRampStepPRACHpreamble (Power ramp step on PRACH preamble) Table 514.RAN Parameters Table 513. This parameter is part of System Information Block 5.214. Physical layer procedures (FDD) 4. Power offset for SCCPCH TFCI (60 ksps) (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Power ramp step on PRACH preamble Power ramp step on PRACH preamble PowerRampStepPRACHpreamble WCEL PCConfiguration 1 The power ramp step on PRACH preamble when no acquisition indicator (AI) is detected by the UE.13... Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 1. step 1 dB internal_value = gui_value 2 dB Power Control On-Line PRACHRequiredReceivedCI of WCEL. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. PowerOffsetLastPreamblePRACHmessage of WCEL DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 537 (756) .433.8 dB. 13.511 . Power ramp step on PRACH preamble (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. step 1 internal_value = gui_value 0 Cell shutdown is needed UARFCN of WCEL 538 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 514. Primary downlink scrambling code Primary downlink scrambling code PriScrCode WCEL ACConfiguration 1 Identifies the downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the Cell... Note: Changing the parameter value will start the cell shutdown procedure in the BTS. RRC Protocol Specification 4.331. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0.214.63 PriScrCode (Primary downlink scrambling code) Table 515. Physical layer procedures (FDD) 3GPP Reference: TS 25. Uplink noise level Uplink noise level PrxNoise WCEL LCConfiguration 1 Defines the noise level in the BTS digital receiver when there is no load (thermal noise + noise figure).-50 dBm. Primary downlink scrambling code (Continued) Parameter relationships: Interfaces: • • • • • • • References: • • RNC to UE RNC to WBTS RAC to RNC EM to RNC Planner to RAC RAC Application to RAC WBTS to UE 3GPP Reference: TS 25.331. RRC Protocol Specification (Primary CPICH info) 4. This parameter is needed in noise rise calculations.9 dBm Admission Control. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. PrxOffset of WCEL.RAN Parameters Table 515.64 PrxNoise (Uplink noise level ) Table 516.. -130. Load Control. PrxTarget of WCEL. Packet Scheduler On-Line PrxNoiseAutotuning of WCEL.433.1 dBm internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -101. PrxNoiseMaxTuneAbsolute of RNC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 539 (756) .. step 0.13. 65 PrxNoiseAutotuning (PrxNoise autotuning allowed) Table 517.13. Uplink noise level (Continued) Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 4. Packet Scheduler. 0 (False). PrxNoise autotuning allowed PrxNoise autotuning allowed PrxNoiseAutotuning WCEL LCConfiguration 1 The autotuning algorithm of PrxNoise can be switched on or off. Admission Control On-Line PrxNoise of WCEL. PrxNoiseMaxTuneAbsolute of RNC • • • RAC to RNC EM to RNC RAC Application to RAC References: - 540 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1 (True) • • False => 0 True => 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1 (Yes) Load Control.WCDMA RAN Parameters Table 516. PrxTarget of WCEL. Load Control. step 0. Offset for received power Offset for received power PrxOffset WCEL LCConfiguration 1 The target value of the total received power (PrxTarget) can be exceeded by the value of this parameter before the cell is considered to be overloaded in uplink. Packet Scheduler. Radio Access Bearer is not admitted if the total received power exceeds the sum of the values of this parameter and the PrxTarget. PrxOffset is used to calculate the first uplink overload threshold for BTS and RNC: PrxTargetBTS = PrxTarget+PrxOffset..RAN Parameters 4.1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 1 dB Power Control.66 PrxOffset (Offset for received power) Table 518.6 dB. PtxTarget of WCEL Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC Planner to RAC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 541 (756) .. PtxOffset of WCEL.13. 0. Admission Control On-Line PrxNoise of WCEL. PtxTarget of WCEL Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 542 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . it gives an upper threshold for the noise rise: the ratio of the total received uplink power to system noise.. Admission Control On-Line PrxNoise of WCEL. The value of the PrxTarget is relative to the system noise.WCDMA RAN Parameters 4.. PtxOffset of WCEL. An uplink RT RAB is not admitted if the estimated non-controllable power exceeds this threshold.30 dB.1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 4 dB Packet Scheduler. 0. PrxOffset of WCEL.13. PrxTarget is also used to calculate PrxTargetBTS.67 PrxTarget (Target for received power) Table 519. Handover Control. Target for received power Target for received power PrxTarget WCEL LCConfiguration 1 The target for received total wideband interference power in a cell. step 0. which is the first overload threshold for BSUL interference. and the phase reference for the AICH is the P-CPICH.68 PtxAICH (Transmission power of the AICH channel) Table 520. The AICH consists of a repeated sequence of 15 consecutive Access Slots (AS).13.. The spreading factor (SF) used for the channelisation of the AICH is 256. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -22.RAN Parameters 4. 1024 chips in length..5 dB. Each access slot consists of two parts: an Acquisition Indicator (AI) part consisting of 32 realvalued symbols. This parameter is part of System Information Block 5. and a second part. Transmission power of the AICH channel Transmission power of the AICH channel PtxAICH WCEL PCConfiguration 1 This is the transmission power of one Aquisition Indicator (AI) compared to CPICH power. or possible future use by other physical channels. step 1 dB internal_value = gui_value -8 dB Power Control On-Line PtxPrimaryCPICH of WCEL DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 543 (756) . This second part of the slot is reserved for possible use by CSICH. then the total power of AICH increases. which has no transmission and is not formally part of the AICH. If a WCDMA BTS transmits a large number of AIs. each one 5120 chips in length. WCDMA RAN Parameters Table 520.1 dBm internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes 50 dBm - 544 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Transmission power of the AICH channel (Continued) Parameter relationships: Interfaces: • • • • • References: • RNC to UE RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.13. -10. step 0.211. Physical channels and mapping of transport channels onto physical channels (FDD) 3GPP Reference: TS 25.331. RRC Protocol Specification • • 4.433. This parameter is the planned maximum. The parameter is set separately for each cell. Planned maximum downlink transmission power of a radio link Planned maximum downlink transmission power of a radio link PtxDLabsMax WCEL ACConfiguration 1 The planned maximum downlink transmission power of radio link.50 dBm. This parameter is used in the downlink power allocation when CCTrCH includes one or more DCH's of interactive or background traffic class RAB's. not the physical limit. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. The allocated power of a radio link cannot exceed the value of this parameter...69 PtxDLabsMax (Planned maximum downlink transmission power of a radio link) Table 521. Packet Scheduler.RAN Parameters Table 521.2 dB. PtxDPCHmax of WBTS Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • References: RAC to RNC EM to RNC Planner to RAC RAC Application to RAC AC to PS AC to PC 4.. DLreferenceTargetBLER of WCEL. Admission Control On-Line CPICHtoRefRABoffset of WCEL. 0. When the measured load is below the threshold by this margin. Margin for total downlink transmission power for downlink channel type selection Margin for total downlink transmission power for downlink channel type selection PtxMarginCCH WCEL PSParameters 1 The margin for the total downlink transmission power for downlink channel type selection. Planned maximum downlink transmission power of a radio link Power Control.70 PtxMarginCCH (Margin for total downlink transmission power for downlink channel type selection) Table 522.. step 0.5 dB Packet Scheduler DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 545 (756) .13. DLreferenceBitRate of WCEL. FACH usage is possible.1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 0. step 0.13. Margin for total downlink transmission power for downlink channel type selection (Continued) On-Line FachLoadMarginCCH of WCEL. PtxThresholdCCH of WCEL Modification: Related parameters: Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 1 dB Admission Control.6 dB.71 PtxOffset (Offset for transmitted power) Table 523. 0.WCDMA RAN Parameters Table 522.. FachLoadThresholdCCH of WCEL. Load Control. Packet Scheduler On-Line 546 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. if the total transmitted power exceeds the sum of the values of this parameter and the PtxTarget. Offset for transmitted power Offset for transmitted power PtxOffset WCEL LCConfiguration 1 The target value of the total transmitted power (PtxTarget) can be exceeded by the value of this parameter before the cell is considered to be overloaded in downlink. Radio Access Bearer is not admitted. PtxOffset is used to calculate the first downlink overload threshold for BTS and RNC: PtxTargetBTS = PtxTarget+PrxOffset. PrxTarget of WCEL.72 PtxPrimaryCCPCH (Transmission power of the primary CCPCH channel) Table 524. The P-CCPCH is a fixed rate (15 ksps. where Primary SCH and Secondary SCH are transmitted. The P-CCPCH is broadcast over the entire cell and it is not transmitted during the first 256 chips of each slot.RAN Parameters Table 523. PtxTarget of WCEL Related parameters: Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 4. Offset for transmitted power (Continued) PrxOffset of WCEL. Transmission power of the primary CCPCH channel Transmission power of the primary CCPCH channel PtxPrimaryCCPCH WCEL PCConfiguration 1 This is the transmission power of the primary CCPCH relative to the CPICH transmission power..13. step 0.256. SF = 256) downlink physical channel used to carry the BCH.15 dB.1 dB internal_value = gui_value * 10 -5 dB Power Control DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 547 (756) .1). Note: Changing the parameter value will start the cell shutdown procedure in the BTS. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -35. It is a pure data channel and characterized by a fixed channelisation code (Cch.. 43 dBm/carrier.WCDMA RAN Parameters Table 524. The transmission power of the CPICH physical channel defines the actual cell size. for neighbour measurements . PtxPrimarySCH of WCEL Modification: Related parameters: Parameter relationships: Interfaces: • • • • • RNC to WBTS RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 3GPP Reference: TS 25.. Note: Changing the parameter value will start the cell shutdown procedure in the BTS.73 PtxPrimaryCPICH (Transmission power of the primary CPICH channel) Table 525. The P-CPICH physical channel carries the common pilots of the cell.50 dBm. The default value is 5-10% of the maximum transmitting power of WCDMA BTS. which is defined in the cell setup.critical for the network performance.433. Transmission power of the primary CCPCH channel (Continued) Cell shutdown is needed PtxPrimaryCPICH of WCEL. This parameter is used. UTRAN Iub Interface NBAP Signalling References: • 4. Transmission power of the primary CPICH channel Transmission power of the primary CPICH channel PtxPrimaryCPICH WCEL PCConfiguration 1 This is the transmission power of the primary common pilot channel. step 0. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: -10.13.1 dBm 548 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . for example. which means that the power is determined by radio network planning. which can be.. for example. RAN Parameters Table 525. The primary SCH consists of a modulated code 256 chips in length: the Primary Synchronisation Code (PSC) transmitted once every slot. Power Control Cell shutdown is needed - • • • • • • RNC to WBTS Planner to RAC RAC to RNC EM to RNC RAC Application to RAC RNC to UE 3GPP Reference: TS 25. The PSC is the same for every cell in the system. UTRAN Iub Interface NBAP Signalling References: • 4. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 549 (756) .74 PtxPrimarySCH (Transmission power of the primary SCH channel) Table 526. Note: Changing the parameter value will start the cell shutdown procedure in the BTS.13. Transmission power of the primary CPICH channel (Continued) internal_value = gui_value * 10 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 33 dBm Admission Control. and it enables the downlink slot synchronisation in the cell. Transmission power of the primary SCH channel Transmission power of the primary SCH channel PtxPrimarySCH WCEL PCConfiguration 1 This is the transmission power of the primary synchronization channel.433. The power level is relative to the [FDD-primary CPICH power]. Handover Control. Transmission power of the primary SCH channel (Continued) -35.WCDMA RAN Parameters Table 526.15 dB. PtxSecSCH of WCEL • • • • • RNC to WBTS RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 3GPP Reference: TS 25.13.. step 0.433. UTRAN Iub Interface NBAP Signalling References: • 4.1 dB internal_value = gui_value * 10 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: -3 dB Power Control Cell shutdown is needed PtxPrimaryCPICH of WCEL.. Transmission power of the first Secondary CCPCH channel Transmission power of the first Secondary CCPCH channel PtxSCCPCH1 WCEL PCConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 550 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .75 PtxSCCPCH1 (Transmission power of the first Secondary CCPCH channel) Table 527. The default power value has to be increased when symbol rate is doubled. Note: The SCCPCH carrying FACHs and PCH has SF = 64 (60 ksps). the first SCCPCH will carry FACHs only and the second SCCPCH will carry PCH only.433.. and the SCCPCH carrying PCH only has SF = 128 (30 ksps) or 256 (15 ksps). step 0.. PtxPrimaryCPICH of WCEL. If two SCCPCHs are used. Description: Transmission power of the first Secondary CCPCH channel This is the transmission power of the first SCCPCH channel. it will carry FACHs and PCH. Note: If only one SCCPCH is used. PowerOffsetSCCPCHTFCI of WCEL.RAN Parameters Table 527.15 dB. which carries FACH and PCH. -2 and -5 dB respectively. UTRAN Iub Interface NBAP Signalling DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 551 (756) . the SCCPCH carrying FACHs only has SF = 64 (60 ksps). Hence.1 dB internal_value = gui_value * 10 0 dB Power Control On-Line NbrOfSCCPCHs of WCEL. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -35. The transmission power value is relative to the CPICH transmission power. PtxSCCPCH2 of WCEL Parameter relationships: Interfaces: • • • • References: • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. the proposed values are 0. WCDMA RAN Parameters 4.. PtxPrimaryCPICH of WCEL. PtxSCCPCH1 of WCEL 552 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The default power value has to be increased when symbol rate is doubled. Hence.15 dB.76 PtxSCCPCH2 (Transmission power of the second Secondary CCPCH channel) Table 528. Transmission power of the second Secondary CCPCH channel Transmission power of the second Secondary CCPCH channel PtxSCCPCH2 WCEL PCConfiguration 1 This is the transmission power of the second SCCPCH channel. the proposed values are 0. -2 and -5 dB respectively. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -35.. and the SCCPCH carrying PCH only has SF = 128 (30 ksps) or 256 (15 ksps). it will carry FACHs and PCH. PowerOffsetSCCPCHTFCI of WCEL. the SCCPCH carrying FACHs only has SF = 64 (60 ksps). which carries PCH only. If two SCCPCHs are used. Note: If only one SCCPCH is used. Note: The SCCPCH carrying FACHs and PCH has SF = 64 (60 ksps). the first SCCPCH will carry FACHs only and the second SCCPCH will carry PCH only.1 dB internal_value = gui_value * 10 0 dB Power Control On-Line NbrOfSCCPCHs of WCEL.13. step 0. . and indicates which of the code groups the cell downlink scrambling code belongs to. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -35. Transmission power of the second Secondary CCPCH channel Parameter relationships: Interfaces: • • • • References: • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.15 dB.1 dB internal_value = gui_value * 10 -3 dB Power Control DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 553 (756) . Note: Changing the parameter value will start the cell shutdown procedure in the BTS.RAN Parameters Table 528. Each SSC is chosen from a set of 16 different codes 256 chips in length. transmitted in parallel with the primary SCH.77 PtxSecSCH (Transmission power of the secondary SCH channel) Table 529.13.433. These are the Secondary Synchronisation Codes (SSC). step 0. This sequence on the secondary SCH enables the downlink frame synchronisation. The secondary SCH consists of repeatedly transmitting a length 15 sequence of modulated codes 256 chips in length.. UTRAN Iub Interface NBAP Signalling 4. Transmission power of the secondary SCH channel Transmission power of the secondary SCH channel PtxSecSCH WCEL PCConfiguration 1 This is the transmission power of the secondary synchronization channel relative to the Primary CPICH transmission power. Admission Control On-Line PrxOffset of WCEL. UTRAN Iub Interface NBAP Signalling References: • 4.433. PrxTarget of WCEL. A real-time Radio Access Bearer is not admitted.WCDMA RAN Parameters Table 529.78 PtxTarget (Target for transmitted power ) Table 530.13. PtxOffset of WCEL Modification: Related parameters: 554 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . if the estimated non-controllable power exceeds this threshold. Target for transmitted power Target for transmitted power PtxTarget WCEL LCConfiguration 1 This is the target value for total transmitted power in a cell. Transmission power of the secondary SCH channel (Continued) Cell shutdown is needed PtxPrimaryCPICH of WCEL.1 dBm internal_value = gui_value * 10 40 dBm Packet Scheduler. step 0. Default value should be 3dB below the Cell maximum transmission power. Handover Control. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -10.50 dBm. PtxPrimarySCH of WCEL Modification: Related parameters: Parameter relationships: Interfaces: • • • • RAC to RNC EM to RNC RNC to WBTS RAC Application to RAC 3GPP Reference: TS 25... If the threshold is exceeded.1 dB internal_value = gui_value * 10 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -1 dB Packet Scheduler On-Line PtxMarginCCH of WCEL. PtxTarget of WCEL DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 555 (756) .79 PtxThresholdCCH (Threshold for total downlink transmission power for downlink channel type selection) Table 531. due to fast power control.13.0 dB. Relative to PtxTarget. -5.. Threshold for total downlink transmission power for downlink channel type selection Threshold for total downlink transmission power for downlink channel type selection PtxThresholdCCH WCEL PSParameters 1 This is the threshold for the total downlink transmission power for downlink channel type selection.RAN Parameters Table 530. Assumption here is that a DCH is more efficient than a FACH. a DCH is allocated. Target for transmitted power (Continued) Parameter relationships: Interfaces: • • • • References: Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 4. step 0.. . HCS_PRIO of WCEL.5 dB internal_value = (gui_value + 24) * 2 -24 dB On-Line AdjgPenaltyTime of HOPG. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -24.80 QHCS (Quality threshold level for HCS) Table 532. AdjsTempOffset2 of HOPS. AdjiTempOffset2 of HOPI. Treselection of WCEL. Threshold for total downlink transmission power for downlink channel type selection (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. AdjiPenaltyTime of HOPI.. AdjgTempOffset1 of HOPG. This parameter is part of System Information Block 3. SIB3Compmask3 of WCEL. Quality threshold level for HCS Quality threshold level for HCS QHCS WCEL 1 Quality threshold level for applying prioritised hierarchical cell re-selection for a cell.13. AdjsTempOffset1 of HOPS. UseOfHCS of WCEL 556 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Needed only if HCS is used. AdjsPenaltyTime of HOPS. AdjiTempOffset1 of HOPI.WCDMA RAN Parameters Table 531. step 0. Part of HCS Serving cell information.0 dB. Quality threshold level for HCS (Continued) Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. This parameter is part of System Information Block 3.RAN Parameters Table 532. and for FDD cells when cell selection and re-selection quality measure is set to CPICH RSCP. step 2 dB internal_value = gui_value/2 4 dB On-Line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 557 (756) . Cell reselection hysteresis 1 Cell reselection hysteresis 1 Qhyst1 WCEL 1 Qhyst1 is used for TDD and GSM cells. RRC Protocol Specification • 4. