3900 Series Base Station Technical Description(V100R010C10_07)(PDF)-En

3900 Series Base Station V100R010C10

Technical Description Issue

07

Date

2016-04-29

HUAWEI TECHNOLOGIES CO., LTD.

Copyright © Huawei Technologies Co., Ltd. 2016. All rights reserved. No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.

Trademarks and Permissions and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other trademarks and trade names mentioned in this document are the property of their respective holders.

Notice The purchased products, services and features are stipulated by the contract made between Huawei and the customer. All or part of the products, services and features described in this document may not be within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information, and recommendations in this document are provided "AS IS" without warranties, guarantees or representations of any kind, either express or implied. The information in this document is subject to change without notice. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute a warranty of any kind, express or implied.

Huawei Technologies Co., Ltd. Address:

Huawei Industrial Base Bantian, Longgang Shenzhen 518129 People's Republic of China

Website:

http://www.huawei.com

Email:

[email protected]

Issue 07 (2016-04-29)

Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.

i

3900 Series Base Station Technical Description

About This Document

About This Document Huawei 3900 series base stations adopt a uniform modular design for multiple radio network systems. These base stations support the co-existence of devices serving different modes at the same site, sharing of base station resources, and unified operation and maintenance. With these merits, operators' requirements of evolution to multimode base stations become possible. This document describes the network architecture, logical structure, physical devices, product specifications, and reliability of 3900 series base stations. NOTE

l 3900 series base stations described in this document do not include the LampSite. For technical descriptions about the LampSite, see LampSite Technical Description. l If eNodeB is used rather than eNodeB FDD or eNodeB TDD in this document, the eNodeB can be an eNodeB FDD or an eNodeB TDD. If LTE is used rather than LTE FDD or LTE TDD in this document, the LTE mode can be the LTE FDD mode or LTE TDD mode. l In this document, G is short for GSM, U is short for UMTS, L is short for LTE FDD and T is short for LTE TDD.

Product Version The following table lists the product versions related to this document. Product Name

Solution Version

Product Version

BTS3900

l l l l

V100R010C10

BTS3900A BTS3900L

SRAN10.1 GBSS17.1 RAN17.1 eRAN8.1

BTS3900AL DBS3900

l SRAN10.1 l GBSS17.1 l RAN17.1 l eRAN8.1 l eRAN TDD 8.1

BTS3900C

l SRAN10.1 l RAN17.1

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About This Document

This document is intended for: l

Network planning engineers

l

Field engineers

l

System engineers

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Contents

Contents About This Document.....................................................................................................................ii 1 Changes in the 3900 Series Base Station Technical Description..........................................1 2 Network Architecture................................................................................................................. 12 2.1 BTS in the RAN Physical Layer...................................................................................................................................13 2.2 BTS in the RAN Logical Layer.................................................................................................................................... 14 2.3 Mapping of a BTS in the RAN Physical Layer and RAN Logical Layer.................................................................... 16

3 Logical Structure.......................................................................................................................... 18 3.1 BTS Subsystems........................................................................................................................................................... 19 3.2 BTS Functional Structure............................................................................................................................................. 20 3.3 Deployment of 3900 Series Base Stations....................................................................................................................21 3.3.1 Co-MPT Base Stations.............................................................................................................................................. 21 3.3.2 Separate-MPT Base Stations..................................................................................................................................... 22 3.3.3 Different Functions with Different Deployment Methods........................................................................................ 25

4 Operation and Maintenance......................................................................................................27 5 Physical Devices.......................................................................................................................... 34 5.1 Cabinets........................................................................................................................................................................ 35 5.2 BBU.............................................................................................................................................................................. 36 5.3 RF Module.................................................................................................................................................................... 36 5.3.1 RFU........................................................................................................................................................................... 37 5.3.2 RRU........................................................................................................................................................................... 38 5.3.3 AAU...........................................................................................................................................................................42

6 Product Specifications................................................................................................................ 44 6.1 Technical Specifications of the BBU3900s and BBU3910s.........................................................................................46 6.1.1 Technical Specifications of the GBTS and eGBTS...................................................................................................46 6.1.2 Technical Specifications of the NodeB......................................................................................................................49 6.1.3 Technical Specifications of the eNodeB FDD...........................................................................................................58 6.1.4 Technical Specifications of the eNodeB TDD...........................................................................................................74 6.1.5 Technical Specifications of the Multimode Base Station.......................................................................................... 96 6.1.6 BBU3900 and BBU3910 Engineering Specifications.............................................................................................107 6.2 Technical Specifications of the BBU3910A...............................................................................................................109 6.3 Technical Specifications of RFUs.............................................................................................................................. 123 Issue 07 (2016-04-29)


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Contents

6.3.1 DRFU Technical Specifications.............................................................................................................................. 123 6.3.2 GRFU Technical Specifications.............................................................................................................................. 126 6.3.3 WRFU Technical Specifications..............................................................................................................................129 6.3.4 WRFUa Technical Specifications............................................................................................................................134 6.3.5 WRFUd Technical Specifications............................................................................................................................138 6.3.6 WRFUe Technical Specifications............................................................................................................................142 6.3.7 CRFUd Technical Specifications.............................................................................................................................147 6.3.8 CRFUe Technical Specifications.............................................................................................................................152 6.3.9 LRFU Technical Specifications...............................................................................................................................155 6.3.10 LRFUe Technical Specifications........................................................................................................................... 158 6.3.11 MRFU Technical Specifications............................................................................................................................ 162 6.3.12 MRFUc Technical Specifications.......................................................................................................................... 170 6.3.13 MRFUd Technical Specifications..........................................................................................................................174 6.3.14 MRFUe Technical Specifications.......................................................................................................................... 179 6.4 Technical Specifications of RRUs.............................................................................................................................. 183 6.4.1 RRU3004 Technical Specifications.........................................................................................................................183 6.4.2 RRU3008 Technical Specifications.........................................................................................................................187 6.4.3 RRU3801E Technical Specifications...................................................................................................................... 192 6.4.4 RRU3804 Technical Specifications.........................................................................................................................197 6.4.5 RRU3805 Technical Specifications.........................................................................................................................203 6.4.6 RRU3806 Technical Specifications.........................................................................................................................207 6.4.7 RRU3808 Technical Specifications.........................................................................................................................212 6.4.8 RRU3821E Technical Specifications...................................................................................................................... 221 6.4.9 RRU3824 Technical Specifications.........................................................................................................................226 6.4.10 RRU3826 Technical Specifications.......................................................................................................................232 6.4.11 RRU3828 Technical Specifications....................................................................................................................... 238 6.4.12 RRU3829 Technical Specifications.......................................................................................................................245 6.4.13 RRU3832 Technical Specifications.......................................................................................................................251 6.4.14 RRU3838 Technical Specifications.......................................................................................................................258 6.4.15 RRU3839 Technical Specifications.......................................................................................................................265 6.4.16 RRU3201 Technical Specifications.......................................................................................................................272 6.4.17 RRU3203 Technical Specifications.......................................................................................................................278 6.4.18 RRU3220 Technical Specifications.......................................................................................................................284 6.4.19 RRU3220E Technical Specifications.................................................................................................................... 290 6.4.20 RRU3221 Technical Specifications.......................................................................................................................297 6.4.21 RRU3222 Technical Specifications.......................................................................................................................303 6.4.22 RRU3229 Technical Specifications.......................................................................................................................308 6.4.23 RRU3230E Technical Specifications.................................................................................................................... 314 6.4.24 RRU3240 Technical Specifications.......................................................................................................................320 6.4.25 RRU3249 Technical Specifications.......................................................................................................................326 6.4.26 RRU3260 Technical Specifications.......................................................................................................................332 6.4.27 RRU3262 Technical Specifications.......................................................................................................................339 Issue 07 (2016-04-29)


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Contents

6.4.28 RRU3268 Technical Specifications.......................................................................................................................345 6.4.29 RRU3269 Technical Specifications.......................................................................................................................352 6.4.30 RRU3281 Technical Specifications.......................................................................................................................358 6.4.31 RRU3668 Technical Specifications.......................................................................................................................366 6.4.32 RRU3841 Technical Specifications.......................................................................................................................369 6.4.33 RRU3908 Technical Specifications ......................................................................................................................376 6.4.34 RRU3926 Technical Specifications.......................................................................................................................385 6.4.35 RRU3928 Technical Specifications.......................................................................................................................392 6.4.36 RRU3929 Technical Specifications.......................................................................................................................398 6.4.37 RRU3930E Technical Specifications.................................................................................................................... 404 6.4.38 RRU3936 Technical Specifications.......................................................................................................................412 6.4.39 RRU3938 Technical Specifications.......................................................................................................................420 6.4.40 RRU3939 Technical Specifications.......................................................................................................................428 6.4.41 RRU3942 Technical Specifications.......................................................................................................................434 6.4.42 RRU3952 Technical Specifications.......................................................................................................................440 6.4.43 RRU3953/RRU3953w Technical Specifications...................................................................................................446 6.4.44 RRU3958 Technical Specifications.......................................................................................................................453 6.4.45 RRU3959/RRU3959w Technical Specifications...................................................................................................459 6.4.46 RRU3961 Technical Specifications.......................................................................................................................469 6.4.47 RRU3971 Technical Specifications.......................................................................................................................476 6.4.48 RRU3952m Technical Specifications....................................................................................................................481 6.4.49 RRU3168 Technical Specifications.......................................................................................................................488 6.4.50 RRU3232 Technical Specifications.......................................................................................................................491 6.4.51 RRU3236E Technical Specifications.................................................................................................................... 496 6.4.52 RRU3251 Technical Specifications.......................................................................................................................500 6.4.53 RRU3252 Technical Specifications.......................................................................................................................504 6.4.54 RRU3253 Technical Specifications.......................................................................................................................508 6.4.55 RRU3256 Technical Specifications.......................................................................................................................512 6.4.56 RRU3259 Technical Specifications.......................................................................................................................516 6.4.57 RRU3276 Technical Specifications.......................................................................................................................519 6.4.58 RRU3278 Technical Specifications.......................................................................................................................523 6.4.59 RRU3279 Technical Specifications.......................................................................................................................527 6.5 Technical Specifications of AAUs..............................................................................................................................530 6.5.1 AAU3902 Technical Specifications........................................................................................................................ 531 6.5.2 AAU3910 Technical Specifications........................................................................................................................ 540 6.5.3 AAU3911 Technical Specifications.........................................................................................................................553 6.5.4 AAU3920 Technical Specifications........................................................................................................................ 567 6.5.5 AAU3940 Technical Specifications........................................................................................................................ 575 6.5.6 AAU3961 Technical Specifications........................................................................................................................ 582 6.6 Engineering Specifications of Cabinets......................................................................................................................590 6.6.1 BTS3900 Engineering Specifications......................................................................................................................590 6.6.2 BTS3900L Engineering Specifications................................................................................................................... 596 Issue 07 (2016-04-29)


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Contents

6.6.3 BTS3900A Engineering Specifications...................................................................................................................601 6.6.4 BTS3900AL Engineering Specifications................................................................................................................ 607 6.6.5 DBS3900 Engineering Specifications..................................................................................................................... 612 6.6.6 BTS3900C Engineering Specifications................................................................................................................... 616 6.7 Typical Power Configuration Reference for RF Modules..........................................................................................621 6.7.1 Principles for Configuring Power of RF Modules...................................................................................................621 6.7.2 Typical Power Configurations for RFUs................................................................................................................. 623 6.7.3 Typical Power Configurations for RRUs.................................................................................................................686 6.7.4 Typical Power Configuration for AAU................................................................................................................. 1024 6.7.5 Configuring Power Supported by RF Modules..................................................................................................... 1087

7 Reliability..................................................................................................................................1092

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1 Changes in the 3900 Series Base Station Technical Description


1

Changes in the 3900 Series Base Station Technical Description This section describes changes in 3900 Series Base Station Technical Description of each version.

07 (2016-04-29) This is Issue 07. Compared with Issue 06 (2015-12-30), this issue includes the following new topics: l

6.5.6 AAU3961 Technical Specifications

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6.4.51 RRU3236E Technical Specifications

l

6.4.58 RRU3278 Technical Specifications

l

Typical Power Configuration for AAU3961

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Typical Power Configuration for RRU3236E

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Typical Power Configuration for an RRU3278

Compared with Issue 06 (2015-12-30), this issue includes the following changes.

Issue 07 (2016-04-29)

Topic

Change Description

6.1.1 Technical Specifications of the GBTS and eGBTS

Modified the capacity specifications.


Added specifications of the AAU3940 (AWS to PCS).


Added the power configuration of the AAU3940 (AWS to PCS).

6.4.26 RRU3260 Technical Specifications, 6.4.28 RRU3268 Technical Specifications

Modified CPRI port specifications.


Modified equipment specifications.


Modified the IBW and OBW.


1



Topic

Change Description

Typical Power Configuration for RRU3839

Modified the power configuration of the RRU3839.


Modified the typical power configuration of RRU3938 PAs (GL MSR, 900 MHz/1800 MHz).

Compared with Issue 06 (2015-12-30), this issue does not exclude any topics.



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l


l


l


l


l


l

Typical Power Configuration for an RRU3276


Issue 07 (2016-04-29)

Topic

Change Description

6.1.3 Technical Specifications of the eNodeB FDD and 6.1.4 Technical Specifications of the eNodeB TDD

Deleted the formulas for calculating signaling specifications.

6.3.11 MRFU Technical Specifications

Added the specifications of the MRFU V6 working in the 900 MHz frequency band.

Typical Power Configuration for MRFU V6

Added the typical power configuration of the MRFU V6 working in the 900 MHz frequency band.

6.5 Technical Specifications of AAUs

Added the pattern samples of an AAU for reference.


Added the following configuration scenarios: 1800 A (4T4R 4x40W) + 2100/2600 P (4 Ports).


Added the typical power configuration of the RU3971.


2



Topic

Change Description


Modified the gain of the antenna in lower frequency band.


Added the power specifications of the AAU3940 (DC). Other specifications are the same as those of the AAU3940 (AC).



6.3.12 MRFUc Technical Specifications

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l


l

Typical Power Configuration for MRFUc

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l


l

Typical Power Configuration for MRFU V6

Compared with Issue 04 (2015-08-30), this issue includes the following changes. Topic

Change Description

6.1.1 Technical Specifications of the GBTS and eGBTS

l Capacity Specifications: Added configuration scenarios of the GTMUc board. l CPRI Specifications: Added the CPRI specifications of the GTMUc board.

6.1.4 Technical Specifications of the eNodeB TDD

l Modified the maximum number of cells per BBU. l Modified the maximum number of UEs in RRC Connected Mode supported by a UBBPd9.

Issue 07 (2016-04-29)


Added the specifications of the MRFU V6 working in the 1800 MHz frequency band.


Added the specifications of the RRU3832 working in the AWS-3 frequency band.


Added the typical power configuration of the RRU3832 working in the AWS-3 frequency band.


3



Topic

Change Description

6.4.48 RRU3952m Technical Specifications

Added the specifications of the RRU3952m (2100 MHz) working in LTE mode.

Typical Power Configuration of the RRU3952m

Added the typical power configuration of the RRU3952m (2100 MHz) working in LTE mode.

6.4.43 RRU3953/RRU3953w Technical Specifications

Added the specifications of the RRU3953 working in the 900 MHz frequency band.

Typical Power Configuration for RRU3953/RRU3953w

Added the typical power configuration of the RRU3953 working in the 900 MHz frequency band.


Added the specifications of the RRU3959 working in the 2100 MHz frequency band.


Added the typical power configuration of the RRU3959 working in the 2100 MHz frequency band.


Modified the typical power configurations of RRU3252 PAs.

6.5 Technical Specifications of AAUs

Added the IBW specifications of an AAU.

6.5.2 AAU3910 Technical Specifications, Typical Power Configuration for AAU3910

Modified the technical specifications and power configurations of the AAU3910.

6.6.3 BTS3900A Engineering Specifications

l Added the specifications of the BTS3900A (Ver.E) cabinet. l Optimized the description of the cabinet heat dissipation capability.

6.6.4 BTS3900AL Engineering Specifications and 6.6.6 BTS3900C Engineering Specifications

Optimized the description of the cabinet heat dissipation capability.


04 (2015-08-30) This is the fourth commercial release. Compared with Issue 03 (2015-06-30), this issue includes the following new topics: l


l

Typical Power Configuration for MRFUd V6/MRFUdw V6

l


Compared with Issue 03 (2015-06-30), this issue includes the following changes. Issue 07 (2016-04-29)


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Topic

Change Description

6.1.3 Technical Specifications of the eNodeB FDD

l Optimized descriptions in this section. l Renamed the MBB traffic model as smartphone traffic model. Renamed the WBB traffic model as datacard traffic model. l Modified the maximum number of UEs in RRC Connected mode. l Modified the formulas for calculating signaling specifications. l Added maximum numbers of VoLTE UEs and CA UEs.

6.1.4 Technical Specifications of the eNodeB TDD

Modified technical specifications of an eNodeB TDD.

6.2 Technical Specifications of the BBU3910A

Modified capacity specifications of LTE FDD and LTE TDD.

6.3.13 MRFUd Technical Specifications

Added the specifications of the MRFUd V6 and MRFUdw V6.

6.6.1 BTS3900 Engineering Specifications and 6.6.2 BTS3900L Engineering Specifications

Added biological requirements.


Modified typical output power configurations of the AAU3940.


03 (2015-06-30) This is the third commercial release. Compared with Issue 02 (2015-05-08), this issue does not include any new topics. Compared with Issue 02 (2015-05-08), this issue includes the following changes.

Issue 07 (2016-04-29)

Topic

Change Description


Modified the formulas for calculating signaling specifications.

6.1.6 BBU3900 and BBU3910 Engineering Specifications

Added the heat dissipation capability of the BBU3910 configured with a FANe board.


Modified the signaling specifications of the BBU3910A working in LTE FDD mode.


5



Topic

Change Description

6.4.49 RRU3168 Technical Specifications, 6.4.50 RRU3232 Technical Specifications, 6.4.52 RRU3251 Technical Specifications, 6.4.53 RRU3252 Technical Specifications, 6.4.54 RRU3253 Technical Specifications, 6.4.55 RRU3256 Technical Specifications, and 6.4.56 RRU3259 Technical Specifications

Added the instantaneous bandwidth (IBW) and occupied bandwidth (OBW) specifications of RRUs that can work in LTE TDD mode.


Added the specifications of the MRFUd working in the 2100 MHz frequency band.

Typical Power Configuration for MRFUd

l Modified the power configuration of the MRFUd working in GL mode. l Added the power configuration of the MRFUd working in the 2100 MHz frequency band.


Changed the description of the maximum output power of the AAU3920 to 2x80 W.

6.7.1 Principles for Configuring Power of RF Modules

Added the following description: Output Power per GSM Carrier With Dynamic Power Sharing indicates the supported maximum output power per carrier during dynamic power sharing. If this power is exceeded, the system cannot guarantee the network performance and will report ALM-28010 Carrier Configuration Error.




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Issue 07 (2016-04-29)


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Contents

Change Description


l Modified the maximum number of cells per BBU. l Added specifications of the UBBPda board. l Added restrictions on the hybrid configuration of 2R and 4R cells supported by a UBBPd board.

6.1.5 Technical Specifications of the Multimode Base Station

Added the following description of co-BBP specifications: In GL, UL, or GUL co-BBP scenarios, the UBBPd board does not support hybrid configuration of 2R and 4R LTE FDD cells.


Modified the capacity specifications of the BBU3910A working in LTE FDD mode.

6.3 Technical Specifications of RFUs and 6.4 Technical Specifications of RRUs

Added the IBW specifications of RF modules.

6.3.13 MRFUd Technical Specifications, 6.3.14 MRFUe Technical Specifications, and 6.4.49 RRU3168 Technical Specifications

Modified the CPRI data rate.


l Modified the power configuration of the RRU3953 working in GL and UL scenarios. l Added the following description: For RRU3953w, the scenario where the third-order intermodulated signal falls in the receive frequency range of a configured carrier is not supported.

Issue 07 (2016-04-29)


Added the following description: For RRU3959w, the scenario where the thirdorder intermodulated signal falls in the receive frequency range of a configured carrier is not supported.

6.4.13 RRU3832 Technical Specifications, 6.4.38 RRU3936 Technical Specifications, 6.4.39 RRU3938 Technical Specifications and 6.4.45 RRU3959/RRU3959w Technical Specifications

Modified the weight of an RRU.


Modified the receiver sensitivity of the RRU3936 when it works in LTE FDD mode and operates in the 1900 MHz frequency band.


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Contents

Change Description


Added the specifications of the RRU3952m when it works in the 2100 MHz 2T4R and 2100 MHz 2T2R+1800 MHz 2R modes.


Added the typical power configuration of the RRU3950m when it works in 2100 MHz 2T scenarios.


Added the following configuration scenarios: 2100 A (2T4R 2x60 W) + 1800 P (4 Ports) + 2600 P (4 Ports) + 700-900 P (2 Ports) and 2100 A (2T4R 2x60 W) + 1800 A (2T4R 2x60 W) + 2600 P (4 Ports) + 700-900 P (2 Ports).


Added the power configuration of the RU3952m when it works in 2100 MHz 2T scenarios.


01 (2015-03-23) This is Issue 01. Compared with Draft B (2015-02-10), this issue includes the following new topics: l


l


l


l


Compared with Draft B (2015-02-10), this issue includes the following changes. Topic

Change Description

6 Product Specifications

Modified the surge protection specifications of all hardware modules.


l Added the throughput specifications when two main control boards are configured. l Modified descriptions of signaling specifications when two main control boards are configured.

6.1.5 Technical Specifications of the Multimode Base Station

Issue 07 (2016-04-29)

Modified the signaling specifications of a co-MPT multimode base station.


8



Topic

Change Description

6.3.3 WRFU Technical Specifications ,

Modified the CPRI data rates.

6.4.4 RRU3804 Technical Specifications 6.5.3 AAU3911 Technical Specifications

Added the following configuration scenario: 1800 A (2T4R 2x60 W) + 2100 P (4 Ports) + 2600 P (4 Ports) + 700-900 P (2 Ports).


Added descriptions of power configuration for the RU3952m.

Typical Power Configuration for RRU3908 V2

Added the following description: The power capacity of the RRU3908 V2 is 2x60 W. Due to the restricted working temperature, the actual power capacity can only reach 2x40 W.


Added the following description: The 3650-3675 MHz frequency resources have been approved by FCC. As stipulated by FCC, the EIRP for the 3650-3675 MHz frequencies must be less than 1 W/MHz.

Compared with Draft B (2015-02-10), this issue does not exclude any topics.

Draft B (2015-02-10) This is Draft B. Compared with Draft A (2015-01-15), this issue does not include any new topics. Compared with Draft A (2015-01-15), this issue includes the following changes. Topic

Change Description

6.1 Technical Specifications of the BBU3900s and BBU3910s

l Adjusted the structure of the section Technical Specifications of the BBU3900s and BBU3910s. l Modified the specifications of LTE FDD and LTE TDD.

Issue 07 (2016-04-29)


Modified the specificaitons of LTE TDD.

6.5.3 AAU3911 Technical Specifications and Typical Power Configuration for AAU3911

Modified the technical specifications of the AAU3911.

6.5.4 AAU3920 Technical Specifications and Typical Power Configuration for AAU3920

Modified the technical specifications of the AAU3920.


9



Compared with Draft A (2015-01-15), this issue does not exclude any topics.

Draft A (2015-01-15) This is Draft A. Compared with Issue 07 (2014-11-15) of V100R009C00, this issue includes the following new topics: l

4 Operation and Maintenance

l


l


l


l


l


Compared with Issue 07 (2014-11-15) of V100R009C00, this issue includes the following changes. Topic

Change Description

Signaling Specifications

l Added signaling specifications of LTE TDD. l Modified signaling specifications of LTE FDD. l Modified signaling specifications of a co-MPT multimode base station.

Issue 07 (2016-04-29)

Capacity Specifications

Added capacity specifications when the GTMUb works as the main control board of the eGBTS.

3.3.2 Separate-MPT Base Stations

Added support for the eGBTS in separateMPT scenarios.

