Multi-Standard Radio (MSR) Base Station (BS) conformance testing
Specification: 37141
Summary
This document specifies the conformance testing requirements for Multi-Standard Radio (MSR) Base Stations (BS) in the 3GPP system.
Specification Intelligence
This is a Technical Document in the Unknown Series series, focusing on Technical Document. The document is currently in approved by tsg and under change control and is under formal change control.
Classification
Type: Technical Document
Subject: Unknown Series
Series: 37.xxx
Target: Technical Implementers
Specifics
Status: Change Control
Version
90.0.0
Release 90
0 technical • 0 editorial
Full Document v9d0
3GPP TS 37.141 V9.13.0 (2014-12)
Technical Specification
3rd Generation Partnership Project;
Technical Specification Group Radio Access Network;
E-UTRA, UTRA and GSM/EDGE;
Multi-Standard Radio (MSR) Base Station (BS)
conformance testing
(Release 9)
EMBED Word.Picture.8
The present document has been developed within the 3rd Generation Partnership Project (3GPP TM) and may be further elaborated for the purposes of 3GPP..
The present document has not been subject to any approval process by the 3GPP Organizational Partners and shall not be implemented.
This Specification is provided for future development work within 3GPP only. The Organizational Partners accept no liability for any use of this Specification.
Specifications and reports for implementation of the 3GPP TM system should be obtained via the 3GPP Organizational Partners' Publications Offices.
Keywords
LTE, UMTS, GSM, Base Station
3GPP
Postal address
3GPP support office address
650 Route des Lucioles - Sophia Antipolis
Valbonne - FRANCE
Tel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16
Internet
http://www.3gpp.org
Copyright Notification
No part may be reproduced except as authorized by written permission.
The copyright and the foregoing restriction extend to reproduction in all media.
© 2014, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TTA, TTC).
All rights reserved.
UMTS™ is a Trade Mark of ETSI registered for the benefit of its members
3GPP™ is a Trade Mark of ETSI registered for the benefit of its Members and of the 3GPP Organizational Partners
LTE™ is a Trade Mark of ETSI currently being registered for the benefit of its Members and of the 3GPP Organizational Partners
GSM® and the GSM logo are registered and owned by the GSM Association
Contents
TOC \o "1-9" Foreword PAGEREF _Toc408332170 \h 9
1 Scope PAGEREF _Toc408332171 \h 10
2 References PAGEREF _Toc408332172 \h 10
3 Definitions, symbols and abbreviations PAGEREF _Toc408332173 \h 11
3.1 Definitions PAGEREF _Toc408332174 \h 11
3.2 Symbols PAGEREF _Toc408332175 \h 12
3.3 Abbreviations PAGEREF _Toc408332176 \h 13
4 General test conditions and declarations PAGEREF _Toc408332177 \h 14
4.1 Measurement uncertainties and test requirements PAGEREF _Toc408332178 \h 14
4.1.1 General PAGEREF _Toc408332179 \h 14
4.1.2 Acceptable uncertainty of Test System PAGEREF _Toc408332180 \h 15
4.1.2.1 Measurement of transmitter PAGEREF _Toc408332181 \h 16
4.1.2.2 Measurement of receiver PAGEREF _Toc408332182 \h 17
4.1.3 Interpretation of measurement results PAGEREF _Toc408332183 \h 18
4.2 Base Station classes PAGEREF _Toc408332184 \h 18
4.3 Regional requirements PAGEREF _Toc408332185 \h 19
4.4 Operating bands and band categories PAGEREF _Toc408332186 \h 19
4.4.1 Band category 1 aspects (BC1) PAGEREF _Toc408332187 \h 20
4.4.2 Band category 2 aspects (BC2) PAGEREF _Toc408332188 \h 21
4.4.3 Band category 3 aspects (BC3) PAGEREF _Toc408332189 \h 21
4.5 Channel arrangement PAGEREF _Toc408332190 \h 21
4.5.1 Channel spacing PAGEREF _Toc408332191 \h 21
4.5.2 Channel raster PAGEREF _Toc408332192 \h 21
4.5.3 Carrier frequencies and numbering PAGEREF _Toc408332193 \h 22
4.6 Manufacturer's declarations of regional and optional requirements PAGEREF _Toc408332194 \h 22
4.6.1 Operating band and frequency range PAGEREF _Toc408332195 \h 22
4.6.2 Spurious emissions category PAGEREF _Toc408332196 \h 22
4.6.3 Additional operating band unwanted emissions PAGEREF _Toc408332197 \h 22
4.6.4 Co-existence with other systems PAGEREF _Toc408332198 \h 23
4.6.5 Co-location with other Base Stations PAGEREF _Toc408332199 \h 23
4.7 Capability set definition and manufacturer's declarations of supported RF configurations PAGEREF _Toc408332200 \h 23
4.7.1 Definition of Capability Sets (CS) PAGEREF _Toc408332201 \h 23
4.7.2 Manufacturer's declarations of supported RF configurations PAGEREF _Toc408332202 \h 24
4.8 MSR test configurations PAGEREF _Toc408332203 \h 25
4.8.1 TC1: UTRA multicarrier operation PAGEREF _Toc408332204 \h 25
4.8.1.1 TC1a generation PAGEREF _Toc408332205 \h 25
4.8.1.2 TC1b generation PAGEREF _Toc408332206 \h 26
4.8.1.3 TC1 power allocation PAGEREF _Toc408332207 \h 26
4.8.2 TC2: E-UTRA multicarrier operation PAGEREF _Toc408332208 \h 26
4.8.2.1 TC2 generation PAGEREF _Toc408332209 \h 26
4.8.2.2 TC2 power allocation PAGEREF _Toc408332210 \h 26
4.8.3 TC3: UTRA and E-UTRA multi RAT operation PAGEREF _Toc408332211 \h 26
4.8.3.1 TC3a generation PAGEREF _Toc408332212 \h 27
4.8.3.2 TC3b generation PAGEREF _Toc408332213 \h 27
4.8.3.3 TC3 power allocation PAGEREF _Toc408332214 \h 27
4.8.4 TC4: BC2 transmitter operation PAGEREF _Toc408332215 \h 27
4.8.4.1 TC4a generation PAGEREF _Toc408332216 \h 28
4.8.4.2 TC4b generation PAGEREF _Toc408332217 \h 28
4.8.4.3 TC4c generation PAGEREF _Toc408332218 \h 28
4.8.4.4 TC4d generation PAGEREF _Toc408332219 \h 29
4.8.4.5 TC4e generation PAGEREF _Toc408332220 \h 29
4.8.4.6 TC4 power allocation PAGEREF _Toc408332221 \h 29
4.8.5 TC5: BC2 receiver operation PAGEREF _Toc408332222 \h 29
4.8.5.1 TC5a generation PAGEREF _Toc408332223 \h 29
4.8.5.2 TC5b generation PAGEREF _Toc408332224 \h 30
4.8.6 TC6: Single carrier for receiver tests PAGEREF _Toc408332225 \h 30
4.8.6.1 TC6a generation PAGEREF _Toc408332226 \h 30
4.8.6.2 TC6b generation PAGEREF _Toc408332227 \h 30
4.8.6.3 TC6c generation PAGEREF _Toc408332228 \h 30
4.9 RF channels and test models PAGEREF _Toc408332229 \h 30
4.9.1 RF channels PAGEREF _Toc408332230 \h 30
4.9.2 Test models PAGEREF _Toc408332231 \h 31
4.10 BS configurations PAGEREF _Toc408332232 \h 32
4.10.1 Transmit configurations PAGEREF _Toc408332233 \h 32
4.10.1.1 Multi-carrier transmission with multiple transmitter antenna connectors, transmit diversity and MIMO transmission PAGEREF _Toc408332234 \h 32
4.10.2 Receive configurations PAGEREF _Toc408332235 \h 32
4.10.2.1 Multi-carrier reception with multiple receiver antenna connectors, receiver diversity PAGEREF _Toc408332236 \h 33
4.10.3 Duplexers PAGEREF _Toc408332237 \h 33
4.10.4 Power supply options PAGEREF _Toc408332238 \h 33
4.10.5 Ancillary RF amplifiers PAGEREF _Toc408332239 \h 33
4.10.6 BS with integrated Iuant BS modem PAGEREF _Toc408332240 \h 34
4.10.7 BS using antenna arrays PAGEREF _Toc408332241 \h 34
4.10.7.1 Receiver tests PAGEREF _Toc408332242 \h 34
4.10.7.2 Transmitter tests PAGEREF _Toc408332243 \h 35
4.11 Format and interpretation of tests PAGEREF _Toc408332244 \h 35
5 Applicability of requirements and test configurations PAGEREF _Toc408332245 \h 36
5.1 Multi-RAT capable Base Stations PAGEREF _Toc408332246 \h 37
5.2 Single-RAT Multi-carrier capable Base Stations PAGEREF _Toc408332247 \h 40
6 Transmitter characteristics PAGEREF _Toc408332248 \h 43
6.1 General PAGEREF _Toc408332249 \h 43
6.2 Base Station output power PAGEREF _Toc408332250 \h 43
6.2.1 Base Station maximum output power PAGEREF _Toc408332251 \h 43
6.2.1.1 Definition and applicability PAGEREF _Toc408332252 \h 43
6.2.1.2 Minimum requirement PAGEREF _Toc408332253 \h 43
6.2.1.3 Test purpose PAGEREF _Toc408332254 \h 43
6.2.1.4 Method of test PAGEREF _Toc408332255 \h 43
6.2.1.4.1 Initial conditions PAGEREF _Toc408332256 \h 43
6.2.1.4.2 Procedure PAGEREF _Toc408332257 \h 44
6.2.1.5 Test requirements PAGEREF _Toc408332258 \h 44
6.2.2 E-UTRA DL RS power PAGEREF _Toc408332259 \h 44
6.2.2.1 Definition and applicability PAGEREF _Toc408332260 \h 44
6.2.2.2 Minimum requirement PAGEREF _Toc408332261 \h 44
6.2.2.3 Test purpose PAGEREF _Toc408332262 \h 44
6.2.2.4 Method of test PAGEREF _Toc408332263 \h 44
6.2.2.5 Test requirements PAGEREF _Toc408332264 \h 44
6.2.3 UTRA FDD primary CPICH power PAGEREF _Toc408332265 \h 44
6.2.3.1 Definition and applicability PAGEREF _Toc408332266 \h 44
6.2.3.2 Minimum requirement PAGEREF _Toc408332267 \h 44
6.2.3.3 Test purpose PAGEREF _Toc408332268 \h 45
6.2.3.4 Method of test PAGEREF _Toc408332269 \h 45
6.2.3.5 Test requirements PAGEREF _Toc408332270 \h 45
6.2.4 UTRA TDD primary CCPCH power PAGEREF _Toc408332271 \h 45
6.2.4.1 Definition and applicability PAGEREF _Toc408332272 \h 45
6.2.4.2 Minimum requirement PAGEREF _Toc408332273 \h 45
6.2.4.3 Test purpose PAGEREF _Toc408332274 \h 45
6.2.4.4 Method of test PAGEREF _Toc408332275 \h 45
6.2.4.5 Test requirements PAGEREF _Toc408332276 \h 45
6.3 Output power dynamics PAGEREF _Toc408332277 \h 45
6.3.1 Definition and applicability PAGEREF _Toc408332278 \h 45
6.3.2 Minimum Requirement PAGEREF _Toc408332279 \h 45
6.3.3 Test purpose PAGEREF _Toc408332280 \h 46
6.3.4 Method of test PAGEREF _Toc408332281 \h 46
6.3.5 Test Requirement PAGEREF _Toc408332282 \h 46
6.4 Transmit ON/OFF power PAGEREF _Toc408332283 \h 46
6.4.1 Definition and applicability PAGEREF _Toc408332284 \h 46
6.4.2 Minimum Requirement PAGEREF _Toc408332285 \h 47
6.4.3 Test purpose PAGEREF _Toc408332286 \h 47
6.4.4 Method of test PAGEREF _Toc408332287 \h 47
6.4.4.1 Initial conditions PAGEREF _Toc408332288 \h 47
6.4.4.2 Procedure PAGEREF _Toc408332289 \h 47
6.4.5 Test requirement PAGEREF _Toc408332290 \h 47
6.5 Transmitted signal quality PAGEREF _Toc408332291 \h 48
6.5.1 Modulation quality PAGEREF _Toc408332292 \h 48
6.5.1.1 Definition and applicability PAGEREF _Toc408332293 \h 48
6.5.1.2 Minimum Requirement PAGEREF _Toc408332294 \h 48
6.5.1.3 Test purpose PAGEREF _Toc408332295 \h 48
6.5.1.4 Method of test PAGEREF _Toc408332296 \h 48
6.5.1.4.1 Initial conditions PAGEREF _Toc408332297 \h 48
6.5.1.4.2 Procedure PAGEREF _Toc408332298 \h 48
6.5.1.5 Test Requirements PAGEREF _Toc408332299 \h 49
6.5.1.5.1 E-UTRA test requirement PAGEREF _Toc408332300 \h 49
6.5.1.5.2 UTRA FDD test requirement PAGEREF _Toc408332301 \h 49
6.5.1.5.3 UTRA TDD test requirement PAGEREF _Toc408332302 \h 49
6.5.1.5.4 GSM/EDGE test requirement PAGEREF _Toc408332303 \h 49
6.5.2 Frequency error PAGEREF _Toc408332304 \h 49
6.5.2.1 Definition and applicability PAGEREF _Toc408332305 \h 49
6.5.2.2 Minimum Requirement PAGEREF _Toc408332306 \h 49
6.5.2.3 Test purpose PAGEREF _Toc408332307 \h 49
6.5.2.4 Method of test PAGEREF _Toc408332308 \h 49
6.5.2.5 Test Requirements PAGEREF _Toc408332309 \h 49
6.5.2.5.1 E-UTRA test requirement PAGEREF _Toc408332310 \h 49
6.5.2.5.2 UTRA FDD test requirement PAGEREF _Toc408332311 \h 49
6.5.2.5.3 UTRA TDD test requirement PAGEREF _Toc408332312 \h 49
6.5.2.5.4 GSM/EDGE test requirement PAGEREF _Toc408332313 \h 50
6.5.3 Time alignment error PAGEREF _Toc408332314 \h 50
6.5.3.1 Definition and applicability PAGEREF _Toc408332315 \h 50
6.5.3.2 Minimum requirement PAGEREF _Toc408332316 \h 50
6.5.3.3 Test purpose PAGEREF _Toc408332317 \h 50
6.5.3.4 Method of test PAGEREF _Toc408332318 \h 50
6.5.3.5 Test requirement PAGEREF _Toc408332319 \h 50
6.6 Unwanted emissions PAGEREF _Toc408332320 \h 50
6.6.1 Transmitter spurious emissions PAGEREF _Toc408332321 \h 51
6.6.1.1 Definition and applicability PAGEREF _Toc408332322 \h 51
6.6.1.2 Minimum requirement PAGEREF _Toc408332323 \h 51
6.6.1.3 Test purpose PAGEREF _Toc408332324 \h 51
6.6.1.4 Method of test PAGEREF _Toc408332325 \h 51
6.6.1.4.1 Initial conditions PAGEREF _Toc408332326 \h 51
6.6.1.4.2 Procedure PAGEREF _Toc408332327 \h 51
6.6.1.5 Test requirements PAGEREF _Toc408332328 \h 51
6.6.1.5.1 Spurious emissions (Category A) PAGEREF _Toc408332329 \h 52
6.6.1.5.2 Spurious emissions (Category B) PAGEREF _Toc408332330 \h 52
6.6.1.5.3 Additional test requirement for BC2 (category B) PAGEREF _Toc408332331 \h 52
6.6.1.5.4 Protection of the BS receiver of own or different BS PAGEREF _Toc408332332 \h 52
6.6.1.5.5 Additional spurious emission requirements PAGEREF _Toc408332333 \h 53
6.6.1.5.6 Co-location with other Base Stations PAGEREF _Toc408332334 \h 56
6.6.2 Operating band unwanted emissions PAGEREF _Toc408332335 \h 58
6.6.2.1 Definition and applicability PAGEREF _Toc408332336 \h 58
6.6.2.2 Minimum requirement PAGEREF _Toc408332337 \h 58
6.6.2.3 Test purpose PAGEREF _Toc408332338 \h 58
6.6.2.4 Method of test PAGEREF _Toc408332339 \h 59
6.6.2.4.1 Initial conditions PAGEREF _Toc408332340 \h 59
6.6.2.4.2 Procedure PAGEREF _Toc408332341 \h 59
6.6.2.5 Test requirement PAGEREF _Toc408332342 \h 59
6.6.2.5.1 Test requirements for Band Categories 1 and 3 PAGEREF _Toc408332343 \h 59
6.6.2.5.2 Test requirements for Band Category 2 PAGEREF _Toc408332344 \h 60
6.6.2.5.3 Test requirements for GSM/EDGE single-RAT requirements PAGEREF _Toc408332345 \h 61
6.6.2.5.4 Test requirements for additional requirements PAGEREF _Toc408332346 \h 61
6.6.2.5.4.1 Limits in FCC Title 47 PAGEREF _Toc408332347 \h 61
6.6.2.5.4.2 Unsynchronized operation for BC3 PAGEREF _Toc408332348 \h 61
6.6.2.5.4.3 Protection of DTT PAGEREF _Toc408332349 \h 62
6.6.2.5.4.4 Co-existence with services in adjacent frequency bands PAGEREF _Toc408332350 \h 62
6.6.3 Occupied bandwidth PAGEREF _Toc408332351 \h 62
6.6.3.1 Definition and applicability PAGEREF _Toc408332352 \h 62
6.6.3.2 Minimum requirements PAGEREF _Toc408332353 \h 62
6.6.3.3 Test purpose PAGEREF _Toc408332354 \h 62
6.6.3.4 Method of test PAGEREF _Toc408332355 \h 63
6.6.3.5 Test requirement PAGEREF _Toc408332356 \h 63
6.6.4 Adjacent Channel Leakage power Ratio (ACLR) PAGEREF _Toc408332357 \h 63
6.6.4.1 Definition and applicability PAGEREF _Toc408332358 \h 63
6.6.4.2 Minimum requirement PAGEREF _Toc408332359 \h 63
6.6.4.3 Test purpose PAGEREF _Toc408332360 \h 63
6.6.4.4 Method of test PAGEREF _Toc408332361 \h 63
6.6.4.5 Test requirements PAGEREF _Toc408332362 \h 63
6.6.4.5.1 E-UTRA test requirement PAGEREF _Toc408332363 \h 63
6.6.4.5.2 UTRA FDD test requirement PAGEREF _Toc408332364 \h 63
6.6.4.5.3 UTRA TDD test requirement PAGEREF _Toc408332365 \h 64
6.7 Transmitter intermodulation PAGEREF _Toc408332366 \h 64
6.7.1 Definition and applicability PAGEREF _Toc408332367 \h 64
6.7.2 Minimum requirement PAGEREF _Toc408332368 \h 64
6.7.3 Test purpose PAGEREF _Toc408332369 \h 64
6.7.4 Method of test PAGEREF _Toc408332370 \h 64
6.7.4.1 Initial conditions PAGEREF _Toc408332371 \h 64
6.7.4.2 Procedure PAGEREF _Toc408332372 \h 64
6.7.4.2.1 General minimum requirement test procedure PAGEREF _Toc408332373 \h 64
6.7.4.2.2 Additional minimum requirement (BC2) test procedure PAGEREF _Toc408332374 \h 65
6.7.4.2.3 Additional minimum requirement (BC3) test procedure PAGEREF _Toc408332375 \h 66
6.7.5 Test requirements PAGEREF _Toc408332376 \h 66
6.7.5.1 General test requirement PAGEREF _Toc408332377 \h 66
6.7.5.2 Additional test requirement (BC2) PAGEREF _Toc408332378 \h 66
6.7.5.3 Additional test requirement (BC3) PAGEREF _Toc408332379 \h 67
7 Receiver characteristics PAGEREF _Toc408332380 \h 67
7.1 General PAGEREF _Toc408332381 \h 67
7.2 Reference sensitivity level PAGEREF _Toc408332382 \h 67
7.2.1 Definition and applicability PAGEREF _Toc408332383 \h 67
7.2.2 Minimum requirement PAGEREF _Toc408332384 \h 67
7.2.3 Test purpose PAGEREF _Toc408332385 \h 67
7.2.4 Method of test PAGEREF _Toc408332386 \h 67
7.2.5 Test requirements PAGEREF _Toc408332387 \h 67
7.3 Dynamic range PAGEREF _Toc408332388 \h 68
7.3.1 Definition and applicability PAGEREF _Toc408332389 \h 68
7.3.2 Minimum requirement PAGEREF _Toc408332390 \h 68
7.3.3 Test purpose PAGEREF _Toc408332391 \h 68
7.3.4 Method of test PAGEREF _Toc408332392 \h 68
7.3.5 Test requirements PAGEREF _Toc408332393 \h 68
7.4 In-band selectivity and blocking PAGEREF _Toc408332394 \h 68
7.4.1 Definition and applicability PAGEREF _Toc408332395 \h 68
7.4.2 Minimum requirement PAGEREF _Toc408332396 \h 68
7.4.3 Test purpose PAGEREF _Toc408332397 \h 68
7.4.4 Method of test PAGEREF _Toc408332398 \h 69
7.4.4.1 Initial conditions PAGEREF _Toc408332399 \h 69
7.4.4.2 Procedure for general blocking PAGEREF _Toc408332400 \h 69
7.4.4.3 Procedure for narrowband blocking PAGEREF _Toc408332401 \h 69
7.4.4.4 Procedure for additional narrowband blocking for GSM/EDGE PAGEREF _Toc408332402 \h 69
7.4.4.5 Procedure for GSM/EDGE AM suppression PAGEREF _Toc408332403 \h 69
7.4.4.6 Procedure for additional BC3 blocking requirement PAGEREF _Toc408332404 \h 69
7.4.5 Test requirements PAGEREF _Toc408332405 \h 70
7.4.5.1 General blocking test requirement PAGEREF _Toc408332406 \h 70
7.4.5.2 General narrowband blocking test requirement PAGEREF _Toc408332407 \h 70
7.4.5.3 Additional narrowband blocking test requirement for GSM/EDGE PAGEREF _Toc408332408 \h 71
7.4.5.4 GSM/EDGE test requirements for AM suppression PAGEREF _Toc408332409 \h 71
7.4.5.5 Additional BC3 blocking test requirement PAGEREF _Toc408332410 \h 71
7.5 Out-of-band blocking PAGEREF _Toc408332411 \h 71
7.5.1 Definition and applicability PAGEREF _Toc408332412 \h 71
7.5.2 Minimum requirement PAGEREF _Toc408332413 \h 72
7.5.3 Test purpose PAGEREF _Toc408332414 \h 72
7.5.4 Method of test PAGEREF _Toc408332415 \h 72
7.5.4.1 Initial conditions PAGEREF _Toc408332416 \h 72
7.5.4.2 Procedure PAGEREF _Toc408332417 \h 72
7.5.5 Test requirements PAGEREF _Toc408332418 \h 72
7.5.5.1 General out-of-band blocking test requirements PAGEREF _Toc408332419 \h 72
7.5.5.2 Co-location test requirements PAGEREF _Toc408332420 \h 73
7.6 Receiver spurious emissions PAGEREF _Toc408332421 \h 75
7.6.1 Definition and applicability PAGEREF _Toc408332422 \h 75
7.6.2 Minimum requirements PAGEREF _Toc408332423 \h 75
7.6.3 Test purpose PAGEREF _Toc408332424 \h 75
7.6.4 Method of test PAGEREF _Toc408332425 \h 75
7.6.4.1 Initial conditions PAGEREF _Toc408332426 \h 75
7.6.4.2 Procedure PAGEREF _Toc408332427 \h 75
7.6.5 Test requirements PAGEREF _Toc408332428 \h 75
7.6.5.1 General test requirements PAGEREF _Toc408332429 \h 75
7.6.5.2 Additional test requirement for BC2 (Category B) PAGEREF _Toc408332430 \h 76
7.7 Receiver intermodulation PAGEREF _Toc408332431 \h 76
7.7.1 Definition and applicability PAGEREF _Toc408332432 \h 76
7.7.2 Minimum requirement PAGEREF _Toc408332433 \h 76
7.7.3 Test purpose PAGEREF _Toc408332434 \h 76
7.7.4 Method of test PAGEREF _Toc408332435 \h 76
7.7.4.1 Initial conditions PAGEREF _Toc408332436 \h 76
7.7.4.2 Procedure for general and narrowband intermodulation PAGEREF _Toc408332437 \h 77
7.7.4.3 Procedure for additional narrowband intermodulation for GSM/EDGE PAGEREF _Toc408332438 \h 77
7.7.5 Test requirements PAGEREF _Toc408332439 \h 77
7.7.5.1 General intermodulation test requirement PAGEREF _Toc408332440 \h 77
7.7.5.2 General narrowband intermodulation test requirement PAGEREF _Toc408332441 \h 78
7.7.5.3 Additional narrowband intermodulation test requirement for GSM/EDGE PAGEREF _Toc408332442 \h 79
7.8 In-channel selectivity PAGEREF _Toc408332443 \h 79
7.8.1 Definition and applicability PAGEREF _Toc408332444 \h 79
7.8.2 Minimum requirement PAGEREF _Toc408332445 \h 79
7.8.3 Test purpose PAGEREF _Toc408332446 \h 79
7.8.4 Method of testing PAGEREF _Toc408332447 \h 80
7.8.5 Test requirements PAGEREF _Toc408332448 \h 80
8 Performance requirements PAGEREF _Toc408332449 \h 80
Annex A (normative): Characteristics of interfering signals PAGEREF _Toc408332450 \h 81
A.1 UTRA FDD interfering signal PAGEREF _Toc408332451 \h 81
A.2 UTRA TDD interfering signal PAGEREF _Toc408332452 \h 81
A.3 E-UTRA interfering signal PAGEREF _Toc408332453 \h 81
Annex B (normative): Environmental requirements for the BS equipment PAGEREF _Toc408332454 \h 82
B.1 General PAGEREF _Toc408332455 \h 82
B.2 Normal test environment PAGEREF _Toc408332456 \h 82
B.3 Extreme test environment PAGEREF _Toc408332457 \h 82
B.3.1 Extreme temperature PAGEREF _Toc408332458 \h 82
B.4 Vibration PAGEREF _Toc408332459 \h 83
B.5 Power supply PAGEREF _Toc408332460 \h 83
B.6 Measurement of test environments PAGEREF _Toc408332461 \h 83
Annex C (informative): Test Tolerances and Derivation of test requirements PAGEREF _Toc408332462 \h 84
C.1 Measurement of transmitter PAGEREF _Toc408332463 \h 85
C.2 Measurement of receiver PAGEREF _Toc408332464 \h 87
Annex D (informative): Measurement system set-up PAGEREF _Toc408332465 \h 88
D.1 Transmitter PAGEREF _Toc408332466 \h 88
D.1.1 Base station output power, transmitter ON/OFF power, modulation quality, transmitter spurious emissions and operating band unwanted emissions PAGEREF _Toc408332467 \h 88
D.1.2 Transmitter intermodulation PAGEREF _Toc408332468 \h 88
D.2 Receiver PAGEREF _Toc408332469 \h 89
D.2.1 Blocking characteristics PAGEREF _Toc408332470 \h 89
D.2.2 Receiver spurious emissions PAGEREF _Toc408332471 \h 89
D.2.3 Receiver intermodulation PAGEREF _Toc408332472 \h 89
Annex E (normative): E-UTRA Test model for BC3 CS3 BS PAGEREF _Toc408332473 \h 90
E.0 BC3 CS3 Test model description PAGEREF _Toc408332474 \h 90
E.1 E-UTRA Test Model 1.1 (E-TM1.1_BC3CS3) PAGEREF _Toc408332475 \h 91
E.2 E-UTRA Test Model 1.2 (E-TM1.2_BC3CS3) PAGEREF _Toc408332476 \h 91
E.3 E-UTRA Test Model 2 (E-TM2_BC3CS3) PAGEREF _Toc408332477 \h 91
E.4 E-UTRA Test Model 3.1 (E-TM3.1_BC3CS3) PAGEREF _Toc408332478 \h 91
E.5 E-UTRA Test Model 3.2 (E-TM3.2_BC3CS3) PAGEREF _Toc408332479 \h 91
E.6 E-UTRA Test Model 3.3 (E-TM3.3_BC3CS3) PAGEREF _Toc408332480 \h 91
Annex F (informative): Change history PAGEREF _Toc408332481 \h 92
Foreword
This Technical Specification has been produced by the 3rd Generation Partnership Project (3GPP).
