Content for TS 36.133 Word version: 18.6.0
7 Timing and signalling characteristics p. 294
7.1 UE transmit timing p. 294
7.1.1 Introduction p. 294
7.1.2 Requirements p. 294
7.2 UE timer accuracy p. 296
7.2.1 Introduction p. 296
7.2.2 Requirements p. 296
7.3 Timing Advance p. 296
7.3.1 Introduction p. 296
7.3.2 Requirements p. 296
7.4 Cell phase synchronization accuracy (TDD) p. 297
7.4.1 Definition p. 297
7.4.2 Minimum requirements p. 297
7.5 Synchronization Requirements for E-UTRAN to 1xRTT and HRPD Handovers p. 298
7.5.1 Introduction p. 298
7.5.2 eNodeB Synchronization Requirements p. 298
7.5.2.1 Synchronized E-UTRAN p. 298
7.5.2.2 Non-Synchronized E-UTRAN p. 298
7.6 Radio Link Monitoring p. 298
7.6.1 Introduction p. 298
7.6.2 Requirements p. 300
7.7 SCell Activation and Deactivation Delay for E-UTRA Carrier Aggregation p. 303
7.7.1 Introduction p. 303
7.7.2 SCell Activation Delay Requirement for Deactivated SCell p. 303
7.7.3 SCell Deactivation Delay Requirement for Activated SCell p. 304
7.7.4 SCell Activation Delay Requirement for Deactivated SCell with Multiple Downlink SCells p. 305
7.7.5 SCell Deactivation Delay Requirement for Activated SCell with Multiple Downlink SCells p. 307
7.7.6 SCell Activation Delay Requirement for Deactivated PUCCH SCell p. 308
7.7.7 SCell Activation Delay Requirement for Deactivated PUCCH SCell with Multiple SCells p. 308
7.7.8 SCell Deactivation Delay Requirement for Activated PUCCH SCell p. 309
7.7.9 SCell Deactivation Delay Requirement for Activated PUCCH SCell with Multiple SCells p. 309
7.7.10 SCell Activation Delay Requirement for Deactivated SCell under Frame Structure 3 p. 309
7.7.11 SCell Deactivation Delay Requirement for Activated SCell under Frame Structure 3 p. 311
7.7.12 SCell Activation Delay Requirement for Deactivated SCell with Multiple Downlink SCells under Frame Structure 3 p. 311
7.7.13 SCell Deactivation Delay Requirement for Activated SCell with Multiple Downlink SCells under Frame Structure 3 p. 312
7.7.14 SCell Activation Delay Requirement for Dormant SCell p. 313
7.7.15 SCell Hibernation Delay Requirement for Activated SCell p. 314
7.7.16 SCell Hibernation Delay Requirement for Deactivated SCell p. 315
7.7.17 SCell Deactivation Delay Requirement for Dormant SCell p. 316
7.7.18 Direct SCell Activation and Hibernation Delay Requirement p. 316
7.7.19 Direct SCell Activation and Hibernation Delay Requirement at RRC Reconfiguration during Handover p. 318
7.8 Interruptions with Carrier Aggregation p. 320
7.8.1 Introduction p. 320
7.8.2 Requirements p. 321
7.8.2.1 Interruptions at SCell addition/release for intra-band CA p. 321
7.8.2.2 Interruptions at SCell addition/release for inter-band CA p. 321
7.8.2.3 Interruptions at SCell activation/deactivation for intra-band CA p. 321
7.8.2.4 Interruptions at SCell activation/deactivation for inter-band CA p. 321
7.8.2.5 Interruptions during measurements on SCC for intra-band CA p. 321
7.8.2.6 Interruptions during measurements on SCC for inter-band CA p. 321
7.8.2.7 Interruptions at SCell addition/release with multiple downlink SCells p. 322
7.8.2.8 Interruptions at SCell activation/deactivation with multiple downlink SCells p. 322
7.8.2.9 Interruptions during measurements on SCC with multiple downlink SCells p. 322
7.8.2.10 Interruptions at overlapping addition/release/activation/deactivation of SCells p. 323
7.8.2.11 Interruptions during RSSI measurements on one SCC under Frame Structure 3 p. 323
7.8.2.12 Interruptions during RSSI measurements on multiple SCCs under Frame Structure 3 p. 324
7.8.2.13 Interruptions at SRS carrier based switching p. 324
7.8.2.14 Interruptions at SCell activation and deactivation of dormant SCell for intra-band CA p. 325
7.8.2.15 Interruptions at SCell activation and deactivation of dormant SCell for inter-band CA p. 325
7.8.2.16 Interruptions at SCell activation and deactivation of multiple dormant SCells p. 325