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.13.304.81 Qhyst1 (Cell reselection hysteresis 1) Table 533.40 dB.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0..331. AdjiQoffset2 of HOPI. AdjsQoffset2 of HOPS.. AdjiTempOffset1 of HOPI. AdjsTempOffset1 of HOPS. Treselection of WCEL. Cell reselection hysteresis 2 Cell reselection hysteresis 2 Qhyst2 WCEL 1 Qhyst2 is used for FDD cells when cell selection and reselection quality measure is set to CPICH Ec/No. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 0.304. RRC Protocol Specification • 4. AdjgTempOffset1 of HOPG. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25. Cell reselection hysteresis 1 (Continued) AdjgQoffset1 of HOPG. UseOfHCS of WCEL Related parameters: Parameter relationships: Interfaces: • • • • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to EM RNC to WBTS WBTS to UE 3GPP Reference: TS 25. AdjsTempOffset2 of HOPS. HCS_PRIO of WCEL.82 Qhyst2 (Cell reselection hysteresis 2) Table 534.331. Qhyst2 of WCEL.40 dB. step 2 dB internal_value = gui_value/2 4 dB 558 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . AdjiTempOffset2 of HOPI..WCDMA RAN Parameters Table 533. AdjiQoffset1 of HOPI. AdjsQoffset1 of HOPS.13. This parameter is part of System Information Block 3. 83 QqualMin (Minimum required quality level in the cell) Table 535. AdjiTempOffset1 of HOPI. UseOfHCS of WCEL Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. AdjsQoffset2 of HOPS. AdjgTempOffset1 of HOPG. Treselection of WCEL. Cell reselection hysteresis 2 (Continued) On-Line AdjgQoffset1 of HOPG.304.331. AdjsTempOffset2 of HOPS. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4. RRC Protocol Specification 3GPP Reference: TS 25.13.. AdjsQoffset1 of HOPS.0 dB. AdjiQoffset2 of HOPI.RAN Parameters Table 534. step 1 dB internal_value = gui_value -20 dB DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 559 (756) . AdjiTempOffset2 of HOPI. HCS_PRIO of WCEL. AdjsTempOffset1 of HOPS. This parameter is part of System Information Block 3. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value -24.. AdjiQoffset1 of HOPI. Minimum required quality level in the cell Minimum required quality level in the cell QqualMin WCEL 1 The minimum required quality level in the cell (Ec/No). Qhyst1 of WCEL. Ssearch_RAT of WCEL..331. step 2 dBm internal_value = (gui_value . Slimit_SearchRAT of WCEL. Sintrasearch of WCEL..1)/2 -115 dBm - 560 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -115. This parameter is part of System Information Block 3. Minimum required RX level in the cell Minimum required RX level in the cell QrxlevMin WCEL 1 The minimum required RX level in the cell. RRC Protocol Specification • 4.304. UseOfHCS of WCEL Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.WCDMA RAN Parameters Table 535. Minimum required quality level in the cell (Continued) On-Line QrxlevMin of WCEL.-25 dBm.13. Treselection of WCEL. Sintersearch of WCEL.84 QrxlevMin (Minimum required RX level in the cell) Table 536. LAI consists of PLMNid and LAC.RAN Parameters Table 536.13. It is used only for PS services (part of PS domain specific NAS system information in SIB1). Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 0.85 RAC (Routing Area Code) Table 537. QqualMin of WCEL.255 . AdjsTxPwrRACH of ADJS. SsearchHCS of WCEL.. Routing are identification (RAI) consists of LAI and RAC.304. UseOfHCS of WCEL Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. Treselection of WCEL.. Sintrasearch of WCEL.331. step 1 internal_value = gui_value DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 561 (756) . Slimit_SearchRAT of WCEL. Sintersearch of WCEL. Minimum required RX level in the cell (Continued) On-Line AdjgTxPwrMaxRACH of ADJG. Routing Area Code Routing Area Code RAC WCEL Identification 1 The routing area code determines the Routing area within the location area to which the cell belongs to. AdjiTxPwrRACH of ADJI. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25. RRC Protocol Specification • 4. SHCS_RAT of WCEL. UEtxPowerMaxPRACH of WCEL. addressing and identification 3GPP Reference: TS 25. Routing Area Code (Continued) Mobile Device Control On-Line LAC of WCEL. RRC Protocol Specification 3GPP Reference: TS 24.413.WCDMA RAN Parameters Table 537. RACH Capacity RACH Capacity RACHCapacity WCEL 1 RACH Capacity defines the HW capacity reserved for a RACH transport channel in the BTS. 8 (8) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 562 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .003.331. UTRAN Iu Interface RANAP Signalling References: • • • • 4. 4 (4). Numbering.86 RACHCapacity (RACH Capacity) Table 538. Core Network Protocols 3GPP Reference: TS 25.008. PLMNid of RNC Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • RNC to UE RNC to MSC Planner to RAC RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 23. RACH Capacity is given as a number of decoded RACH messages in a 10 ms radio frame. 2 (2).13. Mobile radio interface layer 3 specification. 13.RAN Parameters Table 538. RACH random back-off upper bound RACH random back-off upper bound RACH_Tx_NB01max WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 563 (756) .87 RACH_Tx_NB01max (RACH random back-off upper bound) Table 539. RACH Capacity (Continued) • • • 2: internal_value = 2 4: internal_value = 4 8: internal_value = 8 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 2 Admission Control On-Line - • • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC RAC to WBTS References: - 4. WCDMA RAN Parameters Table 539.. The backoff timer TBO1 is set to an integer number NBO1 of 10 ms time intervals. Description: RACH random back-off upper bound (Continued) In case that a negative acknowledgement has been received by UE on AICH a backoff timer TBO1 is started to determine when the next RACH transmission attempt will be started. After TB01 has been expired the next RACH attempt will be started. randomly drawn within an interval 0 <= NB01min <= NBO1 <= NB01max (with uniform distribution). and even to zero when no delay other than the one due to persistency is desired.331.50 . NB01max is part of "RACH transmission parameters" which is part of "PRACH system information list" which is part of SIB5/6. RRC Protocol Specification 3GPP Reference: TS 25.. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0. NB01min and NB01max may be set equal when a fixed delay is desired. step 1 internal_value = gui_value 50 On-Line PRACH_preamble_retrans of WCEL. MAC Protocol Specification 564 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .321. NB01max is given as an integer between 0 and 50 which gives the Upper bound of the waiting time in 10ms steps. RACH_tx_Max of WCEL Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. RACH_Tx_NB01min of WCEL. randomly drawn within an interval 0 <= NB01min <= NBO1 <= NB01max (with uniform distribution).13. The backoff timer TBO1 is set to an integer number NBO1 of 10 ms time intervals. RACH random back-off lower bound RACH random back-off lower bound RACH_Tx_NB01min WCEL 1 In case that a negative acknowledgement has been received by UE on AICH a backoff timer TBO1 is started to determine when the next RACH transmission attempt will be started.RAN Parameters 4.50 . step 1 internal_value = gui_value 0 On-Line PRACH_preamble_retrans of WCEL. NB01min is given as an integer between 0 and 50 which gives the Lower bound of the waiting time in 10ms steps. and even to zero when no delay other than the one due to persistency is desired... NB01min is part of "RACH transmission parameters" which is part of "PRACH system information list" which is part of SIB5/6. After TB01 has been expired the next RACH attempt will be started. RACH_tx_Max of WCEL DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 565 (756) .88 RACH_Tx_NB01min (RACH random back-off lower bound) Table 540. RACH_Tx_NB01max of WCEL. NB01min and NB01max may be set equal when a fixed delay is desired. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0. MAC Protocol Specification 3GPP Reference: TS 25. RACH random back-off lower bound (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.321. RACH maximum number of preamble cycles RACH maximum number of preamble cycles RACH_tx_Max WCEL 1 Maximum number of RACH preamble cycles defines how many times the PRACH pre-amble ramping procedure can be repeated before UE MAC reports a failure on RACH transmission to higher layers. 1. RRC Protocol Specification 4.. Maximum number of RACH preamble cycles is part of "RACH transmission parameters" which is part of "PRACH system information list" which is part of SIB5/6.89 RACH_tx_Max (RACH maximum number of preamble cycles) Table 541.32 ..331. RACH_Tx_NB01max of WCEL. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 8 On-Line PRACH_preamble_retrans of WCEL.13.WCDMA RAN Parameters Table 540. RACH_Tx_NB01min of WCEL 566 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . the NRT RABs are again admitted.331. step 1 % internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 100 % Admission Control.RAN Parameters Table 541.90 RACHnormalLoadBS (Normal load RACH threshold) Table 542. RRC Protocol Specification 4. Load Control Not modifiable DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 567 (756) . RACH maximum number of preamble cycles (Continued) Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Normal load RACH threshold Normal load RACH threshold RACHnormalLoadBS WCEL ACConfiguration 1 This parameter defines the threshold when RACH is considered to be in normal load. MAC Protocol Specification 3GPP Reference: TS 25. If the RACH has been overloaded and the number of received preambles decreases below the value of this parameter for a period specified by the parameter WinRachNormalLoadBS.13...100 %.321. 0. in proportion to the product of the number of access slots and the number of preamble signatures allowed on the physical RACH. The RACH load is measured as the average number of received RACH preambles per radio frame. If the RACH has been in normal load and the number of received preambles increases over the value of this parameter for a period specified by the parameter WinRachOverLoadBS.. Normal load RACH threshold (Continued) RACHoverLoadBS of WCEL. step 1 % internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 100 % Admission Control. WinRACHnormalLoadBS of WBTS. Overload RACH threshold Overload RACH threshold RACHoverLoadBS WCEL ACConfiguration 1 This parameter defines the threshold when RACH is considered to be in overload. RACHloadIndicationPeriod of WBTS. the NRT RABs are not admitted.91 RACHoverLoadBS (Overload RACH threshold) Table 543. WinRACHoverLoadBS of WBTS Related parameters: Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 4. Load Control Not modifiable 568 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 542. The RACH load is measured as the average number of received RACH preambles per radio frame.13. in proportion to the product of the number of access slots and the number of preamble signatures allowed on the physical RACH.100 %. 0.. FACH usage is possible. 0.10 %... When the measured load is below the set threshold by this margin. Margin for RACH load for downlink channel type selection Margin for RACH load for downlink channel type selection RachLoadMarginCCH WCEL PSParameters 1 The margin for the RACH load for downlink channel type selection. step 1 % internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 5% Packet Scheduler On-Line RachLoadThresholdCCH of WCEL DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 569 (756) .RAN Parameters Table 543. Overload RACH threshold (Continued) RACHnormalLoadBS of WCEL.13. RACHloadIndicationPeriod of WBTS. WinRACHnormalLoadBS of WBTS.92 RachLoadMarginCCH (Margin for RACH load for downlink channel type selection) Table 544. WinRACHoverLoadBS of WBTS Related parameters: Parameter relationships: Interfaces: • • • • References: RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 4. 93 RachLoadThresholdCCH (Threshold for RACH load for downlink channel type selection) Table 545. 0. Threshold for RACH load for downlink channel type selection Threshold for RACH load for downlink channel type selection RachLoadThresholdCCH WCEL PSParameters 1 The threshold for the RACH load for downlink channel type selection. If the threshold is exceeded. The RACH load is measured as the average number of received RACH preambles per radio frame. a DCH is allocated. step 1 % internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 75 % Packet Scheduler On-Line RachLoadMarginCCH of WCEL 570 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 544. in proportion to the product of the number of access slots and the number of preamble signatures allowed on the physical RACH.13. Margin for RACH load for downlink channel type selection Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.100 %... When the Relocation Commit procedure is used. the MS is not allowed to return to the old channel. the call (RT RB's) is dropped.RAN Parameters Table 545. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (Not used).13. 1 (Used) • • 0 On-Line Not used: internal_value = 0 Used: internal_value = 1 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 571 (756) .94 RelocComm_in_InterRNC_HHO (Usage of Relocation Commit procedure in inter RNC HHO) Table 546. If the establishment of a new physical channel fails. Usage of Relocation Commit procedure in inter RNC HHO Usage of Relocation Commit procedure in inter RNC HHO RelocComm_in_InterRNC_HHO WCEL 1 This parameter controls the usage of the RNSAP:Relocation Commit procedure during the execution of an Inter-RNC hard handover. Threshold for RACH load for downlink channel type selection Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. . RT FMCG Identifier RT FMCG Identifier RtFmcgIdentifier WCEL HCConfiguration 1 This parameter identifies the Measurement Control Parameter Set (FMCG object) which controls the interRAT (GSM) measurements of a real time (RT) radio bearer.95 RtFmcgIdentifier (RT FMCG Identifier) Table 547..423.13. UTRAN Iur interface RNSAP Signalling 4. 1.100 . Usage of Relocation Commit procedure in inter RNC HHO Parameter relationships: Interfaces: • • • References: • RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.WCDMA RAN Parameters Table 546. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line FMCGId of FMCG • • • RAC to RNC EM to RNC RAC Application to RAC References: - 572 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . RAN Parameters 4. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line FMCIId of FMCI • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4..96 RtFmciIdentifier (RT FMCI Identifier) Table 548.13.100 .97 RtFmcsIdentifier (RT FMCS Identifier) Table 549.13. RT FMCS Identifier RT FMCS Identifier RtFmcsIdentifier WCEL HCConfiguration Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 573 (756) . RT FMCI Identifier RT FMCI Identifier RtFmciIdentifier WCEL HCConfiguration 1 This parameter identifies the Measurement Control Parameter Set (FMCI object) which controls the interfrequency measurements of a real time (RT) radio bearer. 1.. the Location Area Code (LAC) and the Service Area Code (SAC). Multiplicity: Description: RT FMCS Identifier (Continued) 1 Identifies the Measurement Control Parameter Set (FMCS object) which controls the intra-frequency measurements of a real time (RT) radio bearer... Service Area Code Service Area Code SAC WCEL Identification 1 The Service Area Identifier (SAI) identifies an area consisting of one or more cells which belong to the same Location Area (LAI).. 1.. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: Handover Control On-Line FMCSId of FMCS • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4.98 SAC (Service Area Code) Table 550. 0.65535 .13.WCDMA RAN Parameters Table 549. The Service Area Identifier is composed of the PLMN Identifier.100 . step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: 574 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Threshold for inter-RAT measurement rules in HCS Threshold for inter-RAT measurement rules in HCS SHCS_RAT WCEL 1 The RAT specific threshold for inter-RAT measurement rules..99 SHCS_RAT (Threshold for inter-RAT measurement rules in HCS) Table 551.423. Service Area Code (Continued) On-Line LAC of WCEL. UTRAN Iur interface RNSAP Signalling References: • • • 4. UTRAN Iu Interface RANAP Signalling 3GPP Reference: TS 25. Numbering.91 dB. step 2 dB DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 575 (756) .003. PLMNid of RNC Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • • RNC to MSC RAC to RNC EM to RNC Planner to RAC RAC Application to RAC RNC to RAC RNC to EM 3GPP Reference: TS 23. Needed only if HCS is used.. addressing and identification 3GPP Reference: TS 25.13. This parameter is part of System Information Block 3.413.RAN Parameters Table 550. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: -1. 1)/2 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: -1 dB On-Line HCS_PRIO of WCEL.331. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4. UseOfHCS of WCEL Parameter relationships: Interfaces: • • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS 3GPP Reference: TS 25. Treselection of WCEL.13.100 SIB3CompmaskInfo (List of Compmasks in System Information Block 3) Table 552. RRC Protocol Specification 3GPP Reference: TS 25. QrxlevMin of WCEL. List of Compmasks in System Information Block 3 List of Compmasks in System Information Block 3 SIB3CompmaskInfo WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 576 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .304. SIB3Compmask5 of WCEL.WCDMA RAN Parameters Table 551. Threshold for inter-RAT measurement rules in HCS (Continued) internal_value = (gui_value . If a bit is set to 1.100.RAN Parameters Table 552. SIB compmasks uses binary notation of 8 bits where each bit indicates whether a certain parameter is included in System Information Block 3 or not. If a bit is set to 0. the corresponding parameter or parameter set is included in System Information Block 3. the corresponding parameter or parameter set is not included in System Information Block 3.13. System Information Block 3 Compmask 1 System Information Block 3 Compmask 1 SIB3Compmask1 WCEL - Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 577 (756) .1 SIB3Compmask1 (System Information Block 3 Compmask 1) Table 553. Child parameters: • • • • • • SIB3Compmask1 SIB3Compmask2 SIB3Compmask3 SIB3Compmask4 SIB3Compmask5 SIB3Compmask6 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - On-Line - • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. Description: List of Compmasks in System Information Block 3 (Continued) Gathers all the compmasks in System Information Block 3. . always 0 . always 1 (UEtxPowerMaxPRACH) . If a bit is set to 0. If a bit is set to 1. always 0 The parameter groups which are included in this Compmask include the following parameters: Mode specific info: SIB3Compmask2: -Sintrasearch (Optional) -Sintersearch (Optional) -SsearchHCS (Optional) -rat_list (Optional) HCS Serving cell information: SIB3Compmask3: -HCS_PRIOserving (Mandatory) -QHCS_serving (Mandatory) -TCrmax (Mandatory) SIB3Compmask4: -NCR (Conditional) -TCrmaxHyst (Conditional) Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: - 94 On-Line 578 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . (HCS Serving cell Information) .bit 0: Mandatory. always 1 . always 1 (Qhyst1s) . the corresponding parameter is not included in System Information Block 3.WCDMA RAN Parameters Table 553. always 1 (Treselections) .bit 7: not used.bit 1: Mandatory.bit 5: Optional.bit 2: Mandatory. always 1 (Mode specific info) .bit 6: Mandatory.bit 4: Mandatory. the corresponding parameter is included in System Information Block 3.bit 3: Mandatory. Multiplicity: Description: System Information Block 3 Compmask 1 (Continued) 1 SIB3Compmask1 uses binary notation of 8 bits where each bit indicates whether a certain parameter is included in System Information Block 3 or not. SIB3Compmask4 of WCEL.13. SIB3CompmaskInfo of WCEL. SIB3Compmask3 of WCEL. System Information Block 3 Compmask 1 (Continued) Qhyst1 of WCEL. Treselection of WCEL.100.RAN Parameters Table 553.2 SIB3Compmask2 (System Information Block 3 Compmask 2) Table 554. SIB3Compmask2 of WCEL. UEtxPowerMaxPRACH of WCEL Related parameters: Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4. System Information Block 3 Compmask 2 System Information Block 3 Compmask 2 SIB3Compmask2 WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 579 (756) . bit 4-7: not used.bit 2: Optional. (Sintersearch) .bit 0: Optional. If a bit is set to 1. (rat_list) .bit 1: Optional. (SsearchHCS) . always 1 . always 1 (Ssearch_RAT) . always 0 Rat_list is not a parameter itself. .bit 3: Optional. It is a list of the following set of parameters: SIB3Compmask5: .WCDMA RAN Parameters Table 554. Sintrasearch of WCEL. SsearchHCS of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 580 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .bit 0: Mandatory. Sintersearch of WCEL. (Sintrasearch) . Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - 0 On-Line SIB3CompmaskInfo of WCEL.bit 2: Optional. (Slimit_ShearchRAT) .bit 4-7: not used There is only one set of parameters in rat_list. SIB3Compmask1 of WCEL.bit 3: Optional. Description: System Information Block 3 Compmask 2 (Continued) SIB3Compmask2 uses binary notation of 8 bits where each bit indicates whether a certain parameter is included in System Information Block 3 or not.bit 1: Mandatory. the corresponding parameter is not included in System Information Block 3. (SHCS_RAT) . the corresponding parameter is included in System Information Block 3. SIB3Compmask5 of WCEL. If a bit is set to 0. bit 0: Mandatory. always 1 (TCrmax) . always 1 (QHCS_serving) . SIB3Compmask1 of WCEL. the corresponding parameter is not included in System Information Block 3.3 SIB3Compmask3 (System Information Block 3 Compmask 3) Table 555. System Information Block 3 Compmask 3 System Information Block 3 Compmask 3 SIB3Compmask3 WCEL 1 SIB3Compmask3 uses binary notation of 8 bits where each bit indicates whether a certain parameter is included in System Information Block 3 or not. always 1 (HCS_PRIOserving) .bit 3-7: not used Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - 7 Not modifiable HCS_PRIO of WCEL.bit 1: Mandatory. If a bit is set to 1.13.RAN Parameters 4.100. . QHCS of WCEL. SIB3CompmaskInfo of WCEL. If a bit is set to 0.bit 2: Mandatory. TCrmax of WCEL Parameter relationships: Interfaces: • • References: RAC to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 581 (756) . the corresponding parameter is included in System Information Block 3. the corresponding parameter is not included in System Information Block 3. then this IE is not allowed and bit is set to 0) . If a bit is set to 0. if TCrmax has value 'not used'.bit 2-7: not used Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - 0 On-Line NCr of WCEL.WCDMA RAN Parameters 4. If a bit is set to 1. . if TCrmax has value 'not used'.100. (TCrmaxHyst.bit 0: Conditional.13. the corresponding parameter is included in System Information Block 3. TCrmax of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 582 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . (NCr. then this IE is not allowed and bit is set to 0) .bit 1: Conditional. QHCS of WCEL. SIB3Compmask1 of WCEL. System Information Block 3 Compmask 4 System Information Block 3 Compmask 4 SIB3Compmask4 WCEL 1 SIB3Compmask4 uses binary notation of 8 bits where each bit indicates whether a certain parameter is included in System Information Block 3 or not. SIB3CompmaskInfo of WCEL.4 SIB3Compmask4 (System Information Block 3 Compmask 4) Table 556. always 0 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - 3 On-Line SHCS_RAT of WCEL. SIB3Compmask2 of WCEL. the corresponding parameter is not included in System Information Block 3. If a bit is set to 0.bit 1: Mandatory.bit 0: Mandatory.bit 2: Optional (SHCS_RAT) . Slimit_SearchRAT of WCEL. the corresponding parameter is included in System Information Block 3. SIB3CompmaskInfo of WCEL. Ssearch_RAT of WCEL Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 583 (756) . If a bit is set to 1. always 1 .5 SIB3Compmask5 (System Information Block 3 Compmask 5) Table 557.13. always 1 (Ssearch_RAT) .bit 4-7: not used. .bit 3: Optional (Slimit_SearchRAT) .RAN Parameters 4.100. System Information Block 3 Compmask 5 System Information Block 3 Compmask 5 SIB3Compmask5 WCEL 1 SIB3Compmask5 uses binary notation of 8 bits where each bit indicates whether a certain parameter is included in System Information Block 3 or not. If a bit is set to 1. .6 SIB3Compmask6 (System Information Block 3 Compmask 6) Table 558. always 0 .WCDMA RAN Parameters 4.bit 4-7: not used Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: - 11 Not modifiable ACBarredList of WCEL. the corresponding parameter is included in System Information Block 3. Cell_Reserved of WCEL.100. the corresponding parameter is not included in System Information Block 3. always 1 (CellBarred) .bit 1: Mandatory.bit 2: Mandatory.bit 0: Mandatory. always 1 (ACBarredList) . System Information Block 3 Compmask 6 System Information Block 3 Compmask 6 SIB3Compmask6 WCEL 1 SIB3Compmask6 uses binary notation of 8 bits where each bit indicates whether a certain parameter is included in System Information Block 3 or not.bit 3: Mandatory. CellBarred of WCEL. SIB3CompmaskInfo of WCEL Parameter relationships: Interfaces: • • References: RAC to RNC RAC Application to RAC 584 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .13. If a bit is set to 0. always 1 (CellReserved) . 2 (4). 4 (16). SIB_REP x value of 'SIB7 expiration time factor'). 8 (256) • • • • • • • • • 1: internal_value = 0 2: internal_value = 1 4: internal_value = 2 8: internal_value = 3 16: internal_value = 4 32: internal_value = 5 64: internal_value = 6 128: internal_value = 7 256: internal_value = 8 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 585 (756) . 1 (2). This parameter is part of System Information Block 7 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (1).RAN Parameters 4. 3 (8). 5 (32). 6 (64). SIB7 expiration time factor SIB7 expiration time factor SIB7factor WCEL 1 This parameter sets the SIB7 expiration timer for the UE according to the following formula: MAX(32.101 SIB7factor (SIB7 expiration time factor) Table 559. 7 (128).13. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0 Handover Control.13.WCDMA RAN Parameters Table 559.. 0.12 .331. Sector Identifier Sector Identifier SectorID WCEL ACConfiguration 1 This parameter gives a unique identifier to a sector of the base station where the cell belongs to.102 SectorID (Sector Identifier) Table 560. RRC Protocol Specification 4.. SIB7 expiration time factor (Continued) Parameter relationships: Interfaces: • • • • • • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RAC to WBTS WBTS to UE RNC to WBTS RNC to RAC RNC to EM 3GPP Reference: TS 25. A cell does not belong to any particular sector when the value of the sector identifier is zero. Admission Control Not modifiable 586 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The RNC uses the sector identifier in order to integrate cells (carrier frequencies) which have equal coverage areas within one base station. Shutdown step amount Shutdown step amount ShutdownStepAmount WCEL 1 The parameter indicates the number of steps required for the transmission power to shut down.RAN Parameters Table 560.. step 1 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 10 On-Line ShutdownWindow of WCEL • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 587 (756) .103 ShutdownStepAmount (Shutdown step amount) Table 561.16 .13. Sector Identifier (Continued) - Related parameters: Parameter relationships: Interfaces: • • • RAC to RNC EM to RNC RAC Application to RAC References: - 4. 1.. WCDMA RAN Parameters 4.13.105 Sintersearch (S intersearch) Table 563.. Shutdown window Shutdown window ShutdownWindow WCEL 1 Defines the cell power ramp down duration for the CPICH.104 ShutdownWindow (Shutdown window) Table 562. S intersearch S intersearch Sintersearch WCEL Parameter name: Abbreviated name: Managed object: 588 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 5.45 seconds.. step 5 seconds internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 15 seconds On-Line ShutdownStepAmount of WCEL • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC References: - 4. BCH and all other common physical and transport channels.13. step 2 dB internal_value = gui_value/2 2 dB On-Line HCS_PRIO of WCEL. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4. Slimit_SearchRAT of WCEL. Note: If no threshold is given. and for the HCS measurement rules.331.13.. Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0. This parameter is part of System Information Block 3. QrxlevMin of WCEL.106 Sintrasearch (S intrasearch) Table 564. QqualMin of WCEL. Treselection of WCEL. S intrasearch S intrasearch Sintrasearch WCEL - Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 589 (756) .304. SIB3Compmask2 of WCEL.RAN Parameters Table 563. S intersearch (Continued) 1 The threshold for inter-frequency measurements. RRC Protocol Specification 3GPP Reference: TS 25. UseOfHCS of WCEL Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.. MS performs measurements.20 dB. 20 dB..304. UseOfHCS of WCEL Parameter relationships: Interfaces: • • • • • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to RAC RNC to EM RNC to WBTS WBTS to UE 3GPP Reference: TS 25. MS performs measurements.331. This parameter is part of System Information Block 3. QrxlevMin of WCEL. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 590 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Treselection of WCEL. Note: If no threshold is given. QqualMin of WCEL. Multiplicity: Description: S intrasearch (Continued) 1 The threshold for intra-frequency measurements. RRC Protocol Specification 3GPP Reference: TS 25. SIB3Compmask2 of WCEL. step 2 dB internal_value = gui_value/2 4 dB On-Line HCS_PRIO of WCEL..WCDMA RAN Parameters Table 564. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0. and for the HCS measurement rules. QqualMin of WCEL.107 Slimit_SearchRAT (S limit. Needed only if HCS is used. This parameter is part of System Information Block 3.. UseOfHCS of WCEL DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 591 (756) .SearchRAT) Table 565. step 2 dB internal_value = gui_value/2 2 dB On-Line HCS_PRIO of WCEL. the UE does not need to perform any interRATm measurements. S limit. Treselection of WCEL. QrxlevMin of WCEL. Above this RAT specific threshold in the serving UTRA cell.. Sintersearch of WCEL.20 dB.RAN Parameters 4. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0.SearchRAT Slimit_SearchRAT WCEL 1 Threshold for skipping inter-RAT measurement rules in HCS.SearchRAT S limit.13. SIB3Compmask5 of WCEL. .and interfrequency measurement rules in HCS. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4.WCDMA RAN Parameters Table 565.91 dB..108 SsearchHCS (S searchHCS) Table 566.1)/2 -1 dB - 592 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . S limit. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: -1. RRC Protocol Specification 3GPP Reference: TS 25. Below this limit in the serving cell.331. This parameter is part of System Information Block 3. S searchHCS S searchHCS SsearchHCS WCEL 1 Threshold for intra.13.304. the UE initiates measurements of all intra and inter-frequency neighbouring cells of the serving cell. Needed only if HCS is used.SearchRAT (Continued) Parameter relationships: Interfaces: • • • • • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to RAC RNC to EM RNC to WBTS WBTS to UE 3GPP Reference: TS 25. step 2 dB internal_value = (gui_value . UseOfHCS of WCEL Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to EM RNC to WBTS WBTS to UE 3GPP Reference: TS 25. MS performs measurements. S searchHCS (Continued) On-Line HCS_PRIO of WCEL.. S searchRAT S searchRAT Ssearch_RAT WCEL 1 The RAT-specific threshold for inter-RAT measurement rules..304. SIB3Compmask2 of WCEL. This parameter is part of System Information Block 3. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25. RRC Protocol Specification • 4. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 0.331. QrxlevMin of WCEL.20 dB.109 Ssearch_RAT (S searchRAT) Table 567. Note: If no threshold is given. step 2 dB internal_value = gui_value/2 0 dB DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 593 (756) .13.RAN Parameters Table 566. Treselection of WCEL. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value 1. RRC Protocol Specification • 4. S searchRAT (Continued) On-Line HCS_PRIO of WCEL.331. Treselection of WCEL. step 1 s internal_value = gui_value 10 s 594 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . QqualMin of WCEL. T312 T312 T312 WCEL 1 The timer for supervising successful establishment of a physical channel (MS timer used in idle and connected mode).. This parameter is part of System Information Block 1.110 T312 (T312) Table 568.304.WCDMA RAN Parameters Table 567. SIB3Compmask5 of WCEL. UseOfHCS of WCEL Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.15 s.13.. T312 (Continued) On-Line N312 of WCEL Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • • • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC EM to Planner RNC to Planner RNC to EM RNC to WBTS WBTS to UE 3GPP Reference: TS 25. step 1 s internal_value = gui_value 3s - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 595 (756) .13. T313 T313 T313 WCEL 1 The radio link failure timer (MS timer).RAN Parameters Table 568. RRC Protocol Specification References: • 4.15 s. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 0.331. This parameter is part of System Information Block 1..111 T313 (T313) Table 569.. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (0 s). 2 (30 s). This parameter is part of System Information Block 1. 6 (1200 s). T313 (Continued) On-Line N313 of WCEL. 1 (10 s). 7 (1800 s) • • • • • • • • 0 s: internal_value = 0 10 s: internal_value = 1 30 s: internal_value = 2 60 s: internal_value = 3 180 s: internal_value = 4 600 s: internal_value = 5 1200 s: internal_value = 6 1800 s: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: 0 - 596 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .331. 3 (60 s). RRC Protocol Specification References: • 4. T315 T315 T315 WCEL 1 The RRC connection re-establishment timer for AM bearers (UE timer).13. N315 of WCEL Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 5 (600 s).WCDMA RAN Parameters Table 569. 4 (180 s).112 T315 (T315) Table 570. 113 TBarred (Cell barred period) Table 571. T315 (Continued) Not modifiable - Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. 7 (1280 s) • • • • • • • • 10 s: internal_value = 0 20 s: internal_value = 1 40 s: internal_value = 2 80 s: internal_value = 3 160 s: internal_value = 4 320 s: internal_value = 5 640 s: internal_value = 6 1280 s: internal_value = 7 Formula for getting internal value: Default value Default value notes 2 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 597 (756) . This parameter is part of System Information Block 3. 1 (20 s). 5 (320 s). 3 (80 s).331.RAN Parameters Table 570. 4 (160 s). 6 (640 s).13. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (10 s). Cell barred period Cell barred period TBarred WCEL 1 When the cell is barred. 2 (40 s). UE regards the cell barred condition valid for a number of seconds defined by the value of 'Cell barred period'. RRC Protocol Specification References: • 4. 2 (60 seconds). 3 (120 seconds).304.WCDMA RAN Parameters Table 571. 4 (180 seconds). 1 (30 seconds). This parameter is part of System Information Block 3.331. If the number of cell reselections during the time period defined by TCrmax exceeds Ncr. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.13. Evaluating period for amount of cell reselections Evaluating period for amount of cell reselections TCrmax WCEL 1 The duration for evaluating the allowed amount of cell reselections. Cell barred period (Continued) On-Line CellBarred of WCEL Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Needed only if HCS is used. RRC Protocol Specification References: • • 4. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 0 (not used).114 TCrmax (Evaluating period for amount of cell reselections ) Table 572. high mobility has been detected. 5 (240 seconds) 598 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 3GPP Reference: TS 25.304.RAN Parameters Table 572.13. Hysteresis to revert from UE high-mobility measurements Hysteresis to revert from UE high-mobility measurements TCrmaxHyst WCEL - Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 599 (756) . SIB3Compmask3 of WCEL. Evaluating period for amount of cell reselections (Continued) • • • • • • not used: internal_value = 0 30 seconds: internal_value = 1 60 seconds: internal_value = 2 120 seconds: internal_value = 3 180 seconds: internal_value = 4 240 seconds: internal_value = 5 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 2 On-Line NCr of WCEL. Treselection of WCEL.115 TCrmaxHyst (Hysteresis to revert from UE high-mobility measurements) Table 573.331. UseOfHCS of WCEL Parameter relationships: Interfaces: • • • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. RRC Protocol Specification • 4. TCrmaxHyst of WCEL. WCDMA RAN Parameters Table 573. 7 (70 s) • • • • • • • • Not used : internal_value = 0 10 s: internal_value = 1 20 s: internal_value = 2 30 s: internal_value = 3 40 s: internal_value = 4 50 s: internal_value = 5 60 s: internal_value = 6 70 s: internal_value = 7 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 On-Line NCr of WCEL. 1 (10 s). 6 (60 s). Needed only if HCS is used. UE continues measurements during the time period defined by TCrmaxHyst. UseOfHCS of WCEL Parameter relationships: Interfaces: • • • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. 5 (50 s). Multiplicity: Description: Hysteresis to revert from UE high-mobility measurements 1 Cell reselection hysteresis for reverting from UE highmobility measurements. 2 (20 s). TCrmax of WCEL. 3 (30 s). When the number of cell reselections during the time period defined by TCrmax no longer exceeds NCr. Treselection of WCEL.304. The additional time period before UE reverts to low-mobility measurements. This parameter is part of System Information Block 3. 4 (40 s). Range and step: 0 (Not used ). UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 600 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . RRC Protocol Specification 3GPP Reference: TS 25.331. Frame timing offset of a cell Frame timing offset of a cell Tcell WCEL 1 Each cell in a BTS uses a System Frame Number (SFN) counter. step 256 chips internal_value = gui_value/256 Cell shutdown is needed - • • • • RNC to WBTS RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. Synchronisation in UTRAN Stage 2 References: • DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 601 (756) .402.116 Tcell (Frame timing offset of a cell) Table 574. An SCH burst is 256 chips long.2304 chips.. Note: Changing the parameter value will start the cell shutdown procedure in the BTS. which is the BTS Frame Number (BFN) counter delayed by a number of chips defined by the value of Tcell. Primary CCPCH and DL Scrambling Code(s) in a cell relative to BFN.13. CPICH. etc. Tcell is used for defining the start of SCH. The main purpose is to avoid having overlapping SCHs in different cells belonging to the same BTS.RAN Parameters 4. The values can be chosen as follows: 0 chips for the 1st cell of the BTS. 512 chips for the 3rd cell of the BTS.. 256 chips for the 2nd cell of the BTS. 117 TrafVolThresholdDLLow (Downlink traffic volume measurement low threshold) Table 575. 1024 (1 KB) • • • • • • • • • 0 bytes: internal_value = 0 8 bytes: internal_value = 8 16 bytes: internal_value = 16 32 bytes: internal_value = 32 64 bytes: internal_value = 64 128 bytes: internal_value = 128 256 bytes: internal_value = 256 512 bytes: internal_value = 512 1 KB: internal_value = 1024 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 128 Packet Scheduler On-Line TrafVolPendingTimeDL of RNC. Otherwise. Downlink traffic volume measurement low threshold Downlink traffic volume measurement low threshold TrafVolThresholdDLLow WCEL PSParameters 1 This parameter defines.WCDMA RAN Parameters 4. when UE is in Cell_FACH state. TrafVolThresholdDLHigh of RNC. 8 (8 bytes). 16 (16 bytes). 256 (256 bytes). 512 (512 bytes). 64 (64 bytes). 0 (0 bytes).13. in bytes. 32 (32 bytes). RNC sends data on FACH. SRB4 and all NRT RBs that triggers the downlink traffic volume measurement report (capacity request) on MAC. the threshold of data in the RLC buffers of SRB3. TrafVolTimeToTriggerDL of RNC 602 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 128 (128 bytes). when the UE is in Cell_FACH state. 256 (256 bytes). Otherwise. the threshold of data in the RLC buffers of SRB0. in bytes. This parameter is sent to the UE using an RRC: MEASUREMENT CONTROL message. 