The contents of the present document are subject to continuing work within the TSG and may change following formal TSG approval. Should the TSG modify the contents of the present document, it will be re-released by the TSG with an identifying change of release date and an increase in version number as follows:
Version x.y.z
where:
x the first digit:
1 presented to TSG for information;
2 presented to TSG for approval;
3 or greater indicates TSG approved document under change control.
y the second digit is incremented for all changes of substance, i.e. technical enhancements, corrections, updates, etc.
z the third digit is incremented when editorial only changes have been incorporated in the document.
1 Scope
The present document specifies the Radio Frequency (RF) test methods and conformance requirements for E-UTRA, UTRA and GSM/EDGE Multi-Standard Radio (MSR) Base Station (BS). These have been derived from, and are consistent with the E-UTRA, UTRA and GSM/EDGE MSR BS specification defined in [2].
2 References
The following documents contain provisions which, through reference in this text, constitute provisions of the present document.
- References are either specific (identified by date of publication, edition number, version number, etc.) or non‑specific.
- For a specific reference, subsequent revisions do not apply.
- For a non-specific reference, the latest version applies. In the case of a reference to a 3GPP document (including a GSM document), a non-specific reference implicitly refers to the latest version of that document in the same Release as the present document.
[1] 3GPP TR 21.905: "Vocabulary for 3GPP Specifications".
[2] 3GPP TS 37.104: "E-UTRA, UTRA and GSM/EDGE; Multi-Standard Radio (MSR) Base Station (BS) radio transmission and reception".
[3] 3GPP TS 25.104: "Base Station (BS) radio transmission and reception (FDD) ".
[4] 3GPP TS 25.105: "Base Station (BS) radio transmission and reception (TDD) ".
[5] 3GPP TS 36.104: "Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) radio transmission and reception".
[6] 3GPP TS 45.005: "Radio transmission and reception".
[7] ITU-R Recommendation M.1545, "Measurement uncertainty as it applies to test limits for the terrestrial component of International Mobile Telecommunications-2000".
[8] "Title 47 of the Code of Federal Regulations (CFR)", Federal Communications Commission.
[9] 3GPP TS 36.141: "Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) conformance testing".
[10] 3GPP TS 25.141: "Base Station (BS) conformance testing (FDD) ".
[11] 3GPP TS 51.021: "Base Station System (BSS) equipment specification; Radio aspects".
[12] 3GPP TS 25.142: "Base Station (BS) conformance testing (TDD) ".
[13] Recommendation ITU-R SM.329-10, "Unwanted emissions in the spurious domain".
[14] 3GPP TR 25.942: "Radio Frequency (RF) system scenarios".
[15] ITU-R recommendation SM.328: "Spectra and bandwidth of emissions".
[16] IEC 60721: "Classification of environmental conditions".
[17] IEC 60721-3-3: "Classification of environmental conditions - Part 3-3: Classification of groups of environmental parameters and their severities - Stationary use at weather protected locations".
[18] IEC 60721-3-4: "Classification of environmental conditions - Part 3: Classification of groups of environmental parameters and their severities - Section 4: Stationary use at non-weather protected locations".
[19] ETSI EN 300 019-1-3, European Standard (Telecommunications series), “Environmental Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part 1-3: Classification of environmental conditions; Stationary use at weather protected locations”
[20] ETSI EN 300 019-1-4, European Standard (Telecommunications series), “Environmental Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part 1-4: Classification of environmental conditions; Stationary use at non-weather protected locations”.
[21] IEC 60068-2-1 (2007): "Environmental testing - Part 2: Tests. Tests A: Cold".
[22] IEC 60068-2-2 (2007): "Environmental testing - Part 2: Tests. Tests B: Dry heat".
[23] IEC 60068-2-6 (2007): "Environmental testing - Part 2: Tests - Test Fc: Vibration (sinusoidal)".
3 Definitions, symbols and abbreviations
3.1 Definitions
For the purposes of the present document, the terms and definitions given in TR 21.905 [1] and the following apply. A term defined in the present document takes precedence over the definition of the same term, if any, in TR 21.905 [1].
Band category: A group of operating bands for which the same MSR scenarios apply
Base Station RF bandwidth: The bandwidth in which a Base Station transmits and receives multiple carriers and/or RATs simultaneously
Base Station RF bandwidth edge: The frequency of one of the edges of the Base Station RF bandwidth
Carrier: The modulated waveform conveying the E-UTRA, UTRA or GSM/EDGE physical channels
Channel bandwidth: The bandwidth supporting a single E-UTRA, UTRA or GSM/EDGE RF carrier with the transmission bandwidth configured in the uplink or downlink of a cell. The channel bandwidth is measured in MHz and is used as a reference for transmitter and receiver RF requirements.
Carrier power: The power at the antenna connector in the channel bandwidth of the carrier averaged over at least one subframe for E-UTRA, at least one slot for UTRA and the useful part of the burst for GSM/EDGE.
Downlink operating band: The part of the operating band designated for downlink.
Lower RF bandwidth edge: The frequency of the lower edge of the Base Station RF bandwidth, used as a frequency reference point for transmitter and receiver requirements
Maximum Base Station RF bandwidth: The maximum RF bandwidth supported by a BS within an operating band.
Maximum carrier output power: Carrier power available at the antenna connector for a specified reference condition.
Maximum RAT output power: The sum of the power of all carriers of the same RAT available at the antenna connector for a specified reference condition.
Maximum throughput: The maximum achievable throughput for a reference measurement channel.
Maximum total output power: The sum of the power of all carriers available at the antenna connector for a specified reference condition.
Measurement bandwidth: The bandwidth in which an emission level is specified.
MSR Base Station: Base Station characterized by the ability of its receiver and transmitter to process two or more carriers in common active RF components simultaneously in a declared RF bandwidth, where at least one carrier is of a different RAT than the other carrier(s).
Multi-carrier transmission configuration: A set of one or more contiguous carriers that a BS is able to transmit simultaneously according to the manufacturer's specification.
Occupied bandwidth: The width of a frequency band such that, below the lower and above the upper frequency limits, the mean powers emitted are each equal to a specified percentage β/2 of the total mean power of a given emission.
Operating band: A frequency range in which E-UTRA, UTRA or GSM/EDGE operates (paired or unpaired), that is defined with a specific set of technical requirements.
NOTE: The operating band(s) for a BS is declared by the manufacturer.
RAT power: The sum of all carrier powers for all carriers of the same type.
Rated carrier output power: The mean power level per carrier that the manufacturer has declared to be available at the antenna connector.
Rated RAT output power: The mean power level per RAT that the manufacturer has declared to be available at the antenna connector.
Rated total output power: The total mean power level that the manufacturer has declared to be available at the antenna connector.
RRC filtered mean power: The mean power of a UTRA carrier as measured through a root raised cosine filter with roll-off factor α and a bandwidth equal to the chip rate of the radio access mode.
NOTE: The RRC filtered mean power of a perfectly modulated UTRA signal is 0.246 dB lower than the mean power of the same signal.
Throughput: The number of payload bits successfully received per second for a reference measurement channel in a specified reference condition.
Total output power: The sum of all carrier powers for all carriers transmitted by the BS.
Transmission bandwidth: Bandwidth of an instantaneous E-UTRA transmission from a UE or BS, measured in Resource Block units.
Transmission bandwidth configuration: The highest E-UTRA transmission bandwidth allowed for uplink or downlink in a given channel bandwidth, measured in Resource Block units.
Transmitter ON period: The time period during which the BS transmitter is transmitting data and/or reference symbols.
Transmitter OFF period: The time period during which the BS transmitter is not allowed to transmit.
Transmitter transient period: The time period during which the transmitter is changing from the OFF period to the ON period or vice versa.
Uplink operating band: The part of the operating band designated for uplink.
Upper RF bandwidth edge: The frequency of the upper edge of the Base Station RF bandwidth, used as a frequency reference point for transmitter and receiver requirements.
3.2 Symbols
For the purposes of the present document, the following symbols apply:
α Roll-off factor
β Percentage of the mean transmitted power emitted outside the occupied bandwidth on the assigned channel
BWChannel Channel bandwidth (for E-UTRA)
BWConfig Transmission bandwidth configuration (for E-UTRA), expressed in MHz, where BWConfig = NRB x 180 kHz in the uplink and BWConfig = 15 kHz + NRB x 180 kHz in the downlink.
BWRF Base Station RF bandwidth, where BWRF = FBW RF,high – FBW RF,low
BWRF,max Maximum Base Station RF bandwidth
DwPTS Downlink part of the special subframe (for E-UTRA TDD operation
f Frequency
Δf Separation between the Base Station RF bandwidth edge frequency and the nominal -3dB point of the measuring filter closest to the carrier frequency
Δfmax The largest value of Δf used for defining the requirement
FC Carrier centre frequency
Ffilter Filter centre frequency
f_offset Separation between the Base Station RF bandwidth edge frequency and the centre of the measuring filter
f_offsetmax The maximum value of f_offset used for defining the requirement
FBW RF,high Upper RF bandwidth edge, where FBW RF,high = FC,high + Foffset, RAT
FBW RF,low Lower RF bandwidth edge, where FBW RF,low = FC,low - Foffset, RAT
FC,high Center frequency of the highest transmitted/received carrier.
FC,low Center frequency of the lowest transmitted/received carrier.
Foffset, RAT Frequency offset from FC,high to the upper RF bandwidth edge or FC,low to the lower RF bandwidth edge for a specific RAT.
FDL_low The lowest frequency of the downlink operating band
FDL_high The highest frequency of the downlink operating band
FUL_low The lowest frequency of the uplink operating band
FUL_high The highest frequency of the uplink operating band
NRB Transmission bandwidth configuration, expressed in units of resource blocks (for E-UTRA)
PREFSENS Reference Sensitivity power level
EMBED Word.Picture.8
Figure 3.2-1: Illustration of RF bandwidth related symbols and definitions for Multi-standard Radio.
3.3 Abbreviations
For the purposes of the present document, the abbreviations given in TR 21.905 [1] and the following apply. An abbreviation defined in the present document takes precedence over the definition of the same abbreviation, if any, in TR 21.905 [1].
ACIR Adjacent Channel Interference Ratio
ACLR Adjacent Channel Leakage Ratio
ACK Acknowledgement (in HARQ protocols)
ACS Adjacent Channel Selectivity
ARFCN Absolute Radio Frequency Channel Number
AWGN Additive White Gaussian Noise
BC Band Category
BER Bit Error Ratio
BS Base Station
BTS Base Transceiver Station
CP Cyclic prefix
CRC Cyclic Redundancy Check
CW Continuous Wave
DC Direct Current
DC-HSDPA Dual Cell HSDPA
DTX Discontinuous Transmission
EARFCN E-UTRA Absolute Radio Frequency Channel Number
EDGE Enhanced Data rates for GSM Evolution
EVM Error Vector Magnitude
FCC Federal Communications Commission
FDD Frequency Division Duplex
FRC Fixed Reference Channel
GP Guard Period (for E-UTRA TDD operation)
GSM Global System for Mobile Communications
HSDPA High Speed Downlink Packet Access
ICS In-Channel Selectivity
ITU‑R Radiocommunication Sector of the ITU
LNA Low Noise Amplifier
MCL Minimum Coupling Loss
MCS Modulation and Coding Scheme
MIMO Multiple Input Multiple Output
MS Mobile Station
MSR Multi-Standard Radio
OFDM Orthogonal Frequency Division Multiplex
OOB Out-Of-band
PA Power Amplifier
PHS Personal Handyphone System
QAM Quadrature Amplitude Modulation
QPSK Quadrature Phase-Shift Keying
RAT Radio Access Technology
RB Resource Block
RF Radio Frequency
RMS Root Mean Square (value)
RS Reference Symbol
RX Receiver
RRC Root Raised Cosine
SNR Signal-to-Noise Ratio
TDD Time Division Duplex
TT Test Tolerance
TX Transmitter
UARFCN UTRA Absolute Radio Frequency Channel Number
UE User Equipment
UEM operating band Unwanted Emissions Mask
4 General test conditions and declarations
4.1 Measurement uncertainties and test requirements
4.1.1 General
The requirements of this clause apply to all applicable tests in this specification.
The minimum requirements are given in TS 37.104 [2] and the references therein. Test requirements are given in this specification or are included by reference to TS 25.141 [10], TS 25.142 [12], TS 36.141 [9] or TS 51.021 [11]. Test Tolerances for the test requirements explicitly stated in the present specification are defined in Annex C of this specification. Test Tolerances for test requirements included by reference are defined in the respective referred test specification.
Test Tolerances are individually calculated for each test. The Test Tolerances are used to relax the minimum requirements to create test requirements.
When a test requirement differs from the corresponding minimum requirement, then the Test Tolerance applied for the test is non-zero. The Test Tolerance for the test and the explanation of how the minimum requirement has been relaxed by the Test Tolerance are given in Annex C.
4.1.2 Acceptable uncertainty of Test System
The maximum acceptable uncertainty of the Test System is specified below for each test defined explicitly in the present specification, where appropriate. The maximum acceptable uncertainty of the Test System for test requirements included by reference is defined in the respective referred test specification.
The Test System shall enable the stimulus signals in the test case to be adjusted to within the specified tolerance and the equipment under test to be measured with an uncertainty not exceeding the specified values. All tolerances and uncertainties are absolute values, and are valid for a confidence level of 95 %, unless otherwise stated.
A confidence level of 95% is the measurement uncertainty tolerance interval for a specific measurement that contains 95% of the performance of a population of test equipment.
For RF tests, it should be noted that the uncertainties in subclause 4.1.2 apply to the Test System operating into a nominal 50 ohm load and do not include system effects due to mismatch between the DUT and the Test System.
4.1.2.1 Measurement of transmitter
Table 4.1.2-1: Maximum Test System uncertainty for transmitter tests
Subclause
Maximum Test System Uncertainty
Derivation of Test System Uncertainty
6.2.1 Base Station maximum output power
±0.7 dB for UTRA and E-UTRA
±1.0 dB for GSM/EDGE
6.4 Transmit ON/OFF power
±2 dB
6.6.1.5.1 Transmitter spurious emissions, Mandatory Requirements
9 kHz < f ≤ 4 GHz: ±2.0 dB
4 GHz < f ≤ 12.75 GHz: ±4.0 dB
6.6.1.5.2 Transmitter spurious emissions, Mandatory Requirements
9 kHz < f ≤ 4 GHz: ±2.0 dB
4 GHz < f ≤ 12.75 GHz: ±4.0 dB
6.6.1.5.3 Transmitter spurious emissions, Additional BC2 Requirement
9 kHz < f ≤ 4 GHz: ±2.0 dB
4 GHz < f ≤ 12.75 GHz: ±4.0 dB
6.6.1.5.4 Transmitter spurious emissions, Protection of BS receiver
±3.0 dB
6.6.1.5.5 Transmitter spurious emissions, Additional spurious emission requirements
±2.0 dB for > -60dBm
±3.0 dB for ≤ -60dBm
6.6.1.5.6 Transmitter spurious emissions,
Co-location
±3.0 dB
6.6.2 Operating band unwanted emissions
±1.5 dB
6.6.3 Occupied bandwidth
For E-UTRA:
1.4MHz, 3MHz Channel BW: ±30kHz
5MHz, 10MHz Channel BW: ±100kHz
15MHz, 20MHz: Channel BW: ±300kHz
For UTRA: ±100kHz
6.7 Transmitter intermodulation
(interferer requirements)
This tolerance applies to the stimulus and not the measurements defined in 6.6.1, 6.6.2 and 6.6.4
The value below applies only to the interference signal and is unrelated to the measurement uncertainty of the tests (6.6.1, 6.6.2 and 6.6.4) which have to be carried out in the presence of the interferer.
±1.0 dB
The uncertainty of interferer has double the effect on the result due to the frequency offset
4.1.2.2 Measurement of receiver
Table 4.1.2-2: Maximum Test System Uncertainty for receiver tests
Subclause
Maximum Test System Uncertainty
Derivation of Test System Uncertainty
7.4 In-band selectivity and blocking (General blocking requirements)
±1.4 dB
Overall system uncertainty comprises three quantities:
1. Wanted signal level error
2. Interferer signal level error
3. Additional impact of interferer leakage
Items 1 and 2 are assumed to be uncorrelated so can be root sum squared to provide the ratio error of the two signals. The interferer leakage effect is systematic, and is added arithmetically.
Test System uncertainty = [SQRT (wanted_level_error2 + interferer_level_error2)] + leakage effect.
Wanted signal level ± 0.7 dB
Interferer signal level ± 0.7 dB
Impact of interferer leakage 0.4 dB.
7.4 In-band selectivity and blocking (Narrowband blocking requirements)
±1.4 dB
Same as In-band selectivity and blocking (General blocking requirements).
7.4 In-band selectivity and blocking (BC3 blocking requirements)
±1.4 dB
Same as In-band selectivity and blocking (General blocking requirements).
7.5 Out-of-band blocking
1 MHz ≤ finterferer ≤ 3 GHz: ±1.3 dB
3 GHz < finterferer ≤ 12.75 GHz: ±3.2 dB
Overall system uncertainty comprises three quantities:
1. Wanted signal level error
2. Interferer signal level error
3. Interferer broadband noise
Items 1 and 2 are assumed to be uncorrelated so can be root sum squared to provide the ratio error of the two signals. The Interferer Broadband noise effect is systematic, and is added arithmetically.
Test System uncertainty = [SQRT (wanted_level_error2 + interferer_level_error2)] + Broadband noise effect.
Out of band blocking, using CW interferer:
Wanted signal level ± 0.7 dB
Interferer signal level:
± 1.0 dB up to 3 GHz
± 3.0 dB up to 12.75 GHz
Impact of interferer Broadband noise 0.1 dB
7.6 Receiver spurious emissions
30 MHz ≤ f ≤ 4 GHz: ±2.0 dB
4 GHz < f ≤ 12.75 GHz: ±4.0 dB
7.7.5 Receiver intermodulation (General requirements)
±1.8 dB
Overall system uncertainty comprises four quantities:
1. Wanted signal level error
2. CW Interferer level error
3. Modulated Interferer level error
4. Impact of interferer ACLR
The effect of the closer CW signal has twice the effect.
Items 1, 2 and 3 are assumed to be uncorrelated so can be root sum squared to provide the combined effect of the three signals. The interferer ACLR effect is systematic, and is added arithmetically.
Test System uncertainty = SQRT [(2 x CW_level_error)2 +(mod interferer_level_error)2 +(wanted signal_level_error)2] + ACLR effect.
Wanted signal level ± 0.7dB
CW interferer level ± 0.5 dB
Mod interferer level ± 0.7 dB
Impact of interferer ACLR 0.4 dB
7.7.5 Receiver intermodulation (Narrowband requirements)
±1.8 dB
Same as Receiver intermodulation (General requirements).
NOTE 1: Unless otherwise noted, only the Test System stimulus error is considered here. The effect of errors in the throughput measurements or the BER/FER due to finite test duration is not considered.
4.1.3 Interpretation of measurement results
The measurement results returned by the Test System are compared - without any modification - against the test requirements as defined by the Shared Risk principle.
The Shared Risk principle is defined in ITU-R M.1545 [7].
The actual measurement uncertainty of the Test System for the measurement of each parameter shall be included in the test report.
The recorded value for the Test System uncertainty shall be, for each measurement, equal to or lower than the appropriate figure in subclause 4.1.2 of this specification.
If the Test System for a test is known to have a measurement uncertainty greater than that specified in subclause 4.1.2, it is still permitted to use this apparatus provided that an adjustment is made as follows.
Any additional uncertainty in the Test System over and above that specified in subclause 4.1.2 shall be used to tighten the test requirement, making the test harder to pass. (For some tests e.g. receiver tests, this may require modification of stimulus signals). This procedure (defined in Annex C) will ensure that a Test System not compliant with subclause 4.1.2 does not increase the chance of passing a device under test where that device would otherwise have failed the test if a Test System compliant with subclause 4.1.2 had been used.
4.2 Base Station classes
The requirements presented in the present specification apply to MSR Base Stations intended for general purpose applications. MSR BS requirements for general purpose applications are based on Wide Area scenarios.
For GSM/EDGE operation of an MSR BS, a BS intended for general purpose applications corresponds to a normal BTS, including Multicarrier BTS classes. MSR requirements for multi-RAT operation only apply for the highest GSM/EDGE static power step.
Other Base Station classes are for further study. The requirements for these may be different than those for general purpose applications, or not applicable at all.
4.3 Regional requirements
Some requirements in the present document may only apply in certain regions either as optional requirements, or set by local and regional regulation as mandatory requirements. It is normally not stated in the 3GPP specifications under what exact circumstances that the requirements apply, since this is defined by local or regional regulation.
Table 4.3-1lists all requirements in the present specification that may be applied differently in different regions. There are additional regional requirements that may apply for single-RAT operation of an MSR BS. These are referenced from the present specification, but listed in the specification for the RATs concerned [3][4][5][6].
Table 4.3-1: List of regional requirements
Clause number
Requirement
Comments
4.5
Operating bands and Band Categories
Some bands may be applied regionally.
6.6.1.5.1
Spurious emissions
(Category A)
Category A limits are mandatory for regions where Category A limits for spurious emissions, as defined in ITU-R Recommendation SM.329 [13] apply.
6.6.1.5.2
Spurious emissions
(Category B)
Category B limits are mandatory for regions where Category B limits for spurious emissions, as defined in ITU-R Recommendation SM.329 [13] apply.
6.6.1.5.3
Additional requirement for BC2 (Category B)
Category B limits are mandatory for regions where Category B limits for spurious emissions, as defined in ITU-R Recommendation SM.329 [13] apply.
6.6.1.5.5
Additional spurious emissions requirements
These requirements may be applied for the protection of system operating in frequency ranges other than the MSR BS operating band. In addition to the requirements in subclauses 6.6.1.5.1, 6.6.1.5.2, 6.6.1.5.3, 6.6.1.5.4 and 6.6.1.5.5, the BS may have to comply with the applicable emission limits established by FCC Title 47 [8], when deployed in regions where those limits are applied, and under the conditions declared by the manufacturer.
6.6.1.5.6
Co-location (spurious emissions)
These requirements may be applied for the protection of other BS receivers when a BS operating in another frequency band is co-located with any BS.
6.6.2.5.4.1
Additional requirements (Operating band unwanted emissions)
In addition to the requirements in subclauses 6.6.2.5.1 and 6.6.2.5.2, the BS may have to comply with the applicable emission limits established by FCC Title 47 [8], when deployed in regions where those limits are applied and under the conditions declared by the manufacturer.
6.6.2.5.4.2
Unsynchronized operation for BC3 (Operating band unwanted emissions)
The requirements for unsynchronized TDD co-existence may apply regionally.
6.6.2.5.4.3
Protection of DTT (Operating band unwanted emissions)
The requirements for protection of DTT may apply regionally.
6.6.2.5.4.4
Co-existence with services in adjacent frequency bands (Operating band unwanted emissions)
This regional requirement may be applied for the protection of systems operating in frequency bands adjacent to band 1 as defined in clause 4.5, in geographic areas in which both an adjacent band service and UTRA and/or E-UTRA are deployed.
6.6.3.5
Occupied bandwidth
The requirement may be applied regionally. There may also be regional requirements to declare the Occupied bandwidth according to the definition.
7.5.2.5
Co-location requirement (blocking)
These requirements may be applied for the protection of the BS receiver when a BS operating in another frequency band is co-located with any BS.
4.4 Operating bands and band categories
MSR requirements are applicable for band definitions and band numbering as defined in the specifications TS 45.005 [6], TS25.104 [3], TS 25.105 [4] and TS 36.104 [5]. For the purpose of defining the MSR BS requirements, the operating bands are divided into three band categories as follows:
- Band Category 1 (BC1): Bands for E-UTRA FDD and UTRA FDD operation
- Band Category 2 (BC2): Bands for E-UTRA FDD, UTRA FDD and GSM/EDGE operation
- Band Category 3 (BC3): Bands for E-UTRA TDD and UTRA TDD operation
NOTE: For UTRA TDD, requirements in the present document cover the 1.28 Mcps UTRA TDD option.
The paired and unpaired bands for the three Band Categories are shown in Table 4.4-1 and 4.4-2, together with the corresponding E-UTRA, UTRA and GSM/EDGE band designations. In the present specification, the operating band of an MSR Base Stations is designated using the E-UTRA band number according to the tables.
Table 4.4-1: Paired bands in E-UTRA, UTRA and GSM/EDGE.
MSR and E‑UTRA Band number
UTRA
Band number
GSM/EDGE
Band designation
Uplink (UL) BS receive
UE transmit
Downlink (DL) BS transmit
UE receive
Band category
1
I
-
1920 MHz
–
1980 MHz
2110 MHz
–
2170 MHz
1
2
II
PCS 1900
1850 MHz
–
1910 MHz
1930 MHz
–
1990 MHz
2
3
III
DCS 1800
1710 MHz
–
1785 MHz
1805 MHz
–
1880 MHz
2
4
IV
-
1710 MHz
–
1755 MHz
2110 MHz
–
2155 MHz
1
5
V
GSM 850
824 MHz
–
849 MHz
869 MHz
–
894MHz
2
6 (1)
VI
-
830 MHz
–
840 MHz
875 MHz
–
885 MHz
1 (1)
7
VII
-
2500 MHz
–
2570 MHz
2620 MHz
–
2690 MHz
1
8
VIII
E-GSM
880 MHz
–
915 MHz
925 MHz
–
960 MHz
2
9
IX
-
1749.9 MHz
–
1784.9 MHz
1844.9 MHz
–
1879.9 MHz
1
10
X
-
1710 MHz
–
1770 MHz
2110 MHz
–
2170 MHz
1
11
XI
-
1427.9 MHz
–
1447.9 MHz
1475.9 MHz
–
1495.9 MHz
1
12
XII
-
699 MHz
–
716 MHz
729 MHz
–
746 MHz
1
13
XIII
-
777 MHz
–
787 MHz
746 MHz
–
756 MHz
1
14
XIV
-
788 MHz
–
798 MHz
758 MHz
–
768 MHz
1
15
XV
-
Reserved
Reserved
16
XVI
-
Reserved
Reserved
17
-
-
704 MHz
–
716 MHz
734 MHz
–
746 MHz
1 (2)
18
-
-
815 MHz
–
830 MHz
860 MHz
–
875 MHz
1 (2)
19
XIX
-
830 MHz
–
845 MHz
875 MHz
–
890 MHz
1
20
XX
-
832 MHz
–
862 MHz
791 MHz
–
821 MHz
1
21
XXI
-
1447.9 MHz
–
1462.9 MHz
1495.9 MHz
–
1510.9 MHz
1
NOTE 1: The band is for UTRA only.
NOTE 2: The band is for E-UTRA only.
Table 4.4-2: Unpaired bands in E-UTRA and UTRA.
MSR and E‑UTRA Band number
UTRA Band number
Uplink (UL) BS receive
UE transmit
Downlink (DL) BS transmit
UE receive
Band category
33
a)
1900 MHz
–
1920 MHz
1900 MHz
–
1920 MHz
3
34
a)
2010 MHz
–
2025 MHz
2010 MHz
–
2025 MHz
3
35
b)
1850 MHz
–
1910 MHz
1850 MHz
–
1910 MHz
3
36
b)
1930 MHz
–
1990 MHz
1930 MHz
–
1990 MHz
3
37
c)
1910 MHz
–
1930 MHz
1910 MHz
–
1930 MHz
3
38
d)
2570 MHz
–
2620 MHz
2570 MHz
–
2620 MHz
3
39
f)
1880 MHz
–
1920 MHz
1880 MHz
–
1920 MHz
3
40
e)
2300 MHz
–
2400 MHz
2300 MHz
–
2400 MHz
3
4.4.1 Band category 1 aspects (BC1)
BC1 requirements for receiver and transmitter shall apply with a frequency offset from the lowest and highest carriers to the RF bandwidth edges (Foffset, RAT) as defined in Table 4.4.1-1.
Table 4.4.1-1: Foffset, RAT for band category 1
RAT
Foffset, RAT
1.4, 3 MHz E-UTRA
BWChannel/2 + 200 kHz
5, 10, 15, 20 MHz E-UTRA
BWChannel/2
UTRA
2.5 MHz
4.4.2 Band category 2 aspects (BC2)
BC2 requirements for receiver and transmitter shall apply with a frequency offset from the lowest and highest carriers to the RF bandwidth edges (Foffset, RAT) as defined in Table 4.4.2-1.
