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TS 38.521-4
5G New Radio —
User Equipment Conformance Specification –
Radio Transmission and Reception
Part 4: Performance

3GPP‑Page   ETSI‑search
V18.8.0 (PDF)2025/09  1467 p.
V17.5.0  2023/12  23 p.
V16.14.0  2022/12  19 p.
V15.2.0  2021/06  11 p.
Rapporteur:
Mr. Balasubramanian, Vijay
Qualcomm UK Ltd

full Table of Contents for  TS 38.521-4  Word version:  18.8.0

1Scope  p. 23
2References  p. 23
3Definition of terms, symbols and abbreviations  p. 24
3.1Terms  p. 24
3.2Symbols  p. 25
3.3Abbreviations  p. 25
4General  p. 27
4.1Relationship between minimum requirements and test requirements  p. 27
4.2Applicability of minimum requirements  p. 27
4.3Specification suffix information  p. 28
4.4Conducted requirements  p. 28
4.4.0Introduction  p. 28
4.4.1Reference point  p. 28
4.4.2SNR definition  p. 28
4.4.3Noc  p. 29
4.4.3.1Introduction  p. 29
4.4.3.2Noc for NR operating bands in FR1  p. 29
4.4.3.2.1Derivation of Noc values for NR operating bands in FR1  p. 29
4.4.4Es  p. 29
4.4.4.1Introduction  p. 29
4.4.4.2Es for NR operating bands in FR1  p. 30
4.4.4.2.1Derivation of Es values for NR operating bands in FR1  p. 30
4.4.5SINR definition  p. 30
4.5Radiated requirements  p. 31
4.5.0Introduction  p. 31
4.5.1Reference point  p. 31
4.5.2SNR definition  p. 31
4.5.3Noc  p. 32
4.5.3.1Introduction  p. 32
4.5.3.2Noc for NR operating bands in FR2  p. 32
4.5.3.3Derivation of Noc values for NR operating bands in FR2  p. 32
4.5.4Angle of arrival  p. 33
4.5.5Es  p. 33
4.6Test coverage across 5G NR connectivity options  p. 33
5Demodulation performance requirements (Conducted requirements)  p. 34
5.1General  p. 34
5.1.1Applicability of requirements  p. 34
5.1.1.1General  p. 34
5.1.1.2Applicability of requirements for different number of RX antenna ports  p. 34
5.1.1.3Applicability of requirements for optional UE features  p. 35
5.1.1.4Applicability of requirements for mandatory UE features with capability signalling  p. 40
5.1.1.5Applicability of CA requirements  p. 42
5.1.1.5.1Definition of CA capability  p. 42
5.1.1.5.2Applicability and test rules for different CA configurations and bandwidth combination sets  p. 43
5.1.1.5.3Applicability rule and antenna connection for CA tests with 4 RX  p. 44
5.1.1.5.4Applicability of different requirements for HST  p. 44
5.1.1.5.5Applicability and test rules for different CA configurations and bandwidth combination sets for 8Rx UE  p. 46
5.1.1.5.6Applicability rule and antenna connection for CA tests with 8 RX  p. 48
5.1.1.5.7Applicability rule for optional UE features for 8Rx  p. 49
5.1.1.6Applicability and test rules for PDSCH performance requirements with power imbalance for intra-band contiguous CA  p. 49
5.1.1.7Applicability of different requirements for HST  p. 49
5.1.1.8Applicability of different requirements with Multi-TRxP  p. 50
5.1.1.9Applicability of requirements for PDSCH on bands with shared spectrum access  p. 51
5.1.1.10Applicability of requirements for PDSCH with inter cell interference  p. 51
5.1.1.11Applicability of requirements for RedCap  p. 51
5.1.1.12Applicability of requirements for ATG  p. 52
5.1.1.14Applicability of requirements for eRedCap  p. 54
5.2PDSCH demodulation requirements  p. 54
5.2.11RX requirements  p. 57
5.2.1.1FDD  p. 57
5.2.1.1.11Rx FDD FR1 PDSCH performance for RedCap  p. 57
5.2.1.1.21Rx FDD FR1 PDSCH performance for eRedCap  p. 60
5.2.1.2TDD  p. 64
5.2.1.2.11Rx TDD FR1 PDSCH performance for RedCap  p. 64
5.2.1.2.21Rx TDD FR1 PDSCH performance for eRedCap  p. 67
5.2.22RX requirements  p. 72
5.2.2.1FDD  p. 72
5.2.2.1.12Rx FDD FR1 PDSCH mapping Type A performance  p. 72
5.2.2.1.1_12Rx FDD FR1 PDSCH mapping Type A performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 74
5.2.2.1.1_22Rx FDD FR1 PDSCH mapping Type A performance - 2x2 MIMO with enhanced receiver type 1 for both SA and NSA  p. 78
5.2.2.1.1_32Rx FDD FR1 PDSCH mapping Type A performance - 2x2 MIMO with baseline receiver for DL1024QAM for both SA and NSA  p. 79
5.2.2.1.1_42Rx FDD FR1 PDSCH mapping Type A performance - 2x2 MIMO with enhanced DMRS for both SA and NSA  p. 81
5.2.2.1.22Rx FDD FR1 PDSCH mapping Type A and CSI-RS overlapped with PDSCH performance  p. 82
5.2.2.1.2_12Rx FDD FR1 PDSCH mapping Type A and CSI-RS overlapped with PDSCH performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 83
5.2.2.1.32Rx FDD FR1 PDSCH mapping Type B performance  p. 85
5.2.2.1.3_12Rx FDD FR1 PDSCH mapping Type B performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 86
5.2.2.1.42Rx FDD FR1 PDSCH Mapping Type A and LTE-NR coexistence performance  p. 89
5.2.2.1.4_12Rx FDD FR1 PDSCH Mapping Type A and LTE-NR coexistence performance - 4x2 MIMO with baseline receiver for both SA and NSA  p. 90
5.2.2.1.52Rx FDD FR1 PDSCH 0.001% BLER performance  p. 94
5.2.2.1.5_12Rx FDD FR1 PDSCH 0.001% BLER performance - 1x2 MIMO with baseline receiver for both SA and NSA  p. 95
5.2.2.1.62Rx FDD FR1 PDSCH repetitions over multiple slots performance  p. 97
5.2.2.1.6_12Rx FDD FR1 PDSCH repetitions over multiple slots performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 98
5.2.2.1.72Rx FDD FR1 PDSCH Mapping Type B and UE processing capability 2 performance  p. 100
5.2.2.1.7_12Rx FDD FR1 PDSCH Mapping Type B and UE processing capability 2 performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 101
5.2.2.1.82Rx FDD FR1 PDSCH pre-emption performance  p. 103
5.2.2.1.8_12Rx FDD FR1 PDSCH pre-emption performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 104
5.2.2.1.92Rx FDD FR1 HST-SFN performance  p. 107
5.2.2.1.9_12Rx FDD FR1 HST-SFN performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 108
5.2.2.1.102Rx FDD FR1 HST DPS performance  p. 110
5.2.2.1.10_12Rx FDD FR1 HST-DPS performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 112
5.2.2.1.112Rx FDD FR1 PDSCH Single-DCI based SDM scheme performance  p. 118
5.2.2.1.11_12Rx FDD FR1 PDSCH Single-DCI based SDM scheme performance - 2x2 MIMO for both SA and NSA  p. 120
5.2.2.1.122Rx FDD FR1 PDSCH Multi-DCI based transmission scheme performance  p. 124
5.2.2.1.12_12Rx FDD FR1 PDSCH Multiple-DCI based transmission scheme performance - 2x2 MIMO for both SA and NSA  p. 126
5.2.2.1.132Rx FDD FR1 PDSCH Single-DCI based FDM scheme A performance  p. 130
5.2.2.1.13_12Rx FDD FR1 PDSCH Single-DCI based FDM scheme A performance - 2x2 MIMO for both SA and NSA  p. 131
5.2.2.1.142Rx FDD FR1 PDSCH Single-DCI based Inter-slot TDM scheme performance  p. 135
5.2.2.1.14_12Rx FDD FR1 PDSCH Single-DCI based Inter-slot TDM scheme performance - 2x2 MIMO for both SA and NSA  p. 136
5.2.2.1.152Rx FDD FR1 PDSCH with inter-cell interference  p. 141
5.2.2.1.15_12Rx FDD FR1 PDSCH with inter-cell interference performance - 2x2 MIMO for both SA and NSA  p. 143
5.2.2.1.162Rx FDD FR1 for PDSCH with intra-cell inter user interference  p. 146
5.2.2.1.16_12Rx FDD FR1 for PDSCH with intra cell inter user interference performance for baseline MMSE-IRC receiver - 2x2 MIMO for both NSA and SA  p. 148
5.2.2.1.16_22Rx FDD FR1 for PDSCH with intra cell inter user interference performance for Enhanced Receiver Type 2 - 2x2 MIMO for both NSA and SA  p. 149
5.2.2.1.172Rx FDD FR1 PDSCH performance for RedCap  p. 151
5.2.2.1.182Rx FDD FR1 for PDSCH CRS interference mitigation under NR-LTE coexistence scenario  p. 156
5.2.2.1.18_12Rx FDD FR1 for PDSCH CRS interference mitigation under NR-LTE coexistence scenario - 2x2 MIMO for both NSA and SA  p. 158
5.2.2.1.192Rx FDD FR1 for PDSCH with inter cell CRS interference  p. 160
5.2.2.1.19_12Rx FDD FR1 for PDSCH with inter cell CRS interference scenario - 4x2 MIMO for both NSA and SA  p. 163
5.2.2.1.202Rx FDD FR1 PDSCH HST-SFN Scheme A performance - 2x2 MIMO for both SA and NSA  p. 166
5.2.2.1.212Rx FDD FR1 PDSCH HST-SFN Scheme B performance - 2x2 MIMO for both SA and NSA  p. 175