128 (128 bytes). SRB4 and all NRT RBs that triggers the uplink traffic volume measurement report.118 TrafVolThresholdULLow (Uplink traffic volume measurement low threshold) Table 576.13. 16 (16 bytes). SRB1. 32 (32 bytes). SRB2. UE sends data on RACH. SRB3. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 8 (8 bytes). 512 (512 bytes). Downlink traffic volume measurement low threshold (Continued) Parameter relationships: Interfaces: • • • References: RAC to RNC EM to RNC RAC Application to RAC 4.RAN Parameters Table 575. 64 (64 bytes). 1024 (1 KB) • • • • • • • • 8 bytes: internal_value = 8 16 bytes: internal_value = 16 32 bytes: internal_value = 32 64 bytes: internal_value = 64 128 bytes: internal_value = 128 256 bytes: internal_value = 256 512 bytes: internal_value = 512 1 KB: internal_value = 1024 Formula for getting internal value: Default value Default value notes 128 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 603 (756) . Uplink traffic volume measurement low threshold Uplink traffic volume measurement low threshold TrafVolThresholdULLow WCEL PSParameters 1 This parameter defines. step 1 s internal_value = gui_value 0s On-Line 604 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Uplink traffic volume measurement low threshold (Continued) Packet Scheduler On-Line TrafVolPendingTimeUL of RNC. TrafVolThresholdULHigh of RNC. TrafVolTimeToTriggerUL of RNC Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.13.. Cell reselection triggering time Cell reselection triggering time Treselection WCEL 1 The UE triggers the reselection of a new cell if the cell reselection criteria are fulfilled during the time interval Treselection.. This parameter is part of System Information Block 3.31 s.119 Treselection (Cell reselection triggering time) Table 577. RRC Protocol Specification 4.331.WCDMA RAN Parameters Table 576. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: 0. TCrmax of WCEL. AdjsTempOffset1 of HOPS. UseOfHCS of WCEL Related parameters: Parameter relationships: Interfaces: • • • • References: • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Qhyst1 of WCEL. Sintrasearch of WCEL. RRC Protocol Specification 3GPP Reference: TS 25. AdjsTempOffset2 of HOPS. QrxlevMin of WCEL. AdjsQoffset1 of HOPS. AdjgTxPwrMaxRACH of ADJG. AdjiQoffset2 of HOPI.331. Slimit_SearchRAT of WCEL.13. AdjsQoffset2 of HOPS. AdjsTxPwrRACH of ADJS. UARFCN UARFCN UARFCN WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 605 (756) . SsearchHCS of WCEL. AdjgQoffset1 of HOPG. AdjiQoffset1 of HOPI. Cell reselection triggering time (Continued) AdjgPenaltyTime of HOPG. SHCS_RAT of WCEL. AdjsPenaltyTime of HOPS.RAN Parameters Table 577. AdjiTempOffset2 of HOPI.120 UARFCN (UARFCN) Table 578.304. Qhyst2 of WCEL. AdjiTxPwrRACH of ADJI. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode 4. AdjgTempOffset1 of HOPG. QHCS of WCEL. Sintersearch of WCEL. UEtxPowerMaxPRACH of WCEL. AdjiTempOffset1 of HOPI. QqualMin of WCEL. Ssearch_RAT of WCEL. TCrmaxHyst of WCEL. HCS_PRIO of WCEL. AdjiPenaltyTime of HOPI. NCr of WCEL. The value of the UARFCN in the IMT2000 band is defined as follows: Nd = 5 * Fdownlink. Maximum UE transmission power on DPCH Maximum UE transmission power on DPCH UEtxPowerMaxDPCH WCEL ACConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 606 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .13.121 UEtxPowerMaxDPCH (Maximum UE transmission power on DPCH ) Table 579.16383 .6 MHz.101. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.. Description: UARFCN (Continued) The carrier frequency is designated by the UTRA Absolute Radio Frequency Channel Number (UARFCN).433. 0. UTRAN Iub Interface NBAP Signalling 3GPP Reference: TS 25. step 1 internal_value = gui_value Not modifiable - • • • • • RNC to WBTS RAC to RNC EM to RNC Planner to RAC RAC Application to RAC 3GPP Reference: TS 25. where Fdownlink is the downlink frequency in MHz.. UE Radio Transmission and Reception (FDD) References: • • 4.0 MHz <= Fdownlink <= 3276.WCDMA RAN Parameters Table 578. Description: Maximum UE transmission power on DPCH (Continued) This parameter defines the maximum transmission power level a UE can use on DPCH..122 UEtxPowerMaxPRACH (Maximum UE transmission power on PRACH) Table 580. step 1 dBm internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 24 dBm Admission Control. It is signaled to UE in the Maximum allowed UL TX power IE of a proper RRC message. UTRAN Iur interface RNSAP Signalling 3GPP Reference: TS 25.331. Maximum UE transmission power on PRACH Maximum UE transmission power on PRACH UEtxPowerMaxPRACH WCEL ACConfiguration 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 607 (756) . Handover Control On-Line UEtxPowerMaxPRACH of WCEL • • • • RNC to UE Planner to RAC RAC to RNC RAC Application to RAC 3GPP Reference: TS 25. -50.423.33 dBm..13.RAN Parameters Table 579. RRC Protocol Specification References: • • 4. when a radio link is set up. 331.WCDMA RAN Parameters Table 580. step 1 dBm internal_value = gui_value 21 dBm Admission Control.. RRC Protocol Specification References: • 4. The value of the parameter also effects the cell selection and reselection procedures.123 URAIdList (List of URA identities) Table 581.33 dBm. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: -50. The value of the parameter is sent to UE in the Cell selection and re-selection of System Information Blocks 3 and 4 of the serving cell. List of URA identities List of URA identities URAIdList WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 608 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Handover Control On-Line UEtxPowerMaxDPCH of WCEL • • • • RNC to UE Planner to RAC RAC to RNC RAC Application to RAC 3GPP Reference: TS 25.. Description: Maximum UE transmission power on PRACH (Continued) This parameter defines the maximum transmission power level a UE can use on PRACH.13. Child parameters: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: • - URAId On-Line - • • • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. A maximum of eight URA identities can be defined per cell. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 609 (756) .RAN Parameters Table 581. This parameter is part of System Information Block 2. URA identity URA identity URAId WCEL 8 The URA identity is the identity of the UTRAN Registration Area.13. A maximum of 8 URA identities can be defined per cell. Description: List of URA identities (Continued) A list of URA identities. Overlapping URAs can be defined. The first URA-ID in the URA-ID list is a master URA-ID.1 URAId (URA identity) Table 582. RRC Protocol Specification References: • 4.123. This parameter is part of System Information Block 2. which is given to all mobile stations in this cell.331. 8 (2560 ms). 4 (160 ms).) Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: 3 (80 ms).13. URA identity (Continued) 1. 6 (640 ms)...331. 5 (320 ms).65535 . 7 (1280 ms). RRC Protocol Specification References: • 4. step 1 internal_value = gui_value Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: On-Line URAIdList of WCEL • • • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC RNC to WBTS WBTS to UE 3GPP Reference: TS 25. 9 (5120 ms) 610 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .124 UTRAN_DRX_length (UTRAN DRX cycle length) Table 583.WCDMA RAN Parameters Table 582. (The duration of the DRX cycle is 2 <power> k frames. where 'k' is the used DRX cycle length coefficient for UTRAN. UTRAN DRX cycle length UTRAN DRX cycle length UTRAN_DRX_length WCEL 1 The DRX cycle length used by UTRAN to count paging occasions for discontinuous reception. 13.331. UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode References: • • 4. Use of HCS Use of HCS UseOfHCS WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 611 (756) .304.125 UseOfHCS (Use of HCS) Table 584. RRC Protocol Specification 3GPP Reference: TS 25. UTRAN DRX cycle length (Continued) • • • • • • • 80 ms: internal_value = 3 160 ms: internal_value = 4 320 ms: internal_value = 5 640 ms: internal_value = 6 1280 ms: internal_value = 7 2560 ms: internal_value = 8 5120 ms: internal_value = 9 Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 5 Mobile Device Control On-Line UTRANorigPagingRepInterv of RNC • • • • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25.RAN Parameters Table 583. QHCS of WCEL. Qhyst1 of WCEL. SHCS_RAT of WCEL. AdjiTempOffset2 of HOPI. Treselection of WCEL. AdjiPenaltyTime of HOPI. AdjiTempOffset1 of HOPI. AdjgTempOffset1 of HOPG. Sintrasearch of WCEL. AdjsPenaltyTime of HOPS. AdjgQoffset1 of HOPG. AdjsQoffset2 of HOPS. AdjiQoffset1 of HOPI. QqualMin of WCEL. AdjiTxPwrRACH of ADJI.WCDMA RAN Parameters Table 584. This parameter is part of System Information Block 11/12. TCrmaxHyst of WCEL. Sintersearch of WCEL. SsearchHCS of WCEL. UEtxPowerMaxPRACH of WCEL Parameter relationships: Interfaces: • • • • References: • RNC to UE RAC to RNC EM to RNC RAC Application to RAC 3GPP Reference: TS 25. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: 0 (False). 1 (True) • • False => 0 True => 1 0 (No) On-Line AdjgPenaltyTime of HOPG. Ssearch_RAT of WCEL. TCrmax of WCEL. Slimit_SearchRAT of WCEL. HCS_PRIO of WCEL. AdjsQoffset1 of HOPS. Qhyst2 of WCEL. AdjiQoffset2 of HOPI. AdjsTempOffset2 of HOPS. AdjsTxPwrRACH of ADJS. RRC Protocol Specification 612 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Description: Use of HCS (Continued) This parameter indicates whether the serving cell belongs to a Hierarchical Cell Structure (HCS). NCr of WCEL. AdjgTxPwrMaxRACH of ADJG. or not. AdjsTempOffset1 of HOPS.331. QrxlevMin of WCEL. WCEL time stamp is updated every time when any ADJS or ADJI or ADJG object under it has been changed.RAN Parameters 4. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Child parameters: • • • • • • • WCELDay WCELHours WCELHundreths WCELMinutes WCELMonth WCELSeconds WCELYear Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - Not modifiable WBTSTimeStamp of WBTS. Time stamp Time stamp WCELTimeStamp WCEL 1 Parameter identifies the time when the WCEL object (or any other object beneath it in object hierarchy) was modified the last time. The value for the parameter can not be modified by the user.13.126 WCELTimeStamp (Time stamp) Table 585. RNCTimeStamp of RNC • • RNC to RAC RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 613 (756) . WCDMA RAN Parameters 4. Time stamp day Time stamp day WCELDay WCEL 1 Parameter identifies the day when the WCEL object (or any other object beneath it in object hierarchy) was modified the last time. step 1 day internal_value = gui_value Not modifiable WCELTimeStamp of WCEL • • RNC to RAC RAC Application to RAC References: - 4.31 day. WCEL time stamp is updated every time when any ADJS or ADJI or ADJG object under it has been changed.. The value for the parameter can not be modified by the user..13.126.13. Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1.2 WCELHours (Time stamp hours) Table 587. Time stamp hours Time stamp hours WCELHours WCEL Parameter name: Abbreviated name: Managed object: 614 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .1 WCELDay (Time stamp day) Table 586.126. RAN Parameters Table 587. The value for the parameter can not be modified by the user.23 hour.. WCEL time stamp is updated every time when any ADJS or ADJI or ADJG object under it has been changed. Time stamp hundredths of seconds Time stamp hundredths of seconds WCELHundreths WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 615 (756) . Time stamp hours (Continued) 1 Parameter identifies the hour of time when the WCEL object (or any other object beneath it in object hierarchy) was modified the last time.. Parameter group: Multiplicity: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.3 WCELHundreths (Time stamp hundredths of seconds) Table 588.126.13. step 1 hour internal_value = gui_value Not modifiable WCELTimeStamp of WCEL • • RNC to RAC RAC Application to RAC References: - 4. .4 WCELMinutes (Time stamp minutes) Table 589..WCDMA RAN Parameters Table 588. WCEL time stamp is updated every time when any ADJS or ADJI or ADJG object under it has been changed.99 hundredths.126.13. The value for the parameter can not be modified by the user. Time stamp minutes Time stamp minutes WCELMinutes WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 616 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0. Description: Time stamp hundredths of seconds (Continued) Parameter identifies the hundredths of seconds of time when the WCEL object (or any other object beneath it in object hierarchy) was modified the last time. step 1 hundredths internal_value = gui_value Not modifiable WCELTimeStamp of WCEL • • RNC to RAC RAC Application to RAC References: - 4. WCEL time stamp is updated every time when any ADJS or ADJI or ADJG object under it has been changed. step 1 minute(s) internal_value = gui_value Not modifiable WCELTimeStamp of WCEL • • RNC to RAC RAC Application to RAC References: - 4.. The value for the parameter can not be modified by the user.13. Description: Time stamp minutes (Continued) Parameter identifies the minutes of time when the WCEL object (or any other object beneath it in object hierarchy) was modified the last time..59 minute(s). Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.126.RAN Parameters Table 589. Time stamp month Time stamp month WCELMonth WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 617 (756) .5 WCELMonth (Time stamp month) Table 590. WCEL time stamp is updated every time when any ADJS or ADJI or ADJG object under it has been changed..13. The value for the parameter can not be modified by the user.. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1. Description: Time stamp month (Continued) Parameter identifies the month when the WCEL object (or any other object beneath it in object hierarchy) was modified the last time.126.WCDMA RAN Parameters Table 590. step 1 month internal_value = gui_value Not modifiable WCELTimeStamp of WCEL • • RNC to RAC RAC Application to RAC References: - 4. Time stamp seconds Time stamp seconds WCELSeconds WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 618 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .12 month.6 WCELSeconds (Time stamp seconds) Table 591. step 1 second(s) internal_value = gui_value Not modifiable WCELTimeStamp of WCEL • • RNC to RAC RAC Application to RAC References: - 4.. Description: Time stamp seconds (Continued) Parameter identifies the seconds of time when the WCEL object (or any other object beneath it in object hierarchy) was modified the last time.126.13. WCEL time stamp is updated every time when any ADJS or ADJI or ADJG object under it has been changed.RAN Parameters Table 591..59 second(s). Time stamp year Time stamp year WCELYear WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 619 (756) . Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 0.7 WCELYear (Time stamp year) Table 592. The value for the parameter can not be modified by the user. 2100 year. The value for the parameter can not be modified by the user..13. Description: Time stamp year (Continued) Parameter identifies the year when the WCEL object (or any other object beneath it in object hierarchy) was modified the last time. WCEL time stamp is updated every time when any ADJS or ADJI or ADJG object under it has been changed. step 1 year internal_value = gui_value Not modifiable WCELTimeStamp of WCEL • • RNC to RAC RAC Application to RAC References: - 4. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: 1980. WCDMA Cell Operational State WCDMA Cell Operational State WCelState WCEL 1 Parameter name: Abbreviated name: Managed object: Parameter group: Multiplicity: 620 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .127 WCelState (WCDMA Cell Operational State) Table 593..WCDMA RAN Parameters Table 592. RAN Parameters Table 593. The parameter value determines the reason why the cell is blocked. Internally (RNC RNW database) this parameter is bit structure. There can be several simultaneous reasons for why a cell is blocked.BL-SHUTDOWN (blocked because the BTS is shutting down.BL-INIT (blocked because of initialisation. in which every bit represents a different reason for why cell is blocked. The possible states are presented below: . I) . L).BL-WF-COCO (blocked because COCO is not yet created.BL-USER (blocked by the user. S) .BL-FL-COCO (blocked because of a failure in COCO. W) . H) . Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: Parameter relationships: Interfaces: - 1 Not modifiable - • • • RNC to RAC RNC to EM RAC Application to RAC References: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 621 (756) .WO (working) .BL-FL-LINK (blocked because of a Common NBAP link failure. U) .BL-WBTS (blocked because the BTS has sent disabled state information. Description: WCDMA Cell Operational State (Continued) This parameter indicates whether the cell in question is functional or not. B) .BL-SYSTEM (blocked because of a system failure. C) . WCDMA RAN Parameters 622 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 623 (756) .1.1 MSC parameters LA Parameters Address Table 594.MSC parameters 5 5. Address Address address LA > Address of LA object.1 5. The same MNC cannot be given twice to the same location area. New MNCs will overwrite previous MNCs in the MSC. and you can assign up to 8 different MNCs per Location Area. Allowed MNC in national roaming is a decimal string.3 digits and character ``&'' can be used for several MNC numbers. Emergency Priority Emergency Priority emergencyPriority LA > Parameter name: Abbreviated name: Managed object: Parameter group: 624 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .3 Emergency Priority Table 596. which contains 1.2 Allowed MNC In National Roaming Table 595. This parameter is obligatory. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5..1.1. Allowed MNC In National Roaming Allowed MNC In National Roaming allowedMNCList LA > The MNCs for the given location area can be modified with this parameter.WCDMA RAN Parameters 5. 1 being the highest priority and 15 meaning that the priority is not used. Description: Emergency Priority (Continued) The channel assignment priorities are used when the radio channel assignment function of the BSC is defined to operate in a way that it uses priority levels..1.4 Handover Priority Table 597.interface Priority Information control is not in use. then one of the ongoing calls is released an a channel assigned to this emergency call. then the command ELH is not available.15 internal_value = gui_value 1 On-Line - 5. the old values are kept. command group RQ.. In that case.interface Priority Information Control is in use.MSC parameters Table 596. Handover Priority Handover Priority hoPriority LA Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 625 (756) . the range is between 0 and 15. For emergency channel assignment priority. If the A. You can give any combination of the priority parameters.interface Attribute Analysis Handling MML. +F462 Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0. use the A. and when the A. If you set the emergency channel assingnment priority to 0 and an emergency call is initiated when there is no free channel. By default. The priority value range for the first three priority parameters is between 1 and 15. 0 being the highest priority and 15 meaning that the priority is not used. .1.. then the command ELH is not available. use the A.5 LA ID Table 598.WCDMA RAN Parameters Table 597.interface Priority Information control is not in use. By default.65535 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: 626 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . the old values are kept. Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 1. command group RQ.. The priority value range for the first three priority parameters is between 1 and 15.interface Attribute Analysis Handling MML..interface Priority Information Control is in use. In that case. and when the A. LA ID LA ID id LA > Identification (ID) of LA object. You can give any combination of the priority parameters.15 internal_value = gui_value 2 On-Line - 5. 1. 1 being the highest priority and 15 meaning that the priority is not used. If the A. Handover Priority (Continued) > The channel assignment priorities are used when the radio channel assignment function of the BSC is defined to operate in a way that it uses priority levels. Identical LAC Switch Identical LAC Switch identicalLacSwitch LA > Indicates whether the identical area code switch.MSC parameters Table 598. LA ID (Continued) Not modifiable - Default value Default value notes Related functions: Modification: Related parameters: References: 5.1. 