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TS 38.141-1
5G New Radio —
Base Station Conformance Testing
Part 1: Conducted Conformance Testing

3GPP‑Page   ETSI‑search
V19.3.0 (PDF)2025/12  … p.
V18.12.02025/12  … p.
V17.18.0  2025/06  363 p.
V16.21.0  2025/06  327 p.
V15.16.0  2024/03  226 p.
Rapporteur:
Dr. Liu, Ye
Huawei Technologies France

full Table of Contents for  TS 38.141-1  Word version:  19.2.0

1Scope  p. 19
2References  p. 19
3Definitions, symbols and abbreviations  p. 21
3.1Definitions  p. 21
3.2Symbols  p. 23
3.3Abbreviations  p. 25
4General conducted test conditions and declarations  p. 27
4.1Measurement uncertainties and test requirements  p. 27
4.1.1General  p. 27
4.1.2Acceptable uncertainty of Test System  p. 27
4.1.2.1General  p. 27
4.1.2.2Measurement of transmitter  p. 28
4.1.2.3Measurement of receiver  p. 31
4.1.2.4Measurement of performance requirements  p. 35
4.1.3Interpretation of measurement results  p. 35
4.2Conducted requirement reference points  p. 36
4.2.1BS type 1-C  p. 36
4.2.2BS type 1-H  p. 36
4.3Base station classes  p. 37
4.4Regional requirements  p. 38
4.5BS configurations  p. 40
4.5.1BS type 1-C  p. 40
4.5.1.1Transmit configurations  p. 40
4.5.1.1.1General  p. 40
4.5.1.1.2Transmission with multiple transmitter antenna connectors  p. 40
4.5.1.2Receive configurations  p. 40
4.5.1.2.1General  p. 40
4.5.1.2.2Reception with multiple receiver antenna connectors, receiver diversity  p. 41
4.5.1.3Duplexers  p. 41
4.5.1.4Power supply options  p. 41
4.5.1.5Ancillary RF amplifiers  p. 41
4.5.2BS type 1-H  p. 42
4.5.2.1Transmit configurations  p. 42
4.5.2.2Receive configurations  p. 43
4.5.2.3Power supply options  p. 43
4.5.3BS with integrated Iuant BS modem  p. 44
4.6Manufacturer declarations  p. 44
4.7Test configurations  p. 51
4.7.1General  p. 51
4.7.2Test signal used to build Test Configurations  p. 51
4.7.3NRTC1: Contiguous spectrum operation  p. 51
4.7.3.1NRTC1 generation  p. 51
4.7.3.2NRTC1 power allocation  p. 52
4.7.4NRTC2: Contiguous CA occupied bandwidth  p. 52
4.7.4.1NRTC2 generation  p. 52
4.7.4.2NRTC2 power allocation  p. 52
4.7.5NRTC3: Non-contiguous spectrum operation  p. 52
4.7.5.1NRTC3 generation  p. 52
4.7.5.2NRTC3 power allocation  p. 53
4.7.6NRTC4: Multi-band test configuration for full carrier allocation  p. 53
4.7.6.1NRTC4 generation  p. 53
4.7.6.2NRTC4 power allocation  p. 54
4.7.7NRTC5: Multi-band test configuration with high PSD per carrier  p. 54
4.7.7.1NRTC5 generation  p. 54
4.7.7.2NRTC5 power allocation  p. 54
4.7.8NRTC6: Non-contiguous spectrum operation in band n46, n96 and n102  p. 55
4.7.8.1NRTC6 generation  p. 55
4.7.8.2NRTC6 power allocation  p. 55
4.8Applicability of requirements  p. 55
4.8.1General  p. 55
4.8.2Requirement set applicability  p. 55
4.8.3Applicability of test configurations for single-band operation  p. 56
4.8.4Applicability of test configurations for multi-band operation  p. 57
4.8.5Additional conformance  p. 58
4.9RF channels and test models  p. 59
4.9.1RF channels  p. 59
4.9.2Test models  p. 60
4.9.2.1General  p. 60
4.9.2.2FR1 test models  p. 60
4.9.2.2.1FR1 test model 1.1 (NR-FR1-TM1.1)  p. 62
4.9.2.2.2FR1 test model 1.2 (NR-FR1-TM1.2)  p. 63
4.9.2.2.3FR1 test model 2 (NR-FR1-TM2)  p. 63
4.9.2.2.4FR1 test model 2a (NR-FR1-TM2a)  p. 64
4.9.2.2.4AFR1 test model 2b (NR-FR1-TM2b)  p. 64
4.9.2.2.5FR1 test model 3.1 (NR-FR1-TM3.1)  p. 64
4.9.2.2.6FR1 test model 3.1a (NR-FR1-TM3.1a)  p. 65
4.9.2.2.6AFR1 test model 3.1b (NR-FR1-TM3.1b)  p. 65
4.9.2.2.7FR1 test model 3.2 (NR-FR1-TM3.2)  p. 65
4.9.2.2.8FR1 test model 3.3 (NR-FR1-TM3.3)  p. 66
4.9.2.2.9NB-IoT operation in NR in-band test model (NR-N-TM)  p. 67
4.9.2.3Data content of Physical channels and Signals for NR-FR1-TM  p. 67
4.9.2.3.1PDCCH  p. 67
4.9.2.3.2PDSCH  p. 68
4.9.2.4Data content of Physical channels and Signals for NR-N-TM  p. 69
4.9.3NB-IoT testing  p. 69
4.10Requirements for contiguous and non-contiguous spectrum  p. 69
4.11Requirements for BS capable of multi-band operation  p. 70
4.12Format and interpretation of tests  p. 71
5Operating bands and channel arrangement  p. 72
6Conducted transmitter characteristics  p. 73
6.1General  p. 73
6.1.1BS type 1-C  p. 73
6.1.2BS type 1-H  p. 73
6.2Base station output power  p. 73
6.2.1Definition and applicability  p. 73
6.2.2Minimum requirement  p. 75
6.2.3Test purpose  p. 75
