Content for TS 25.141 Word version: 18.0.0
A Measurement channels
B Measurement system set-up
C General rules for statistical testing
D Propagation conditions
E Global In-Channel TX-Test
F Derivation of Test Requirements
G Acceptable uncertainty of Test Equipment
H UTRAN Measurement Test Cases
I Characteristics of the W-CDMA interference signal
$ Change history
A (Normative) Measurement channels p. 180
A.1 Summary of UL reference measurement channels p. 180
A.2 UL reference measurement channel for 12,2 kbps p. 181
A.3 UL reference measurement channel for 64 kbps p. 182
A.4 UL reference measurement channel for 144 kbps p. 183
A.5 UL reference measurement channel for 384 kbps p. 184
A.6 Void
A.7 Reference measurement channels for UL RACH |R4| p. 185
A.8 Void
A.9 Reference measurement channel for HS-DPCCH |R6| p. 185
A.9A Reference measurement channel for 4C-HSDPA HS-DPCCH |R10| p. 186
A.10 Summary of E-DPDCH Fixed reference channels |R6| p. 187
A.11 E-DPDCH Fixed reference channel 1 (FRC1) |R6| p. 187
A.12 E-DPDCH Fixed reference channel 2 (FRC2) |R6| p. 188
A.13 E-DPDCH Fixed reference channel 3 (FRC3) |R6| p. 189
A.14 E-DPDCH Fixed reference channel 4 (FRC4) |R6| p. 190
A.15 E-DPDCH Fixed reference channel 5 (FRC5) |R6| p. 191
A.16 E-DPDCH Fixed reference channel 6 (FRC6) |R6| p. 192
A.17 E-DPDCH Fixed reference channel 7 (FRC7) |R6| p. 192
A.18 E-DPDCH Fixed reference channel 8 (FRC8) |R7| p. 193
A.19 E-DPDCH Fixed reference channel 9 (FRC9) |R11| p. 194
A.20 E-DPDCH Fixed reference channel 10 (FRC10) |R11| p. 196
B Measurement system set-up p. 198
B.1 Transmitter p. 198
B.1.1 Maximum output power, total power dynamic range p. 198
B.1.2 Frequency, Code Power and Transmit Modulation p. 198
B.1.3 Power control steps and power control dynamic range p. 199
B.1.4 Out of band emission p. 199
B.1.5 Transmit intermodulation p. 199
B.1.6 Time alignment error in TX diversity, MIMO, DC-HSDPA, DB-DC-HSDPA and 4C-HSDPA |R5| p. 200
B.1.7 Home BS output power for adjacent channel protection |R8| p. 200
B.2 Receiver p. 200
B.2.1 Reference sensitivity level p. 200
B.2.2 Dynamic range p. 201
B.2.3 Adjacent Channel Selectivity (ACS) p. 201
B.2.4 Blocking characteristics p. 202
B.2.5 Intermodulation characteristics p. 202
B.2.6 Receiver spurious emission p. 203
B.3 Performance requirement |R4| p. 203
B.3.1 Demodulation of DCH, RACH and HS-DPCCH signalling in static conditions p. 203
B.3.2 Demodulation of DCH, RACH and HS-DPCCH signalling in multipath fading conditions p. 204
B.3.3 Verification of the internal BER and BLER calculation p. 204
B.3.4 Demodulation of E-DPDCH, S-E-DPDCH and E-DPCCH signalling in multipath fading conditions |R6| p. 205
B.3.5 Demodulation of DCH in moving propagation conditions or birth-death propagation conditions, or Demodulation of DCH, RACH in high speed train conditions |R6| p. 207
C (Normative) General rules for statistical testing p. 208
C.1 Statistical testing of receiver BER/BLER performance |R5| p. 208
C.1.1 Error Definition p. 208
C.1.2 Test Method p. 208
C.1.3 Test Criteria p. 208
C.1.4 Calculation assumptions p. 208
C.1.4.1 Statistical independence p. 208
C.1.4.2 Applied formulas p. 208
C.1.4.3 Approximation of the distribution p. 209
C.1.5 Definition of good pass fail decision. p. 209
C.1.6 Good balance between test time and statistical significance p. 210
C.1.7 Pass fail decision rules p. 211
C.1.8 Test conditions for BER, BLER, Pd, E-DPCCH tests p. 212
C.1.9 Practical Use (informative) p. 217
C.2 Statistical Testing of E-DPDCH Throughput |R6| p. 219
C.2.1 Definition p. 219
C.2.2 Mapping throughput to block error ratio p. 219
C.2.3 Bad DUT factor p. 219
C.2.4 Minimum Test time p. 221
C.2.5 Statistical independence p. 222
C.2.6 Formula p. 222
C.2.7 Meaning of a decision p. 223
C.2.8 The test limit p. 223
D (Normative) Propagation conditions p. 224
D.1 Static propagation condition p. 224
D.2 Multi-path fading propagation conditions p. 224
D.3 Moving propagation conditions p. 224
D.4 Birth-Death propagation conditions p. 225
D.4A High speed train conditions |R7| p. 226
D.5 Multi-path fading propagation conditions for E DPDCH and E-DPCCH |R6| p. 228
E (Normative) Global In-Channel TX-Test p. 229
E.1 General p. 229
E.2 Definition of the process p. 229
E.2.1 Basic principle p. 229
E.2.2 Output signal of the TX under test p. 229
E.2.3 Reference signal p. 229
E.2.4 Classification of measurement results p. 229
E.2.5 Process definition to achieve results of type "deviation" p. 230
E.2.5.1 Decision Point Power p. 231
E.2.5.2 Code-Domain Power p. 231
E.2.6 Process definition to achieve results of type "residual" p. 231
E.3 Notes p. 233
E.3.1 Symbol length p. 233
E.3.2 Deviation p. 233
E.3.3 Residual p. 233
E.3.4 Scrambling Code p. 233
E.3.5 IQ p. 233
E.3.6 Synch Channel p. 233
E.3.7 Formula for the minimum process p. 233
E.3.8 Power Step p. 234
E.3.9 Formula for EVM p. 235
F Derivation of Test Requirements p. 236
G Acceptable uncertainty of Test Equipment p. 242
G.1 Transmitter measurements p. 242
G.2 Receiver measurements p. 243
G.3 Performance measurements p. 243
H UTRAN Measurement Test Cases p. 244
H.1 Purpose of Annex p. 244
H.2 Received Total Wideband Power p. 244
H.3 Transmitted code power |R5| p. 244
H.4 Transmitted carrier power |R5| p. 245
I (Normative) Characteristics of the W-CDMA interference signal |R5| p. 246
$ Change history p. 247