1 (Yes) - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Not modifiable - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 627 (756) . which is needed when creating the same location area code in two different MSCs. 0 (No). is active or not.6 Identical LAC Switch Table 599. 65535 internal_value = gui_value 0 Not modifiable - 5. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0. MCC MCC mobileCountryCode LA Parameter name: Abbreviated name: Managed object: 628 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .1.7 LAC Table 600.8 MCC Table 601.. the highest values 65534 and 65535 are forbidden. Because they have a special meaning. Ristriction: The LAI ( location area id ) parameter is composed of the MCC.1.. LAC LAC locationAreaCode LA > LAC = location area code The code of a location area in your MSC. Give both the location area name and code. Location area ( LA ) is an area where an MS can move without performing a location updating procedure.WCDMA RAN Parameters 5. Check adjacent cell parameters. The location area code is a decimal between 1 and 65533. MNC and LAC parameters. MCC (Continued) > Mobile Country Code of PLMN where location area belongs.1. Default values is the mobile country code of own MSCs PLMN. - Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Not modifiable - 5. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Not modifiable - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 629 (756) . MNC MNC mobileNetworkCode LA > Mobile Network Code of PLMN where location area belongs.MSC parameters Table 601. Default is the mobile network code of own MSCs PLMN.9 MNC Table 602. Name Name name LA > Name of LA object.10 Mobile Station Roaming Number Group Table 603. The default value is 0.1...1. The MSRN range is a sequence of MSRNs that you can set. Parameter name: Abbreviated name: Managed object: Parameter group: Description: 630 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0. The MSRN group is a decimal between 0 and 50.11 Name Table 604. The parameter supports the possibility to allocate MSRNs (mobile station roaming numbers) based on the subscribers registered location area.50 internal_value = gui_value 0 On-Line - 5. The MSRN group consists of one or more MSRN ranges. Mobile Station Roaming Number Group Mobile Station Roaming Number Group msrnGroup LA > RNGP = Mobile Station Roaming Number Group With this parameter you can assign a MSRN group to one or several location areas.WCDMA RAN Parameters 5. 1 being the highest priority and 15 meaning that the priority is not used. and when the A.interface Attribute Analysis Handling MML. Name (Continued) - Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5. By default. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes 1. then the command ELH is not available.interface Priority Information Control is in use. Ordinary Priority Ordinary Priority normalPriority LA > The channel assignment priorities are used when the radio channel assignment function of the BSC is defined to operate in a way that it uses priority levels.15 internal_value = gui_value 3 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 631 (756) . In that case. The priority value range for the first three priority parameters is between 1 and 15..interface Priority Information control is not in use. command group RQ.1.12 Ordinary Priority Table 605. use the A.MSC parameters Table 604.. If the A. the old values are kept. You can give any combination of the priority parameters. Prohibited MS Power Classes 1 Prohibited MS Power Classes 1 prohibitedMSPowerClassesPH1 LA > Parameter name: Abbreviated name: Managed object: Parameter group: 632 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Not modifiable - 5. Ordinary Priority (Continued) On-Line - Related functions: Modification: Related parameters: References: 5.14 Prohibited MS Power Classes 1 Table 607.1.13 NW Name Table 606. NW Name NW Name nwName LA > Network Name of LA object.1.WCDMA RAN Parameters Table 605. 1 (Yes) - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (No) On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 633 (756) . 1 (Yes) - 0 (No) On-Line - 5.15 Prohibited MS Power Classes 2 Table 608. Description: Prohibited MS Power Classes 1 (Continued) Defines which power class values the GSM revision level 1 can have.MSC parameters Table 607. Prohibited MS Power Classes 2 Prohibited MS Power Classes 2 prohibitedMSPowerClassesPH2 LA > > 0 (No). Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (No).1. In that case. use the A.16 Re-establishment Priority Table 609. command group RQ. The priority value range for the first three priority parameters is between 1 and 15. By default..interface Priority Information Control is in use.interface Priority Information control is not in use.interface Attribute Analysis Handling MML. 1 being the highest priority and 15 meaning that the priority is not used. and when the A.WCDMA RAN Parameters 5.1. then the command ELH is not available.. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 1. Re-establishment Priority Re-establishment Priority reEstablishmentPriority LA > The channel assignment priorities are used when the radio channel assignment function of the BSC is defined to operate in a way that it uses priority levels. If the A. the old values are kept.15 internal_value = gui_value 2 On-Line - 634 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . You can give any combination of the priority parameters. .17 Repaging Attempts Table 610. Repaging Interval Repaging Interval repagingInterval LA > With this parameter you can define in what intervals the MSC tries paging. 0. Give at least one of the repaging parameters.5 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 2 On-Line - 5. The repaging interval multiplied by 10 ms..1.MSC parameters 5.18 Repaging Interval Table 611. The repaging intervals is a decimal between 50 and 1000.1000 Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 635 (756) ..1. 50.. Repaging Attempts Repaging Attempts repagingAttempts LA > Maximum number of repeated paging attempts made by the MSC. . Default Service Area Code Default Service Area Code sac LA > With this parameter it is possible to assign a default service area to one location area.. The default is the old value.65535 internal_value = gui_value On-Line - 636 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .1.Value 0 means that there is no default SAC for the location area.WCDMA RAN Parameters Table 611. Repaging Interval (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 300ms On-Line - 5. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0.19 Default Service Area Code Table 612. Address Address address MGWM > Address of the MGWM object.MSC parameters 5.2 Administrative State Table 614. Administrative State Administrative State adminState MGWM > Administrative State of the object in the NW after object creation or modification 1 (Unlocked). 3 (Locked) - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 637 (756) . - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5.2 5.1 MGWM Parameters Address Table 613.2.2. 3 BSSAP Subsystem Number Table 615.. The maximum number of different SSNs under one MSC/MSS is 10.. 16. Administrative State (Continued) On-Line - Default value Default value notes Related functions: Modification: Related parameters: References: 5.2.254 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 638 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The value can also be given as decimal.WCDMA RAN Parameters Table 614. BSSAP Subsystem Number BSSAP Subsystem Number bssapSubsystemNumber MGWM > This parameter identifies the subsystem using the SCCP. 0 (RNCID+LAC+MNC+MCC).4095 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 639 (756) . Cell Identification Method Cell Identification Method cellIdentificationMethod MGWM > This parameter defines the cell identification method used by the MSC during a handover.MSC parameters 5. 1 (RNCID+LAC).2..5 MGWM ID Table 617.2. 1.4 Cell Identification Method Table 616. 2 (RNCID) - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5. MGWM ID MGWM ID id MGWM > Identification (ID) of MGWM object.. WCDMA RAN Parameters Table 617. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5.6 Name Table 618.2. Name Name name MGWM > Name of MGWM object.2.7 Not Applicable ( No Pool ) Table 619. Not Applicable ( No Pool ) Not Applicable ( No Pool ) noPool MGWM Parameter name: Abbreviated name: Managed object: 640 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . MGWM ID (Continued) Not modifiable - Default value notes Related functions: Modification: Related parameters: References: 5. NW Name NW Name nwName MGWM > Network name of MGWM object. You can give one route number only once under the same MGW. the route can only be defined for pool number 0.MSC parameters Table 619. 300. This route number must not be used by another unlocked MGW. A maximum of 16 routes can be defined for every MGW. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 641 (756) . If you wish to delete a route. set the route number to 0. Not Applicable ( No Pool ) (Continued) > Indicates the route number that is used in the MGW.2.8 NW Name Table 620.999 internal_value = gui_value Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Requires object locking - 5. The name of a MGW in your MSC... With the MGW. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: 0 (Not Available). 4 (MSC Releasing Resources). 2 (Restarting). MSC_RELEASING_RESOURCES. When MGW is LOCKED state can be NOT_AVAILABLE. NW Name (Continued) Not modifiable - Modification: Related parameters: References: 5.WCDMA RAN Parameters Table 620. When MGW is UNLOCKED state can be AVAILABLE. SCCP_SUBSYSTEM_PROHIBITED or OUT_OF_SERVICE. 1 (Available).2. RESTARTING. RESTARTING_BY_MSC. 6 (Out Of Service) - Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 Not modifiable - 642 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .9 MGW Operational State Table 621. 3 (Restarting by MSC). MGW Operational State MGW Operational State operationalState MGWM > This parameter identifies the MGW operational state. The parameter is read-only. 5 (SCCP Subsystem Prohibited). Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (LAC+MNC+MCC).2.2.MSC parameters 5. Priority Assigment Function Priority Assigment Function priorityAssignmentFunction MGWM > The priority assignment function mode of the MGW. Paging Method Paging Method pagingMethod MGWM > This parameter defines the method that the MSC uses to identify the scope of a paging request. ON = the priority assignment function is ON OFF = the priority assignment function is OFF Parameter name: Abbreviated name: Managed object: Parameter group: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 643 (756) . The parameter can have the following values: LAI = LAC + MNC + MCC LAC = LAC You need to give one of the paging methods. 1 (LAC) - On-Line - 5.10 Paging Method Table 622.11 Priority Assigment Function Table 623. 2.12 RNC ID List Table 624. RNC ID List RNC ID List rncIdList MGWM > This parameter identifies the RNCs attached to the MGW. 1 (Yes) - Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5. The maximum number of different RNCs under one MGW is 20.WCDMA RAN Parameters Table 623. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 644 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Priority Assigment Function (Continued) 0 (No). - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Not modifiable - 5.14 Signalling Network Code Table 626. Signalling Network Code Signalling Network Code signallingNetworkCode MGWM > Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 645 (756) .2. Service Area List Service Area List saList MGWM > This parameter identifies the Service Areas under the MGWM .13 Service Area List Table 625.2.The maximum number of different SAs under one MSC is dependent on the sum of BTSs and SAs (=8000). The parameter is read-only.MSC parameters 5. 2 (National Network 0). Signalling Point Code Signalling Point Code singnallingPointCode MGWM > Parameter name: Abbreviated name: Managed object: Parameter group: 646 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 626. 3 (National Network 1) - Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5.2. If all the signalling networks exits. Description: Signalling Network Code (Continued) Signalling network code ( SNC ) identifies the signalling network. As its value it can have one of the networks which have been defined in the SCCP ( Signalling Connection Control Part ) of the exchange. 1 (International Network 1). the output is the following: Identify networks: No signalling networks defined Range and step: 0 (International Network 0). the alternatives are the following: Identify networks: IN0 International Network 0 IN1 International Network 1 NA0 National Network 0 NA1 National Network 1 If there are no signalling networks.15 Signalling Point Code Table 627. The signalling network code is compulsory. The parameter has a value only when the operational state of the MGW is AVAILABLE.. Description: Signalling Point Code (Continued) Signalling point code is a binary code uniquely identifying a signalling point in a signalling network.16 Traffic Limitation Table 628.. the maximum value is FFFFFF H ( 255-255-255 ).16777215 internal_value = gui_value On-Line - 5.. if this is allowed in the network in question. If the signalling network uses 14 bit point codes.. The value range depends on the given signalling network. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0. The signalling point code is compulsory. the maximum value is 3FFF H ( 7-255-7 )and it it uses 24 bit point codes.100. It is a hexadecimal or a decimal.2.MSC parameters Table 627. Traffic Limitation Traffic Limitation trafficLimitation MGWM > This parameter provides information on the MGW traffic limitation. The parameter is read-only. 0-5-0 ). The signalling point code can also be entered with hyphens between the digits ( e. step 10 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 647 (756) .g. 0. 2.49 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 15 On-Line - 648 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 628.. It is a decimal 1 ... 1. 49. BSSAP Version BSSAP Version versionOfBSSAP MGWM > There are 50 prepacked BSSAP service profile descriptions in an MSC.17 BSSAP Version Table 629. Traffic Limitation (Continued) Not modifiable - Default value notes Related functions: Modification: Related parameters: References: 5. A BSSAP service profile description is identified with the unique number called BSSAP version. These service profile descriptions define the data combinations of BSS functions and the values of A interface timers and parameters.. The BSSAP version is obligatory. 3. 1 (Unlocked). 3 (Locked) - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 649 (756) .2 Administrative State Table 631. Administrative State Administrative State adminState MSA > Administrative state of the managed object in the NW after creation or modification.MSC parameters 5. Address Address address MSA > Address of MSA object. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5.1 MSA Parameters Address Table 630.3.3 5. 3. In addition. 3 (Not defined) - 3 On-Line - 650 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .3 Frequency Band Table 632. 2 (WCDMA). The parameter can have one of the following values: GSM = the cell band is GSM DCS = the cell band is DCS WCDMA = the cell band is WCDMA < option > NO = the cell band is not defined (default) Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (GSM). Frequency Band Frequency Band cellBand MSA > BAND = cell band This parameter enables you to differentiate the calling subscriber's cell band.WCDMA RAN Parameters Table 631. 1 (DCS). Administrative State (Continued) On-Line - Default value Default value notes Related functions: Modification: Related parameters: References: 5. you can adjust and affect the calling and called subscribers' charging. 4 Cell Based QOS for LCS (CQOS) Table 633.5 Cell Dependent Routing Table 634. It is used in emergency service positioning to define the accuracy of location of the mobile station.. The default value is N. Cell Dependent Routing Cell Dependent Routing cellDependentRouting MSA > Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 651 (756) ..3.. 127 or N.127 internal_value = gui_value On-Line - 5.MSC parameters 5. Cell Based QOS for LCS (CQOS) Cell Based QOS for LCS (CQOS) cellBasedQOSForLCS MSA > This parameter defines the cell based Quality of Service (QoS) for Location Services (LCS). Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0.. Value N means that the cell based QOS is not in use.3. Possible values are 0 . an MSC executes the routing and charging analysis(= digit analysis) depending on the cell in which the call originates. this is equivalent to numeric value 0 (default).. The parameter can have one of the following values: N normal cell T test cell Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: 0 (Normal cell). or one of the following values: N Normal routing. The parameter can have a numeric value from 0 to 254.6 Cell Test State Table 635. Cell Test State Cell Test State cellTestState MSA > The parameter is used to define the testing status of a cell. this is equivalent to numeric value 1. Description: Cell Dependent Routing (Continued) In a mobile-originated call. Option: cell dependent routing Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0.3.WCDMA RAN Parameters Table 634.254 internal_value = gui_value 0 On-Line - 5.. You may want to use a cell for test calls only. The cell can be either in the normal state or test state. when the network is being built or expanded. 1 (Test cell) 652 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . for example. S Special routing. Cell Test State (Continued) - Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 On-Line - 5.MSC parameters Table 635. Charging Area Code Charging Area Code chargingAreaCode MSA > Charging area code (0 in the first element means detached from all 10 charging areas) 0...7 Charging Area Code Table 636.9999 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 653 (756) .3. ..WCDMA RAN Parameters 5. ESRK Usage ESRK Usage esrkUsage MSA > Parameter name: Abbreviated name: Managed object: Parameter group: 654 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en ..3. The default value is 0. Value 0 means that the ESRK is not in use. Emergency Services Routing Key (ESRK) is a number that identifies the emergency service call and the visitor MSC. Possible values are 0 . ESRK Range Index ESRK Range Index esrkRangeIndex MSA > This parameter defines the index to a ESRK number range in HRNFIL file.9 ESRK Usage Table 638. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0. 100..8 ESRK Range Index Table 637.3.100 internal_value = gui_value 0 On-Line - 5. If the extended resource indicator function is supported. If you have given a value to the parameter. the ESRK parameter must have a value between 1 and 100 and the NONCAS parameter must have value F. Description: ESRK Usage (Continued) The parameter is used to indicate that the PSAP for the cell uses only CAMA signalling. the full rate traffic channel maximum count parameter is optional.. When value Y is given.2000 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 655 (756) . Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: 0. The default value is N.3. Possible values are Y (yes) and N (no). the supported extended resource indicator cancels its meaning. The default value is 0. 1 (Yes) - Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5.10 Full Rate Traffic Channel Max Count Table 639. Full Rate Traffic Channel Max Count Full Rate Traffic Channel Max Count fullRateTrafficChannelMaxCount MSA > TCHF = full rate traffic channel max count The maximum number of full-rate traffic channels created in an MSC..MSC parameters Table 638. 0 (No). The full rate traffic channel maximum count can be a decimal in the range from 0 to 2000. . Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: 0. If the extended resource indicator is supported. the supported extended resource indicator cancels its meaning.2000 internal_value = gui_value 0 - 656 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . the parameter half rate traffic channel maximum count is optional. The half rate traffic channel maximum count can be a decimal in the range from 0 to 2000.3. If you have given a value to the parameter.WCDMA RAN Parameters Table 639.. Full Rate Traffic Channel Max Count (Continued) internal_value = gui_value Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 On-Line - 5. Half Rate Traffic Channel Max Count Half Rate Traffic Channel Max Count halfRateTrafficChannelMaxCount MSA > TCHH = half rate traffic channel max count The maximum number of half-rate traffic channels created in an MSC.11 Half Rate Traffic Channel Max Count Table 640. The default value is 0. that is. the same MSA ID must not be used by another Service Area in the same Location Area. Make sure that the combination of the MSA ID and LAC is unique. This parameter identifies the Service Area in the MSC... MSA ID MSA ID id MSA > Identification of the MSA object.MSC parameters Table 640.12 MSA ID Table 641. 