5.2.2.1.232Rx FDD FR1 PDSCH performance for eRedCap  p. 178
5.2.2.2TDD  p. 183
5.2.2.2.12Rx TDD FR1 PDSCH mapping Type A performance  p. 183
5.2.2.2.1_12Rx TDD FR1 PDSCH mapping Type A performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 186
5.2.2.2.1_22Rx TDD FR1 PDSCH mapping Type A performance - 2x2 MIMO with enhanced receiver type 1 for both SA and NSA  p. 192
5.2.2.2.1_32Rx TDD FR1 PDSCH mapping Type A performance - 2x2 MIMO with baseline receiver for DL1024QAM for both SA and NSA  p. 192
5.2.2.2.1_42Rx TDD FR1 PDSCH mapping Type A performance - 2x2 MIMO with enhanced DMRS for both SA and NSA  p. 194
5.2.2.2.22Rx TDD FR1 PDSCH mapping Type A and CSI-RS overlapped with PDSCH performance  p. 195
5.2.2.2.2_12Rx TDD FR1 PDSCH mapping Type A and CSI-RS overlapped with PDSCH performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 195
5.2.2.2.32Rx TDD FR1 PDSCH mapping Type B performance  p. 200
5.2.2.2.3_12Rx TDD FR1 PDSCH mapping Type B performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 201
5.2.2.2.42Rx TDD FR1 PDSCH mapping Type A and LTE-NR coexistence performance  p. 203
5.2.2.2.4_12Rx TDD FR1 PDSCH Mapping Type A and LTE-NR coexistence performance - 4x2 MIMO with baseline receiver for both SA and NSA  p. 204
5.2.2.2.52Rx TDD FR1 PDSCH 0.001% BLER performance  p. 209
5.2.2.2.5_12Rx TDD FR1 PDSCH 0.001% BLER performance - 1x2 MIMO with baseline receiver for both SA and NSA  p. 210
5.2.2.2.62Rx TDD FR1 PDSCH repetitions over multiple slots performance  p. 211
5.2.2.2.6_12Rx TDD FR1 PDSCH repetitions over multiple slots performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 212
5.2.2.2.72Rx TDD FR1 PDSCH Mapping Type B and UE processing capability 2 performance  p. 214
5.2.2.2.7_12Rx TDD FR1 PDSCH Mapping Type B and UE processing capability 2 performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 215
5.2.2.2.8 2Rx TDD FR1 PDSCH pre-emption performance  p. 217
5.2.2.2.8_12Rx TDD FR1 PDSCH pre-emption performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 218
5.2.2.2.92Rx TDD FR1 HST-SFN performance  p. 219
5.2.2.2.9_12Rx TDD FR1 HST-SFN performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 220
5.2.2.2.102Rx TDD FR1 HST DPS performance  p. 223
5.2.2.2.10_12Rx TDD FR1 HST-DPS performance - 2x2 MIMO with baseline receiver for both SA and NSA  p. 225
5.2.2.2.112Rx TDD FR1 PDSCH Single-DCI based SDM scheme performance  p. 231
5.2.2.2.11_12Rx TDD FR1 PDSCH Single-DCI based SDM scheme performance - 2x2 MIMO for both SA and NSA  p. 233
5.2.2.2.122Rx TDD FR1 PDSCH Multi-DCI based transmission scheme performance  p. 237
5.2.2.2.12_12Rx TDD FR1 PDSCH Multiple-DCI based transmission scheme performance - 2x2 MIMO for both SA and NSA  p. 238
5.2.2.2.132Rx TDD FR1 PDSCH Single-DCI based FDM scheme A performance  p. 239
5.2.2.2.13_12Rx TDD FR1 PDSCH Single-DCI based FDM scheme A performance - 2x2 MIMO for both SA and NSA  p. 241
5.2.2.2.142Rx TDD FR1 PDSCH Single-DCI based Inter-slot TDM scheme performance  p. 242
5.2.2.2.14_12Rx TDD FR1 PDSCH Single-DCI based Inter-slot TDM scheme performance - 2x2 MIMO for both SA and NSA  p. 243
5.2.2.2.152Rx TDD FR1 PDSCH mapping type A performance on band with shared spectrum access  p. 244
5.2.2.2.15_12Rx TDD FR1 PDSCH mapping type A performance on band with shared spectrum access - 2x2 MIMO for both NSA and SA  p. 246
5.2.2.2.162Rx TDD FR1 for PDSCH with inter-cell interference performance  p. 248
5.2.2.2.16_12Rx TDD FR1 for PDSCH with inter-cell interference performance - 2x2 MIMO for both NSA and SA  p. 250
5.2.2.2.172Rx TDD FR1 for PDSCH with intra-cell inter user interference  p. 253
5.2.2.2.17_12Rx TDD FR1 for PDSCH with baseline MMSE-IRC receiver - 2x2 MIMO for both NSA and SA  p. 255
5.2.2.2.17_22Rx TDD FR1 for PDSCH with Enhanced Receiver Type 2 - 2x2 MIMO for both NSA and SA  p. 256
5.2.2.2.182Rx TDD FR1 PDSCH performance for RedCap  p. 259
5.2.2.2.192Rx TDD FR1 for PDSCH CRS interference mitigation under NR-LTE coexistence scenario  p. 262
5.2.2.2.19_12Rx TDD FR1 for PDSCH CRS interference mitigation under NR-LTE coexistence scenario - 4x2 MIMO for both NSA and SA  p. 264
5.2.2.2.202Rx TDD FR1 for PDSCH with inter cell CRS interference  p. 267
5.2.2.2.20_12Rx TDD FR1 for PDSCH with inter cell CRS interference scenario - 4x2 MIMO for both NSA and SA  p. 269
5.2.2.2.212Rx TDD FR1 PDSCH HST-SFN Scheme A performance - 2x2 MIMO for both SA and NSA  p. 273
5.2.2.2.222Rx TDD FR1 PDSCH HST-SFN Scheme B performance - 2x2 MIMO for both SA and NSA  p. 283
5.2.34RX requirements  p. 286
5.2.3.1FDD  p. 286
5.2.3.1.14Rx FDD FR1 PDSCH mapping Type A performance  p. 286
5.2.3.1.1_14Rx FDD FR1 PDSCH mapping Type A performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 289
5.2.3.1.1_24Rx FDD FR1 PDSCH mapping Type A performance - 4x4 MIMO with baseline receiver for both SA and NSA  p. 292
5.2.3.1.1_3FFS  p. 293
5.2.3.1.1_44Rx FDD FR1 PDSCH mapping Type A performance - 4x4 MIMO with enhanced receiver type 1 for both SA and NSA  p. 293
5.2.3.1.1_54Rx FDD FR1 PDSCH mapping Type A performance - 2x4 MIMO with baseline receiver for DL1024QAM for both SA and NSA  p. 294
5.2.3.1.1_64Rx FDD FR1 PDSCH mapping Type A performance - 4x4 MIMO with enhanced DMRS for both SA and NSA  p. 295
5.2.3.1.24Rx FDD FR1 PDSCH mapping Type A and CSI-RS overlapped with PDSCH performance  p. 297
5.2.3.1.2_14Rx FDD FR1 PDSCH mapping Type A and CSI-RS overlapped with PDSCH performance - 4x4 MIMO with baseline receiver for both SA and NSA  p. 298
5.2.3.1.34Rx FDD FR1 PDSCH mapping Type B performance  p. 300
5.2.3.1.3_14Rx FDD FR1 PDSCH mapping Type B performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 301
5.2.3.1.44Rx FDD FR1 PDSCH Mapping Type A and LTE-NR coexistence performance  p. 303
5.2.3.1.4_14Rx FDD FR1 PDSCH Mapping Type A and LTE-NR coexistence performance - 4x4 MIMO with baseline receiver for both SA and NSA  p. 304
5.2.3.1.54Rx FDD FR1 PDSCH 0.001% BLER performance  p. 305
5.2.3.1.5_14Rx FDD FR1 PDSCH 0.001% BLER performance - 1x4 MIMO with baseline receiver for both SA and NSA  p. 306
5.2.3.1.64Rx FDD FR1 PDSCH repetitions over multiple slots performance  p. 308
5.2.3.1.6_14Rx FDD FR1 PDSCH repetitions over multiple slots performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 309
5.2.3.1.74Rx FDD FR1 PDSCH Mapping Type B and UE processing capability 2 performance  p. 311
5.2.3.1.7_14Rx FDD FR1 PDSCH Mapping Type B and UE processing capability 2 performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 312
5.2.3.1.84Rx FDD FR1 PDSCH pre-emption performance  p. 314
5.2.3.1.8_14Rx FDD FR1 PDSCH pre-emption performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 315
5.2.3.1.94Rx FDD FR1 HST-SFN performance  p. 317
5.2.3.1.9_14Rx FDD FR1 HST-SFN performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 318
5.2.3.1.104Rx FDD FR1 HST DPS performance  p. 320
5.2.3.1.10_14Rx FDD FR1 HST-DPS performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 322
5.2.3.1.114Rx FDD FR1 PDSCH Single-DCI based SDM scheme performance  p. 328
5.2.3.1.11_14Rx FDD FR1 PDSCH Single-DCI based SDM scheme performance - 2x4 MIMO for both SA and NSA  p. 330
5.2.3.1.124Rx FDD FR1 PDSCH Multi-DCI based transmission scheme performance  p. 334
5.2.3.1.12_14Rx FDD FR1 PDSCH Multiple-DCI based transmission scheme performance - 2x4 MIMO for both SA and NSA  p. 336
5.2.3.1.134Rx FDD FR1 PDSCH Single-DCI based FDM scheme A performance  p. 340
5.2.3.1.13_14Rx FDD FR1 PDSCH Single-DCI based FDM scheme A performance - 2x4 MIMO for both SA and NSA  p. 341
5.2.3.1.144Rx FDD FR1 PDSCH Single-DCI based Inter-slot TDM scheme performance  p. 345
5.2.3.1.14_14Rx FDD FR1 PDSCH Single-DCI based Inter-slot TDM scheme performance - 2x4 MIMO for both SA and NSA  p. 346
5.2.3.1.154Rx FDD FR1 PDSCH with inter-cell interference  p. 351
5.2.3.1.15_14Rx FDD FR1 PDSCH with inter-cell interference performance - 2x4 MIMO for both SA and NSA  p. 352