6.3.10 LRFUe Technical Specifications and Typical Power Configuration for LRFUe

Added support for the 2600 MHz frequency band.

6.3.11 MRFU Technical Specifications and Typical Power Configuration for MRFU V2/MRFU V2a

Added the LTE FDD and UL modes for the MRFU V2 working in the 850 MHz frequency band.

6.4.27 RRU3262 Technical Specifications and Typical Power Configuration for RRU3262

Added support for the 700 MHz frequency band.

6.4.43 RRU3953/RRU3953w Technical Specifications and Typical Power Configuration for RRU3953/RRU3953w

Added the 1900 MHz frequency band for the RRU3953.


10



Compared with Issue 07 (2014-11-15) of V100R009C00, this issue does not exclude any topics.

Issue 07 (2016-04-29)


11


2 Network Architecture

2

Network Architecture

About This Chapter Radio access network (RAN) consists of the RAN physical layer and RAN logical layer. l

The RAN physical layer consists of physical devices in a base station and base station controller. Base station devices communicate with base station controller devices through the transport network.

l

The RAN logical layer consists of logical functions implemented on a base station and base station controller. Base station logical functions communicate with base station controller logical functions through interface protocols.

2.1 BTS in the RAN Physical Layer The RAN physical layer consists of BTS nodes, BSC nodes, and the transport network that connects BTS and BSC nodes. 2.2 BTS in the RAN Logical Layer The RAN logical layer is classified into the GBSS, UTRAN, and E-UTRAN according to protocols used by each network. The RAN logical layer consists of logical functions implemented on base stations and base station controllers. Logical functions of base stations include GBTS Service, NodeB Service, and eNodeB Service. Logical functions of base station controllers include GBSC Service and RNC Service. GBSS is short for GSM base station system, UTRAN is short for universal terrestrial radio access network, and E-UTRAN is short for evolved universal terrestrial radio access network. 2.3 Mapping of a BTS in the RAN Physical Layer and RAN Logical Layer The logical functions of a base station are deployed on physical devices. One physical device can be deployed with one or several logical functions.

Issue 07 (2016-04-29)


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2.1 BTS in the RAN Physical Layer The RAN physical layer consists of BTS nodes, BSC nodes, and the transport network that connects BTS and BSC nodes. The following figure shows the position of BTS nodes in the RAN physical layer. Figure 2-1 BTS nodes in the RAN physical layer

UE: user equipment

BTS Node: a physical base station BSC Node: a physical base station controller

MME: mobility management entity S-GW: serving gateway

-

BTS Node: provides the infrastructure and application platform for a base station to deploy GBTS Service, NodeB Service, and eNodeB Service. BTS nodes are classified into singlemode and multi-mode base stations based on the types and quantity of services deployed. BSC Node: provides GBSC Service or RNC Service. Transport network: forwards data between BTS nodes and BSC nodes, between BTS nodes and the operation and maintenance center (OMC). Multiple modes can share one transport network or use an independent transport network. The transmission scheme supported by each mode is as follows: l

GSM: TDM and IP transmission

l

UMTS: ATM and IP transmission

l

LTE: IP transmission

For details about Abis transmission for GSM, see Abis Independent Transmission. For details about ATM transmission, see ATM Transport. For details about IP transmission, see IP Transmission. For details about the networking where multiple modes share the transport network, see Common Transmission. Issue 07 (2016-04-29)


13



NOTE

To obtain the preceding reference documents, choose 3900 Series Base Stations Product Documentation > Descriptions > Function Description.

2.2 BTS in the RAN Logical Layer The RAN logical layer is classified into the GBSS, UTRAN, and E-UTRAN according to protocols used by each network. The RAN logical layer consists of logical functions implemented on base stations and base station controllers. Logical functions of base stations include GBTS Service, NodeB Service, and eNodeB Service. Logical functions of base station controllers include GBSC Service and RNC Service. GBSS is short for GSM base station system, UTRAN is short for universal terrestrial radio access network, and E-UTRAN is short for evolved universal terrestrial radio access network.

GBTS Service in the GBSS Logical Network The GBSS logical network consists of GBTS Service and GBSC Service. The following figure shows the position of GBTS Service in the GBSS logical network. Figure 2-2 GBTS Service in the GBSS logical network

MS: mobile station

GBTS Service: services provided by GSM base stations

GBSC Service: services provided by GSM base station controllers

GBSS: GSM base station system

GBTS Service: performs logical functions of GSM base stations and is controlled by the GBSC Service. These functions are radio channel management, physical layer protocol processing, and signaling procedure processing. The GBTS Service communicates with the GBSC Service through the Abis interface and communicates with the MS through the Um interface.

GBSC Service: provides logical functions of GSM base station controllers. These functions are radio resource management, base station management, mobility management, and access control. Issue 07 (2016-04-29)


14



NodeB Service in the UTRAN Logical Network The UTRAN logical network consists of NodeB Service and RNC Service. The following figure shows the position of NodeB Service in the UTRAN logical network. Figure 2-3 NodeB Service in the UTRAN logical network

UE: user equipment

NodeB Service: services provided by WCDMA base stations

RNC Service: services provided by WCDMA base UTRAN: universal terrestrial radio access network station controllers

NodeB Service: performs logical functions of WCDMA base stations and is controlled by the RNC Service. These functions are radio channel management, physical layer protocol processing, and signaling procedure processing. The NodeB Service communicates with the RNC Service through the Iub interface and communicates with the UE through the Uu interface. RNC Service: performs logical functions of WCDMA base station controllers. These functions are radio resource management, base station management, mobility management, and access control. The RNC Service communicates with each other through the Iur interface.

eNodeB Service in the E-UTRAN Logical Network The E-UTRAN logical network consists of the eNodeB Service. The following figure shows the position of the eNodeB Service in the E-UTRAN logical network.

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Figure 2-4 eNodeB Service in the E-UTRAN logical network

UE: user equipment

eNodeB Service: services provided by LTE base stations

MME/S-GW: mobility management entity and serving gateway

E-UTRAN: evolved universal terrestrial radio access network

eNodeB Service: performs logical functions of LTE base stations. These functions are radio resource management, radio channel management, mobility management, physical layer protocol processing, signaling procedure processing, and access control. The LTE FDD single-mode, LTE TDD single-mode, and LTE FDD and LTE TDD (LT) dual-mode are supported. The eNodeB Service communicates with the MME/S-GW through the S1 interface, communicates with other eNodeB Service through the X2 interface, and communicates with the UE through the Uu interface.

2.3 Mapping of a BTS in the RAN Physical Layer and RAN Logical Layer The logical functions of a base station are deployed on physical devices. One physical device can be deployed with one or several logical functions. The following figure shows the mapping of a BTS in the RAN physical layer and RAN logical layer.

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Figure 2-5 Mapping of a BTS in the RAN physical layer and RAN logical layer

The red, green, and blue lines in the preceding figure indicate the deployment of services for each base station on each BTS node. BTS nodes are classified into single-mode and multimode base stations based on the types and quantity of deployed services. l

BTS Node 1 is deployed with GBTS services only. Therefore, BTS Node 1 is a GSMonly base station.

l

BTS Node 2 is deployed with NodeB and eNodeB services. Therefore, BTS Node 2 is a UL dual-mode base station.

l

BTS Node 3 is deployed with GBTS, NodeB, and eNodeB services. Therefore, BTS Node 3 is a GUL triple-mode base station.

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3 Logical Structure

3

Logical Structure

About This Chapter This section describes the logical structure of 3900 series base stations in terms of subsystems and functional structures. 3.1 BTS Subsystems The BTS subsystems include the control subsystem, transport subsystem, baseband subsystem, radio frequency (RF) subsystem, clock subsystem, and power and environment monitoring subsystem. 3.2 BTS Functional Structure BTS functional structure consists of BTS nodes, GBTS Service, NodeB Service, and eNodeB Service. 3.3 Deployment of 3900 Series Base Stations 3900 series base stations can be deployed as separate-MPT or co-MPT base stations.

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3 Logical Structure

3.1 BTS Subsystems The BTS subsystems include the control subsystem, transport subsystem, baseband subsystem, radio frequency (RF) subsystem, clock subsystem, and power and environment monitoring subsystem. The following figure shows the BTS subsystems. Figure 3-1 BTS subsystems

BTS CTL subsystem: BTS control BTS TRP subsystem: BTS subsystem transport subsystem BTS RF subsystem: BTS radio frequency subsystem

BTS BB subsystem: BTS baseband subsystem

BTS TAS subsystem: BTS clock BTS MPE subsystem: BTS power and subsystem environment monitoring subsystem

BTS CTL subsystem: controls and manages resources in a base station. This subsystem provides the management plane interface between the base station and the OMC, the control plane interface between the base station and other NEs, and the interface for controlling and negotiating common devices in a multimode base station. BTS TRP subsystem: forwards data between the transport network and the base station. This subsystem provides physical ports between the base station and the transport network, and the user plane interface between the base station and other NEs. BTS BB subsystem: processes uplink and downlink baseband data. The UMTS mode supports the baseband resource pool. For details, see NodeB Baseband Resource Management. Issue 07 (2016-04-29)


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3 Logical Structure

BTS RF subsystem: receives and transmits radio signals. This subsystem provides ports to connect the base station and antenna system. The baseband subsystem is connected to the RF subsystem through CPRI ports. CPRI links support the star, chain, ring, and dual-star topologies. For details, see RF Unit and Topology Management. BTS TAS subsystem: synchronizes the base station clock with external clock sources. This subsystem provides ports to connect the base station clock to external clock sources. For details about time management, see Time Management. Multiple modes can share one clock or use an independent clock. For details about the synchronization modes supported by GSM, UMTS, and LTE, see the corresponding Synchronization. For the clock synchronization mode of multimode base station common clock, see Common Clock. BTS MPE subsystem: provides power supply, dissipates heat, and monitors the environment for a base station. This subsystem provides ports to connect the base station and site devices. For details about power supply management, see Power Supply Management. For details about environment monitoring management, see Monitoring Management. NOTE

To obtain the preceding reference documents, choose 3900 Series Base Stations Product Documentation > Descriptions > Function Description.

3.2 BTS Functional Structure BTS functional structure consists of BTS nodes, GBTS Service, NodeB Service, and eNodeB Service. The following figure shows the functional structure of a BTS. Figure 3-2 BTS functional structure

BTS nodes use abstract resources and a unified interface design. In this case, software and hardware differences are shielded and each Service can be flexibly deployed on each type of resources. As a result, resources can be flexibly shared and allocated among each type of Service. Issue 07 (2016-04-29)


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3 Logical Structure

BTS Node: for details about the functions of a BTS node, see 2.1 BTS in the RAN Physical Layer. GBTS Service, NodeB Service, and eNodeB Service: for details about the functions of GBTS Service, NodeB Service, and eNodeB Service, see 2.2 BTS in the RAN Logical Layer. Itf_Platform-Service: service control interface provided by BTS nodes, including the service deployment interface, version upgrade interface, starting and restarting interface, and status monitoring interface. Itf_Node-RAT: interface provided by BTS nodes to control the common resources in a base station, including resource application, releasing, activation, and reconfiguration interfaces. Common resources in a base station include transmission resources, carrier resource, and universal resources such as SCTP links, RF TX and RX channels, and CPU progress. SCTP is short for Signaling Control Transmission Protocol.

3.3 Deployment of 3900 Series Base Stations 3900 series base stations can be deployed as separate-MPT or co-MPT base stations.

3.3.1 Co-MPT Base Stations In a co-MPT 3900 series base station, all the services are deployed on one BTS node and managed by the operation and maintenance center (OMC) through one O&M channel. The following figure shows a 3900 series base station with co-MPT. Figure 3-3 3900 series base stations with co-MPT

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3 Logical Structure

In a co-MPT base station, the BTS node manages the software and hardware platforms. Resources can be shared or used independently for each Service to achieve flexible resource scheduling and allocation. This facilitates the evolution of multimode base stations. In a co-MPT base station, different modes can be flexibly combined to implement GSM, UMTS, LTE FDD, and LTE TDD single-mode base stations, GU, GL, UL, GUL, and GULT multi-mode base stations.

NOTICE If operations that affect services are performed on the shared resources, services of modes that share these resources will be affected. These operations include parameter adjustments, resets, board additions and removals, power-off, blocking, loopbacks, offline tests, offline performance tests, and software upgrades and rollbacks.

3.3.2 Separate-MPT Base Stations In a separate-MPT 3900 series base station, services of each mode are deployed on its own BTS node and managed by the operation and maintenance center (OMC) through its own O&M channel. Figure 3-4 and Figure 3-5 show different applications of a 3900 series base station with separate-MPT. Figure 3-4 3900 series base station with separate-MPT (Application 1)

3900 GSM: 3900 series base stations deployed only with GBTS 3900 WCDMA: 3900 series base stations Service deployed only with NodeB Service 3900 LTE: 3900 series base stations deployed only with eNodeB — Service

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3 Logical Structure

Figure 3-5 3900 series base stations with separate-MPT (Application 2)

3900 eGBTS: 3900 series base stations deployed only with eGBTS Service

3900 WCDMA: 3900 series base stations deployed only with NodeB Service

3900 LTE: 3900 series base stations deployed only with LTE Service

—

In a separate-MPT base station, each mode has an independent software platform and an independent hardware platform. However, these modes can still share part of the resources, such as site devices, cabinets, the BBU, transmission resources, clocks, RF modules, and the antenna system. The more the resources are shared, the more each Service depends on each other. The less the resources are shared, the less each Service depends on each other. The BTS nodes communicate with each other through the Itf_RBS_MRI interface to negotiate how to allocate shared resources and prevent resource conflicts. In a separate-MPT base station, the four modes can be flexibly combined to implement GSM, UMTS, LTE FDD, and LTE TDD single-mode base stations, GU, GL, and UL dual-mode base stations, GUL triple-mode base stations, and GULT four-mode base stations.

Different Deployment of GBTS Service and eGBTS Service GBTS Service is deployed on a 3900 GSM and eGBTS Service is deployed on a 3900 eGBTS. The following figure shows different deployment of GBTS Service and eGBTS Service.

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3 Logical Structure

Figure 3-6 Difference between 3900 GSM and 3900 eGBTS

3900 GSM: The base stations are managed by the OMC through the OM interface on the BSC. The BSC together with the base stations under this BSC are displayed as an independent NE on the OMC interface. The base stations are not independent NEs. 3900 eGBTS: The base stations are directly managed by the OMC and function as independent NEs. The base stations now independently manage changes in product forms, hardware configuration, networking capability and specifications of RF modules. Moreover, GSM, UMTS, and LTE base stations have unified OM methods. This facilitates the evolution of multimode base stations.

Special Type of Separate-MPT 3900 Series Base Stations If UMTS and LTE services are to be deployed in a 3900 GSM base station, the following special type of separate-MPT base stations can be used to achieve high service integration through co-MPT without changing the existing base stations.

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3 Logical Structure

Figure 3-7 Special type of separate-MPT 3900 series base stations

3.3.3 Different Functions with Different Deployment Methods To meet the requirements of different application scenarios and promote the competitiveness of Huawei base station products, Huawei 3900 series base stations can provide different functions if deployed in different ways. The following table lists different functions implemented by separate-MPT and co-MPT base stations. Function

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Separate-MPT

Co-MPT (GSM, UMTS, LTE, GU, GL, UL, GUL)

3900 GSM

3900 WCDMA

3900 LTE

Multimod e (GU, GL, UL, and GUL)

Clock over IP (using Huawei proprietary protocols)

Not supported

Supported

Supported

Cannot shared

be

Supported

RGPS clock synchronization

Not supported

Not supported

Supported

Cannot shared

be

Supported

1PPS+TOD clock synchronization

Not supported

Not supported

Supported

Cannot shared

be

Supported


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3 Logical Structure

Function

Separate-MPT

E1/T1 transmission ports

CPRI topology

3900 GSM

3900 WCDMA

3900 LTE

Multimod e (GU, GL, UL, and GUL)

TDM/IP

ATM/IP

IP address

Can shared

be

NOTE The GBTS supports TDM and IP transmissio n. The eGBTS supports only IP transmissio n.

Co-MPT (GSM, UMTS, LTE, GU, GL, UL, GUL) ATM/IP NOTE The UMTS mode supports ATM and IP transmissio n. The GSM, LTE modes support only IP transmissio n.

ring

Supported

Supported

Supported

Cannot shared

be

Supported

CPRI loadsharing topology

Not supported

Not supported

Supported

Cannot shared

be

Supported

CPRI dual-star topology

Not supported

Not supported

Not supported

Can shared

be

Not supported

CPRI MUX

Not supported

Not supported

Not supported

Can shared

be

Supported

NOTE

l In the Multimode (GU, GL, UL, and GUL) column, Can be shared means that multiple modes can either share this function or not. In this case, multiple modes must cooperate with each other to implement this function. For details, see Management Method of Shared Resources. Cannot be shared means that multiple modes cannot share this function. In this case, this function can be enabled independently for each mode. l For details about the CPRI ring topology, load sharing topology, and dual-star topology, see RF Unit and Topology Management Feature Parameter Description. l For details about the CPRI MUX topology, see CPRI MUX Feature Parameter Description.

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4

Operation and Maintenance

Huawei provides convenient and flexible operation and maintenance methods for 3900 series base stations. 3900 series base stations can be maintained in the following methods: l

Local maintenance: OM personnel maintain the base station on the base station LMT or SMT through the local maintenance port on the base station.

l

Remote maintenance: OM personnel maintain the base station on the U2000 or LMT in the equipment room or the centralized management center.

On the U2000, the base station is a management entity providing RAT Service of one or multiple modes. Base stations are independent of each other and have different deployment IDs (DIDs). In this document, the RAT Service provided by a 3900 series base station includes GBTS Service, NodeB Service, and eNodeB Service. For related function descriptions, see section 2.2 BTS in the RAN Logical Layer. A base station deployed with only one mode is called a single-mode base station. A base station deployed with two or more modes is called a multimode base station. Multimode base stations such as separate-MPT and co-MPT multimode base stations are indicated by Multimode Base Station on the U2000. To simplify base station classification, a co-MPT base station deployed with only one mode is also classified as a multimode base station. Each BTS node in a multimode base station has an independent OM channel. The BTS node together with the RAT Service deployed on it are called an NE, which can be independently managed by the LMT, SMT, or U2000.

Operation and Maintenance for Single-Mode Base Stations A single-mode base station serves only one mode, has one OM interface, represents one NE, and is connected to one U2000. The GBTS, NodeB, and eNodeB are displayed on the U2000 based on the NE type. The corresponding NE type is BTS3900 GSM, BTS3900 WCDMA, and BTS3900 LTE, respectively. The NE type of the eGBTS is BTS3900. The eGBTS has the same OM system as a co-MPT multimode base station. Figure 4-1 shows the OM systems of the GBTS, NodeB, and eNodeB. Issue 07 (2016-04-29)


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Figure 4-1 OM systems of the GBTS, NodeB, and eNodeB

Operation and Maintenance for Co-MPT Multimode Base Stations Multiple modes in a co-MPT multimode base station are deployed on the same main control board. These modes share one OM interface, represent one NE, and are connected to one U2000. A co-MPT multimode base station is displayed as BTS3900 on the U2000. Figure 4-2 shows the OM system of a co-MPT multimode base station. Figure 4-2 OM system of a co-MPT multimode base station

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Operation and Maintenance for Separate-MPT Multimode Base Stations Multiple modes in a separate-MPT multimode base station are deployed on different main control boards. These modes have different OM interfaces, represent different NEs, and are connected to one U2000 through their own OM channels. NEs in a separate-MPT multimode base station are independently managed on the base station LMT or SMT. On the U2000, NEs in a separate-MPT multimode base station have the same DID. The U2000 provides a unified GUI to manage NEs in a separate-MPT multimode base station. The separate-MPT multimode base station is indicated by MBTS on the U2000. Different modes have different NE types, including BTS3900 GSM, BTS3900 WCDMA, and BTS3900 LTE. Figure 4-3 shows the OM system of a separate-MPT multimode base station. Figure 4-3 OM system of a separate-MPT multimode base station

Management Method of Shared Resources Shared resources are physical and logical resources shared among multiple modes in a separate-MPT multimode base station. For details, see Table 4-2. Resources occupied by only one mode are not shared resources. In a separate-MPT multimode base station where multiple modes share resources, the shared resources must be managed. There are two methods for managing the shared resources: l

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Unilateral management: The shared resources are managed by only one mode and are displayed only on the management interface of this mode. Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.

29


l


Multilateral management: The shared resources are collectively managed by multiple modes. Operators need to prevent operations that may cause management conflicts.

NOTICE If operations that affect services are performed on the shared resources, services of modes that share these resources will be affected. These operations include parameter adjustments, resets, board additions and removals, power-off, blocking, loopbacks, offline tests, offline performance tests, and software upgrades and rollbacks. Table 4-1 lists the difference between unilateral management and multilateral management. Table 4-1 Difference between unilateral and multilateral management Function

Unilateral Management

Multilateral Management

Configuration Management

Only one mode is configured with resource sharing parameters.

Multiple modes are configured with resource sharing parameters and these parameters must have consistent settings to prevent resource conflicts. The multi-node OMC configuration tool can automatically associate with the shared resources to ensure consistent parameter configuration. For details about parameter configurations for the shared resources, see Multimode Base Station Common Part Parameters (you can obtain this document by choosing 3900 Series Base Station Product Documentation > Operation and Maintenance > Configuration Management). Consistent parameter configuration: Parameters configured for the same object must have the same values for different NEs. Parameters configured for different objects cannot have same values for different NEs.

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Function

Unilateral Management

Multilateral Management

Fault Management

Only one mode reports, locates, and clears alarms related to the shared resources.

Multiple modes report alarms related to the shared resources. On the multinode OMC alarm management tool, the OM personnel can specify a mode to locate and clear the reported alarms while alarms reported by other modes are shielded. When handling a common alarm (excluding an inter-RAT configuration conflict alarm), operators need to handle it only on one mode. After being cleared on one mode, the alarm is also cleared on other modes. For details about the reporting and handling of a common alarm, see Alarm Management in 3900 Series Base Station Alarm Reference (you can obtain this document by choosing 3900 Series Base Station Product Documentation > Operation and Maintenance > Fault Management).

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Performance Management

Only one mode reports performance measurement results of the shared resources.

Multiple modes report performance measurement results of the shared resources.

Software management

Only one mode manages the resource sharing software.

Multiple modes manage the resource sharing software. The OM personnel can grant loading control rights to one mode for software upgrades and rollbacks. Loading control rights can be automatically configured by the multi-node OMC software management tool if the base station uses Huawei standard version mapping. Loading control rights must be manually configured if nonstandard Huawei version mapping is used. In principle, the loading control rights are configured in descending order of version and mode (for example, LTE > UMTS > GSM).

Inventory management

Only one mode reports the inventory information about the shared resources.

Multiple modes report the inventory information about the shared resources. The multi-node OMC software management tool can automatically associate with the inventory information about the shared resources.


31



When unilateral management is used, the user can specify a mode to manage the shared resources based on site situations. For example: l

Newly deployed base stations: Different modes of newly deployed base stations are listed in descending order of management priority: GSM > UMTS > LTE. For example, in a newly deployed GU base station, it is recommended that GSM manage the shared resources.

l

Capacity expansion: It is recommended that the existing mode manage the shared resources. For example, during an evolution from GSM to GU, it is recommended that GSM manage the shared resources.

The management method varies according to different types of shared resources. Table 4-2 lists the management method for different types of shared resources. Table 4-2 Method for managing different types of shared resources Shared Resources

Management Method

Site devices

Unilateral management: Site devices are managed by one mode in the BBU to which the site devices are connected.

Cabinets

Unilateral management: If a cabinet is connected to a BBU, the monitoring system of this cabinet is monitored by one mode in this BBU. The monitoring system includes the power monitoring unit (PMU), temperature control unit (TCU), cabinet control unit (CCU), fan monitoring unit (FMU), and environment monitoring unit (EMU). If a cabinet is connected to a BBU through the radio remote units (RRUs), the monitoring system of this cabinet is managed by one mode the RRUs serve. NOTE l When monitoring boards are managed by only one mode, the following functions cannot be used: energy saving, smart TRX, and fan speed controlling by the main control board. l The CCU can be managed by only one mode.