1.65535 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Not modifiable - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 657 (756) . Half Rate Traffic Channel Max Count (Continued) On-Line - Modification: Related parameters: References: 5. The MSA ID is also called as Service Area Code (SAC) in the MSC.3. Internal Network Number Indicator Internal Network Number Indicator intNetworkNumberIndicator MSA > INN = internal network number indicator This parameter defines whether the routing to the internal network is allowed. The parameter can have one of the following values: N = routing to internal number not allowed A = routing to internal number allowed This parameter is optional.13 Internal Network Number Indicator Table 642. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (No). It defines whether the routing to an internal number is allowed.3.The internal network number indicator is a part of location information. 1 (Yes) - On-Line - 5.14 Local Area Dialling Code Table 643. Local Area Dialling Code Local Area Dialling Code localAreaDiallingCode MSA Parameter name: Abbreviated name: Managed object: 658 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters 5. default value N (routing to internal number not allowed) is used. If you do not give an internal network number indicator.3. LAC LAC locationAreaCode MSA Parameter name: Abbreviated name: Managed object: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 659 (756) .3. the cell is considered detached from the local area dialling code. The parameter can have the following values: LAD code F If value F is given. without dialling the national prefix or national code. The parameter can contain 1 to 6 digits. This parameter is optional. The local area dialling is a feature which enables subscriber A to make a local call to subscriber B.15 LAC Table 644. One digit is in the range of 0 and E. This is possible when subscriber A is in the same local network area as subscriber B. With this parameter you can attach a cell to a local area dialling code. If you do not give a local area dialling code. LAD can have the maximum of 299 different values. Local Area Dialling Code (Continued) > Local area dialling code (LAD) that the cell is attached to. Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: - On-Line - 5.MSC parameters Table 643. the cell is not attached to the LAD code. Location Number Location Number locationNumber MSA > CLN = location number The location number of a cell.. If you do not give the location number of a cell. Location area (LA) is an area where an MS can move without performing a location updating procedure. It can contain 1 to 16 digits.. MNC and LAC (Location Area Code) parameters.WCDMA RAN Parameters Table 644. the cell is not attached to any location number. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value - - 660 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Value 0 is interpreted as 'no location number'. LAC (Continued) > The LAI (Location Area Id ) parameter is composed of the MCC.16 Location Number Table 645.65535 internal_value = gui_value Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Requires object locking - 5. 1.3. This parameter is optional. MSC parameters Table 645. 1. The ID of the MGWM that the MSA belongs to.4095 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 661 (756) .17 MGWM ID In MSC Table 646... Location Number (Continued) On-Line - Default value notes Related functions: Modification: Related parameters: References: 5.3. MGWM ID In MSC MGWM ID In MSC mgwmIdInMsc MSA > The MGWM ID in the MSC. MCC MCC mobileCountryCode MSA > Mobile Country Code of PLMN where location area belongs. Default values is the mobile country code of own MSCs PLMN.3.19 MNC Table 648. Default values is the mobile country code of own MSCs PLMN.18 MCC Table 647. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Not modifiable - 5.3.WCDMA RAN Parameters 5. MNC MNC mobileNetworkCode MSA > Mobile Network Code of PLMN where location area belongs. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: 662 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . MSC parameters Table 648. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 663 (756) .3. Name Name name MSA > The name of a MSA (MSC Service Area) object.20 Name Table 649. MNC (Continued) Not modifiable - Default value Default value notes Related functions: Modification: Related parameters: References: 5. Possible values are T (true.3.3. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (No).21 No NCAS Support Table 650. there is no support) and F false. there is support). The default value is F. Number Presentation Status Number Presentation Status numberPresentationStatus MSA > Parameter name: Abbreviated name: Managed object: Parameter group: 664 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . No NCAS Support No NCAS Support noNCASSupport MSA > This parameter defines if the Public Safety Answering Point associated to this cell does not support the Non-Call Associated Signalling.22 Number Presentation Status Table 651. 1 (Yes) - 0 (No) On-Line - 5. which means that there is a support for NCAS.WCDMA RAN Parameters 5. 0 (Network Provided) - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value 0 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 665 (756) . and it can only have one value.MSC parameters Table 651. If you do not give a number presentation status. 1 (Restricted) - 1 On-Line - 5.23 Number Screening Status Table 652. Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (Allowed). default value R (presentation restricted) is used.3. It is one of the location information parameters. ?network provided?. Number Screening Status Number Screening Status numberScreeningStatus MSA > The parameter is the number screening status (SCREEN). The parameter can have one of the following values: A = presentation allowed R = presentation restricted This parameter is optional. Description: Number Presentation Status (Continued) PRES = number presentation status The number presentation status is a part of location information. 24 Numbering Plan Indentification Table 653. If you do not give the numbering plan identification.69 PRIV = Private numbering plan This parameter is optional.164 DATA = Data numbering plan.WCDMA RAN Parameters Table 652. Number Screening Status (Continued) Not modifiable - Default value notes Related functions: Modification: Related parameters: References: 5. F. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (ISDN). rec. Numbering Plan Indentification Numbering Plan Indentification numberingPlanIndication MSA > NPI = Numbering Plan Identification The parameter indicates if the numbering plan is an ISDN. 2 (Telex). rec. E. 1 (Data). telex or a private numbering plan. rec. The parameter can have one of the following values: ISDN = ISDN numbering plan. default value ISDN is used. X.121 TELEX= Telex numbering plan. data.3. 3 (Privat) - 0 On-Line - 666 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1 (Extra Parameter Set 1).3.25 NW Name Table 654. 0 (Not Used).3. CdPN (= parameter set) towards PSAP.26 Parameter Set (PSET) Table 655. The name of a SA in your MSC - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: Not modifiable - 5. Parameter Set (PSET) Parameter Set (PSET) parameterSet MSA > This parameter defines the filling of signalling parameters CHN. CgPN. NW Name NW Name nwName MSA > Network Name of MSA object. GDP. 2 (Extra Parameter Set 2) - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 667 (756) .MSC parameters 5. . 0.WCDMA RAN Parameters Table 655. 1000 of 10 ms units (0 . which means that the Public Safety Answering Point associated to this cell does not support CAS..27 Position Determination Timers Table 656.1000. Parameter Set (PSET) (Continued) 0 On-Line - Default value Default value notes Related functions: Modification: Related parameters: References: 5... step 10 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0ms On-Line - 668 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Position Determination Timers Position Determination Timers positionDeterminationTimers MSA > This parameter defines the timer for the positioning procedure in the Call Associated Signalling (CAS) push positioning method. 10 seconds). The default value is 0. it means there is a support for CAS. Possible values are 0 ... When the value is not 0.3. 0.28 Routing Zone ID Table 657. Routing Zone ID Routing Zone ID routingZone MSA > The routing zone is used to identify the local service centre area under which the BTS is located.3.29 Tariff Area Table 658..2999 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5.3. Available IDs can be found in /etc/opt/nokiaoss/configurator/rac/common/conf/ruilibm x. The local service centre provides. Tariff Area Tariff Area tariffArea MSA > Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 669 (756) ..MSC parameters 5.cf. for example. local emergency. WCDMA RAN Parameters Table 658. too. If you do not give the location number nor type of the location number. Parameter name: Abbreviated name: Managed object: Parameter group: Description: 670 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0.. give also the type of the location number. The tariff area is a BTS-specific (that is. Type Of Location Number Type Of Location Number typeOfLocationNumber MSA > TON = Type of location number The parameter can have one of the following values: SUB = subscriber number UNK = unknown type of number NAT = national number INT = international number If you give a location number. the cell is not attached to any type of location number. cellspecific) parameter. The tariff area can be a decimal in the range from 0 to 3. The tariff area needs to be defined with GN ? Charging Zones Handling.3 internal_value = gui_value On-Line - 5..30 Type Of Location Number Table 659.3. and it enables the charging based on the cell where the mobile subscriber is located. Description: Tariff Area (Continued) The tariff area (TA) is used to indicate the price range of a call. 4. 2 (International).4 5. 3 (Unknown) - Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5. Address Address address NWLA > Address of NWLA object.MSC parameters Table 659. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 671 (756) .1 NWLA Parameters Address Table 660. 1 (National). Type Of Location Number (Continued) 0 (Subscriber). 3 Cell Identification Method Table 662. 1 (Yes) - On-Line - 5.4.2 Call Tracing Allowed Table 661. Call Tracing Allowed Call Tracing Allowed callTracingAllowed NWLA > TRA = Call tracing allowed Use this parameter to define whether call tracing is allowed to anothet MSC.WCDMA RAN Parameters 5. The parameter can have one of the following values: Y = Call tracing is allowed N = Call tracing is not allowed The default value is call tracing is allowed. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (No).4. Cell Identification Method Cell Identification Method cellIdentificationMethod NWLA > Parameter name: Abbreviated name: Managed object: Parameter group: 672 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Referes to the LA of neighboring MSC. Description: Cell Identification Method (Continued) CID = Cell Identification method Use this parameter to define the idnetification method of a targat cell in an inter.. 0. The parameter can have a one of the following values: 0= CGI 1= CLI 2= CI CGI = CI + LAC + MNC + MCC CLI = CI + LAC CI = CI Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (CI+LAC+MNC+MCC).4.MSC handover. 1 (CI LAC). NWLA ID NWLA ID id NWLA > Identifier (ID) of NWLA object. 2 (CI) - On-Line - 5..65535 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 673 (756) .MSC parameters Table 662.4 NWLA ID Table 663. that this parameter is for temporary use only. 1 (Yes) - Not modifiable - 674 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . The parameter can have the following values: Y = identical LAC switch is active N = identical LAC switch is not active This parameter allows you to add a location area code that is already in use in the own MSC to the network. Identical LAC Switch Identical LAC Switch identicalLacSwitch NWLA > ILS = identical location area code switch Indicates whether the identical location area code switch. is active or not.WCDMA RAN Parameters Table 663. Note. which is needed when creting the same location area code in two different MSCs.4. NWLA ID (Continued) Not modifiable - Related functions: Modification: Related parameters: References: 5. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (No). however.5 Identical LAC Switch Table 664. MSC parameters 5.4. The parameter can have one of the following values: Y = Inter-MSC handover is allowed N = Inter.7 MCC Table 666. Default values is the mobile country code of own MSCs PLMN. Parameter name: Abbreviated name: Managed object: Parameter group: Description: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 675 (756) .4. Inter MSC Handover Allowed Inter MSC Handover Allowed interMSCHoAllowed NWLA > IMSC = Inter-MSC handover allowed Indicates if the inter-MSC handover is allowed to the other MSCs location area. MCC MCC mobileCountryCode NWLA > Mobile Country Code of PLMN where location area belongs.MSC handover is not allowed Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (No).6 Inter MSC Handover Allowed Table 665. 1 (Yes) - On-Line - 5. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 676 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Default values is the mobile country code of own MSCs PLMN. MCC (Continued) - Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5. MNC MNC mobileNetworkCode NWLA > Mobile Network Code of PLMN where location area belongs.4.WCDMA RAN Parameters Table 666.8 MNC Table 667. MSC parameters 5.9 MSC ISDN Number Table 668. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: - Not modifiable - 5. MSC ISDN Number MSC ISDN Number mscIsdnNumber NWLA > MISDN = MSC ISDN number.4. MSC Signalling Network Code MSC Signalling Network Code mscSNC NWLA > Parameter name: Abbreviated name: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 677 (756) .10 MSC Signalling Network Code Table 669.4. The MSC ISDN number. WCDMA RAN Parameters Table 669.4. otherwise they use the ISDN number. Option: Inverse OPT 24-bit SPC In Use Range and step: 0 (International Network 0). If you have defined the SPC. you can also give the signalling network code. Description: MSC Signalling Network Code (Continued) MSNC = MSC signalling network code The MSC SNC can have one of the following values: IN0 = international network number 0 IN1 = international network number 1 NA0 = national network number 0 NA1 = national network number 1 NA0 is default if MSC signalling point code is given. The ISDN number is necessary for the statistical measurements concernin the inter-MSC location update. 1 (International Network 1). the SNC has the value NA0 by default. MSC Signalling Point Code MSC Signalling Point Code mscSPC NWLA Parameter name: Abbreviated name: Managed object: 678 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . When you give the SPC. You can give the nature of MSC address. If you give the SPC. 3 (National Network 1) - Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5. the call control processes use that.11 MSC Signalling Point Code Table 670. or both. 2 (National Network 0). if you give the MSC ISDN number. give the ISDN number or the signalling point code of the MSC the location area belongs to. If you do not give a reference location area. 16383 internal_value = gui_value On-Line - 5.. Name Name name NWLA > Name of NWLA object.12 Name Table 671. Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0. or a decimal in the range of 1 to 16383.MSC parameters Table 670. MSC Signalling Point Code (Continued) > MSPC = MSC signalling point code The MSC SPC can be a hexadecimal in the range of 1 to 3FFF H..4. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 679 (756) . MML name: MNA MML range: IN = International NA= National -1 = Not defined 0 = National Network 1 = International Network Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: -1 (Not defined). 0 (National Network). 1 (International Network) - Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5. Nature Of VLR Address Nature Of VLR Address natureOfVLRAddress NWLA > Parameter name: Abbreviated name: Managed object: Parameter group: 680 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .13 Nature Of MSC Address Table 672. Nature Of MSC Address Nature Of MSC Address natureOfMSCAddress NWLA > Nature of MSC address.WCDMA RAN Parameters 5.14 Nature Of VLR Address Table 673.4.4. MSC parameters Table 673. Description: Nature Of VLR Address (Continued) VLR NA = Nature of VLR address.15 NW Name Table 674.4. NW Name NW Name nwName NWLA > Network Name of NWLA object. The nature of VLR address can have one of the following values: IN= international network NA= national network Range and step: -1 (Not defined). - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 681 (756) . 0 (National Network). 1 (International Network) - Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5. .49 ) prepacked BSSAP service profile descriptions called BSSAP versions in the MSC. Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 1. These BSSAP versions define the BSS functions concerning the A. Version Of BSSAP Version Of BSSAP versionOfBSSAP NWLA > VER = BSSAP version Use this parameter to define a BSSAP service profile discription in the radio network files of MSC.16 Version Of BSSAP Table 675.interfaces.4.49 internal_value = gui_value On-Line - 682 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 674. NW Name (Continued) Not modifiable - Modification: Related parameters: References: 5.. There are 50 ( numbers 0. MSC parameters 5. The parameter can have one of the following values: Y = VLR inquiry is allowed N = VLR inquiry is not allowed Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: 0 (No).4. VLR Inquiry Allowed VLR Inquiry Allowed vlrInquiryAllowed NWLA > VLRS = VLR inquiry allowed Indicates if the VLR inquiry is allowed from the other MSCs location area. VLR ISDN Number VLR ISDN Number vlrIsdnNumber NWLA > VISDN = VLR ISDN number.17 VLR Inquiry Allowed Table 676.4. 1 (Yes) - On-Line - 5. - Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 683 (756) .18 VLR ISDN Number Table 677. You can give the nature of VLR address. 3 (National Network 1) - Formula for getting internal value: 684 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 677. 1 (International Network 1). When you give the SPC. by default the SNC has the value NA0. you can also give the signalling network code. if you give the VLR ISDN number. 2 (National Network 0). Option: Inverse OPT 24-bit SPC In Use MML name: VSNC MML range: IN0 = International network number 0 IN1 = International network number 1 NA0 = National network number 0 NA1 = National network number 1 Default is NA0 if VLR signalling point code is given Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: 0 (International Network 0).4. If you give the SPC. VLR ISDN Number (Continued) - Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - 5. VLR Signalling Network Code VLR Signalling Network Code vlrSNC NWLA > VSNC = VLR signalling network code The VLR addressing is equal to the MSC addressing be default. You can give the ISDN number and the signalling point code of the VLR.19 VLR Signalling Network Code Table 678. 