5.2.3.1.164Rx FDD FR1 for PDSCH with intra-cell inter-user interference  p. 355
5.2.3.1.16_14Rx FDD FR1 for PDSCH with intra cell inter user interference performance for baseline MMSE-IRC receiver - 2x4 MIMO for both NSA and SA  p. 357
5.2.3.1.16_24Rx FDD FR1 for PDSCH with intra cell inter user interference performance for baseline MMSE-IRC receiver - 4x4 MIMO for both NSA and SA  p. 359
5.2.3.1.16_34Rx FDD FR1 for PDSCH with intra cell inter user interference performance for Enhanced Receiver Type 2 - 2x4 MIMO for both NSA and SA  p. 360
5.2.3.1.16_44Rx FDD FR1 for PDSCH with intra cell inter user interference performance for Enhanced Receiver Type 2 - 4x4 MIMO for both NSA and SA  p. 362
5.2.3.1.174Rx FDD FR1 for PDSCH CRS interference mitigation under NR-LTE coexistence scenario  p. 365
5.2.3.1.17_14Rx FDD FR1 for PDSCH CRS interference mitigation under NR-LTE coexistence scenario - 2x4 MIMO for both NSA and SA  p. 366
5.2.3.1.184Rx FDD FR1 for PDSCH with inter cell CRS interference  p. 369
5.2.3.1.18_14Rx FDD FR1 for PDSCH with inter cell CRS interference scenario - 4x4 MIMO for both NSA and SA  p. 372
5.2.3.1.194Rx FDD FR1 PDSCH HST-SFN Scheme A performance - 2x4 MIMO for both SA and NSA  p. 375
5.2.3.1.204Rx FDD FR1 PDSCH HST-SFN Scheme B performance - 2x4 MIMO for both SA and NSA  p. 384
5.2.3.2TDD  p. 387
5.2.3.2.14Rx TDD FR1 PDSCH mapping Type A performance  p. 387
5.2.3.2.1_14Rx TDD FR1 PDSCH mapping Type A performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 390
5.2.3.2.1_24Rx TDD FR1 PDSCH mapping Type A performance - 4x4 MIMO with baseline receiver for both SA and NSA  p. 396
5.2.3.2.1_34Rx TDD FR1 PDSCH mapping Type A performance - 2x4 MIMO with enhanced receiver type 1 for both SA and NSA  p. 397
5.2.3.2.1_44Rx TDD FR1 PDSCH mapping Type A performance - 4x4 MIMO with enhanced receiver type 1 for both SA and NSA  p. 397
5.2.3.2.1_54Rx TDD FR1 PDSCH mapping Type A performance - 2x4 MIMO with baseline receiver for DL1024QAM for both SA and NSA  p. 398
5.2.3.2.1_64Rx TDD FR1 PDSCH mapping Type A performance - 4x4 MIMO with enhanced DMRS for both SA and NSA  p. 400
5.2.3.2.24Rx TDD FR1 PDSCH mapping Type A and CSI-RS overlapped with PDSCH performance  p. 401
5.2.3.2.2_14Rx TDD FR1 PDSCH mapping Type A and CSI-RS overlapped with PDSCH performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 402
5.2.3.2.34Rx TDD FR1 PDSCH mapping Type B performance  p. 405
5.2.3.2.3_14Rx TDD FR1 PDSCH mapping Type B performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 405
5.2.3.2.44Rx TDD FR1 PDSCH mapping Type A performance  p. 408
5.2.3.2.4_14Rx TDD FR1 PDSCH Mapping Type A and LTE-NR coexistence performance - 4x4 MIMO with baseline receiver for both SA and NSA  p. 409
5.2.3.2.54Rx TDD FR1 PDSCH 0.001% BLER performance  p. 410
5.2.3.2.5_14Rx TDD FR1 PDSCH 0.001% BLER performance - 1x4 MIMO with baseline receiver for both SA and NSA  p. 411
5.2.3.2.64Rx TDD FR1 PDSCH repetitions over multiple slots performance  p. 412
5.2.3.2.6_14Rx TDD FR1 PDSCH repetitions over multiple slots performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 413
5.2.3.2.74Rx TDD FR1 PDSCH Mapping Type B and UE processing capability 2 performance  p. 415
5.2.3.2.7_14Rx TDD FR1 PDSCH Mapping Type B and UE processing capability 2 performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 416
5.2.3.2.84Rx TDD FR1 PDSCH pre-emption performance  p. 418
5.2.3.2.8_14Rx TDD FR1 PDSCH pre-emption performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 419
5.2.3.2.9 4Rx TDD FR1 HST-SFN performance  p. 420
5.2.3.2.9_14Rx TDD FR1 HST-SFN performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 421
5.2.3.2.104Rx TDD FR1 HST DPS performance  p. 424
5.2.3.2.10_14Rx TDD FR1 HST DPS performance - 2x4 MIMO with baseline receiver for both SA and NSA  p. 426
5.2.3.2.114Rx TDD FR1 PDSCH Single-DCI based SDM scheme performance  p. 432
5.2.3.2.11_14Rx TDD FR1 PDSCH Single-DCI based SDM scheme performance - 2x4 MIMO for both SA and NSA  p. 433
5.2.3.2.124Rx TDD FR1 PDSCH Multi-DCI based transmission scheme performance  p. 437
5.2.3.2.12_14Rx TDD FR1 PDSCH Multiple-DCI based transmission scheme performance - 2x4 MIMO for both SA and NSA  p. 439
5.2.3.2.134Rx TDD FR1 PDSCH Single-DCI based FDM scheme A performance  p. 440
5.2.3.2.13_14Rx TDD FR1 PDSCH Single-DCI based FDM scheme A performance - 2x4 MIMO for both SA and NSA  p. 441
5.2.3.2.144Rx TDD FR1 PDSCH Single-DCI based Inter-slot TDM scheme performance  p. 442
5.2.3.2.14_14Rx TDD FR1 PDSCH Single-DCI based Inter-slot TDM scheme performance - 2x4 MIMO for both SA and NSA  p. 444
5.2.3.2.154Rx TDD FR1 PDSCH mapping type A performance on band with shared spectrum access  p. 444
5.2.3.2.15_14Rx TDD FR1 PDSCH mapping type A performance on band with shared spectrum access - 2x4 MIMO for both NSA and SA  p. 446
5.2.3.2.164Rx TDD FR1 for PDSCH with inter-cell interference performance  p. 447
5.2.3.2.16_14Rx TDD FR1 for PDSCH with inter-cell interference performance - 2x4 MIMO for both NSA and SA  p. 449
5.2.3.2.174Rx TDD FR1 for PDSCH with intra-cell inter-user interference  p. 452
5.2.3.2.17_12Rx TDD FR1 for PDSCH with baseline MMSE-IRC receiver - 2x2 MIMO for both NSA and SA  p. 454
5.2.3.2.17_24Rx TDD FR1 for PDSCH with baseline MMSE-IRC receiver - 4x4 MIMO for both NSA and SA  p. 456
5.2.3.2.184Rx TDD FR1 for PDSCH CRS interference mitigation under NR-LTE coexistence scenario  p. 457
5.2.3.2.18_14Rx TDD FR1 for PDSCH CRS interference mitigation under NR-LTE coexistence scenario - 4x4 MIMO for both NSA and SA  p. 459
5.2.3.2.194Rx TDD FR1 for PDSCH with inter cell CRS interference  p. 462
5.2.3.2.19_14Rx TDD FR1 for PDSCH with inter cell CRS interference scenario - 4x4 MIMO for both NSA and SA  p. 464
5.2.3.2.204Rx TDD FR1 PDSCH HST-SFN Scheme A performance - 2x4 MIMO for both SA and NSA  p. 468
5.2.3.2.214Rx TDD FR1 PDSCH HST-SFN Scheme B performance - 2x4 MIMO for both SA and NSA  p. 477
5.2APDSCH demodulation requirements for CA  p. 481
5.2A.11RX requirements (Void)  p. 482
5.2A.22RX requirements  p. 482
5.2A.2.1Requirements for 2RX normal PDSCH  p. 482
5.2A.2.1.0Minimum conformance requirements for 2RX normal PDSCH  p. 482
5.2A.2.1.12Rx Normal PDSCH Demodulation Performance for CA (2DL CA) for both SA and NSA  p. 484
5.2A.2.1.22Rx Normal PDSCH Demodulation Performance for CA (3DL CA) for both SA and NSA  p. 487
5.2A.2.1.32Rx Normal PDSCH Demodulation Performance for CA (4DL CA) for both SA and NSA  p. 488
5.2A.2.2Requirements for 2RX PDSCH carrier aggregation with power imbalance  p. 489
5.2A.2.2.0Minimum conformance requirements for 2RX PDSCH CA with power imbalance  p. 489
5.2A.2.2.12Rx PDSCH Demodulation Performance for CA with power imbalance (2DL CA)  p. 490
5.2A.2.2.2Voidp. …
5.2A.2.2.3Voidp. …
5.2A.2.32Rx TDD FR1 PDSCH mapping type A performance of SCell on band with shared spectrum access  p. 492
5.2A.2.4Requirements for 2RX HST-SFN CA PDSCH  p. 494
5.2A.2.4.0Minimum conformance requirements for 2RX HST-SFN CA PDSCH  p. 494
5.2A.2.4.12Rx PDSCH Demodulation Performance for HST-SFN CA  p. 497
5.2A.2.5Requirements for 2RX HST-DPS CA PDSCH  p. 501
5.2A.2.5.0Minimum conformance requirements for 2RX HST-DPS CA PDSCH  p. 501
5.2A.2.5.12RX PDSCH Demodulation Performance for HST-DPS CA  p. 506
5.2A.34RX requirements  p. 514
5.2A.3.1Requirements for 4RX normal PDSCH  p. 514
5.2A.3.1.0Minimum conformance requirements for 4RX normal PDSCH  p. 514
5.2A.3.1.14Rx Normal PDSCH Demodulation Performance for CA (2DL CA)  p. 516
5.2A.3.1.24Rx Normal PDSCH Demodulation Performance for CA (3DL CA)  p. 519
5.2A.3.1.34Rx Normal PDSCH Demodulation Performance for CA (4DL CA)  p. 520
5.2A.3.2Requirements for 4RX PDSCH carrier aggregation with power imbalance  p. 520
5.2A.3.2.0Minimum requirements for carrier aggregation with power imbalance  p. 520
