Content for TS 38.101-2 Word version: 18.6.0
6 Transmitter characteristics
6.1 General
6.2 Transmitter power
6.2A Transmitter power for CA
6.2D Transmitter power for UL MIMO
6.2K Transmitter power for simultaneous transmission to multiple directions
6.3 Output power dynamics
6.3.1 Minimum output power
6.3.2 Transmit OFF power
6.3.3 Transmit ON/OFF time mask
6.3.4 Power control
6.3A Output power dynamics for CA
6.3D Output power dynamics for UL MIMO
6.4 Transmit signal quality
6.4.1 Frequency Error
6.4.2 Transmit modulation quality
6.4A Transmit signal quality for CA
6.4D Transmit signal quality for UL MIMO
6.5 Output RF spectrum emissions
6.5.1 Occupied bandwidth
6.5.2 Out of band emissions
6.5.3 Spurious emissions
6.5A Output RF spectrum emissions for CA
6.5D Output RF spectrum emissions for UL MIMO
6.6 Beam correspondence
6.6A Beam correspondence for CA
...
...
6 Transmitter characteristics p. 68
6.1 General p. 68
6.2 Transmitter power p. 68
6.2.1 UE maximum output power p. 68
6.2.1.0 General p. 68
6.2.1.1 UE maximum output power for power class 1 p. 69
6.2.1.2 UE maximum output power for power class 2 p. 69
6.2.1.3 UE maximum output power for power class 3 p. 70
6.2.1.4 UE maximum output power for power class 4 p. 72
6.2.1.5 UE maximum output power for power class 5 p. 73
6.2.1.6 UE maximum output power for power class 6 p. 74
6.2.1.7 UE maximum output power for power class 7 p. 75
6.2.2 UE maximum output power reduction p. 76
6.2.2.0 General p. 76
6.2.2.1 UE maximum output power reduction for power class 1 p. 77
6.2.2.2 UE maximum output power reduction for power class 2 p. 79
6.2.2.3 UE maximum output power reduction for power class 3 p. 79
6.2.2.4 UE maximum output power reduction for power class 4 p. 81
6.2.2.5 UE maximum output power reduction for power class 5 p. 81
6.2.2.6 UE maximum output power reduction for power class 6 p. 81
6.2.2.7 UE maximum output power reduction for power class 7 p. 81
6.2.3 UE maximum output power with additional requirements p. 82
6.2.3.1 General p. 82
6.2.3.2 Void
6.2.3.3 A-MPR for NS_202 p. 83
6.2.3.3.1 A-MPR for NS_202 for power class 1 p. 83
6.2.3.3.2 A-MPR for NS_202 for power class 2 p. 83
6.2.3.3.3 A-MPR for NS_202 for power class 3 p. 83
6.2.3.3.4 A-MPR for NS_202 for power class 4 p. 83
6.2.3.3.5 A-MPR for NS_202 for power class 5 p. 83
6.2.3.3.6 A-MPR for NS_202 for power class 6 p. 83
6.2.3.3.7 A-MPR for NS_202 for power class 7 p. 83
6.2.3.4 A-MPR for NS_203 p. 84
6.2.3.4.1 A-MPR for NS_203 for power class 1 p. 84
6.2.3.4.2 A-MPR for NS_203 for power class 2 p. 84
6.2.3.4.3 A-MPR for NS_203 for power class 3 p. 84
6.2.3.4.4 A-MPR for NS_203 for power class 4 p. 84
6.2.3.4.5 A-MPR for NS_203 for power class 5 p. 84
6.2.3.4.6 A-MPR for NS_203 for power class 6 p. 84
6.2.3.4.7 A-MPR for NS_203 for power class 7 p. 84
6.2.4 Configured transmitted power p. 84
6.2.5 Requirements for UL gap (ul-GapFR2-r17) for TX power management p. 86
6.2A Transmitter power for CA p. 86
6.2A.1 UE maximum output power for CA p. 86
6.2A.2 UE maximum output power reduction for CA p. 87
6.2A.2.1 General p. 87
6.2A.2.2 Maximum output power reduction for power class 1 p. 88
6.2A.2.2.1 Maximum output power reduction for power class 1 intra-band contiguous UL CA p. 88