7.8.2.17 Interruptions during CQI measurement on dormant SCell p. 326
7.8.2.18 Interruptions during RRM measurement on dormant SCell for intra-band CA p. 326
7.8.2.19 Interruptions during RRM measurement on dormant SCell for inter-band CA p. 326
7.8.2.20 Interruptions at SCell hibernation p. 326
7.8.2.21 Interruptions at direct SCell activation and hibernation p. 327
7.8.2.22 Interruptions during inter-RAT NR measurements without measurement gap p. 327
7.9 Maximum Transmission Timing Difference in Carrier Aggregation p. 328
7.9.1 Introduction p. 328
7.9.2 Minimum Requirements for Interband Carrier Aggregation p. 328
7.9.3 Minimum Requirements for Intraband non-contiguous Carrier Aggregation p. 328
7.9.4 Minimum Requirements for Inter-Band Carrier Aggregation under Frame Structure 3 p. 329
7.10 Interruptions with RSTD Measurements with Carrier Aggregation p. 329
7.10.1 Introduction p. 329
7.10.2 Requirements p. 329
7.10.2.1 Interruptions during RSTD measurements on SCC for intra-band CA with one downlink SCell p. 329
7.10.2.2 Interruptions during RSTD measurements on SCC for inter-band CA with one downlink SCell p. 329
7.10.2.3 Interruptions during RSTD measurements on SCC with multiple downlink SCells p. 330
7.10.2.4 Interruptions at overlapping RSTD and inter-frequency measurements p. 330
7.11 Radio Link Monitoring for UE Category 0 p. 330
7.11.1 Introduction p. 330
7.11.2 Requirements for FD-FDD and TDD p. 332
7.11.2.1 Minimum requirement when no DRX is used p. 332
7.11.2.2 Minimum requirement when DRX is used p. 332
7.11.2.3 Minimum requirement at transitions p. 333
7.11.3 Requirements for HD-FDD p. 333
7.12 Interruptions with Dual Connectivity p. 334
7.12.1 Introduction p. 334
7.12.2 Requirements p. 334
7.12.2.1 Interruptions at PSCell addition/release p. 334
7.12.2.2 Interruptions at transitions between active and non-active during DRX p. 335
7.12.2.3 Interruptions at transitions from non-DRX to DRX p. 335
7.12.2.4 Interruptions at SCell addition/release p. 335
7.12.2.5 Interruptions at SCell activation/deactivation p. 335
7.12.2.6 Interruptions during measurements on SCC p. 336
7.12.2.7 Interruptions at SRS carrier based switching p. 336
7.13 Cell phase synchronization accuracy (Synchronized mode of dual connectivity) p. 337
7.13.1 Definition p. 337
7.13.2 Minimum requirements p. 337
7.14 PSCell Addition and Release Delay for E-UTRA Dual Connectivity p. 337
7.14.1 Introduction p. 337
7.14.2 PSCell Addition Delay Requirement p. 337
7.14.3 PSCell Release Delay Requirement p. 338
7.15 Maximum Receive Timing Difference in Dual Connectivity p. 338
7.16 Proximity-based Services p. 339
7.16.1 Introduction p. 339
7.16.2 Requirements p. 339
7.16.3 Interruptions with ProSe p. 339
7.16.3.1 Interruptions at ProSe Direct Discovery configuration p. 340
7.16.3.2 Interruptions at ProSe Direct Communication configuration p. 340
7.16.3.3 Interruptions during ProSe Direct Discovery p. 340
7.16.3.4 Interruptions during ProSe Direct Discovery with discovery gaps p. 340
7.16.3.5 Interruptions during ProSe Direct Communication p. 341
7.16.4 Cell reselection for ProSe Direct Discovery on non-serving frequency p. 341
7.16.4.1 Measurement and evaluation of selected cell p. 341
7.16.4.2 Measurement of intra-frequency E-UTRAN cells p. 341
7.16.5 Selection / Reselection of ProSe relay UE p. 342
7.16.6 ProSe operation under deactivated SCell p. 342
7.17 Maximum Transmission Timing Difference in Dual Connectivity p. 343
7.17.1 Introduction p. 343
7.17.2 Minimum Requirements for maximum transmission timing difference Inter-band Dual Connectivity p. 343
7.18.1 Introduction p. 343
7.18.2 SCell Activation Delay Requirement for Deactivated SCell p. 343
7.18.3 SCell Deactivation Delay Requirement for Activated SCell p. 343
7.19 Radio Link Monitoring for UE Category M1 p. 343
7.19.1 Introduction p. 343