Table 4.4.2-1: Foffset, RAT for band category 2
RAT
Foffset, RAT
E-UTRA
BWChannel/2
UTRA
2.5 MHz
GSM/EDGE
200 kHz
4.4.3 Band category 3 aspects (BC3)
BC3 requirements for receiver and transmitter shall apply with a frequency offset from the lowest and highest carriers to the RF bandwidth edges (Foffset, RAT) as defined in Table 4.4.3-1.
Table 4.4.3-1: Foffset, RAT for band category 3
RAT
Foffset, RAT
1.4, 3 MHz E-UTRA
BWChannel /2 + 200 kHz
5, 10, 15, 20 MHz E-UTRA
BWChannel /2
1.28 Mcps UTRA TDD
1 MHz
4.5 Channel arrangement
4.5.1 Channel spacing
The GSM/EDGE carrier spacing is 200 kHz [6].
The nominal UTRA FDD channel spacing is 5 MHz. The nominal channel spacing is 1.6 MHz for the 1.28 Mcps UTRA TDD Option. These can be adjusted to optimise performance in a particular deployment scenario [3,4].
In E-UTRA the spacing between carriers will depend on the deployment scenario, the size of the frequency block available and the channel bandwidths. The nominal channel spacing between two adjacent E-UTRA carriers is defined as following:
Nominal Channel spacing = (BWChannel(1) + BWChannel(2))/2
where BWChannel(1) and BWChannel(2) are the channel bandwidths of the two respective E-UTRA carriers. The channel spacing can be adjusted to optimize performance in a particular deployment scenario [5].
4.5.2 Channel raster
The GSM/EDGE channel raster is 200 kHz for all bands [6].
The UTRA FDD and TDD channel raster is 200 kHz for all bands, which means that the centre frequency must be an integer multiple of 200 kHz. In addition a number of additional centre frequencies are specified for UTRA FDD according to [3], which means that the UTRA FDD frequencies for these channels are shifted 100 kHz relative to the general raster.
The E-UTRA channel raster is 100 kHz for all bands, which means that the carrier centre frequency must be an integer multiple of 100 kHz [5].
4.5.3 Carrier frequencies and numbering
The carrier frequencies and corresponding numbering is defined for each RAT in the respective specifications TS 36.104 [5] TS 25.104 [3], TS 25.105 [4] and TS 45.005 [6]. In the context of MSR, the frequency numbering scheme for each RAT will remain.
- The E-UTRA carrier frequency numbering (EARFCN) is defined in subclause 5.7 of TS 36.104 [5].
- The UTRA FDD carrier frequency numbering (UARFCN) is defined in subclause 5.4 of TS 25.104 [3].
- The UTRA TDD carrier frequency numbering (UARFCN) is defined in subclause 5.4 of TS 25.105 [4].
- The GSM/EDGE carrier frequency numbering (ARFCN) is defined subclause 2 of TS 45.005 [6].
NOTE: The numbering schemes for UTRA FDD and TDD are not coordinated, while both are called UARFCN.
4.6 Manufacturer's declarations of regional and optional requirements
4.6.1 Operating band and frequency range
The manufacturer shall declare which operating band(s) specified in clause 4.4 that is supported by the BS under test and if applicable, which frequency ranges within the operating band(s) that the Base Station can operate in. Requirements for other operating bands and frequency ranges need not be tested.
4.6.2 Spurious emissions category
The manufacturer shall declare one of the following:
a) The BS is tested against Category A limits for spurious emissions, as defined in ITU-R Recommendation SM.329 [13]. In this case
- conformance with the spurious emissions requirements in clause 6.6.1.5.1 is mandatory, and the requirements specified in clause 6.6.1.5.2 and 6.6.1.5.3 need not be demonstrated.
b) The BS is tested against Category B limits for spurious emissions, as defined in ITU-R Recommendation SM.329 [13]. In this case,
- conformance with the spurious emissions requirements in clause 6.6.1.5.2 and 6.6.1.5.3 (for BC2) are mandatory, and the requirements specified in clause 6.6.1.5.1 need not be demonstrated.
4.6.3 Additional operating band unwanted emissions
The manufacturer shall declare whether the BS under test is intended to operate in geographic areas where the additional operating band unwanted emission limits defined in clause 6.6.2.4 of TS 37.104 [2] apply. If this is the case, conformance with the applicable emission limits shall be demonstrated.
NOTE: For the emission limits established by FCC Title 47 [8] , there is no test method or requirement defined in the present specification.
For a BS declared to support Band 20 and to operate in geographic areas within the CEPT in which frequencies are allocated to broadcasting (DTT) service, the manufacturer shall additionally declare the following quantities associated with the applicable test conditions of Table 6.6.2.5.4.4-1 and information in annex G of TS 36.104 [5] :
PEM,N Declared emission level for channel N
P10MHz Maximum output Power in 10 MHz
Conformance with the declared emission level PEM,N shall be demonstrated.
4.6.4 Co-existence with other systems
The manufacturer shall declare whether the BS under test is intended to operate in geographic areas where one or more of the systems GSM850, GSM900, DCS1800, PCS1900, UTRA FDD, UTRA TDD, E-UTRA and/or PHS operating in another band are deployed. If this is the case, conformance with the applicable test requirement for spurious emissions specified in clause 6.6.1.5.5 shall be demonstrated.
4.6.5 Co-location with other Base Stations
The manufacturer shall declare whether the BS under test is intended to operate co-located with Base Stations of one or more of the systems GSM850, GSM900, DCS1800, PCS1900, UTRA FDD, UTRA TDD and/or E-UTRA operating in another band. If this is the case,
- Conformance with the applicable test requirement for spurious emissions specified in clause 6.6.1.5.6 shall be demonstrated.
- Conformance with the applicable test requirement for receiver blocking specified in clause 7.5.5.2 shall be demonstrated.
4.7 Capability set definition and manufacturer's declarations of supported RF configurations
4.7.1 Definition of Capability Sets (CS)
Capability set is defined as the BS capability to support certain RAT combinations.
The manufacturer shall declare the supported capability set(s) according to Table 4.7.1-1.
Table 4.7.1-1 Capability sets
Capability Set supported by the BS
CS1
CS2
CS3
CS4
CS5
CS6
Supported RATs
UTRA
(MC)
E-UTRA
(MC)
UTRA,
E-UTRA
GSM, UTRA
GSM, E-UTRA
GSM, UTRA, E-UTRA
Supported configurations
SR UTRA (SC, MC)
SR
E-UTRA (SC, MC)
MR UTRA + E-UTRA
SR UTRA (SC, MC)
SR E-UTRA (SC, MC)
MR GSM + UTRA
SR GSM (MCBTS)
SR UTRA (SC, MC)
MR GSM + E-UTRA
SR GSM (MCBTS)
SR E-UTRA (SC, MC)
MR GSM + UTRA +
E-UTRA
MR GSM + UTRA
MR GSM + E-UTRA
MR UTRA + E-UTRA
SR GSM (MCBTS)
SR UTRA (SC, MC)
SR E-UTRA (SC, MC)
Applicable BC
BC1, BC2 or BC3
BC1, BC2 or BC3
BC1, BC2 or BC3
BC2
BC2
BC2
NOTE: MC denotes multi-carrier in single RAT;
SC denotes single carrier:
MR denotes multi-RAT;
SR denotes single-RAT
The applicable test configurations for each RF requirement are defined in sub-clause 5.1 and 5.2 for the declared capability set(s).
NOTE: Not every supported configuration within a CS is tested, but the tables in sub-clause 5.1 and 5.2 provide a judicious choice among the supported configurations and test configurations to ensure proper test coverage.
4.7.2 Manufacturer's declarations of supported RF configurations
The manufacturer shall declare which operational configurations the BS supports by declaring the following parameters:
a) General Parameters:
● The supported operating bands defined in subclause 4.4.
● The frequency range within the above frequency band(s) supported by the BS.
● Supported capability set
● The maximum RF bandwidth supported by a MSR BS within an operating band when the BS is configured with carriers of different RATs.
● The rated total output power as a sum over all RATs
● Maximum supported power difference between carriers
● Total number of supported carriers
If the rated total output power and total number of supported carriers are not simultaneously supported in Multi-RAT operations, the manufacturer shall declare the following additional parameters:
● The reduced number of supported carriers at the rated total output power in Multi-RAT operations (i.e. < total number of supported carriers)
● The reduced total output power at the total number of supported carriers in Multi-RAT operations (i.e. < rated total output power)
b) Parameters related to operation of GSM:
● The maximum number of supported GSM carriers
● The maximum RF bandwidth supported by the MSR BS when configured with GSM carriers only
● The rated output power per GSM carrier for each supported number of GSM carriers up to the maximum, for the case that all carriers are operated at the same nominal output power. The declaration shall be given for each supported modulation.
c) Parameters related to operation of UTRA:
● The maximum number of supported UTRA carriers
● The maximum RF bandwidth supported by the MSR BS when configured with UTRA carriers only
● The rated output power for UTRA as a sum of all UTRA carriers
● The rated output power per UTRA carrier
d) Parameters related to operation of E-UTRA:
● Which of the E-UTRA channel bandwidths specified in TS 36.104 [5] subclause 5.6 are supported
● The maximum number of supported E-UTRA carriers
● The maximum RF bandwidth supported by the MSR BS when configured with E-UTRA carriers only
● The rated output power for E-UTRA as a sum of all E-UTRA carriers
● The rated output power per E-UTRA carrier
NOTE: Certain parameter combinations may result in test configurations that are not possible to use for testing. The manufacturer shall ensure that the declared parameters generate test configurations possible to use for test.
4.8 MSR test configurations
The test configurations shall be constructed using the methods defined below subject to the parameters declared by the manufacturer as listed in subclause 4.7.
For test configurations used in receiver tests only the outermost carriers need to be generated by the test equipment.
The applicable test models for generation of the carrier transmit test signal are defined in subclause 4.9.2.
NOTE: In case carriers are shifted to align with the channel raster Foffset, RAT as defined in clauses 4.4.1 and 4.4.2 may be different.
4.8.1 TC1: UTRA multicarrier operation
The purpose of TC1 is to test UTRA multi-carrier aspects.
4.8.1.1 TC1a generation
TC1a is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● Place two UTRA FDD carriers adjacent to the high and low edge of the RF bandwidth. The specified FOffset-RAT shall apply.
● For transmitter tests, alternately place a UTRA FDD carrier adjacent to the already placed carriers at the low and high edge of the RF bandwidth until there is no more space to fit a carrier or the BS does not support more carriers. The nominal carrier spacing defined in subclause 4.5.1 shall apply.
● The carrier(s) may be shifted maximum 100 kHz towards lower frequencies for BRFBW and MRFBW and towards higher frequencies for TRFBW to align with the channel raster.
4.8.1.2 TC1b generation
TC1b is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● Place two UTRA TDD carriers adjacent to the high and low edge of the RF bandwidth. The specified FOffset-RAT shall apply.
● For transmitter tests, alternately place a UTRA TDD carrier adjacent to the already placed carriers at the low and high edge of the RF bandwidth until there is no more space to fit a carrier or the BS does not support more carriers. The nominal carrier spacing defined in subclause 4.5.1 shall apply.
4.8.1.3 TC1 power allocation
Set the power of each carrier to the same power so that the sum of the carrier powers equals the rated output power for UTRA according to the manufacturer’s declaration in subclause 4.7.2 c).
4.8.2 TC2: E-UTRA multicarrier operation
The purpose of the TC2 is to test E-UTRA multi-carrier aspects.
4.8.2.1 TC2 generation
TC2 is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● Select the narrowest supported E-UTRA carrier and place it adjacent to the low edge of the RF bandwidth. Place a 5 MHz E-UTRA carrier adjacent to the high edge of the RF bandwidth. The specified FOffset-RAT shall apply.
● For transmitter tests, select as many 5 MHz E-UTRA carriers that the BS supports and that fit in the rest of the RF bandwidth. Place the carriers adjacent to each other starting fromthe high RF bandwidth edge. The nominal carrier spacing defined in subclause 4.5.1 shall apply. The specified FOffset-RAT shall apply.
● If 5 MHz E-UTRA carriers are not supported by the BS the narrowest supported channel BW shall be selected instead.
4.8.2.2 TC2 power allocation
Set the power of each carrier to the same power so that the sum of the carrier powers equals the rated total output power for E-UTRA according to the manufacturer’s declaration in sub clause 4.7.2 d).
4.8.3 TC3: UTRA and E-UTRA multi RAT operation
The purpose of TC3 is to test UTRA and E-UTRA multi-RAT aspects.
If the rated total output power and total number of supported carriers are not simultaneously supported in Multi-RAT operations, two instances of TC3 shall be generated using the following values for rated total output power and the total number of supported carriers:
1) The rated total output power and the reduced number of supported carriers at the rated total output power in Multi-RAT operations
2) The reduced total output power at the total number of supported carriers in Multi-RAT operations and the total number of supported carriers.
Tests that use TC3 shall be performed using both instances 1) and 2) of TC3.
4.8.3.1 TC3a generation
TC3a is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● Select an FDD UTRA carrier to be placed at the low RF Bandwidth edge. The specified FOffset-RAT shall apply. The UTRA FDD may be shifted maximum 100 kHz towards lower frequencies to align with the channel raster.
● Place a 5 MHz E-UTRA carrier at the high RF bandwidth edge. If that is not possible use the narrowest E-UTRA carrier supported by the BS. The specified FOffset-RAT shall apply.
● For transmitter tests, alternately add FDD UTRA carriers at the low end and 5 MHz E-UTRA carriers at the high end adjacent to the already placed carriers until the RF bandwidth is filled or the total number of supported carriers is reached. The nominal carrier spacing defined in subclause 4.5.1 shall apply.
4.8.3.2 TC3b generation
TC3b is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● Select a UTRA TDD carrier to be placed at the low RF Bandwidth edge. The specified FOffset-RAT shall apply.
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● Place a 5 MHz E-UTRA carrier at the high RF bandwidth edge. If that is not possible use the narrowest E-UTRA carrier supported by the BS. The specified FOffset-RAT shall apply.
● For transmitter tests, alternately add UTRA TDD carriers at the low end and 5 MHz E-UTRA carriers at the high end adjacent to the already placed carriers until the RF bandwidth is filled or the total number of supported carriers is reached. The nominal carrier spacing defined in clause 4.5.1 shall apply.
4.8.3.3 TC3 power allocation
Set the power of each carrier to the same power so that the sum of the carrier powers equals the total rated output power according to the manufacturer’s declaration in subclause 4.7.2 c) and d).
4.8.4 TC4: BC2 transmitter operation
The purpose of TC4 is to test multi-RAT operations with GSM for the transmitter.
If the rated total output power and total number of supported carriers are not simultaneously supported in Multi-RAT operations, two instances of TC4 shall be generated using the following values for rated total output power and the total number of supported carriers:
1) The rated total output power and the reduced number of supported carriers at the rated total output power in Multi-RAT operations
2) The reduced rated total output power at the total number of supported carriers in Multi-RAT operations and the total number of supported carriers.
If the rated total output power and total number of supported carriers are not simultaneously supported in Multi-RAT operations, tests that use TC4 shall be performed using both instances 1) and 2) of TC4, except tests for modulation accuracy in which only TC4 according to 2) shall be used.
4.8.4.1 TC4a generation
TC4a is only applicable for a BS that supports UTRA and GSM. TC4a is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● In the case of a BS supporting only one GSM carrier and one UTRA carrier, place a GSM carrier at the lower edge and a UTRA carrier at the upper edge of the RF bandwidth. The specified FOffset-RAT shall apply
● Place a GSM carrier at the upper edge and a GSM carrier at the lower edge of the RF bandwidth. The specified FOffset-RAT shall apply..
● Place two UTRA FDD carriers in the middle of the RF bandwidth. If two UTRA FDD carriers do not fit, place only one carrier in the middle of the RF bandwidth. The UTRA FDD carrier(s) may be shifted maximum 100 kHz towards lower frequencies for BRFBW and MRFBW and towards higher frequencies for TRFBW to align with the channel raster.
● Add GSM carriers at the edges using 600 kHz spacing until no more GSM carriers are supported or no more GSM carriers fit.
● Add additional UTRA FDD carriers in the middle if possible.
NOTE: Further details on the method for BS supporting many carriers is FFS.
4.8.4.2 TC4b generation
TC4b is only applicable for a BS that supports E-UTRA and GSM. TC4b is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● In the case of a BS supporting only one GSM carrier and one E-UTRA carrier, place a GSM carrier at the lower edge and a E-UTRA carrier at the upper edge of the RF bandwidth. The specified FOffset-RAT shall apply
● Place a GSM carrier at the upper edge and a GSM carrier at the lower edge of the RF bandwidth. The specified FOffset-RAT shall apply.
● Place two 5 MHz E-UTRA carriers in the middle of the RF bandwidth. If the BS does not support 5 MHz channel BW use the narrowest supported BW, if two carriers do not fit place only one carrier.
● Add GSM carriers at the edges using 600 kHz spacing until no more GSM carriers are supported or no more GSM carriers fit.
● Add additional E-UTRA carriers of the same bandwidth as the already allocated E-UTRA carriers in the middle if possible.
NOTE: Further details on the method for BS supporting many carriers is FFS.
4.8.4.3 TC4c generation
TC4c is only applicable for a BS that supports UTRA, E-UTRA and GSM. TC4c is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● In the case of a BS supporting only one GSM carrier and one E-UTRA or UTRA carrier, place a GSM carrier at the lower edge and a E-UTRA carrier at the upper edge of the RF bandwidth. The specified FOffset-RAT shall apply
● Place a GSM carrier at the upper edge and a GSM carrier at the lower edge of the RF bandwidth. The specified FOffset-RAT shall apply.
● Place one 5 MHz E-UTRA carrier and one UTRA carrier in the middle of the RF bandwidth. If the BS does not support 5 MHz E-UTRA channel BW use the narrowest supported BW. The carrier(s) may be shifted maximum 100 kHz towards lower frequencies for BRFBW and MRFBW and towards higher frequencies for TRFBW to align with the channel raster.
● Add GSM carriers at the edges using 600 kHz spacing until no more GSM carriers are supported or no more GSM carriers fit.
● Add additional UTRA and E-UTRA carriers in the middle if possible. For E-UTRA the same bandwidth as the already allocated E-UTRA carriers shall be used.
NOTE: Further details on the method for BS supporting many carriers is FFS.
4.8.4.4 TC4d generation
TC4d is only applicable for a BS that supports UTRA and GSM. TC4d is only applicable when [the declared RF bandwidth for GSM is not equal to the declared RF bandwidth for multi-RAT operations and] the frequency range within the frequency band supported by the BS is a subset of the operating band, or when the maximum supported RF bandwidth covers the entire operating band. TC4d is constructed using the following method:
● The RF bandwidth shall be 600 kHz less than the declared maximum supported RF bandwidth.
● The RF bandwidth shall be adjacent to the high end of the frequency range supported by the BS.
● Place a GSM carrier at the lower edge of the RF bandwidth. Add one GSM carrier, if the BS supports more than one GSM carrier, at the lower edge using 600 kHz spacing. The specified FOffset-RAT shall apply.
● Put one UTRA carrier adjacent to the upper edge of the RF bandwidth. The specified FOffset-RAT shall apply. The carrier may be shifted maximum 100 kHz towards higher frequencies to align with the channel raster.
4.8.4.5 TC4e generation
TC4e is only applicable for a BS that supports E-UTRA and GSM. TC4e is only applicable when [the declared RF bandwidth for GSM is not equal to the declared RF bandwidth for multi-RAT operations and] the frequency range within the frequency band supported by the BS is a subset of the operating band, or when the maximum supported RF bandwidth covers the entire operating band. TC4e is constructed using the following method:
● The RF bandwidth shall be 600 kHz less than the declared maximum supported RF bandwidth.
● The RF bandwidth shall be adjacent to the upper edge of the frequency range supported by the BS.
● Place a GSM carrier at the lower edge of the RF bandwidth. Add one GSM carrier, if the BS supports more than one GSM carrier, at the lower edge using 600 kHz spacing. The specified FOffset-RAT shall apply.
● Put one 5 MHz E-UTRA carrier adjacent to the upper edge of the RF bandwidth. If the BS does not support 5 MHz channel BW use the narrowest supported BW. The specified FOffset-RAT shall apply.
4.8.4.6 TC4 power allocation
a) Unless otherwise stated, set each carrier to the same power so that the sum of the carrier powers equals the rated total output power according to manufacturer’s declarations in subclause 4.7.2 a)
b) In case that TC4 is configured for testing modulation quality, the power allocated per carrier for the RAT on which modulation quality is measured shall be the highest possible for the given modulation configuration according to the manufacturer’s declarations in subclause 4.7.2, unless that power is higher than the level defined by case a). The power of the remaining carriers from other RAT(s) shall be set to the same level as in case a).
If in the case of b) the power of one RAT needs to be reduced in order to meet the manufacture’s declaration the power in the other RAT(s) does not need to be increased.
4.8.5 TC5: BC2 receiver operation
4.8.5.1 TC5a generation
TC5a is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● Place a GSM carrier at the low RF bandwidth edge. The specified FOffset-RAT shall apply.
● Place a UTRA FDD carrier at the high RF bandwidth edge. The specified FOffset-RAT shall apply. The UTRA FDD carrier may be shifted maximum 100 kHz towards higher frequencies to align with the channel raster.
4.8.5.2 TC5b generation
TC5b is constructed using the following method:
● The RF bandwidth shall be the declared maximum supported RF bandwidth.
● Place a GSM carrier at the low RF bandwidth edge. The specified FOffset-RAT shall apply.
● Place a 5MHz E-UTRA carrier at the high RF bandwidth edge. If the BS does not support 5 MHz channel BW select the narrowest supported channel BW. The specified FOffset-RAT shall apply.
4.8.6 TC6: Single carrier for receiver tests
4.8.6.1 TC6a generation
TC6a is constructed using the following method:
● Place a single UTRA carrier in the middle of the maximum supported RF bandwidth. The carrier may be shifted maximum 100 kHz towards lower frequencies for BRFBW and MRFBW and towards higher frequencies for TRFBW to align with the channel raster.
4.8.6.2 TC6b generation
TC6b is constructed using the following method:
● Place the narrowest supported E-UTRA carrier in the middle of the maximum supported RF bandwidth.
4.8.6.3 TC6c generation
TC6c is constructed using the following method:
● Place a single UTRA TDD carrier in the middle of the maximum supported RF bandwidth.
4.9 RF channels and test models
4.9.1 RF channels
Many tests in this TS are performed with the maximum RF bandwidth located at the bottom, middle and top of the supported frequency range in the operating band. These are denoted as BRFBW (bottom), MRFBW (middle) and TRFBW (top).
Unless otherwise stated, the test shall be performed at BRFBW, MRFBW and TRFBW defined as following:
BRFBW: maximum RF bandwidth located at the bottom of the supported frequency range in the operating band.
MRFBW: maximum RF bandwidth located in the middle of the supported frequency range in the operating band. MRFBW may be shifted maximum 100 kHz towards lower frequencies to align carriers with the channel raster.
TRFBW: maximum RF bandwidth located at the top of the supported frequency range in the operating band.
For the test of certain RF requirements the present specification refers to test procedures defined in the single-RAT specifications. In this case, the interpretation of the RF channels to be tested shall be according to the following definitions:
B: maximum RF bandwidth located at the bottom of the supported frequency range in the operating band, the channel to be tested located at the bottom of the maximum RF bandwidth
M: maximum RF bandwidth located in the middle of the supported frequency range in the operating band, the channel to be tested located in the middle of the maximum RF bandwidth
T: maximum RF bandwidth located at the top of the supported frequency range in the operating band, the channel to be tested located at the top of the maximum RF bandwidth
For the case of multi-carrier tests, where supported carriers are numbered from 1 to N, the interpretation of M for test purposes shall be as follows:
For testing at M,
- if the number N of carriers supported is odd, the carrier (N+1)/2 shall be centred on M,
- if the number N of carriers supported is even, the carrier N/2 shall be centred on M.
When a test is performed by a test laboratory, the position of BRFBW, MRFBW and TRFBW in the operating band and the channel numbers to be used for RF channels B, M and T shall be specified by the laboratory. The laboratory may consult with operators, the manufacturer or other bodies.
4.9.2 Test models
a) Unless otherwise stated, carriers within MSR test configurations used for transmitter tests shall be configured as follows:
- UTRA FDD carriers shall be configured according to TM1 as defined in TS 25.141 [10] subclause 6.1.1.1.
- UTRA TDD carriers shall be configured according to Table 6.1A as defined in TS 25.142 [12] subclause 6.2.4.1.2.
- E-UTRA carriers shall be configured according to E-TM1 as defined in TS 36.141 [9] subclause 6.1.1.1. For BC3 CS3 BS testing, E-UTRA carriers shall be configured according to E-TM1_BC3CS3 defined in Annex E.
- GSM carriers shall use GMSK modulation as defined in TS 51.021 [11] clause 6.2.2.
b) The configuration of the carriers in test configurations used for testing modulation quality and frequency error shall be as follows:
- For the case that modulation accuracy is measured for UTRA FDD, the UTRA FDD carriers shall be configured according to the supported TM1, TM4 and if HS-PDSCH transmission using 16QAM is supported also TM5 as defined in TS 25.141 [10] subclause 6.1.1.1, 6.1.1.4 and 6.1.1.4A whilst any remaining carriers from other RAT(s) shall be configured according to a).
- For the case that modulation accuracy is measured for UTRA TDD, the UTRA TDD carriers shall be configured according to the supported modulation in Table 6.2A, Table 6.39A, Table 6.39B, Table 6.39C, Table 6.39D, Table 6.40A, Table 6.40B, Table 6.41A, Table 6.41B as defined in TS 25.142 [12] subclause 6.3.4, 6.8.1, 6.8.2 and 6.8.3 whilst any remaining carriers from other RAT(s) shall be configured according to a).
- For the case that modulation accuracy is measured for E-UTRA, the E-UTRA carriers shall be configured according to the supported E-TM3.1, E-TM3.2, E-TM3.3 and E-TM2 as defined in TS 36.141 [9] subclause 6.1.1.4, 6.1.1.5, 6.1.1.6 and 6.1.1.3 whilst any remaining carriers from other RAT(s) shall be configured according to a). For BC3 CS3 BS testing, E-UTRA carriers shall be configured according to E-TM3.1_BC3CS3, E-TM3.2_BC3CS3, E-TM3.3_BC3CS3 and E-TM2_BC3CS3 defined in Annex E.
- For the case that modulation accuracy is measured for GSM, the GSM carriers shall be configured for the supported modulation according to TS 51.021 [11] clause 6.2.2 whilst any remaining carriers from other RAT(s) shall be configured according to a).
For the test of certain RF requirements clause 5 refers to the test configurations as defined in the single-RAT specifications. In this case, the transmitter test signals and test models as defined within the referred test specification for the RF requirement shall be used.
4.10 BS configurations
4.10.1 Transmit configurations
Unless otherwise stated, the transmitter characteristics in clause 6 are specified at the BS antenna connector (test port A) with a full complement of transceivers for the configuration in normal operating conditions. If any external apparatus such as a TX amplifier, a filter or the combination of such devices is used, requirements apply at the far end antenna connector (test port B).
EMBED Word.Picture.8
Figure 4.10.1-1: Transmitter test ports
4.10.1.1 Multi-carrier transmission with multiple transmitter antenna connectors, transmit diversity and MIMO transmission
Unless otherwise stated, for the tests in clause 6 of the present document, the requirement applies for each transmitter antenna connector in the case of multi-carrier transmission with multiple transmitter antenna connectors, transmit diversity, DB-DC-HSDPA or MIMO transmission.
Transmitter requirements are tested at the antenna connector, with the remaining antenna connector(s) being terminated. If the manufacturer has declared the transmitter paths to be equivalent, it is sufficient to measure the signal at any one of the transmitter antenna connectors.
4.10.2 Receive configurations
Unless otherwise stated, the receiver characteristics in clause 7 are specified at the BS antenna connector (test port A) with a full complement of transceivers for the configuration in normal operating conditions. If any external apparatus such as a RX amplifier, a filter or the combination of such devices is used, requirements apply at the far end antenna connector (test port B).
EMBED Word.Picture.8
Figure 4.10.2-1: Receiver test ports
4.10.2.1 Multi-carrier reception with multiple receiver antenna connectors, receiver diversity
For the tests in clause 7 of the present document, the requirement applies at each receiver antenna connector for receivers with antenna diversity or in the case of multi-carrier reception with multiple receiver antenna connectors.