6.2A.2.2.2 Maximum output power reduction for power class 1 intra-band non-contiguous UL CA p. 89
6.2A.2.2.3 Maximum output power reduction for power class 1 inter-band CA p. 90
6.2A.2.3 Maximum output power reduction for power class 2 p. 90
6.2A.2.4 Maximum output power reduction for power class 3 p. 92
6.2A.2.4.1 Maximum output power reduction for power class 3 intra-band contiguous CA p. 92
6.2A.2.4.2 Maximum output power reduction for power class 3 intra-band non-contiguous CA p. 93
6.2A.2.4.3 Maximum output power reduction for power class 3 inter-band CA p. 93
6.2A.2.5 Maximum output power reduction for power class 4 p. 94
6.2A.2.6 Maximum output power reduction for power class 5 p. 94
6.2A.2.7 Maximum output power reduction for power class 6 p. 94
6.2A.3 UE maximum output power with additional requirements for CA p. 94
6.2A.3.1 General p. 94
6.2A.3.2 Void
6.2A.3.3 A-MPR for CA_NS_202 p. 95
6.2A.3.3.1 A-MPR for CA_NS_202 for power class 1 p. 95
6.2A.3.3.2 A-MPR for CA_NS_202 for power class 2 p. 96
6.2A.3.3.3 A-MPR for CA_NS_202 for power class 3 p. 96
6.2A.3.3.4 A-MPR for CA_NS_202 for power class 4 p. 96
6.2A.3.3.5 A-MPR for CA_NS_202 for power class 5 p. 96
6.2A.3.3.6 A-MPR for CA_NS_202 for power class 6 p. 96
6.2A.3.4 A-MPR for CA_NS_203 p. 96
6.2A.3.4.1 A-MPR for CA_NS_203 for power class 1 p. 96
6.2A.3.4.2 A-MPR for CA_NS_203 for power class 2 p. 96
6.2A.3.4.3 A-MPR for CA_NS_203 for power class 3 p. 96
6.2A.3.4.4 A-MPR for CA_NS_203 for power class 4 p. 96
6.2A.3.4.5 A-MPR for CA_NS_203 for power class 5 p. 96
6.2A.3.4.6 A-MPR for CA_NS_203 for power class 6 p. 96
6.2A.4 Configured transmitted power for CA p. 96
6.2A.4.1 Configured transmitted power for intra-band UL CA p. 96
6.2A.4.2 Configured transmitted power for inter-band UL CA p. 98
6.2A.5 Requirements for UL gap (ul-GapFR2-r17) for TX power management in CA p. 98
6.2D Transmitter power for UL MIMO p. 99
6.2D.1 UE maximum output power for UL MIMO p. 99
6.2D.1.0 General p. 99
6.2D.1.1 UE maximum output power for UL MIMO for power class 1 p. 99
6.2D.1.2 UE maximum output power for UL MIMO for power class 2 p. 100
6.2D.1.3 UE maximum output power for UL MIMO for power class 3 p. 101
6.2D.1.4 UE maximum output power for UL MIMO for power class 4 p. 102
6.2D.1.5 UE maximum output power for UL MIMO for power class 5 p. 103
6.2D.1.6 UE maximum output power for UL MIMO for power class 6 p. 104
6.2D.2 UE maximum output power reduction for modulation / channel bandwidth for UL MIMO p. 105
6.2D.2.1 UE maximum output power reduction for modulation / channel bandwidth for UL MIMO for power class 1 p. 105
6.2D.2.2 UE maximum output power reduction for modulation / channel bandwidth for UL MIMO for power class 2 p. 105
6.2D.2.3 UE maximum output power reduction for modulation / channel bandwidth for UL MIMO for power class 3 p. 105
6.2D.2.4 UE maximum output power reduction for modulation / channel bandwidth for UL MIMO for power class 4 p. 106
6.2D.2.5 UE maximum output power reduction for modulation / channel bandwidth for UL MIMO for power class 5 p. 106
6.2D.2.6 UE maximum output power reduction for modulation / channel bandwidth for UL MIMO for power class 6 p. 106