BBU subrack

Multilateral management: The UPEU, UEIU, and FAN are managed collectively by all modes in the BBU. UPEU is short for universal power and environment interface unit. UEIU is short for universal environment interface unit.

Multimode RF modules

Multilateral management: Multimode RF modules are managed by the modes that the multimode RF modules serve. For example, a multimode RF module working in GU mode is managed collectively by GSM and UMTS.

ALD

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Unilateral management: The ALD is managed by one mode whose RF modules are connected to the ALD. ALD is short for antenna line device.


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Shared Resources

Management Method

BBU interconnection module

Unilateral management: BBU interconnection modules are managed by one mode that shares one BBU with this BBU interconnection module.

Transmission

Unilateral management: When multiple modes share the transmission ports and bandwidth, the transmission ports and the board that provides transmission ports are managed by one mode in the BBU.

Clock

Unilateral management: When multiple modes share one external clock source, the clock source is managed by one mode in the BBU.

CPRI links

Unilateral management: When multiple modes share a CPRI link, the CPRI link is managed by the mode whose baseband board provides CPRI ports.


33


5 Physical Devices

5

Physical Devices

About This Chapter 3900 series base stations adopt a module design, which consists of three modules: the BBU3900, RF modules and cabinets that work with the BBU3900 and RF modules. The BBU3900 and RF modules can be combined with different types of cabinets to adapt to different application scenarios and meet user's requirements for fast and cost-effective network deployment. 5.1 Cabinets Based on the application scenarios and cabinets installed, 3900 series base stations can be classified into indoor macro base stations (BTS3900 and BTS3900L), outdoor macro base stations (BTS3900A and BTS3900AL), distributed base stations (DBS3900), and mini base stations (BTS3900C). 5.2 BBU The BBU is a baseband processing unit and centrally manages the entire base station. 5.3 RF Module RF modules modulate and demodulate baseband and RF signals, process data, amplify power for signals, and conduct voltage standing wave ratio (VSWR) tests.

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5 Physical Devices

5.1 Cabinets Based on the application scenarios and cabinets installed, 3900 series base stations can be classified into indoor macro base stations (BTS3900 and BTS3900L), outdoor macro base stations (BTS3900A and BTS3900AL), distributed base stations (DBS3900), and mini base stations (BTS3900C). The following figure shows the 3900 series base station product family. Figure 5-1 3900 series base station product family

BTS3900: uses BTS3900 (Ver.B), BTS3900 (Ver.C), or BTS3900 (Ver.D) cabinets. BTS3900L: uses a BTS3900L (Ver.B), BTS3900L (Ver.C), or BTS3900L (Ver.D) cabinet. Issue 07 (2016-04-29)


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5 Physical Devices

BTS3900A: uses BTS3900A (Ver.B), BTS3900 (Ver.C), BTS3900A (Ver.D), or BTS3900A (Ver.E) cabinets. BTS3900AL: uses a BTS3900AL (Ver.A) cabinet. DBS3900: uses APM series cabinets, TMC series cabinets, battery cabinets, OMB, OMB (Ver.C), IMB03, IFS06, or IBC10. APM is short for advanced power module, TMC is short for transmission cabinet, OMB is short for outdoor mini box, IMB is short for indoor mini box, IFS is short for indoor floor installation support, and IBC is short for indoor BBU cabinet. BTS3900C: consists of an RRU subrack and an OMB. For detailed information about each type of cabinet, see 3900 Series Base Station Hardware Description.

5.2 BBU The BBU is a baseband processing unit and centrally manages the entire base station. The BBU provides the following functions: l

Manages the entire base station system in terms of operation, maintenance, signaling processing, and system clock.

l

Processes uplink and downlink data, and provides common public radio interfaces (CPRIs) for the communication between the BBU and RF modules.

l

Provides physical ports for information exchange between the base station and the transport network.

l

Provides an OM channel between the base station and the operation and maintenance center (OMC).

l

Provides ports for receiving and transmitting signals from environment monitoring devices.

BBUs are classified into three types: BBU3900, BBU3910, and BBU3910A. With a case structure, the BBU3900 and BBU3910 can house different types of boards and modules. The BBU3910A integrates the functions of main control, transmission, and baseband processing all into one module. It is characterized by a smaller size and easy deployment. For the exterior, structure, functions, ports, indicators, and DIP switches of a BBU, see BBU Hardware Description (To obtain this document, choose 3900 Series Base Station Product Documentation > Descriptions > Hardware Description), which also provides the configuration principles of boards and modules in a BBU3900 and BBU3910. For technical specifications of a BBU3900 and BBU3910, see 6.1 Technical Specifications of the BBU3900s and BBU3910s. For technical specifications of a BBU3910A, see 6.2 Technical Specifications of the BBU3910A. A triple-mode base station and UMTS baseband capacity expansion can be implemented through BBU interconnection. For details about BBU interconnection, see BBU Interconnection Feature Parameter Description. (To obtain this document, choose 3900 Series Base Stations Product Documentation > Descriptions > Function Description).

5.3 RF Module RF modules modulate and demodulate baseband and RF signals, process data, amplify power for signals, and conduct voltage standing wave ratio (VSWR) tests. Issue 07 (2016-04-29)


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5 Physical Devices

5.3.1 RFU Radio frequency units (RFUs) perform modulation, demodulation, data processing and power amplification of RF and baseband signals, and conduct voltage standing wave ratio (VSWR) detection.

Type The following table lists RFU types. Table 5-1 RFU types

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Module

Applicable Mode

Technical specifications

DRFU

GSM

6.3.1 DRFU Technical Specifications

GRFU

GSM

6.3.2 GRFU Technical Specifications

WRFU

UMTS

6.3.3 WRFU Technical Specifications

WRFUa

UMTS

6.3.4 WRFUa Technical Specifications

WRFUd

UMTS

6.3.5 WRFUd Technical Specifications

WRFUe

UMTS

6.3.6 WRFUe Technical Specifications

CRFUd

LTE FDD

6.3.7 CRFUd Technical Specifications

CRFUe

LTE FDD

6.3.8 CRFUe Technical Specifications

LRFU

LTE FDD

6.3.9 LRFU Technical Specifications

LRFUe

LTE FDD

6.3.10 LRFUe Technical Specifications

MRFU

GSM, UMTS, LTE FDD, GU, GL, and UL


MRFUc

UMTS, LTE FDD, UL

6.3.12 MRFUc Technical Specifications

MRFUd



MRFUdw

GSM, LTE FDD, GL



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5 Physical Devices

Module

Applicable Mode


MRFUe

GSM, UMTS, LTE FDD, GU, and GL

6.3.14 MRFUe Technical Specifications

For information about the functions and the logical structure of an RFU, see RFU Hardware Description. This document also provides details about ports and indicators on the RFU.

Cabinets That Can Work with RFUs Restrictions on using RFUs together with cabinets are as follows: l

The WRFUd, WRFUe, CRFUd, CRFUe, LRFUe, MRFUd, and MRFUe must be used together with Ver.C cabinets, Ver.D cabinets, and BTS3900AL (Ver.A) cabinets.

l

For other types of RFUs, there are no restrictions on which types of base stations can be used with.

5.3.2 RRU Remote radio units (RRUs) perform modulation, demodulation, data processing, and power amplification of baseband and radio frequency (RF) signals, and conduct voltage standing wave ratio (VSWR) detection.

Type The following table lists RRU types. Table 5-2 RRU types

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Module

Applicable Mode


RRU3004

GSM


RRU3008

GSM


RRU3801E

UMTS


RRU3804

UMTS


RRU3805

UMTS


RRU3806

UMTS


RRU3808

UMTS, LTE FDD, and UL



38


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5 Physical Devices

Module

Applicable Mode


RRU3821E

UMTS


RRU3824

UMTS


RRU3826

UMTS


RRU3828

UMTS


RRU3829

UMTS


RRU3832



RRU3838

UMTS


RRU3839

UMTS


RRU3201

LTE FDD


RRU3203

LTE FDD


RRU3220

LTE FDD


RRU3220E

LTE FDD


RRU3221

LTE FDD


RRU3222

LTE FDD


RRU3229

LTE FDD


RRU3240

LTE FDD


RRU3249

LTE FDD


RRU3260

LTE FDD


RRU3262

LTE FDD



39


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5 Physical Devices

Module

Applicable Mode


RRU3268

LTE FDD


RRU3269

LTE FDD


RRU3281

LTE FDD


RRU3668

LTE FDD


RRU3841

LTE FDD


RRU3908



RRU3926



RRU3928



RRU3929



RRU3936



RRU3938



RRU3939

GSM, LTE FDD, and GL


RRU3942

GSM, UMTS, LTE FDD, GU, GL, UL, and GUL


RRU3952



RRU3953



RRU3953w



RRU3958



RRU3959



RRU3959w




40


5 Physical Devices

Module

Applicable Mode


RRU3961



RRU3971



RRU3952m



RRU3168

LTE TDD


RRU3232

LTE TDD


RRU3251

LTE TDD


RRU3252

LTE TDD


RRU3253

LTE TDD


RRU3256

LTE TDD


RRU3259

LTE TDD


RRU3276

LTE TDD


RRU3278

LTE TDD


RRU3279

LTE TDD


For information about the functions and the logical structure of an RRU, see RRU hardware description of the RRU type in question. This document also provides details about ports and indicators on the RRU.

Cabinets That Can Work with RRUs Restrictions on using RRUs together with cabinets are as follows: l

The RRU3229, RRU3841, RRU3929, RRU3829, RRU3942, and RRU3961 must be used with Ver.C and Ver.D cabinets.

l

For other types of RRUs, there are no restrictions on which types of cabinets can be used with.

Issue 07 (2016-04-29)


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5 Physical Devices

5.3.3 AAU The AAU incorporates the functions of radio frequency (RF) modules and antenna systems.

Type The following table lists AAU types. Table 5-3 AAU types Module

Applicable Mode


AAU3961

LTE FDD, GL


AAU3940

UMTS, LTE FDD, UL


AAU3920

UMTS, LTE FDD, GL, UL, GUL


AAU3911

l RU3832: UMTS, LTE FDD, UL


l RU3260: LTE FDD l RU3952m: GSM, UMTS, LTE FDD, GL, UL AAU3910

l RU3832: UMTS, LTE FDD, and UL


l RU3260: LTE FDD l RU3971: LTE FDD, and GL AAU3902

UMTS, LTE FDD, and GL


l

For information about the functions and logical structure of an AAU3961, see AAU3961 Hardware Description. This document also provides details about ports and indicators on the AAU3961.

l


l


l


l


Issue 07 (2016-04-29)


42


l

Issue 07 (2016-04-29)

5 Physical Devices

For information about the functions and logical structure of an AAU3902, see AAU3902 Hardware Descripiton. This document also provides details about ports and indicators on the AAU3902.


43



6

Product Specifications

About This Chapter Product specifications of the 3900 series base stations include technical specifications of the BBU and radio frequency (RF) modules, and engineering specifications of each type of cabinet. 6.1 Technical Specifications of the BBU3900s and BBU3910s This section describes the technical specifications of the BBU, including capacity specifications, baseband specifications, signaling specifications, CPRI specifications, transmission port specifications, and engineering specifications. 6.2 Technical Specifications of the BBU3910A This section describes the technical specifications of the BBU3910A, including capacity specifications, signaling specifications, CPRI specifications, transmission port specifications, and engineering specifications. 6.3 Technical Specifications of RFUs This section describes the technical specifications of radio frequency units (RFUs), including supported modes, frequency bands, RF specifications, surge protection specifications, specifications of CPRI ports, and antenna capabilities. 6.4 Technical Specifications of RRUs This section provides technical specifications of RRUs, including supported modes, frequency bands, RF specifications, engineering specifications, specifications of CPRI ports, and antenna capabilities. 6.5 Technical Specifications of AAUs This section provides technical specifications of AAUs, including supported modes, frequency bands, RF and antenna specifications, engineering specifications, antenna capabilities, specifications of CPRI ports, and electrical specifications. 6.6 Engineering Specifications of Cabinets This section describes engineering specifications of each type of cabinet, including input power specifications, equipment specifications, environment specifications, surge protection specifications, and standards that have been complied with. 6.7 Typical Power Configuration Reference for RF Modules

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44



This chapter describes the power configuration rules and typical power configurations for RF modules.

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45



6.1 Technical Specifications of the BBU3900s and BBU3910s This section describes the technical specifications of the BBU, including capacity specifications, baseband specifications, signaling specifications, CPRI specifications, transmission port specifications, and engineering specifications.

6.1.1 Technical Specifications of the GBTS and eGBTS This section describes the capacity specifications, baseband specifications, and transmission ports of the GBTS and eGBTS.

Capacity Specifications The following table lists the capacity specifications of the GBTS and eGBTS. Table 6-1 Capacity specifications of the GBTS and eGBTS BBU Typ e

NE Type

Specifications

Board Configuration

BBU 3900

GBTS

A single site supports a maximum of 32 cells and each cell supports a maximum of 24 TRXs.

TDM transmission:

l TDM transmission:

l When the GBTS works in nonbaseband extension mode: 1 GTMUb/GTMUc + 1 UTRPb4 + 1 UBRIb (optional)

– When the GBTS works in nonbaseband extension mode: 126 TRXs

l When the GBTS works in baseband extension mode: 1 GTMUb/GTMUc + 3 UBBPd1/ UBBPd2/UBBPd3/UBBPd4 or

– When the GBTS works in baseband extension mode: 72 TRXs

1 GTMUb/GTMUc + 1 UBBPd1/ UBBPd2/UBBPd3/UBBPd4 + 1 UBBPd6

l IP over FE transmission: 60 TRXs

IP transmission: 1 GTMUb/GTMUc + 1 UBRIb (optional)

l IP over E1 transmission: 48 TRXs

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46



BBU Typ e

NE Type

Specifications

Board Configuration

BBU 3910

GBTS


TDM transmission:

l TDM transmission: 48 TRXs

l When the GBTS works in nonbaseband extension mode: 1 GTMUb/GTMUc + 1 UBRIb (optional)

l IP over FE transmission: 60 TRXs

l When the GBTS works in baseband extension mode: 1 GTMUb/GTMUc + 3 UBBPd1/ UBBPd2/UBBPd3/UBBPd4 or

l IP over E1 transmission: 48 TRXs

1 GTMUb/GTMUc + 1 UBBPd1/ UBBPd2/UBBPd3/UBBPd4 + 1 UBBPd6 IP transmission: 1 GTMUb/GTMUc + 1 UBRIb (optional)

BBU 3900/ BBU 3910

eGBTS


1 GTMUb + 1 UBRIb (optional)

A single site supports a maximum of 24 TRXs. BBU 3900/ BBU 3910

eGBTS


1 UMPTb + 2 UBRIb

l IP over FE transmission: 72 TRXs l IP over E1 transmission: 48 TRXs

Baseband Specifications The following table lists the number of carriers supported by UBBP boards working in GSM mode. Table 6-2 Carrier specifications

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Board

Number of 2R Carriers


UBBPd1, UBBPd2, UBBPd3, or UBBPd4

24

12


47



Board



UBBPd5

36

18

UBBPd6

48

24

CPRI Specifications The following table lists the specifications of CPRI ports on GTMU boards. Table 6-3 Specifications of CPRI ports on GTMU boards Board

Quantity of CPRI Ports

CPRI Port Rate (Gbit/s)

Topology Type

GTMU

6

1.25

Star, chain, and ring topologies

GTMUb or GTMUc

6

1.25 or 2.5


The following table lists specifications of the CPRI ports on a UBRI and a UBRIb. Table 6-4 Specifications of the CPRI ports on a UBRI and a UBRIb Board



Topology Type

UBRI

6

1.25 or 2.5


UBRIb

6

1.25, 2.5, 4.9, 6.144, or 9.8


The following table lists the specifications of CPRI ports on a UBBP. Table 6-5 Specifications of CPRI ports on a UBBP Board



Topology Type

UBBPd

6

1.25, 2.5, 4.9, or 6.144/9.8


The following table lists the mapping between the CPRI port rate and the number of carriers supported by a UBBP working in GSM mode. Issue 07 (2016-04-29)


48



Table 6-6 Mapping between the CPRI port rate and the number of carriers CPRI Port Rate (Gbit/s)

Number of 1T2R Carriers

Number of 2T2R or 1T4R Carriers

1.25

24

12

2.5

48

24

4.9

48

24

9.8

48

24

Transmission Port The following table lists the transmission ports on a GBTS and eGBTS. Table 6-7 Transmission ports on a GBTS and eGBTS Mode

Transmission Port GTMU/GTMUb: 1 E1/T1 port (4 ways of E1/T1 signals), 1 FE electrical port, and 1 FE optical port GTMUc: 1 E1/T1 port (4 ways of E1/T1 signals), 1 FE/GE electrical port, and 1 FE/GE optical port

GSM

UMPT: 1 E1/T1 port (4 ways of E1/T1 signals), 1 FE/GE electrical port, and 1 FE/GE optical port UTRPb4: 2 E1/T1 ports (8 ways of E1/T1 signals) UTRPc: 4 FE/GE electrical ports and 2 FE/GE optical ports

6.1.2 Technical Specifications of the NodeB This section describes the capacity specifications, baseband specifications, signaling specifications, and transmission ports of a NodeB.

Capacity Specifications The following table lists the capacity specifications of a NodeB. Table 6-8 Capacity specifications of a NodeB BBU Type

Specifications

Board Configuration

BBU3900

A maximum of 24 cells are supported.

1 UMPTb+6 UBBPd6

l Uplink: 6144 CEs l Downlink: 6144 CEs Issue 07 (2016-04-29)


49



BBU Type

Specifications

Board Configuration

BBU3910

A maximum of 48 cells are supported.

1 UMPTb+6 UBBPd6

l Uplink: 6144 CEs l Downlink: 6144 CEs

Baseband Specifications The WBBP is classified into four types, as listed in Table 6-9. NOTE

The baseband processing board in slot 2 or slot 3 of a BBU3900 could transfer the received CPRI data to other boards.

Table 6-9 Specifications of the WBBP Board

Number of Cells

Number of UL CEs

Number of DL CEs

Number of HSDPA Codesa

Number of HSDPA UEs

Number of HSUPA UEs

WBBPa

3

128

256

3x15

96

60

WBBPb1

3

64

64

3x15

64

64

WBBPb2

3

128

128

3x15

128

96

WBBPb3

6

256

256

6x15

144

96

WBBPb4

6

384

384

6x15

144

96

WBBPd1

6

192

192

6x15

128

96

WBBPd2

6

384

384

6x15

144

144

WBBPd3

6

256

256

6x15

144

96

WBBPf1

6

192

256

6x15

144

144

WBBPf2

6

256

384

6x15

192

192

WBBPf3

6

384

512

6x15

256

256

WBBPf4

6

512

768

6x15

384

384

a: The number of HSDPA codes supported by the WBBPd1 is 6x15, in which 6 is the number of cells and 15 is the number of HSDPA codes supported by each cell.

The following table lists the baseband specifications of the UBBP working in UMTS mode.

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50



Table 6-10 Baseband specifications Board

Number of Cells

Number of Uplink CEs

Number of Downlin k CEs

Number of HSDPA Codes

Number of HSDPA UEs

Number of HSUPA UEs

UBBPd1

6

384

512

6x15

288

288

UBBPd2

6

512

768

6x15

384

384

UBBPd3

6

384

512

6x15

288

288

UBBPd4

6

512

768

6x15

384

384

UBBPd5

6

768

768

6x15

512

512

UBBPd6

12

1024

1024

12x15

768

768

Signaling Specifications The following table lists typical NodeB board combination and the corresponding signaling specifications. Table 6-11 Typical board combination and corresponding signaling specifications Configurat ion of Main Control Boards

Number of WBBPb/ WBBPd Boards

Number of WBBPf Boards

Number of UBBPd1/ UBBPd2/ UBBPd3/ UBBPd4/ UBBPd5 Boards

Number of UBBPd6 Boards

Signaling Specificatio ns (CNBAPS)

WMPT

1

0

0

0

60

2

0

0

0

120

3

0

0

0

180

≥4

0

0

0

200

Any

≥1

0

0

200

0

Any

≥1

0

200

0

Any

0

≥1

200

1

0

0

0

60

2

0

0

0

120

3

0

0

0

180

4

0

0

0

240

WMPT +UTRP

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51


Configurat ion of Main Control Boards

WMPT +UTRPc

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5

0

0

0

300

0

1

0

0

200

1

1

0

0

260

≥2

1

0

0

300

Any

≥2

0

0

300

0

0

1

0

200

0

≥1

1

0

300

0

Any

≥2

0

300

0

Any

0

≥1

300

1

0

0

0

400

2

0

0

0

460

3

0

0

0

520

4

0

0

0

580

5

0

0

0

640

6

0

0

0

700

0

1

0

0

500

1

1

0

0

560

2

1

0

0

620

3

1

0

0

680

4

1

0

0

740

5

1

0

0

800

0

2

0

0

700

1

2

0

0

760

2

2

0

0

820

3

2

0

0

880

4

2

0

0

940


52



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0

3

0

0

900

1

3

0

0

960

2

3

0

0

1020

3

3

0

0

1080

0

4

0

0

1100

1

4

0

0

1160

2

4

0

0

1220

0

5

0

0

1300

1

5

0

0

1360

0

6

0

0

1500

0

0

1

0

500

0

1

1

0

700

0

2

1

0

900

0

3

1

0

1100

0

4

1

0

1300

0

5

1

0

1500

0

0

2

0

700

0

1

2

0

900

0

2

2

0

1100

0

3

2

0

1300

0

4

2

0

1500

0

0

3

0

900

0

1

3

0

1100

0

2

3

0

1300

0

3

3

0

1500

0

0

4

0

1100


53



UMPTa1/ UMPTa2/ UMPTb1/ UMPTb2

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0

1

4

0

1300

0

2

4

0

1500

0

0

5

0

1300

0

1

5

0

1500

0

0

6

0

1500

0

0

0

1

600

0

1

0

1

800

0

2

0

1

1000

0

3

0

1

1200

0

4

0

1

1400

0

5

0

1

1500

0

0

0

2

900

0

1

0

2

1100

0

2

0

2

1300

0

≥3

0

2

1500

0

0

0

3

1200

0

1

0

3

1400

0

≥2

0

3

1500

0

Any

0

≥4

1500

1

0

0

0

400

2

0

0

0

460

3

0

0

0

520

4

0

0

0

580

5

0

0

0

640

6

0

0

0

700

0

1

0

0

500


54



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1

1

0

0

560

2

1

0

0

620

3

1

0

0

680

4

1

0

0

740

5

1

0

0

800

0

2

0

0

700

1

2

0

0

760

2

2

0

0

820

3

2

0

0

880

4

2

0

0

940

0

3

0

0

900

1

3

0

0

960

2

3

0

0

1020

3

3

0

0

1080

0

4

0

0

1100

1

4

0

0

1160

2

4

0

0

1220

0

5

0

0

1300

1

5

0

0

1360

0

6

0

0

1500

0

0

1

0

500

0

1

1

0

700

0

2

1

0

900

0

3

1

0

1100

0

4

1

0

1300

0

5

1

0

1500


55



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0

0

2

0

700

0

1

2

0

900

0

2

2

0

1100

0

3

2

0

1300

0

4

2

0

1500

0

0

3

0

900

0

1

3

0

1100

0

2

3

0

1300

0

3

3

0

1500

0

0

4

0

1100

0

1

4

0

1300

0

2

4

0

1500

0

0

5

0

1300

0

1

5

0

1500

0

0

6

0

1500

0

0

0

1

600

0

1

0

1

800

0

2

0

1

1000

0

3

0

1

1200

0

4

0

1

1400

0

5

0

1

1500

0

0

0

2

900

0

1

0

2

1100

0

2

0

2

1300

0

≥3

0

2

1500

0

0

0

3

1200


56









0

1

0

3

1400

0

≥2

0

3

1500

0

Any

0

≥4

1500

CPRI Specifications The following table describes the specifications of the CPRI ports on the WBBP. Table 6-12 Specifications of CPRI ports on a WBBP Board



Topology Type

WBBPa

3

1.25


WBBPb1, WBBPb2, WBBPb3, or WBBPb4

3

1.25 or 2.5


WBBPd

6

1.25 or 2.5


WBBPf

6

1.25, 2.5, 4.9, or 6.144





Topology Type

UBBPd

6

1.25, 2.5, 4.9, or 6.144/9.8


CPRI ports with different rates support different numbers of cells, as listed in the following table. Issue 07 (2016-04-29)


57



Table 6-14 Mapping between the CPRI port rate and the number of cells in UMTS scenarios CPRI Port Rate (Gbit/s)

Number of 1T2R Cells


1.25

4

4*a

2.5

8

8*a

4.9

16

16*a

6.144

24

24*a

9.8

32

32*a

a: The asterisk (*) in the preceding table indicates that the number of 2T2R cells is halved if the 2T2R cells support the virtual antenna mapping (VAM) function and the two TX antennas used by the VAM function are separately connected to two RF modules carried on different CPRI links.