6.2.4Method of test  p. 75
6.2.4.1Initial conditions  p. 75
6.2.4.2Procedure  p. 75
6.2.5Test requirement  p. 76
6.3Output power dynamics  p. 76
6.3.1General  p. 76
6.3.2RE power control dynamic range  p. 76
6.3.2.1Definition and applicability  p. 76
6.3.2.2Minimum requirement  p. 76
6.3.2.3Test purpose  p. 76
6.3.3Total power dynamic range  p. 77
6.3.3.1Definition and applicability  p. 77
6.3.3.2Minimum requirement  p. 77
6.3.3.3Test purpose  p. 77
6.3.3.4Method of test  p. 77
6.3.3.4.1Initial conditions  p. 77
6.3.3.4.2Procedure  p. 77
6.3.3.5Test requirements  p. 78
6.3.4NB-IoT RB power dynamic range  p. 78
6.3.4.1Definition and applicability  p. 78
6.3.4.2Minimum requirement  p. 78
6.3.4.3Test purpose  p. 78
6.3.4.4Method of test  p. 79
6.3.4.5Test requirements  p. 79
6.4Transmit ON/OFF power  p. 79
6.4.1Transmitter OFF power  p. 79
6.4.1.1Definition and applicability  p. 79
6.4.1.2Minimum requirement  p. 79
6.4.1.3Test purpose  p. 79
6.4.1.4Method of test  p. 79
6.4.1.5Test requirements  p. 80
6.4.2Transmitter transient period  p. 80
6.4.2.1Definition and applicability  p. 80
6.4.2.2Minimum requirement  p. 80
6.4.2.3Test purpose  p. 80
6.4.2.4Method of test  p. 80
6.4.2.4.1Initial conditions  p. 80
6.4.2.4.2Procedure  p. 81
6.4.2.5Test requirements  p. 81
6.5Transmitted signal quality  p. 82
6.5.1General  p. 82
6.5.2Frequency error  p. 82
6.5.2.1Definition and applicability  p. 82
6.5.2.2Minimum Requirement  p. 82
6.5.2.3Test purpose  p. 82
6.5.2.4Method of test  p. 82
6.5.2.5Test Requirements  p. 82
6.5.3Modulation quality  p. 82
6.5.3.1Definition and applicability  p. 82
6.5.3.2Minimum Requirement  p. 83
6.5.3.3Test purpose  p. 83
6.5.3.4Method of test  p. 83
6.5.3.4.1Initial conditions  p. 83
6.5.3.4.2Procedure  p. 83
6.5.3.5Test requirements  p. 84
6.5.4Time alignment error  p. 86
6.5.4.1Definition and applicability  p. 86
6.5.4.2Minimum requirement  p. 86
6.5.4.3Test purpose  p. 86
6.5.4.4Method of test  p. 86
6.5.4.4.1Initial conditions  p. 86
6.5.4.4.2Procedure  p. 87
6.5.4.5Test requirement  p. 87
6.6Unwanted emissions  p. 88
6.6.1General  p. 88
6.6.2Occupied bandwidth  p. 88
6.6.2.1Definition and applicability  p. 88
6.6.2.2Minimum Requirements  p. 89
6.6.2.3Test purpose  p. 89
6.6.2.4Method of test  p. 89
6.6.2.4.1Initial conditions  p. 89
6.6.2.4.2Procedure  p. 89
6.6.2.5Test requirements  p. 90
6.6.3Adjacent Channel Leakage Power Ratio (ACLR)  p. 90
6.6.3.1Definition and applicability  p. 90
6.6.3.2Minimum requirement  p. 91
6.6.3.3Test purpose  p. 91
6.6.3.4Method of test  p. 91
6.6.3.4.1Initial conditions  p. 91
6.6.3.4.2Procedure  p. 91
6.6.3.5Test requirements  p. 92
6.6.3.5.1General requirements  p. 92
6.6.3.5.2Limits and basic limits  p. 92
6.6.3.5.3BS type 1-C  p. 96
6.6.3.5.4BS type 1-H  p. 96
6.6.4Operating band unwanted emissions  p. 97
6.6.4.1Definition and applicability  p. 97
6.6.4.2Minimum requirement  p. 98
6.6.4.3Test purpose  p. 98
6.6.4.4Method of test  p. 98
6.6.4.4.1Initial conditions  p. 98
6.6.4.4.2Procedure  p. 99
6.6.4.5Test requirements  p. 100
6.6.4.5.1General requirements  p. 100
6.6.4.5.2Basic limits for Wide Area BS (Category A)  p. 100
6.6.4.5.3Basic limits for Wide Area BS (Category B)  p. 102
6.6.4.5.3.1Category B requirements (Option 1)  p. 102
6.6.4.5.3.2Category B requirements (Option 2)  p. 105
6.6.4.5.4Basic limits for Medium Range BS (Category A and B)  p. 106
6.6.4.5.5Basic limits for Local Area BS (Category A and B)  p. 110
6.6.4.5.5ABasic limits for Local Area and Medium Range BS for band n46, n96 and n102 (Category A and B)  p. 112
6.6.4.5.6Basic limits for additional requirements  p. 116
6.6.4.5.6.1Limits in FCC Title 47  p. 116
6.6.4.5.6.2Protection of DTT  p. 116
6.6.4.5.6.3Additional operating band unwanted emissions limits for Band n48  p. 116
6.6.4.5.6.4Additional operating band unwanted emissions limits for Band n53  p. 116
6.6.4.5.6.5Protection of GPS  p. 117
6.6.4.5.7BS type 1-C  p. 118
6.6.4.5.8BS type 1-H  p. 118
6.6.5Transmitter spurious emissions  p. 118
6.6.5.1Definition and applicability  p. 118
6.6.5.2Minimum requirement  p. 118
6.6.5.3Test purpose  p. 119
6.6.5.4Method of test  p. 119
6.6.5.4.1Initial conditions  p. 119
6.6.5.4.2Procedure  p. 119
6.6.5.5Test requirements  p. 120
6.6.5.5.1Basic limits  p. 120
6.6.5.5.1.1Tx spurious emissions  p. 120
6.6.5.5.1.2Protection of the BS receiver of own or different BS  p. 120