6.2D.3 UE maximum output power reduction with additional requirements for UL MIMO p. 106
6.2D.3.1 UE maximum output power reduction with additional requirements for UL MIMO for power class 1 p. 106
6.2D.3.2 UE maximum output power reduction with additional requirements for UL MIMO for power class 2 p. 106
6.2D.3.3 UE maximum output power reduction with additional requirements for UL MIMO for power class 3 p. 106
6.2D.3.4 UE maximum output power reduction with additional requirements for UL MIMO for power class 4 p. 107
6.2D.3.5 UE maximum output power reduction with additional requirements for UL MIMO for power class 5 p. 107
6.2D.3.6 UE maximum output power reduction with additional requirements for UL MIMO for power class 6 p. 107
6.2D.4 Configured transmitted power for UL MIMO p. 107
6.2K Transmitter power for simultaneous transmission to multiple directions p. 107
6.2K.1 UE maximum output power for simultaneous transmission to multiple directions p. 107
6.2K.2 UE maximum output power reduction for simultaneous transmission to multiple directions p. 107
6.2K.3 UE maximum output power with additional requirements for simultaneous transmission to multiple directions p. 107
6.2K.4 Configured transmitted power for simultaneous transmission to multiple directions p. 108
6.3 Output power dynamics p. 108
6.3.1 Minimum output power p. 108
6.3.1.0 General p. 108
6.3.1.1 Minimum output power for power class 1 p. 108
6.3.1.2 Minimum output power for power class 2, 3, and 4 p. 109
6.3.1.3 Minimum output power for power class 5 and 6 p. 109
6.3.1.4 Minimum output power for power class 7 p. 109
6.3.2 Transmit OFF power p. 110
6.3.3 Transmit ON/OFF time mask p. 110
6.3.3.1 General p. 110
6.3.3.2 General ON/OFF time mask p. 111
6.3.3.3 Transmit power time mask for slot and short or long subslot boundaries p. 111
6.3.3.4 PRACH time mask p. 111
6.3.3.5 Void
6.3.3.6 SRS time mask p. 113
6.3.3.7 PUSCH-PUCCH and PUSCH-SRS time masks p. 114
6.3.3.8 Transmit power time mask for consecutive slot or long subslot transmission and short subslot transmission boundaries p. 114
6.3.3.9 Transmit power time mask for consecutive short subslot transmissions boundaries p. 115
6.3.4 Power control p. 116
6.3.4.1 General p. 116
6.3.4.2 Absolute power tolerance p. 116
6.3.4.3 Relative power tolerance p. 116
6.3.4.4 Aggregate power tolerance p. 117
6.3A Output power dynamics for CA p. 117
6.3A.1 Minimum output power for CA p. 117
6.3A.1.0 General p. 117
6.3A.1.1 Minimum output power for power class 1 p. 118
6.3A.1.2 Minimum output power for power class 2, 3, and 4 p. 118
6.3A.1.3 Minimum output power for power class 5 and 6 p. 119
6.3A.2 Transmit OFF power for CA p. 119
6.3A.3 Transmit ON/OFF time mask for CA p. 119
6.3A.4 Power control for CA p. 120
6.3A.4.1 General p. 120
6.3D Output power dynamics for UL MIMO p. 121
6.3D.0 General p. 121
6.3D.1 Minimum output power for UL MIMO p. 121
6.3D.1.0 General p. 121
6.3D.1.1 Minimum output power for UL MIMO for power class 1 p. 121
6.3D.1.2 Minimum output power for UL MIMO for power class 2, 3 and 4 p. 121
6.3D.1.3 Minimum output power for UL MIMO for power class 5 and 6 p. 121
6.3D.2 Transmit OFF power for UL MIMO p. 121
6.3D.3 Transmit ON/OFF time mask for UL MIMO p. 121