Transmission Port The following table lists the transmission ports on a NodeB. Table 6-15 Transmission ports on a NodeB Mode

Transmission Port UTRP2: 2 FE/GE optical ports UTRP3: 2 E1/T1 ports (8 ways of E1/T1 signals) UTRP4: 2 E1/T1 ports (8 ways of E1/T1 signals) UTRP6: 1 STM-1 or OC-3 port UTRP9: 4 FE/GE electrical ports

UMTS

UTRPc: 4 FE/GE electrical ports and 2 FE/GE optical ports UTRPa: 2 E1/T1 ports (8 ways of E1/T1 signals) WMPT: 1 E1/T1 port (4 ways of E1/T1 signals), 1 FE electrical port, and 1 FE optical port UMPTa/UMPTb: 1 E1/T1 port (4 ways of E1/T1 signals), 1 FE/GE electrical port, and 1 FE/GE optical port

6.1.3 Technical Specifications of the eNodeB FDD This section describes the traffic models, capacity specifications, cell specifications, number of UEs in RRC Connected mode, number of data radio bearers (DRBs), throughput specifications, signaling specifications, number of VoLTE UEs, number of carrier aggregation (CA) UEs, CPRI specifications, and transmission ports of an eNodeB FDD. Issue 07 (2016-04-29)


58



Traffic Model On live networks, the service capacity of an eNodeB FDD depends on system processing capacities as well as the traffic model used. This section describes two traffic models: datacard traffic model and smartphone traffic model. l

The datacard traffic model derives from a typical LTE network where data cards make up a large proportion of all admitted terminals. LTE dongle and customer premises equipment (CPE) are examples of such data cards. UEs in this traffic model are characterized by long online duration, low mobility, and many large-packet data services.

l

The smartphone traffic model derives from a typical LTE network where smartphones make up a large proportion of all admitted terminals. UEs in this traffic model are characterized by short online duration, frequent network access and release, high mobility, and many small-packet data services.

The following table describes the control plane (CP) traffic models for the datacard and smartphone traffic models. NOTE (1):

Service models described in the following table are obtained in busy hours. @BH refers to at busy hour.

Table 6-16 CP traffic models for the datacard and smartphone traffic models

Issue 07 (2016-04-29)

Traffic Model Item

Specifications for the Smartphone Traffic Model

Specifications for the Datacard Traffic Model

PS Call Attempt Number per User @BH(1) (times)

180

20

Dedicated Bearer Attempt Number per User @BH (times)

5

1

TAU & Attach & Detach per User @BH (times)

30

5

Intra-eNodeB Handover Number per User @BH (times)

10

1

Inter-eNodeB X2 Based Handover Out Attempt Number per User @BH (times)

40

2

Inter-eNodeB X2 Based Handover In Attempt Number per User @BH (times)

40

2

Inter-eNodeB S1 Based Handover Out Attempt Number per User @BH (times)

0

0

Inter-eNodeB S1 Based Handover In Attempt Number per User @BH (times)

0

0


59



Traffic Model Item



Inter-RAT Handover Attempt Number per User @BH (times)

3

0

Inter-RAT Redirection Attempt Number per User @BH (times)

12

0

CSFB Based Inter-RAT Handover Attempt Number per User @BH (times)

0

0

CSFB Based Inter-RAT Redirection Attempt Number per User @BH (times)

5

0

CA Scell Configuration Update Attempt Number per User @BH (times)

10

0

Syn2Unsyn Attempt Number per User @BH (times)

0

0

Unsyn2Syn Attempt Number per User @BH (times)

0

0

RRC Re-Establish Number per User @BH (times)

2

0

Paging number @BH (times)

1260000

100000

The following table describes the user plane (UP) traffic model for the smartphone traffic model. Table 6-17 UP traffic model for the smartphone traffic model

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Service Type

PS Call Attempt Ratio (%)

DL Traffic Volume per PS Call (KB)

DL: UL Traffic Volume Ratio

Web browsing & Email

35.00

250

15

Video downloading, uploading & streaming

0.35

20000

50

SNS

15.00

200

4

IM

15.00

5

0.7


60



Service Type




Music & APP downloading & Streaming

0.50

5000

30

File sharing & Storage

0.10

400

0.1

Video Call

0.20

3000

1

Heart beat

25.00

0.1

1

Other

8.85

50

1

The following table describes the UP traffic model for the datacard traffic model. Table 6-18 UP traffic model for the datacard traffic model Service Type

UL Traffic Volume per PS Call (KB)


FTP

600

6000

Capacity Specifications The following table provides the capacity specifications of an eNodeB FDD. Table 6-19 Capacity specifications of an eNodeB FDD Mode

Item

Specifications

LTE FDD

Maximum Number of Cells per BBU

l When configured with an LMPT: 18 cells (2T2R/2T4R/4T4R, 20 MHz) l When configured with a UMPTa/ UMPTb: 36 cells (2T2R/2T4R/4T4R, 20 MHz)

Issue 07 (2016-04-29)


61


Mode


Item

Specifications

Maximum Throughput per eNodeB FDD

l When configured with an LMPT: The uplink data rate at the MAC layer is 300 Mbit/s. The downlink data rate at the MAC layer is 450 Mbit/s. l When configured with a UMPTa/ UMPTb: – 1 UMPTa/UMPTb: The sum of uplink and downlink data rates at the MAC layer is 1500 Mbit/s. – 2 UMPTa/UMPTb boards(2): The sum of uplink and downlink data rates at the MAC layer is 3000 Mbit/s.

Maximum Number of UEs in RRC Connected Mode per eNodeB FDD

l When configured with an LMPT: – Datacard traffic model: 5400 – Smartphone traffic model: 1200 l When configured with a UMPTa/ UMPTb: – Datacard traffic model: 10800 – Smartphone traffic model: 8000 (The recommended board configuration is 1 UMPTb + 4 UBBPd5/UBBPd6 boards.)

Maximum Number of DRBs per eNodeB FDD

l When configured with an LMPT: 16200 l When configured with a UMPTa/ UMPTb: 32400

NOTE

l Cell specifications and DRB specifications do not vary depending on the traffic model. l The maximum number of UEs in RRC Connected mode varies depending on the traffic model, on the prerequisite that network performance is ensured. This section provides the maximum number of UEs in RRC Connected mode in Huawei-defined datacard and smartphone traffic models. l

(2):

When two main control boards are configured, transmission extension is supported only if both of the two main control boards are the UMPT. The maximum throughput per eNodeB FDD can reach 3000 Mbit/s in this scenario. In UMPT+LMPT scenarios, transmission extension is not supported, and the maximum throughput per eNodeB FDD is 1500 Mbit/s.

Cell Specifications of Baseband Processing Boards The following table describes cell specifications of an LBBP working in LTE FDD mode.

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Table 6-20 Cell specifications of an LBBP Board

Number of Cells

Cell Bandwidth (MHz)

Antenna Configuration

LBBPc

3

1.4/3/5/10/15/20

3x20 MHz 1T1R 3x20 MHz 1T2R 3x20 MHz 2T2R

LBBPd1

3

1.4/3/5/10/15/20


LBBPd2

3

1.4/3/5/10/15/20

3x20 MHz 1T1R 3x20 MHz 1T2R 3x20 MHz 2T2R 3x20 MHz 2T4R 3x20 MHz 4T4R

LBBPd3

6

1.4/3/5/10/15/20

6x20 MHz 1T1R 6x20 MHz 1T2R 6x20 MHz 2T2R(3)

NOTE

l

(3):

When the length of a CPRI fiber optic cable from a BBU to an RRU ranges from 20 km (12.43 mi) to 40 km (24.85 mi), the LBBPd3 board supports the maximum configuration of 3x20 MHz 2T2R.

l 1R and 2R cells can be configured together in any form. In hybrid configuration, the total number of cells cannot exceed the number of 2R cells supported by the eNodeB. l The LBBPd2 supports hybrid configuration of 1R and 4R cells, or 2R and 4R cells. In hybrid configuration, a maximum of three cells are supported.

The following table describes cell specifications of a UBBP working in LTE FDD mode. Table 6-21 Cell specifications of a UBBP Board

Number of Cells



UBBPd3

3

1.4/3/5/10/15/20


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63



Board

Number of Cells



UBBPd4

3

1.4/3/5/10/15/20


UBBPd5

6

1.4/3/5/10/15/20

6x20 MHz 1T1R 6x20 MHz 1T2R 6x20 MHz 2T2R 3x20 MHz 4T4R

UBBPd6

6

1.4/3/5/10/15/20


UBBPda

6

1.4/3/5/10/15/20


NOTE

l 1R and 2R cells can be configured together in any form. In hybrid configuration, the total number of cells cannot exceed the number of 2R cells supported by the eNodeB. l The UBBPd4/UBBPda does not support the hybrid configuration of 1R and 4R cells, or 2R and 4R cells. l The UBBPd5 supports hybrid configuration of 1R and 4R cells, or 2R and 4R cells. In hybrid configuration, a maximum of three cells are supported. l The UBBPd6 supports hybrid configuration of 1R and 4R cells, or 2R and 4R cells. In hybrid configuration, a maximum of three 1R/2R cells and three 4R cells are supported.

Maximum Number of UEs in RRC Connected Mode The following table lists the maximum number of UEs in RRC Connected mode supported by an eNodeB FDD cell.

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Table 6-22 Maximum number of UEs in RRC Connected mode per eNodeB FDD cell Cell Bandwidth

Maximum Number of UEs in RRC Connected Mode per Cell

Maximum Number of Uplink Synchronized UEs per Cell

1.4 MHz

168

l LBBPc: 56 l LBBPd: 100 l UBBP: 168

3 MHz

l LBBPc: 120

360

l LBBPd/UBBP: 360 5 MHz

l LBBPc: 200

600

l LBBPd/UBBP: 600 10/15/20 MHz

l LBBPc: 400

1200

l LBBPd/UBBP: 1200

The following table lists the maximum number of UEs in RRC Connected mode supported by the main control board working in LTE FDD mode. Table 6-23 Maximum number of UEs in RRC Connected mode supported by the main control board Board

Datacard Traffic Model

Smartphone Traffic Model

Maximum Number of UEs in RRC Connected Mode

Maximum Number of Uplink Synchronized UEs



LMPT

5400

5400

1200

1200

UMPTa1/ UMPTa2/ UMPTa6

10800

10800

1600

1600

UMPTb1/ UMPTb2

10800

10800

2000

2000

The following table lists the maximum number of UEs in RRC Connected mode supported by the LBBP board working in LTE FDD mode.

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Table 6-24 Maximum number of UEs in RRC Connected mode supported by the LBBP board Board

LBBPc

LBBPd1 / LBBPd2

LBBPd3

Cell Bandwidt h




Maximum Number of Uplink Synchronize d UEs


Maximum Number of Uplink Synchronize d UEs

1.4 MHz

504

168

350

168

3 MHz

1080

360

350

350

5/10/15/20 MHz

1800

600

350

350

1.4 MHz

504

300

504

300

3 MHz

1080

1080

700

700

5 MHz

1800

1200(4)

700

700

10/15/20 MHz

3600

1200(4)

700

700

1.4 MHz

1008

600

800

600

3 MHz

2160

1200(4)

800

800

5/10/15/20 MHz

3600

1200(4)

800

800

NOTE (4):

The MaxSyncUserNumPerBbi parameter can be configured to make the maximum number of uplink synchronized UEs supported by an LBBPd1, LBBPd2, or LBBPd3 reach 3600 in the datacard traffic model. However, user experience and system performance will deteriorate.

The following table lists the maximum number of UEs in RRC Connected mode supported by the UBBP board working in LTE FDD mode.

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Table 6-25 Maximum number of UEs in RRC Connected mode supported by the UBBP board Board

UBBPd3/ UBBPd4

UBBPd5/ UBBPd6/ UBBPda

Cell Bandwidth




Maximum Number of Uplink Synchroniz ed UEs



1.4 MHz

504

504

504

504

3 MHz

1080

1080

1080

1080

5 MHz

1800

1800

1500

1500

10/15/20 MHz

3600

3600

1500

1500

1.4 MHz

1008

1008

1008

1008

3 MHz

2160

2160

2160

2160

5/10/15/20 MHz

3600

3600

2200

2200

Table 6-26 provides the maximum number of UEs in RRC Connected mode when an eNodeB FDD uses the typical board combination and datacard traffic model. Table 6-32 provides the maximum number of UEs in RRC Connected mode when an eNodeB FDD uses the typical board combination and smartphone traffic model. Table 6-26 Maximum number of UEs in RRC Connected mode per eNodeB FDD (datacard traffic model) Board Combination



1 UMPT + 3 LBBPc boards

5400

1800

1 UMPT + 3 LBBPd3/ UBBPd5 boards

10800

10800

NOTE

Specifications in the preceding table are provided based on the assumption that the cell bandwidth is 20 MHz.

Maximum Number of DRBs The maximum number of DRBs per UE is 8. Issue 07 (2016-04-29)


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The following table lists the maximum numbers of DRBs supported by the LMPT, LBBP, UBBP, and UMPT boards. Table 6-27 Maximum numbers of DRBs supported by the LMPT, UMPT, LBBP, and UBBP boards Board

Maximum Number of DRBs

LMPT

16200

UMPTa1/UMPTa2/UMPTa6/UMPTb1/ UMPTb2

32400

LBBPc

5400

LBBPd1/LBBPd2/LBBPd3

10800

UBBPd3/UBBPd4/UBBPd5/UBBPd6/ UBBPda

10800

Throughput The following tables provide the uplink and downlink throughput per user, per cell, and per baseband processing board supported by an eNodeB FDD. Table 6-28 Maximum uplink and downlink throughput per UE

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Cell Bandwidth

Maximum Downlink Throughput per UE (2x2 MIMO, 64QAM) (Mbit/s)

Maximum Uplink Throughput per UE (1x2 SIMO/1x4 SIMO, 16QAM) (Mbit/s)

1.4 MHz

8.7

3.2

3 MHz

22

8

5 MHz

36

13

10 MHz

73

27

15 MHz

110

40

20 MHz

150

51


68



Table 6-29 Maximum uplink and downlink throughput per cell Cell Bandwidth

Maximum Downlink Throughput per Cell (2x2 MIMO, 64QAM) (Mbit/s)

Maximum Uplink Throughput per Cell (2x2 MU-MIMO, 16QAM) (Mbit/s)

Maximum Uplink Throughput per Cell (1x4 SIMO, 16QAM) (Mbit/s)

Maximum Uplink Throughput per Cell (2x4 MU-MIMO, 16QAM) (Mbit/s)

1.4 MHz

8.7

6.4

3.2

6.4

3 MHz

22

16

8

16

5 MHz

36

27

13

27

10 MHz

73

55

27

55

15 MHz

110

81

40

81

20 MHz

150

110

55

110

Table 6-30 Maximum uplink and downlink throughput per baseband processing board Board

Maximum Downlink Throughput per Baseband Processing Board (Mbit/s)

Maximum Uplink Throughput per Baseband Processing Board (Mbit/s)

LBBPc

300

100

LBBPd1

450

225

LBBPd2

600

225

LBBPd3

600

300

UBBPd3

450

225

UBBPd4

600

225

UBBPd5/ UBBPda

600

300

UBBPd6

900

450

Signaling Specifications Busy Hour Call Attempts (BHCA) is the number of call attempts at a busy hour. Signaling procedures required for completing a call may include the following: call setup, call release (including CSFB if it occurs), handover, tracking area update (TAU), RB setup and release, and transition from the uplink-synchronized state to the uplink-asynchronized state. BHCA indicates the signaling processing capabilities of a system.

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A busy hour call initiated on different operators' networks involves different types and numbers of signaling procedures and therefore consumes different amount of eNodeB resources. As a result, the BHCA capability varies depending on the call model. The BHCA specifications provided by Huawei are based on the smartphone traffic model. The following table lists the signaling specifications of the LMPT, UMPT, LBBP, and UBBP boards in the smartphone traffic model. Table 6-31 Signaling specifications of the LMPT, UMPT, LBBP, and UBBP boards Board

Signaling Specifications (BHCA)

LMPT

216000

UMPTa1/UMPTa2/UMPTa6

288000

UMPTb1/UMPTb2

360000

LBBPc

63000

LBBPd1/LBBPd2

126000

LBBPd3

144000

UBBPd3/UBBPd4

270000

UBBPd5/UBBPd6/UBBPda

396000

The following table lists the signaling specifications and the maximum number of UEs in RRC Connected mode supported by an eNodeB FDD when the smartphone traffic model is used. Table 6-32 Signaling specifications and maximum number of UEs in RRC Connected mode supported by an eNodeB FDD (smartphone traffic model)

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Board Combination


Number of UEs in RRC Connected Mode

1 LMPT + 2 LBBPc boards

126000

700

1 LMPT + 1 LBBPc + 2 LBBPd3 boards

216000

1200

1 UMPTb + 2 LBBPd3 boards

288000

1600

1 UMPTb + 1 LBBPc + 2 LBBPd3 boards

351000

1950

1 UMPTb + 2 UBBPd5 boards

792000

4400

1 UMPTb + 1 LBBPd3 + 2 UBBPd5 boards

936000

5200


70



Board Combination



1 UMPTb + 1 LBBPc + 1 LBBPd3 + 1 UBBPd5

603000

3350

1 UMPTb + 4 UBBPd5 boards

1440000

8000

1 UMPTb + 1 LMPT + 1 LBBPc + 1 LBBPd3 + 2 UBBPd5 boards

999000

5550

2 UMPTb boards + 1 LBBPc + 1 LBBPd3 + 1 UBBPd5

603000

3350

NOTE

The signaling specifications of an eNodeB cannot exceed 1,440,000 BHCA.

Maximum Number of VoLTE UEs In addition to highly efficient data services, the LTE network provides high quality VoLTE services by specifying the QoS class identifier (QCI). VoLTE services are characterized by low data rates and a large number of regular small packets, which place high requirements on the system processing delay and packet processing speed. Capacity specifications of VoLTE refer to the maximum number of VoLTE UEs that can be processed by the eNodeB when the radio conditions are not considered. The following table lists the maximum number of VoLTE UEs per baseband processing board. Table 6-33 Maximum number of VoLTE UEs per baseband processing board Board

Maximum Number of VoLTE UEs (with ROHC)

LBBPc

270

LBBPd1/LBBPd2/LBBPd3

600

UBBPd3/UBBPd4

720

UBBPd5/UBBPd6/UBBPda

1000

Maximum Number of CA UEs As one of the most important features in LTE-A networks, CA provides a peak data rate of 1 Gbit/s by aggregating continuous and discontinuous carriers. A CA UE is configured with a primary component carrier (PCC) and at least one secondary component carrier (SCC). According to the architecture and working principle of CA, a PCC UE consumes more Issue 07 (2016-04-29)


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baseband processing resources than a non-CA UE performing data services, and an SCC UE consumes less baseband processing resources than a non-CA UE performing data services. The number of CA UEs provided by Huawei is based on the smartphone traffic model. The following table lists the maximum number of CA UEs per baseband processing board. Table 6-34 Maximum number of CA UEs per baseband processing board Board

Maximum Number of 2CC CA UEs

Maximum Number of 3CC CA UEs

LBBPc

0

0

LBBPd1

350 (350 PCC + 350 SCC)

230 (230 PCC + 230 SCC + 230 SCC)

LBBPd2

350 (350 PCC + 350 SCC)

230 (230 PCC + 230 SCC + 230 SCC)

LBBPd3

400 (400 PCC + 400 SCC)

260 (260 PCC + 260 SCC + 260 SCC)

UBBPd3

750 (750 PCC + 750 SCC)

500 (500 PCC + 500 SCC + 500 SCC)

UBBPd4

750 (750 PCC + 750 SCC)

500 (500 PCC + 500 SCC + 500 SCC)

UBBPd5

1100 (1100 PCC + 1100 SCC)

730 (730 PCC + 730 SCC + 730 SCC)

UBBPd6

1100 (1100 PCC + 1100 SCC)

730 (730 PCC + 730 SCC + 730 SCC)

UBBPda

1100 (1100 PCC + 1100 SCC)

730 (730 PCC + 730 SCC + 730 SCC)

NOTE

l The LBBPc board is not recommended for carrying PCCs due to its limited processing capabilities. However, this board can be used to carry SCCs. l In the smartphone traffic model, the calculation result of the formula (Number of non-CA UEs carried on a baseband processing board + Number of PCCs on the board x [1 + (N – 1) x 0.5] + Number of SCCs on the board x 0.5) is less than or equal to the maximum number of UEs in RRC Connected mode supported by the board. N is the number of component carriers used for CA. For example, the value of N is 2 for 2CC CA. l

The maximum number of PCCs supported by a board cannot exceed the value listed in the preceding table. Use the UBBPd3 board as an example. The board supports a maximum of 750 PCCs@2CC CA or 500 PCCs@3CC CA even when it carries only PCCs.

l

In the smartphone traffic model, the calculation result of the formula (Number of non-CA UEs + Number of PCCs + Number of SCCs carried on a board) is less than or equal to the maximum number of UEs in RRC Connected mode supported by the board.

CPRI Specifications The following table lists the specifications of CPRI ports on LBBP boards. Issue 07 (2016-04-29)


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Table 6-35 Specifications of CPRI ports on LBBP boards Board



Topology Type

LBBPc

6

1.25, 2.5, or 4.9


LBBPd

6

1.25, 2.5, 4.9, 6.144, or 9.8





Topology Type

UBBPd

6

1.25, 2.5, 4.9, or 6.144/9.8


The following table lists the number of cells supported when different CPRI data rates are used. Table 6-37 Mapping between the CPRI port rate and the number of cells in an LTE FDD scenario CPRI Port Rate (Gbit/s)

Number of 2T4R or 4T4R Cells



1.25

4x4 MIMO cells are not recommended because the transmission bandwidth of CPRI ports is limited.

l 4 (cell bandwidth ≤ 3 MHz)





l 2 (cell bandwidth ≤ 10 MHz) l 1 (cell bandwidth = 15 MHz or 20 MHz)

2.5

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1 (cell bandwidth ≤ 10 MHz)





l 1 (cell bandwidth = 15 MHz or 20 MHz)



73







4.9
















6.144

9.8

l 5 (cell bandwidth = 15 MHz or 20 MHz) l 16 (cell bandwidth ≤ 10 MHz) l 8 (cell bandwidth = 15 MHz or 20 MHz)

Transmission Ports The following table lists transmission ports on a BBU working in LTE FDD mode. Table 6-38 Transmission ports on a BBU working in LTE FDD mode Mode

Transmission Port UTRPc: 4 FE/GE electrical ports and 2 FE/GE optical ports

LTE FDD

LMPT: 2 FE/GE electrical ports, 2 FE/GE optical ports, or 1 FE/GE optical port + 1 FE/GE electrical port UMPTa/UMPTb: 1 E1/T1 port (4 E1s/T1s), 1 FE/GE electrical port, and 1 FE/GE optical port

6.1.4 Technical Specifications of the eNodeB TDD This section describes the capacity specifications, cell specifications, number of UEs in RRC Connected mode, number of DRBs, throughput specifications, signaling specifications, and transmission ports of an eNodeB TDD.