5.2A.3.2.14Rx PDSCH Demodulation Performance for CA with power imbalance (2DL CA)  p. 522
5.2A.3.34Rx TDD FR1 PDSCH mapping type A performance of SCell on band with shared spectrum access  p. 523
5.2A.3.4Requirements for 4RX HST-SFN CA PDSCH  p. 525
5.2A.3.4.0Minimum conformance requirements for 4RX HST-SFN CA PDSCH  p. 525
5.2A.3.4.14RX PDSCH Demodulation Performance for HST-SFN CA  p. 528
5.2A.3.5Requirements for 4RX HST-DPS CA PDSCH  p. 532
5.2A.3.5.0Minimum conformance requirements for 4RX HST-DPS CA PDSCH  p. 532
5.2A.3.5.14RX PDSCH Demodulation Performance for HST-DPS CA  p. 537
5.2A.3A2Rx-4RX requirements  p. 545
5.2A.3A.1Requirements for 2Rx-4RX normal PDSCH  p. 545
5.2A.3A.1.0Minimum conformance requirements for 2Rx-4RX normal PDSCH  p. 545
5.2A.3A.1.12Rx-4Rx Normal PDSCH Demodulation Performance for CA (2DL CA)  p. 545
5.2A.3A.1.22Rx-4Rx Normal PDSCH Demodulation Performance for CA (3DL CA)  p. 549
5.2A.3A.1.32Rx-4Rx Normal PDSCH Demodulation Performance for CA (4DL CA)  p. 550
5.3PDCCH demodulation requirements  p. 550
5.3.11RX requirements  p. 552
5.3.1.1FDD  p. 552
5.3.1.1.11Rx FDD FR1 PDCCH performance for RedCap  p. 552
5.3.1.2TDD  p. 554
5.3.1.2.11Rx TDD FR1 PDCCH performance for RedCap  p. 555
5.3.22RX requirements  p. 557
5.3.2.1FDD  p. 557
5.3.2.1.12Rx FDD FR1 PDCCH 1 Tx antenna performance for both SA and NSA  p. 557
5.3.2.1.22Rx FDD FR1 PDCCH 2 Tx antenna performance for both SA and NSA  p. 560
5.3.2.1.32Rx FDD FR1 PDCCH 1 Tx antenna performance for power saving  p. 563
5.3.2.1.42Rx FDD FR1 PDCCH performance for RedCap  p. 569
5.3.2.1.52RX FDD Minimum requirements for PDCCH with intra-slot repetition  p. 571
5.3.2.1.72RX FDD FR1 PDCCH antenna performance for 3 MHz channel bandwidth  p. 575
5.3.2.2TDD  p. 577
5.3.2.2.12Rx TDD FR1 PDCCH 1 Tx antenna performance for both SA and NSA  p. 578
5.3.2.2.22Rx TDD FR1 PDCCH 2 Tx antenna performance for both SA and NSA  p. 581
5.3.2.2.32Rx TDD FR1 PDCCH 1 Tx antenna performance for power saving  p. 583
5.3.2.2.42Rx TDD FR1 PDCCH performance for RedCap  p. 589
5.3.2.2.52RX TDD Minimum requirements for PDCCH with intra-slot repetition  p. 591
5.3.34RX requirements  p. 595
5.3.3.1FDD  p. 595
5.3.3.1.14Rx FDD FR1 PDCCH 1 Tx antenna performance for both SA and NSA  p. 595
5.3.3.1.24Rx FDD FR1 PDCCH 2 Tx antenna performance for both SA and NSA  p. 598
5.3.3.1.34Rx FDD FR1 PDCCH 1 Tx antenna performance for power saving  p. 601
5.3.3.1.44RX FDD Minimum requirements for PDCCH with intra-slot repetition  p. 607
5.3.3.1.5p. 611
5.3.3.1.64RX FDD FR1 PDCCH antenna performance for 3 MHz channel bandwidth  p. 611
5.3.3.2TDD  p. 613
5.3.3.2.14Rx TDD FR1 PDCCH 1 Tx antenna performance for both SA and NSA  p. 614
5.3.3.2.24Rx TDD FR1 PDCCH 2 Tx antenna performance for both SA and NSA  p. 617
5.3.3.2.34Rx TDD FR1 PDCCH 1 Tx antenna performance for power saving  p. 619
5.3.3.2.44RX TDD Minimum requirements for PDCCH with intra-slot repetition  p. 625
5.4PBCH demodulation requirements  p. 629
5.5Sustained downlink data rate provided by lower layers  p. 629
5.5.1FR1 Sustained downlink data rate performance for single carrier  p. 629
5.5.2FR1 Sustained downlink data rate performance for single carrier with DL1024QAM  p. 637
5.5.3FR1 Sustained downlink data rate performance for RedCap  p. 639
5.5A.1FR1 Sustained downlink data rate performance for carrier aggregation  p. 640
5.5A.1.1FR1 SDR performance for CA (2DL CA)  p. 640
5.5A.1.2FR1 SDR performance for CA (3DL CA)  p. 649
5.5A.1.2.1Test Purpose  p. 649
5.5A.1.2.2Test applicability  p. 649
5.5A.1.2.3Minimum conformance requirements  p. 649
5.5A.1.2.4Test description  p. 649
5.5A.1.2.5Test requirement  p. 649
5.5A.1.3 FR1 SDR performance for CA (4DL CA)  p. 649
5.5A.1.3.1Test Purpose  p. 649
5.5A.1.3.2Test applicability  p. 649
5.5A.1.3.3Minimum conformance requirements  p. 650
5.5A.1.3.4Test description  p. 650
5.5A.1.3.5Test requirement  p. 650
5.5A.1.4 FR1 SDR performance for CA (5DL CA)  p. 650
5.5A.1.4.1Test Purpose  p. 650
5.5A.1.4.2Test applicability  p. 650
5.5A.1.4.3Minimum conformance requirements  p. 650
5.5A.1.4.4Test description  p. 650
5.5A.1.4.5Test requirement  p. 650
5.6PDSCH absolute physical layer throughput requirements  p. 650
5.6.11RX requirements  p. 651
5.6.22RX requirements  p. 651
5.6.2.1FDD  p. 651
5.6.2.1.12Rx FDD FR1 PDSCH absolute physical layer throughput performance with link adaptation  p. 651
5.6.2.1.1_12Rx FDD FR1 PDSCH performance with link adaptation - 2x2 MIMO for both SA and NSA  p. 653
5.6.2.2TDD  p. 655
5.6.2.2.12Rx TDD FR1 PDSCH absolute physical layer throughput performance with link adaptation  p. 655
5.6.2.2.1_12Rx TDD FR1 PDSCH performance with link adaptation - 2x2 MIMO for both SA and NSA  p. 657
5.6.34Rx requirements  p. 658
5.6.3.1FDD  p. 658
5.6.3.1.14Rx FDD FR1 PDSCH absolute physical layer throughput performance with link adaptation  p. 658
5.6.3.1.1_14Rx FDD FR1 PDSCH performance with link adaptation - 2x4 MIMO for both SA and NSA  p. 660
5.6.3.2TDD  p. 661
5.6.3.2.14Rx TDD FR1 PDSCH absolute physical layer throughput performance with link adaptation  p. 661
5.6.3.2.1_14Rx TDD FR1 PDSCH performance with link adaptation - 2x4 MIMO for both SA and NSA  p. 663
6CSI reporting requirements (Conducted requirements)  p. 665
6.1General  p. 665
6.1.1Applicability of requirements  p. 665
6.1.1.1General  p. 665
6.1.1.2Applicability of requirements for different number of RX antenna ports  p. 665
6.1.1.3Applicability of requirements for optional UE features  p. 666
6.1.1.4Applicability of requirements for mandatory UE features with capability signalling  p. 668
6.1.1.5Applicability of Channel Quality Indicator (CQI) reporting requirements for CA  p. 668
6.1.1.5.1Applicability and test rules for different duplex modes and SCS combinations  p. 668
6.1.1.5.2Applicability and test rules for different CA configurations and bandwidth combination sets  p. 669
6.1.1.5.3Test coverage for different number of component carriers  p. 669
6.1.1.5.4Applicability rule and antenna connection for CA tests with 4 RX  p. 669
6.1.1.6Applicability of requirements for RedCap  p. 669
6.1.1.7Applicability of requirements for eRedCap  p. 670
6.1.2Common test parameters  p. 670
6.2Reporting of Channel Quality Indicator (CQI)  p. 673
6.2.11RX requirements  p. 673
6.2.1.1FDD  p. 673
6.2.1.1.1CQI reporting definition under AWGN conditions  p. 673
6.2.1.1.1.11Rx FDD FR1 periodic CQI reporting under AWGN conditions for RedCap  p. 673
6.2.1.1.1.21Rx FDD FR1 periodic CQI reporting under AWGN conditions for eRedCap  p. 677
6.2.1.1.2CQI reporting under fading conditions  p. 681
6.2.1.1.2.11Rx FDD FR1 periodic wideband CQI reporting under fading conditions for RedCap  p. 681
6.2.1.1.2.21Rx FDD FR1 periodic wideband CQI reporting under fading conditions for eRedCap  p. 685
6.2.1.2TDD  p. 691
6.2.1.2.1CQI reporting definition under AWGN conditions  p. 691
6.2.1.2.1.11Rx TDD FR1 periodic CQI reporting under AWGN conditions for RedCap  p. 691
6.2.1.2.1.21Rx TDD FR1 periodic CQI reporting under AWGN conditions for eRedCap  p. 694
6.2.1.2.2CQI reporting definition under fading conditions  p. 698
6.2.1.2.2.11Rx TDD FR1 periodic wideband CQI reporting under fading conditions for RedCap  p. 698
6.2.1.2.2.21Rx TDD FR1 periodic wideband CQI reporting under fading conditions for eRedCap  p. 706
6.2.22RX requirements  p. 711
6.2.2.1FDD  p. 711
6.2.2.1.1CQI reporting definition under AWGN conditions  p. 711
6.2.2.1.1.12Rx FDD FR1 periodic CQI reporting under AWGN conditions for both SA and NSA  p. 711
6.2.2.1.1.22Rx FDD FR1 periodic CQI reporting with Table 3 under AWGN conditions for both SA and NSA  p. 714
6.2.2.1.1.32Rx FDD FR1 periodic CQI reporting with Table 4 under AWGN conditions for both SA and NSA  p. 719
6.2.2.1.1.42Rx FDD FR1 periodic CQI reporting under AWGN conditions for RedCap  p. 722
6.2.2.1.1.52Rx FDD FR1 periodic CQI reporting under AWGN conditions for eRedCap  p. 726
