Tech-invite 3GPPspace IETFspace

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Content for TR 38.803 Word version: 14.4.0

0… 2… 6… 7…

7 Relation with the existing specifications p. 143

8 Regulatory aspect p. 144

8.1 Overview of international and regional regulation p. 144

8.1.1 ITU-R p. 144

8.1.2 European regulation p. 145

8.1.3 U.S. regulation (FCC) p. 145

8.2 Boundary between spurious and OOB domain p. 147

8.2.1 Application of boundary for UMTS and LTE BS below 6 GHz p. 147

8.2.2 Application of boundary for UMTS and LTE UE below 6 GHz p. 148

8.2.3 Wideband, multicarrier and Multi-RAT transmissions p. 148

8.2.4 Regulation above 6 GHz and for large carrier bandwidths p. 149

9 Radio resource management p. 153

9.1 Mobility aspects p. 153

9.2 Beam management p. 154

9.3 Timing aspects p. 154

9.4 Power consumption related aspects p. 154

9.4.1 Power consumption model for RRM p. 154

9.4.1.1 UE power consumption model p. 154

9.4.1.2 gNB power consumption model p. 156

9.4.2 Principles for reducing power consumption p. 156

9.4.3 Configurability of requirements p. 157

9.5 Measurements and measurement related requirements p. 157

9.5.1 Measurement procedures p. 157

9.5.2 Measurement reporting p. 157

9.5.3 Measurements by carrier frequency relation p. 157

9.5.3.1 Intra-frequency measurements p. 157

9.5.3.2 Inter-frequency measurements p. 157

9.5.3.3 Inter-RAT measurements p. 158

9.5.3.4 CA measurements p. 158

9.5.4 Measurements in relation to beams p. 158

9.5.5 Measurement bandwidth aspects p. 158

9.5.5.1 Measurements for UEs with different supported BW and numerology p. 158

9.6 Measurement capacity p. 158

10 Testability p. 159

10.1 RRM requirements testability p. 159

10.1.1 General p. 159

10.1.2 Testability of NR RRM requirements on frequency bands below 6GHz p. 159

10.1.3 Testability of NR RRM requirements on frequency bands above 6GHz p. 159

10.1.3.1 Over the air testing p. 159

10.2 UE RF requirements testability p. 160

10.2.1 General p. 160

10.2.2 Testability of UE RF TX and RX characteristics - without test interface control of beam direction p. 160

10.2.2.1 Baseline measurement setup: centre and off centre of beam measurement setup p. 160

10.2.2.2 Centre of beam measurement setup p. 161

10.2.2.3 Equivalence Criteria p. 162

10.2.2.4 Far Field Criteria for the baseline measurement setup p. 163

10.2.2.5 OTA measurements in the radiative near field p. 164

10.2.2.6 Sampling grids for TRP measurements p. 166

10.2.2.6.1 Full-sphere uniform sampling grid p. 166

10.2.2.6.2 Orthogonal axis sampling grid p. 167

10.2.2.6.3 Constant area sampling grid p. 167

10.2.3 Test Interface p. 168

10.3 BS RF requirements testability p. 168

10.3.2 - p. 169

10.3.2.1 Over the air testing p. 169

10.3.2.1.1 EIRP test setup p. 170

10.3.2.1.2 EIS test setup p. 171

10.3.2.1.3 TRP test setup p. 171

11 WP 5D for WRC-19 agenda item 1.13 p. 172

11.1 Requests by WP 5D for WRC-19 agenda item 1.13 p. 172

11.2 Response to WP 5D for WRC-19 agenda item 1.13 p. 173

11.2.1 Duplex Method p. 173

11.2.2 Channel bandwidth p. 174

11.2.3 Signal bandwidth p. 174

11.2.4 Transmitter characteristics p. 174

11.2.4.1 Power dynamic range p. 174

11.2.4.2 Spectral mask p. 174

11.2.4.3 ACLR p. 175

11.2.4.4 Spurious emissions p. 175

11.2.5 Receiver characteristics p. 175

11.2.5.1 Noise figure p. 175

11.2.5.2 Sensitivity p. 175

11.2.5.3 Blocking response p. 175

11.2.5.4 ACS p. 176

11.2.5.5 SINR operating range p. 176

12 Conclusions p. 176

A PA models p. 177

A.1 Detailed Generalized Memory Polynomial (GMP) models p. 180

B Usage of bands of interest for NR in Europe p. 192

C Array antenna theory p. 199

D prerequisites for assessment UE beamforming performance p. 201

E UE coordinate system p. 204

E.1 Reference coordinate system p. 204

E.2 Test conditions and angle definitions p. 204

F LS response on IMT parameters to ITU-R WP5D p. 205

$ Change history p. 209