6.6.5.5.1.3Additional spurious emissions requirements  p. 121
6.6.5.5.1.4Co-location with other base stations  p. 133
6.6.5.5.2Voidp. …
6.6.5.5.3BS type 1-C  p. 139
6.6.5.5.4BS type 1-H  p. 139
6.7Transmitter intermodulation  p. 139
6.7.1Definition and applicability  p. 139
6.7.2Minimum requirement  p. 140
6.7.3Test purpose  p. 140
6.7.4Method of test  p. 140
6.7.4.1Initial conditions  p. 140
6.7.4.2Procedure  p. 140
6.7.5Test requirements  p. 142
6.7.5.1BS type 1-C  p. 142
6.7.5.1.1Co-location minimum requirements  p. 142
6.7.5.1.2Additional requirements  p. 142
6.7.5.2BS type 1-H  p. 143
6.7.5.2.1Co-location minimum requirements  p. 143
6.7.5.2.2Intra-system minimum requirements  p. 144
6.7.5.2.3Additional requirements  p. 144
7Conducted receiver characteristics  p. 146
7.1General  p. 146
7.2Reference sensitivity level  p. 146
7.2.1Definition and applicability  p. 146
7.2.2Minimum requirement  p. 146
7.2.3Test purpose  p. 147
7.2.4Method of test  p. 147
7.2.4.1Initial conditions  p. 147
7.2.4.2Procedure  p. 147
7.2.5Test requirements  p. 147
7.3Dynamic range  p. 153
7.3.1Definition and applicability  p. 153
7.3.2Minimum requirement  p. 153
7.3.3Test purpose  p. 153
7.3.4Method of test  p. 153
7.3.4.1Initial conditions  p. 153
7.3.4.2Procedure  p. 153
7.3.5Test requirements  p. 154
7.4In-band selectivity and blocking  p. 167
7.4.1Adjacent Channel Selectivity (ACS)  p. 167
7.4.1.1Definition and applicability  p. 167
7.4.1.2Minimum requirement  p. 167
7.4.1.3Test purpose  p. 167
7.4.1.4Method of test  p. 168
7.4.1.4.1Initial conditions  p. 168
7.4.1.4.2Procedure  p. 168
7.4.1.5Test requirements  p. 168
7.4.2In-band blocking  p. 171
7.4.2.1Definition and applicability  p. 171
7.4.2.2Minimum requirement  p. 171
7.4.2.3Test purpose  p. 171
7.4.2.4Method of test  p. 171
7.4.2.4.1Initial conditions  p. 171
7.4.2.4.2Procedure for general blocking  p. 171
7.4.2.4.3Procedure for narrowband blocking  p. 172
7.4.2.5Test requirements  p. 172
7.4.2.5.1Additional narrowband blocking requirement for Band n100  p. 176
7.5Out-of-band blocking  p. 177
7.5.1Definition and applicability  p. 177
7.5.2Minimum requirement  p. 177
7.5.3Test purpose  p. 177
7.5.4Method of test  p. 177
7.5.4.1Initial conditions  p. 177
7.5.4.2Procedure  p. 177
7.5.5Test requirements  p. 178
7.5.5.1General requirements  p. 178
7.5.5.2Co-location requirements  p. 179
7.5.5.3Additional requirement  p. 180
7.5.5.3.1Additional requirement for Band n101  p. 180
7.6Receiver spurious emissions  p. 180
7.6.1Definition and applicability  p. 180
7.6.2Minimum requirement  p. 181
7.6.3Test purpose  p. 181
7.6.4Method of test  p. 181
7.6.4.1Initial conditions  p. 181
7.6.4.2Procedure  p. 181
7.6.5Test requirements  p. 182
7.6.5.1Basic limits  p. 182
7.6.5.2BS type 1-C  p. 183
7.6.5.3BS type 1-H  p. 183
7.7Receiver intermodulation  p. 183
7.7.1Definition and applicability  p. 183
7.7.2Minimum requirement  p. 183
7.7.3Test purpose  p. 183
7.7.4Method of test  p. 183
7.7.4.1Initial conditions  p. 183
7.7.4.2Procedure  p. 184
7.7.5Test requirements  p. 184
7.7.5.1Additional narrowband intermodulation requirement for Band n100  p. 191
7.8In-channel selectivity  p. 191
7.8.1Definition and applicability  p. 191
7.8.2Minimum requirement  p. 192
7.8.3Test purpose  p. 192
7.8.4Method of test  p. 192
7.8.4.1Initial conditions  p. 192
7.8.4.2Procedure  p. 192
7.8.5Test requirements  p. 192
8Conducted performance characteristics  p. 204
8.1General  p. 204
8.1.1Scope and definitions  p. 204
8.1.2Applicability rule  p. 205
8.1.2.0General  p. 205
8.1.2.1Applicability of PUSCH performance requirements  p. 205
8.1.2.1.1Applicability of requirements for different subcarrier spacings  p. 205
8.1.2.1.2Applicability of requirements for different channel bandwidths  p. 205
8.1.2.1.3Applicability of requirements for different configurations  p. 205
8.1.2.1.7Applicability of 2-step RA type requirements for different subcarrier spacings  p. 206
8.1.2.1.8Applicability of PUSCH with 0.001% BLER requirements  p. 206
8.1.2.1.9Applicability of PUSCH repetition type A requirements  p. 206
8.1.2.1.10Applicability of PUSCH with enhanced DM-RS  p. 206
8.1.2.1.11Applicability of enhanced performance requirements for PUSCH with synchronous interference  p. 206
8.1.2.1.11.1Applicability of requirements for different test scenarios  p. 206