Receiver requirements are tested at the antenna connector, with the remaining receiver(s) disabled or their antenna connector (s ) being terminated. If the manufacturer has declared the receiver paths to be equivalent, it is sufficient to apply the specified test signal at any one of the receiver antenna connectors.
4.10.3 Duplexers
The requirements of the present document shall be met with a duplexer fitted, if a duplexer is supplied as part of the BS.
NOTE: The present release of this specification does not contain test requirements for the case that the duplexer is supplied as an option by the manufacturer. This is left for future releases.
4.10.4 Power supply options
If the BS is supplied with a number of different power supply configurations, it may not be necessary to test RF parameters for each of the power supply options, provided that it can be demonstrated that the range of conditions over which the equipment is tested is at least as great as the range of conditions due to any of the power supply configurations.
This applies particularly if a BS contains a DC rail which can be supplied either externally or from an internal mains power supply. In this case, the conditions of extreme power supply for the mains power supply options can be tested by testing only the external DC supply option. The range of DC input voltages for the test should be sufficient to verify the performance with any of the power supplies, over its range of operating conditions within the BS, including variation of mains input voltage, temperature and output current.
4.10.5 Ancillary RF amplifiers
The requirements of the present document shall be met with the ancillary RF amplifier fitted. At tests according to clauses 6 and 7 for TX and RX respectively, the ancillary amplifier is connected to the BS by a connecting network (including any cable(s), attenuator(s), etc.) with applicable loss to make sure the appropriate operating conditions of the ancillary amplifier and the BS. The applicable connecting network loss range is declared by the manufacturer. Other characteristics and the temperature dependence of the attenuation of the connecting network are neglected. The actual attenuation value of the connecting network is chosen for each test as one of the applicable extreme values. The lowest value is used unless otherwise stated.
Sufficient tests should be repeated with the ancillary amplifier fitted and, if it is optional, without the ancillary RF amplifier to verify that the BS meets the requirements of the present document in both cases.
When testing, the following tests shall be repeated with the optional ancillary amplifier fitted according to Table 4.10.5-1, where x denotes that the test is applicable:
Table 4.10.5-1 Tests applicable to ancillary RF Amplifiers
Receiver Tests
Subclause
TX amplifier only
RX amplifier only
TX/RX amplifiers combined (Note)
7.2
X
X
7.4
X
X
7. 5
X
X
7. 6
X
X
7. 7
X
Transmitter Tests
6.2
X
X
6.6.1
X
X
6.6.2
X
X
6.6.3
X
X
6.6.4
X
X
6.7
X
X
NOTE: Combining can be by duplex filters or any other network. The amplifiers can either be in RX or TX branch or in both. Either one of these amplifiers could be a passive network.
In test according to subclauses 6.2 and 7.2 highest applicable attenuation value is applied.
4.10.6 BS with integrated Iuant BS modem
Unless otherwise stated, for the tests in the present document, the integrated Iuant BS modem shall be switched off. Spurious emissions according to clauses 6.6.4 and 7.7 shall be measured only for frequencies above 20MHz with the integrated Iuant BS modem switched on.
4.10.7 BS using antenna arrays
A BS may be configured with a multiple antenna port connection for some or all of its transceivers or with an antenna array related to one cell (not one array per transceiver). This subclause applies to a BS which meets at least one of the following conditions:
- the transmitter output signals from one or more transceiver appear at more than one antenna port; or
- there is more than one receiver antenna port for a transceiver or per cell and an input signal is required at more than one port for the correct operation of the receiver thus the outputs from the transmitters as well as the inputs to the receivers are directly connected to several antennas (known as "aircombining"); or
- transmitters and receivers are connected via duplexers to more than one antenna.
In case of diversity or spatial multiplexing, multiple antennas are not considered as an antenna array.
If a BS is used, in normal operation, in conjunction with an antenna system which contains filters or active elements which are necessary to meet the BS requirements, the conformance tests may be performed on a system comprising the BS together with these elements, supplied separately for the purposes of testing. In this case, it must be demonstrated that the performance of the configuration under test is representative of the system in normal operation, and the conformance assessment is only applicable when the BS is used with the antenna system.
For conformance testing of such a BS, the following procedure may be used.
4.10.7.1 Receiver tests
For each test, the test signals applied to the receiver antenna connectors shall be such that the sum of the powers of the signals applied equals the power of the test signal(s) specified in the test.
An example of a suitable test configuration is shown in figure 4.10.7.1-1.
SHAPE \* MERGEFORMAT
Figure 4.10.7.1-1: Receiver test set-up
For spurious emissions from the receiver antenna connector, the test may be performed separately for each receiver antenna connector.
4.10.7.2 Transmitter tests
For each test, the test signals applied to the transmitter antenna connectors (Pi) shall be such that the sum of the powers of the signals applied equals the power of the test signal(s) (Ps) specified in the test. This may be assessed by separately measuring the signals emitted by each antenna connector and summing the results, or by combining the signals and performing a single measurement. The characteristics (e.g. amplitude and phase) of the combining network should be such that the power of the combined signal is maximised.
An example of a suitable test configuration is shown in figure 4.10.7.2-1.
SHAPE \* MERGEFORMAT
Figure 4.10.7.2-1: Transmitter test set-up
For Intermodulation attenuation, the test may be performed separately for each transmitter antenna connector.
4.11 Format and interpretation of tests
Each test in the following clauses has a standard format:
X Title
All tests are applicable to all equipment within the scope of the present document, unless otherwise stated.
X.1 Definition and applicability
This subclause gives the general definition of the parameter under consideration and specifies whether the test is applicable to all equipment or only to a certain subset. Required manufacturer declarations may be included here.
X.2 Minimum requirement
This subclause contains the reference to the subclause to the 3GPP reference (or core) specification which defines the minimum requirement.
X.3 Test purpose
This subclause defines the purpose of the test.
X.4 Method of test
X.4.1 Initial conditions
This subclause defines the initial conditions for each test, including the test environment, the RF channels to be tested and the basic measurement set-up. For the test of certain RF requirements the present specification refers to the test method of the single-RAT specifications. In this case, the initial conditions as defined within the referred test specification for the RF requirement shall be used.
X.4.2 Procedure
This subclause describes the steps necessary to perform the test and provides further details of the test definition like point of access (e.g. test port), domain (e.g. frequency-span), range, weighting (e.g. bandwidth), and algorithms (e.g. averaging). For the test of certain RF requirements the present specification refers to the test method of the single-RAT specifications. In this case, the test procedure as defined within the referred test specification for the RF requirement shall be used.
X.5 Test requirement
This subclause defines the pass/fail criteria for the equipment under test. See subclause 4.1.3 Interpretation of measurement results. For the test of certain RF requirements the present specification refers to the requirements of the single-RAT specifications. In this case, the test requirement as defined within the referred test specification for the RF requirement shall be used.
5 Applicability of requirements and test configurations
The present clause defines for each RF test requirement the set of mandatory test configurations which shall be used for demonstrating conformance. This is specified in the Table 5.2-1 for single-RAT Multi-carrier and Table 5.1-1 for multi-RAT Base Stations.
Requirements apply according to the declared RAT Capability Set (CS) of the MSR Base Station and the Band Category of the declared operating band (BC1, BC2 or BC3), as listed in the heading of each table. Some RF requirements listed in the tables may not be mandatory or they may apply only regionally. This is further specified for each requirement in clause 6 and 7, and in Table 4.3-1.
For a declared RAT Capability Set (CS), only the requirements listed in the column for that CS apply. Requirements listed under CS other than the declared CS(s) need not be tested.
For some of the RF test requirements entries within Tables 5.1-1 and 5.2-1 refer to the single-RAT specifications; this is denoted by "(TS 25.141)", "(TS 25.142)", "(TS 36.141)" or "(TS 51.021)". In this case the following shall apply:
- transmitter test signals and test models as defined within the referred test specification shall be used, see clause 4.9.2. For some RF requirements this comprises a mandatory test case in addition to a test case using the MSR test configurations defined in clause 4.8.
- for some RF requirements the initial conditions and test procedure as defined within the referred single-RAT test specification for the RF requirement shall be used. This is specified in further detail in clauses 6, 7 and 8 of the present document.
- for some RF requirements the test requirement as defined within the referred single-RAT test specification for the RF requirement shall be used. This is specified in further detail in clauses 6, 7 and 8 of the present document. In this case (see clause 4.1):
- The maximum acceptable uncertainty of the Test System for test requirements are defined in the respective referred test specification
- Test Tolerances are defined in the respective referred test specification.
5.1 Multi-RAT capable Base Stations
Table 5.1-1: Test configurations for capability sets for Multi-RAT capable BS
Capability Set
UTRA + E-UTRA
(CS 3)
GSM+ UTRA
(CS 4)
GSM +
E-UTRA
(CS 5)
GSM + UTRA + E-UTRA
(CS 6)
BS test case
BC1
BC2
BC3
BC2
BC2
BC2
6.2 Base Station output power
-
-
-
-
-
-
Base Station maximum output power
TC3a
TC3a
TC3b
TC4a
TC4b
TC4c
Additional regional requirement
(only for band 34)
N/A
N/A
Compliance stated by manufacturer declaration
N/A
N/A
N/A
E-UTRA DL RS power
(TS 36.141)
(TS 36.141)
(TS 36.141)
N/A
(TS 36.141)
(TS 36.141)
UTRA FDD primary CPICH power
(TS 25.141)
(TS 25.141)
N/A
(TS 25.141)
N/A
(TS 25.141)
UTRA TDD primary CCPCH power
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
6.3 Output power dynamics
-
-
-
-
-
-
E-UTRA
(TS 36.141)
(TS 36.141)
(TS 36.141)
N/A
(TS 36.141)
(TS 36.141)
UTRA FDD
(TS 25.141)
(TS 25.141)
N/A
(TS 25.141)
N/A
(TS 25.141)
UTRA TDD
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
GSM/EDGE
N/A
N/A
N/A
(TS 51.021)
(TS 51.021)
(TS 51.021)
6.4 Transmit ON/OFF power
-
-
-
-
-
-
Transmitter OFF power
N/A
N/A
TC3b
N/A
N/A
N/A
Transmitter transient period
N/A
N/A
TC3b
N/A
N/A
N/A
6.5 Transmitted signal quality
-
-
-
-
-
-
6.5.1 Modulation quality
-
-
-
-
-
-
E-UTRA
TC3a
TC3a
TC3b
N/A
TC4b
TC4c
UTRA FDD
TC3a
TC3a
N/A
TC4a
N/A
TC4c
UTRA TDD
N/A
N/A
TC3b
N/A
N/A
N/A
GSM/EDGE
N/A
N/A
N/A
TC4a
TC4b
TC4c
6.5.2 Frequency error
-
-
-
-
-
-
E-UTRA
Same TC as used in 6.5.1
Same TC as used in 6.5.1
Same TC as used in 6.5.1
N/A
Same TC as used in 6.5.1
Same TC as used in 6.5.1
UTRA FDD
Same TC as used in 6.5.1
Same TC as used in 6.5.1
N/A
Same TC as used in 6.5.1
N/A
Same TC as used in 6.5.1
UTRA TDD
N/A
N/A
Same TC as used in 6.5.1
N/A
N/A
N/A
GSM/EDGE
N/A
N/A
N/A
Same TC as used in 6.5.1
Same TC as used in 6.5.1
Same TC as used in 6.5.1
6.5.3 Time alignment error
-
-
-
-
-
-
E-UTRA
(TS 36.141)
(TS 36.141)
(TS 36.141)
N/A
(TS 36.141)
(TS 36.141)
UTRA FDD
(TS 25.141)
(TS 25.141)
N/A
(TS 25.141)
N/A
(TS 25.141)
UTRA TDD
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
6.6 Unwanted emissions
-
-
-
-
-
-
6.6.1 Transmitter spurious emissions
-
-
-
-
-
-
(Category A)
TC3a
TC3a
TC3b
TC4a
TC4b
TC4c
(Category B)
TC3a
TC3a
TC3b
TC4a
TC4b
TC4c
Additional requirement for BC2 (Category B)
N/A
N/A
N/A
TC4a
TC4b
TC4c
Protection of the BS receiver of own or different BS
TC3a
TC3a
TC3b
TC4a
TC4b
TC4c
Additional spurious emissions requirements
TC3a
TC3a
TC3b
TC4a
TC4b
TC4c
Co-location with other Base Stations
TC3a
TC3a
TC3b
TC4a
TC4b
TC4c
6.6.2 Operating band unwanted emissions
-
-
-
-
-
-
General requirement for Band Categories 1 and 3
TC3a,
(TS 25.141) and
(TS 36.141)
N/A
TC3b,
(TS 25.142) and
(TS 36.141)
N/A
N/A
N/A
General requirement for Band Category 2
N/A
(TS 25.141) and
(TS 36.141)
TC3a
N/A
(TS 25.141)
TC4a
TC4d (note1)
(TS 36.141)
TC4b
TC4e (note1)
(TS 25.141) and
(TS 36.141)
TC4c
TC4e (note1)
GSM/EDGE single-RAT requirement
N/A
N/A
N/A
(TS 51.021)
(TS 51.021)
(TS 51.021)
Additional requirements
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
6.6.3 Occupied bandwidth
-
-
-
-
-
-
Minimum requirement
(TS 25.141) and
(TS 36.141)
(TS 25.141) and
(TS 36.141)
(TS 25.142) and
(TS 36.141)
(TS 25.141)
(TS 36.141)
(TS 25.141) and
(TS 36.141)
6.6.4 Adjacent Channel Leakage power Ratio (ACLR)
-
-
-
-
-
-
E- UTRA
(TS 36.141)
(TS 36.141)
(TS 36.141)
N/A
(TS 36.141)
(TS 36.141)
UTRA FDD
(TS 25.141)
(TS 25.141)
N/A
(TS 25.141)
N/A
(TS 25.141)
UTRA TDD
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
6.7 Transmitter intermodulation
-
-
-
-
-
-
General requirement
Same TC as used in 6.6
Same TC as used in 6.6
Same TC as used in 6.6
Same TC as used in 6.6
Same TC as used in 6.6
Same TC as used in 6.6
Additional requirement (BC2)
N/A
Same TC as used in 6.6
N/A
Same TC as used in 6.6
Same TC as used in 6.6
Same TC as used in 6.6
Additional requirement (BC3)
N/A
N/A
Same TC as used in 6.6
N/A
N/A
N/A
7.2 Reference sensitivity level
-
-
-
-
-
-
E-UTRA
(TS 36.141)
(TS 36.141)
(TS 36.141)
N/A
(TS 36.141)
(TS 36.141)
UTRA FDD
(TS 25.141)
(TS 25.141)
N/A
(TS 25.141)
N/A
(TS 25.141)
UTRA TDD
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
GSM/EDGE
N/A
N/A
N/A
(TS 51.021)
(TS 51.021)
(TS 51.021)
7.3 Dynamic range
-
-
-
-
-
-
E-UTRA
(TS 36.141)
(TS 36.141)
(TS 36.141)
N/A
(TS 36.141)
(TS 36.141)
UTRA FDD
(TS 25.141)
(TS 25.141)
N/A
(TS 25.141)
N/A
(TS 25.141)
UTRA TDD
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
GSM/EDGE
N/A
N/A
N/A
(TS 51.021)
(TS 51.021)
(TS 51.021)
7.4 In- band selectivity and blocking
-
-
-
-
General blocking requirement
TC3a
TC3a
TC3b
TC5a
TC5b
TC5b
General narrowband blocking requirement
TC3a and TC6b
TC3a and TC6b
TC3b and TC6b
TC5a and TC6a
TC5b and TC6b
TC5b and TC6a
Additional narrowband blocking requirement for GSM/EDGE
N/A
N/A
N/A
(TS 51.021)
(TS 51.021)
(TS 51.021)
GSM/EDGE requirements for AM suppression
N/A
N/A
N/A
(TS 51.021)
(TS 51.021)
(TS 51.021)
Additional BC3 blocking requirement
N/A
N/A
TC3b
N/A
N/A
N/A
7.5 Out-of-band blocking
-
-
-
-
-
-
General requirement
TC3a
TC3a
TC3b
TC5a
TC5b
TC5b
Co-location requirement
TC3a
TC3a
TC3b
TC5a
TC5b
TC5b
7.6 Receiver spurious emissions
-
-
-
-
-
-
General requirement
TC3a
TC3a
TC3b
TC4a
TC4b
TC4c
Additional requirement for BC2 (Category B)
N/A
N/A
N/A
TC4a
TC4b
TC4c
7.7 Receiver intermodulation
-
-
-
-
-
-
General intermodulation requirement
TC3a
TC3a
TC3b
TC5a
TC5b
TC5b
General narrowband intermodulation requirement
TC3a and TC6b
TC3a and TC6b
TC3b and TC6b
TC5a and TC6a
TC5b and TC6b
TC5b and TC6a
Additional narrowband intermodulation requirement for GSM/EDGE
N/A
N/A
N/A
(TS 51.021)
(TS 51.021)
(TS 51.021)
7.8 In-channel selectivity
-
-
-
-
-
-
E-UTRA requirement
(TS 36.141)
(TS 36.141)
(TS 36.141)
N/A
(TS 36.141)
(TS 36.141)
NOTE 1: The TC shall be used for performing tests when [the declared RF bandwidth for GSM is not equal to the declared RF bandwidth for multi-RAT operations and] the frequency range within the frequency band supported by the BS is a subset of the operating band, or when the maximum supported RF bandwidth covers the entire operating band.
5.2 Single-RAT Multi-carrier capable Base Stations
Table 5.2-1: Test configurations for capability sets for Single-RAT capable BS
Capability Set
UTRA (MC) capable BS (CS1)
E-UTRA (MC) capable BS (CS2)
BS test case
BC1
BC2
BC3
BC1
BC2
BC3
6.2 Base Station output power
-
-
-
-
-
-
Base Station maximum output power
TC1a
TC1a
TC1b
TC2
TC2
TC2
Additional regional requirement
(only for band 34)
N/A
N/A
N/A
N/A
N/A
Compliance stated by manufacturer declaration
E-UTRA DL RS power
N/A
N/A
N/A
(TS 36.141)
(TS 36.141)
(TS 36.141)
UTRA FDD primary CPICH power
(TS 25.141)
(TS 25.141)
N/A
N/A
N/A
N/A
UTRA TDD primary CCPCH power
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
6.3 Output power dynamics
-
-
-
-
-
-
E-UTRA
N/A
N/A
N/A
(TS 36.141)
(TS 36.141)
(TS 36.141)
UTRA FDD
(TS 25.141)
(TS 25.141)
N/A
N/A
N/A
N/A
UTRA TDD
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
GSM/EDGE
N/A
N/A
N/A
N/A
N/A
N/A
6.4 Transmit ON/OFF power
-
-
-
-
-
-
Transmitter OFF power
N/A
N/A
TC1b
N/A
N/A
TC2
Transmitter transient period
N/A
N/A
TC1b
N/A
N/A
TC2
6.5 Transmitted signal quality
-
-
-
-
-
-
6.5.1 Modulation quality
-
-
-
-
-
-
E-UTRA
N/A
N/A
N/A
TC2
TC2
TC2
UTRA FDD
TC1a
TC1a
N/A
N/A
N/A
N/A
UTRA TDD
N/A
N/A
TC1b
N/A
N/A
N/A
GSM/EDGE
N/A
N/A
N/A
N/A
N/A
N/A
6.5.2 Frequency error
-
-
-
-
-
-
E-UTRA
N/A
N/A
N/A
Same TC as used in 6.5.1
Same TC as used in 6.5.1
Same TC as used in 6.5.1
UTRA FDD
Same TC as used in 6.5.1
Same TC as used in 6.5.1
N/A
N/A
N/A
N/A
UTRA TDD
N/A
N/A
Same TC as used in 6.5.1
N/A
N/A
N/A
GSM/EDGE
N/A
N/A
N/A
N/A
N/A
N/A
6.5.3 Time alignment error
-
-
-
-
-
-
E-UTRA
N/A
N/A
N/A
(TS 36.141)
(TS 36.141)
(TS 36.141)
UTRA FDD
(TS 25.141)
(TS 25.141)
N/A
N/A
N/A
N/A
UTRA TDD
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
6.6 Unwanted emissions
-
-
-
-
-
-
6.6.1 Transmitter spurious emissions
-
-
-
-
-
-
(Category A)
TC1a
TC1a
TC1b
TC2
TC2
TC2
(Category B)
TC1a
TC1a
TC1b
TC2
TC2
TC2
Additional requirement for BC2 (Category B)
N/A
N/A
N/A
N/A
N/A
N/A
Protection of the BS receiver of own or different BS
TC1a
TC1a
TC1b
TC2
TC2
TC2
Additional spurious emissions requirements
TC1a
TC1a
TC1b
TC2
TC2
TC2
Co-location with other Base Stations
TC1a
TC1a
TC1b
TC2
TC2
TC2
6.6.2 Operating band unwanted emissions
-
-
-
-
-
-
General requirement for Band Categories 1 and 3
TC1a and
(TS 25.141)
N/A
TC1b and
(TS 25.142)
TC2 and
(TS 36.141)
N/A
TC2 and
(TS 36.141)
General requirement for Band Category 2
N/A
TC1a and
(TS 25.141)
N/A
N/A
TC2 and
(TS 36.141)
N/A
GSM/EDGE single-RAT requirements
N/A
N/A
N/A
N/A
N/A
N/A
Additional requirements
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
Compliance stated by manufacturer declaration
6.6.3 Occupied bandwidth
-
-
-
-
-
-
Minimum requirement
(TS 25.141)
(TS 25.141)
(TS 25.142)
(TS 36.141)
(TS 36.141)
(TS 36.141)
6.6.4 Adjacent Channel Leakage power Ratio (ACLR)
-
-
-
-
-
E-UTRA
N/A
N/A
N/A
(TS 36.141)
(TS 36.141)
(TS 36.141)
UTRA FDD
(TS 25.141)
(TS 25.141)
N/A
N/A
N/A
N/A
UTRA TDD
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
6.7 Transmitter intermodulation
-
-
-
-
-
-
General requirement
Same TC as used in 6.6
Same TC as used in 6.6
Same TC as used in 6.6
Same TC as used in 6.6
Same TC as used in 6.6
Same TC as used in 6.6
Additional requirement (BC2)
N/A
Same TC as used in 6.6
N/A
N/A
Same TC as used in 6.6
N/A
Additional requirement (BC3)
N/A
N/A
Same TC as used in 6.6
N/A
N/A
Same TC as used in 6.6
7.2 Reference sensitivity level
-
-
-
-
-
-
E-UTRA requirement
N/A
N/A
N/A
(TS 36.141)
(TS 36.141)
(TS 36.141)
UTRA FDD requirement
(TS 25.141)
(TS 25.141)
N/A
N/A
N/A
N/A
UTRA TDD requirement
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
GSM/EDGE requirement
N/A
N/A
N/A
N/A
N/A
N/A
7.3 Dynamic range
-
-
-
-
-
-
E-UTRA
N/A
N/A
N/A
(TS 36.141)
(TS 36.141)
(TS 36.141)
UTRA FDD
(TS 25.141)
(TS 25.141)
N/A
N/A
N/A
N/A
UTRA TDD
N/A
N/A
(TS 25.142)
N/A
N/A
N/A
GSM/EDGE
N/A
N/A
N/A
N/A
N/A
N/A
7.4 In-band selectivity and blocking
-
-
-
-
-
-
General blocking requirement
TC1a
TC1a
TC1b
TC2
TC2
TC2
General narrowband blocking requirement
TC1a and
TC6a
TC1a and TC6a
TC1b and TC6c
TC2 and
TC6b
TC2 and TC6b
TC2 and TC6b
Additional narrowband blocking requirement for GSM/EDGE
N/A
N/A
N/A
N/A
N/A
N/A
GSM/EDGE requirements for AM suppression
N/A
N/A
N/A
N/A
N/A
N/A
Additional BC3 blocking minimum requirement
N/A
N/A
TC1b
N/A
N/A
TC2
7.5 Out-of-band blocking
-
-
-
-
-
-
General requirement
TC1a
TC1a
TC1b
TC2
TC2
TC2
Co-location requirement
TC1a
TC1a
TC1b
TC2
TC2
TC2
7.6 Receiver spurious emissions
General requirement
TC1a
TC1a
TC1b
TC2
TC2
TC2
Additional requirement for BC2 (Category B)
N/A
N/A
N/A
N/A
N/A
N/A
7.7 Receiver intermodulation
-
-
-
-
-
-
General intermodulation requirement
TC1a
TC1a
TC1b
TC2
TC2
TC2
General narrowband intermodulation requirement
TC1a and TC6a
TC1a and TC6a
TC1b and TC6c
TC2 and TC6b
TC2 and TC6b
TC2 and TC6b
Additional narrowband intermodulation requirement for GSM/EDGE
N/A
N/A
N/A
N/A
N/A
N/A
7.8 In-channel selectivity
-
-
-
-
-
-
E-UTRA requirement
N/A
N/A
N/A
(TS 36.141)
(TS 36.141)
(TS 36.141)
6 Transmitter characteristics
6.1 General
General test conditions for transmitter tests are given in clause 4, including interpretation of measurement results and configurations for testing. BS configurations for the tests are defined in subclause 4.10.
6.2 Base Station output power
6.2.1 Base Station maximum output power
6.2.1.1 Definition and applicability
Output power of the Base Station is the mean power delivered to a load with resistance equal to the nominal load impedance of the transmitter.
The maximum total output power, Pmax, of the Base Station is the mean power level measured at the antenna connector during the transmitter ON period in a specified reference condition.
The maximum RAT output power, Pmax,RAT, of the Base Station is the mean power level measured at the antenna connector during the transmitter ON period for a specific RAT in a specified reference condition.
The maximum carrier output power, Pmax,c of the Base Station is the mean power level measured at the antenna connector during the transmitter ON period for a specific carrier in a specified reference condition.
In certain regions, the minimum requirement for normal conditions may apply also for some conditions outside the ranges defined for the Normal test environment in Annex B.
6.2.1.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 6.2.1.
6.2.1.3 Test purpose
The test purpose is to verify the accuracy of the maximum carrier output power across the frequency range and under normal and extreme conditions for all transmitters in the BS.
6.2.1.4 Method of test
6.2.1.4.1 Initial conditions
Test environment: normal; see Annex B.2.
RF bandwidth position to be tested: BRFBW, MRFBW and TRFBW; see subclause 4.9.1.
In addition, on one ARFCN, UARFCN or E-ARFCN only, the BS output power test shall be performed under extreme power supply as defined in Annex B.3.
NOTE: Tests under extreme power supply also test extreme temperature.
Connect the power measuring equipment to the MSR Base Station antenna connector as shown in Annex D.1.1.
6.2.1.4.2 Procedure
1) Set the Base Station to transmit at maximum power according to the applicable test configuration in clause 5 using the corresponding test models or set of physical channels in subclause 4.9.2.
2) Measure the mean power for each carrier at the Base Station antenna connector.
6.2.1.5 Test requirements
In normal conditions, the measurement result in step 2 of subclause 6.2.1.4.2 shall for UTRA and E-UTRA remain within +2.7 dB and –2.7 dB of the manufacturer's rated carrier output power and for GSM/EDGE remain within +3.0 dB and ‑3.0 dB of the manufacturer's rated carrier output power.
In extreme conditions, measurement result in step 2 of subclause 6.2.1.4.2 shall for UTRA and E-UTRA remain within +3.2 dB and –3.2 dB of the manufacturer's rated carrier output power and for GSM/EDGE remain within +3.5 dB and –3.5 dB of the manufacturer's rated carrier output power.
6.2.2 E-UTRA DL RS power
6.2.2.1 Definition and applicability
E-UTRA DL RS power is the resource element power of Downlink Reference Symbol.
The absolute DL RS power is indicated on the DL-SCH. The absolute accuracy is defined as the maximum deviation between the DL RS power indicated on the DL-SCH and the DL RS power at the BS antenna connector.
6.2.2.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 6.2.3.
6.2.2.3 Test purpose
The test purpose is to verify that the E-UTRA DL RS power is within the limits specified by the minimum requirement.
6.2.2.4 Method of test
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 6.5.4.4
6.2.2.5 Test requirements
The test requirement for DL RS power is specified in TS 36.141 [9], subclause 6.5.4.5.