7.19.2 Requirements for FD-FDD and TDD CE mode A p. 344
7.19.2.1 Minimum requirement when no DRX is used p. 346
7.19.2.2 Minimum requirement when DRX is used p. 347
7.19.2.3 Minimum requirement at transitions p. 348
7.19.3 Requirements for HD-FDD with CE mode A p. 348
7.19.3.1 Minimum requirement when no DRX is used p. 348
7.19.3.2 Minimum requirement when DRX is used p. 348
7.19.3.3 Minimum requirement at transitions p. 350
7.19.4 Requirements for FD-FDD and TDD with CE mode B p. 350
7.19.4.1 Minimum requirement when no DRX is used p. 352
7.19.4.2 Minimum requirement when DRX is used p. 353
7.19.4.3 Minimum requirement at transitions p. 354
7.19.5 Requirements for HD-FDD with CE mode B p. 354
7.19A Radio Link Monitoring for UE Category M1 for Satellite Access p. 356
7.19A.1 Introduction p. 356
7.19A.2 Requirements for FD-FDD and CE mode A p. 356
7.19A.2.1 Minimum requirement when no DRX is used p. 358
7.19A.2.2 Minimum requirement when DRX is used p. 359
7.19A.2.3 Minimum requirement at transitions p. 360
7.19A.3 Requirements for HD-FDD with CE mode A p. 360
7.19A.3.1 Minimum requirement when no DRX is used p. 360
7.19A.3.2 Minimum requirement when DRX is used p. 360
7.19A.3.3 Minimum requirement at transitions p. 362
7.19A.4 Requirements for HD-FDD with CE mode B p. 362
7.20 UE transmit timing for NB-IoT p. 363
7.20.1 Introduction p. 363
7.20.2 Requirements p. 364
7.20A UE transmit timing for NB-IoT for Satellite Access p. 364
7.20A.1 Introduction p. 364
7.20A.2 Requirements p. 364
7.21 UE timer accuracy for NB-IoT p. 365
7.21.1 Introduction p. 365
7.21.2 Requirements p. 365
7.21A UE timer accuracy for NB-IoT for Satellite Access p. 366
7.21A.1 Introduction p. 366
7.21A.2 Requirements p. 366
7.22 Timing Advance for NB-IoT p. 366
7.22.1 Introduction p. 366
7.22.2 Requirements p. 366
7.22A Timing Advance for NB-IoT for Satellite Access p. 367
7.22A.1 Introduction p. 367
7.22A.2 Requirements p. 367
7.23 Radio Link Monitoring for Category NB1 UE p. 367
7.23.1 Introduction p. 367
7.23.2 Requirements for Category NB1 UE p. 367
7.23A Radio Link Monitoring for Category NB-IoT UE for Satellite Access p. 369
7.23A.1 Introduction p. 369
7.23A.2 Requirements for Category NB1 UE p. 369
7.24 UE transmit timing for Category M1 p. 371
7.24.1 Introduction p. 371
7.24.2 Requirements p. 371
7.24A UE transmit timing for Category M1 for Satellite Access p. 372
7.24A.1 Introduction p. 372
7.24A.2 Requirements p. 372
7.25 Cell phase synchronization accuracy for MBMS services (FDD) p. 373
7.25.1 Definition p. 373
7.25.2 Minimum requirements p. 373
7.26 UE transmit timing for Category M2 p. 374
7.26.1 Introduction p. 374
7.26.2 Requirements p. 374
7.27 UE timer accuracy for category M1 p. 374
7.27.1 Introduction p. 374
7.27.2 Requirements p. 374
7.27A UE timer accuracy for category M1 for Satellite Access p. 374
7.27A.1 Introduction p. 374
7.27A.2 Requirements p. 374
7.28 Timing Advance for Category M1 p. 375
7.28.1 Introduction p. 375
7.28.2 Requirements p. 375
7.28A Timing Advance for Category M1 for Satellite Access p. 375
7.28A.1 Introduction p. 375
7.28A.2 Requirements p. 375
7.29 Interruptions requirements with FeMBMS p. 375
7.29.1 Introduction p. 375
7.29.2 Requirements p. 375
7.30 Numerology switching delay requirements with FeMBMS p. 376
7.30.1 Introduction p. 376
7.30.2 Requirements p. 376
7.31 NR PSCell Addition and Release Delay for E-UTRA - NR Dual Connectivity p. 376
7.31.1 Introduction p. 376
7.31.2 NR PSCell Addition Delay Requirement p. 376
7.31.3 NR PSCell Release Delay Requirement p. 377
7.31A Addition and Release Delay of NR PSCell Operating with CCA for E-UTRA - NR Dual Connectivity p. 377
7.31A.1 Introduction p. 377
7.31A.2 NR PSCell Addition Delay Requirement p. 377
7.31A.3 NR PSCell Release Delay Requirement p. 378
7.32 Interruptions with EN-DC p. 379
7.32.1 Introduction p. 379
7.32.2 Requirements p. 379