8.1.2.2Applicability of PUCCH performance requirements  p. 206
8.1.2.2.1Applicability of requirements for different formats  p. 206
8.1.2.2.2Applicability of requirements for different subcarrier spacings  p. 207
8.1.2.2.3Applicability of requirements for different channel bandwidths  p. 207
8.1.2.2.4Applicability of requirements for different configurations  p. 207
8.1.2.2.5Applicability of requirements for multi-slot PUCCH  p. 207
8.1.2.2.6Applicability of requirements for PUCCH sub-slot based repetition  p. 207
8.1.2.3Applicability of PRACH performance requirements  p. 207
8.1.2.3.1Applicability of requirements for different formats  p. 207
8.1.2.3.2Applicability of requirements for different subcarrier spacings  p. 207
8.1.2.3.3Applicability of requirements for different channel bandwidths  p. 208
8.1.2.3.4Applicability of requirements for different restricted set types of long PRACH format 0  p. 208
8.1.2.4Applicability of PUSCH for high speed train performance requirements  p. 208
8.1.2.4.1Applicability of requirements for different speeds  p. 208
8.1.2.4.2Applicability of requirements for 1T1R  p. 208
8.1.2.5Applicability of interlaced PUSCH performance requirements  p. 208
8.1.2.5.1General applicability of interlaced PUSCH performance requirements  p. 208
8.1.2.5.2Applicability of requirements for different subcarrier spacings  p. 208
8.1.2.5.3Applicability of requirements for different channel bandwidths  p. 208
8.1.2.5.4Applicability of requirements for different configurations  p. 209
8.1.2.5.5Applicability of CG-UCI multiplexed on PUSCH requirements  p. 209
8.1.2.6Applicability of interlaced PUCCH performance requirements  p. 209
8.1.2.6.1General applicability of interlaced PUCCH performance requirements  p. 209
8.1.2.6.2Applicability of requirements for different formats  p. 209
8.1.2.6.3Applicability of requirements for different subcarrier spacings  p. 209
8.1.2.6.4Applicability of requirements for different channel bandwidths  p. 209
8.1.2.7Applicability of performance requirements for PRACH with LRA =1151 and LRA =571  p. 209
8.1.2.7.1Applicability of requirements for different formats  p. 209
8.1.2.7.2Applicability of requirements for different subcarrier spacings  p. 209
8.1.2.7.3Applicability of requirements for different channel bandwidths  p. 210
8.1.2.8Applicability of performance requirements for PUSCH with TB over Multi-Slots  p. 210
8.1.2.8.1Applicability of requirements for different UL-DL patterns  p. 210
8.1.2.9Applicability of performance requirements for PUSCH with DM-RS bundling  p. 210
8.1.2.9.1Applicability of requirements for TDD with different subcarrier spacings  p. 210
8.1.2.9.2Applicability of requirements for TDD with different UL-DL patterns  p. 210
8.1.2.9.3Applicability of requirements for different receiver antenna connectors  p. 210
8.1.2.10Applicability of performance requirements for PUCCH with DM-RS bundling  p. 210
8.1.2.10.1Applicability of requirements for TDD with different subcarrier spacings  p. 210
8.1.2.10.2Applicability of requirements for TDD with different UL-DL patterns  p. 210
8.1.2.11Applicability of PUSCH performance requirements for ATG scenario  p. 210
8.1.2.11.1Applicability of requirements with different UL-DL patterns  p. 211
8.1.2.11.2Applicability of requirements for different MCSs  p. 211
8.1.2.12Applicability of PUCCH performance requirements for ATG scenario  p. 211
8.1.2.13Applicability of PRACH performance requirements for ATG scenario  p. 211
8.2Performance requirements for PUSCH  p. 211
8.2.1Performance requirements for PUSCH with transform precoding disabled  p. 211
8.2.1.1Definition and applicability  p. 211
8.2.1.2Minimum Requirement  p. 211
8.2.1.3Test Purpose  p. 211
8.2.1.4Method of test  p. 211
8.2.1.4.1Initial Conditions  p. 211
8.2.1.4.2Procedure  p. 212
8.2.1.5Test Requirement  p. 213
8.2.2Performance requirements for PUSCH with transform precoding enabled  p. 221
8.2.2.1Definition and applicability  p. 221
8.2.2.2Minimum Requirement  p. 221
8.2.2.3Test Purpose  p. 221
8.2.2.4Method of test  p. 221
8.2.2.4.1Initial Conditions  p. 221
8.2.2.4.2Procedure  p. 221
8.2.2.5Test Requirement  p. 222
8.2.3Performance requirements for UCI multiplexed on PUSCH  p. 223
8.2.3.1Definition and applicability  p. 223
8.2.3.2Minimum Requirements  p. 224
8.2.3.3Test purpose  p. 224
8.2.3.4Method of test  p. 224
8.2.3.4.1Initial conditions  p. 224