6.2.3 UTRA FDD primary CPICH power
6.2.3.1 Definition and applicability
UTRA FDD primary CPICH power is the code domain power of the Common Pilot Channel. Primary CPICH power is indicated on the BCH. CPICH power accuracy is defined as the maximum deviation between the Primary CPICH code domain power indicated on the BCH and the Primary CPICH code domain power measured at the TX antenna interface.
6.2.3.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 6.2.4.
6.2.3.3 Test purpose
The test purpose is to verify that the UTRA FDD primary CPICH power is within the limits specified by the minimum requirement.
6.2.3.4 Method of test
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], subclause 6.2.2.4.
6.2.3.5 Test requirements
For UTRA FDD the test requirement for CPICH power is specified in TS 25.141 [10], subclause 6.2.2.5.
6.2.4 UTRA TDD primary CCPCH power
6.2.4.1 Definition and applicability
UTRA TDD primary CCPCH power is the code domain power of the Primary Common Control Physical Channel averaged over the transmit timeslot. Primary CCPCH power is signalled on the BCH.
UTRA TDD differential accuracy of the Primary CCPCH power is the relative transmitted power accuracy of PCCPCH in consecutive frames when the nominal PCCPCH power is not changed.
6.2.4.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 6.2.5.
6.2.4.3 Test purpose
The test purpose is to verify that the UTRA TDD primary CCPCH power and differential accuracy of Primary CCPCH power are within the limits specified by the minimum requirement.
6.2.4.4 Method of test
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 25.142, the methods of test are specified in TS 25.142 [12], subclause 6.4.5.4 and 6.4.6.4 respectively.
6.2.4.5 Test requirements
For UTRA TDD, the test requirement for primary CCPCH power and the differential accuracy of Primary CCPCH power are specified in TS 25.142 [12], subclause 6.4.5.5 and 6.4.6.5, respectively.
6.3 Output power dynamics
6.3.1 Definition and applicability
Output power dynamics is defined by the MSR BS transmitter’s ability to operate at varying output power levels.
6.3.2 Minimum Requirement
The minimum requirement is in TS 37.104 [2] subclause 6.3.1, 6.3.2, 6.3.3 and 6.3.4.
6.3.3 Test purpose
The test purpose is to verify that the output power dynamics are met as specified by the minimum requirement.
6.3.4 Method of test
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 6.3.2.4.
- For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], subclause 6.4.2.4, 6.4.3.4, 6.4.4.4 and 6.4.5.4.
- For references to TS 25.142 [12], the method of test is specified in TS 25.142 [12], subclause 6.4.2.4, 6.4.3.4, 6.4.4.4, 6.4.5.4 and 6.4.6.4.
- For references to TS 51.021 [11], the method of test is specified in TS 51.021 [11], subclause 6.3 and 6.4.
6.3.5 Test Requirement
For E-UTRA, the test requirement is specified in TS 36.141 [9], subclause 6.3.2.5.
For UTRA FDD, the test requirement is specified in TS 25.141 [10], subclause 6.4.2.5, 6.4.3.5, 6.4.4.5 and 6.4.5.5.
For UTRA TDD, the test requirement is specified in TS 25.142 [12], subclause 6.4.2.5, 6.4.3.5, 6.4.4.5, 6.4.5.5 and 6.4.6.5.
For GSM/EDGE, the test requirement is specified in TS 51.021 [11], subclause 6.3.3 and 6.4.3.
6.4 Transmit ON/OFF power
The requirements in subclause 6.4 are only applied for BC3 BS.
6.4.1 Definition and applicability
Transmitter OFF power is defined as the mean power measured over 70 us filtered with a square filter of bandwidth equal to the RF bandwidth of the BS centred on the central frequency of the RF bandwidth during the transmitter OFF period.
The transmitter transient period is the time period during which the transmitter is changing from the OFF period to the ON period or vice versa. The transmitter transient period is illustrated in Figure 6.4.1-1.
EMBED Word.Picture.8
Figure 6.4.1-1 Illustration of the relations of transmitter ON period, transmitter OFF period and transmitter transient period.
6.4.2 Minimum Requirement
The minimum requirement is in TS 37.104 [2] subclause 6.4.1.1 and subclause 6.4.2.1.
6.4.3 Test purpose
The purpose of this test is to verify the BC3 BS transmitter OFF power and transient periods are within the limits of the minimum requirements.
6.4.4 Method of test
6.4.4.1 Initial conditions
Test environment: normal; see Annex B.2.
RF bandwidth position to be tested: MRFBW; see subclause 4.9.1.
Connect the signal analyzer to the MSR BS antenna connector as shown in Annex D.1.1.
6.4.4.2 Procedure
1) Set the BS to transmit a signal according to the applicable test configuration in clause 5 using the corresponding test models or set of physical channels in subclause 4.9.2.
2) Measure the mean power spectral density measured over 70μs filtered with a square filter of bandwidth equal to the RF bandwidth of the BS centred on the central frequency of the RF bandwidth. 70μs average window centre is set from 35μs after end of one transmitter ON period + 17μs to 35μs before start of next transmitter ON period – 6.25μs.
6.4.5 Test requirement
The transmitter OFF power spectral density shall be less than -83 dBm/MHz.
The measured mean power spectral density according to subclause 6.4.4.2 shall be less than -83 dBm/MHz.
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance are given in Annex C.
6.5 Transmitted signal quality
6.5.1 Modulation quality
6.5.1.1 Definition and applicability
Modulation quality is defined by the difference between the measured carrier signal and a reference signal. Modulation quality can e.g. be expressed as Error Vector Magnitude (EVM), Peak Code domain Error (PCDE) or Relative Code domain Error (RCDE).
6.5.1.2 Minimum Requirement
The minimum requirement is in TS 37.104 [2] subclause 6.5.1.
6.5.1.3 Test purpose
The test purpose is to verify that modulation quality is within the limit specified by the minimum requirement.
6.5.1.4 Method of test
6.5.1.4.1 Initial conditions
Test environment: normal; see Annex B.2.
RF bandwidth position to be tested: BRFBW, MRFBW and TRFBW; see subclause 4.9.1.
1) Connect measurement device to the base station RF output port as shown in Annex D.1.1.
6.5.1.4.2 Procedure
1) Set the BS to transmit according to the applicable test configuration in clause 5 using the corresponding test models or set of physical channels in subclause 4.9.2.
2) Perform the measurement on each carrier as follows:
- For measurement on a E-UTRA carrier, see TS 36.141 [9] subclause 6.5.2.4.2 step 2 to 4.
- For EVM measurement on a UTRA FDD carrier, see TS 25.141 [10] subclause 6.7.1.4.2 step 2 to 5 using a filter defined in subclause 6.7.1.1.
- For PCDE measurement on a UTRA FDD carrier, see TS 25.141 [10] subclause 6.7.2.4.2 using TM3.
- For RCDE measurement on a UTRA FDD carrier, see TS 25.141 [10] subclause 6.7.4.4.2 using TM6.
- For EVM measurement on a UTRA TDD carrier, see TS 25.142 [12] subclause 6.8.1.4.2.2 using a filter defined in subclause 6.8.1.1.
- For PCDE measurement on a UTRA TDD carrier, see TS 25.142 [12] subclause 6.8 2.4.1.2.
- For RCDE measurement on a UTRA TDD carrier, see TS 25.142 [12] subclause 6.8.3.4.1.1.
- For measurement on a GSM/EDGE carrier, see TS 51.021 [11] subclause 6.2.2.
6.5.1.5 Test Requirements
6.5.1.5.1 E-UTRA test requirement
For every measured E-UTRA carrier, the test requirement is specified in TS 36.141 [9] subclause 6.5.2.5.
6.5.1.5.2 UTRA FDD test requirement
For every measured UTRA FDD carrier, the test requirement is specified in TS 25.141 [10] subclause 6.7.1.5, 6.7.2.5 and 6.7.4.5.
6.5.1.5.3 UTRA TDD test requirement
For every measured UTRA TDD carrier, the test requirement is specified in TS 25.142 [12] subclause 6.8.1.5, 6.8.2.5 and 6.8.3.5.
6.5.1.5.4 GSM/EDGE test requirement
For every measured GSM/EDGE carrier, the test requirement is specified in TS 51.021 [11] subclause 6.2.3.
6.5.2 Frequency error
6.5.2.1 Definition and applicability
Frequency error is the measure of the difference between the actual BS transmit frequency and the assigned frequency. The same source shall be used for RF frequency and data clock generation.
It is not possible to verify by testing that the data clock is derived from the same frequency source as used for RF generation. This may be confirmed by the manufacturer’s declaration.
6.5.2.2 Minimum Requirement
The minimum requirement is in TS 37.104 [2] subclause 6.5.2.
6.5.2.3 Test purpose
The test purpose is to verify that frequency error is within the limit specified by the minimum requirement.
6.5.2.4 Method of test
Requirement is tested together with Error Vector Magnitude test, as described in subclause 6.5.1.
6.5.2.5 Test Requirements
6.5.2.5.1 E-UTRA test requirement
For every measured E-UTRA carrier, the test requirement is specified in TS 36.141 [9] subclause 6.5.1.5.
6.5.2.5.2 UTRA FDD test requirement
For every measured UTRA FDD carrier, the test requirement is specified in TS 25.141 [10] subclause 6.3.5.
6.5.2.5.3 UTRA TDD test requirement
For every measured UTRA TDD carrier, the test requirement is specified in TS 25.142 [12] subclause 6.3.5.
6.5.2.5.4 GSM/EDGE test requirement
For every measured GSM/EDGE carrier, the test requirement is specified in TS 51.021 [11] subclause 6.2.3.
6.5.3 Time alignment error
6.5.3.1 Definition and applicability
This requirement applies to frame timing in:
- UTRA single/multi-carrier transmissions, and their combinations with MIMO or TX diversity.
- E-UTRA single/multi-carrier transmissions, and their combinations with MIMO or TX diversity.
- E-UTRA Carrier Aggregation, with or without MIMO or TX diversity.
Frames of the WCDMA/LTE signals present at the BS transmitter antenna connector(s) are not perfectly aligned in time. In relation to each other, the RF signals present at the BS transmitter antenna connector(s) experience certain timing differences.
For a specific set of signals/transmitter configuration/transmission mode, Time Alignment Error (TAE) is defined as the largest timing difference between any two signals.
6.5.3.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 6.5.3.
6.5.3.3 Test purpose
To verify that the timing alignment error is within the limit specified by the minimum requirement.
6.5.3.4 Method of test
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], subclause 6.7.3.4.
- For references to TS 25.142 [12], the method of test is specified in TS 25.142 [12], subclause 6.8.4.4.
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 6.5.3.4.
6.5.3.5 Test requirement
For E-UTRA, the test requirement for time alignment error is specified in TS 36.141 [9], subclause 6.5.3.5.
For UTRA FDD, the test requirement for time alignment error is specified in TS 25.141 [10], subclause 6.7.3.5.
For UTRA TDD, the test requirement for time alignment error is specified in TS 25.142 [12], subclause 6.8.4.5.
6.6 Unwanted emissions
Unwanted emissions consist of out-of-band emissions and spurious emissions [13]. Out of band emissions are unwanted emissions immediately outside the channel bandwidth resulting from the modulation process and non-linearity in the transmitter but excluding spurious emissions. Spurious emissions are emissions which are caused by unwanted transmitter effects such as harmonics emission, parasitic emission, intermodulation products and frequency conversion products, but exclude out of band emissions.
The out-of-band emissions requirement for the BS transmitter is specified in terms of an Operating band unwanted emissions requirement that defines limits for emissions in the downlink operating band plus the frequency ranges 10 MHz above and 10 MHz below the band. Emissions outside of this frequency range are limited by a spurious emissions requirement.
There is in addition a requirement for occupied bandwidth and an ACLR requirement applicable for some RATs.
6.6.1 Transmitter spurious emissions
6.6.1.1 Definition and applicability
The transmitter spurious emission limits apply from 9 kHz to 12.75 GHz, excluding the frequency range from 10 MHz below the lowest frequency of the downlink operating band up to 10 MHz above the highest frequency of the downlink operating band. Exceptions are the requirement in Table 6.6.1.3.1-2 in TS 37.104 [2] that apply also closer than 10 MHz from the downlink operating band.
The requirements shall apply whatever the type of transmitter considered. It applies for all transmission modes foreseen by the manufacturer's specification. Unless otherwise stated, all requirements are measured as mean power (RMS).
6.6.1.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 6.6.1.
6.6.1.3 Test purpose
This test measures conducted spurious emission from the MSR BS transmitter antenna connector, while the transmitter is in operation.
6.6.1.4 Method of test
6.6.1.4.1 Initial conditions
Test environment: normal; see Annex B.2.
RF bandwidth position to be tested: BRFBW,MRFBW and TRFBW; see subclause 4.9.1.
1) Connect the BS antenna connector to a measurement receiver according to Annex D.1.1 using an attenuator or a directional coupler if necessary
2) Measurements shall use a measurement bandwidth in accordance to the conditions in TS 37.104 [2] subclause 6.6.1.
3) Detection mode: True RMS.
4) Configure the BS with transmitters active at their maximum total output power.
6.6.1.4.2 Procedure
1) Set the Base Station to transmit at maximum power according to the applicable test configuration in clause 5 using the corresponding test models or set of physical channels in subclause 4.9.2.
2) Measure the emission at the specified frequencies with specified measurement bandwidth and note that the measured value does not exceed the specified value.
6.6.1.5 Test requirements
The measurement result in step 2 of 6.6.1.4.2 shall not exceed the maximum level specified in Table 6.6.1.5.1-1 to Table 6.6.1.5.6-1 if applicable for the BS under test.
The test requirements of either subclause 6.6.1.5.1 (Category A limits) or subclause 6.6.1.5.2 (Category B limits) shall apply. In addition for a BS operating in Band Category 2, the test requirements of 6.6.1.5.3 shall apply in case of Category B limits.
6.6.1.5.1 Spurious emissions (Category A)
The power of any spurious emission shall not exceed the limits in Table 6.6.1.5.1-1
Table 6.6.1.5.1-1: BS Spurious emission limits, Category A
Frequency range
Maximum level
Measurement Bandwidth
Note
9kHz ‑ 150kHz
-13 dBm
1 kHz
Note 1
150kHz ‑ 30MHz
10 kHz
Note 1
30MHz ‑ 1GHz
100 kHz
Note 1
1GHz ‑ 12.75 GHz
1 MHz
Note 2
NOTE 1: Bandwidth as in ITU-R SM.329 [13], s4.1
NOTE 2: Bandwidth as in ITU-R SM.329 [13], s4.1. Upper frequency as in ITU-R SM.329 [13], s2.5 table 1
6.6.1.5.2 Spurious emissions (Category B)
The power of any spurious emission shall not exceed the limits in Table 6.6.1.5.2-1
Table 6.6.1.5.2-1: BS Spurious emissions limits, Category B
Frequency range
Maximum Level
Measurement Bandwidth
Note
9 kHz ↔ 150 kHz
-36 dBm
1 kHz
Note 1
150 kHz ↔ 30 MHz
-36 dBm
10 kHz
Note 1
30 MHz ↔ 1 GHz
-36 dBm
100 kHz
Note 1
1 GHz ↔ 12.75 GHz
-30 dBm
1 MHz
Note 2
NOTE 1: Bandwidth as in ITU-R SM.329 [13], s4.1
NOTE 2: Bandwidth as in ITU-R SM.329 [13], s4.1. Upper frequency as in ITU-R SM.329 [13], s2.5 table 1
6.6.1.5.3 Additional test requirement for BC2 (category B)
For a BS operating in Band Category 2 when GSM/EDGE is configured, the power of any spurious emission shall not exceed the limits in Table 6.6.1.5.3-1.
Table 6.6.1.5.3-1: Additional BS Spurious emissions limits for BC2, Category B
Frequency range
Frequency offset from transmitter operating band edge
Maximum Level
Measurement Bandwidth
500 MHz ↔ 1 GHz
10 – 20 MHz
-36 dBm
300 kHz
20 – 30 MHz
-36 dBm
1 MHz
≥ 30 MHz
-36 dBm
3 MHz
1 GHz ↔ 12.75 GHz
≥ 30 MHz
-30 dBm
3 MHz
6.6.1.5.4 Protection of the BS receiver of own or different BS
This requirement shall be applied for FDD operation in order to prevent the receivers of Base Stations being desensitised by emissions from the BS transmitter. It is measured at the transmit antenna port for any type of BS which has common or separate Tx/Rx antenna ports.
The power of any spurious emission shall not exceed the limits in Table 6.6.1.5.4-1.
Table 6.6.1.5.4-1: BS Spurious emissions limits for protection of the BS receiver
Band category
Frequency range
Maximum Level
Measurement Bandwidth
Note
BC1
FUL_low – FUL_high
-96 dBm
100 kHz
BC2
FUL_low – FUL_high
-98 dBm
100 kHz
6.6.1.5.5 Additional spurious emission requirements
These requirements may be applied for the protection of system operating in frequency ranges other than the BS downlink operating band. The limits may apply as an optional protection of such systems that are deployed in the same geographical area as the BS, or they may be set by local or regional regulation as a mandatory requirement for an operating band. It is in some cases not stated in the present document whether a requirement is mandatory or under what exact circumstances that a limit applies, since this is set by local or regional regulation. An overview of regional requirements in the present document is given in subclause 4.4.
Some requirements may apply for the protection of specific equipment (UE, MS and/or BS) or equipment operating in specific systems (GSM/EDGE, CDMA, UTRA, E-UTRA, etc.) as listed below. The power of any spurious emission shall not exceed the limits of Table 6.6.1.5.5-1 for a BS where requirements for co-existence with the system listed in the first column apply.
Table 6.6.1.5.5-1: BS Spurious emissions limits for co-existence with systems operating in other frequency bands
System type to co-exist with
Frequency range for co-existence requirement
Maximum Level
Measurement Bandwidth
Note
GSM900
921 ‑ 960 MHz
-57 dBm
100 kHz
This requirement does not apply to BS operating in band 8
876 - 915 MHz
-61 dBm
100 kHz
For the frequency range 880-915 MHz, this requirement does not apply to BS operating in band 8, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
DCS1800
(Note 3)
1805 ‑ 1880 MHz
-47 dBm
100 kHz
This requirement does not apply to BS operating in band 3.
1710 - 1785 MHz
-61 dBm
100 kHz
This requirement does not apply to BS operating in band 3, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
PCS1900
1930 ‑ 1990 MHz
-47 dBm
100 kHz
This requirement does not apply to BS operating in band 2 or band 36.
1850 ‑ 1910 MHz
-61 dBm
100 kHz
This requirement does not apply to BS operating in band 2, since it is already covered by the requirement in sub-clause 6.6.1.5.4. This requirement does not apply to BS operating in band 35.
GSM850 or CDMA850
869 - 894 MHz
-57 dBm
100 kHz
This requirement does not apply to BS operating in band 5
824 ‑ 849 MHz
-61 dBm
100 kHz
This requirement does not apply to BS operating in band 5, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band I or
E-UTRA Band 1
2110 - 2170 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 1,
1920 - 1980 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 1, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band II or
E-UTRA Band 2
1930 - 1990 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 2.
1850 - 1910 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 2, since it is already covered by the requirement in sub-clause 6.6.1.5.4
UTRA FDD Band III or
E-UTRA Band 3
(Note 3)
1805 - 1880 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 3 or 9.
1710 - 1785 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 3, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
For BS operating in band 9, it applies for 1710 MHz to 1749.9 MHz and 1784.9 MHz to 1785 MHz, while the rest is covered in sub-clause 6.6.1.5.4.
UTRA FDD Band IV or
E-UTRA Band 4
2110 - 2155 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 4 or 10.
1710 - 1755 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 4 or 10, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band V or
E-UTRA Band 5
869 - 894 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 5
824 - 849 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 5, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band VI, XIX or
E-UTRA Band 6, 18, 19
860 - 895 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 6, 18, 19
815 - 830 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 18 since it is already covered by the requirement in sub-clause 6.6.1.5.4.
830 - 850 MHz
-49 dBm
1 MHz
This requirement does not apply to E-UTRA BS operating in band 6, 19, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band VII or
E-UTRA Band 7
2620 - 2690 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 7.
2500 - 2570 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 7, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band VIII or
E-UTRA Band 8
925 - 960 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 8.
880 - 915 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 8, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band IX or
E-UTRA Band 9
1844.9 - 1879.9 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 3 or 9.
1749.9 - 1784.9 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 3 or 9, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band X or
E-UTRA Band 10
2110 - 2170 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 4 or 10.
1710 - 1770 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 10, since it is already covered by the requirement in sub-clause 6.6.1.5.4. For BS operating in band 4, it applies for 1755 MHz to 1770 MHz, while the rest is covered in sub-clause 6.6.1.5.4.
UTRA FDD Band XI or XXI or
E-UTRA Band 11 or 21
1475.9 - 1510.9 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 11 or 21.
1427.9 - 1447.9 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 11, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
1447.9 – 1462.9 MHz
-49 dBm
1 MHz
This requirement does not apply to E-UTRA BS operating in band 21, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band XII or
E-UTRA Band 12
729 - 746 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 12.
699 - 716 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 12, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band XIII or
E-UTRA Band 13
746 - 756 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 13.
777 - 787 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 13, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
UTRA FDD Band XIV or
E-UTRA Band 14
758 - 768 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 14.
788 - 798 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 14, since it is already covered by the requirement in sub-clause 6.6.1.5.4.
E-UTRA Band 17
734 - 746 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 17.
704 - 716 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 17, since it is already covered by the requirement in subclause 6.6.1.5.4.
UTRA FDD Band XX or
E-UTRA Band 20
791 - 821 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in band 20.
832 - 862 MHz
-49 dBm
1 MHz
This requirement does not apply to BS operating in band 20, since it is already covered by the requirement in subclause 6.6.1.5.4.
UTRA TDD in Band a) or E-UTRA Band 33
1900 - 1920 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in Band 33
UTRA TDD in Band a) or E-UTRA Band 34
2010 - 2025 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in Band 34
UTRA TDD in Band b) or E-UTRA Band 35
1850 – 1910 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in Band 35
UTRA TDD in Band b) or E-UTRA Band 36
1930 - 1990 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in Band 2 and 36
UTRA TDD in Band c) or E-UTRA Band 37
1910 - 1930 MHz
-52 dBm
1 MHz
This is not applicable to BS operating in Band 37. This unpaired band is defined in ITU-R M.1036, but is pending any future deployment.
UTRA TDD in Band d) or E-UTRA Band 38
2570 – 2620 MHz
-52 dBm
1 MHz
This requirement does not apply to BS operating in Band 38.
E-UTRA Band 39
1880 – 1920MHz
-52 dBm
1 MHz
This is not applicable to BS operating in Band 39
E-UTRA Band 40
2300 – 2400MHz
-52 dBm
1 MHz
This is not applicable to BS operating in Band 40
NOTE 1: As defined in the scope for spurious emissions in this subclause, the co-existence requirements in Table 6.6.1.5.5-1 do not apply for the 10 MHz frequency range immediately outside the downlink operating band (see Tables 4.4-1 and 4.4-2). Emission limits for this excluded frequency range may be covered by local or regional requirements.
NOTE 2: The table above assumes that two operating bands, where the frequency ranges in Table 4.4-1 or Table 4.4-2 would be overlapping, are not deployed in the same geographical area. For such a case of operation with overlapping frequency arrangements in the same geographical area, special co-existence requirements may apply that are not covered by the 3GPP specifications.
NOTE 3: For the protection of DCS1800, UTRA Band III or E-UTRA Band 3 in China, the frequency ranges of the downlink and uplink protection requirements are 1805 – 1850 MHz and 1710 – 1755 MHz respectively.
The following requirement may be applied for the protection of PHS. This requirement is also applicable at specified frequencies falling between 10 MHz below the lowest BS transmitter frequency of the downlink operating band and 10 MHz above the highest BS transmitter frequency of the downlink operating band.
The power of any spurious emission shall not exceed:
Table 6.6.1.5.5-2: BS Spurious emissions limits for BS for co-existence with PHS
Frequency range
Maximum Level
Measurement Bandwidth
Note
1884.5 ‑ 1915.7 MHz
-41 dBm
300 kHz
Applicable for co-existence with PHS system operating in 1884.5-1915.7MHz
NOTE: The requirement is not applicable in China.
In addition to the requirements in subclauses 6.6.1.5.1 to 6.6.1.5.4 and above in the present subclause, the BS may have to comply with the applicable emission limits established by FCC Title 47 [8], when deployed in regions where those limits are applied, and under the conditions declared by the manufacturer.
6.6.1.5.6 Co-location with other Base Stations
These requirements may be applied for the protection of other BS receivers when GSM900, DCS1800, PCS1900, GSM850, CDMA850, UTRA FDD, UTRA TDD and/or E-UTRA BS are co-located with a BS.
The requirements assume a 30 dB coupling loss between transmitter and receiver.
NOTE: For co-location with UTRA, the requirements are based on co-location with Wide Area UTRA FDD or TDD Base Stations.
The power of any spurious emission shall not exceed the limits of Table 6.6.1.5.6-1 for a BS where requirements for co-location with a BS type listed in the first column apply.
Table 6.6.1.5.6-1: BS Spurious emissions limits for BS co-located with another BS
Type of co-located BS
Frequency range for co-location requirement
Maximum Level
Measurement Bandwidth
Note
Macro GSM900
876-915 MHz
-98 dBm
100 kHz
Macro DCS1800
1710 - 1785 MHz
-98 dBm
100 kHz
Macro PCS1900
1850 - 1910 MHz
-98 dBm
100 kHz
Macro GSM850 or CDMA850
824 - 849 MHz
-98 dBm
100 kHz
UTRA FDD Band I or E-UTRA Band 1
1920 - 1980 MHz
-96 dBm
100 kHz
UTRA FDD Band II or E-UTRA Band 2
1850 - 1910 MHz
-96 dBm
100 kHz
UTRA FDD Band III or E-UTRA Band 3
1710 - 1785 MHz
-96 dBm
100 kHz
UTRA FDD Band IV or E-UTRA Band 4
1710 - 1755 MHz
-96 dBm
100 kHz
UTRA FDD Band V or E-UTRA Band 5
824 - 849 MHz
-96 dBm
100 kHz
UTRA FDD Band VI, XIX or E-UTRA Band 6, 19
830 - 850 MHz
-96 dBm
100 kHz
UTRA FDD Band VII or E-UTRA Band 7
2500 - 2570 MHz
-96 dBm
100 KHz
UTRA FDD Band VIII or E-UTRA Band 8
880 - 915 MHz
-96 dBm
100 KHz
UTRA FDD Band IX or E-UTRA Band 9
1749.9 - 1784.9 MHz
-96 dBm
100 KHz
UTRA FDD Band X or E-UTRA Band 10
1710 - 1770 MHz
-96 dBm
100 kHz
UTRA FDD Band XI or E-UTRA Band 11
1427.9 - 1447.9 MHz
-96 dBm
100 kHz
UTRA FDD Band XII or
E-UTRA Band 12
699 - 716 MHz
-96 dBm
100 kHz
UTRA FDD Band XIII or
E-UTRA Band 13
777 - 787 MHz
-96 dBm
100 kHz
UTRA FDD Band XIV or
E-UTRA Band 14
788 - 798 MHz
-96 dBm
100 kHz
E-UTRA Band 17
704 - 716 MHz
-96 dBm
100 kHz
E-UTRA Band 18
815 - 830 MHz
-96 dBm
100 kHz
UTRA FDD Band XX or
E-UTRA Band 20
832 - 862 MHz
-96 dBm
100 kHz
UTRA FDD Band XXI or E-UTRA Band 21
1447.9 – 1462.9 MHz
-96 dBm
100 kHz
UTRA TDD in Band a) or E-UTRA Band 33
1900 - 1920 MHz
-96 dBm
100 kHz
This is not applicable to BS operating in Band 33
UTRA TDD in Band a) or E-UTRA Band 34
2010 - 2025 MHz
-96 dBm
100 kHz
This is not applicable to BS operating in Band 34
UTRA TDD in Band b) or E-UTRA Band 35
1850 – 1910 MHz
-96 dBm
100 kHz
This is not applicable to BS operating in Band 35
UTRA TDD in Band b) or E-UTRA Band 36
1930 - 1990 MHz
-96 dBm
100 kHz
This is not applicable to BS operating in Band 2 and 36
UTRA TDD in Band c) or E-UTRA Band 37
1910 - 1930 MHz
-96 dBm
100 kHz
This is not applicable to BS operating in Band 37. This unpaired band is defined in ITU-R M.1036, but is pending any future deployment.