6.4 Transmit signal quality p. 122
6.4.1 Frequency Error p. 122
6.4.2 Transmit modulation quality p. 122
6.4.2.0 General p. 122
6.4.2.1 Error vector magnitude p. 122
6.4.2.2 Carrier leakage p. 124
6.4.2.2.1 General p. 124
6.4.2.2.2 Carrier leakage for power class 1 p. 124
6.4.2.2.3 Carrier leakage for power class 2 p. 124
6.4.2.2.4 Carrier leakage for power class 3 p. 125
6.4.2.2.5 Carrier leakage for power class 4 p. 125
6.4.2.2.6 Carrier leakage for power class 5 p. 125
6.4.2.2.7 Carrier leakage for power class 6 p. 125
6.4.2.2.8 Carrier leakage for power class 7 p. 125
6.4.2.3 In-band emissions p. 126
6.4.2.3.1 General p. 126
6.4.2.3.2 In-band emissions for power class 1 p. 126
6.4.2.3.3 In-band emissions for power class 2 p. 127
6.4.2.3.4 In-band emissions for power class 3 p. 128
6.4.2.3.5 In-band emissions for power class 4 p. 129
6.4.2.3.6 In-band emissions for power class 5 p. 130
6.4.2.3.7 In-band emissions for power class 6 p. 131
6.4.2.3.8 In-band emissions for power class 7 p. 131
6.4.2.4 EVM equalizer spectrum flatness p. 131
6.4.2.5 EVM spectral flatness for Pi/2 BPSK modulation p. 132
6.4.2.6 Phase continuity requirements for DMRS bundling p. 133
6.4A Transmit signal quality for CA p. 134
6.4A.0 General p. 134
6.4A.1 Frequency error p. 135
6.4A.2 Transmit modulation quality p. 135
6.4A.2.0 General p. 135
6.4A.2.1 Error Vector magnitude p. 135
6.4A.2.2 Carrier leakage p. 135
6.4A.2.2.1 General p. 135
6.4A.2.2.2 Carrier leakage for power class 1 p. 136
6.4A.2.2.3 Carrier leakage for power class 2 p. 136
6.4A.2.2.4 Carrier leakage for power class 3 p. 136
6.4A.2.2.5 Carrier leakage for power class 4 p. 137
6.4A.2.2.6 Carrier leakage for power class 5 p. 137
6.4A.2.2.7 Carrier leakage for power class 6 p. 137
6.4A.2.3 Inband emissions p. 138
6.4A.2.3.1 General p. 138
6.4A.2.3.2 Inband emissions for power class 1 p. 138
6.4A.2.3.3 Inband emissions for power class 2 p. 139
6.4A.2.3.4 Inband emissions for power class 3 p. 140
6.4A.2.3.5 Inband emissions for power class 4 p. 141
6.4A.2.3.6 Inband emissions for power class 5 p. 142
6.4A.2.3.7 Inband emissions for power class 6 p. 143
6.4A.2.4 EVM equalizer spectrum flatness p. 143
6.4D Transmit signal quality for UL MIMO p. 143
6.4D.0 General p. 143
6.4D.1 Frequency error for UL MIMO p. 143
6.4D.2 Transmit modulation quality for UL MIMO p. 144
6.4D.3 Time alignment error for UL MIMO p. 144
6.4D.4 Requirements for coherent UL MIMO p. 144
6.5 Output RF spectrum emissions p. 145
6.5.1 Occupied bandwidth p. 145
6.5.2 Out of band emissions p. 145
6.5.2.0 General p. 145
6.5.2.1 Spectrum emission mask p. 145
6.5.2.2 Void
6.5.2.3 Adjacent channel leakage ratio p. 146
6.5.3 Spurious emissions p. 147
6.5A Output RF spectrum emissions for CA p. 150
6.5A.1 Occupied bandwidth for CA p. 150
6.5A.1.0 General p. 150
6.5A.1.1 Occupied bandwidth for intra-band contiguous UL CA p. 150
6.5A.1.2 Occupied bandwidth for intra-band non-contiguous UL CA p. 150
6.5A.1.3 Occupied bandwidth for inter-band UL CA p. 150
6.5A.2 Out of band emissions p. 150
6.5A.2.1 Spectrum emission mask for CA p. 150
6.5A.2.1.0 General p. 150
6.5A.2.1.1 Spectrum emission mask for intra-band contiguous UL CA p. 150
6.5A.2.1.2 Spectrum emission mask for intra-band non-contiguous UL CA p. 151