8.2.3.4.2Procedure  p. 224
8.2.3.5Test Requirement  p. 225
8.2.4Performance requirements for PUSCH for high speed train  p. 226
8.2.4.1Definition and applicability  p. 226
8.2.4.2Minimum Requirement  p. 226
8.2.4.3Test Purpose  p. 226
8.2.4.4Method of test  p. 227
8.2.4.4.1Initial Conditions  p. 227
8.2.4.4.2Procedure  p. 227
8.2.4.5Test Requirement  p. 228
8.2.5Performance requirements for UL timing adjustment  p. 231
8.2.5.1Definition and applicability  p. 231
8.2.5.2Minimum Requirement  p. 231
8.2.5.3Test Purpose  p. 231
8.2.5.4Method of test  p. 231
8.2.5.4.1Initial Conditions  p. 231
8.2.5.4.2Procedure  p. 231
8.2.5.5Test Requirement for High Speed Train  p. 234
8.2.6Performance requirements for PUSCH with 0.001% BLER  p. 235
8.2.6.1Definition and applicability  p. 235
8.2.6.2Minimum Requirement  p. 235
8.2.6.3Test Purpose  p. 235
8.2.6.4Method of test  p. 235
8.2.6.4.1Initial Conditions  p. 235
8.2.6.4.2Procedure  p. 235
8.2.6.5Test Requirement  p. 236
8.2.7Performance requirements for PUSCH repetition Type A  p. 237
8.2.7.1Definition and applicability  p. 237
8.2.7.2Minimum Requirement  p. 238
8.2.7.3Test Purpose  p. 238
8.2.7.4Method of test  p. 238
8.2.7.4.1Initial Conditions  p. 238
8.2.7.4.2Procedure  p. 238
8.2.7.5Test Requirement  p. 239
8.2.8Performance requirements for PUSCH Mapping Type B with non-slot transmission  p. 241
8.2.8.1Definition and applicability  p. 241
8.2.8.2Minimum Requirement  p. 241
8.2.8.3Test Purpose  p. 241
8.2.8.4Method of test  p. 241
8.2.8.4.1Initial Conditions  p. 241
8.2.8.4.2Procedure  p. 241
8.2.8.5Test Requirement  p. 242
8.2.9Performance requirements for PUSCH msgA for 2-step RA type  p. 243
8.2.9.1Definition and applicability  p. 243
8.2.9.2Minimum Requirement  p. 243
8.2.9.3Test Purpose  p. 243
8.2.9.4Method of test  p. 243
8.2.9.4.1Initial Conditions  p. 243
8.2.9.4.2Procedure  p. 243
8.2.9.5Test Requirement  p. 245
8.2.10Requirements for interlaced PUSCH  p. 246
8.2.10.1Definition and applicability  p. 246
8.2.10.2Minimum Requirement  p. 246
8.2.10.3Test Purpose  p. 247
8.2.10.4Method of test  p. 247
8.2.10.4.1Initial Conditions  p. 247
8.2.10.4.2Procedure  p. 247
8.2.10.5Test Requirement  p. 248
8.2.11Performance requirements for CG-UCI multiplexed on interlaced PUSCH  p. 249
8.2.11.1Definition and applicability  p. 249
8.2.11.2Minimum Requirements  p. 249
8.2.11.3Test purpose  p. 250
8.2.11.4Method of test  p. 250
8.2.11.4.1Initial conditions  p. 250
8.2.11.4.2Procedure  p. 250
8.2.11.5Test Requirement  p. 251
8.2.12Performance requirements for TB processing over multi-slot PUSCH (TBoMS)  p. 252
8.2.12.1Definition and applicability  p. 252
8.2.12.2Minimum Requirement  p. 252
8.2.12.3Test Purpose  p. 252
8.2.12.4Method of test  p. 252
8.2.12.4.1Initial Conditions  p. 252
8.2.12.4.2Procedure  p. 253
8.2.12.5Test Requirement  p. 254
8.2.13Performance requirements for PUSCH with DMRS bundling  p. 255
8.2.13.1Definition and applicability  p. 255
8.2.13.2Minimum Requirement  p. 255
8.2.13.3Test Purpose  p. 255
8.2.13.4Method of test  p. 255
8.2.13.4.1Initial Conditions  p. 255
8.2.13.4.2Procedure  p. 255
8.2.13.5Test Requirement  p. 256
8.2.14Performance requirements for PUSCH for ATG  p. 258
8.2.14.1Definition and applicability  p. 258
8.2.14.2Minimum Requirement  p. 258
8.2.14.3Test Purpose  p. 259
8.2.14.4Method of test  p. 259
8.2.14.4.1Initial Conditions  p. 259
8.2.14.4.2Procedure  p. 259
8.2.14.5Test Requirement  p. 260
8.2.15Performance requirements for PUSCH with enhanced DM-RS  p. 261
8.2.15.1Definition and applicability  p. 261
8.2.15.2Minimum Requirement  p. 261
8.2.15.3Test Purpose  p. 261
8.2.15.4Method of test  p. 261
8.2.15.4.1Initial Conditions  p. 261
8.2.15.4.2Procedure  p. 261
8.2.15.5Test Requirement  p. 262
8.2.16Enhanced performance requirements for PUSCH with synchronous interference  p. 263
8.2.16.1Definition and applicability  p. 263
8.2.16.2Minimum Requirement  p. 263
8.2.16.3Test Purpose  p. 264
8.2.16.4Method of test  p. 264
8.2.16.4.1Initial Conditions  p. 264
8.2.16.4.2Procedure  p. 264
8.2.16.5Test Requirement  p. 265
8.3Performance requirements for PUCCH  p. 269
8.3.1Performance requirements for PUCCH format 0  p. 269
8.3.1.1Definition and applicability  p. 269
8.3.1.2Minimum Requirement  p. 270
8.3.1.3Test purpose  p. 270
8.3.1.4Method of test  p. 270
8.3.1.4.1Initial conditions  p. 270