6.2.2.1.2CQI reporting under fading conditions  p. 729
6.2.2.1.2.12Rx FDD FR1 periodic wideband CQI reporting under fading conditions for both SA and NSA  p. 729
6.2.2.1.2.22Rx FDD FR1 aperiodic subband CQI reporting under fading conditions for both SA and NSA  p. 736
6.2.2.1.2.32Rx FDD FR1 Wideband CQI reporting with inter-cell interference for both SA and NSA  p. 741
6.2.2.1.2.42Rx FDD FR1 periodic wideband CQI reporting under fading conditions for RedCap  p. 745
6.2.2.1.2.52Rx FDD FR1 periodic wideband CQI reporting under fading conditions for eRedCap  p. 748
6.2.2.2TDD  p. 752
6.2.2.2.1CQI Reporting definition under AWGN conditions  p. 752
6.2.2.2.1.12Rx TDD FR1 periodic CQI reporting under AWGN conditions for both SA and NSA  p. 752
6.2.2.2.1.22Rx TDD FR1 periodic CQI reporting with Table 3 under AWGN conditions for both SA and NSA  p. 756
6.2.2.2.1.32Rx TDD FR1 CQI reporting for PCell on band with shared spectrum access under AWGN conditions for both SA and NSA  p. 761
6.2.2.2.1.42Rx TDD FR1 periodic CQI reporting with Table 4 under AWGN conditions for both SA and NSA  p. 765
6.2.2.2.1.52Rx TDD FR1 periodic CQI reporting under AWGN conditions for RedCap  p. 768
6.2.2.2.1.62Rx TDD FR1 periodic CQI reporting under AWGN conditions for eRedCap  p. 772
6.2.2.2.2CQI reporting under fading conditions  p. 776
6.2.2.2.2.12Rx TDD FR1 periodic wideband CQI reporting under fading conditions for both SA and NSA  p. 776
6.2.2.2.2.22Rx TDD FR1 aperiodic subband CQI reporting under fading conditions for both SA and NSA  p. 779
6.2.2.2.2.32Rx TDD FR1 Wideband CQI reporting with inter-cell interference for both SA and NSA  p. 783
6.2.2.2.2.42Rx TDD FR1 periodic wideband CQI reporting under fading conditions for RedCap  p. 787
6.2.34RX requirements  p. 791
6.2.3.1FDD  p. 791
6.2.3.1.1CQI reporting definition under AWGN conditions  p. 791
6.2.3.1.1.14Rx FDD FR1 periodic CQI reporting under AWGN conditions for both SA and NSA  p. 792
6.2.3.1.1.24Rx FDD FR1 periodic CQI reporting with Table 3 under AWGN conditions for both SA and NSA  p. 795
6.2.3.1.1.34Rx FDD FR1 periodic CQI reporting with Table 4 under AWGN conditions for both SA and NSA  p. 798
6.2.3.1.2CQI reporting definition under fading conditions  p. 801
6.2.3.1.2.14Rx FDD FR1 periodic wideband CQI reporting under fading conditions for both SA and NSA  p. 801
6.2.3.1.2.24Rx FDD FR1 aperiodic subband CQI reporting under fading conditions for both SA and NSA  p. 805
6.2.3.1.2.34Rx FDD FR1 Wideband CQI reporting with inter-cell interference for both SA and NSA  p. 808
6.2.3.2TDD  p. 811
6.2.3.2.1CQI reporting definition under AWGN conditions  p. 811
6.2.3.2.1.14Rx TDD FR1 periodic CQI reporting under AWGN conditions for both SA and NSA  p. 811
6.2.3.2.1.24Rx TDD FR1 periodic CQI reporting with Table 3 under AWGN conditions for both SA and NSA  p. 814
6.2.3.2.1.34Rx TDD FR1 CQI reporting for PCell on band with shared spectrum access under AWGN conditions for both SA and NSA  p. 817
6.2.3.2.1.44Rx TDD FR1 periodic CQI reporting with Table 4 under AWGN conditions for both SA and NSA  p. 822
6.2.3.2.2CQI reporting under fading conditions  p. 825
6.2.3.2.2.14Rx TDD FR1 periodic wideband CQI reporting under fading conditions for both SA and NSA  p. 825
6.2.3.2.2.24Rx TDD FR1 aperiodic subband CQI reporting under fading conditions for both SA and NSA  p. 829
6.2.3.2.2.34Rx TDD FR1 Wideband CQI reporting with inter-cell interference for both SA and NSA  p. 832
6.2AReporting of Channel Quality Indicator (CQI) for CA  p. 835
6.2A.1General  p. 835
6.2A.21RX requirements  p. 835
6.2A.32RX and 4RX requirements  p. 835
6.2A.3.1CQI reporting definition under AWGN conditions  p. 835
6.2A.3.1.0Minimum requirement for periodic CQI reporting  p. 835
6.2A.3.1.1CQI reporting accuracy under AWGN conditions for CA (2DL CA)  p. 838
6.2A.3.1.1_12Rx FR1 CQI reporting under AWGN for Scell on band with shared spectrum access for CA (2DLCA)  p. 843
6.2A.3.1.2CQI reporting accuracy under AWGN conditions for CA (3DL CA)  p. 849
6.2A.3.1.3CQI reporting accuracy under AWGN conditions for CA (4DL CA)  p. 850
6.2A.44RX requirements  p. 851
6.2A.4.1CQI reporting definition under AWGN conditions  p. 851
6.2A.4.1.14Rx FR1 CQI reporting under AWGN for Scell on band with shared spectrum access for CA (2DLCA)  p. 851
6.3Reporting of Precoding Matrix Indicator (PMI)  p. 857
6.3.0General  p. 857
6.3.11RX requirements  p. 858
6.3.1.1FDD  p. 858
6.3.1.1.11Rx FDD Single PMI with 4TX TypeI-SinglePanel Codebook for RedCap  p. 858
6.3.1.1.21Rx FDD Single PMI with 4TX TypeI-SinglePanel Codebook for eRedCap  p. 863
6.3.1.2TDD  p. 868
6.3.1.2.11Rx TDD Single PMI with 4TX TypeI-SinglePanel Codebook for RedCap  p. 868
6.3.1.2.21Rx TDD Single PMI with 4TX TypeI-SinglePanel Codebook for eRedCap  p. 872
6.3.22RX requirements  p. 877
6.3.2.1FDD  p. 877
6.3.2.1.12Rx FDD FR1 Single PMI with 4TX TypeI-SinglePanel codebook for both SA and NSA  p. 877
6.3.2.1.1_12Rx FDD FR1 Single PMI with 4Tx TypeI-SinglePanel codebook for RedCap  p. 882
6.3.2.1.22Rx FDD FR1 Single PMI with 8TX TypeI-SinglePanel codebook for both SA and NSA  p. 883
6.3.2.1.32Rx FDD FR1 Multiple PMI with 16Tx Type I - SinglePanel Codebook for both SA and NSA  p. 888
6.3.2.1.42Rx FDD FR1 Single PMI with 32Tx Type1 - SinglePanel codebook for both SA and NSA  p. 892
6.3.2.1.52Rx FDD FR1 Multiple PMI with 16Tx TypeII codebook for both SA and NSA  p. 896
6.3.2.1.62Rx FDD FR1 Multiple PMI with 16Tx Enhanced TypeII codebook for both SA and NSA  p. 900
6.3.2.1.72Rx FDD FR1 Single PMI with 8TX TypeI-SinglePanel codebook for Single-DCI based transmission scheme for both SA and NSA  p. 905
6.3.2.1.8-  p. 919
6.3.2.1.92Rx FDD FR1 Multiple PMI with 8 ports Enhanced Type II Codebook for CJT for both SA and NSA  p. 919
6.3.2.1.102Rx FDD FR1 Single PMI with 4TX TypeI-SinglePanel codebook for eRedCap  p. 927
6.3.2.2TDD  p. 933
6.3.2.2.12Rx TDD FR1 Single PMI with 4TX TypeI-SinglePanel codebook for both SA and NSA  p. 933
6.3.2.2.22Rx TDD FR1 Single PMI with 8TX TypeI-SinglePanel codebook for both SA and NSA  p. 938
6.3.2.2.32Rx TDD FR1 Multiple PMI with 16Tx Type1 - SinglePanel codebook for both SA and NSA  p. 943
6.3.2.2.42Rx TDD FR1 Single PMI with 32Tx Type1 - SinglePanel codebook for both SA and NSA  p. 948
6.3.2.2.52Rx TDD FR1 Multiple PMI with 16Tx TypeII codebook for both SA and NSA  p. 953
6.3.2.2.62Rx TDD FR1 Multiple PMI with 16Tx Enhanced TypeII codebook for both SA and NSA  p. 958
6.3.2.2.72Rx TDD Single PMI with 4TX TypeI-SinglePanel Codebook for RedCap  p. 963
6.3.2.2.82Rx TDD FR1 Single PMI with 8 ports TypeI-SinglePanel Codebook for Single-DCI based transmission scheme for both SA and NSA  p. 967
6.3.2.2.9-  p. 981
6.3.2.2.106.3.2.2.10  p. 2Rx T6.3.2.2.10
6.3.34RX requirements  p. 986
6.3.3.1FDD  p. 986
6.3.3.1.14Rx FDD FR1 Single PMI with 4TX TypeI-SinglePanel codebook for both SA and NSA  p. 986
6.3.3.1.24Rx FDD FR1 Single PMI with 8TX TypeI-SinglePanel codebook for both SA and NSA  p. 991
6.3.3.1.34Rx FDD FR1 Multiple PMI with 16Tx Type I - SinglePanel Codebook for both SA and NSA  p. 996
6.3.3.1.44Rx FDD FR1 Single PMI with 32Tx Type1 - SinglePanel codebook for both SA and NSA  p. 1001
6.3.3.1.54Rx FDD FR1 Multiple PMI with 16Tx TypeII codebook for both SA and NSA  p. 1005
6.3.3.1.64Rx FDD FR1 Multiple PMI with 16Tx Enhanced TypeII codebook for both SA and NSA  p. 1009
6.3.3.1.74Rx FDD FR1 Single PMI with 8 ports TypeI-SinglePanel Codebook for Single-DCI based transmission scheme  p. 1014
6.3.3.1.8-  p. 1018
6.3.3.1.94Rx FDD FR1 Multiple PMI with 8 ports Enhanced Type II Codebook for CJT for both SA and NSA  p. 1018
6.3.3.2TDD  p. 1023
6.3.3.2.14Rx TDD FR1 Single PMI with 4TX TypeI-SinglePanel codebook for both SA and NSA  p. 1023
6.3.3.2.24Rx TDD FR1 Single PMI with 8TX TypeI-SinglePanel codebook for both SA and NSA  p. 1028