4. VLR Signalling Network Code (Continued) On-Line - Default value Default value notes Related functions: Modification: Related parameters: References: 5. VLR Signalling Point Code VLR Signalling Point Code vlrSPC NWLA > VSPC = VLR signalling point code 0..20 VLR Signalling Point Code Table 679..MSC parameters Table 678.16383 internal_value = gui_value Parameter name: Abbreviated name: Managed object: Parameter group: Description: Range and step: Formula for getting internal value: Default value Default value notes Related functions: Modification: Related parameters: References: On-Line - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 685 (756) . WCDMA RAN Parameters 686 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . DN03317891 6. The object for which the parameter is defined. Parameter name Abbreviated name 3GPP name Multiplicity Description References Managed object Parameter group Range and step Formula for getting internal value Default value DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 687 (756) . The formula for calculating the system internal value which is used in radio network plan files. The functional group into which the parameter belongs. For more information refer to: • 3GPP CORBA Bulk CM Northbound Interface Principles. Describes the purpose of the parameter and includes extra information on the parameter. The multiplicity of the parameter.1 How to read 3GPP parameter tables Table 680. The user interface value range for the parameter. Entry How to read parameter tables Description The user interface name for the parameter. This section is intended for radio network planners.3GPP parameters 6 3GPP parameters This section describes 3GPP parameters. Nokia-specified default value. The parameter name used in the radio network plan files (XML). References (if any) to 3GPP specifications. and the Nokia NetAct O&M personnel responsible for 3GPP parameter configuration. which are used for the parameter configuration of the 3GPP N-interface. The used parameter name in 3GPP specifications. 10 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: 688 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Requires object locking = The managed object must be locked by the user before modification if possible..2 6. Default value notes Related functions Modification Related parameters Interface Location in GUI and MML commands Other parameters that affect the parameter. The interfaces on which the parameter is transferred.2. user defines.0. On-line = The parameter value can be changed without any disturbance to ongoing calls. Not modifiable = The parameter value can be modified only through recreation of the managed object.622 v. Entry How to read parameter tables (Continued) Description Additional information (if any) on the default value.WCDMA RAN Parameters Table 680. Information on user interface applications and MML commands which are used to set the parameter. Radio network related functions (in addition to the main function) of the parameter. UserDefinedNetworkType User Defined Network Type UserDefinedNetworkType User Defined Network Type 1 Type of network. 4..0 OMC 3GPPIntN 1 .1 OMC parameters User Defined Network Type Table 681. 6. 3GPP Reference: 3GPP bulk CM specification 32. 20 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 689 (756) . 3GPP Reference: 3GPP bulk CM specification 32.0.. UserDefinedState User Defined State UserDefinedState User Defined State 1 State of network element.0 OMC 3GPPIntN 1 . 4.2.3GPP parameters Table 681.622 v.. user defines.2 User Defined State Table 682. UserDefinedNetworkType (Continued) Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: On-line 6. WCDMA RAN Parameters Table 682.0.. 80 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible.0 RNC 3GPPIntN 1 . ManagedBy Managed By ManagedBy Managed By 1 DN of related Nokia OMC in 3GPP DN format.622 v.1 RNC parameters Managed By Table 683.. On-line 690 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 3GPP Reference: 3GPP bulk CM specification 32.3.3 6. 4. UserDefinedState (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 6. 622 v. user defines.. 4.0 RNC 3GPPIntN 1 . ManagedBy (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 6.3GPP parameters Table 683. 20 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 691 (756) .3. 3GPP Reference: 3GPP bulk CM specification 32.0.2 User Defined State Table 684.. UserDefinedState User Defined State UserDefinedState User Defined State 1 State of network element. . UserDefinedState (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 6.0.622 v..0 WBTS 3GPPIntN 1 .1 WBTS parameters Managed By Table 685.4 6. 4. On-line 692 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . ManagedBy Managed By ManagedBy Managed By 1 DN of related Nokia OMC in 3GPP format. 80 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible.WCDMA RAN Parameters Table 684.4. 3GPP Reference: 3GPP bulk CM specification 32. 2 User Defined State Table 686.0 WBTS 3GPPIntN 1 . 3GPP Reference: 3GPP bulk CM specification 32.. 4. UserDefinedState User Defined State UserDefinedState User Defined State 1 State of network element. user defines.3GPP parameters Table 685. 20 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 693 (756) .622 v.4.0. ManagedBy (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 6.. WCDMA RAN Parameters Table 686. UserDefinedState (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 694 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . . 3.1 7.0. 4. which is composed of the PLMN Identifier.1 RAC2. step 1 - Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Not possible. References: 3GPP Reference: 3GPP bulk CM specification 32.2 non-network and redefined network parameters ADJG parameters Mobile Country Code Table 687. Furthermore.0 ADJG HCConfiguration 3 .1. Location Area Code and Cell Identifier. DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 695 (756) .2 non-network and redefined network parameters 7 7. AdjgMCC Mobile Country Code AdjgMCC Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 A GSM neighbour cell is identified with the Cell Global Identifier (CGI)..622 v.RAC2. the PLMN Identifier is composed of the Mobile Country Code (MCC) and the Mobile Network Code (MNC). MNC together with MCC identifies the PLMN uniquely (globally).0. On-line 696 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .0 ADJG Identification 2 . step 1 internal_value = gui_value / 1 References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible.622 v.2 Mobile Network Code Table 688.1. 3..WCDMA RAN Parameters Table 687. 3GPP Reference: 3GPP bulk CM specification 32. AdjgMCC (Continued) On-line Modification: Related parameters Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) NetAct Configurator (Regional) to RNC Location in GUI and/or MML commands: 7.. MNC consists of two or three digits. AdjgMNC Mobile Network Code AdjgMNC Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Unique network identification within country. 4. 1. AdjgMNC (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.. 80. step 1 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 697 (756) .2 non-network and redefined network parameters Table 688.. TargetCellDN Target Cell DN TargetCellDN Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Pointer to the adjacency target GSM cell (BTS) or external GSM cell (F-BTS/EGCE). Distinguished Name of the corresponding object.RAC2. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line ADJG Identification 0 .3 Target Cell DN Table 689. . 3. TargetCellDN (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: 7.0. step 1 - References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Not possible..2.1 ADJI parameters Mobile Country Code Table 690.WCDMA RAN Parameters Table 689. 4. 3GPP Reference: 3GPP bulk CM specification 32. AdjiMCC Mobile Country Code AdjiMCC Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 An inter-frequency neighbour cell is identified with UTRAN Cell Identifier which is composed of Global RNC Identifier and Cell Identifier. which in turn consists of Mobile Country Code (MCC) and Mobile Network Code (MNC). Global RNC Identifier is composed of RNC Identifier and PLMN Identifier.2 7. Furthermore.622 v.0 ADJI HCConfiguration 3 . On-line 698 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . MNC consists of two or three digits.2.0 ADJI Identification 2 . AdjiMNC Mobile Network Code AdjiMNC Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Unique network identification within country.2 non-network and redefined network parameters Table 690. 4...RAC2. step 1 internal_value = gui_value / 1 References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible.622 v.0.2 Mobile Network Code Table 691. 3. MNC together with MCC identifies the PLMN uniquely (globally). AdjiMCC (Continued) Related parameters Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) NetAct Configurator (Regional) to RNC Location in GUI and/or MML commands: 7. 3GPP Reference: 3GPP bulk CM specification 32. On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 699 (756) . AdjiMNC (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7. 80. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line ADJI Identification 0 . step 1 - 700 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 691..2.. Distinguished Name of the corresponding object. TargetCellDN Target Cell DN TargetCellDN Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Pointer to the adjacency target WCEL or EWCE.3 Target Cell DN Table 692. 4.0 ADJS HCConfiguration 3 .RAC2. which consists of the Mobile Country Code (MCC). step 1 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Not possible. Furthermore. TargetCellDN (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: 7. On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 701 (756) .3 7. AdjsMCC Mobile Country Code AdjsMCC Mobile Country Code.622 v.2 non-network and redefined network parameters Table 692. the Global RNC Identifier is composed of the PLMN Identifier. MCC 1 An intra-frequency neighbour cell is identified with the UTRAN Cell Identifier. 3GPP Reference: 3GPP bulk CM specification 32.3. 3.. and the RNC Identifier. which is composed of the Global RNC Identifier and the Cell Identifier.1 ADJS parameters Mobile Country Code Table 693..0. the Mobile Network Code (MNC). 3.. AdjsMNC Mobile Network Code AdjsMNC Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Unique network identification within country. 4. step 1 internal_value = gui_value / 1 References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible.2 Mobile Network Code Table 694.622 v.WCDMA RAN Parameters Table 693. MNC together with MCC identifies the PLMN uniquely (globally). MNC consists of two or three digits. On-line 702 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 3GPP Reference: 3GPP bulk CM specification 32. AdjsMCC (Continued) Related parameters Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) NetAct Configurator (Regional) to RNC Location in GUI and/or MML commands: 7.0.. 3.0 ADJS Identification 2 . Distinguished Name of the corresponding object. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line ADJS Identification 0 .2 non-network and redefined network parameters Table 694. 80.3.3 Target Cell DN Table 695.RAC2. step 1 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 703 (756) ... TargetCellDN Target Cell DN TargetCellDN Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Pointer to the adjacency target WCEL or EWCE. AdjsMNC (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7. 360. TargetCellDN (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: 7..WCDMA RAN Parameters Table 695.4 7.1 Unknown 704 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .4.. step 0.1 internal_value = gui_value / 0. bearing Antenna bearing bearing Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters 1 Antenna direction ANTE <no group> 0 .1 ANTE parameters Antenna bearing Table 696. . 90 degree. bearing (Continued) Parameter relationships: Interface: NetAct Planner to NetAct Configurator (Regional) NetAct Configurator (Regional) to Optimizer Location in GUI and/or MML commands: 7.4.1 Unknown DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 705 (756) .RAC2. tilt Antenna tilt tilt Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: 1 Antenna tilt ANTE <no group> -90 . step 0.2 non-network and redefined network parameters Table 696.1 degree internal_value = gui_value / 0..2 Antenna tilt Table 697. 4 Correction Factor Table 699. typeName Antenna type name typeName Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: 1 Id name of the antenna type. corrFactor Correction Factor corrFactor Parameter name: Abbreviated name: 3 GPP name: 706 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . step 1 - Unknown 7.4.WCDMA RAN Parameters 7..3 Antenna type name Table 698. 32.4. ANTE <no group> 0 .. 100 dB.4. Multiplicity: Description: References: corrFactor (Continued) 1 Correction factor used in link budget.1 dB internal_value = gui_value / 0.RAC2.5 Ground Height Table 700.2 non-network and redefined network parameters Table 699.. ANTE <no group> DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 707 (756) . step 0. groundHeight Ground Height groundHeight Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: 1 Over-rides groundHeight in Site if present. Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: ANTE <no group> -100 .1 Unknown NetAct Planner to NetAct Configurator (Regional) NetAct Configurator (Regional) to Optimizer Location in GUI and/or MML commands: 7.. . step 0..01 m internal_value = gui_value / 0. 10000 m.01 m internal_value = gui_value / 0. step 0. ANTE <no group> -1000 . groundHeight (Continued) -500 .. height Height height Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions 1 Relative antenna height to the ground height.01 708 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 1000 m.4..WCDMA RAN Parameters Table 700.6 Height Table 701.01 Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: Unknown 7. ..7 Latitude Table 702. latitude Latitude latitude Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters 1 Absolute coordinate of the Antenna. step 1 internal_value = gui_value / 1 Unknown DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 709 (756) .2 non-network and redefined network parameters Table 701. 900000000. height (Continued) Unknown Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: 7.RAC2.4. ANTE <no group> -900000000 . ANTE <no group> -1800000000 .4. step 1 - Unknown 710 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .8 Longitude Table 703. 1800000000..WCDMA RAN Parameters Table 702.. longitude Longitude longitude Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: 1 Absolute coordinate of the antenna. latitude (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: 7. notes Notes notes Parameter name: Abbreviated name: 3 GPP name: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 711 (756) .9 Name Table 704. name Name name Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: 1 The name of managed object.4.. 80. ANTE <no group> 1 .4.10 Notes Table 705.RAC2.2 non-network and redefined network parameters 7. step 1 - On-line 7.. .11 Technology Table 706.. technology Technology technology Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: 1 Indicates the network technology the antenna is used in.WCDMA RAN Parameters Table 705. Multiplicity: Description: References: notes (Continued) 1 Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: ANTE <no group> 0 . 256 - Unknown 7. ANTE <no group> 0 (GSM). 1 (UMTS). 2 (GSM & UMTS) 712 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .4. 5 7.RAC2. technology (Continued) gui ==> internal 0 ==> 0 1 ==> 1 2 ==> 2 Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: 0 GSM Unknown NetAct Planner to NetAct Configurator (Regional) Optimizer to NetAct Configurator (Regional) NetAct Configurator (Regional) to Optimizer Location in GUI and/or MML commands: 7. 4.2 non-network and redefined network parameters Table 706.622 v.0 EWCE 3GPPIntN Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 713 (756) .0.1 EWCE parameters Cell Identifier Table 707. CId Cell Identifier CId Cell Identifier 1 The parameter identifies the cell within a RNC. 3GPP Reference: 3GPP bulk CM specification 32.5. .5. On-line NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.2 External WCDMA Cell Identifier Table 708... Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: EWCE Identification 0 . EWCEId External WCDMA Cell Identifier EWCEId ExternalUtranCellId 1 Unique identification of external WCDMA cell within a external cell collection.WCDMA RAN Parameters Table 707.. 65535. CId (Continued) 1 . 10 - 714 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . step 1 internal_value = gui_value / 1 Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Not possible. The LCR Id is unique within BTS.401. Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: 3GPP Reference: TS 25. UTRAN Iub Interface NBAP Signalling3GPP Reference: TS 25. In cases when configuration is initialized at the BTS. the signalling related to a cell is addressed using CID instead of the Local cell resource id. which consists of the HW required by one cell for transmission and receiving.3 Local Cell Resource Identifier Table 709.RAC2.5. UTRAN Overall Description DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 715 (756) . Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Unknown NetAct Planner to NetAct Configurator (Regional) NetAct Planner to NetAct Configurator (Global) Optimizer to NetAct Configurator (Regional) NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.433. With the Configuration Data message the Local cell resource can be associated to the cell identifier (C-ID) used at the radio interface. LcrId Local Cell Resource Identifier LcrId Local Cell Identifier 1 The Local cell resource is an object. Local cell resource id is used to address one particular local cell resource at the BTS.2 non-network and redefined network parameters Table 708. EWCEId (Continued) Not possible. .4 Location Area Code Table 710. 65535.. 268435455. 4. LAC Location Area Code LAC Location Area Code 1 This parameter contains the Location area code (LAC) of a WCDMA cell. LcrId (Continued) EWCE <no group> 0 .. step 1 internal_value = gui_value / 1 Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: Default value is not possible Not modifiable NetAct Planner to NetAct Configurator (Regional) 7. 3GPP Reference: 3GPP bulk CM specification 32.622 v. step 1 internal_value = gui_value / 1 Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: 716 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .5..WCDMA RAN Parameters Table 709.0.0 EWCE 3GPPIntN 1 . RAC2. If the maximum output power of the UE is lower than the value of the parameter. References: Managed object: Parameter group: Range and step: EWCE <no group> -50 . 33 dBm.. which the measurement result of the neighbour cell must exceed before the handover is possible.2 non-network and redefined network parameters Table 710.5 Maximum UE Transmission Power on DPCH Table 711. LAC (Continued) Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: On-line Not possible.. the RNC adds the power difference (dB value) to the minimum required CPICH RSCP level. step 1 dBm DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 717 (756) . UEtxPowerMaxDPCH Maximum UE Transmission Power on DPCH UEtxPowerMaxDPCH Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 This parameter indicates the maximum transmission power level that an UE may use on the DPCH in the neighbouring cell. 7. The RNC uses the parameter in the decision algorithm of inter-frequency handover.5. 6 Maximum UE Transmission Power on RACH Table 712. UEtxPowerMaxDPCH (Continued) internal_value = gui_value / 1 Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: 24 dBm Default value 24 dBm corresponds to the UE power class 4. which the measurement result of the neighbouring cell must exceed before the cell re-selection is possible.5. References: Managed object: Parameter group: EWCE <no group> 718 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 711. Handover Control On-line NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7. UEtxPowerMaxRACH Maximum UE Transmission Power on RACH UEtxPowerMaxRACH Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 This parameter indicates the maximum transmission power level that an UE can use when accessing the neighbouring cell on the RACH. If the maximum output power of the UE is lower than the value of the parameter. the UE adds the power difference (dB value) to the minimum required CPICH Ec/No level. The UE uses the parameter in the cell reselection procedure. 33 dBm. step 1 dBm internal_value = gui_value / 1 Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: 21 dBm Default value 21 dBm corresponds to the UE power class 4.RAC2.. step 1 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 719 (756) ..2 non-network and redefined network parameters Table 712. MCC consists of three digits. MCC together with MNC identifies the PLMN uniquely (globally). UEtxPowerMaxRACH (Continued) -50 .5. MCC Mobile Country Code MCC Mobile Country Code 1 Unique country identification. 3GPP Reference: 3GPP bulk CM specification 32. Handover Control On-line NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.0... 3.0 EWCE 3GPPIntN 3 .7 Mobile Country Code Table 713. 4.622 v. 3. MNC Mobile Network Code MNC Mobile Network Code 1 Unique network identification within country. 720 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . MCC (Continued) Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: On-line Not possible.5. 