8.3.1.4.2Procedure  p. 270
8.3.1.5Test Requirement  p. 271
8.3.2Performance requirements for PUCCH format 1  p. 272
8.3.2.1NACK to ACK detection  p. 272
8.3.2.1.1Definition and applicability  p. 272
8.3.2.1.2Minimum Requirement  p. 272
8.3.2.1.3Test purpose  p. 272
8.3.2.1.4Method of test  p. 272
8.3.2.1.4.1Initial Conditions  p. 272
8.3.2.1.4.2Procedure  p. 272
8.3.2.1.5Test Requirement  p. 273
8.3.2.2ACK missed detection  p. 274
8.3.2.2.1Definition and applicability  p. 274
8.3.2.2.2Minimum Requirement  p. 274
8.3.2.2.3Test purpose  p. 274
8.3.2.2.4Method of test  p. 275
8.3.2.2.4.1Initial Conditions  p. 275
8.3.2.2.4.2Procedure  p. 275
8.3.2.2.5Test Requirement  p. 276
8.3.3Performance requirements for PUCCH format 2  p. 276
8.3.3.1ACK missed detection  p. 276
8.3.3.1.1Definition and applicability  p. 276
8.3.3.1.2Minimum requirements  p. 276
8.3.3.1.3Test purpose  p. 277
8.3.3.1.4Method of test  p. 277
8.3.3.1.4.1Initial Condition  p. 277
8.3.3.1.4.2Procedure  p. 277
8.3.3.1.5Test requirements  p. 278
8.3.3.2UCI BLER performance requirements  p. 278
8.3.3.2.1Definition and applicability  p. 278
8.3.3.2.2Minimum Requirement  p. 278
8.3.3.2.3Test purpose  p. 278
8.3.3.2.4Method of test  p. 279
8.3.3.2.4.1Initial Condition  p. 279
8.3.3.2.4.2Procedure  p. 279
8.3.3.2.5Test requirements  p. 280
8.3.4Performance requirements for PUCCH format 3  p. 280
8.3.4.1Definition and applicability  p. 280
8.3.4.2Minimum requirement  p. 280
8.3.4.3Test purpose  p. 280
8.3.4.4Method of test  p. 281
8.3.4.4.1Initial conditions  p. 281
8.3.4.4.2Procedure  p. 281
8.3.4.5Test requirement  p. 282
8.3.5Performance requirements for PUCCH format 4  p. 283
8.3.5.1Definition and applicability  p. 283
8.3.5.2Minimum requirement  p. 283
8.3.5.3Test purpose  p. 283
8.3.5.4Method of test  p. 283
8.3.5.4.1Initial conditions  p. 283
8.3.5.4.2Procedure  p. 283
8.3.5.5Test requirement  p. 284
8.3.6Performance requirements for multi-slot PUCCH  p. 285
8.3.6.1Performance requirements for multi-slot PUCCH format 1  p. 285
8.3.6.1.1NACK to ACK detection  p. 285
8.3.6.1.1.1Definition and applicability  p. 285
8.3.6.1.1.2Minimum Requirement  p. 285
8.3.6.1.1.3Test purpose  p. 285
8.3.6.1.1.4Method of test  p. 285
8.3.6.1.1.4.1Initial conditions  p. 285
8.3.6.1.1.4.2Procedure  p. 286
8.3.6.1.1.5Test Requirement  p. 286
8.3.6.1.2ACK missed detection  p. 287
8.3.6.1.2.1Definition and applicability  p. 287
8.3.6.1.2.2Minimum Requirement  p. 287
8.3.6.1.2.3Test purpose  p. 287
8.3.6.1.2.4Method of test  p. 287
8.3.6.1.2.4.1Initial conditions  p. 287
8.3.6.1.2.4.2Procedure  p. 287
8.3.6.1.2.5Test Requirement  p. 288
8.3.7Performance requirements for interlaced PUCCH format 0  p. 289
8.3.7.1Definition and applicability  p. 289
8.3.7.2Minimum Requirement  p. 289
8.3.7.3Test purpose  p. 289
8.3.7.4Method of test  p. 289
8.3.7.4.1Initial conditions  p. 289
8.3.7.4.2Procedure  p. 289
8.3.7.5Test Requirement  p. 290
8.3.8Performance requirements for interlaced PUCCH format 1  p. 291
8.3.8.1NACK to ACK detection  p. 291
8.3.8.1.1Definition and applicability  p. 291
8.3.8.1.2Minimum Requirement  p. 291
8.3.8.1.3Test purpose  p. 291
8.3.8.1.4Method of test  p. 291
8.3.8.1.4.1Initial Conditions  p. 291
8.3.8.1.4.2Procedure  p. 291
8.3.8.1.5Test Requirement  p. 292
8.3.8.2ACK missed detection  p. 293
8.3.8.2.1Definition and applicability  p. 293
8.3.8.2.2Minimum Requirement  p. 293
8.3.8.2.3Test purpose  p. 293
8.3.8.2.4Method of test  p. 293
8.3.8.2.4.1Initial Conditions  p. 293
8.3.8.2.4.2Procedure  p. 293
8.3.8.2.5Test Requirement  p. 294
8.3.9Performance requirements for interlaced PUCCH format 2  p. 294
8.3.9.1Definition and applicability  p. 294
8.3.9.2Minimum requirement  p. 295
8.3.9.3Test purpose  p. 295
8.3.9.4Method of test  p. 295
8.3.9.4.1Initial conditions  p. 295
8.3.9.4.2Procedure  p. 295
8.3.9.5Test requirement  p. 296
8.3.10Performance requirements for interlaced PUCCH format 3  p. 296
8.3.10.1Definition and applicability  p. 296
8.3.10.2Minimum requirement  p. 297
8.3.10.3Test purpose  p. 297
8.3.10.4Method of test  p. 297
8.3.10.4.1Initial conditions  p. 297
8.3.10.4.2Procedure  p. 297
8.3.10.5Test requirement  p. 298
8.3.11Performance requirements for PUCCH sub-slot based repetition format 0  p. 298
8.3.11.1Definition and applicability  p. 298
8.3.11.2Minimum Requirement  p. 299
8.3.11.3Test purpose  p. 299