Traffic Model On live networks, the service capacity of an eNodeB TDD depends on system processing capacities as well as the traffic model used. This section describes two traffic models: datacard traffic model and smartphone traffic model. Issue 07 (2016-04-29)


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l

The datacard traffic model derives from a typical LTE network where data cards make up a large proportion of all admitted terminals. LTE dongle and customer premises equipment (CPE) are examples of such data cards. UEs in this traffic model are characterized by long online duration, low mobility, and many large-packet data services.

l

The smartphone traffic model derives from a typical LTE network where smartphones make up a large proportion of all admitted terminals. UEs in this traffic model are characterized by short online duration, frequent network access and release, high mobility, and many small-packet data services.

The following table describes the control plane (CP) traffic models for the datacard and smartphone traffic models. NOTE (1):

Service models described in the following table are obtained in busy hours. @BH refers to at busy hour.

Table 6-39 CP traffic models for the datacard and smartphone traffic models

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Traffic Model Item



PS Call Attempt Number per User @BH(1) (times)

180

20

Dedicated Bearer Attempt Number per User @BH (times)

5

1

TAU & Attach & Detach per User @BH (times)

30

5

Intra-eNodeB Handover Number per User @BH (times)

10

1

Inter-eNodeB X2 Based Handover Out Attempt Number per User @BH (times)

40

2

Inter-eNodeB X2 Based Handover In Attempt Number per User @BH (times)

40

2

Inter-eNodeB S1 Based Handover Out Attempt Number per User @BH (times)

0

0

Inter-eNodeB S1 Based Handover In Attempt Number per User @BH (times)

0

0

Inter-RAT Handover Attempt Number per User @BH (times)

3

0

Inter-RAT Redirection Attempt Number per User @BH (times)

12

0


75



Traffic Model Item



CSFB Based Inter-RAT Handover Attempt Number per User @BH (times)

0

0

CSFB Based Inter-RAT Redirection Attempt Number per User @BH (times)

5

0

CA Scell Configuration Update Attempt Number per User @BH (times)

10

0

Syn2Unsyn Attempt Number per User @BH (times)

0

0

Unsyn2Syn Attempt Number per User @BH (times)

0

0

RRC Re-Establish Number per User @BH (times)

2

0

Paging number @BH (times)

1260000

100000

The following table describes the user plane (UP) traffic model for the smartphone traffic model. Table 6-40 UP traffic model for the smartphone traffic model

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Service Type




Web browsing & Email

35.00

250

15

Video downloading, uploading & streaming

0.35

20000

50

SNS

15.00

200

4

IM

15.00

5

0.7

Music & APP downloading & Streaming

0.50

5000

30

File sharing & Storage

0.10

400

0.1


76



Service Type




Video Call

0.20

3000

1

Heart beat

25.00

0.1

1

Other

8.85

50

1

The following table describes the UP traffic model for the datacard traffic model. Table 6-41 UP traffic model for the datacard traffic model Service Type

UL Traffic Volume per PS Call (KB)


FTP

600

6000

Capacity Specifications The following table provides the capacity specifications of an eNodeB TDD. Table 6-42 Capacity specifications of an eNodeB TDD Item

Specifications

Maximum number of cells per BBU

l When configured with an LMPT: – BBU3900: 18 cells (2T2R/4T4R, 5/10/15/20 MHz) or 12 cells (8T8R, 10/15/20 MHz) – BBU3910: 18 cells (2T2R/4T4R, 5/10/15/20 MHz or 8T8R, 10/15/20 MHz) l When configured with a UMPTa/UMPTb: – BBU3900: 24 cells (2T2R/4T4R, 5/10/15/20 MHz) or 12 cells (8T8R, 10/15/20 MHz) – BBU3910: 36 cells (2T2R/4T4R, 5/10/15/20 MHz) or 18 cells (8T8R, 10/15/20 MHz)

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Item

Specifications

Maximum throughput per eNodeB TDD

l When configured with an LMPT: The uplink data rate at the MAC layer is 300 Mbit/s; the downlink data rate at the MAC layer is 450 Mbit/s. l When configured with a UMPTa/UMPTb: – 1 UMPTa/UMPTb: The sum of uplink and downlink data rates at the MAC layer is 1500 Mbit/s. – 2 UMPTa/UMPTb boards(2): The sum of uplink and downlink data rates at the MAC layer is 3000 Mbit/s.

Maximum number of UEs in RRC Connected mode per eNodeB TDD

l When configured with an LMPT: – Datacard traffic model: 5400 – Smartphone traffic model: 800 l When configured with a UMPTa/UMPTb: – Datacard traffic model: 10800 – Smartphone traffic model: 8000 (The recommended board configuration is 1 UMPTb + 4 UBBPd6/UBBPd9.)

Maximum number of DRBs per UE

l When configured with an LMPT: 16200 l When configured with a UMPTa/UMPTb: 32400

NOTE

l Cell specifications and DRB specifications do not vary depending on the traffic model. l The maximum number of UEs in RRC Connected mode varies depending on the traffic model, on the prerequisite that network performance is ensured. This document provides the maximum number of UEs in RRC Connected mode in Huawei-defined smartphone and datacard traffic models. l

(2):

When two main control boards are configured, transmission extension is supported when two UMPTa or UMPTb boards are configured. The maximum throughput per eNodeB TDD can reach 3000 Mbit/s in this scenario. Transmission extension is not supported when 1 UMPTa/UMPTb + 1 LMPT are configured. The maximum throughput per eNodeB TDD is 1500 Mbit/s in this scenario.

Cell Specifications of Baseband Processing Boards The following table describes cell specifications of an LBBP working in LTE TDD mode.

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Table 6-43 Cell specifications of an LBBP Board

Number of Cells



LBBPc

3

5/10/20


LBBPd2

3

5/10/15/20

3x20 MHz 2T2R 3x20 MHz 4T4R

LBBPd4

3

10/20

3x20 MHz 8T8R

The following table describes cell specifications of a UBBP working in LTE TDD mode. Table 6-44 Cell specifications of a UBBP Board

Number of Cells



UBBPd4

3

5/10/15/20


UBBPd6

6

5/10/15/20


UBBPd9

3

10/15/20

3x20 MHz 8T8R

Maximum Number of UEs in RRC Connected Mode The following table lists the maximum number of UEs in RRC Connected mode supported by an eNodeB TDD cell. Table 6-45 Maximum number of UEs in RRC Connected mode per eNodeB TDD cell Cell Bandwidth


5 MHz

600

10/15/20 MHz

1200

The following table lists the maximum number of UEs in RRC Connected mode supported by the main control board working in LTE TDD mode. Issue 07 (2016-04-29)


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Table 6-46 Maximum number of UEs in RRC Connected mode supported by the main control board Board

Maximum Number of UEs in RRC Connected Mode (Datacard Traffic Model)

Maximum Number of UEs in RRC Connected Mode (Smartphone Traffic Model)

LMPT

5400

800

UMPTa

10800

1500

UMPTb

10800

2000

The following table lists the maximum number of UEs in RRC Connected mode supported by the LBBP board working in LTE TDD mode. Table 6-47 Maximum number of UEs in RRC Connected mode supported by the LBBP board Board

Cell Bandwidt h



LBBPc

5 MHz

1800

300

10 MHz

1800

350

20 MHz

1800 (2T2R), 1200 (4T4R)

350

5 MHz

1800

700

10/15/20 MHz

3600

700

5 MHz

1800

700

10/15/20 MHz

3600

700

LBBPd2

LBBPd4

The following table lists the maximum number of UEs in RRC Connected mode supported by the UBBP board working in LTE TDD mode. Table 6-48 Maximum number of UEs in RRC Connected mode supported by the UBBP board

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Board

Cell Bandwidt h



UBBPd 4

5 MHz

1800

900


80



Board

Cell Bandwidt h



10/15/20 MHz

3600

1500

UBBPd 6

5 MHz

1800

1800

10/15/20 MHz

3600

2200

UBBPd 9

10 MHz

3600

1800

15/20 MHz

3600

2200

Table 6-49 provides the maximum number of UEs in RRC Connected mode when an eNodeB TDD uses the typical board combination and the datacard traffic model. Table 6-60 provides the maximum number of UEs in RRC Connected mode when an eNodeB TDD uses the typical board combination and smartphone traffic model. Table 6-49 Maximum number of UEs in RRC Connected mode per eNodeB TDD Board Combination


1 UMPT + 3 LBBPc

5400 (2T2R) or 3600 (4T4R)

1 UMPTb + 6 LBBPd2/UBBPd4

10800

NOTE

Specifications in the preceding table are provided based on the assumption that the cell bandwidth is 20 MHz.

Maximum number of DRBs The maximum number of DRBs per UE is 8. The maximum number of DRBs per LMPT/LBBP/UBBP/UMPT is three times the maximum number of UEs in RRC Connected mode per board.

Throughput The following table provides the uplink and downlink throughput supported by an eNodeB TDD cell. Issue 07 (2016-04-29)


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Table 6-50 Maximum uplink and downlink throughput per eNodeB TDD cell (20 MHz, DL 64QAM, UL 16QAM) Cell Bandwi dth

Transm it and Receive Mode

Subfra me Configu ration

SA1 (2:2) 2T2R SA2 (3:1)

SA1 (2:2)

20 MHz

4T4R

SA2 (3:1)

One 8T8R channel

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SA1 (2:2)

MultiAntenna Technique

Cell Throughput (CAT4 UE)


DL 2x2 MIMO

80 Mbit/s

80 Mbit/s

UL 1x2 SIMO

22 Mbit/s

22 Mbit/s

DL 2x2 MIMO

110 Mbit/s

110 Mbit/s

UL 1x2 SIMO

11 Mbit/s

11 Mbit/s

DL 2x2 MIMO

80 Mbit/s

80 Mbit/s

DL 4x4 MIMO

Not supporting

121 Mbit/s @ UBBPd

UL 1x4 SIMO

22 Mbit/s

22 Mbit/s

UL 2x4 multi-user MIMO (MUMIMO)

30 Mbit/s

30 Mbit/s

DL 2x2 MIMO

110 Mbit/s

110 Mbit/s

77 Mbit/s @ LBBPd

112 Mbit/s @ LBBPd

DL 4x4 MIMO

Not supporting

UL 1x4 SIMO

11 Mbit/s

11 Mbit/s


15 Mbit/s

15 Mbit/s

DL 2x2 MIMO

80 Mbit/s

80 Mbit/s


172 Mbit/s @ UBBPd

82


Cell Bandwi dth





Cell Throughput (CAT6 UE) 77 Mbit/s @ LBBPd

DL 4x4 MIMO

Not supporting

121 Mbit/s @ UBBPd

UL 1x8 SIMO

22 Mbit/s

22 Mbit/s

27 Mbit/s @ LBBPd

27 Mbit/s @ LBBPd

UL 2x8 MUMIMO DL 2x2 MIMO

SA2 (3:1)


40 Mbit/s @ UBBPd

40 Mbit/s @ UBBPd

110 Mbit/s

110 Mbit/s 112 Mbit/s @ LBBPd

DL 4x4 MIMO

Not supporting

UL 1x8 SIMO

11 Mbit/s

11 Mbit/s

13 Mbit/s @ LBBPd

13 Mbit/s @ LBBPd

UL 2x8 MUMIMO

20 Mbit/s @ UBBPd

172 Mbit/s @ UBBPd

20 Mbit/s @ UBBPd




SA1 (2:2) 15 MHz

2T2R SA2 (3:1)

Issue 07 (2016-04-29)




DL 2x2 MIMO

58 Mbit/s

58 Mbit/s

UL 1x2 SIMO

15 Mbit/s

15 Mbit/s

DL 2x2 MIMO

80 Mbit/s

80 Mbit/s

UL 1x2 SIMO

7 Mbit/s

7 Mbit/s


83


Cell Bandwi dth




SA1 (2:2)

4T4R

SA2 (3:1)

One 8T8R channel

SA1 (2:2)




DL 2x2 MIMO

58 Mbit/s

58 Mbit/s

DL 4x4 MIMO

Not supporting

UL 1x4 SIMO

15 Mbit/s

15 Mbit/s


30 Mbit/s

30 Mbit/s

DL 2x2 MIMO

80 Mbit/s

80 Mbit/s

Issue 07 (2016-04-29)

87 Mbit/s @ UBBPd

108 Mbit/s @ LBBPd

DL 4x4 MIMO

Not supporting

UL 1x4 SIMO

7 Mbit/s

7 Mbit/s


15 Mbit/s

15 Mbit/s

DL 2x2 MIMO

58 Mbit/s

58 Mbit/s

DL 4x4 MIMO

Not supporting

UL 1x8 SIMO

15 Mbit/s

15 Mbit/s

27 Mbit/s @ LBBPd

27 Mbit/s @ LBBPd

UL 2x8 MUMIMO SA2 (3:1)

74 Mbit/s @ LBBPd

DL 2x2 MIMO

125 Mbit/s @ UBBPd

74 Mbit/s @ LBBPd 87 Mbit/s @ UBBPd

30 Mbit/s @ UBBPd

30 Mbit/s @ UBBPd

80 Mbit/s

80 Mbit/s


84


Cell Bandwi dth






Cell Throughput (CAT6 UE) 108 Mbit/s @ LBBPd

DL 4x4 MIMO

Not supporting

UL 1x8 SIMO

7 Mbit/s

7 Mbit/s

13 Mbit/s @ LBBPd

13 Mbit/s @ LBBPd

UL 2x8 MUMIMO

15 Mbit/s @ UBBPd

125 Mbit/s @ UBBPd

15 Mbit/s @ UBBPd




SA1 (2:2) 2T2R SA2 (3:1)

10 MHz

4T4R

Issue 07 (2016-04-29)

SA1 (2:2)




DL 2x2 MIMO

40 Mbit/s

40 Mbit/s

UL 1x2 SIMO

10 Mbit/s

10 Mbit/s

DL 2x2 MIMO

52 Mbit/s

52 Mbit/s

UL 1x2 SIMO

5 Mbit/s

5 Mbit/s

DL 2x2 MIMO

40 Mbit/s

40 Mbit/s

DL 4x4 MIMO

Not supporting

57 Mbit/s

UL 1x4 SIMO

10 Mbit/s

10 Mbit/s


20 Mbit/s

19 Mbit/s


85


Cell Bandwi dth




SA2 (3:1)

SA1 (2:2)

One 8T8R channel

SA2 (3:1)




DL 2x2 MIMO

52 Mbit/s

52 Mbit/s

DL 4x4 MIMO

Not supporting

83 Mbit/s

UL 1x4 SIMO

5 Mbit/s

5 Mbit/s


8 Mbit/s

8 Mbit/s

DL 2x2 MIMO

40 Mbit/s

40 Mbit/s

DL 4x4 MIMO

Not supporting

57 Mbit/s

UL 1x8 SIMO

10 Mbit/s

10 Mbit/s

UL 2x8 MUMIMO

20 Mbit/s

20 Mbit/s

DL 2x2 MIMO

52 Mbit/s

52 Mbit/s

DL 4x4 MIMO

Not supporting

83 Mbit/s

UL 1x8 SIMO

5 Mbit/s

5 Mbit/s

UL 2x8 MUMIMO

10 Mbit/s

10 Mbit/s

Table 6-53 Maximum uplink and downlink throughput per eNodeB TDD cell (5 MHz, DL 64QAM, UL 16QAM)

Issue 07 (2016-04-29)

Cell Band width


5 MHz

2T2R

Subfra me Configu ration SA1 (2:2)




DL 2x2 MIMO

18 Mbit/s

18 Mbit/s


86


Cell Band width




SA2 (3:1)

SA1 (2:2)

4T4R

SA2 (3:1)




UL 1x2 SIMO

4 Mbit/s

4 Mbit/s

DL 2x2 MIMO

25 Mbit/s

25 Mbit/s

UL 1x2 SIMO

2 Mbit/s

2 Mbit/s

DL 2x2 MIMO

18 Mbit/s

18 Mbit/s

UL 1x4 SIMO

4 Mbit/s

5 Mbit/s


10 Mbit/s

10 Mbit/s

DL 2x2 MIMO

25 Mbit/s

25 Mbit/s

UL 1x4 SIMO

2 Mbit/s

2 Mbit/s


5 Mbit/s

5 Mbit/s

The following table provides the uplink and downlink throughput supported by an eNodeB TDD cell. Table 6-54 Maximum uplink and downlink throughput per UE supported by the eNodeB TDD (20 MHz, DL 64QAM, UL 16QAM) Cell Band width

20 MHz

Issue 07 (2016-04-29)


2T2R


SA1 (2:2)


UE Throughput (CAT4 UE)


DL 2x2 MIMO

80 Mbit/s

80 Mbit/s

UL 1x2 SIMO

20 Mbit/s

20 Mbit/s


87


Cell Band width




SA2 (3:1)

SA1 (2:2)

4T4R

SA2 (3:1)

SA1 (2:2)

One 8T8R channel SA2 (3:1)

Issue 07 (2016-04-29)




DL 2x2 MIMO

110 Mbit/s

110 Mbit/s

UL 1x2 SIMO

10 Mbit/s

10 Mbit/s

DL 2x2 MIMO

80 Mbit/s


DL 4x4 MIMO

Not supporting

121 Mbit/s @ UBBPd

UL 1x4 SIMO

20 Mbit/s

20 Mbit/s

DL 2x2 MIMO

110 Mbit/s


DL 4x4 MIMO

Not supporting

UL 1x4 SIMO

10 Mbit/s

10 Mbit/s

DL 2x2 MIMO

80 Mbit/s

80 Mbit/s

DL 4x4 MIMO

Not supporting

UL 1x8 SIMO

20 Mbit/s

20 Mbit/s

DL 2x2 MIMO

110 Mbit/s

110 Mbit/s

DL 4x4 MIMO

Not supporting

UL 1x8 SIMO

10 Mbit/s


172 Mbit/s @ UBBPd

77Mbps @ LBBPd 121Mbps @ UBBPd

112 Mbit/s @ LBBPd 172 Mbit/s @ UBBPd 10 Mbit/s

88



Table 6-55 Maximum uplink and downlink throughput per UE supported by the eNodeB TDD (15 MHz, DL 64QAM, UL 16QAM) Cell Band width



SA1 (2:2) 2T2R SA2 (3:1)

SA1 (2:2)

4T4R 15 MHz

SA2 (3:1)

SA1 (2:2) One 8T8R channel SA2 (3:1)

Issue 07 (2016-04-29)




DL 2x2 MIMO

58 Mbit/s

58 Mbit/s

UL 1x2 SIMO

15 Mbit/s

15 Mbit/s

DL 2x2 MIMO

80 Mbit/s

80 Mbit/s

UL 1x2 SIMO

7 Mbit/s

7 Mbit/s

DL 2x2 MIMO

58 Mbit/s

58 Mbit/s

DL 4x4 MIMO

Not supporting

UL 1x4 SIMO

15 Mbit/s

15 Mbit/s

DL 2x2 MIMO

80 Mbit/s

80 Mbit/s


108 Mbit/s @ LBBPd

DL 4x4 MIMO

Not supporting

UL 1x4 SIMO

7 Mbit/s

7 Mbit/s

DL 2x2 MIMO

58 Mbit/s

58 Mbit/s

DL 4x4 MIMO

Not supporting

UL 1x8 SIMO

15 Mbit/s

15 Mbit/s

DL 2x2 MIMO

80 Mbit/s

80 Mbit/s

DL 4x4 MIMO

Not supporting


125 Mbit/s @ UBBPd



89


Cell Band width







UL 1x8 SIMO

7 Mbit/s

7 Mbit/s




SA1 (2:2) 2T2R SA2 (3:1)

SA1 (2:2) 10MHz 4T4R

SA2 (3:1)

One 8T8R channel

Issue 07 (2016-04-29)

SA1 (2:2)




DL 2x2 MIMO

40 Mbit/s

40 Mbit/s

UL 1x2 SIMO

10 Mbit/s

10 Mbit/s

DL 2x2 MIMO

52 Mbit/s

52 Mbit/s

UL 1x2 SIMO

5 Mbit/s

5 Mbit/s

DL 2x2 MIMO

40 Mbit/s

40 Mbit/s

DL 4x4 MIMO

Not supporting

57 Mbit/s

UL 1x4 SIMO

10 Mbit/s

10 Mbit/s

DL 2x2 MIMO

52 Mbit/s

52 Mbit/s

DL 4x4 MIMO

Not supporting

83 Mbit/s

UL 1x4 SIMO

5 Mbit/s

5 Mbit/s

DL 2x2 MIMO

40 Mbit/s

40 Mbit/s

DL 4x4 MIMO

Not supporting

57 Mbit/s

UL 1x8 SIMO

10 Mbit/s

10 Mbit/s


90


Cell Band width




SA2 (3:1)




DL 2x2 MIMO

52 Mbit/s

52 Mbit/s

DL 4x4 MIMO

Not supporting

83 Mbit/s

UL 1x8 SIMO

5 Mbit/s

5 Mbit/s




SA1 (2:2) 2T2R SA2 (3:1) 5MHz SA1 (2:2) 4T4R SA2 (3:1)

Issue 07 (2016-04-29)




DL 2x2 MIMO

18 Mbit/s

18 Mbit/s

UL 1x2 SIMO

4 Mbit/s

4 Mbit/s

DL 2x2 MIMO

25 Mbit/s

25 Mbit/s

UL 1x2 SIMO

2 Mbit/s

2 Mbit/s

DL 2x2 MIMO

18 Mbit/s

18 Mbit/s

UL 1x4 SIMO

4 Mbit/s

4 Mbit/s

DL 2x2 MIMO

25 Mbit/s

25 Mbit/s

UL 1x4 SIMO

2 Mbit/s

2 Mbit/s


91



Table 6-58 Maximum uplink and downlink throughput per baseband processing board supported by eNodeB TDD Board

Maximum Downlink Throughput per Baseband Processing Board (Mbit/s)

Maximum Uplink Throughput per Baseband Processing Board (Mbit/s)

LBBPc

300

100

LBBPd2

600

225

LBBPd4

600

225

UBBPd4

600

225

UBBPd6

900

450

UBBPd9

l 660 with a subframe configuration of SA1




Signaling Specifications of an eNodeB TDD Busy Hour Call Attempts (BHCA) is the number of call attempts at a busy hour. Signaling procedures required for completing a call may include the following: call setup, call release (including CSFB if it occurs), handover, tracking area update (TAU), RB setup and release, and transition from the uplink-synchronized state to the uplink-asynchronized state. BHCA indicates the signaling processing capabilities of a system. A busy hour call initiated on different operators' networks involves different types and numbers of signaling procedures and therefore consumes different amount of eNodeB resources. As a result, the BHCA capability varies depending on the call model. The BHCA specifications provided by Huawei are based on the smartphone traffic model. The following table lists the signaling specifications of the LMPT, UMPT, LBBP, and UBBP boards in the smartphone traffic model. Table 6-59 Signaling specifications of the LMPT, UMPT, LBBP, and UBBP boards working in LTE TDD mode

Issue 07 (2016-04-29)

Board


UMPTa6

270000

UMPTb1/UMPTb2

360000

LMPT

144000

LBBPc

63000

LBBPd2/LBBPd4

126000

UBBPd4

270000 Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.

92



Board


UBBPd6/UBBPd9

396000

The following table lists the signaling specifications and the maximum number of UEs in RRC Connected mode supported by an eNodeB TDD when the smartphone traffic model is used. Table 6-60 Signaling specifications and maximum number of UEs in RRC Connected mode supported by an eNodeB TDD (smartphone traffic model) Board Combination



1 LMPT + 2 LBBPc

126000

700

1 LMPT + 1 LBBPc + 1 LBBPd2

144000

800

1 UMPTb + 2 LBBPd2

288000

1600

1 UMPTb + 1 LBBPc + 2 LBBPd2

315000

1750

1 UMPTb + 2 UBBPd4

540000

3000

1 UMPTb + 2 UBBPd6

792000

4400

1 UMPTb + 2 UBBPd9

792000

4400

1 UMPTb + 1 LBBPd2 + 2 UBBPd6

918000

5100

1 UMPTb + 4 UBBPd6

1440000

8000

1 LMPT + 1 UMPTb + 1 LBBPc + 1 LBBPd2 + 2 UBBPd6

981000

5450

2 UMPTb + 1 LBBPc + 1 LBBPd2 + 1 UBBPd4

459000

2550

NOTE

The signaling specifications of an eNodeB cannot exceed 1,440,000 BHCA.