7.32.2.1 Interruptions at PSCell addition/release p. 379
7.32.2.2 Interruptions at transitions between active and non-active during DRX p. 379
7.32.2.3 Interruptions at transitions from non-DRX to DRX p. 380
7.32.2.4 Interruptions at SCell addition/release p. 380
7.32.2.5 Interruptions at SCell activation/deactivation p. 380
7.32.2.6 Interruptions during measurements on SCC p. 381
7.32.2.6.1 Interruptions during measurements on deactivated NR SCC p. 381
7.32.2.6.2 Interruptions during measurements on deactivated E-UTRA SCC p. 381
7.32.2.6.3 Interruptions during CQI measurements on dormant E-UTRA SCell p. 381
7.32.2.6.4 Interruptions during RRM measurements on dormant E-UTRA SCC p. 381
7.32.2.7 Interruptions at active BWP switching p. 381
7.32.2.8 Interruptions at SCell activation and deactivation of dormant SCell p. 382
7.32.2.9 Interruptions at SCell activation and deactivation of multiple dormant SCell p. 382
7.32.2.10 Interruptions at SCell hibernation p. 382
7.32.2.11 Interruptions at direct SCell activation and hibernation p. 382
7.32.2.12 DL Interruptions at UE switching between two uplink carriers p. 383
7.32.2.13 Interruptions at NR SRS carrier based switching p. 383
7.32.2.14 Interruptions at NR SCell dormancy p. 384
7.32.2.14.1 Interruptions due to NR SCell dormancy switch p. 384
7.32.2.14.2 Interruptions due to CSI and RRM measurements during SCell dormancy p. 384
7.32.2.15 Interruption during NR measurement with autonomous gaps p. 384
7.32.2.16 Interruptions at SRS carrier based switching p. 385
7.32.2.17 Interruptions at SCG activation/deactivation p. 385
7.32.2.18 Interruptions due to NR SRS antenna port switching p. 385
7.32.2.19 Interruptions at fast SCell activation/deactivation p. 386
7.32.2.20 Interruptions due to RRM measurements on deactivated NR SCG p. 386
7.33 Maximum Transmit/Receive Timing Difference in Carrier Aggregation for sTTI and 1ms-TTI with 3 subframe HARQ processing p. 387
7.33.1 Introduction p. 387
7.33.2 Requirements p. 387
7.34 Void
7.35 Interruptions with SFTD measurements p. 387
7.35.1 Introduction p. 387
7.35.2 Requirements p. 387
7.36 Interruptions with NE-DC p. 388
7.36.1 Introduction p. 388
7.36.2 Requirements p. 388
7.36.2.1 Interruptions at transitions between active and non-active during DRX p. 388
7.36.2.2 Interruptions at transitions from non-DRX to DRX p. 388
7.36.2.3 Interruptions at SCell addition/release p. 388
7.36.2.4 Interruptions at SCell activation/deactivation p. 389
7.36.2.5 Interruptions during measurements on SCC p. 389
7.36.2.5.1 Interruptions during measurements on deactivated NR SCC p. 389
7.36.2.5.2 Interruptions during measurements on deactivated E-UTRA SCC p. 389
7.36.2.5.3 Interruptions during CQI measurements on dormant E-UTRA SCell p. 389
7.36.2.5.4 Interruptions during RRM measurements on dormant E-UTRA SCC p. 390
7.36.2.6 Interruptions at active BWP switching p. 390
7.36.2.7 Interruptions at SCell activation and deactivation of dormant SCell p. 391
7.36.2.8 Interruptions at SCell activation and deactivation of multiple dormant SCell p. 391
7.36.2.9 Interruptions at SCell hibernation p. 391
7.36.2.10 Interruptions at direct SCell activation and hibernation p. 391
7.36.2.11 Interruptions at NR SRS carrier based switching p. 391
7.36.2.12 Interruptions at NR SCell dormancy p. 392
7.36.2.12.1 Interruptions due to NR SCell dormancy switch p. 392
7.36.2.12.2 Interruptions due to CSI and RRM measurements during SCell dormancy p. 392
7.36.2.13 Interruption during E-UTRA measurement with autonomous gaps p. 392
7.36.2.14 Interruption during NR measurement with autonomous gaps p. 393
7.36.2.15 Interruptions at SRS carrier based switching p. 393
7.36.2.16 Interruptions due to NR SRS antenna port switching p. 394
7.37 Interruptions during NR measurement with autonomous gaps p. 394
7.37.1 Introduction p. 394
7.37.2 Requirements p. 395
7.38 SCG Activation and Deactivation Delay p. 395