8.3.11.4Method of test  p. 299
8.3.11.4.1Initial conditions  p. 299
8.3.11.4.2Procedure  p. 299
8.3.11.5Test Requirement  p. 300
8.3.12Performance requirements PUCCH format 1 with DM-RS bundling  p. 300
8.3.12.1NACK to ACK detection  p. 300
8.3.12.1.1Definition and applicability  p. 300
8.3.12.1.2Minimum Requirement  p. 300
8.3.12.1.3Test purpose  p. 300
8.3.12.1.4Method of test  p. 301
8.3.12.1.4.1Initial conditions  p. 301
8.3.12.1.4.2Procedure  p. 301
8.3.12.1.5Test Requirement  p. 302
8.3.12.2ACK missed detection  p. 302
8.3.12.2.1Definition and applicability  p. 302
8.3.12.2.2Minimum Requirement  p. 302
8.3.12.2.3Test purpose  p. 302
8.3.12.2.4Method of test  p. 302
8.3.12.2.4.1Initial conditions  p. 302
8.3.12.2.4.2Procedure  p. 303
8.3.12.2.5Test Requirement  p. 304
8.3.13Performance requirements for PUCCH format 3 with DM-RS bundling  p. 304
8.3.13.1Definition and applicability  p. 304
8.3.13.2Minimum requirement  p. 304
8.3.13.3Test purpose  p. 304
8.3.13.4Method of test  p. 304
8.3.13.4.1Initial conditions  p. 304
8.3.13.4.2Procedure  p. 304
8.3.13.5Test requirement  p. 305
8.4Performance requirements for PRACH  p. 306
8.4.1PRACH false alarm probability and missed detection  p. 306
8.4.1.1Definition and applicability  p. 306
8.4.1.2Minimum requirement  p. 307
8.4.1.3Test purpose  p. 307
8.4.1.4Method of test  p. 307
8.4.1.4.1Initial conditions  p. 307
8.4.1.4.2Procedure  p. 307
8.4.1.5Test requirement for Normal Mode  p. 308
8.4.1.6Test requirement for high speed train  p. 309
8.4.1.7Test requirement for PRACH with LRA=1151 and LRA=571  p. 310
A(Normative)  Reference measurement channels  p. 312
A.1Fixed Reference Channels for reference sensitivity level, ACS, in-band blocking, out-of-band blocking, receiver intermodulation and in-channel selectivity (QPSK, R=1/3)  p. 312
A.2Fixed Reference Channels for dynamic range (16QAM, R=2/3)  p. 313
A.3Fixed Reference Channels for performance requirements (QPSK, R=193/1024)  p. 315
A.3AFixed Reference Channels for performance requirements (QPSK, R=99/1024)  p. 318
A.3BFixed Reference Channels for performance requirements (QPSK, R=308/1024)  p. 319
A.4Fixed Reference Channels for performance requirements (16QAM, R=658/1024)  p. 321
A.5Fixed Reference Channels for performance requirements (64QAM, R=567/1024)  p. 323
A.6PRACH test preambles  p. 325
A.7Fixed Reference Channels for performance requirements (QPSK, R=157/1024)  p. 326
A.8Fixed Reference Channels for performance requirements (256QAM, R=682.5/1024)  p. 327
A.9Fixed Reference Channels for performance requirements (16QAM, R=434/1024)  p. 328
A.10Fixed Reference Channels for performance requirements (64QAM, R=948/1024)  p. 328
A.11Fixed Reference Channels for performance requirements (256QAM, R=754/1024)  p. 329
A.12Fixed Reference Channels for performance requirements (64QAM, R=438/1024)  p. 330
A.13Fixed Reference Channels for performance requirements (64QAM, R=517/1024)  p. 331
B(Normative)  Environmental requirements for the BS equipment  p. 332
B.1General  p. 332
B.2Normal test environment  p. 332
B.3Extreme test environment  p. 332
B.3.1Extreme temperature  p. 332
B.4Vibration  p. 333
B.5Power supply  p. 333
B.6Measurement of test environments  p. 333
B.7Interference model for enhanced performance requirements for PUSCH with synchronous interference  p. 334
B.7.1Interference to Noise ratio (INR)  p. 334
B.7.2Interference model for synchronous scenario  p. 334
CTest tolerances and derivation of test requirements  p. 335
C.1Measurement of transmitter  p. 335
C.2Measurement of receiver  p. 337
C.3Measurement of performance requirements  p. 338
DMeasurement system set-up  p. 341
D.1BS type 1-C transmitter  p. 341
D.1.1Base station output power, output power dynamics, transmitter ON/OFF power, frequency error, EVM, unwanted emissions for BS type 1-C  p. 341
D.1.2Transmitter intermodulation for BS type 1-C  p. 341
D.1.3Time alignment error for BS type 1-C  p. 342
D.2BS type 1-C receiver  p. 342
D.2.1Reference sensitivity level for BS type 1-C  p. 342
D.2.2Dynamic range for BS type 1-C  p. 343
D.2.3In-channel selectivity for BS type 1-C  p. 343
D.2.4Adjacent Channel Selectivity (ACS) and narrowband blocking for BS type 1-C  p. 344
D.2.5Blocking characteristics for BS type 1-C  p. 344
D.2.6Receiver spurious emission for BS type 1-C  p. 345
