Content for TS 36.141 Word version: 18.4.0
A Reference Measurement channels
B Propagation conditions
C Characteristics of the interfering signals
D Environmental requirements for the BS equipment
E General rules for statistical testing
F Global In-Channel TX-Test
A (Normative) Reference Measurement channels p. 434
A.0 General p. 434
A.1 Fixed Reference Channels for reference sensitivity and in--channel selectivity (QPSK, R=1/3) p. 436
A.2 Fixed Reference Channels for dynamic range (16QAM, R=2/3) p. 436
A.3 Fixed Reference Channels for performance requirements (QPSK 1/3) p. 437
A.4 Fixed Reference Channels for performance requirements (16QAM 3/4) p. 437
A.5 Fixed Reference Channels for performance requirements (64QAM 5/6) p. 438
A.6 PRACH Test preambles p. 438
A.7 Fixed Reference Channels for UL timing adjustment (Scenario 1) p. 439
A.8 Fixed Reference Channels for UL timing adjustment (Scenario 2) p. 439
A.9 Multi user PUCCH test p. 440
A.10 PUCCH transmission on two antenna ports test p. 440
A.11 Fixed Reference Channel for PUSCH with TTI bundling and enhanced HARQ pattern p. 440
A.14 Fixed Reference Channels for NB-IOT reference sensitivity (π/2 BPSK, R=1/3) p. 441
A.15 Fixed Reference Channels for NB-IoT dynamic range (π/4 QPSK, R=2/3) p. 442
A.16 Fixed Reference Channels for NB-IoT NPUSCH format 1 p. 443
A.16.1 One PRB p. 443
A.17 Fixed Reference Channels for performance requirements (256QAM 5/6) p. 444
A.18 Fixed Reference Channels for PUSCH transmission in UpPTS (16QAM 0.65) p. 444
A.19 Fixed Reference Channels for PUSCH transmission in UpPTS (256QAM 0.69) p. 445
A.20 Fixed Reference Channels for PUSCH with Frame structure type 3 p. 445
A.21 Fixed Reference Channels for performance requirements (QPSK 3/5) p. 446
A.22 Fixed Reference Channels for performance requirements (64QAM 1/2) p. 446
A.23 Fixed Reference Channel for subslot-PUSCH p. 447
A.24 Fixed Reference Channels for PUSCH with SubPRB transmission p. 447
B (Normative) Propagation conditions p. 448
B.1 Static propagation condition p. 448
B.2 Multi-path fading propagation conditions p. 448
B.3 High speed train condition p. 449
B.4 Moving propagation conditions p. 453
B.5 Multi-Antenna channel models p. 454
B.5.1 Definition of MIMO Correlation Matrices p. 454
B.5.2 MIMO Correlation Matrices at High, Medium and Low Level p. 455
B.5A Multi-Antenna channel models using cross polarized antennas p. 457
B.5A.1 Definition of MIMO Correlation Matrices using cross polarized antennas p. 458
B.5A.2 Spatial Correlation Matrices at UE and eNB sides p. 458
B.5A.2.1 Spatial Correlation Matrices at UE side p. 458
B.5A.2.2 Spatial Correlation Matrices at eNB side p. 459
B.5A.3 MIMO Correlation Matrices using cross polarized antennas p. 459
B.6 Interference model for enhanced performance requirements type A and type B p. 460
C (Normative) Characteristics of the interfering signals p. 461
D (Normative) Environmental requirements for the BS equipment p. 462
D.1 General p. 462
D.2 Normal test environment p. 462
D.3 Extreme test environment p. 462
D.3.1 Extreme temperature p. 462
D.4 Vibration p. 463
D.5 Power supply p. 463
D.6 Measurement of test environments p. 463
E (Normative) General rules for statistical testing p. 464
F (Normative) Global In-Channel TX-Test p. 465
F.1 General p. 465
F.2.1 Basic principle p. 465
F.2.2 Output signal of the TX under test p. 465
F.2.3 Reference signal p. 465
F.2.4 Measurement results p. 465
F.2.5 Measurement points p. 466
F.3.1 Pre FFT minimization process p. 466
F.3.2 Timing of the FFT window p. 467
F.3.3 Resource Element TX power p. 467
F.3.4 Post FFT equalisation p. 468
F.4.1 EVM p. 469
F.4.2 Averaged EVM p. 470
F.4.2.1 Averaged EVM (TDD) p. 471