4.8 Mobile Network Code Table 714. step 1 internal_value = gui_value / 1 Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Not possible..0 EWCE 3GPPIntN 2 . 3GPP Reference: 3GPP bulk CM specification 32.622 v. MNC consists of two or three digits..WCDMA RAN Parameters Table 713. MNC together with MCC identifies the PLMN uniquely (globally).0. 7. MNC (Continued) Related functions Modification: Related parameters Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: On-line 7.0. 4.9 Name Table 715. step 1 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible.622 v. On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 721 (756) ..5.0 EWCE 3GPPIntN 1 . 80.RAC2. name Name name Name 1 Name of managed object. 3GPP Reference: 3GPP bulk CM specification 32.2 non-network and redefined network parameters Table 714.. WCDMA RAN Parameters Table 715. PriScrCode Primary Downlink Scrambling Code PriScrCode Primary Downlink Scrambling Code 1 Identifies the downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the Cell. step 1 internal_value = gui_value / 1 Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible.. 3GPP Reference: 3GPP bulk CM specification 32.622 v.0 EWCE 3GPPIntN 0 . On-line 722 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . 4. 511.0.5.10 Primary Downlink Scrambling Code Table 716.. name (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7. 11 RNC Identifier Table 717.0. 4..2 non-network and redefined network parameters Table 716. 3GPP Reference: 3GPP bulk CM specification 32.5.0 EWCE 3GPPIntN 1 .622 v. PriScrCode (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7..RAC2. 4095. step 1 internal_value = gui_value / 1 Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible. On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 723 (756) . RncId RNC Identifier RncId RNC Identifier 1 A unique identification for an RNC node within the UTRAN. WCDMA RAN Parameters Table 717. RncId (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.5.12 Routing Area Code Table 718. RAC Routing Area Code RAC Routing Area Code 1 The routing area code determines the Routing area within the location area to which the cell belongs to. 3GPP Reference: 3GPP bulk CM specification 32.622 v. 4.0.0 EWCE 3GPPIntN 0 ... 255, step 1 internal_value = gui_value / 1 Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible. On-line 724 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAC2.2 non-network and redefined network parameters Table 718. RAC (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.5.13 Service Area Code Table 719. SAC Service Area Code SAC Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 The Service Area Identifier (SAI) identifies an area consisting of one or more cells which belong to the same Location Area (LAI). The Service Area Identifier is composed of the PLMN Identifier, the Location Area Code (LAC) and the Service Area Code (SAC). References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line Default value is not possible EWCE <no group> 0 ... 65535, step 1 internal_value = gui_value / 1 DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 725 (756) WCDMA RAN Parameters Table 719. SAC (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.5.14 SITE ID Table 720. SITE ID Site ID siteId Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 This parameter identifies the SITE object that the EWCE iis assigned to. The parameter can be included in the plan file to be imported in RAC. The parameter is stored in the NetAct topology database only. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line 1 ... 32, step 1 EWCE 726 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAC2.2 non-network and redefined network parameters Table 720. SITE ID (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: CM Editor/Sites 7.5.15 Transmission Power Of The Primary CPICH Channel Table 721. PtxPrimaryCPICH Transmission Power Of The Primary CPICH Channel PtxPrimaryCPICH Transmission Power Of The Primary CPICH Channel 1 This is the transmission power of the primary common pilot channel. 3GPP Reference: 3GPP bulk CM specification 32.622 v. 4.0.0 EWCE 3GPPIntN -10 ... 50 dBm, step 0.1 dBm internal_value = gui_value / 0.1 Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible. On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 727 (756) WCDMA RAN Parameters Table 721. PtxPrimaryCPICH (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.5.16 Uarfcn Dl Table 722. UarfcnDl Uarfcn Dl UarfcnDl Uarfcn Dl 1 The carrier frequency is designated by the UTRA Absolute Radio Frequency Channel Number (UARFCN) downLink. 3GPP Reference: 3GPP bulk CM specification 32.622 v. 4.0.0 EWCE 3GPPIntN 0 ... 16383, step 1 internal_value = gui_value / 1 Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible. On-line 728 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAC2.2 non-network and redefined network parameters Table 722. UarfcnDl (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.5.17 Uarfcn Ul Table 723. UarfcnUl Uarfcn Ul UarfcnUl Uarfcn Ul 1 The carrier frequency is designated by the UTRA Absolute Radio Frequency Channel Number (UARFCN), upLink. Nokia NBAP, TX-RX frequency separation is always 190 MHz and UARFCN for uplink is thus not needed/used (i.e. if external cell is a proxy of Nokia rea 3GPP Reference: 3GPP bulk CM specification 32.622 v. 4.0.0 EWCE 3GPPIntN 0 ... 16383, step 1 internal_value = gui_value / 1 Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible. On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 729 (756) WCDMA RAN Parameters Table 723. UarfcnUl (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.5.18 WBTS Identifier Table 724. WBTSId WBTS Identifier WBTSId nodeBFunctionId 1 This parameter identifies the WBTS uniquely under its controlling RNC. Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line Default value is not possible EWCE Identification 1 ... 65534, step 1 internal_value = gui_value / 1 730 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAC2.2 non-network and redefined network parameters Table 724. WBTSId (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: NetAct Planner to NetAct Configurator (Regional) 7.6 7.6.1 RNC parameters Mobile Country Code Table 725. MCC Mobile Country Code MCC Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Unique country identification. MCC consists of three digits. MCC together with MNC identifies the PLMN uniquely (globally). References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line Not possible. RNC Identification 3 ... 3, step 1 - DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 731 (756) WCDMA RAN Parameters Table 725. MCC (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) NetAct Configurator (Regional) to RNC Location in GUI and/or MML commands: 7.6.2 Mobile Network Code Table 726. MNC Mobile Network Code MNC Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Unique network identification within country. MNC consists of two or three digits. MNC together with MCC identifies the PLMN uniquely (globally). 3GPP Reference: 3GPP bulk CM specification 32.622 v. 4.0.0 RNC Identification 2 ... 3, step 1 internal_value = gui_value / 1 References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible. On-line 732 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAC2.2 non-network and redefined network parameters Table 726. MNC (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.6.3 Name Table 727. name Name name Name 1 Name of managed object. The maximum length of the name is 80 char. NOTE : has to be same for 3GPP ManagementElement RNC and rncFunction. 3GPP Reference: 3GPP bulk CM specification 32.622 v. 4.0.0 RNC 3GPPIntN 1 ... 80, step 1 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Not possible. On-line DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 733 (756) WCDMA RAN Parameters Table 727. name (Continued) Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.6.4 SITE ID Table 728. SITE ID Site ID siteId Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 This parameter identifies the SITE object that the RNC is assigned to. The parameter can be included in the plan file to be imported in RAC. The parameter is stored in the NetAct topology database only. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line 1 ... 32, step 1 RNC 734 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAC2.2 non-network and redefined network parameters Table 728. SITE ID (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: CM Editor/Sites 7.7 7.7.1 SITE parameters SITE ID Table 729. SITE ID Site ID siteId Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 This parameter identifies the SITE object uniquely in the NetAct topology database. This parameter is mandatory in creation. The parameter can be included in the plan file to be imported in RAC. Once imported, the SITE object is created and the ID parameter stored in the NetAct topology database only. Therefore, SITE is not visible in the CM Editor actual configuration tree, for example. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes 1 ... 32, step 1 SITE DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 735 (756) WCDMA RAN Parameters Table 729. SITE ID (Continued) Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: CM Editor/Sites Not modifiable 7.7.2 Name Table 730. Name Name name Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 SITE name. The parameter can be included in the plan file to be imported in RAC. The parameter is stored in the NetAct topology database only. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line 1 ... 80, step 1 SITE 736 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en RAC2.2 non-network and redefined network parameters Table 730. Name (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: CM Editor/Sites 7.7.3 Address Table 731. Address Address streetAddress Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Descriptive address of the SITE. The parameter can be included in the plan file to be imported in RAC. The parameter is stored in the NetAct topology database only. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: CM Editor/Sites On-Line 1 ... 80, step 1 SITE DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 737 (756) WCDMA RAN Parameters 7.7.4 Latitude Table 732. Latitude Latitude latitude Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Latitude of the physical equipment’s location. The parameter can be included in the plan file to be imported in RAC. The parameter is stored in the NetAct topology database only. Assuming the coordinates for latitude and longitude are measured in degrees, minutes and seconds, the coordinate values are calculated according to the following formula [NMS2000IF]: coordinate = (degrees + minutes / 60 + seconds / 3600) * 1.0e7 The origin of latitude and longitude is in the intersection of the Greenwich and the equator. The latitude is negative to the south of the equator and positive to the north of it. The longitude is positive to the east of the Greenwich and negative to the west of it References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line -2147483647 ... 2147483647, step 1 SITE 738 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en Assuming the coordinates for latitude and longitude are measured in degrees. minutes and seconds.RAC2.2 non-network and redefined network parameters Table 732. 2147483647. The latitude is negative to the south of the equator and positive to the north of it. The longitude is positive to the east of the Greenwich and negative to the west of it References: Managed object: Parameter group: Range and step: -2147483647 .7.0e7 The origin of latitude and longitude is in the intersection of the Greenwich and the equator. Latitude (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: CM Editor/Sites 7.5 Longitude Table 733.. The parameter is stored in the NetAct topology database only. the coordinate values are calculated according to the following formula [NMS2000IF]: coordinate = (degrees + minutes / 60 + seconds / 3600) * 1.. step 1 SITE DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 739 (756) . Longitude Longitude longitude Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Longitude of the physical equipment’s location. The parameter can be included in the plan file to be imported in RAC. The parameter is stored in the NetAct topology database only. 2147483647. The measurement unit is meter. The parameter can be included in the plan file to be imported in RAC.WCDMA RAN Parameters Table 733.7. step 1 SITE 740 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. Ground Height Ground Height groundHeight Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Height of the physical equipment’s location above sea level. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes -2147483647 . Longitude (Continued) Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: CM Editor/Sites On-line 7..6 Ground height Table 734. . name Name name Name 1 Name of managed object.. 3GPP Reference: 3GPP bulk CM specification 32. The maximum length of the name is 80 char. DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 741 (756) . 4.8 7.622 v.0 WBTS 3GPPIntN 1 . Ground Height (Continued) Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: CM Editor/Sites On-line 7. 80.8.1 WBTS parameters Name Table 735.2 non-network and redefined network parameters Table 734. step 1 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Not possible.RAC2. NOTE : has to be same for 3GPP ManagementElement NodeB and nodeBFunction.0. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters On-line 1 . 32..8. The parameter can be included in the plan file to be imported in RAC.. SITE ID Site ID siteId Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 This parameter identifies the SITE object that the WBTS is assigned to. The parameter is stored in the NetAct topology database only. step 1 WBTS 742 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .WCDMA RAN Parameters Table 735. name (Continued) On-line Modification: Related parameters Parameter relationships: Interface: NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: 7.2 SITE ID Table 736. SITE ID (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: CM Editor/Sites 7. feederLength Feeder Length feederLength Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters 1 WCAL <no group> 0 .9.2 non-network and redefined network parameters Table 736..9 7.01 Unknown DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 743 (756) .RAC2. step 0..01 m internal_value = gui_value / 0. 1000 m.1 WCAL parameters Feeder Length Table 737. feederLength (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: 7..WCDMA RAN Parameters Table 737.1 dB internal_value = gui_value / 0.2 Feeder Loss Table 738.. 100 dB.01 744 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . step 0. feederLoss Feeder Loss feederLoss Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 This information is normally copied from feeder cable information.9. References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: Unknown WCAL <no group> 0 . 01 Unknown 7..2 non-network and redefined network parameters 7. 100.4 Feeder Type Table 740. feederType Feeder Type feederType Parameter name: Abbreviated name: 3 GPP name: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 745 (756) .3 Feeder Loss Per Metre Table 739.RAC2.9. WCAL <no group> 0 .9. feederLossPerMetre Feeder Loss Per Metre feederLossPerMetre Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: 1 Feeder cable loss per meter. step 0..01 internal_value = gui_value / 0. .9. Distinguished Name of the corresponding object. Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: WCAL <no group> 0 . References: Managed object: Parameter group: WCAL Identification 746 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . Multiplicity: Description: References: feederType (Continued) 1 Feeder cable reference. linkedCellDN Linked Cell DN linkedCellDN Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: 1 Pointer to the WCEL or EWCE.WCDMA RAN Parameters Table 740. 32 - Unknown 7..5 Linked Cell DN Table 741. step 1 - Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: On-line 7. 1 (ON) gui ==> internal 0 ==> 0 1 ==> 1 Default value: Default value notes DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 747 (756) . WCAL <no group> 0 (OFF)..RAC2. linkedCellDN (Continued) 0 .9.6 Mast Head Amplifier Table 742.. 80. mha Mast Head Amplifier mha Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: 1 Tells if there is mast head amplifier.2 non-network and redefined network parameters Table 741. 9. mhaGain Mast Head Amplifier Gain mhaGain Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters 1 WCAL <no group> internal_value = gui_value / 0.01 Unknown 748 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . mha (Continued) Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: Unknown 7.7 Mast Head Amplifier Gain Table 743.WCDMA RAN Parameters Table 742. mhaGain (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: 7. WCAL <no group> 0 . 100 dB.1 Unknown DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 749 (756) . step 0. mhaNoise Mast Head Amplifier Noise mhaNoise Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: 1 Noise figure of mast head amplifier.1 dB internal_value = gui_value / 0.8 Mast Head Amplifier Noise Table 744..9..RAC2.2 non-network and redefined network parameters Table 743. 10 Name Table 746.WCDMA RAN Parameters 7.. mhaType Mast Head Amplifier Type mhaType Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: 1 WCAL <no group> 0 . name Name name Parameter name: Abbreviated name: 3 GPP name: 750 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .. 32 - Unknown 7.9.9 Mast Head Amplifier Type Table 745.9. 11 Receiver Diversity Table 747. 1 (ON) DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 751 (756) .. rxDiversity Receiver Diversity rxDiversity Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: 1 WCAL <no group> 0 (OFF).. step 1 - On-line 7.9.2 non-network and redefined network parameters Table 746.RAC2. 80. Multiplicity: Description: References: name (Continued) 1 The name of managed object. Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: WCAL <no group> 1 . rxDivType Receiver Diversity Type rxDivType Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: 1 Diversity Type of the Receiver WCAL <no group> 0 (2-way). rxDiversity (Continued) gui ==> internal 0 ==> 0 1 ==> 1 Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: Unknown 7.12 Receiver Diversity Type Table 748. 1 (4-way) gui ==> internal 0 ==> 0 1 ==> 1 Default value: Default value notes 752 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .9.WCDMA RAN Parameters Table 747. 13 Transmitter diversity Table 749. 1 (ON) gui ==> internal 0 ==> 0 1 ==> 1 Default value: Default value notes Related functions Modification: Related parameters Unknown DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 753 (756) .2 non-network and redefined network parameters Table 748. txDiversity Transmitter diversity txDiversity Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: 1 WCAL <no group> 0 (OFF). rxDivType (Continued) Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: Unknown 7.9.RAC2. 14 Transmitter Diversity Type Table 750.WCDMA RAN Parameters Table 749.9. 1 (TXAA) gui ==> internal 0 ==> 0 1 ==> 1 Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Location in GUI and/or MML commands: Unknown 754 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en . txDivType Transmitter Diversity Type txDivType Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: 1 WCAL <no group> 0 (STTD). txDiversity (Continued) Parameter relationships: Interface: Location in GUI and/or MML commands: 7. step 1 - Parameter name: Abbreviated name: 3 GPP name: Multiplicity: Description: References: Managed object: Parameter group: Range and step: Formula for getting internal value: Default value: Default value notes Related functions Modification: Related parameters Parameter relationships: Interface: Not possible.. On-line NetAct Configurator (Regional) to NetAct Configurator (Global) NetAct Configurator (Regional) to Global NMS (N-IF) Location in GUI and/or MML commands: DN00270387 Issue 5-2 en © Nokia Corporation Nokia Proprietary and Confidential 755 (756) .RAC2.0 WCEL 3GPPIntN 1 .0.622 v.10 7. 80.10.. name Name name Name 1 Name of managed object.1 WCEL parameters Name Table 751. 3GPP Reference: 3GPP bulk CM specification 32. 4.2 non-network and redefined network parameters 7. WCDMA RAN Parameters 756 (756) © Nokia Corporation Nokia Proprietary and Confidential DN00270387 Issue 5-2 en .


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