6.5A.2.1.3 Spectrum emission mask for inter-band UL CA p. 151
6.5A.2.2 Void
6.5A.2.3 Adjacent channel leakage ratio for CA p. 151
6.5A.3 Spurious emissions for CA p. 152
6.5A.3.0 General spurious emissions for CA p. 152
6.5A.3.0.0 General p. 152
6.5A.3.0.1 Spurious emissions for intra-band contiguous UL CA p. 153
6.5A.3.0.2 Spurious emissions for intra-band non-contiguous UL CA p. 153
6.5A.3.0.3 Spurious emissions for inter-band UL CA p. 153
6.5A.3.1 Spurious emission band UE co-existence for UL CA p. 153
6.5A.3.2 Additional spurious emissions p. 154
6.5D Output RF spectrum emissions for UL MIMO p. 155
6.5D.1 Occupied bandwidth for UL MIMO p. 155
6.5D.2 Out of band emissions for UL MIMO p. 155
6.5D.3 Spurious emissions for UL MIMO p. 155
6.6 Beam correspondence p. 155
6.6.1 General p. 155
6.6.2 Beam correspondence for power class 1 p. 155
6.6.2.1 General p. 155
6.6.2.2 Void
6.6.2.3 Side Conditions p. 155
6.6.2.3.1 Void
6.6.2.3.2 Void
6.6.2.3.3 Void
6.6.2.3.4 Side Condition for Beam Correspondence requirements in initial access and RRC_INACTIVE p. 155
6.6.2.4 Applicability p. 156
6.6.3 Void
6.6.4 Beam correspondence for power class 3 p. 156
6.6.4.1 General p. 156
6.6.4.2 Beam correspondence tolerance for power class 3 p. 157
6.6.4.3 Side Conditions p. 157
6.6.4.3.1 Side Condition for beam correspondence based on SSB and CSI-RS p. 157
6.6.4.3.2 Side Condition for SSB based enhanced Beam Correspondence requirements p. 158
6.6.4.3.3 Side Condition for CSI-RS based enhanced Beam Correspondence requirements p. 158
6.6.4.3.4 Side Condition for Beam Correspondence requirements in initial access and RRC_INACTIVE p. 159
6.6.4.4 Applicability p. 159
6.6.5 Void
6.6.6 Beam correspondence for power class 5 p. 160
6.6.6.1 General p. 160
6.6.6.2 (Reserved) p. 160
6.6.6.3 Side Conditions p. 160
6.6.6.3.1 Side Condition for beam correspondence based on SSB and CSI-RS p. 160
6.6.6.3.2 Side Condition for SSB based enhanced Beam Correspondence requirements p. 161
6.6.6.3.3 Side Condition for CSI-RS based enhanced Beam Correspondence requirements p. 161
6.6.6.3.4 Side Condition for Beam Correspondence requirements in initial access and RRC_INACTIVE p. 162
6.6.6.4 Applicability p. 162
6.6.7 Beam correspondence for power class 6 p. 162
6.6.7.1 General p. 162
6.6.7.2 Void
6.6.7.3 Side Conditions p. 163
6.6.7.3.1 Void
6.6.7.3.2 Side Condition for SSB based enhanced Beam Correspondence requirements p. 163
6.6.7.3.3 Side Condition for CSI-RS based enhanced Beam Correspondence requirements p. 163
6.6.7.3.4 Side Condition for Beam Correspondence requirements in initial access and RRC_INACTIVE p. 164
6.6.7.4 Applicability p. 164
6.6.8 Beam correspondence for power class 7 p. 165
6.6.8.1 General p. 165
6.6.8.2 Void
6.6.8.3 Side Conditions p. 165
6.6.8.3.1 Side Condition for beam correspondence based on SSB and CSI-RS p. 165
6.6.8.3.2 Side Condition for SSB based enhanced Beam Correspondence requirements p. 166
6.6.8.3.3 Side Condition for CSI-RS based enhanced Beam Correspondence requirements p. 166
6.6.8.3.4 Side Condition for Beam Correspondence requirements in initial access and RRC_INACTIVE p. 167
6.6.8.4 Applicability p. 167
6.6A Beam correspondence for CA p. 167