UTRA TDD in Band d) or E-UTRA Band 38
2570 – 2620 MHz
-96 dBm
100 kHz
This is not applicable to BS operating in Band 38.
E-UTRA Band 39
1880 – 1920MHz
-96 dBm
100 kHz
This is not applicable to BS operating in Band 33 and 39
E-UTRA Band 40
2300 – 2400MHz
-96 dBm
100 kHz
This is not applicable to BS operating in Band 40
NOTE 1: As defined in the scope for spurious emissions in this subclause, the co-location requirements in Table 6.6.1.5.6-1 do not apply for the 10 MHz frequency range immediately outside the BS transmit frequency range of a downlink operating band (see Tables 4.4-1 and 4.4-2). The current state-of-the-art technology does not allow a single generic solution for co-location with other system on adjacent frequencies for 30 dB BS-BS minimum coupling loss. However, there are certain site-engineering solutions that can be used. These techniques are addressed in TR 25.942 [14].
NOTE 2: The table above assumes that two operating bands, where the corresponding BS transmit and receive frequency ranges in Table 4.4-1 or Table 4.4-2 would be overlapping, are not deployed in the same geographical area. For such a case of operation with overlapping frequency arrangements in the same geographical area, special co-location requirements may apply that are not covered by the 3GPP specifications.
NOTE 3: Co-located TDD Base Stations that are synchronized and using the same operating band can transmit without special co-locations requirements. For unsynchronized Base Stations, special co-location requirements may apply that are not covered by the 3GPP specifications.
6.6.2 Operating band unwanted emissions
6.6.2.1 Definition and applicability
The Operating band unwanted emission limits are defined from 10 MHz below the lowest frequency of the downlink operating band to the lower RF bandwidth edge located at FBW RF,low and from the upper RF bandwidth edge located at FBW RF,high up to 10 MHz above the highest frequency of the downlink operating band.
The requirements shall apply whatever the type of transmitter considered and for all transmission modes foreseen by the manufacturer's specification, except for GSM/EDGE single RAT operation. The requirements in TS 45.005 [6] as defined in subclause 6.6.2.3 apply to an MSR Base Station for GSM/EDGE single RAT operation in Band Category 2.
6.6.2.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 6.6.2.1, 6.6.2.2, 6.6.2.3 and 6.6.2.4.
6.6.2.3 Test purpose
This test measures the emissions of the MSR BS, close to the assigned channel bandwidth of the wanted signal, while the transmitter is in operation.
6.6.2.4 Method of test
For some of the test cases Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. In this case the following shall apply:
- For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], subclause 6.5.2.1.4.
- For references to TS 25.142 [12], the method of test is specified in TS 25.142 [12], subclause 6.6.2.1.4.
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 6.6.3.4.
NOTE: In this case the test requirements of the present document defined in subclause 6.6.2.5 apply.
For GSM/EDGE single-RAT requirements, the method of test is specified in TS 51.021 [11], applicable parts of subclause 6.5.1, 6.5.2, 6.6.2 and 6.12.
For test requirements of operating band unwanted emissions using the MSR test configurations defined in subclause 4.8, the, method of test described in subclauses 6.6.2.4.1 and 6.6.2.4.2 applies.
6.6.2.4.1 Initial conditions
Test environment: normal; see Annex B.2.
RF bandwidth position to be tested: BRFBW, MRFBW and TRFBW; see subclause 4.9.1.
Connect the signal analyzer to the Base Station RF output port as shown in Annex D.1.1.
As a general rule, the resolution bandwidth of the measuring equipment should be equal to the measurement bandwidth. However, to improve measurement accuracy, sensitivity, efficiency and to avoid e.g. carrier leakage, the resolution bandwidth may be smaller than the measurement bandwidth. When the resolution bandwidth is smaller than the measurement bandwidth, the result should be integrated over the measurement bandwidth in order to obtain the equivalent noise bandwidth of the measurement bandwidth.
Detection mode: True RMS.
6.6.2.4.2 Procedure
1) Set the Base Station to transmit at maximum power according to the applicable test configuration in clause 5 using the corresponding test models or set of physical channels in subclause 4.9.2.
2) Step the centre frequency of the measurement filter in contiguous steps and measure the emission within the specified frequency ranges with the specified measurement bandwidth.
3) Repeat the test for the remaining test cases with channel set-up according to clause 5 and subclause 4.9.2.
6.6.2.5 Test requirement
6.6.2.5.1 Test requirements for Band Categories 1 and 3
For a BS operating in Band Category 1 or Band Category 3, emissions shall not exceed the maximum levels specified in Table 6.6.2.5.1-1 below, where:
- Δf is the separation between the RF bandwidth edge frequency and the nominal -3 dB point of the measuring filter closest to the carrier frequency.
- f_offset is the separation between the RF bandwidth edge frequency and the centre of the measuring filter.
- f_offsetmax is the offset to the frequency 10 MHz outside the downlink operating band.
- Δfmax is equal to f_offsetmax minus half of the bandwidth of the measuring filter.
Table 6.6.2.5.1-1: Operating band unwanted emission mask (UEM) for BC1 and BC3
Frequency offset of measurement filter ‑3dB point, Δf
Frequency offset of measurement filter centre frequency, f_offset
Minimum requirement
Measurement bandwidth
0 MHz ≤ Δf < 0.2 MHz
0.015MHz ≤ f_offset < 0.215MHz
-12.5 dBm
30 kHz
0.2 MHz ≤ Δf < 1 MHz
0.215MHz ≤ f_offset < 1.015MHz
EMBED Equation.3
30 kHz
(Note 1)
1.015MHz ≤ f_offset < 1.5 MHz
-24.5 dBm
30 kHz
1 MHz ≤ Δf ≤
min(Δfmax, 10 MHz)
1.5 MHz ≤ f_offset < min(f_offsetmax, 10.5 MHz)
-11.5 dBm
1 MHz
10 MHz ≤ Δf ≤ Δfmax
10.5 MHz ≤ f_offset < f_offsetmax
-15 dBm (Note 2)
1 MHz
NOTE 1: This frequency range ensures that the range of values of f_offset is continuous.
NOTE 2: The requirement is not applicable when Δfmax < 10 MHz.
6.6.2.5.2 Test requirements for Band Category 2
For a BS operating in Band Category 2, emissions shall not exceed the maximum levels specified in Table 6.6.2.5.2-1 and 6.6.2.5.2-2 below, where:
- Δf is the separation between the RF bandwidth edge frequency and the nominal -3dB point of the measuring filter closest to the carrier frequency.
- f_offset is the separation between the RF bandwidth edge frequency and the centre of the measuring filter.
- f_offsetmax is the offset to the frequency 10 MHz outside the downlink operating band.
- Δfmax is equal to f_offsetmax minus half of the bandwidth of the measuring filter.
Table 6.6.2.5.2-1: Operating band unwanted emission mask (UEM) for BC2
Frequency offset of measurement filter ‑3dB point, Δf
Frequency offset of measurement filter centre frequency, f_offset
Minimum requirement
Measurement bandwidth
0 MHz ≤ Δf < 0.2 MHz
(Note 1)
0.015 MHz ≤ f_offset < 0.215 MHz
-12.5 dBm
30 kHz
0.2 MHz ≤ Δf < 1 MHz
0.215 MHz ≤ f_offset < 1.015 MHz
EMBED Equation.3
30 kHz
(Note 4)
1.015 MHz ≤ f_offset < 1.5 MHz
-24.5 dBm
30 kHz
1 MHz ≤ Δf ≤
min(Δfmax, 10 MHz)
1.5 MHz ≤ f_offset < min(f_offsetmax, 10.5 MHz)
-11.5 dBm
1 MHz
10 MHz ≤ Δf ≤ Δfmax
10.5 MHz ≤ f_offset < f_offsetmax
-15 dBm (Note 5)
1 MHz
NOTE 1: For operation with a GSM/EDGE or an E-UTRA 1.4 or 3 MHz carrier adjacent to the RF bandwidth edge, the limits in Table 6.6.2.5-2 apply for 0 MHz ≤ Δf < 0.15 MHz.
Table 6.6.2.5.2-2: Operating band unwanted emission limits for operation in BC2 with GSM/EDGE or E-UTRA 1.4 or 3 MHz carriers adjacent to the RF bandwidth edge
Frequency offset of measurement filter ‑3dB point, Δf
Frequency offset of measurement filter centre frequency, f_offset
Minimum requirement (Note 6)
Measurement bandwidth
0 MHz ≤ Δf < 0.05 MHz
0.015 MHz ≤ f_offset < 0.065 MHz
EMBED Equation.3
30 kHz
0.05 MHz ≤ Δf < 0.15 MHz
0.065 MHz ≤ f_offset < 0.165 MHz
EMBED Equation.3
30 kHz
NOTE 2: The limits in this table only apply for operation with a GSM/EDGE or an E-UTRA 1.4 or 3 MHz carrier adjacent to the RF bandwidth edge.
NOTE 6: In case the carrier adjacent to the RF bandwidth edge is a GSM/EDGE carrier, the value of X = PGSMcarrier – 43, where PGSMcarrier is the power level of the GSM/EDGE carrier adjacent to the RF bandwidth edge. In other cases, X = 0.
NOTE 3: All limits in Table 6.6.2.5.2-1 are identical to the corresponding limits for Band Category 1 and 3.
NOTE 4: This frequency range ensures that the range of values of f_offset is continuous.
NOTE 5: The requirement is not applicable when Δfmax < 10 MHz.
6.6.2.5.3 Test requirements for GSM/EDGE single-RAT requirements
The following test requirements and the corresponding test method specified in TS 51.021 [11] apply to an MSR Base Station for GSM/EDGE single RAT operation in Band Category 2:
- Spectrum due to the modulation and wide band noise, applicable parts of subclause 6.5.1.
- Spectrum due to switching transients, applicable parts of subclause 6.5.2.
- Emission requirement for frequency offsets of between 2 and 10 MHz outside relevant transmit band, applicable parts of subclause 6.6.2.
- Intra BTS Intermodulation, applicable parts of subclause 6.12.
6.6.2.5.4 Test requirements for additional requirements
6.6.2.5.4.1 Limits in FCC Title 47
In addition to the requirements in subclauses 6.6.2.5.1 and 6.6.2.5.2, the BS may have to comply with the applicable emission limits established by FCC Title 47 [8], when deployed in regions where those limits are applied, and under the conditions declared by the manufacturer.
6.6.2.5.4.2 Unsynchronized operation for BC3
In certain regions, the following requirements may apply to a TDD BS operating in BC3 in the same geographic area and in the same operating band as another TDD system without synchronisation. For this case the emissions shall not exceed -52 dBm/MHz in the downlink operating band except in:
- The frequency range from 10 MHz below the lower RF bandwidth edge to the frequency 10 MHz above the upper RF bandwidth edge.
NOTE 1: Local or regional regulations may specify another excluded frequency range, which may include frequencies where synchronised TDD systems operate.
NOTE 2: TDD Base Stations that are synchronized and operating in BC3 can transmit without these additional co-existence requirements.
6.6.2.5.4.3 Protection of DTT
In certain regions the following requirement may apply for protection of DTT. For a BS operating in Band 20, the level of emissions in the band 470-790 MHz, measured in an 8 MHz filter bandwidth on centre frequencies Ffilter according to Table 6.6.2.5.4.3-1, shall not exceed the maximum emission level PEM,N declared by the manufacturer. This requirement applies in the frequency range 470-790 MHz even though part of the range falls in the spurious domain.
Table 6.6.2.5.4.3-1: Declared emissions levels for protection of DTT
Filter centre frequency, Ffilter
Measurement bandwidth
Declared emission level [dBm]
Ffilter = 8*N + 306 (MHz);
21 ≤ N ≤ 60
8 MHz
PEM,N
NOTE: The regional requirement is defined in terms of EIRP (effective isotropic radiated power), which is dependent on both the BS emissions at the antenna connector and the deployment (including antenna gain and feeder loss). The requirement defined above provides the characteristics of the Base Station needed to verify compliance with the regional requirement. Compliance with the regional requirement can be determined using the method outlined in Annex G of TS 36.104 [5].
6.6.2.5.4.4 Co-existence with services in adjacent frequency bands
This requirement may be applied for the protection of systems operating in frequency bands adjacent to Band 1 as defined in subclause 4.5, in geographic areas in which both an adjacent band service and UTRA and/or E-UTRA are deployed.
The power of any spurious emission shall not exceed:
Table 6.6.2.5.4.4-1: Emissions limits for protection of adjacent band services
Operating Band
Frequency range
Maximum Level
Measurement Bandwidth
1
2100-2105 MHz
-30 + 3.4 ⋅ (f - 2100 MHz) dBm
1 MHz
2175-2180 MHz
-30 + 3.4 ⋅ (2180 MHz - f) dBm
1 MHz
6.6.3 Occupied bandwidth
6.6.3.1 Definition and applicability
The occupied bandwidth is the width of a frequency band such that, below the lower and above the upper frequency limits, the mean powers emitted are each equal to a specified percentage β/2 of the total mean transmitted power. See also ITU-R Recommendation SM.328 [15].
The value of β/2 shall be taken as 0.5%.
6.6.3.2 Minimum requirements
The minimum requirement is in TS 37.104 [2] subclause 6.6.3.
6.6.3.3 Test purpose
The occupied bandwidth, defined in the Radio Regulations of the International Telecommunication Union ITU, is a useful concept for specifying the spectral properties of a given emission in the simplest possible manner; see also ITU-R Recommendation SM.328 [15]. The test purpose is to verify that the emission of the BS does not occupy an excessive bandwidth for the service to be provided and is, therefore, not likely to create interference to other users of the spectrum beyond undue limits.
6.6.3.4 Method of test
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], subclause 6.5.1.4.
- For references to TS 25.142 [12], the method of test is specified in TS 25.142 [12], subclause 6.6.1.4.
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 6.6.1.4.
6.6.3.5 Test requirement
The occupied bandwidth shall be less than the values listed in Table 6.6.3.5-1.
Table 6.6.3.5-1: Occupied bandwidth
RAT
Occupied bandwidth limit
E-UTRA
BWChannel
UTRA FDD
5 MHz
1.28 Mcps UTRA TDD
1.6 MHz
6.6.4 Adjacent Channel Leakage power Ratio (ACLR)
6.6.4.1 Definition and applicability
Adjacent Channel Leakage power Ratio (ACLR) is the ratio of the filtered mean power centred on the assigned channel frequency to the filtered mean power centred on an adjacent channel frequency. The requirement applies to frequency ranges outside the Base Station RF bandwidth.
6.6.4.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 6.6.4.
6.6.4.3 Test purpose
To verify that the adjacent channel leakage power ratio requirement shall be met as specified by the minimum requirement.
6.6.4.4 Method of test
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], subclause 6.5.2.2.4.
- For references to TS 25.142 [12], the method of test is specified in TS 25.142 [12], subclause 6.6.2.2.4.
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 6.6.2.4.
6.6.4.5 Test requirements
6.6.4.5.1 E-UTRA test requirement
For E-UTRA, the test requirement is specified in TS 36.141 [9] subclause 6.6.2.5.
6.6.4.5.2 UTRA FDD test requirement
For UTRA FDD, the test requirement is specified in TS 25.141 [10] subclause 6.5.2.2.5.
6.6.4.5.3 UTRA TDD test requirement
For UTRA TDD, the test requirement is specified in TS 25.142 [12] subclause 6.6.2.2.5.
6.7 Transmitter intermodulation
6.7.1 Definition and applicability
The transmit intermodulation requirement is a measure of the capability of the transmitter to inhibit the generation of signals in its non linear elements caused by presence of the own transmit signal and an interfering signal reaching the transmitter via the antenna. The requirement applies during the transmitter ON period and the transmitter transient period. The transmitter intermodulation level is the power of the intermodulation products when an interfering signal is injected into the antenna connector.
In case the test signal in clause 5 refer to single-RAT specifications the following shall apply:
- For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], subclause 6.6.4.
- For references to TS 25.142 [12], the method of test is specified in TS 25.142 [12], subclause 6.7.4.
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 6.7.4.
NOTE: In this case the test requirements of the present document defined in subclauses 6.6.2.5 and 6.6.4.5 apply.
- For GSM/EDGE single-RAT requirements, the method of test is specified in TS 51.021 [11], applicable parts of subclauses 6.7 and 6.11.
NOTE: In this case the test requirements of 51.021 [11] defined in the applicable subclauses 6.7.3, 6.7.4, 6.11.3 and 6.11.4 apply.
6.7.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 6.7.1, 6.7.2 and 6.7.3.
6.7.3 Test purpose
The test purpose is to verify the ability of the MSR BS transmitter to restrict the generation of intermodulation products in its non linear elements caused by presence of the wanted signal and an interfering signal reaching the transmitter via the antenna to below specified levels.
6.7.4 Method of test
6.7.4.1 Initial conditions
Test environment: normal; see Annex B.2.
RF bandwidth position to be tested: according to the initial conditions specified in subclauses 6.6.1, 6.6.2 and 6.6.4.
Connect the signal analyzer to the Base Station antenna connector as shown in Annex D.1.2.
6.7.4.2 Procedure
6.7.4.2.1 General minimum requirement test procedure
1) Set the BS to transmit the test signal according to clause 5 at maximum output power according to the applicable test configuration.
2) Generate the interfering signal using E-TM1.1 as defined in as defined in TS 36.141 [9] subclause 6.1.1.1, with 5 MHz channel bandwidth, at a centre frequency offset according to the conditions in Table 6.7.1-1 in TS 37.104 [2], but exclude interference frequencies that are outside of the allocated downlink operating band.
3) Adjust ATT1 so that level of the E-UTRA modulated interfering signal is as defined in subclause in Table 6.7.1-1 in TS 37.104 [2].
4) If the test signal is applicable according to clause 5, perform the Out-of-band emission tests as specified in subclauses 6.6.2 and 6.6.4, for all third and fifth order intermodulation products which appear in the frequency ranges defined in subclauses 6.6.2 and 6.6.4. The width of the intermodulation products shall be taken into account.
5) If the test signal is applicable according to clause 5, perform the Transmitter spurious emissions test as specified in subclause 6.6.1, for all third and fifth order intermodulation products which appear in the frequency ranges defined in subclause 6.6.1. The width of the intermodulation products shall be taken into account.
6) Verify that the emission level does not exceed the required level with the exception of interfering signal frequencies.
7) Repeat the test for the remaining interfering signal centre frequency offset s according to the conditions of Table 6.7.1-1 in TS 37.104 [2].
8) Repeat the test for the remaining test signals defined in clause 5 for requirements 6.6.1, 6.6.2 and 6.6.4.
NOTE: The third order intermodulation products are centred at 2F1±F2 and 2F2±F1. The fifth order intermodulation products are centred at 3F1±2F2, 3F2±2F1, 4F1±F2, and 4F2±F1 where F1 represents the test signal centre frequency and F2 represents the interfering signal centre frequency. The widths of intermodulation products are
● (n*BWF1 + m*5MHz) for the nF1±mF2 products
● (n*5MHz + m* BWF1) for the nF2±mF1 products
where BWF1 represents the test signal RF bandwidth, or channel bandwidth in case of single carrier.
6.7.4.2.2 Additional minimum requirement (BC2) test procedure
1) Set the BS to transmit the test signal according to clause 5 for requirement 6.6.1 at maximum output power according to the applicable test configuration.
2) Generate a CW signal as the interfering signal with a centre frequency offset of 0.8 MHz, but exclude interference frequencies that are outside of the allocated downlink operating band.
3) Adjust ATT1 so that level of the interfering signal is as defined in Table 6.7.2-1 in TS 37.104 [2].
4) If the test signal is applicable according to clause 5, perform the Out-of-band emission tests as specified in subclauses 6.6.2 and 6.6.4, for all third and fifth order intermodulation products which appear in the frequency ranges defined in subclauses 6.6.2 and 6.6.4.
5) If the test signal is applicable according to clause 5, perform the Transmitter spurious emissions test as specified in subclause 6.6.1, for all third and fifth order intermodulation products which appear in the frequency ranges defined in subclause 6.6.1.
6) Verify that the emission level does not exceed the required level with the exception of interfering signal frequencies.
7) Repeat the test for interfering signal centre frequency offsets of 2.0 MHz, 3.2MHz and 6.2 MHz.
8) Repeat the test for the remaining test signals defined in clause 5 for requirements 6.6.1, 6.6.2 and 6.6.4.
NOTE: The third order intermodulation products are centred at 2F1±F2 and 2F2±F1. The fifth order intermodulation products are centred at 3F1±2F2, 3F2±2F1, 4F1±F2, and 4F2±F1 where F1 represents the test signal centre frequency and F2 represents the interfering signal centre frequency. The widths of intermodulation products are
● (n*BWF1) for the nF1±mF2 products
● (m* BWF1) for the nF2±mF1 products
where BWF1 represents the test signal RF bandwidth or channel bandwidth in case of single carrier.
6.7.4.2.3 Additional minimum requirement (BC3) test procedure
1) Set the BS to transmit the test signal according to clause 5 for requirement 6.6.1 at maximum output power according to the applicable test configuration.
2) Generate the interfering signal according to Table 6.38A in TS 25.142 [12] at a centre frequency offset according to the conditions in Table 6.7.3-1 in TS 37.104 [2], but exclude interference frequencies that are outside of the allocated downlink operating band.
3) Adjust ATT1 so that level of the modulated interfering signal is as defined in Table 6.7.3-1 in TS 37.104 [2].
4) If the test signal is applicable according to clause 5, perform the Out-of-band emission tests as specified in subclauses 6.6.2 and 6.6.4, for all third and fifth order intermodulation products which appear in the frequency ranges defined in subclauses 6.6.2 and 6.6.4. The width of the intermodulation products shall be taken into account.
5) If the test signal is applicable according to clause 5, perform the Transmitter spurious emissions test as specified in subclause 6.6.1, for all third and fifth order intermodulation products which appear in the frequency ranges defined in subclause 6.6.1. The width of the intermodulation products shall be taken into account.
6) Verify that the emission level does not exceed the required level with the exception of interfering signal frequencies.
7) Repeat the test for the remaining interfering signal centre frequency offsets according to the conditions of Table 6.7.3-1 in TS 37.104 [2].
8) Repeat the test for the remaining test signals and physical channels in Table 4.9.2-1.
NOTE: The third order intermodulation products are centred at 2F1±F2 and 2F2±F1. The fifth order intermodulation products are centred at 3F1±2F2, 3F2±2F1, 4F1±F2, and 4F2±F1 where F1 represents the test signal centre frequency and F2 represents the interfering signal centre frequency. The widths of intermodulation products are
● (n*BWF1 + m*1.6MHz) for the nF1±mF2 products
● (n*1.6MHz + m* BWF1) for the nF2±mF1 products
where BWF1 represents the test signal RF bandwidth or channel bandwidth in case of single carrier.
6.7.5 Test requirements
6.7.5.1 General test requirement
In the frequency range relevant for this test, the transmitter intermodulation level shall not exceed the unwanted emission limits in subclause 6.6 in the presence of a wanted signal and an interfering signal according to Table 6.7.1‑1 in TS 37.104 [2] for BS operation in BC1, BC2 and BC3. The measurement may be limited to frequencies on which third and fifth order intermodulation products appear, considering the width of these products.
6.7.5.2 Additional test requirement (BC2)
In the frequency range relevant for this test, the transmitter intermodulation level shall not exceed the unwanted emission limits in subclause 6.6 in the presence of a wanted signal and an interfering signal according to Table 6.7.2-1 in TS 37.104 [2] for BS operation in BC2. The measurement may be limited to frequencies on which third and fifth order intermodulation products appear, considering the width of these products.
6.7.5.3 Additional test requirement (BC3)
In the frequency range relevant for this test, the transmitter intermodulation level shall not exceed the unwanted emission limits in subclause 6.6 in the presence of a wanted signal and an interfering signal according to Table 6.7.3-1 in TS 37.104 [2] for BS operation in BC3. The measurement may be limited to frequencies on which third and fifth order intermodulation products appear, considering the width of these products.
7 Receiver characteristics
7.1 General
General test conditions for receiver tests are given in clause 4, including interpretation of measurement results and configurations for testing. BS configurations for the tests are defined in subclause 4.10.
Unless otherwise stated the requirements in clause 7 apply during the Base Station receive period.
7.2 Reference sensitivity level
7.2.1 Definition and applicability
The reference sensitivity power level PREFSENS is the minimum mean power received at the antenna connector at which a reference performance requirement shall be met for a specified reference measurement channel.
Additional details are in TS 36.141 [9] subclause 7.2, TS 25.141 [10] subclause 7.2, TS 25.142 [12] subclause 7.2, and TS 51.021 [11] subclauses 7.3 and 7.4.
7.2.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclauses 7.2.1, 7.2.2, 7.2.3, and 7.2.4.
7.2.3 Test purpose
To verify that at the BS Reference sensitivity level the performance requirements shall be met for a specified reference measurement channel.
7.2.4 Method of test
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 51.021 [11], the method of test is specified in TS 51.021 [11], subclauses 7.3 and 7.4.
- For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], subclause 7.2.4.
- For references to TS 25.142 [12], the method of test is specified in TS 25.142 [12], subclause 7.2.4.
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 7.2.4.
7.2.5 Test requirements
For E-UTRA the test requirement is in TS 36.141 [9] subclause 7.2.5.
For UTRA-FDD the test requirement is in TS 25.141 [10] subclause 7.2.5.
For UTRA-TDD the test requirement is in TS 25.142 [12] subclause 7.2.5.
For GSM-EDGE the test requirement is in TS 51.021 [11] subclauses 7.3 and 7.4.
7.3 Dynamic range
7.3.1 Definition and applicability
The dynamic range is a measure of the capability of the receiver to receive a wanted signal in the presence of an interfering signal inside the received channel bandwidth or the capability of receiving high level of the wanted signal.
7.3.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclauses 7.3.1, 7.3.2, 7.3.3, and 7.3.4.
7.3.3 Test purpose
To verify that at the BS receiver dynamic range, the receiver performance shall fulfil the specified limit.
7.3.4 Method of test
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 51.021 [11], the method of test is specified in TS 51.021 [11], subclause 7.1.
- For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], subclause 7.3.4.
- For references to TS 25.142 [12], the method of test is specified in TS 25.142 [12], subclause 7.3.4.
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 7.3.4.
7.3.5 Test requirements
For E-UTRA the test requirement is in TS 36.141 [9] subclause 7.3.5.
For UTRA-FDD the test requirement is in TS 25.141 [10] subclause 7.3.5.
For UTRA-TDD the test requirement is in TS 25.142 [12] subclause 7.3.5.
For GSM-EDGE the test requirement is in TS 51.021 [11] subclause 7.1.
7.4 In-band selectivity and blocking
7.4.1 Definition and applicability
The in-band selectivity and blocking characteristics are measures of the receiver ability to receive a wanted signal at its assigned channel in the presence of an unwanted interferer inside the operating band and are defined by a wideband and a narrowband blocking requirement.
7.4.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclauses 7.4.1, 7.4.2, 7.4.3, and 7.4.4, and 7.4.5.
7.4.3 Test purpose
The test stresses the ability of the BS receiver to withstand high-level interference from unwanted signals at specified frequency offsets without undue degradation of its sensitivity.
7.4.4 Method of test
7.4.4.1 Initial conditions
Test environment: Normal; see Annex B.2.
RF bandwidth position to be tested: MRFBW, see subclause 4.9.1.
1) Set up the equipment as shown in Annex D.2.1.
2) Start to transmit according to the applicable test configuration in clause 5 using applicable reference measurement channel to the BS under test as follows:
- For E-UTRA see Annex A.1 in TS 36.141 [9].
- For UTRA FDD see Annex A.2 in TS 25.141 [10].
- For UTRA TDD see Annex A.2.1 in TS 25.142 [12].
- For GSM see subclause 7.6.2 in TS 51.021 [11] and Annex P in TS 45.005 [6] for reference channels to test.
7.4.4.2 Procedure for general blocking
1) Adjust the signal generators to the type of interfering signal, levels and the frequency offsets as specified in Table 7.4.5.1-1.
2) The interfering signal shall be swept with a step size of 1 MHz starting from the minimum offset to the channel edges of the wanted signals as specified in Table 7.4.5.1-1
3) Measure the performance of the wanted signal at the BS receiver, as defined in subclause 7.4.5, for the relevant carriers specified by the test configuration in subclause 4.8.
7.4.4.3 Procedure for narrowband blocking
1) Adjust the signal generators to the type of interfering signal, levels and the frequency offsets as specified in Table 7.4.5.2-1
2) Set-up and sweep the interfering RB centre frequency offset to the channel edge of the wanted signal according to Table 7.4.5.2-1.