6.3.3.2.34Rx TDD FR1 Multiple PMI with 16Tx Type1 - SinglePanel codebook for both SA and NSA  p. 1033
6.3.3.2.44Rx TDD FR1 Single PMI with 32Tx Type1 - SinglePanel codebook for both SA and NSA  p. 1038
6.3.3.2.54Rx TDD FR1 Multiple PMI with 16Tx TypeII codebook for both SA and NSA  p. 1043
6.3.3.2.64Rx TDD FR1 Multiple PMI with 16Tx Enhanced TypeII codebook for both SA and NSA  p. 1048
6.3.3.2.74Rx TDD FR1 Single PMI with 8 ports TypeI-SinglePanel Codebook for Single-DCI based transmission scheme  p. 1053
6.4Reporting of Rank Indicator (RI)  p. 1058
6.4.11RX requirements (Void)  p. 1058
6.4.22RX requirements  p. 1058
6.4.2.1FDD  p. 1058
6.4.2.1_12Rx FDD FR1 RI reporting for both SA and NSA  p. 1058
6.4.2.1.12Rx FDD FR1 RI reporting for RedCap  p. 1062
6.4.2.2TDD  p. 1066
6.4.2.2_12Rx TDD FR1 RI reporting for both SA and NSA  p. 1066
6.4.2.2.12Rx TDD FR1 RI reporting for RedCap  p. 1072
6.4.34RX requirements  p. 1076
6.4.3.1FDD  p. 1076
6.4.3.1_14Rx FDD FR1 RI reporting for both SA and NSA  p. 1076
6.4.3.2TDD  p. 1082
6.4.3.2_14Rx TDD FR1 RI reporting for both SA and NSA  p. 1082
7Demodulation performance requirements (Radiated requirements)  p. 1087
7.1General  p. 1087
7.1.1Applicability of requirements  p. 1087
7.1.1.1General  p. 1087
7.1.1.2Applicability of requirements for different number of RX antenna ports  p. 1087
7.1.1.3Applicability of requirements for optional UE features  p. 1087
7.1.1.4Applicability of requirements for mandatory UE features with capability signaling  p. 1088
7.1.1.5Applicability of CA requirements  p. 1089
7.1.1.5.1Definition of CA capability  p. 1089
7.1.1.5.2Applicability and test rules for different CA configurations and bandwidth combination sets  p. 1089
7.1.1.6FFS  p. 1090
7.1.1.7Applicability of requirements for RedCap  p. 1090
7.1.1_1Applicability of test requirements due to maximum achievable SNR  p. 1091
7.2PDSCH demodulation requirements  p. 1094
7.2.11RX requirements (Void)  p. 1097
7.2.22RX requirements  p. 1097
7.2.2.1FDD (Void)  p. 1097
7.2.2.2TDD  p. 1097
7.2.2.2.12Rx TDD FR2 PDSCH mapping Type A performance  p. 1097
7.2.2.2.1_12Rx TDD FR2 PDSCH mapping Type A performance - 2x2 MIMO with baseline receiver for SA and NSA  p. 1099
7.2.2.2.1_22Rx TDD FR2 PDSCH mapping Type A performance - 2x2 MIMO with enhanced type 1 receiver for SA and NSA  p. 1103
7.2.2.2.1_32Rx TDD FR2 PDSCH mapping Type A performance - 2x2 MIMO with 256QAM for SA and NSA (Rel-16 and forward)  p. 1104
7.2.2.2.22Rx TDD FR2 PDSCH repetitions over multiple slots  p. 1106
7.2.2.2.2_12Rx TDD FR2 PDSCH repetitions over multiple slots - 2x2 MIMO with baseline receiver for SA and NSA  p. 1107
7.2.2.2.32Rx TDD FR2 PDSCH Mapping Type B  p. 1109
7.2.2.2.3_12Rx TDD FR2 PDSCH mapping Type B performance - 2x2 MIMO with baseline receiver for SA and NSA  p. 1110
7.2.2.2.42Rx TDD FR2 PDSCH for HST-DPS  p. 1111
7.2.2.2.4_12Rx TDD FR2 PDSCH for HST-DPS - 2x2 MIMO with baseline receiver for SA and NSA  p. 1119
7.2.2.2.5TDD FR2 PDSCH using Multi-DCI non-overlapping based transmission scheme performance  p. 1126
7.2.2.2.5_1TDD FR2 PDSCH using Multi-DCI non-overlapping based transmission scheme performance - MultiRx  p. 1128
7.2.2.2.6TDD FR2 PDSCH using Multi-DCI fully-overlapping based transmission scheme  p. 1133
7.2.2.2.6_1TDD FR2 PDSCH using Multi-DCI fully-overlapping based transmission scheme performance - MultiRx  p. 1136
7.2.2.2.7TDD FR2 PDSCH using Single-DCI based SDM scheme performance  p. 1141
7.2.2.2.7_1TDD FR2 PDSCH using Single-DCI based SDM scheme performance - MultiRx  p. 1144
7.2APDSCH demodulation requirements for CA  p. 1145
7.2A.11RX requirements (Void)  p. 1145
7.2A.22RX requirements  p. 1145
7.2A.2.12Rx TDD FR2 CA requirements for normal PDSCH Demodulation Performance for both SA and NSA (2DLCA)  p. 1146
7.2A.2.22Rx TDD FR2 CA requirements for normal PDSCH Demodulation Performance for both SA and NSA (3DLCA)  p. 1148
7.2A.2.32Rx TDD FR2 CA requirements for normal PDSCH Demodulation Performance for both SA and NSA (4DLCA)  p. 1149
7.3PDCCH demodulation requirements  p. 1150
7.3.11RX requirements  p. 1152
7.3.22RX requirements  p. 1152
7.3.2.1FDD  p. 1152
7.3.2.2TDD  p. 1152
7.3.2.2.12Rx TDD FR2 PDCCH 1 Tx antenna performance for both SA and NSA  p. 1152
7.3.2.2.22Rx TDD FR2 PDCCH 2 Tx antenna performance for both SA and NSA  p. 1155
7.3.2.2.32Rx TDD FR2 PDCCH 1 Tx antenna performance for power saving  p. 1158
7.4PBCH demodulation requirements  p. 1163
7.5Sustained downlink data rate provided by lower layers  p. 1163
7.5.1FR2 Sustained downlink data rate performance for single carrier  p. 1163
7.5.2FR2 Sustained downlink data rate performance for RedCap  p. 1170
7.5A.1FR2 Sustained downlink data rate performance for carrier aggregation  p. 1171
7.5A.1.1FR2 SDR performance for CA (2DL CA)  p. 1171
7.5A.1.2FR2 SDR performance for CA (3DL CA)  p. 1174
7.5A.1.3FR2 SDR performance for CA (4DL CA)  p. 1174
7.5A.1.4FR2 SDR performance for CA (5DL CA)  p. 1175
7.5A.1.5FR2 SDR performance for CA (6DL CA)  p. 1175
7.5A.1.6FR2 SDR performance for CA (7DL CA)  p. 1176
7.5A.1.7FR2 SDR performance for CA (8DL CA)  p. 1176
7.6PDSCH absolute physical layer throughput requirements  p. 1177
7.6.11Rx requirements  p. 1177
7.6.22Rx requirements  p. 1177
7.6.2.1FDD  p. 1177
7.6.2.2TDD  p. 1177
7.6.2.2.12Rx TDD FR2 PDSCH absolute physical layer throughput performance with link adaptation  p. 1177
7.6.2.2.1_12Rx TDD FR2 PDSCH performance with link adaptation - 2x2 MIMO for both SA and NSA  p. 1179
8CSI reporting requirements (Radiated requirements)  p. 1180
8.1General  p. 1180
8.1.1Applicability of requirements  p. 1181
8.1.1.1General  p. 1181
8.1.1.2Applicability of requirements for different number of RX antenna ports  p. 1181
8.1.1.3Applicability of requirements for optional UE features  p. 1181
8.1.1.4Applicability of requirements for mandatory UE features with capability signalling  p. 1181
8.1.1.5Applicability of Channel Quality Indicator (CQI) reporting requirements for CA  p. 1182
8.1.1.5.1Applicability and test rules for different CA configurations and bandwidth combination sets  p. 1182
8.1.1.5.2Test coverage for different number of component carriers  p. 1182
8.1.1.6Applicability of requirements for RedCap  p. 1182
8.1.1_1Applicability of test requirements due to maximum achievable SNR  p. 1182
8.1.2Common test parameters  p. 1183
8.2Reporting of Channel Quality Indicator (CQI)  p. 1186
8.2.11RX requirements  p. 1186
8.2.22RX requirements  p. 1186
8.2.2.1FDD  p. 1186
8.2.2.2TDD  p. 1186
8.2.2.2.1CQI reporting under AWGN conditions  p. 1186
8.2.2.2.1.12Rx TDD FR2 periodic wideband CQI reporting under AWGN performance for both SA and NSA  p. 1186
8.2.2.2.2CQI reporting under fading conditions  p. 1191
8.2.2.2.2.12Rx TDD FR2 aperiodic wideband CQI reporting under fading performance for both SA and NSA  p. 1191
8.2.2.2.2.1_12Rx TDD FR2 aperiodic CQI wideband reporting under fading performance for both SA and NSA - 256QAM (Rel-16 and forward)  p. 1198
8.2AReporting of Channel Quality Indicator (CQI) for CA  p. 1202
8.2A.1General  p. 1202
8.2A.21RX requirements  p. 1202
8.2A.32RX requirements  p. 1202
8.2A.3.1CQI reporting definition under AWGN conditions  p. 1202
8.2A.3.1.0Minimum requirement for periodic CQI reporting  p. 1202
8.2A.3.1.12Rx CQI reporting accuracy under AWGN conditions for CA (2DL CA)  p. 1204
8.2A.3.1.22Rx CQI reporting accuracy under AWGN conditions for CA (3DL CA)  p. 1206
8.2A.3.1.32Rx CQI reporting accuracy under AWGN conditions for CA (4DL CA)  p. 1207
8.3Reporting of Precoding Matrix Indicator (PMI)  p. 1208
8.3.0General  p. 1208
8.3.11RX requirements (Void)  p. 1208
8.3.22RX requirements  p. 1208
8.3.2.1FDD  p. 1208
8.3.2.2TDD  p. 1208
8.3.2.2.12Rx TDD FR2 Single PMI with 2TX TypeI-SinglePanel codebook for both SA and NSA  p. 1208
8.4Reporting of Rank Indicator (RI)  p. 1215
8.4.11RX requirements  p. 1215
8.4.22RX requirements  p. 1215