CPRI Specifications The following table lists the specifications of CPRI ports on LBBP boards.

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93



Table 6-61 Specifications of CPRI ports on LBBP boards Board



Topology Type

LBBPc

6

1.25, 2.5, or 4.9


LBBPd

6

1.25, 2.5, 4.9, 6.144, or 9.8





Topology Type

UBBPd

6

1.25, 2.5, 4.9, or 6.144/9.8


The following table lists the number of cells supported when different CPRI data rates are used. Table 6-63 Mapping between the CPRI port rate and the number of cells in an LTE TDD scenario

Issue 07 (2016-04-29)


CPRI Compression




2.5

Not in use

None

l 2 (cell bandwidth = 5 MHz)




l None (cell bandwidth = 15 MHz or 20 MHz)



94



4.9


CPRI Compression




In use

None

l None (cell bandwidth = 5 MHz)

































Not in use

In use

9.8

Issue 07 (2016-04-29)

Not in use


95




CPRI Compression




In use










Transmission Port The following table lists transmission ports on a BBU working in LTE TDD mode. Table 6-64 Transmission ports on a BBU working in LTE TDD mode Mode

Transmission Port UTRPc: 4 FE/GE electrical ports and 2 FE/GE optical ports

LTE TDD

LMPT: 2 FE/GE electrical ports, 2 FE/GE optical ports, or 1 FE/GE optical port + 1 FE/GE electrical port UMPTa/UMPTb: 1 E1/T1 port (4 E1s/T1s), 1 FE/GE electrical port, and 1 FE/GE optical port

6.1.5 Technical Specifications of the Multimode Base Station This section describes the capacity specifications, baseband specifications, and signaling specifications of the 3900 series base stations working in multimode.

Capacity Specifications The following tables list the capacity specifications of the 3900 series base stations working in multimode.

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96



NOTE a:

If a GSM site is configured with 72 TRXs (G24/24/24), each TRX can be configured with one Standalone Dedicated Control Channel (SDCCH) only; if a GSM site is configured with 24 TRXs (G8/8/8), each TRX can be configured with three SDCCHs. For GSM, GA/A/A indicates that a GSM site is configured with three cells and each cell has A TRXs. For UMTS, BxC indicates that a UMTS site is configured with B sectors and each sector has C carriers. For LTE, DxE MHz indicates that an LTE site is configured with D cells and each cell is configured with E MHz bandwidth. The capacity specifications of a UL dual-mode base station are the same as those in a GUL triple-mode base station.

Table 6-65 GU capacity specifications BBU Type

Capacity

Board Configuration

BBU3900

l When the GTMUb works as the main control board of a GBTS: GSM G24/24/24 + UMTS 3x8 (uplink: 5120 CEs, downlink: 5120 CEs)

1 GTMUb + 1 UMPTb + 5 UBBPd6 boards

l When the GTMUb works as the main control board of an eGBTS: GSM G8/8/8 + UMTS 3x8 (uplink: 5120 CEs, downlink: 5120 CEs) BBU3900

GSM G24/24/24 + UMTS 3x8 (uplink: 5120 CEs, downlink: 5120 CEs)

1 GTMUc + 1 UMPTb + 5 UBBPd6 boards

BBU3900

GSM G24/24/24a + UMTS 3x8 (uplink: 5120 CEs, downlink: 5120 CEs)

1 UMPTb_GU + 5 UBBPd6 boards

BBU3910

l When the GTMUb works as the main control board of a GBTS: GSM G24/24/24 + UMTS 3x16 (uplink: 5120 CEs, downlink: 5120 CEs)


l When the GTMUb works as the main control board of an eGBTS: GSM G8/8/8 + UMTS 3x16 (uplink: 5120 CEs, downlink: 5120 CEs)

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BBU3910



BBU3910


1 UMPTb_GU + 5 UBBPd6 boards


97



Table 6-66 GL capacity specifications BBU Type

Capacity

Board Configuration

BBU3900/ BBU3910

l When the GTMUb works as the main control board of a GBTS: GSM G24/24/24 + LTE FDD 30 cells (2T2R, 20 MHz bandwidth, sum of uplink and downlink data rates for an eNodeB at the MAC layer: 1500 Mbit/s)


l When the GTMUb works as the main control board of an eGBTS: GSM G8/8/8 + LTE FDD 30 cells (2T2R, 20 MHz bandwidth, sum of uplink and downlink data rates for an eNodeB at the MAC layer: 1500 Mbit/s) BBU3900/ BBU3910

GSM G24/24/24 + LTE FDD 30 cells (2T2R, 20 MHz bandwidth, sum of uplink and downlink data rates for an eNodeB at the MAC layer: 1500 Mbit/s)


BBU3900/ BBU3910

GSM G24/24/24a + LTE FDD 36 cells (2T2R, 10/15/20 MHz bandwidth, 10800 UEs in RRC connected mode, sum of uplink and downlink data rates for an eNodeB at the MAC layer: 1500 Mbit/s)

1 UMPTb_GL + 6 UBBPd6 boards

Table 6-67 GUL capacity specifications

Issue 07 (2016-04-29)

BBU Type

Capacity

Board Configuration

BBU3900/ BBU3910

GSM G24/24/24a + UMTS 18 cells + LTE FDD 18 cells (2T2R, 10/15/20 MHz bandwidth, 10800 UEs in RRC connected mode)

1 UMPTb + 3 UBBPd5_U boards + 3 UBBPd5_L boards


98



BBU Type

Capacity

Board Configuration

BBU3900

l When the GTMUb works as the main control board of a GBTS: GSM G24/24/24 + UMTS 18 cells + LTE FDD 12 cells (2T2R, 10/15/20 MHz bandwidth, 7200 UEs in RRC connected mode)

1 GTMUb + 1 UMPTb_UL + 3 UBBPd6_U boards + 2 UBBPd5_L boards

l When the GTMUb works as the main control board of an eGBTS: GSM G8/8/8 + UMTS 18 cells + LTE FDD 12 cells (2T2R, 10/15/20 MHz bandwidth, 7200 UEs in RRC connected mode) BBU3900

GSM G24/24/24 + UMTS 18 cells + LTE FDD 12 cells (2T2R, 10/15/20 MHz bandwidth, 7200 UEs in RRC connected mode)

1 GTMUc + 1 UMPTb_UL + 3 UBBPd6_U boards + 2 UBBPd5_L boards

BBU3900

GSM G24/24/24a + UMTS 18 cells (3x2 + 3x4) + LTE FDD 18 cells (2T2R, 10/15/20 MHz bandwidth, 10800 UEs in RRC connected mode)

1 WMPT + 1 UMPTb_GL + 3 UBBPd5_U boards + 3 UBBPd5_L boards

BBU3910

l When the GTMUb works as the main control board of a GBTS: GSM G24/24/24 + UMTS 36 cells + LTE FDD 12 cells (2T2R, 10/15/20 MHz bandwidth, 7200 UEs in RRC connected mode)

1 GTMUb + 1 UMPTb_UL + 3 UBBPd6_U boards + 2 UBBPd5_L boards

l When the GTMUb works as the main control board of an eGBTS: GSM G8/8/8 + UMTS 36 cells + LTE FDD 12 cells (2T2R, 10/15/20 MHz bandwidth, 7200 UEs in RRC connected mode) BBU3910

GSM G24/24/24 + UMTS 36 cells + LTE FDD 12 cells (2T2R, 10/15/20 MHz bandwidth, 7200 UEs in RRC connected mode)

1 GTMUc + 1 UMPTb_UL + 3 UBBPd6_U boards + 2 UBBPd5_L boards

Co-BBP Baseband Specifications In co-BBP scenarios, the baseband signals of multiple modes are processed by one baseband processing board. Co-BBP baseband specifications described here refer to the maximum Issue 07 (2016-04-29)


99



baseband specifications of a baseband processing board when it processes baseband signals of multiple modes at the same time. For example, baseband specifications of GL co-BBP refer to the maximum baseband specifications of a baseband processing board when it processes GSM and LTE FDD baseband signals at the same time. The following tables provide the baseband specifications in GU, GL, UL, and GUL co-BBP scenarios, respectively. NOTE

In GL, UL, or GUL co-BBP scenarios, the UBBPd board does not support hybrid configuration of 2R and 4R LTE FDD cells.

Table 6-68 Baseband specifications of GU co-BBP

Issue 07 (2016-04-29)

Board Type

GSM TRX

Numbe r of UMTS Cells

Numbe r of UMTS Uplink CEs

Numbe r of UMTS Downli nk CEs

Numbe r of UMTS HSDPA Codes

Numbe r of UMTS HSDPA Users

Numbe r of UMTS HSUPA Users

UBBPd1

12

6

192

256

6 x 15

144

144

UBBPd2

12

6

256

384

6 x 15

192

192

UBBPd3

12

6

192

256

6 x 15

144

144

UBBPd4

12

6

256

384

6 x 15

192

192

UBBPd5

18

6

384

512

6 x 15

288

288

UBBPd6

24

6

512

768

6 x 15

384

384


100



Table 6-69 Baseband specifications of GL co-BBP Board Type

GSM TRX

Maximum Number of LTE FDD Cells

Maximum Number of LTE FDD UEs in RRC Connected Mode (Datacard Traffic Model)

Maximum Number of LTE FDD UEs in RRC Connected Mode (Smartpho ne Traffic Model)

LTE FDD Maximum Throughpu t (Mbit/s)

UBBPd3

12

3 (2R cells, with 1.4/3/5/10 MHz bandwidth)

l 504 with 1.4 MHz bandwidt h


l Downlin k: 225

l 1080 with 3 MHz bandwidt h

l 600 with 3/5/10/15 /20 MHz bandwidt h

l Uplink: 112.5

l 1800 with 5 MHz bandwidt h l 3600 with 10 MHz bandwidt h

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101



Board Type

GSM TRX





UBBPd4

12

3 (2R cells, with 1.4/3/5/10 MHz bandwidth)



l Downlin k: 220



l Uplink: 112.5

l 1800 with 5 MHz bandwidt h l 3600 with 10 MHz bandwidt h UBBPd5

18

3 (2R or 4R cells, with 1.4/3/5/10/1 5/20 MHz bandwidth)





l Downlin k: 600 l Uplink: 225

l 1800 with 5 MHz bandwidt h l 3600 with 10/15/20 MHz bandwidt h

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102



Board Type

GSM TRX





UBBPd6

24

3 (2R or 4R cells, with 1.4/3/5/10/1 5/20 MHz bandwidth)



l Downlin k: 600



l Uplink: 225

l 1800 with 5 MHz bandwidt h l 3600 with 10/15/20 MHz bandwidt h

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103



Table 6-70 Baseband specifications of UL co-BBP Boar d Type

N u m be r of U M TS Ce lls

Nu mb er of U M TS Up lin k CE s

Nu mb er of U M TS Do wn lin k CE s

Nu mb er of U M TS HS DP A Co des

Nu mb er of U M TS HS DP A Us ers

Nu mb er of UM TS HS UP A Use rs

Maxim um Numbe r of LTE FDD Cells

Maxim um Numbe r of LTE FDD UEs in RRC Connec ted Mode (Dataca rd Traffic Model)

Maxim um Numbe r of LTE FDD UEs in RRC Connec ted Mode (Smart phone Traffic Model)

LTE FDD Maxim um Throug hput (Mbit/s )

UBB Pd6

6

512

768

6x 15

384

384

3 (2R or 4R cells, with 1.4/3/5/1 0/15/20 MHz bandwid th)

l 504 with 1.4 MHz band width

l 504 with 1.4 MHz band width

l Dow nlink : 600

l 1080 with 3 MHz band width

l 800 with 3/5/1 0/15/ 20 MHz band width

l 1800 with 5 MHz band width

l Uplin k: 225

l 3600 with 10/15 /20 MHz band width

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104



Table 6-71 Baseband specifications of GUL co-BBP Boar d Typ e

G S M T R X

N u m be r of U M TS Ce lls

N u m be r of U M TS Up lin k CE s

N u m be r of U M T S D o w nl in k C Es

N u m be r of U M TS H S D P A Co de s

N u m be r of U M TS H S D P A Us ers

N u m be r of U M TS H S U P A Us ers

Maxim um Numb er of LTE FDD Cells

Maxim um Numbe r of LTE FDD UEs in RRC Connec ted Mode (Dataca rd Traffic Model)

Maxim um Numbe r of LTE FDD UEs in RRC Connec ted Mode (Smart phone Traffic Model)

LTE FDD Maxim um Throug hput (Mbit/s )

UBB Pd6

12

6

25 6

38 4

6x 15

19 2

19 2

3 (2R or 4R cells, with 1.4/3/5/ 10/15/2 0 MHz bandwi dth)

l 504 with 1.4 MHz band widt h

l 504 with 1.4 MHz band widt h

l Dow nlink : 600

l 1080 with 3 MHz band widt h

l 800 with 3/5/1 0/15/ 20 MHz band widt h

l 1800 with 5 MHz band widt h

l Upli nk: 225

l 3600 with 10/1 5/20 MHz band widt h

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105



Signaling Specifications Table 6-72 lists the signaling specifications of a co-MPT multimode base station with recommended configurations. NOTE

l If a GSM site is configured with 72 TRXs (G24/24/24), each TRX can be configured with one SDCCH only; if a GSM site is configured with 24 TRXs (G8/8/8), each TRX can be configured with three SDCCHs. l The specifications provided in the following table are met only when the recommended configuration is used. For example, the number of SCTP links required for GSM is met when the recommended configuration is used.

Table 6-72 Signaling specifications of a co-MPT multimode base station

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Mo de

Typical Signaling Specifications

Recommended Configuration

GU

GSM 24 TRXs + UMTS 1000 CNBAPS

1 UMPTb1 + 5 UBBPd1_U boards

GU


1 UMPTb1 + 2 UBBPd1_U boards + 1 UBRIb

GL

GSM 18 TRXs + LTE FDD 234000 BHCA

1 UMPTb1 + 2 LBBPd2 boards

GL


1 UMPTb1 + 2 LBBPd2 boards

GL


1 UMPTb1 + 1 LBBPd3 + 1 UBRIb

GL


1 UMPTb1 + 2 UBBPd3_L boards

GL


1 UMPTb1 + 1 UBBPd3_L + 1 UBRIb

UL

UMTS 350 CNBAPS + LTE FDD 180000 BHCA

1 UMPTb1 + 1 UBBPd2_U + 2 LBBPd2 boards

UL


1 UMPTb1 + 1 UBBPd2_U + 1 UBBPd3_L

UL


1 UMPTb1 + 1 UBBPd2_U + 2 UBBPd3_L boards

GUL

GSM 18 TRXs + UMTS 500 CNBAPS + LTE FDD 108000 BHCA

1 UMPTb1 + 2 UBBPd2_U boards + 1 LBBPd3

GUL


1 UMPTb1 + 2 UBBPd2_U boards + 1 UBBPd3_L

GUL


1 UMPTb1 + 4 UBBPd1_U boards + 1 LBBPd2

GUL


1 UMPTb1 + 4 UBBPd1_U boards + 1 UBBPd3_L


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6.1.6 BBU3900 and BBU3910 Engineering Specifications This section describes the engineering specifications of the BBU, including the input power specifications, dimensions, weight, heat dissipation capabilities, environmental specifications, and surge protection specifications.

Input Power Specifications The following table lists the input power specifications of the BBU. Table 6-73 Input power specifications of the BBU Type

Input Power

Voltage Range

BBU3900 (configured with the UPEUc)

-48 V DC

-38.4 V DC to -57 V DC

BBU3910 (configured with the UPEUd)

-48 V DC

-38.4 V DC to -57 V DC

Dimensions and Weight The BBU3900 and BBU3910 have the same dimensions and weight, as provided in the following table. Table 6-74 Dimensions and weight of the BBU Item

Specifications

Dimensions (H x W x D)

86 mm x 442 mm x 310 mm

Weight

l ≤ 12 kg (full configuration) l ≤ 7 kg (typical configuration)

Heat Dissipation Capabilities The following table lists the heat dissipation capabilities of the BBU. Table 6-75 Heat dissipation capabilities of the BBU

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Type

Configuration

Specifications

BBU3900

FAN

350 W

FANc

650 W


107



Type

Configuration

Specifications

BBU3910

FANd

650 W

FANe

650 W

Environmental Specifications The BBU3900 and BBU3910 have the same environmental specifications, as provided in the following table. Table 6-76 Environmental specifications of the BBU Item

Specifications

Operating temperature

l Long term: -20ºC to +55ºC

Relative humidity

5% RH to 95% RH

Protection level

IP20

Atmospheric pressure

70 kPa to 106 kPa

Noise sound power level

ETS 300 753 3.1

Storage time

It is recommended that the device be installed and used within one year after its delivery because of the failure rate.

l Short term: +55ºC to +60ºC

≤ 7.2 bels

The following table provides the surge protection standards of the BBU3900 and BBU3910.

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Table 6-77 Surge protection standards of the BBU Item

Standard

Surge protection

l IEC 62305-1 Protection against lightning - Part 1: General principles l IEC 62305-3 Protection against lightning - Part 3: Physical damage to structures and life hazard l IEC 62305-4 Protection against lightning - Part 4: Electrical and electronic systems within structures l ITU-T K.35 Bonding configurations and earthing at remote electronic sites l ITU-T K.56 Protection of radio base stations against lightning discharges l ITU-T K.97 Lightning protection of distributed base stations l ETSI EN 300 253 Environmental Engineering(EE): Earthing and bonding configuration inside telecommunications centers

6.2 Technical Specifications of the BBU3910A This section describes the technical specifications of the BBU3910A, including capacity specifications, signaling specifications, CPRI specifications, transmission port specifications, and engineering specifications.

Capacity Specifications Table 6-78 provides the capacity specifications of the BBU3910A working in GSM mode. Table 6-78 Capacity specifications of the BBU3910A working in GSM mode Module

Specifications

BBU3910A1

A single site supports a maximum of 12 cells and each cell supports a maximum of 24 TRXs. l IP over FE transmission: 72 TRXs l IP over E1 transmission: 48 TRXs

BBU3910A2 BBU3910A3

Table 6-79 provides the capacity specifications of the BBU3910A working in UMTS mode.

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Table 6-79 Capacity specifications of the BBU3910A working in UMTS mode Modul e

Number of 2R Cells

Uplink CE

Downlin k CE

Number of HSDPA Codes

Number of HSDPA UEs

Number of HSUPA UEs

BBU39 10A1

6

512

512

12 x 15

384

384

BBU39 10A2

6

768

768

12 x 15

512

512

BBU39 10A3

12

1024

1024

12 x 15

768

768

Table 6-80 provides the capacity specifications of a BBU3910A working in LTE FDD mode. Table 6-80 Capacity specifications of a BBU3910A working in LTE FDD mode Module


Maximum Throughput per eNodeB FDD (Packet Size: 550 Bytes)

Maximum Number of UEs in RRC Connected Mode per eNodeB FDD

Maximum Number of DRBs per eNodeB FDD

BBU3910A 1

3 cells (2T2R/ 2T4R/4T4R, 20 MHz)

Sum of uplink and downlink data rates at the MAC layer: 825 Mbit/s

l Datacard traffic model: 3600

10800





BBU3910A 2

6 cells (2T2R/ 2T4R, 20 MHz) 3 cells (4T4R, 20 MHz)

BBU3910A 3

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6 cells (2T2R/ 2T4R/4T4R, 20 MHz)

l Smartphone traffic model: 1500




110



NOTE

l The BBU3910A1 does not support hybrid configuration of 2R and 4R cells. l The BBU3910A2 supports hybrid configuration of 2R and 4R cells. In this configuration, a maximum of three cells are supported. l The BBU3910A3 supports hybrid configuration of 2R and 4R cells. In this configuration, a maximum of three 2R cells and three 4R cells are supported.

The maximum number of UEs in RRC Connected mode supported by a BBU3910A working in LTE FDD mode varies depending on the cell bandwidth, as listed in Table 6-81. Table 6-81 Maximum number of UEs in RRC Connected mode supported by a BBU3910A Board

BBU3910A 1

BBU3910A 2/ BBU3910A 3

Cell Bandwidth







1.4 MHz

504

504

504

504

3 MHz

1080

1080

1080

1080

5 MHz

1800

1800

1500

1500

10 MHz, 15 MHz, or 20 MHz

3600

3600

1500

1500

1.4 MHz

1008

1008

1008

1008

3 MHz

2160

2160

2160

2160

5 MHz, 10 MHz, 15 MHz, or 20 MHz

3600

3600

2200

2200

Table 6-82 lists the maximum number of UEs in RRC Connected mode per cell supported by a BBU3910A working in LTE FDD mode. Table 6-82 Maximum number of UEs in RRC Connected mode per cell supported by a BBU3910A

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Cell Bandwidth



1.4 MHz

168

168


111



Cell Bandwidth



3 MHz

360

360

5 MHz

600

600

10 MHz, 15 MHz, or 20 MHz

1200

1200

The maximum number of DRBs per UE supported by an eNodeB FDD is 8. For the uplink and downlink throughput per UE and per cell supported by an eNodeB FDD, see Table 6-28 and Table 6-29 in 6.1.3 Technical Specifications of the eNodeB FDD. Table 6-83 provides the capacity specifications of a BBU3910A working in LTE TDD mode. Table 6-83 Capacity specifications of a BBU3910A working in LTE TDD mode Module


Maximum Throughput per eNodeB TDD (Packet Size: 550 Bytes)

Maximum Number of UEs in RRC Connected Mode per eNodeB TDD

Maximum Number of DRBs per eNodeB TDD

BBU3910A1

3



10800

l 4T4R beamforming : 10 MHz, 15 MHz, or 20 MHz cell bandwidth


l DL 2x2 MIMO: 10 MHz, 15 MHz, or 20 MHz cell bandwidth l DL 4x4 MIMO: 10 MHz, 15 MHz, or 20 MHz cell bandwidth

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112



Module


Maximum Throughput per eNodeB TDD (Packet Size: 550 Bytes)

Maximum Number of UEs in RRC Connected Mode per eNodeB TDD

BBU3910A3

6



l 4T4R beamforming : 10 MHz, 15 MHz, or 20 MHz cell bandwidth

Maximum Number of DRBs per eNodeB TDD


l DL 2x2 MIMO: 10 MHz, 15 MHz, or 20 MHz cell bandwidth l DL 4x4 MIMO: 10 MHz, 15 MHz, or 20 MHz cell bandwidth

The maximum number of UEs in RRC Connected mode supported by a BBU3910A working in LTE TDD mode varies depending on the cell bandwidth, as listed in Table 6-84. Table 6-84 Maximum number of UEs in RRC Connected mode supported by a BBU3910A working in LTE TDD mode

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Boar d

Cell Band width

BBU 3910 A1

5 MHz

600

10 MHz 15 MHz

Datacard Traffic Model Maximum Number of UEs in RRC Connected Mode per Cell

Maximum Number of UEs in RRC Connected Mode per eNodeB

Smartphone Traffic Model Maximum Number of UEs in RRC Connected Mode per Cell


1800

300

450

1200

3600

600

900

1200

3600

900

1350


113


Boar d

BBU 3910 A3


Cell Band width

Datacard Traffic Model Maximum Number of UEs in RRC Connected Mode per Cell





20 MHz

1200

3600

1200

1500

5 MHz

600

1800

300

900

10 MHz

1200

3600

600

1800

15 MHz

1200

3600

900

2200

20 MHz

1200

3600

1200

2200

For the uplink and downlink throughput per cell and per UE supported by an eNodeB TDD, see Table 6-53 and Table 6-57 in 6.1.4 Technical Specifications of the eNodeB TDD. Table 6-85 provides the capacity specifications of the BBU3910A working in multiple modes. Table 6-85 Capacity specifications of the BBU3910A working in multiple modes Module

GU Scenario

GL Scenario

UL Scenario

GUL Scenario

BBU3910A 1

GSM G16/16/16 + UMTS 3x2

GSM G16/16/16 + LTE (FDD) 3x20 MHz

UMTS 3x2 + LTE (FDD) 3x20 MHz

None

LTE FDD: 4T4R, Sum of uplink and downlink data rates at the MAC layer per eNodeB: 900 Mbit/s

l UMTS: uplink 256 CEs, downlink 384 CEs

UMTS: uplink 512 CEs, downlink 768 CEs

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l LTE FDD: 2T2R, Sum of uplink and downlink data rates at the MAC layer per eNodeB: 450 Mbit/s


114



Module

GU Scenario

GL Scenario

UL Scenario

GUL Scenario

BBU3910A 2

GSM G16/16/16 + UMTS 3x2



None







UMTS: uplink 768 CEs, downlink 768 CEs

BBU3910A 3

GSM G16/16/16 + UMTS 3x4 UMTS: uplink 1024 CEs, downlink 1024 CEs



GSM G16/16/16(1) + UMTS 3x2 + LTE (FDD) 3x20 MHz l UMTS: uplink 512 CEs, downlink 768 CEs l LTE FDD: 4T4R, Sum of uplink and downlink data rates at the MAC layer per eNodeB: 600 Mbit/s

NOTE (1):

If GSM is configured with 48 TRXs (S16/16/16), each TRX can be configured with one Standalone Dedicated Control Channel (SDCCH) only; if GSM is configured with 24 TRXs (S8/8/8), each TRX can be configured three SDCCHs.