D.2.7Intermodulation characteristics for BS type 1-C  p. 345
D.3BS type 1-H transmitter  p. 346
D.3.1Base station output power, output power dynamics, transmitter ON/OFF power, frequency error, EVM, unwanted emissions for BS type 1-H  p. 346
D.3.2Transmitter intermodulation for BS type 1-H  p. 347
D.3.3Transmitter spurious emissions for BS type 1-H  p. 347
D.3.4Time alignment error for BS type 1-H  p. 349
D.4BS type 1-H receiver  p. 349
D.4.1Reference sensitivity level for BS type 1-H  p. 349
D.4.2Receiver dynamic range for BS type 1-H  p. 350
D.4.3Receiver adjacent channel selectivity and narrowband blocking for BS type 1-H  p. 350
D.4.4Receiver spurious emissions  p. 350
D.4.5Receiver In-channel selectivity for BS type 1-H  p. 352
D.4.6Receiver intermodulation for BS type 1-H  p. 353
D.5BS type 1-C performance requirements  p. 353
D.5.1Performance requirements for PUSCH, single user PUCCH, PRACH on single antenna port in multipath fading conditions and for high speed condition  p. 353
D.5.2Performance requirements for PUSCH transmission on two antenna ports in multipath fading conditions  p. 354
D.5.2APerformance requirements for PUSCH transmission on four antenna ports in multipath fading conditions  p. 354
D.5.3Performance requirements for PUSCH and PRACH in static conditions  p. 354
D.5.4Performance requirements for UL timing adjustment  p. 355
D.5.5Enhanced performance requirements for PUSCH transmission in multipath fading propagation conditions with synchronous interference  p. 355
D.6BS type 1-H performance requirements  p. 358
D.6.1Performance requirements for PUSCH, single user PUCCH, PRACH on single antenna port in multipath fading conditions and for high speed condition  p. 358
D.6.2Performance requirements for PUSCH transmission on two antenna ports in multipath fading conditions  p. 359
D.6.2APerformance requirements for PUSCH transmission on four antenna ports in multipath fading conditions  p. 359
D.6.3Performance requirements for PUSCH and PRACH in static conditions  p. 359
D.6.4Performance requirements for UL timing adjustment  p. 360
D.6.5Enhanced performance requirements for PUSCH transmission in multipath fading propagation conditions with synchronous interference  p. 360
E(Normative)  Characteristics of interfering signals  p. 364
F(Normative)  Voidp. …
G(Normative)  Propagation conditions  p. 366
G.1Static propagation condition  p. 366
G.2Multi-path fading propagation conditions  p. 366
G.2.1Delay profiles  p. 366
G.2.1.1Delay profiles for FR1  p. 367
G.2.2Combinations of channel model parameters  p. 368
G.2.3MIMO channel correlation matrices  p. 369
G.2.3.1MIMO correlation matrices using Uniform Linear Array  p. 369
G.2.3.1.1Definition of MIMO correlation matrices  p. 369
G.2.3.1.2MIMO correlation matrices at high, medium and low level  p. 370
G.2.3.2Multi-antenna channel models using cross polarized antennas  p. 372
G.2.3.2.1Definition of MIMO correlation matrices using cross polarized antennas  p. 373
G.2.3.2.2Spatial correlation matrices at UE and gNB sides  p. 373
G.2.3.2.2.1Spatial correlation matrices at UE side  p. 373
G.2.3.2.2.2Spatial correlation matrices at gNB side  p. 373
G.2.3.2.3MIMO correlation matrices using cross polarized antennas  p. 374
G.3High speed train condition  p. 374
G.4Moving propagation conditions  p. 378
H(Normative)  In-channel TX tests  p. 380
H.1General  p. 380
H.2Basic principles  p. 380
H.2.1Output signal of the TX under test  p. 380
H.2.2Ideal signal  p. 380
H.2.3Measurement results  p. 381
H.2.4Measurement points  p. 381
H.3Pre-FFT minimization process  p. 382
H.4Timing of the FFT window  p. 382
H.5Resource element TX power  p. 383
H.6Post-FFT equalisation  p. 384
H.7EVM  p. 385
H.7.0General  p. 385
H.7.1Averaged EVM (FDD)  p. 386
H.7.2Averaged EVM (TDD)  p. 386
I(Normative)  General rules for statistical testing  p. 387
I.1Testing methodology of PUSCH performance requirements with 0.001% BLER  p. 387
I.1.1General  p. 387
I.1.2Numerical definition of the pass-fail limits for testing PUSCH 0.001% BLER  p. 388
I.1.3Theory to derive the early pass/fail limits in I.1.2 (informative)  p. 389
I.1.3.1Numerical definition of the pass-fail limits for testing PUSCH 0.001% BLER  p. 389
I.1.3.2Simulation to derive the pass-fail limits for testing PUSCH 0.001% BLER  p. 389
$Change history  p. 391

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