8.4.2.1FDD  p. 1215
8.4.2.2TDD  p. 1215
8.4.2.2.12Rx TDD FR2 RI reporting for both SA and NSA  p. 1215
9Demodulation performance requirements for interworking  p. 1221
9.1General  p. 1221
9.1.1Applicability of requirements  p. 1221
9.1.1.1Applicability of requirements for optional UE features  p. 1222
9.1.1.2Applicability of requirements for mandatory UE features with capability signalling  p. 1222
9.1.2E-UTRA Cell setup  p. 1222
9.1.2.1FDD  p. 1222
9.1.2.2TDD  p. 1223
9.2Voidp. …
9.2APDSCH Demodulation for CA  p. 1224
9.2A.1NR CA between FR1 and FR2  p. 1224
9.2BPDSCH Demodulation for DC  p. 1225
9.2B.1EN-DC  p. 1225
9.2B.1.1EN-DC within FR1  p. 1225
9.2B.1.2EN-DC including FR2 NR carrier only  p. 1225
9.2B.1.3EN-DC including FR1 and FR2 NR carriers  p. 1225
9.2B.2NR DC between FR1 and FR2  p. 1225
9.3Voidp. …
9.3APDCCH Demodulation for CA  p. 1225
9.3A.1NR CA between FR1 and FR2  p. 1225
9.3BPDCCH Demodulation for DC  p. 1225
9.3B.1EN-DC  p. 1225
9.3B.1.1EN-DC within FR1  p. 1225
9.3B.1.2EN-DC including FR2 NR carrier only  p. 1226
9.3B.1.3EN-DC including FR1 and FR2 NR carriers  p. 1226
9.3B.2NR DC between FR1 and FR2  p. 1226
9.4Voidp. …
9.4ASDR test for CA  p. 1226
9.4A.1Sustained downlink data rate performance for NR CA between FR1 and FR2  p. 1226
9.4BSDR test for DC  p. 1226
9.4B.1EN-DC  p. 1226
9.4B.1.1Sustained downlink data rate performance for EN-DC within FR1  p. 1226
9.4B.1.1ASustained downlink data rate performance for EN-DC within FR1 with DL 1024QAM  p. 1238
9.4B.1.1_1Sustained downlink data rate performance for EN-DC within FR1 (2 NR CCs)  p. 1239
9.4B.1.1_2Sustained downlink data rate performance for EN-DC within FR1 (3 NR CCs)  p. 1240
9.4B.1.1_3Sustained downlink data rate performance for EN-DC within FR1 (4 NR CCs)  p. 1240
9.4B.1.2Sustained downlink data rate performance for EN-DC including FR2 NR carrier  p. 1241
9.4B.1.2_1Sustained downlink data rate performance for EN-DC including FR2 (2 NR CCs)  p. 1251
9.4B.1.2_2Sustained downlink data rate performance for EN-DC including FR2 (3 NR CCs)  p. 1252
9.4B.1.2_3Sustained downlink data rate performance for EN-DC including FR2 (4 NR CCs)  p. 1252
9.4B.2NR DC between FR1 and FR2  p. 1253
9.4B.2.1Sustained downlink data rate performance for NR DC between FR1 and FR2  p. 1253
9.4B.3NE-DC  p. 1253
9.4B.3.1Sustained downlink data rate performance for NE-DC within FR1  p. 1253
10CSI reporting requirements for interworking  p. 1253
10.1General  p. 1253
10.1.1Applicability of requirements  p. 1253
10.1.1.1Applicability of requirements for optional UE features  p. 1254
10.1.1.2Applicability of requirements for mandatory UE features with capability signalling  p. 1254
10.2Voidp. …
10.2AReporting of Channel Quality Indicator (CQI) for CA  p. 1254
10.2BReporting of Channel Quality Indicator (CQI) for DC  p. 1254
10.2B.1EN-DC  p. 1254
10.2B.1.1EN-DC within FR1  p. 1254
10.2B.1.2EN-DC including FR2 NR carrier  p. 1254
10.2B.1.3EN-DC including FR1 and FR2 NR carriers  p. 1255
10.2B.2NR DC between FR1 and FR2  p. 1255
10.3AReporting of Precoding Matrix Indicator (PMI) for CA  p. 1255
10.3BReporting of Precoding Matrix Indicator (PMI) for DC  p. 1255
10.3B.1EN-DC  p. 1255
10.3B.1.1EN-DC within FR1  p. 1255
10.3B.1.2EN-DC including FR2 NR carrier  p. 1255
10.3B.1.3EN-DC including FR1 and FR2 NR carriers  p. 1255
10.3B.2NR DC between FR1 and FR2  p. 1255
10.4AReporting of Rank Indicator (RI) for CA  p. 1256
10.4BReporting of Rank Indicator (RI) for DC  p. 1256
10.4B.1EN-DC  p. 1256
10.4B.1.1EN-DC within FR1  p. 1256
10.4B.1.2EN-DC including FR2 NR carrier  p. 1256
10.4B.1.3EN-DC including FR1 and FR2 NR carriers  p. 1256
10.4B.2NR DC between FR1 and FR2  p. 1256
11V2X requirements  p. 1256
11.1Demodulation performance requirements (Conducted requirements)  p. 1257
11.1.1General  p. 1257
11.1.1.1Applicability of requirements  p. 1257
11.1.1.1.1General  p. 1257
11.1.1.1.2Applicability of requirements for mandatory UE V2X features with capability signalling  p. 1257
11.1.1.2Common test parameters  p. 1257
11.1.2PSSCH demodulation requirements  p. 1258
11.1.2.12Rx requirements  p. 1258
11.1.2.1.12Rx FR1 PSSCH performance  p. 1258
11.1.3PSCCH demodulation requirements  p. 1261
11.1.3.12Rx requirements  p. 1261
11.1.3.1.12Rx FR1 PSCCH performance  p. 1261
11.1.4PSBCH demodulation requirements  p. 1263
11.1.4.12Rx requirements  p. 1263
11.1.4.1.12Rx FR1 PSBCH performance  p. 1263
11.1.5PSFCH demodulation requirements  p. 1263
11.1.5.12Rx requirements  p. 1263
11.1.5.1.12Rx FR1 PSFCH performance  p. 1263
11.1.6Power imbalance performance with two links  p. 1266
11.1.6.12Rx requirements  p. 1266
11.1.6.1.12Rx FR1 Power imbalance performance  p. 1266
11.1.7HARQ buffer soft combining  p. 1269
11.1.7.12Rx requirements  p. 1269
11.1.7.1.12Rx FR1 HARQ buffer soft combining performance  p. 1269
11.1.8PSCCH decoding capability test  p. 1272
11.1.8.12Rx requirements  p. 1272
11.1.8.1.12Rx FR1 PSCCH decoding capability  p. 1272
11.1.9PSFCH decoding capability Test  p. 1275
11.1.9.12Rx requirements  p. 1275
11.1.9.1.12Rx FR1 PSFCH decoding capability  p. 1275
A(Normative)  Measurement channels  p. 1278
A.1General  p. 1278
A.1.1Throughput definition  p. 1278
A.1.2TDD UL-DL configurations for FR1  p. 1278
A.1.3TDD UL-DL configurations for FR2  p. 1283
A.2UL Reference measurement channels  p. 1285
A.2.1General  p. 1285
A.2.2Reference measurement channels for FDD  p. 1286
A.2.2.1RMC for Sustained downlink data rate  p. 1286
A.2.2.1.1CP-OFDM 64QAM  p. 1286
A.2.3Reference measurement channels for TDD  p. 1288
A.2.3.1RMC for Sustained downlink data rate  p. 1288
A.2.3.1.1CP-OFDM 16QAM  p. 1288
A.3DL reference measurement channels  p. 1290
A.3.1General  p. 1290
A.3.2Reference measurement channels for PDSCH performance requirements  p. 1290
A.3.2.1FDD  p. 1291
A.3.2.1.1Reference measurement channels for SCS 15 kHz FR1  p. 1291
A.3.2.1.2Reference measurement channels for SCS 30 kHz FR1  p. 1316
A.3.2.1.3Reference measurement channels for SCS 60 kHz FR1  p. 1317
A.3.2.1.4Reference measurement channels for E-UTRA  p. 1317
A.3.2.1.5Reference measurement channels for Intra-cell Inter-UE interference scenario  p. 1323
A.3.2.2TDD  p. 1324
A.3.2.2.1Reference measurement channels for SCS 15 kHz FR1  p. 1324
A.3.2.2.2Reference measurement channels for SCS 30 kHz FR1  p. 1331
A.3.2.2.3Reference measurement channels for SCS 60 kHz FR1  p. 1399
A.3.2.2.4Reference measurement channels for SCS 60 kHz FR2  p. 1399
A.3.2.2.5Reference measurement channels for SCS 120 kHz FR2  p. 1401
A.3.2.2.6Reference measurement channels for E-UTRA  p. 1419
A.3.2.2.7Reference measurement channels for Intra-cell Inter-UE interference scenario  p. 1425
A.3.2.3HD-FDD  p. 1426
A.3.2.3.1Reference measurement channels for SCS 15 kHz FR1  p. 1426
A.3.2_1Reference measurement channels for Sustained downlink data rate performance requirements  p. 1430
A.3.2_1.1FDD  p. 1430
A.3.2_1.1.1Reference measurement channels for SCS 15 kHz FR1  p. 1430
A.3.2_1.2TDD  p. 1440
A.3.2_1.2.1Reference measurement channels for SCS 30 kHz FR1  p. 1440
A.3.2_1.2.2Reference measurement channels for SCS 120 kHz FR2  p. 1454
A.3.3Reference measurement channels for PDCCH performance requirements  p. 1456
A.3.3.1FDD  p. 1456
A.3.3.1.1Reference measurement channels for SCS 15 kHz FR1  p. 1456
A.3.3.1.2Reference measurement channels for SCS 30 kHz FR1  p. 1458
A.3.3.2TDD  p. 1459
A.3.3.2.1Reference measurement channels for SCS 15 kHz FR1  p. 1459
A.3.3.2.2Reference measurement channels for SCS 30 kHz FR1  p. 1460
A.3.3.2.3Reference measurement channels for SCS 60 kHz FR1  p. 1462
A.3.3.2.4Reference measurement channels for SCS 60 kHz FR2  p. 1462
A.3.3.2.5Reference measurement channels for SCS 120 kHz FR2  p. 1462
A.3.4Reference measurement channels for PBCH demodulation requirements  p. 1465
A.3.4.1Reference measurement channels for FR1  p. 1465