3) Measure the performance of the wanted signal at the BS receiver, as defined in subclause 7.4.5, for the relevant carriers specified by the test configuration in subclause 4.8.
7.4.4.4 Procedure for additional narrowband blocking for GSM/EDGE
The GSM/EDGE in-band blocking method of test is stated in TS 51.021 [11], applicable parts of subclause 7.6.
The conditions specified in TS 45.005 [6], Annex P.2.1 apply for GSM/EDGE in-band narrowband blocking.
7.4.4.5 Procedure for GSM/EDGE AM suppression
The GSM/EDGE in-band blocking method of test is stated in TS 51.021 [11], applicable parts of subclause 7.8.
The conditions specified in TS 45.005 [6], Annex P.2.3 apply for GSM/EDGE AM suppression.
7.4.4.6 Procedure for additional BC3 blocking requirement
1) Adjust the signal generators to the type of interfering signal, levels and the frequency offsets as specified in Table 7.4.5.5-1
2) Measure the performance of the wanted signal at the BS receiver, as defined in subclause 7.4.5, for the relevant carriers specified by the test configuration in subclause 4.8.
7.4.5 Test requirements
7.4.5.1 General blocking test requirement
For the general blocking requirement, the interfering signal shall be a UTRA FDD signal as specified in Annex A.1.
For the wanted and interfering signal coupled to the Base Station antenna input, using the parameters in Table 7.4.5.1-1, the following requirements shall be met:
- For any measured E-UTRA carrier, the throughput shall be ≥ 95% of the maximum throughput of the reference measurement channel defined in TS 36.104 [5], subclause 7.2.
- For any measured UTRA FDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.104 [3], subclause 7.2.
- For any measured UTRA TDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.105 [4], subclause 7.2.
- For any measured GSM/EDGE carrier, the conditions are specified in TS 45.005 [6], Annex P.2.1.
Table 7.4.5.1-1: General blocking test requirement
Operating Band Number
Centre Frequency of Interfering Signal [MHz]
Interfering Signal mean power [dBm]
Wanted Signal mean power [dBm]
Interfering signal centre frequency minimum frequency offset from the RF bandwidth edge [MHz]
1-7, 9-11, 13, 14, 18, 19, 21, 33-40
(FUL_low -20)
to
(FUL_high +20)
-40
PREFSENS + x dB*
±7.5
8
(FUL_low -20)
to
(FUL_high +10)
12
(FUL_low -20)
to
(FUL_high +13)
17
(FUL_low -20)
to
(FUL_high +18)
20
(FUL_low -11)
to
(FUL_high +20)
NOTE*: PREFSENS depends on the RAT and on the channel bandwidth, see subclause 7.2.
NOTE**: "x" is equal to 6 in case of E-UTRA or UTRA wanted signals and equal to 3 in case of GSM/EDGE wanted signal.
7.4.5.2 General narrowband blocking test requirement
For the narrowband blocking requirement, the interfering signal shall be an E-UTRA 1RB signal as specified in Annex A.3.
For the wanted and interfering signal coupled to the Base Station antenna input, using the parameters in Table 7.4.5.2-1 the following requirements shall be met:
- For any measured E-UTRA carrier, the throughput shall be ≥ 95% of the maximum throughput of the reference measurement channel defined in TS 36.104 [5], subclause 7.2.
- For any measured UTRA FDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.104 [3], subclause 7.2.
- For any measured UTRA TDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.105 [4], subclause 7.2.
- For any measured GSM/EDGE carrier, the conditions are specified in TS 45.005 [6], Annex P.2.1.
Table 7.4.5.2-1: Narrowband blocking requirement
RAT of the carrier
Wanted signal mean power [dBm]
Interfering signal mean power [dBm]
Interfering RB centre frequency offset from the RF bandwidth edge [kHz]
E-UTRA, UTRA and GSM/EDGE
PREFSENS + x dB*
-49
±(240 +m*180),
m=0, 1, 2, 3, 4, 9, 14, 19, 24
NOTE*: PREFSENS depends on the RAT and on the channel bandwidth, see subclause 7.2.
NOTE**: "x" is equal to 6 in case of E-UTRA or UTRA wanted signals and equal to 3 in case of GSM/EDGE wanted signal.
NOTE***: Interfering signal (E-UTRA 3MHz) consisting of one resource block positioned at the stated offset, the channel bandwidth of the interfering signal is located adjacently to the RF bandwidth edge.
7.4.5.3 Additional narrowband blocking test requirement for GSM/EDGE
The GSM/EDGE in-band blocking test requirements are stated in TS 51.021 [11], applicable parts of subclause 7.6.
The conditions specified in TS 45.005 [6], Annex P.2.1 apply for GSM/EDGE in-band narrowband blocking.
7.4.5.4 GSM/EDGE test requirements for AM suppression
The GSM/EDGE in-band blocking test requirements are stated in TS 51.021 [11], applicable parts of subclause 7.8.
The conditions specified in TS 45.005 [6], Annex P.2.3 apply for GSM/EDGE AM suppression.
7.4.5.5 Additional BC3 blocking test requirement
The interfering signal is a 1.28 Mcps UTRA TDD modulated signal as specified in Annex A.2.
For the wanted and interfering signal coupled to the Base Station antenna input, using the parameters in Table 7.4.5.5-1, the following requirements shall be met:
- For any measured E-UTRA TDD carrier, the throughput shall be ≥ 95% of the maximum throughput of the reference measurement channel defined in TS 36.104 [5], subclause 7.2.
- For any measured UTRA TDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.105 [4], subclause 7.2.
Table 7.4.5.5-1: Additional blocking requirement for Band Category 3
Operating Band
Centre Frequency of Interfering Signal [MHz]
Interfering Signal mean power [dBm]
Wanted Signal mean power [dBm]
Interfering signal centre frequency minimum frequency offset from the RF bandwidth edge [MHz]
33 - 40
(FUL_low - 20)
to
(FUL_high + 20)
-40,
PREFSENS + 6 dB*
±2.4
NOTE*: PREFSENS depends on the RAT and on the channel bandwidth, see section 7.2.
7.5 Out-of-band blocking
7.5.1 Definition and applicability
The Out-of-band blocking characteristic is a measure of the receiver ability to receive a wanted signal at its assigned channel in the presence of an unwanted interferer outside the uplink operating band.
The blocking performance requirement applies as specified in the Table 7.5.5.1-1 and Table 7.5.5.2-1.
7.5.2 Minimum requirement
The general minimum requirement is in TS 37.104 [2] subclause 7.5.1. The co-location minimum requirement is in TS 37.104 [2] subclause 7.5.2.
7.5.3 Test purpose
The test stresses the ability of the BS receiver to withstand high-level interference from unwanted signals at specified frequency bands, without undue degradation of its sensitivity.
7.5.4 Method of test
7.5.4.1 Initial conditions
Test environment: normal; see Annex B.2.
RF bandwidth position to be tested: MRFBW see subclause 4.9.1.
1) Set up the equipment as shown in Annex D.2.1.
2) Start to transmit according to the applicable test configuration in clause 5 using reference measurement channel to the BS under test as follows:
- For E-UTRA see Annex A.1 in TS 36.141 [9].
- For UTRA FDD see Annex A.2 in TS 25.141 [10].
- For UTRA TDD see Annex A.2.1 in TS 25.142 [12].
- For GSM see subclause 7.6.2 in TS 51.021 [11] and Annex P in TS 45.005 [6] for reference channels to test.
7.5.4.2 Procedure
1) Adjust the signal generators to the type of interfering signals, levels and the frequency offsets as specified for general test requirements in Table 7.5.5.1-1 and, when applicable, for co-location test requirements in Table 7.5.5.2-1.
2) The CW interfering signal shall be swept with a step size of 1 MHz within the specified range.
3) Measure the performance of the wanted signal at the BS receiver, as defined in the subclause 7.5.5, for the relevant carriers specified by the test configuration in subclause 4.8.
7.5.5 Test requirements
7.5.5.1 General out-of-band blocking test requirements
For a wanted and an interfering signal coupled to BS antenna input using the parameters in Table 7.5.5.1-1, the following requirements shall be met:
- For any measured E-UTRA carrier, the throughput shall be ≥ 95% of the maximum throughput of the reference measurement channel defined in TS 36.104 [5], subclause 7.2.
- For any measured UTRA FDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.104 [3], subclause 7.2.
- For any measured UTRA TDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.105 [4], subclause 7.2.
- For any measured GSM/EDGE carrier, the conditions are specified in TS 45.005 [6], Annex P.2.1.
Table 7.5.5.1-1: Blocking performance requirement
Operating Band Number
Centre Frequency of Interfering Signal [MHz]
Interfering Signal mean power [dBm]
Wanted Signal mean power [dBm]
Type of Interfering Signal
1-7, 9-11, 13, 14, 18, 19, 21, 33-40
1
(FUL_high +20)
to
to
(FUL_low -20)
12750
-15
PREFSENS + x dB*
CW carrier
8
1
(FUL_high +10)
to
to
(FUL_low -20)
12750
-15
PREFSENS + x dB*
CW carrier
12
1
(FUL_high +13)
to
to
(FUL_low -20)
12750
-15
PREFSENS + x dB*
CW carrier
17
1
(FUL_high +18)
to
to
(FUL_low -20)
12750
-15
PREFSENS + x dB*
CW carrier
20
1
(FUL_high +20)
to
to
(FUL_low -11)
12750
-15
PREFSENS + x dB*
CW carrier
NOTE*: PREFSENS depends on the RAT and the channel bandwidth, see subclause 7.2.
"x" is equal to 6 in case of E-UTRA or UTRA wanted signals and equal to 3 in case of GSM/EDGE wanted signal.
7.5.5.2 Co-location test requirements
This additional blocking requirement may be applied for the protection of BS receivers when E-UTRA BS, UTRA, CDMA or GSM/EDGE operating in a different frequency band are co-located with a BS.
The requirements in this subclause assume a 30 dB coupling loss between the interfering transmitter and the BS receiver.
NOTE: For co-location with UTRA, the requirements are based on co-location with Wide Area UTRA FDD or TDD Base Stations.
For a wanted and an interfering signal coupled to BS antenna input using the parameters in Table 7.5.5.2-1, the following requirements shall be met:
- For any measured E-UTRA carrier, the throughput shall be ≥ 95% of the maximum throughput of the reference measurement channel defined in TS 36.104 [5], subclause 7.2.
- For any measured UTRA FDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.104 [3], subclause 7.2.
- For any measured UTRA TDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.105 [4], subclause 7.2.
- For any measured GSM/EDGE carrier, the conditions are specified in TS 45.005 [6], Annex P.2.1.
Table 7.5.5.2-1: Blocking requirement for when co-located with BS in other frequency bands.
Type of co-located BS
Centre Frequency of Interfering Signal (MHz)
Interfering Signal mean power (dBm)
Wanted Signal mean power (dBm)
Type of Interfering Signal
Macro GSM850 or CDMA850
869 – 894
+16
PREFSENS + x dB*
CW carrier
Macro GSM900
921 – 960
+16
PREFSENS + x dB*
CW carrier
Macro DCS1800
1805 – 1880
(Note 4)
+16
PREFSENS + x dB*
CW carrier
Macro PCS1900
1930 – 1990
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band I or E-UTRA Band 1
2110 – 2170
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band II or E-UTRA Band 2
1930 – 1990
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band III or E-UTRA Band 3
1805 – 1880
(Note 4)
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band IV or E-UTRA Band 4
2110 – 2155
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band V or E-UTRA Band 5
869 – 894
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band VI or E-UTRA Band 6
875 – 885
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band VII or E-UTRA Band 7
2620 – 2690
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band VIII or E-UTRA Band 8
925 – 960
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band IX or E-UTRA Band 9
1844.9 – 1879.9
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band X or E-UTRA Band 10
2110 – 2170
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band XI or E-UTRA Band 11
1475.9 - 1495.9
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band XII or E-UTRA Band 12
729 - 746
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band XIIII or E-UTRA Band 13
746 - 756
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band XIV or E-UTRA Band 14
758 - 768
+16
PREFSENS + x dB*
CW carrier
E-UTRA Band 17
734 - 746
+16
PREFSENS + x dB*
CW carrier
E-UTRA Band 18
860 - 875
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band XIX or E-UTRA Band 19
875 - 890
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band XX or E-UTRA Band 20
791 - 821
+16
PREFSENS + x dB*
CW carrier
UTRA FDD Band XXI or E-UTRA Band 21
1495.9 – 1510.9
+16
PREFSENS + x dB*
CW carrier
UTRA TDD in Band a)
1900-1920
2010-2025
+16
PREFSENS + x dB*
CW carrier
E-UTRA TDD in Band 33
1900-1920
+16
PREFSENS + x dB*
CW carrier
E-UTRA TDD in Band 34
2010-2025
+16
PREFSENS + x dB*
CW carrier
UTRA TDD in Band b)
1850-1910
1930-1990
+16
PREFSENS + x dB*
CW carrier
E-UTRA TDD in Band 35
1850-1910
+16
PREFSENS + x dB*
CW carrier
E-UTRA TDD in Band 36
1930-1990
+16
PREFSENS + x dB*
CW carrier
UTRA TDD in Band c) or E-UTRA TDD in Band 37
1910-1930
+16
PREFSENS + x dB*
CW carrier
UTRA TDD in Band d) or E-UTRA in Band 38
2570-2620
+16
PREFSENS + x dB*
CW carrier
E-UTRA in Band 39
1880-1920
+16
PREFSENS + x dB*
CW carrier
E-UTRA in Band 40
2300-2400
+16
PREFSENS + x dB*
CW carrier
NOTE 1 (*):PREFSENS depends on the RAT and the channel bandwidth, see subclause 7.2.
"x" is equal to 3 in case of GSM/EDGE wanted signal and equal to 6 in case of UTRA or E-UTRA wanted signals.
NOTE 2: Except for a BS operating in Band 13, these requirements do not apply when the interfering signal falls within the uplink operating band or in the 10 MHz immediately outside the uplink operating band.
For a BS operating in band 13 the requirements do not apply when the interfering signal falls within the frequency range 768-797 MHz.
NOTE 3: Some combinations of bands may not be possible to co-site based on the requirements above. The current state-of-the-art technology does not allow a single generic solution for co-location of UTRA TDD or E-UTRA TDD with E-UTRA FDD on adjacent frequencies for 30dB BS-BS minimum coupling loss. However, there are certain site-engineering solutions that can be used. These techniques are addressed in TR 25.942 [14].
NOTE 4: In China, the blocking requirement for co-location with DCS1800 and Band III BS is only applicable in the frequency range 1805-1850MHz.
7.6 Receiver spurious emissions
7.6.1 Definition and applicability
The receiver spurious emissions power is the power of emissions generated or amplified in a receiver that appear at the BS receiver antenna connector. The requirements apply to all BS with separate RX and TX antenna ports. In this case for FDD BS the test shall be performed when both TX and RX are on, with the TX port terminated.
For TDD BS with common RX and TX antenna port the requirement applies during the Transmitter OFF period. For FDD BS with common RX and TX antenna port the transmitter spurious emission limits as specified in subclause 6.6.1 are valid.
7.6.2 Minimum requirements
The minimum requirement is in TS 37.104 [2] subclause 7.6.1.
7.6.3 Test purpose
The test purpose is to verify the ability of the BS to limit the interference caused by receiver spurious emissions to other systems.
7.6.4 Method of test
7.6.4.1 Initial conditions
Test environment: Normal; see Annex B.2.
RF bandwidth position to be tested: MRFBW, see subclause 4.9.1.
1) Set up the equipment as shown in Annex D.2.1.
7.6.4.2 Procedure
1) Set the measurement equipment parameters as specified in Table 7.6.5.1-1. For BC2, the parameters in Table 7.6.5.2-1 apply in addition.
2) Start BS transmission according to the applicable test configuration in clause 5 at Pmax.
3) Measure the spurious emissions over each frequency range described in subclause 7.6.5.
7.6.5 Test requirements
7.6.5.1 General test requirements
The power of any spurious emission shall not exceed the levels in Table 7.6.5.1-1.
Table 7.6.5.1-1: General spurious emission test requirement
Frequency range
Maximum level
Measurement Bandwidth
Note
30 MHz ‑ 1 GHz
-57 dBm
100 kHz
1 GHz ‑ 12.75 GHz
-47 dBm
1 MHz
NOTE: The frequency range from FBW RF,DL,low -10 MHz to FBW RF,_,DLhigh + 10 MHz may be excluded from the requirement.
In addition to the requirements in Table 7.6.5.1-1, the power of any spurious emission shall not exceed the additional spurious emissions requirements in subclause 6.6.1.5.5 and in case of FDD BS (for BC1 and BC2) emission shall not exceed the levels specified for protection of the BS receivers of own or different BS in subclause 6.6.1.5.4. In addition, the requirements for co-location with other Base Stations specified in subclause 6.6.1.5.6 may also be applied.
7.6.5.2 Additional test requirement for BC2 (Category B)
For a BS operating in Band Category 2 when GSM/EDGE is configured and where Category B spurious emissions apply, the power of any spurious emissions shall not exceed the limits in Table 7.6.5.2-1.
Table 7.6.5.2-1: Additional BS spurious emissions limits for BC2, Category B
Frequency range
Frequency offset from transmitter operating band edge
Maximum level
Measurement Bandwidth
500 MHz – 1 GHz
10 – 20 MHz
-57 dBm
300 kHz
20 – 30 MHz
-57 dBm
1 MHz
≥ 30 MHz
-57 dBm
3 MHz
1 GHz – 12.75 GHz
≥ 30 MHz
-47 dBm
3 MHz
7.7 Receiver intermodulation
7.7.1 Definition and applicability
Third and higher order mixing of the two interfering RF signals can produce an interfering signal in the band of the desired channel. Intermodulation response rejection is a measure of the capability of the receiver to receive a wanted signal on its assigned channel frequency in the presence of two interfering signals which have a specific frequency relationship to the wanted signal.
7.7.2 Minimum requirement
The minimum requirement is in TS 37.104 [2], subclauses 7.7.1, 7.7.2 and 7.7.3.
7.7.3 Test purpose
The test purpose is to verify the ability of the BS receiver to inhibit the generation of intermodulation products in its non-linear elements caused by the presence of two high-level interfering signals at frequencies with a specific relationship to the frequency of the wanted signal.
7.7.4 Method of test
7.7.4.1 Initial conditions
Test environment: Normal; see Annex B.2.
RF bandwidth position to be tested: MRFBW if TC6 is applicable; BRFBW and TRFBW for other TC, see subclause 4.9.1.
1) Set-up the measurement system as shown in Annex D.2.3.
2) Start to transmit according to the applicable test configuration in clause 5 using reference measurement channel to the BS under test as follows:
- For E-UTRA see Annex A.1 in TS 36.141 [9].
- For UTRA FDD see Annex A.2 in TS 25.141 [10].
- For UTRA TDD see Annex A.2.1 in TS 25.142 [12].
- For GSM see subclause 7.7.2 in TS 51.021 [11] and Annex P in TS 45.005 [6] for reference channels to test.
7.7.4.2 Procedure for general and narrowband intermodulation
1) Adjust the signal generators to the type of interfering signals, levels and the frequency offsets as specified in Table 7.7.5.1-1 and Table 7.7.5.1-2 for general intermodulation requirement, and Table 7.7.5.2-1 and Table 7.7.5.2-2 for narrowband intermodulation requirement.
2) Measure the performance of the wanted signal at the BS receiver, as defined in subclause 7.7.5.1 and 7.7.5.2, for the relevant carriers specified by the test configuration in subclause 4.8.
7.7.4.3 Procedure for additional narrowband intermodulation for GSM/EDGE
The GSM/EDGE MC-BTS receiver intermodulation method of test is stated in TS 51.021 [11], applicable parts of subclause 7.7, shall apply for GSM/EDGE carriers.
The conditions specified in TS 45.005 [6], Annex P.2.2 apply for the GSM/EDGE intermodulation requirement.
7.7.5 Test requirements
7.7.5.1 General intermodulation test requirement
Interfering signals shall be a CW signal and an E-UTRA or UTRA signal, as specified in Annex A.
For the wanted signal at the assigned channel frequency and two interfering signals coupled to the Base Station antenna input, using the parameters in Table 7.7.5.1-1 and 7.7.5.1-2, the following requirements shall be met:
- For any measured E-UTRA carrier, the throughput shall be ≥ 95% of the maximum throughput of the reference measurement channel defined in TS 36.104 [5], subclause 7.2.
- For any measured UTRA FDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.104 [3], subclause 7.2.
- For any measured UTRA TDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.105 [4], subclause 7.2.
- For any measured GSM/EDGE carrier, the conditions are specified in TS 45.005 [6], Annex P.2.2.
Table 7.7.5.1-1: General intermodulation requirement
Mean power of interfering signals [dBm]
Wanted Signal mean power [dBm]
Type of interfering signal
-48
PREFSENS +x dB*
See Table 7.7.5.1-2
NOTE*: PREFSENS depends on the RAT and on the channel bandwidth, see subclause 7.2 in TS 37.104. For E-UTRA channel bandwidths 10, 15 and 20 MHz this requirement shall apply only for a FRC A1-3 mapped to the frequency range at the channel edge adjacent to the interfering signals.
"x" is equal to 6 in case of E-UTRA or UTRA wanted signals and equal to 3 in case of GSM/EDGE wanted signal.
Table 7.7.5.1-2: Interfering signals for intermodulation requirement
RAT of the carrier adjacent to the high (low) edge of the RF bandwidth
Interfering signal centre frequency offset from the RF bandwidth edge [MHz]
Type of interfering signal
E-UTRA 1.4 MHz
±2.0 (BC1 and BC3) /
±2.1 (BC2)
CW
±4.9
1.4MHz E-UTRA signal
E-UTRA 3 MHz
±4.4 (BC1 and BC3) /
±4.5 (BC2)
CW
±10.5
3MHz E-UTRA signal
UTRA FDD and
E-UTRA 5 MHz
±7.5
CW
±17.5
5MHz E-UTRA signal
E-UTRA 10 MHz
±7.375
CW
±17.5
5MHz E-UTRA signal
E-UTRA 15 MHz
±7.25
CW
±17.5
5MHz E-UTRA signal
E-UTRA 20 MHz
±7.125
CW
±17.5
5MHz E-UTRA signal
GSM/EDGE
±7.575
CW
±17.5
5MHz E-UTRA signal
1.28 Mcps UTRA TDD
±2.3 (BC3)
CW
±5.6 (BC3)
1.28Mcps UTRA TDD signal
7.7.5.2 General narrowband intermodulation test requirement
Interfering signals shall be a CW signal and an E-UTRA 1RB signal, as specified in Annex A.
For the wanted signal at the assigned channel frequency and two interfering signals coupled to the Base Station antenna input, using the parameters in Table 7.7.5.2-1 and 7.7.5.2-2, the following requirements shall be met:
- For any measured E-UTRA carrier, the throughput shall be ≥ 95% of the maximum throughput of the reference measurement channel defined in TS 36.104 [5], subclause 7.2.
- For any measured UTRA FDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.104 [3], subclause 7.2.
- For any measured UTRA TDD carrier, the BER shall not exceed 0.001 for the reference measurement channel defined in TS 25.105 [4], subclause 7.2.
- For any measured GSM/EDGE carrier, the conditions are specified in TS 45.005 [6], Annex P.2.2.
Table 7.7.5.2-1: General narrowband intermodulation requirement
Mean power of interfering signals [dBm]
Wanted Signal mean power [dBm]
Type of interfering signal
-52
PREFSENS +x dB*
See Table 7.7.5.2-2
NOTE*: PREFSENS depends on the RAT and on the channel bandwidth, see subclause 7.2 in TS 37.104.
"x" is equal to 6 in case of E-UTRA or UTRA wanted signals and equal to 3 in case of GSM/EDGE wanted signal.
Table 7.7.5.2-2: Interfering signals for narrowband intermodulation requirement
RAT of the carrier adjacent to the high (low) edge of the RF bandwidth
Interfering signal centre frequency offset from the RF bandwidth edge [kHz]
Type of interfering signal
E-UTRA 1.4 MHz
±260 (BC1 and BC3) /
±270 (BC2)
CW
±970 (BC1 and BC3) /
±790 (BC2)
1.4 MHz E-UTRA signal, 1 RB*
E-UTRA 3 MHz
±260 (BC1 and BC3) /
±270 (BC2)
CW
±960 (BC1 and BC3) /
±780 (BC2)
3.0 MHz E-UTRA signal, 1 RB*
E-UTRA 5 MHz
±360
CW
±1060
5 MHz E-UTRA signal, 1 RB*
E-UTRA 10 MHz
(**)
±325
CW
±1240
5 MHz E-UTRA signal, 1 RB*
E-UTRA 15 MHz
(**)
±380
CW
±1600
5MHz E-UTRA signal, 1 RB*
E-UTRA 20 MHz
(**)
±345
CW
±1780
5MHz E-UTRA signal, 1 RB*
UTRA FDD
±345 (BC1 and BC2)
CW
±1780 (BC1 and BC2)
5MHz E-UTRA signal, 1 RB*
GSM/EDGE
±340
CW
±880
5MHz E-UTRA signal, 1 RB*
1.28Mcps UTRA TDD
±190 (BC3)
CW
±970 (BC3)
1.4 MHz E-UTRA signal, 1 RB*
NOTE*: Interfering signal consisting of one resource block positioned at the stated offset, the channel bandwidth of the interfering signal is located adjacently to the RF bandwidth edge.
NOTE**: This requirement shall apply only for an E-UTRA FRC A1-3 mapped to the frequency range at the channel edge adjacent to the interfering signals.
7.7.5.3 Additional narrowband intermodulation test requirement for GSM/EDGE
The GSM/EDGE MC-BTS receiver intermodulation test requirements are stated in TS 51.021 [11], applicable parts of subclause 7.7, shall apply for GSM/EDGE carriers.
The conditions specified in TS 45.005 [6], Annex P.2.2 apply for the GSM/EDGE intermodulation requirement.
7.8 In-channel selectivity
7.8.1 Definition and applicability
In-channel selectivity (ICS) is a measure of the receiver ability to receive a wanted signal at its assigned resource block locations in the presence of an interfering signal received at a larger power spectral density. In this condition a throughput requirement shall be met for a specified reference measurement channel. This requirement is applicable for E-UTRA carriers only.
7.8.2 Minimum requirement
The minimum requirement is in TS 37.104 [2] subclause 7.8.1.
7.8.3 Test purpose
The purpose of this test is to verify the BS receiver ability to suppress the IQ leakage.
7.8.4 Method of testing
For this requirement Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. The following shall apply:
- For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], subclause 7.4.4.
7.8.5 Test requirements
The test requirements are in TS 36.141 [9], subclause 7.4.5.
8 Performance requirements
Void
Annex A (normative):
Characteristics of interfering signals
A.1 UTRA FDD interfering signal
The UTRA FDD interfering signal shall be a DPCH containing the DPCCH and one DPDCH. The data content for each channelization code shall be uncorrelated with each other and to the wanted signal and spread and modulated according to clause 4 of TS 25.213. Further characteristics of DPDCH and DPCCH are specified in Table A.1-1.
Table A.1-1: Characteristics of UTRA FDD interfering signal
Channel
Bit Rate
Spreading Factor
Channelization Code
Relative Power
DPDCH
240 kbps
16
4
0 dB
DPCCH
15 kbps
256
0
-5.46 dB
NOTE: The DPDCH and DPCCH settings are chosen to simulate a signal with realistic Peak to Average Ratio.
A.2 UTRA TDD interfering signal
The UTRA TDD interfering signal shall be 1.28 Mcps UTRA TDD signal with one code. The data content shall be uncorrelated to the wanted signal. They are specified in Table A.2-1.
Table A.2-1: Characteristics of UTRA TDD interfering signal
UTRA TDD option
Type of Interfering Signal
1.28 Mcps UTRA TDD
1,28 Mcps UTRA TDD signal with one code*
* NOTE: The channelisation code ID and Midamble shift shall be different with the wanted signal’s.
A.3 E-UTRA interfering signal
The E-UTRA interfering signal shall be a PUSCH containing data and reference symbols. Normal CP is used. The data content shall be uncorrelated to the wanted signal and modulated according to clause 5 of TS 36.211. Mapping of PUSCH modulation to receiver requirement are specified in Table A.3-1.
