Content for TR 38.817-01 Word version: 16.4.0
2 References
3 Definitions, symbols and abbreviations
4 General and common aspects
5 UE Transmitter characteristics (frequency range 1)
6 UE Receiver characteristics (frequency range 1)
7 UE Transmitter characteristics (frequency range 2)
8 UE Receiver characteristics (frequency range 2)
9 UE Transmitter characteristics (NSA and interworking between frequency ranges 1 and 2)
10 UE Receiver characteristics (NSA and interworking between frequency ranges 1 and 2)
A Environmental conditions
B Coexistence studies for 55dBm CPE deployment in FR2
C Coexistence studies for 29 dBm UE power class for LTE Band 41 and NR Band n41
$ Change history
2 References p. 8
3 Definitions, symbols and abbreviations p. 9
4 General and common aspects p. 10
4.1 Operating bands p. 10
4.2 Channel bandwidth p. 13
4.3 Channel arrangement p. 19
4.3.1 RF channel and sync channel raster p. 19
4.3.1.1 Background p. 19
4.3.1.2 Overall raster concept p. 20
4.3.1.3 RF Channel raster p. 21
4.3.1.4 Synchronization Channel raster p. 22
4.3.1.5 Calculations of sync raster GSCN per operating band p. 23
4.3.2 Channel spacing for adjacent NR carriers p. 25
4.3.3 Channel spacing for intra-band CA p. 25
4.4 Subcarrier spacing p. 26
4.4.1 Non-SS channels p. 26
4.5 Spectrum utilization p. 26
4.5.1 General p. 26
4.5.2 Maximum RB Allocation, Transmission Bandwidth and Spectrum Utilization for FR1 p. 27
4.5.2.1 CP-OFDM waveform p. 27
4.5.2.2 DFT-s-OFDM waveform p. 29
4.5.3 Maximum RB Allocation, Transmission Bandwidth and Spectrum Utilization for FR2 p. 30
4.5.3.1 CP-OFDM Waveform p. 30
4.5.3.2 DFT-s-OFDM waveform p. 30
4.5.4 Sub-carrier alignment with DC and between numerologies and their impact to guard bands for FR1 p. 31
4.5.5 Spectrum utilization when operating multiple numerologies p. 32
4.6 Mixed numerology requirements p. 33
4.6.1 Mixed Numerologies FDM operation use cases p. 33
4.6.2 Data/Data mixed numerology FDM operation p. 33
4.6.3 Data/SS mixed numerology FDM operation p. 34
4.7 TRx test metrics p. 34
5 UE Transmitter characteristics (frequency range 1) p. 37
5.1 General p. 37
5.1.1 CA Bandwidth Class p. 37
5.2 Transmit power p. 37
5.2.1 Power Class p. 37
5.2.2 MPR /A-MPR p. 39
5.2.3 UE maximum output power for modulation / RB allocation p. 39
5.2.4 Inner RB allocation range for all 5MHz - 100MHz channel bandwidths and SCS p. 40
5.3 Output power dynamics p. 48
5.4 Transmit signal quality p. 49
5.4.1 IQ-Image and Carrier leakage p. 49
5.4.2 Error vector magnitude p. 49
5.4.3 In-band emissions p. 50
5.5 Output RF spectrum emissions p. 51
5.5.1 Occupied bandwidth p. 51
5.5.2 Spectrum emission mask p. 51
5.5.2.1 General spectrum emission mask p. 51
5.5.2.2 Additional spectrum emission requirements p. 51
5.5.3 Adjacent Channel Leakage ratio p. 52
5.5.4 Spurious emission p. 53
5.6 Transmit intermodulation p. 55
5.7 ON/OFF time mask p. 56
5.7.1 UE transient time p. 56
5.8 Additional UE RF Tx requirements for SUL and LTE-NR co-existence p. 56
6 UE Receiver characteristics (frequency range 1) p. 58