A.3.4.2Reference measurement channels for FR2  p. 1465
A.4CSI reference measurement channels  p. 1465
A.5OFDMA Channel Noise Generator (OCNG)  p. 1472
A.5.1OCNG Patterns for FDD  p. 1472
A.5.1.1OCNG FDD pattern 1: Generic OCNG FDD Pattern for all unused REs  p. 1472
A.5.2OCNG Patterns for TDD  p. 1472
A.5.2.1OCNG TDD pattern 1: Generic OCNG TDD Pattern for all unused REs  p. 1472
A.6SL reference measurement channels  p. 1473
A.6.1General  p. 1473
A.6.2Reference measurement channels for PSSCH performance requirements  p. 1473
A.6.2.1Reference measurement channels for SCS 15 kHz FR1  p. 1473
A.6.2.2Reference measurement channels for SCS 30 kHz FR1  p. 1473
A.6.3Reference measurement channels for PSCCH performance requirements  p. 1473
A.6.3.1Reference measurement channels for SCS 15 kHz FR1  p. 1473
A.6.3.2Reference measurement channels for SCS 30 kHz FR1  p. 1474
A.6.4Reference measurement for PSBCH performance requirements  p. 1474
A.6.4.1Reference measurement channels for SCS 15 kHz FR1  p. 1474
A.6.4.2Reference measurement channels for SCS 30 kHz FR1  p. 1474
B(Normative)  Propagation conditions  p. 1474
B.0No interference  p. 1474
B.1Static propagation condition  p. 1475
B.1.0UE Receiver with 1Rx  p. 1475
B.1.1UE Receiver with 2Rx  p. 1475
B.1.2UE Receiver with 4Rx  p. 1475
B.1.3UE Receiver with 8Rx  p. 1476
B.2Multi-path fading propagation conditions  p. 1477
B.2.1Delay profiles  p. 1477
B.2.1.1Delay profiles for FR1  p. 1479
B.2.1.2Delay profiles for FR2  p. 1480
B.2.2Combinations of channel model parameters  p. 1481
B.2.3MIMO Channel Correlation Matrices  p. 1482
B.2.3.1MIMO Correlation Matrices using Uniform Linear Array (ULA)  p. 1482
B.2.3.1.1Definition of MIMO Correlation Matrices  p. 1482
B.2.3.1.2MIMO Correlation Matrices at High, Medium and Low Level  p. 1486
B.2.3.2MIMO Correlation Matrices using Cross Polarized Antennas (X-pol)  p. 1490
B.2.3.2.1Definition of MIMO Correlation Matrices using cross polarized antennas  p. 1490
B.2.3.2.2MIMO Correlation Matrices using cross polarized antennas  p. 1492
B.2.3.2.3Beam steering approach  p. 1495
B.2.3.2.3ABeam steering approach with dual cluster beams  p. 1496
B.2.4Two-tap propagation conditions for CQI tests  p. 1498
B.3High Speed Train Scenario  p. 1498
B.3.1Single Tap Channel Profile  p. 1498
B.3.2HST-SFN Channel Profile  p. 1502
B.3.3HST-DPS Channel Profile  p. 1505
B.3.4FR2 HST-DPS Channel Profile  p. 1509
B.3.4.1Unidirectional Deployment Channel Profile  p. 1509
B.3.4.2Bidirectional Deployment Channel Profile  p. 1511
B.3.5HST-SFN Scheme A Channel Profile  p. 1513
B.3.6HST-SFN Scheme B Channel Profile  p. 1516
B.4Physical signals, channels mapping and precoding  p. 1519
B.4.1General  p. 1519
B.4.2Beamforming for MU-MIMO  p. 1520
B.5Downlink Transmission Model for requirements on bands with shared spectrum access  p. 1521
B.5.1Downlink Transmission Model for bands with shared spectrum access  p. 1521
B.6Interference model for PDSCH requirements with intercell interference  p. 1522
B.6.1Interference to Noise ratio (INR)  p. 1522
B.6.2Interference model for PDSCH requirements and CSI Reporting requirements  p. 1522
B.7Interference model for PDSCH requirements with LTE-NR spectrum sharing  p. 1522
C(Normative)  Downlink physical channels  p. 1524
C.0Downlink signal levels  p. 1524
C.0.1FR1 Downlink Signal Levels (Conducted)  p. 1524
C.0.2FR2 Downlink Signal Levels (Radiated)  p. 1524
C.1Setup  p. 1525
C.1.1FR1 Setup  p. 1525
C.1.2FR2 Setup  p. 1527
C.2Connection  p. 1529
C.2.1FR1 Measurement of Performance Characteristics  p. 1529
C.2.2FR2 Measurement of Performance Characteristics  p. 1529
D(Normative)  E-UTRA link setup config for NSA testing  p. 1530
D.0General  p. 1530
D.1E-UTRA test parameters  p. 1530
D.2E-UTRA configuration  p. 1532
D.3E-UTRA link common physical channel setup  p. 1533
D.4E-UTRA power level  p. 1533
D.4.1E-UTRA power level (conducted)  p. 1533
D.4.2E-UTRA power level (radiated)  p. 1533
E(Normative)  Environmental conditions  p. 1534
F(Normative)  Measurement uncertainties and test tolerances  p. 1534
F.1Measurement uncertainties and test tolerances for FR1  p. 1534
F.1.1Acceptable uncertainty of test system (normative)  p. 1534
F.1.1.1Measurement of test environments  p. 1534
F.1.1.2Measurement of Demod Performance requirements  p. 1534
F.1.1.3Measurement of Channel State Information reporting  p. 1552
F.1.2Interpretation of measurement results (normative)  p. 1558
F.1.3Test Tolerance and Derivation of Test Requirements (informative)  p. 1559
F.1.3.1Measurement of test environments  p. 1559
F.1.3.2Measurement of Demod Performance requirements  p. 1559
F.1.3.3Measurement of Channel State Information reporting  p. 1570
F.2Measurement uncertainties and test tolerances for FR2  p. 1577
F.2.1Acceptable uncertainty of test system (normative)  p. 1577
F.2.1.1Measurement of test environments  p. 1578
F.2.1.2Measurement of Demod Performance requirements  p. 1578
F.2.1.3Measurement of Channel State Information reporting  p. 1584
F.2.2Interpretation of measurement results (normative)  p. 1587
F.2.3Test Tolerance and Derivation of Test Requirements (informative)  p. 1587
F.2.3.1Measurement of test environments  p. 1587
F.2.3.2Measurement of Demod Performance requirements  p. 1587
F.2.3.3Measurement of Channel State Information reporting  p. 1590
G(Normative)  Statistical Testing  p. 1592
G.1Statistical testing of Performance Requirements with throughput  p. 1592
G.1.1General  p. 1592
G.1.2Mapping throughput to error ratio  p. 1592
G.1.3Design of the test  p. 1593
G.1.4Pass Fail limit  p. 1593
G.1.5Minimum Test time  p. 1594
G.1.5.0_1Minimum Test Time procedure for PDSCH scenarios with 30% or 35% or 50% or 70% Throughput requirement  p. 1594
G.1.5.0_2Minimum Test Time procedure for PDSCH and PDCCH scenarios with 1% BLER requirement  p. 1594
G.2Theory to derive the numbers for statistical testing (informative)  p. 1601
G.2.1Error Ratio (ER)  p. 1601
G.2.2Test Design  p. 1601
G.2.3Confidence level  p. 1601
G.2.4Introduction: Supplier Risk versus Customer Risk  p. 1601
G.2.5Supplier Risk versus Customer Risk  p. 1602
G.2.6Introduction: Standard test versus early decision concept  p. 1602
G.2.7Standard test versus early decision concept  p. 1603
G.2.8Selectivity  p. 1603
G.2.9Design of the test  p. 1604
G.2.10Simulation to derive the pass fail limits  p. 1605
G.3Measuring throughput ratio  p. 1606
G.3.1General  p. 1606
G.3.2Establishing SNR  p. 1606
G.3.3Measuring T-put  p. 1606
G.3.4Number of samples for throughput ratios  p. 1607
G.4Statistical testing of Performance Requirements with BLER limit  p. 1607
G.4.1General  p. 1607
G.4.2Design of the test  p. 1607
G.4.3Numerical definition of the pass fail limits for 0.001% BLER  p. 1607
G.4.3aPass fail decision rules  p. 1614
G.4.4Simulation to derive the pass-fail limits for 0.001% BLER  p. 1614
G.5Statistical Testing of NR sidelink Performance Requirements - Non concurrent  p. 1615
G.5.1General  p. 1615
G.5.2Test method for PSCCH/PSSCH performance using sidelink HARQ feedback  p. 1615
G.5.3Test method for PSFCH performance  p. 1617
G.5.4Test time for PSSCH performance requirements with throughput  p. 1619
G.5.5Test time for PSCCH performance requirements with miss-detection probability  p. 1620
G.5.6Test time for PSFCH performance requirements with miss-detection probability  p. 1621
HApproach for finding UE direction for FR2 Demod and CSI Testing  p. 1622
H.0Normative criteria for determining UE direction for Demod and CSI  p. 1622
H.1Procedure for finding UE direction  p. 1622
H.1.1Using Rx beam peak direction search  p. 1622
H.1.2RSRPB based scan with fallback option to Rx beam peak direction search  p. 1622
H.1.3Isolation based scan with fallback option to Rx beam peak direction search  p. 1623
H.2Wireless cable mode isolation procedure  p. 1623
$Change history  p. 1625

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