Table A.3-1: Modulation of the E-UTRA interfering signal
Receiver requirement
Modulation
Narrowband blocking
QPSK
Receiver intermodulation
QPSK
Annex B (normative):
Environmental requirements for the BS equipment
B.1 General
For each test in the present document, the environmental conditions under which the BS is to be tested are defined. The environmental conditions and class shall be from the relevant IEC specifications or the corresponding ETSI specifications.
B.2 Normal test environment
When a normal test environment is specified for a test, the test should be performed within the minimum and maximum limits of the conditions stated in Table B.1.
Table B.1: Limits of conditions for Normal Test Environment
Condition
Minimum
Maximum
Barometric pressure
86 kPa
106 kPa
Temperature
15°C
30°C
Relative Humidity
20 %
85 %
Power supply
Nominal, as declared by the manufacturer
Vibration
Negligible
The ranges of barometric pressure, temperature and humidity represent the maximum variation expected in the uncontrolled environment of a test laboratory. If it is not possible to maintain these parameters within the specified limits, the actual values shall be recorded in the test report.
B.3 Extreme test environment
The manufacturer shall declare one of the following:
1) The equipment class for the equipment under test, as defined in the IEC 60721-3-3 [17] or ETSI EN 300 019-1-3 [19] ("Stationary use at weather protected locations");
2) The equipment class for the equipment under test, as defined in the IEC 60721-3-4 [18] or ETSI EN 300 019-1-4 [20] ("Stationary use at non weather protected locations");
3) The equipment that does not comply to the mentioned classes, the relevant classes from IEC 60721 [16] documentation for Temperature, Humidity and Vibration shall be declared.
NOTE: Reduced functionality for conditions that fall out side of the standard operational conditions are not tested in the present document. These may be stated and tested separately.
B.3.1 Extreme temperature
When an extreme temperature test environment is specified for a test, the test shall be performed at the standard minimum and maximum operating temperatures defined by the manufacturer's declaration for the equipment under test.
Minimum temperature:
The test shall be performed with the environment test equipment and methods including the required environmental phenomena into the equipment, conforming to the test procedure of IEC 60068-2-1 [21].
Maximum temperature:
The test shall be performed with the environmental test equipment and methods including the required environmental phenomena into the equipment, conforming to the test procedure of IEC 60068-2-2 [22].
NOTE: It is recommended that the equipment is made fully operational prior to the equipment being taken to its lower operating temperature.
B.4 Vibration
When vibration conditions are specified for a test, the test shall be performed while the equipment is subjected to a vibration sequence as defined by the manufacturer’s declaration for the equipment under test. This shall use the environmental test equipment and methods of inducing the required environmental phenomena in to the equipment, conforming to the test procedure of IEC 60068-2-6 [23]. Other environmental conditions shall be within the ranges specified in clause B.2.
NOTE: The higher levels of vibration may induce undue physical stress in to equipment after a prolonged series of tests. The testing body should only vibrate the equipment during the RF measurement process.
B.5 Power supply
When extreme power supply conditions are specified for a test, the test shall be performed at the standard upper and lower limits of operating voltage defined by manufacturer's declaration for the equipment under test.
Upper voltage limit:
The equipment shall be supplied with a voltage equal to the upper limit declared by the manufacturer (as measured at the input terminals to the equipment). The tests shall be carried out at the steady state minimum and maximum temperature limits declared by the manufacturer for the equipment, to the methods described in IEC 60068-2-1 [21] Test Ab/Ad and IEC 60068-2-2 [22] Test Bb/Bd: Dry Heat.
Lower voltage limit:
The equipment shall be supplied with a voltage equal to the lower limit declared by the manufacturer (as measured at the input terminals to the equipment). The tests shall be carried out at the steady state minimum and maximum temperature limits declared by the manufacturer for the equipment, to the methods described in IEC 60068-2-1 [21] Test Ab/Ad and IEC 60068-2-2 [22] Test Bb/Bd: Dry Heat.
B.6 Measurement of test environments
The measurement accuracy of the BS test environments shall be.
Pressure: ±5 kPa.
Temperature: ±2 degrees.
Relative Humidity: ±5 %.
DC Voltage: ±1,0 %.
AC Voltage: ±1,5 %.
Vibration: 10 %.
Vibration frequency: 0,1 Hz.
The above values shall apply unless the test environment is otherwise controlled and the specification for the control of the test environment specifies the uncertainty for the parameter.
Annex C (informative):
Test Tolerances and Derivation of test requirements
The test requirements explicitly defined in this specification have been calculated by relaxing the minimum requirements of the core specification using the Test Tolerances defined here. When the Test Tolerance is zero, the test requirement will be the same as the minimum requirement. When the Test Tolerance is non-zero, the test requirements will differ from the minimum requirements, and the formula used for this relaxation is given in the following tables.
Test requirements which are included by reference to TS 25.141 [10], TS 25.142[12], TS 36.141[9] or TS 51.021[11] have been calculated within the referred test specification using the Test Tolerances defined therein.
The Test Tolerances are derived from Test System uncertainties, regulatory requirements and criticality to system performance. As a result, the Test Tolerances may sometimes be set to zero.
The test tolerances should not be modified for any reason e.g. to take account of commonly known test system errors (such as mismatch, cable loss, etc.).
Note that a formula for applying Test Tolerances is provided for all tests, even those with a test tolerance of zero. This is necessary in the case where the Test System uncertainty is greater than that allowed in subclause 4.1.2. In this event, the excess error shall be subtracted from the defined test tolerance in order to generate the correct tightened test requirements as defined in this Annex.
C.1 Measurement of transmitter
Table C.1-1: Derivation of test requirements (Transmitter tests)
Test
Minimum requirement in TS 37.104
Test Tolerance
(TT)
Test requirement
6.2.1 Base Station maximum output power
UTRA and E-UTRA
In normal conditions:
within ±2 dB of manufacturer's rated output power
In extreme conditions:
within ±2.5 dB of manufacturer's rated output power
GSM/EDGE
In normal conditions:
within ±2 dB of manufacturer's rated output power
In extreme conditions:
within ±2.5 dB of manufacturer's rated output power
0.7 dB
0.7 dB
1.0 dB
1.0 dB
Formula: Upper limit + TT, Lower limit - TT
In normal conditions:
within +2.7 dB and -2.7 dB of the manufacturer's rated output power
In extreme conditions:
within +3.2 dB and -3.2 dB of the manufacturer's rated output power
In normal conditions:
within +3.0 dB and -3.0 dB of the manufacturer's rated output power
In extreme conditions:
within +3.5 dB and -3.5 dB of the manufacturer's rated output power
6.4 Transmit ON/OFF power
-85 dBm/MHz.
2 dB
Formula: Minimum Requirement + TT
6.6.1.5.1 Transmitter spurious emissions, Mandatory Requirements
Maximum level defined in Table 6.6.1.1.1-1 of TS 37.104 [2].
0 dB
Formula: Minimum Requirement + TT
6.6.1.5.2 Transmitter spurious emissions, Mandatory Requirements
Maximum level defined in Table 6.6.1.1.2-1 of TS 37.104 [2].
0 dB
Formula: Minimum Requirement + TT
6.6.1.5.3 Transmitter spurious emissions, Additional BC2 Requirement
Maximum level defined in Table 6.6.1.1.3-1 of TS 37.104 [2].
0 dB
Formula: Minimum Requirement + TT
6.6.1.5.4 Transmitter spurious emissions, Protection of BS receiver
Maximum level defined in Table 6.6.1.2.1-1 of TS 37.104 [2].
0 dB
Formula: Minimum Requirement + TT
6.6.1.5.5 Transmitter spurious emissions, Additional spurious emission requirements
Maximum level defined in Tables 6.6.1.3.1-1 and 6.6.1.3.1-2 of TS 37.104 [2].
0 dB
Formula: Minimum Requirement + TT
6.6.1.5.6 Transmitter spurious emissions,
Co-location
Maximum level defined in Table 6.6.1.4.1-1 of TS 37.104 [2].
0 dB
Formula: Minimum Requirement + TT
6.6.2 Operating band unwanted emissions
For BC1 and BC2:
Offset < 1 MHz
-14dBm/30kHz to -26dBm/30kHz
1 MHz ≤ Offset <10 MHz
-13 dBm/1 MHz
10 MHz ≤ Offsets
-15 dBm/1 MHz
For BC2 with adjacent GSM/EDGE or E-UTRA 1.4 and 3 MHz carriers:
Offset < 0.05 MHz
2 dBm/30kHz to
5 dBm/30 kHz
0.05 MHz ≤ Offset
-14 dBm/30kHz to
2 dBm/30 kHz
1.5 dB
1.5 dB
0 dB
1.5 dB
1.5 dB
Formula: Minimum requirement + TT
-12.5 dBm/30kHz to
-24.5 dBm/30kHz
-11.5 dBm/1 MHz
-15 dBm/1 MHz
3.5 dBm/30kHz to
6.5 dBm/30 kHz
-12.5 dBm/30kHz to
3.5 dBm/30 kHz
6.6.3 Occupied bandwidth
BWChannel for E-UTRA
5 MHz for UTRA FDD
1.6 MHz for UTRA TDD
0 kHz
Formula: Minimum Requirement + TT
6.7 Transmitter intermodulation
(interferer requirements)
This tolerance applies to the stimulus and not the measurements defined in 6.6.1, 6.6.2 and 6.6.4.
Wanted signal level - interferer level = 30 dB
0 dB
Formula: Ratio + TT
Wanted signal level - interferer level = 30 + 0 dB
C.2 Measurement of receiver
Table C.2-1: Derivation of test requirements (Receiver tests)
Test
Minimum Requirement in TS 37.104
Test Tolerance
(TT)
Test Requirement
7.4.5.1 In-band selectivity and blocking, General blocking requirement
Wanted Signal mean power = PREFSENS + x dB, where x is equal to 6 in case of E-UTRA or UTRA and equal to 3 in case of GSM/EDGE.
Interferer signal mean power:
-40 dBm.
0 dB
Formula: Wanted signal power + TT.
Interferer signal power unchanged.
7.4.5.2 In-band selectivity and blocking, General narrowband blocking requirement
Wanted Signal mean power = PREFSENS + x dB, where x is equal to 6 in case of E-UTRA or UTRA and equal to 3 in case of GSM/EDGE.
Interferer signal mean power:
-49 dBm.
0 dB
Formula: Wanted signal power + TT.
Interferer signal power unchanged.
7.4.5.5 In-band selectivity and blocking, Additional BC3 requirement
Wanted Signal mean power = PREFSENS + x dB, where x is equal to 6 in case of E-UTRA or UTRA.
Interferer signal mean power:
-40 dBm.
0 dB
Formula: Wanted signal power + TT.
Interferer signal power unchanged.
7.5.5.1 Out-of-band blocking, General requirement
Wanted Signal mean power = PREFSENS + x dB, where x is equal to 6 in case of E-UTRA or UTRA and equal to 3 in case of GSM/EDGE.
Interferer signal mean power:
-15 dBm.
0 dB
Formula: Wanted signal power + TT.
Interferer signal power unchanged.
7.5.5.2 Out-of-band blocking, Co-location
Wanted Signal mean power = PREFSENS + x dB, where x is equal to 6 in case of E-UTRA or UTRA and equal to 3 in case of GSM/EDGE.
Interferer signal mean power:
+16 dBm.
0 dB
Formula: Wanted signal power + TT.
Interferer signal power unchanged.
7.6.5 Receiver spurious emissions
Maximum level defined in Tables 7.6.5.1-1 and 7.6.5.2-1 of TS 37.104 [2].
0 dB
Formula: Maximum level + TT
7.7.5.1 Receiver intermodulation, General requirement
Wanted Signal mean power = PREFSENS + x dB, where x is equal to 6 in case of E-UTRA or UTRA and equal to 3 in case of GSM/EDGE.
Interferer signal mean power:
-48 dBm.
0 dB
Formula: Wanted signal mean power + TT.
CW interferer signal power unchanged.
Modulated interferer signal power unchanged.
7.7.5.2 Receiver intermodulation, General narrowband requirement
Wanted Signal mean power = PREFSENS + x dB, where x is equal to 6 in case of E-UTRA or UTRA and equal to 3 in case of GSM/EDGE.
Interferer signal mean power:
-52 dBm.
0 dB
Formula: Wanted signal mean power + TT.
CW interferer signal power unchanged.
Modulated interferer signal power unchanged.
Annex D (informative):
Measurement system set-up
Example of measurement system set-ups are attached below as an informative annex.
D.1 Transmitter
D.1.1 Base station output power, transmitter ON/OFF power, modulation quality, transmitter spurious emissions and operating band unwanted emissions
EMBED PowerPoint.Show.8
Figure D.1-1: Measuring system set-up for base station output power, transmitter ON/OFF power, modulation quality, transmitter spurious emissions and operating band unwanted emissions
D.1.2 Transmitter intermodulation
EMBED PowerPoint.Show.8
Figure D.1-2: Measuring system set-up for transmitter intermodulation
D.2 Receiver
D.2.1 Blocking characteristics
EMBED PowerPoint.Show.8
Figure D.2-1: Measuring system set-up for blocking characteristics
D.2.2 Receiver spurious emissions
EMBED PowerPoint.Show.8
Figure D.2-2: Measuring system set-up for receiver spurious emissions
D.2.3 Receiver intermodulation
EMBED PowerPoint.Show.8
Figure D.2-3: Measuring system set-up for receiver intermodulation
Annex E (normative):
E-UTRA Test model for BC3 CS3 BS
E.0 BC3 CS3 Test model description
The set-up of physical channels for E-UTRA TDD in part of BC3 CS3 BS transmitter tests shall be according to the applicable test models shown below. A detailed reference to the applicable test model is made in subclause 4.9.2.
The parameters in 36.141 subclause 6.1.1 shall be reused by the test models in E.1 to E.6 with the following exceptions,
Duration is 30 subframes (30ms), e.g. number of frames for the test model is 3.
Uplink/downlink configuration 1 and special subframe configuration 7 shall be used as shown in talbe E-1.
Table E-1: Configurations
Downlink-to-Uplink
Switch-point periodicity
Number of UL/DL sub-frames per half frame (10 ms)
DwPTS
GP
UpPTS
DL
UL
5ms
2
2
EMBED Equation.3
EMBED Equation.3
EMBED Equation.3
The test models in E.1 to E.6 shall be constructed based on the corresponding test model in 36.141 along with the principles on data mapping between the test models in E.1 to E.6 and the test models in 36.141 Subclause 6.1.1.1 to 6.1.1.6 as shown in Table E-2.
Table E-2: Numbers ( EMBED Equation.3 ) of the boosted PRBs
Frame1
Subframe 0
Subframe 1
Subframe 4
Subframe 5
Subframe 6
Subframe 9
Note
NOTE 1
NOTE 1
NOTE 2
NOTE 1
NOTE 3
NOTE 1
Frame2
Subframe 0
Subframe 1
Subframe 4
Subframe 5
Subframe 6
Subframe 9
Note
NOTE 1
NOTE 1
NOTE 4
NOTE 1
NOTE 3
NOTE 1
Frame3
Subframe 0
Subframe 1
Subframe 4
Subframe 5
Subframe 6
Subframe 9
Note
NOTE 5
NOTE 3
NOTE 6
NOTE 7
NOTE 3
NOTE 8
NOTE 1: The data in this subframe shall re-use the same data as specified in the corresponding subframe of the corresponding test models in 36.141 subclause 6.1.1.
NOTE 2: The data in this subframe shall re-use the same data as specifiedin subframe 7 of Frame 1 in the corresponding test model in 36.141 subclause 6.1.1.
NOTE 3: The data in this subframe shall re-use the same data as specified in subframe 1 of Frame 1 in the corresponding test model in 36.141 subclause 6.1.1.
NOTE 4: The data in this subframe shall re-use the same data as specifiedin subframe 8 of Frame 1 in the corresponding test model in 36.141 subclause 6.1.1.
NOTE 5: The data in this subframe shall re-use the same data as specifiedin subframe 7 of Frame 2 in the corresponding test model in 36.141 subclause 6.1.1.
NOTE 6: The data in this subframe shall re-use the same data as specified in subframe 8 of Frame 2 in the corresponding test model in 36.141 subclause 6.1.1.
NOTE 7: The data in this subframe shall re-use the same data as specified in subframe 6 of Frame 1 in the corresponding test model in 36.141 subclause 6.1.1.
NOTE 8: The data in this subframe shall re-use the same data as specified in subframe 6 of Frame 2 in the corresponding test model in 36.141 subclause 6.1.1.
E.1 E-UTRA Test Model 1.1 (E-TM1.1_BC3CS3)
This test model shall be constructed based on E-TM 1.1 in 36.141 subclause 6.1.1.1 according to the data mapping principals elaborated in Table E-2.
E.2 E-UTRA Test Model 1.2 (E-TM1.2_BC3CS3)
This test model shall be constructed based on E-TM 1.2 in 36.141 subclause 6.1.1.2 according to the data mapping principles elaborated in Talbe E-2.
E.3 E-UTRA Test Model 2 (E-TM2_BC3CS3)
This test model shall be constructed based on E-TM 2 in 36.141 subclause 6.1.1.3 according to the data mapping principles elaborated in Talbe E-2.
E.4 E-UTRA Test Model 3.1 (E-TM3.1_BC3CS3)
This test model shall be constructed based on E-TM 3.1 in 36.141 subclause 6.1.1.4 according to the data mapping principles elaborated in Talbe E-2.
E.5 E-UTRA Test Model 3.2 (E-TM3.2_BC3CS3)
This test model shall be constructed based on E-TM 3.2 in 36.141 subclause 6.1.1.5 according to the data mapping principles elaborated in Talbe E-2.
E.6 E-UTRA Test Model 3.3 (E-TM3.3_BC3CS3)
This test model shall be constructed based on E-TM 3.3 in 36.141 subclause 6.1.1.6 according to the data mapping principles elaborated in Talbe E-2.
Annex F (informative):
Change history
Change history
DateTSG #TSG Doc.CRRevSubject/CommentOldNew2009-10R4#52bisR4-093772Specification skeleton created from 3GPP TS template0.0.12009-11R4#53R4-094778Agreed Text Proposals in RAN4#53:
R4-094507, "TP for TS 37.141 clause 2 and 3."
R4-094805, "TP for TS 37.141 clause 4.11; BS Configurations. "
R4-094871, "TP for TS 37.141 clause 4.1, 4.2, 4.3, 4.4 and 4.5."
R4-094872, "TP for TS 37.141 Annex C; Test Tolerances and derivation of test requirements. "0.0.10.1.02010-02R4#54R4-100579Agreed Text Proposals in RAN4 AH#1:
R4-100026, "TP for TS37.141: Format and interpretation of tests"
R4-100028, "TP for TS37.141: Selection of configurations for testing"
R4-100241, "TP for TS 37.141 clause 2, 3 and 4."0.1.00.2.02010-02R4#54R4-100975Agreed Text Proposals in RAN4#54:
R4-100405, "TP for TS37.141: Manufacturers declarations of regional and optional requirements"
R4-100863, "TP Manufacturers declaration of supported RF configurations for section 4.7"
R4-100986, "TP for TS 37.141 clause 6.6.1; Transmitter spurious emissions"
R4-101036, "TP MSR test configurations for section 4.8"0.2.00.3.02010-04R4#55R4-101576Agreed Text Proposals in RAN4 AH#2 and E-mail approved Text Proposals after RAN4 AH#2:
R4-101186, "TP for TS 37.141 clause 6.6.4; Adjacent Channel Leakage power Ratio (ACLR)"
R4-101207, "TP for manufacturers declaration, subclause 4.7.2"
R4-101208, "TP TDD test configurations, subclause 4.8"
R4-101510, "TP for requirements and test configuration applicability, subclause 5.1"
R4-101511, "TP for requirements and test configuration applicability, subclause 5.2"
R4-101512, "TP for capability set, subclause 4.7.1"
R4-101514, "TP for update of Transmitter spurious emissions test in TS 37.141"
R4-101515, "TP for TS 37.141 clause 6.7; Transmitter intermodulation"
R4-101520, "Text proposal for 37.141 on B, M and T channels definition"
R4-101521, "TP for TS 37.141, clause 7.2 MSR Receiver reference sensitivity level"
R4-101522, "TP for TS 37.141 clause 7.3; Dynamic range"
R4-101523, "TP for TS 37.141 clause 6.6.2;Operating band unwanted emissions"
R4-101524, "TP for TS 37.141, clause 7.4 MSR Receiver in-band selectivity and blocking"
R4-101525, "TP for TS 37.141, clause 7.5 MSR Receiver out-of-band-blocking"
R4-101526, "TP for TS 37.141, clause 7.6 MSR Receiver spurious emissions"
R4-101527, "TP for TS 37.141, clause 7.7 MSR Receiver intermodulation"
R4-101528, "TP for TS 37.141, clause 7.8 MSR Receiver in-channel selectivity"
R4-101542, "TP for TS 37.141 clause 6.6.3: Occupied bandwidth"0.3.00.4.02010-05R4#55R4-102216Agreed Text Proposals in RAN4#54:
R4-101882, "TP for TS 37.141; Transmitter Test uncertainties"
R4-101884, "TP for TS 37.141; clause 4.4 Operating band update"
R4-101885, "TP for TS 37.141; Adding missing text in subclause 4.11.5 and 4.11.7"
R4-102058, "Corrections for subclause 4.1"
R4-102059, "Corrections for Annex C"
R4-102060, "Corrections for subclauses 4.9, 4.10"
R4-102061, "Corrections for subclauses 4.11, 4.12"
R4-102062, "Corrections for subclause 5"
R4-102086, "Corrections to clause 7.1"
R4-102087, "Corrections to clause 7.2"
R4-102088, "Corrections to clause 7.3"
R4-102093, "Corrections to clause 7.8"
R4-102096, "TS 37.141: TP for Co-existence with services in adjacent frequency bands"
R4-102129, "Spurious emissions limits and blocking requirements for coexistence with CDMA850"
R4-102173, "TP for TS 37.141; clause 4.3 Regional Requirements"
R4-102245, "TP for TS 37.141 clause 6.5.3; Time alignment between transmitter branches"
R4-102249, "Corrections to clause 7.4"
R4-102250, "Corrections to clause 7.5"
R4-102251, "Corrections to clause 7.6"
R4-102252, "Corrections to clause 7.7"
R4-102273, "TP for TS 37.141; Clause 6.2 BS output power"
R4-102274, "TP for Clause 4.9.2"
R4-102275, "Corrections for subclause 6.6.1"
R4-102276, "Corrections for subclause 6.6.2"
R4-102277, "Corrections for subclause 6.6.3"
R4-102278, "Corrections for subclause 6.6.4"
R4-102282, "Corrections for subclause 4.8"
R4-102279, "TP for TS 37.141; Clause 6.7 Tx IM clarification"0.4.00.5.02010-06RP#48RP-100580Presentation to TSG RAN plenary.0.5.01.0.02010-06RP#48RP-100580Approved by TSG RAN plenary.1.0.09.0.02010-09RP-49RP-1009230021Clarifications on Base Station tranmsit and receive configurations9.0.09.1.02010-09RP-49RP-1009230032Annex B: Environmental conditions9.0.09.1.02010-09RP-49RP-100923006 Adding transmitter test tolerances9.0.09.1.02010-09RP-49RP-100923008 Adding test System Uncertainty for transmitter spurious emission tests 9.0.09.1.02010-09RP-49RP-1009230091Correction of the Ancillary RF Amplifiers references and references to Annex A, B and D9.0.09.1.02010-09RP-49RP-100923010 Update of the Transmitter characteristics General subclause9.0.09.1.02010-09RP-49RP-1009230131Adding Modulation quality and Frequency error test cases9.0.09.1.02010-09RP-49RP-100923014 Correction of the NOTEs in the transmitter intermodulation procedure9.0.09.1.02010-09RP-49RP-100923015 Characteristics of interfering signals9.0.09.1.02010-09RP-49RP-1009230211Test configuration and power allocation completion9.0.09.1.02010-09RP-49RP-100923023 TS 37.141 Clause 6.3; Output power dynamics9.0.09.1.02010-09RP-49RP-100923024 General corrections for the MSR test specification9.0.09.1.02010-09RP-49RP-100923025 Maximum Test system Uncertainty for Occupied bandwidth and Transmitter intermodulation9.0.09.1.02010-09RP-49RP-1009230261Adding test tolerances and test system uncertainty for receiver spurious emissions tests 9.0.09.1.02010-09RP-49RP-1009230271Measurement set-ups for transmitter and receiver tests9.0.09.1.02010-09RP-49RP-100923028 Modification on testing of time mask of BC3 base station9.0.09.1.02010-12RP-50RP-101345035 Band XII/12 frequency range9.1.09.2.02010-12RP-50RP-101346031 Adding missing Test System Uncertainty for the receiver tests9.1.09.2.02010-12RP-50RP-101346033 TS 37.141 Subclause 7.7; Receiver intermodulation9.1.09.2.02011-04RP-51RP-1103440381Receiver intermodulation reference correction9.2.09.3.02011-06RP-52RP-110794052 Modifications to Band 3 to allow LTE Band 3 operation in Japan (Rel-9 TS37.141 CR)9.3.09.4.02011-06RP-52RP-110794057 Correction of RX spurious emissions for non-GSM/EDGE configurations9.3.09.4.02011-06RP-52RP-1107940721Correction for TS 37.1419.3.09.4.02011-06RP-52RP-1107940591General corrections for TS 37.1419.3.09.4.02011-06RP-52RP-1107940702Correction on Modulation Quality Testing in TS 37.1419.3.09.4.02011-06RP-52RP-1107940642Revision of Time Alignment Error definition9.3.09.4.02011-06RP-52RP-1107940671Correction on MSR Test Configuration (Rel-9)9.3.09.4.02011-09RP-53RP-111252075 Correction of receiver conformance testing9.4.09.5.02011-09RP-53RP-111252082 Correction on TR 37.141 sub-clause 6.6.2.59.4.09.5.02011-12RP-54RP-11168309112C test case for MSR9.5.09.6.02011-12RP-54RP-1116830951Alignment of TC carrier position with channel raster in TS 37.141 (Rel-9)9.5.09.6.02012-03RP-55RP-120294100 TX IM applicability correction9.6.09.7.02012-03RP-55RP-120294103 Correction for TS 37.1419.6.09.7.02012-06RP-56RP-120770112Correct maximum test system uncertainty for transmit ON/OFF power9.7.09.8.02012-06RP-56RP-120771122Transmitter intermodulation applicability clarification for single-RAT specifications9.7.09.8.02012-12RP-58RP-1218571561Modification to increase GSM Carrier Power in MSR BS for Band Category 29.8.09.9.02012-12RP-58RP-121857160Correction to additional BS spurious emissions limits for BC29.8.09.9.02012-12RP-58RP-121859163Correction of PHS protection requirement9.8.09.9.02012-12Editorial Correction9.9.09.9.12013-06RP-60RP-130763191 Correcting Time alignment between transmitter branches title in section 5 in TS37.1419.9.19.10.02013-06RP-60RP-130763199 channel raster9.9.19.10.02013-09Editorial correction of the release in the change history table9.10.09.10.22013-09RP-61RP-131280204 Correction on reference number9.10.29.11.02013-09RP-61RP-1312802091UEM requirement in BC2 for lower BS output power9.10.29.11.003-2014RP-63RP-1403672701Differential accuracy of Primary CCPCH power9.11.09.12.003-2014RP-63RP-1403672661Test models for BC3 BS9.11.09.12.0Correction to cover page9.12.09.12.1Correction to history box9.12.19.12.212-2014RP-66RP-142143352 Modification on BC3 MSR BS test model9.12.29.13.0
STYLEREF ZA 3GPP TS 37.141 V9.13.0 (2014-12)
PAGE 94
STYLEREF ZGSM Release 9
3GPP
Splitting network
Base Station
Rx antenna interface
Test input port
Ps
Pi
Ps = sum(Pi), where Ps is the required input power specified
Combining network
Base Station
Tx antenna interface
Test output port
Ps
Pi
Ps = sum(Pi), where Ps is the required output power specified
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Technical Details
AI Classification
Category: 7. Testování a interoperabilita
Subcategory: 7.1 Conformance Testing
Function: Test specification
Relevance: 7/10
Version Information
Release: Rel-9
Version: 9d0
Series: 37_series
Published: 2014-12
Document Info
Type: Technical Specification
TSG: Radio Access Network;
WGs:
RANRAN4
Keywords & Refs
Keywords:
UMTSLTERRCWCDMA+1
Refs: 11 references
Partners
Contributors:
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