Signaling Specifications Table 6-86 provides the signaling specifications of the BBU3910A working in a single mode.

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Table 6-86 Capacity specifications of the BBU3910A working in a single mode Module

GSM Scenario

UMTS Scenario

LTE FDD Scenario

LTE TDD Scenario

BBU3910A 1

l IP Over E1: 48 TRXs

500 CNBAPS

270000 BHCA

270000 BHCA

500 CNBAPS

396000 BHCA

None

600 CNBAPS

396000 BHCA

396000 BHCA

l IP Over FE: 72 TRXs BBU3910A 2

l IP Over E1: 48 TRXs l IP Over FE: 72 TRXs

BBU3910A 3

l IP Over E1: 48 TRXs l IP Over FE: 72 TRXs

Table 6-87 provides the signaling specifications of the BBU3910A working in multiple modes. Table 6-87 Signaling specifications of the BBU3910A working in multiple modes Module

GU Scenario

GL Scenario

UL Scenario

GUL Scenario

BBU3910A 1


GSM 48 TRXs + LTE 110000 BHCA

UMTS 200 CNBAPS + LTE 110000 BHCA

None

BBU3910A 2




None

BBU3910A 3




GSM 36 TRXs + UMTS 300 CNBAPS + LTE 110000 BHCA

CPRI Specifications Table 6-88 provides specifications of CPRI ports on a BBU3910A.

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Table 6-88 Specifications of CPRI ports on a BBU3910A Module



Topology Type

BBU3910A1/ BBU3910A2/ BBU3910A3

6

1.25/2.5/4.9/6.144/9. 8


CPRI ports with different rates support different numbers of TRXs/cells, as listed in Table 6-89. Table 6-89 Mapping between the CPRI port rate and the number of TRXs/cells (GSM, UMTS, LTE FDD) CPRI Port Rate (Gbit/s)

1.25

2.5

GSM

UMTS

LTE FDD

Numbe r of 1T2R TRXs

Numbe r of 2T2R or 1T4R TRXs

Numbe r of 1T2R Cells


Number of 2T4R/4T4R Cells


24

12

4

4(2)

4x4 MIMO cells are not recommended because the transmission bandwidth of the CPRI ports is limited.

l 4 (cell bandwidth ≤ 3MHz)

1 (cell bandwidth ≤ 10 MHz)

l 4 (cell bandwidth ≤ 5MHz)

48

24

8

8(2)

l 2 (cell bandwidth ≤ 5MHz) l 1 (cell bandwidth ≤ 10 MHz)

l 2 (cell bandwidth ≤ 10 MHz) l 1 (cell bandwidth = 15 MHz or 20 MHz)

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4.9

6.144

9.8


GSM

UMTS

LTE FDD

Numbe r of 1T2R TRXs

Numbe r of 2T2R or 1T4R TRXs

Numbe r of 1T2R Cells




48

24

16

16(2)













-

-

48

24

24

32

24(2)

32(2)

NOTE (2):The

number of 2T2R cells is halved if two TX antennas enabled with the virtual antenna mapping (VAM) function are separately connected to two RF modules carried on different CPRI links.

CPRI ports with different rates support different numbers of LTE TDD cells, as listed in Table 6-90.

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Table 6-90 Mapping between the CPRI port rate and the number of cells (LTE TDD) CPRI Port Rate (Gbit/s)

CPRI Compression(3)



2.5

Not in use

l 2 (cell bandwidth = 5MHz)






























In use

4.9

Not in use

In use

9.8

Not in use

l 4 (cell bandwidth = 10MHz) l 2 (cell bandwidth = 15 MHz or 20 MHz)

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l 8 (cell bandwidth = 10MHz) l 4 (cell bandwidth = 15 MHz or 20 MHz)

119




CPRI Compression(3)



In use





l 4 (cell bandwidth = 15MHz) l 4 (cell bandwidth = 20 MHz)

l 8 (cell bandwidth = 15MHz) l 8 (cell bandwidth = 20 MHz)

NOTE (3):

CPRI compression is not supported when the cell bandwidth is 5 MHz.

Transmission port Table 6-91 provides the transmission ports on a BBU3910A. Table 6-91 Transmission port Module

Transmission Type and Transmission Port

Quantity of Ports

BBU3910A1/BBU3910A2/ BBU3910A3

E1/T1 ports

4 (4 E1s/T1s)

FE/GE electrical port

1

FE/GE optical port

1

Engineering Specifications Table 6-92 lists the input power specifications of a BBU3910A. Table 6-92 Power Module

Input power

Voltage Range


-48 V DC

-38.4 V DC to -57 V DC

Table 6-93 lists the size and weight of a BBU3910A.

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Table 6-93 Size and weight of a BBU3910A Module


Weight


400 mm x 300 mm x 100 mm

≤ 12 kg

Table 6-94 provides the heat dissipation capability of a BBU3910A. Table 6-94 Heat dissipation capability of a BBU3910A Module

Specifications

BBU3910A1/BBU3910A2/BBU3910A3

150 W

Table 6-95 lists the environment specifications of a BBU3910A. Table 6-95 Environment specifications of a BBU3910A Item

Specifications


Without solar radiation: -40°C (-104°F) to +55°C (+131°F)

Relative humidity

5% RH to 100% RH


60 kPa to 106 kPa

Storage time

It is recommended that the device be installed and used within one year after its delivery due to the failure rate.

Table 6-96 lists the surge protection specifications of ports on a BBU3910A. NOTE

l Unless otherwise specified, the surge protection specifications depend on the surge waveform of 8/20 μs. l All the surge current items, unless otherwise specified as Maximum discharge current, refer to Nominal discharge current.

Table 6-96 Surge protection specifications of ports Port

Surge Protection Mode

Surge Protection Specifications

-48 V DC port

Surge current

20kA

Table 6-97 lists the standards with which a BBU3910A complies. Issue 07 (2016-04-29)


121



Table 6-97 Compliance standards for a BBU3910A Item

Standard

Security standards

l IEC 60950-1:2005 (2nd Edition) + A1:2009 + National & Group Differences per CB Bulletin Information technology equipment -Safety Part1:General requirements l IEC 60950-22: 2005 (1st Edition) + National & Group Differences per CB Bulletin Information technology equipment - Safety - Part 22: Equipment installed outdoors l IEC 60215(1987)+A1:1990+A2:1993 + National & Group Differences per CB Bulletin Safety requiremnet for radio transimtting equipment

Protection level

IP65

Operating environm ent

ETS 300 019-1-4 Class 4.1

Storage environm ent

EUROPEAN ETS 300 019-1-1 Class 1.2 "not temperature-controlled storage"

Transport ation environm ent

EUROPEAN ETS 300 019-1-2 Class 2.3 "PUBLIC transportation"

Earthquak e

l IEC 60068-2-57: Environmental testing -Part 2-57: Tests -Test Ff:Vibration -Time-history method l ETSI EN 300019-1-4: "Earthquake" l YD5083: Interim Provisions for Test of Anti-seismic Performances of Telecommunications Equipment (telecom industry standard in People's Republic of China) l NEBS GR63 zone4 l GB50689-2011, YD2324-2011

Protection standards

l ITU-T K.21/44

EMC

l R&TTE Directive 1999/5/EC l EN 55022 CLASS B l ETSI EN 301 489-01 l ETSI EN 301 489-23(WCDMA/LTE) l FCC part 15 CLASS B

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122



Item

Standard

Surge protection


6.3 Technical Specifications of RFUs This section describes the technical specifications of radio frequency units (RFUs), including supported modes, frequency bands, RF specifications, surge protection specifications, specifications of CPRI ports, and antenna capabilities.

6.3.1 DRFU Technical Specifications The Double Radio Frequency Unit (DRFU) is a dual-transceiver radio frequency (RF) module, which supports a maximum of two carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by a DRFU. Table 6-98 Modes and frequency bands supported by a DRFU Type

Mode

Frequency Band (MHz)

RX Frequency Band (MHz)

TX Frequency Band (MHz)

DRFU

GSM

900 EGSM

880 to 915

925 to 960

900 PGSM

890 to 915

935 to 960

1800

1710 to 1785

1805 to 1880

RF Specifications Table 6-99 lists RF specifications of a DRFU. NOTE

ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels.

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Table 6-99 RF specifications of a DRFU Type

DRFU

RX and TX Chan nels

Capa city

Receiver Sensitivity (dBm) Receiver Sensitivi ty with One Antenna

Receiver Sensitivi ty with Two Antenna s

Receiver Sensitivi ty with Four Antenna s

2T2R

2 TRXs

-113.0

-115.8

-118.5

Output Power

Power Consum ption

For typical configurat ions, see Typical Power Configur ation for DRFU.

See the DRFU sheet in 3900 Series Base Station Power Consumpt ion Specificati ons.

Engineering Specifications The following table lists the equipment specifications of a DRFU. Table 6-100 Equipment specifications of a DRFU Type

Dimension (H x W x D)

Weight (kg)

DRFU

9 U x 14 HP x 308.5 mm (with the panel)

≤12

Table 6-101 lists the surge protection specifications of ports on a DRFU. NOTE


Table 6-101 Surge protection specifications of ports on a DRFU Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of a DRFU. Issue 07 (2016-04-29)


124



Table 6-102 Surge protection standards of a DRFU Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on a DRFU. Table 6-103 Specifications of CPRI ports on a DRFU Type

Number of CPRI Ports

CPRI Data Rate (Gbit/s)

Topology

Cascading Levels

DRFU

2

1.25

Star or chain

3

Antenna Capability The following table shows antenna capability of a DRFU. Table 6-104 Antenna capability of a DRFU Type

TMA Support

RET Antenna Support

DRFU

Not supported

AISG1.1

NOTE

Issue 07 (2016-04-29)

l

An external bridge tap (BT) is required if a DRFU needs to be configured with a TMA.

l

For RF modules supporting RET antennas, the feeding voltage is 12 V and feeding current is 2.3 A.


125



6.3.2 GRFU Technical Specifications The GSM Radio Frequency Unit (GRFU) is a multi-carrier radio frequency (RF) module, which supports a maximum of six carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by a GRFU. Table 6-105 Modes and frequency bands supported by a GRFU Type

Mode




IBW (MHz)

GRFU V1

GSM

1900

1850 to 1890

1930 to 1970

15

1870 to 1910

1950 to 1990

GRFU V2

GSM

900 PGSM

890 to 915

935 to 960

900 EGSM

880 to 915

925 to 960

1800

1710 to 1770

1805 to 1865

1725 to 1785

1820 to 1880

900

885 to 910

930 to 955

1800

1710 to 1755

1805 to 1850

GRFU V2a

GSM

20

20

RF Specifications Table 6-106 lists RF specifications of a GRFU. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W.

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Table 6-106 RF specifications of a GRFU Type

GRFU V1

RX and TX Chann els

Capaci ty

1T2R

6 TRXs

GRFU V2

GRFU V2a

Receiver Sensitivity (dBm)

Output Power

Power Consumpti on

See the GRFU sheet in 3900 Series Base Station Power Consumptio n Specificatio ns.

Receiver Sensitivity with One Antenna

Receiver Sensitivity with Two Antennas

-113.0

-115.8

The GRFU V1 supports the maximum power configuratio n 1 x 80 W. For typical configuratio ns, see Typical Power Configurati on for GRFU V1.

l 900 MHz EGSM: -113.3

l 900 MHz EGSM: -116.1

l 900 MHz PGSM/ 1800 MHz: -113.5

l 900 MHz PGSM/ 1800 MHz: -116.3

-113.5

-116.3

The GRFU V2 supports the maximum power configuratio n 1 x 80 W. For typical configuratio ns, see Typical Power Configurati on for GRFU V2/ GRFU V2a.

Engineering Specifications The following table lists the equipment specifications of a GRFU.

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Table 6-107 Equipment specifications of a GRFU Type


Weight (kg)

GRFU V1, GRFU V2, and GRFU V2a


≤12

Table 6-108 lists the surge protection specifications of ports on a GRFU. NOTE


Table 6-108 Surge protection specifications of ports on a GRFU Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of a GRFU. Table 6-109 Surge protection standards of a GRFU Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on a GRFU. Issue 07 (2016-04-29)


128



Table 6-110 Specifications of CPRI ports on a GRFU Type



Topology

Cascading Levels

GRFU V1

2

1.25

Star or chain

2

GRFU V2 and GRFU V2a

2

1.25 or 2.5

Star or chain

2

Antenna Capability The following table shows antenna capability of a GRFU. Table 6-111 Antenna capability of a GRFU Type

TMA Support

RET Antenna Support

GRFU V1

Supported

AISG2.0 and AISG1.1

GRFU V2

Supported

AISG2.0 and AISG1.1

GRFU V2a

Supported

AISG2.0 and AISG1.1

NOTE


6.3.3 WRFU Technical Specifications A WRFU working in UMTS mode supports a maximum of four carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by a WRFU. Table 6-112 Modes and frequency bands supported by a WRFU Type




Mode

IBW (MHz)

80 W WRFU

2100

1920 to 1980

2110 to 2170

UMTS

20

850

824 to 835

869 to 880

UMTS

20

2100

1920 to 1980

2110 to 2170

UMTS

25

80 W WRFU (Optimized) Issue 07 (2016-04-29)


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Type




Mode

IBW (MHz)

40 W WRFU

2100

1920 to 1980

2110 to 2170

UMTS

20

RF Specifications Table 6-113 lists RF specifications of a WRFU. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The receiver sensitivity on the UMTS 850 MHz frequency band is measured on its frequency sub-bands. l Maximum output power = Maximum output power of the PA - Internal loss. The maximum output power is measured at the antenna port.

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Table 6-113 RF specifications of a WRFU Type

WRFU

RX and TX Channe l

Capacit y

Receiver Sensitivity (dBm) Receiv er Sensiti vity with One Antenn a

Receive r Sensiti vity with Two Antenn as

Receive r Sensiti vity with Four Antenn as

1T2R

l 80 W WRF U: 4 carrie rs

l -125. 8 (210 0 MHz )

l -128. 6 (2100 MHz )

l -131. 3 (2100 MHz )

l -128. 4 (850 MHz )

l -131. 1 (850 MHz )

l 80 W WRF U (Opti mized ): 4 carrie rs

l -125. 6 (850 MHz )

l 40 W WRF U: 2 carrie rs

Output Power

Power Consu mption

l The 80 W WRF U supp orts the maxi mum powe r confi gurati on 1 x 80 W and unev en powe r confi gurati ons.

See the WRFU sheet in 3900 Series Base Station Power Consum ption Specifica tions.

l The 80 W WRF U (Opti mize d) supp orts the maxi mum powe r confi gurati

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Type


RX and TX Channe l

Capacit y

Receiver Sensitivity (dBm) Receiv er Sensiti vity with One Antenn a



Output Power

Power Consu mption

on 1 x 80 W and unev en powe r confi gurati ons. l The 40 W WRF U supp orts the maxi mum powe r confi gurati on 1 x 40 W. For typical configur ations, see Typical Power Configu ration for WRFU.

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Engineering Specifications The following table lists the equipment specifications of a WRFU. Table 6-114 Equipment specifications of a WRFU Type


Weight (kg)

WRFU


11

Table 6-115 lists the surge protection specifications of ports on a WRFU. NOTE


Table 6-115 Surge protection specifications of ports on a WRFU Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of a WRFU. Table 6-116 Surge protection standards of a WRFU Item

Standard

Surge protection


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Specifications of CPRI Ports The following table lists the specifications of CPRI ports on a WRFU. Table 6-117 Specifications of CPRI ports on a WRFU Type



Topology

Cascading Levels

WRFU

2

WRFU modules of different BOM codes support different CPRI data rates:

Star or chain

2 (serving the same sector)

l WRFU modules of 02316677, 02315804, and 02316072 support only 1.25 Gbit/s. l WRFU modules of other BOM codes support both 1.25 Gbit/s and 2.5 Gbit/s.

Antenna Capability The following table lists the antenna capability of a WRFU. Table 6-118 Antenna capability of a WRFU Type

TMA Support

RET Antenna Support

WRFU

Supported

AISG2.0 and AISG1.1

NOTE


6.3.4 WRFUa Technical Specifications A WCDMA Radio Filter Unit type A (WRFUa) supports a maximum of four carriers. Issue 07 (2016-04-29)


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Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by a WRFUa. Table 6-119 Modes and frequency bands supported by a WRFUa Type




Mode

IBW (MHz)

WRFUa

2100

1920 to 1980

2110 to 2170

UMTS

25

RF Specifications Table 6-120 lists RF specifications of a WRFUa. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l Maximum output power = Maximum output power of the PA - Internal loss. The maximum output power is measured at the antenna port.

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Table 6-120 RF specifications of a WRFUa Type

WRFUa

RX and TX Channe l

Capacit y

Receiver Sensitivity (dBm) Receive r Sensiti vity with One Antenn a

Receive r Sensitiv ity with Two Antenn as

Receive r Sensitiv ity with Four Antenn as

1T2R

4 carriers

-125.8

-128.6

-131.3

Output Power

Power Consu mption

The WRFUa supports the maximu m power configur ation 1 x 100 W. and uneven power configur ations. For typical configur ations, see Typical Power Configu ration for WRFUa .

See the WRFUa sheet in 3900 Series Base Station Power Consum ption Specifica tions.

Engineering Specifications The following table lists the equipment specifications of a WRFUa. Table 6-121 Equipment specifications of a WRFUa

Issue 07 (2016-04-29)

Type


Weight (kg)

WRFUa


11


136



Table 6-122 lists the surge protection specifications of ports on a WRFUa. NOTE


Table 6-122 Surge protection specifications of ports on a WRFUa Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of a WRFUa. Table 6-123 Surge protection standards of a WRFUa Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on a WRFUa. Table 6-124 Specifications of CPRI ports on a WRFUa

Issue 07 (2016-04-29)

Type



Topology

Cascading Levels

WRFUa

2

1.25 or 2.5

Star or chain

2 (serving the same sector)


137



Antenna Capability The following table lists the antenna capability of a WRFUa. Table 6-125 Antenna capability of a WRFUa Type

TMA Support

RET Antenna Support

WRFUa

Supported

AISG2.0 and AISG1.1

NOTE


6.3.5 WRFUd Technical Specifications A WCDMA Radio Filter Unit type D (WRFUd) supports a maximum of six carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by a WRFUd. Table 6-126 Modes and frequency bands supported by a WRFUd Type

Mode




IBW (MHz)

WRFUd

UMTS

2100

1920 to 1980

2110 to 2170

40

RF Specifications Table 6-127 lists RF specifications of a WRFUd. NOTE


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Table 6-127 RF specifications of a WRFUd Type

WRFUd

TX and RX Channe l

Capacit y




2T2R

l With MIM O: 4 carrie rs

-126.1

-128.9

-131.6

l With out MIM O: 6 carrie rs

Output Power

Power Consu mption

The WRFUd supports the maximu m power configur ation 2 x 60 W, configur ations of singleoutput, MIMO, or the combinat ion of the two, and uneven power configur ations.

See the WRFUd sheet in 3900 Series Base Station Power Consum ption Specifica tions.

For typical configur ations in hybrid configur ation scenarios , see the table Carrier combina tions support ed by WRFUd in

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139


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

hybrid configur ations. In this scenario, one WRFUd supports a maximu m of six carriers. Each transmit channel supports a maximu m of four carriers and the maximu m output power of each transmit channel is 60 W. For typical configur ations, see Typical Power Configu ration for WRFUd .

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Table 6-128 Carrier combinations supported by WRFUd in hybrid configurations Number of MIMO Carriers

Number of Single-Output Carriers

1

5

2

4

3

2

Engineering Specifications The following table lists the equipment specifications of a WRFUd. Table 6-129 Equipment specifications of a WRFUd Type


Weight (kg)

WRFUd


12

Table 6-130 lists the surge protection specifications of ports on a WRFUd. NOTE


Table 6-130 Surge protection specifications of ports on a WRFUd Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of a WRFUd.

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Table 6-131 Surge protection standards of a WRFUd Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on a WRFUd. Table 6-132 Specifications of CPRI ports on a WRFUd Type



Topology

Cascading Levels

WRFUd

2

1.25 or 2.5

Star

N/A

Antenna Capability The following table lists the antenna capability of a WRFUd. Table 6-133 Antenna capability of a WRFUd Type

TMA Support

RET Antenna Support

WRFUd

Supported

AISG2.0 and AISG1.1

NOTE


6.3.6 WRFUe Technical Specifications A WCDMA Radio Filter Unit type E (WRFUe) supports a maximum of six carriers. Issue 07 (2016-04-29)


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Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by a WRFUe. Table 6-134 Modes and frequency bands supported by a WRFUe Type

Mode




IBW (MHz)

WRFUe

UMTS

2100

1920 to 1980

2110 to 2170

60

RF Specifications Table 6-135 lists RF specifications of a WRFUe. NOTE


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Table 6-135 RF specifications of a WRFUe Type

WRFUe

TX and RX Channe l

Capacit y




2T2R


-126.1

-128.9

-131.6


Output Power

Power Consu mption

The WRFUe supports the maximu m power configur ation 2 x 80 W, configur ations of singleoutput, MIMO, or the combinat ion of the two, and uneven power configur ations.

See the WRFUe sheet in 3900 Series Base Station Power Consum ption Specifica tions.

For typical configur ations in hybrid configur ation scenarios , see the table Carrier combina tions support ed by WRFUe in

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144


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

hybrid configur ations. In this scenario, one WRFUe supports a maximu m of six carriers. Each transmit channel supports a maximu m of four carriers and the maximu m output power of each transmit channel is 80 W. For typical configur ations, see Typical Power Configu ration for WRFUe .

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Table 6-136 Carrier combinations supported by WRFUe in hybrid configurations Number of MIMO Carriers


1

5

2

4

3

2

Engineering Specifications Table 6-137 lists the engineering specifications of a WRFUe. Table 6-137 Equipment specifications of a WRFUe Type


Weight (kg)

WRFUe


12

Table 6-138 lists the surge protection specifications of ports on a WRFUe. NOTE


Table 6-138 Surge protection specifications of ports on a WRFUe Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of a WRFUe.

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146



Table 6-139 Surge protection standards of a WRFUe Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on a WRFUe. Table 6-140 Specifications of CPRI ports on a WRFUe Type



Topology

Cascading Levels

WRFUe

2

1.25 or 2.5

Star

N/A

Antenna Capability The following table lists the antenna capability of a WRFUe. Table 6-141 Antenna capability of a WRFUe Type

TMA Support

RET Antenna Support

WRFUe

Supported

AISG2.0 and AISG1.1

NOTE


6.3.7 CRFUd Technical Specifications An CDMA & LTE radio frequency unit type D (CRFUd) works in frequency division duplex (FDD) mode. Issue 07 (2016-04-29)


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Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by a CRFUd. Table 6-142 Modes and frequency bands supported by a CRFUd Type


Receive Frequency Band (MHz)

Transmit Frequency Band (MHz)

Mode

CRFUd

AWS (band 4)

1710 to 1755

2110 to 2155

LTE FDD

2100

1920 to 1980

2110 to 2170

RF Specifications Table 6-143 lists radio frequency (RF) specifications of a CRFUd. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard.