6.1 General p. 58
6.2 Receiver Sensitivity p. 58
6.3 Selectivity p. 64
6.4 Blocking performance p. 64
6.5 Spurious response p. 64
6.6 Intermodulation performance p. 64
6.7 Spurious emission p. 64
6.8 Additional UE RF Rx requirements for SUL and LTE-NR co-existence p. 64
6.8.1 REFSENS p. 64
6.8.2 Other receiver requirements p. 64
7 UE Transmitter characteristics (frequency range 2) p. 65
7.1 General p. 65
7.1.1 CA Bandwidth Class p. 65
7.2 Transmit power p. 65
7.2.1 Power Class p. 65
7.2.1.1 UE Power class 1 p. 66
7.2.1.1.1 Minimum Peak EIRP requirement p. 66
7.2.1.1.2 Maximum TRP/EIRP requirement p. 67
7.2.1.1.3 Spherical coverage requirement p. 67
7.2.1.2 Void
7.2.1.3 UE Power class 2 p. 70
7.2.1.3.1 Minimum Peak EIRP requirement p. 70
7.2.1.3.2 Maximum TRP/EIRP requirement p. 70
7.2.1.3.3 Spherical coverage requirement p. 71
7.2.1.4 UE Power class 3 p. 71
7.2.1.4.1 Minimum Peak EIRP requirement p. 72
7.2.1.4.2 Maximum TRP/EIRP requirement p. 73
7.2.1.4.3 Spherical coverage requirement p. 73
7.2.1.5 UE Power class 4 p. 75
7.2A Transmit power for CA p. 77
7.3 Output power dynamics p. 78
7.4 Transmit signal quality p. 79
7.5 Output RF spectrum emissions p. 79
7.5.1 Occupied bandwidth p. 79
7.5.2 Spectrum emission mask p. 79
7.5.3 Adjacent Channel Leakage ratio p. 79
7.5.4 Spurious emission p. 79
7.6 Transmit intermodulation p. 82
7.7 ON/OFF time mask p. 82
7.7.1 UE transient time p. 82
7.8 Beam correspondence p. 82
8 UE Receiver characteristics (frequency range 2) p. 85
8.1 General p. 85
8.2 Receiver Sensitivity p. 85
8.3 Selectivity p. 85
8.4 Blocking performance p. 85
8.5 Spurious response p. 85
8.6 Intermodulation performance p. 85
8.7 Spurious emission p. 85
9 UE Transmitter characteristics (NSA and interworking between frequency ranges 1 and 2) p. 85
10 UE Receiver characteristics (NSA and interworking between frequency ranges 1 and 2) p. 85
A Environmental conditions p. 86
B Coexistence studies for 55dBm CPE deployment in FR2 p. 87
B.1 Introduction p. 87
B.2 Network layout model p. 87
B.2.1 Urban macro p. 87
B.2.2 Dense urban p. 89
B.3 Propagation model p. 89
B.4 Transmission power control model p. 89
B.5 Received signal power model p. 89
B.6 Other simulation parameters p. 90
B.7 Simulation description p. 90
B.8 Evaluation metric p. 90
B.9 Antenna configuration p. 91
B.9.1 Base station p. 91
B.9.2 CPE p. 91
B.10 Evaluated ACIR range p. 91
B.11 Co-existence scenarios p. 91
B.12 Summary of co-existence simulations p. 91
C Coexistence studies for 29 dBm UE power class for LTE Band 41 and NR Band n41 p. 94
C.1 Simulation assumptions p. 94
C.1.1 Macro cell propagation model p. 94
C.1.1.1 Macro cell propagation model - urban and suburban areas p. 94
C.1.1.2 Macro cell propagation model - rural area p. 94
C.1.2 Power control simulation parameters p. 94
C.1.3 Cell layout p. 96
C.1.4 Other simulation assumptions p. 96
C.1.5 Simulation procedure p. 97
C.2 Simulation results p. 98
C.2.1 UE ACLR p. 98
C.2.2 BS receiver blocking p. 98
$ Change history p. 100