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Table 6-143 RF specifications of a CRFUd Type

CRF Ud

Trans mit and Recei ve Chan nels

Capacity

2T2R

l AWS: Two carriers. The bandwidth per carrier is 1.4, 3, 5, 10, 15, or 20 MHz; the total bandwidth between the maximum frequency and the minimum frequency of the spectrums for two carriers does not exceed 45 MHz.

Receiver Sensitivity (dBm) Receiver Sensitivit y with One Antenna

Receiver Sensitivit y with Two Antennas

l AWS: -106.5

l AWS: -109.3

l 2100 MHz: -106.3

l 2100 MHz: -109.1

Output Power

Power Consumpt ion

The CRFUd supports the maximum power configurati on 2 x 60 W. For typical configurati ons, see Typical Power Configurat ion for CRFUd.

See the CRFUd sheet in 3900 Series Base Station Power Consumpti on Specificatio ns.

l 2100 MHz: Two carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz; the total bandwidth between the maximum frequency and the minimum frequency of the spectrums for two

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149


Type




Capacity

Receiver Sensitivit y with One Antenna

Output Power


Power Consumpt ion

carriers does not exceed 60 MHz.

Engineering Specifications The following table describes the equipment specifications of the CRFUd. Table 6-144 Equipment specifications of a CRFUd Type


Weight (kg)

CRFUd


12

Table 6-145 lists the surge protection specifications of ports on a CRFUd. NOTE


Table 6-145 Surge protection specifications of ports on a CRFUd Port


Specification

Power port

Surge current

20 kA

The following table provides the surge protection standards of a CRFUd.

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150



Table 6-146 Surge protection standards of a CRFUd Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on a CRFUd. Table 6-147 Specifications of CPRI ports on a CRFUd Type



Topology

Cascading Levels

CRFUd

2

1.25, 2.5, or 4.9

Star

N/A

Antenna Capability The following table provides antenna capability of an CRFUd. Table 6-148 Antenna capability of an CRFUd Type

TMA Support

Supported RET Antennas

CRFUd

Supported

AISG2.0 and AISG1.1

NOTE


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151



6.3.8 CRFUe Technical Specifications An CDMA & LTE radio frequency unit type E (CRFUe) works in frequency division duplex (FDD) mode.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by a CRFUe. Table 6-149 Modes and frequency bands supported by a CRFUe Type




Mode

CRFUe

2100

1920 to 1980

2110 to 2170

LTE FDD

RF Specifications Table 6-150 lists radio frequency (RF) specifications of a CRFUe. NOTE


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Table 6-150 RF specifications of a CRFUe Type

CRF Ue


Capacity


2T2R

Two carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz; the total bandwidth between the maximum frequency and the minimum frequency of the spectrums for two carriers does not exceed 60 MHz.

Receiver Sensitivit y with One Antenna


-106.3

-109.1

Output Power

Power Consumpt ion

The CRFUe supports the maximum power configurati on 2 x 80 W. For typical configurati ons, see Typical Power Configurat ion for CRFUe.

See the CRFUe sheet in 3900 Series Base Station Power Consumpti on Specificatio ns.

Engineering Specifications The following table describes the equipment specifications of the CRFUe. Table 6-151 Equipment specifications of a CRFUe Type


Weight (kg)

CRFUe


12

Table 6-152 lists the surge protection specifications of ports on a CRFUe. NOTE


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Table 6-152 Surge protection specifications of ports on a CRFUe Port


Specification

Power port

Surge current

20 kA

The following table provides the surge protection standards of a CRFUe. Table 6-153 Surge protection standards of a CRFUe Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an CRFUe. Table 6-154 Specifications of CPRI ports on an CRFUe Type



Topology

Cascading Levels

CRFUe

2

1.25, 2.5, or 4.9

Star

N/A

Antenna Capability The following table provides antenna capability of an CRFUe.

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Table 6-155 Antenna capability of an CRFUe Type

TMA Support


CRFUe

Supported

AISG2.0 and AISG1.1

NOTE


6.3.9 LRFU Technical Specifications An LTE radio frequency unit (LRFU) works in frequency division duplex (FDD) mode.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an LRFU. Table 6-156 Modes and frequency bands supported by an LRFU Type

Mode




IBW (MHz)

LRFU

LTE FDD

2600 (band 7)

Band C: 2500 to 2520

Band C: 2620 to 2640

20

Band D: 2510 to 2560

Band D: 2630 to 2680

30

Band E: 2550 to 2570

Band E: 2670 to 2690

20

RF Specifications Table 6-157 lists radio frequency (RF) specifications of an LRFU. NOTE


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Table 6-157 RF specifications of an LRFU Typ e

LRF U

Trans mit and Receiv e Chann els

Capacity


2T2R

One carrier with a bandwidth of 5, 10, 15, or 20 MHz.

Receive r Sensitiv ity with One Antenn a

Recei ver Sensit ivity with Two Anten nas

-105.8

-108.6

Output Power

Power Consumpti on

The LRFU supports the maximum power configuration 2 x 40 W.

See the LRFU sheet in 3900 Series Base Station Power Consumption Specification s.

For typical configuration s, see Typical Power Configuratio n for LRFU.

Engineering Specifications The following table describes the equipment specifications of the LRFU. Table 6-158 Equipment specifications of an LRFU Type


Weight (kg)

LRFU


12

Table 6-159 lists the surge protection specifications of ports on an LRFU. NOTE


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Table 6-159 Surge protection specifications of ports on an LRFU Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of an LRFU. Table 6-160 Surge protection standards of an LRFU Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an LRFU. Table 6-161 Specifications of CPRI ports on an LRFU Type



Topology

Cascading Levels

LRFU

2

1.25 or 2.5

Star

N/A

Antenna Capability The following table provides antenna capability of an LRFU. Table 6-162 Antenna capability of an LRFU

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Type

TMA Support


LRFU

Supported

AISG2.0 and AISG1.1


157



NOTE


6.3.10 LRFUe Technical Specifications An LTE radio frequency unit type E (LRFUe) works in frequency division duplex (FDD) mode.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an LRFUe. Table 6-163 Modes and frequency bands supported by an LRFUe Type

Mode




IBW (MHz)

LRFUe

LTE FDD

DD 800 (band 20)

832 to 862

791 to 821

20

700 (band 28)

Band A: 703 to 743

Band A: 758 to 798

25

Band B: 718 to 748

Band B: 773 to 803

2500 to 2570

2620 to 2690

2600 (band 7)

60

RF Specifications Table 6-164 lists radio frequency (RF) specifications of an LRFUe. NOTE


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Table 6-164 RF specifications of an LRFUe Type

LRF Ue

Tra nsm it and Rec eive Cha nnel s

Capacity

2T2 R

Two carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz.



l DD 800MH z: -106.3

l DD 800MH z: -109.1

l 700MH z: -106.5

l 700MH z: -109.3

l 2600M Hz: -106.5

l 2600M Hz: -109.3

Output Power

Power Consumpt ion

l DD 800MH z: The LRFUe supports the maximu m power configur ation 2 x 60 W.

See the LRFUe sheet in 3900 Series Base Station Power Consumpti on Specificatio ns.

l 700MH z: The LRFUe supports the maximu m power configur ation 2 x 80 W. l 2600M Hz: The LRFUe supports the maximu m power configur ation 2 x 60 W. For typical configurati ons, see Typical Power Configurat

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Type


Tra nsm it and Rec eive Cha nnel s

Capacity


Output Power


Power Consumpt ion

ion for LRFUe.

Engineering Specifications The following table describes the equipment specifications of the LRFUe. Table 6-165 Equipment specifications of an LRFUe Type


Weight (kg)

LRFUe


12

Table 6-166 lists the surge protection specifications of ports on an LRFUe. NOTE


Table 6-166 Surge protection specifications of ports on an LRFUe Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of an LRFUe.

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160



Table 6-167 Surge protection standards of an LRFUe Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an LRFUe. Table 6-168 Specifications of CPRI ports on an LRFUe Type



Topology

Cascading Levels

LRFUe

2

1.25, 2.5, or 4.9

Star

N/A

Antenna Capability The following table provides antenna capability of an LRFUe. Table 6-169 Antenna capability of an LRFUe Type

TMA Support


LRFUe

Supported

AISG2.0 and AISG1.1

NOTE


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161



6.3.11 MRFU Technical Specifications Multi-Mode Radio Frequency Units (MRFUs) are classified into MRFU V1, MRFU V2, MRFU V2a and MRFU V6 modules. Using the software-defined radio (SDR) technology, MRFUs can work in different modes with different configurations.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an MRFU. Table 6-170 Modes and frequency bands supported by an MRFU Type




Mode

IBW (MHz)

MRFU V1

900 PGSM

890 to 915

935 to 960

GSM, UMTS, and GU

1800

1710 to 1755

1805 to 1850

1740 to 1785

1835 to 1880


l GSM: 15 l UMTS/LT E FDD: 20 l GU/GL: 15

1850 to 1890

1930 to 1970

1870 to 1910

1950 to 1990

850

824 to 846.5

869 to 891.5

GSM, UMTS, LTE FDD, GU, and UL

22.5

900 PGSM

890 to 915

935 to 960

20

900 EGSM

880 to 915

925 to 960


1800

1710 to 1770

1805 to 1865

20

1725 to 1785

1820 to 1880


1710 to 1785

1805 to 1880

900

885 to 910

930 to 955


25

1800

1710 to 1755

1805 to 1850


25

1800

1710 to 1785

1805 to 1880

GSM, LTE (FDD), GL

35

1900

MRFU V2

MRFU V2a

MRFU V6

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GSM and UMTS

162


Type





Mode

IBW (MHz)

900 PGSM

890 to 915

935 to 960

25

900 EGSM

880 to 915

925 to 960


RF Specifications Table 6-171 lists radio frequency (RF) specifications of an MRFU. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The MRFU that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard. The MRFU that works in GSM mode and operates in the 850 or 1900 MHz frequency band complies with the 3GPP TS 45.005 V10.2.0 and 3GPP TS 51.021 V10.2.0 standards. l The MRFU that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards. The MRFU that works in UMTS, LTE FDD, or MSR mode and operates in the 850 or 1900 MHz frequency band complies with the 3GPP TS 37.104 V10.4.0 and TS 37.141 V10.4.0 standards.

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Table 6-171 RF specifications of an MRFU Ty pe

Tr an s mi t an d Re ce iv e C ha nn el s

Capacit y




MR FU V1

1T 2R

GSM: 6 TRXs

GSM: -113.0

GSM: -115.8

UMTS: 4 carriers

UMTS: -125.5

UMTS: -128.3

GSM: -118.5 (theoretica l value)

LTE FDD: 1 carrier with a bandwidt h of 3, 5, or 10 MHz

LTE FDD: -106.3

LTE FDD: -109.1

UMTS: -131.0

GSM: 6 TRXs UMTS: 4 carriers LTE FDD: l 900 MHz: 1 carrie r with a band width of 1.4, 3, 5, 10, 15, or 20 MHz

GSM: l 850 MHz : -113. 0 l 900 MHz PGS M: -113. 5 l 900 MHz EGS M: -113. 3

GSM: l 850 MHz : -115. 8 l 900 MHz PGS M: -116. 3 l 900 MHz EGS M: -116. 1

GSM: l 850 MHz: -118.5 (theore tical value) l 900 MHz PGSM : -119 (theore tical value) l 900 MHz EGSM : -118.8 (theore

MR FU V2

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1T 2R

LTE FDD: -111.8


Output Power

Power Consumpti on

The MRFU V1 supports the maximum power configuration 1 x 80 W. For the typical configurations, see Typical Power Configuration for MRFU V1.

See the MRFU sheet in 3900 Series Base Station Power Consumptio n Specificatio ns.

The MRFU V2/MRFU V2a supports the maximum power configuration 1 x 80 W. For the typical configurations, see Typical Power Configuration for MRFU V2/MRFU V2a.

164


Ty pe

MR FU V2 a

Issue 07 (2016-04-29)



Capacit y




l 1800 MHz: 1 carrie r with a band width of 5, 10, 15, or 20 MHz

l 1800 MHz : -113. 8

l 1800 MHz : -116. 6

UMTS:

UMTS:

l 850 MHz : -125. 0

l 850 MHz : -127. 8

l 900 MHz PGS M: -125. 5

l 900 MHz PGS M: -128. 3

l 900 MHz EGS M: -125. 3

l 900 MHz EGS M: -128. 1

LTE FDD:

LTE FDD:

l 900 MHz PGS M: -106. 3

l 900 MHz PGS M: -109. 1

l 900 MHz

l 900 MHz

tical value) l 1800 MHz: -119.3 (theore tical value) UMTS: l 850 MHz: -130.5 l 900 MHz PGSM : -131.0 l 900 MHz EGSM : -130.8 LTE FDD: l 900 MHz PGSM : -111.8 l 900 MHz EGSM : -111.6


Output Power

Power Consumpti on

165


Ty pe

Issue 07 (2016-04-29)



Capacit y




EGS M: -106. 1 l 1800 MHz : -106. 6

EGS M: -108. 9 l 1800 MHz : -109. 4

l 1800 MHz: -112.1


Output Power

Power Consumpti on

166



Ty pe


Capacit y




MR FU V6

1T 2R

GSM: 6 TRXs

GSM:

GSM:

GSM:

l 900 MHz PGS M: -113. 3

l 900 MHz PGS M: -116. 1

l 900 MHz EGS M: -113. 3

l 900 MHz EGS M: -116. 1

l 900 MHz PGSM : -118.8 (theore tical value)

l 1800 MHz : -113. 8

l 1800 MHz : -116. 6

UMTS:

UMTS:

l 900 MHz PGS M: -125. 3

l 900 MHz PGS M: -128. 1

l 900 MHz EGS M: -125. 3

l 900 MHz EGS M: -128. 1

LTE FDD:

LTE FDD:

UMTS: 4 carriers LTE FDD: 1 carrier with a bandwidt h of 1.4, 3, 5, 10, 15 or 20 MHz

Issue 07 (2016-04-29)

l 900 MHz EGSM : -118.8 (theore tical value)

Output Power

Power Consumpti on

The MRFU V6 supports the maximum power configuration 1 x 80 W. For the typical configurations, see Typical Power Configuration for MRFU V6.

See the MRFU V6 sheet in 3900 Series Base Station Power Consumptio n Specificatio ns.

l 1800 MHz: -119.3 (theore tical value) UMTS: l 900 MHz PGSM : -130.8 l 900 MHz EGSM : -130.8


167


Ty pe



Capacit y




l 900 MHz PGS M: -106. 3

l 900 MHz PGS M: -109. 1

LTE FDD:

l 900 MHz EGS M: -106. 3

l 900 MHz EGS M: -109. 1

l 900 MHz EGSM : -111.8

l 1800 MHz : -106. 5

l 1800 MHz : -109. 3

Output Power

Power Consumpti on

l 900 MHz PGSM : -111.8

l 1800 MHz: -112.0

NOTE

When MRFU V2 and MRFU V2a are on the 900 MHz frequency band, the LTE mode is supported only in terms of hardware.

Engineering Specifications The following table lists the equipment specifications of an MRFU.

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168



Table 6-172 Equipment specifications of an MRFU Type


Weight (kg)

MRFU V1, MRFU V2, and MRFU V2a, MRFU V6


12

Table 6-173 lists the surge protection specifications of ports on an MRFU. NOTE


Table 6-173 Surge protection specifications of ports on an MRFU Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of an MRFU. Table 6-174 Surge protection standards of an MRFU Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an MRFU. Issue 07 (2016-04-29)


169



Table 6-175 Specifications of CPRI ports on an MRFU Type



Topology

Cascading Levels

MRFU V1

2

1.25

CPRI MUX:

MRFU V2 and MRFU V2a

2

1.25 or 2.5

Star, chain, or dual-star

MRFU V6

2

l GU: 6 l GL: 4

1.25, 2.5 or 4.9

Star or dual-star

Antenna Capability The following table provides the antenna capability of an MRFU. Table 6-176 Antenna capability of an MRFU Type

TMA Support


MRFU V1

Supported

AISG2.0 and AISG1.1

MRFU V2 and MRFU V2a

Supported

AISG2.0 and AISG1.1

MRFU V6

Supported

AISG2.0 and AISG1.1

NOTE


6.3.12 MRFUc Technical Specifications The Multimode Radio Frequency Unit Type C (MRFUc) is a multimode RF unit. Using the software-defined radio (SDR) technology, MRFUc modules can work in different modes with different configurations.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an MRFUc. Table 6-177 Modes and frequency bands supported by an MRFUc

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Type




Mode

IBW (MHz)

MRFUc

2100

1920 to 1980

2110 to 2170


40


170



RF Specifications Table 6-178 lists the radio frequency (RF) specifications of an MRFUc. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The MRFUc, which works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 2100 MHz frequency band, complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

Table 6-178 RF specifications of an MRFUc Typ e

Tran smit and Recei ve Chan nel

Capacity

MRF Uc

2T2R

UMTS: l Witho ut MIM O: 6 carrier s




UMTS: -126.1

UMTS: -128.9

UMTS: -131.6

LTE FDD: -106.8

LTE FDD: -109.6

LTE FDD: -112.3

l With MIM O: 4 carrier s 4 LTE FDD carriers. The bandwidt h per carrier is 5, 10, 15, or 20 MHz.

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Output Power

Power Consum ption

The MRFUc supports the maximu m power configura tion of 2x60 W. For the typical output power configura tion, see Typical Power Configur ation for MRFUc.

For details, see the MRFUc sheet in 3900 Series Base Station Power Consumpt ion Specificat ions.

171



Engineering Specifications The following table lists the equipment specifications of an MRFUc. Table 6-179 Equipment specifications of an MRFUc Type


Weight (kg)

MRFUc


12

Table 6-180 lists the surge protection specifications of ports on an MRFUc. NOTE


Table 6-180 Surge protection specifications of ports on an MRFUc Port



Power port

Surge current

20 kA

The following table provides the surge protection standards of an MRFUc.

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172



Table 6-181 Surge protection standards of an MRFUc Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an MRFUc. Table 6-182 Specifications of CPRI ports on an MRFUc Type


CPRI Date Rate (Gbit/s)

Topology

Cascading Levels

MRFUc

2

1.25/2.5/4.9

Star and dualstar

UL CPRI MUX: 4 levels

Antenna Capability The following table provides the antenna capability of an MRFUc. Table 6-183 Antenna capability of an MRFUc

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Type

TMA Support


MRFUc

Supported

AISG2.0 and AISG1.1


173



NOTE


6.3.13 MRFUd Technical Specifications Using the software-defined radio (SDR) technology, Multi-Mode Radio Frequency Unit Type D (MRFUd) modules can work in different modes with different configurations.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an MRFUd/MRFUd V6/MRFUdw V6. Table 6-184 Modes and frequency bands supported by an MRFUd/MRFUd V6/MRFUdw V6 Type




Mode

IBW (MHz)

MRFUd

900 PGSM

890 to 915

935 to 960

25

900 EGSM

880 to 915

925 to 960


1800

1710 to 1785

1805 to 1880


l GSM: 35

35

l LTE FDD: 40 l GL:35

2100

1920 to 1980

2110 to 2170


60

MRFUd V6

1800

1710 to 1785

1805 to 1880


45

MRFUd w V6

1800

1710 to 1785

1805 to 1880


75

NOTE

On the 900 MHz frequency band, only the hardware of the MRFUd supports the LTE mode.

RF Specifications Table 6-185 lists radio frequency (RF) specifications of an MRFUd/MRFUd V6/MRFUdw V6. NOTE

On the 900 MHz frequency band, only the hardware of the MRFUd supports the LTE mode.

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174



RF Specifications Table 6-185 lists radio frequency (RF) specifications of an MRFUd/MRFUd V6/MRFUdw V6. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The MRFUd that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard . l The MRFUd that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

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175



Table 6-185 RF specifications of an MRFUd/MRFUd V6/MRFUdw V6 Ty pe


Capacit y


Receiver Sensitiv ity with Two Antenna s


MR FU d

2T 2R

GSM: 8 TRXs

GSM:

GSM:

GSM:

l 900 MHz: -113. 7

l 900 MHz: -116.5

l 900 MHz: -119.2 (theor etical value)

UMTS: l Witho ut MIM O: 6 carrie rs

l 1800 MHz: -114. 0


UMTS:

LTE FDD: 2 carriers. The bandwidt h per carrier is 1.4, 3, 5, 10, 15, or 20 MHz.

l 2100 MHz: -126. 1

l 900 MHz: -125. 8

LTE FDD: l 900 MHz: -106. 3 l 1800 MHz: -106. 6 l 2100 MHz:

Issue 07 (2016-04-29)

l 1800 MHz: -116.8 UMTS: l 900 MHz: -128.6 l 2100 MHz: -128.9 LTE FDD: l 900 MHz: -109.1 l 1800 MHz: -109.4 l 2100 MHz: -109.4


Output Power

Power Consumpti on

The MRFUd supports the maximum power configuration 2 x 80 W. For typical configurations , see Typical Power Configuratio n for MRFUd.

See the MRFUd sheet in 3900 Series Base Station Power Consumptio n Specificatio ns.

UMTS: l 900 MHz: -131.3 l 2100 MHz: -131.6 LTE FDD: l 900 MHz: -111.8 l 1800 MHz: -112.1 l 2100 MHz: -112.1


176


Ty pe



Capacit y




GSM: -119.5 (theoretic al value)

Output Power

Power Consumpti on

The MRFUd V6/MRFUdw V6 support the maximum power configuration 2 x 80 W. For typical configurations , see Typical Power Configuratio n for MRFUd V6/MRFUdw V6.

See the MRFUd V6 sheet in 3900 Series Base Station Power Consumptio n Specificatio ns.

-106. 6 MR FU d V6

MR FU dw V6

2T 2R

2T 2R

GSM: 8 TRXs

GSM: -114.0

GSM: -116.8


LTE FDD: -106.9

LTE FDD: -109.7

GSM: 8 TRXs

GSM: -113.7

GSM: -116.5


LTE FDD: -106.6

LTE FDD: -109.4

LTE FDD: -112.4

GSM: -119.2 (theoretic al value) LTE FDD: -112.1

See the MRFUdw V6 sheet in 3900 Series Base Station Power Consumptio n Specificatio ns.

Engineering Specifications The following table lists the equipment specifications of an MRFUd/MRFUd V6/MRFUdw V6.

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177



Table 6-186 Equipment specifications of an MRFUd/MRFUd V6/MRFUdw V6 Type


Weight (kg)

MRFUd/ MRFUd V6/ MRFUdw V6


12

Table 6-187 lists the surge protection specifications of ports on an MRFUd/MRFUd V6/ MRFUdw V6. NOTE


Table 6-187 Surge protection specifications of ports on an MRFUd/MRFUd V6/MRFUdw V6 Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of an MRFUd/MRFUd V6/ MRFUdw V6. Table 6-188 Surge protection standards of an MRFUd/MRFUd V6/MRFUdw V6 Item

Standard

Surge protection


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178



Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an MRFUd/MRFUd V6/ MRFUdw V6. Table 6-189 Specifications of CPRI ports on an MRFUd/MRFUd V6/MRFUdw V6 Type



Topology

Cascading Levels

MRFUd

2

1.25, 2.5, or 4.9


CPRI MUX: l GU: 6 l GL: 4 l UL: 4

MRFUd V6/ MRFUdw V6

2

1.25, 2.5, or 4.9


GL CPRI MUX: 4

Antenna Capability The following table provides the antenna capability of an MRFUd/MRFUd V6/MRFUdw V6. Table 6-190 Antenna capability of an MRFUd/MRFUd V6/MRFUdw V6 Type

TMA Support


MRFUd/MRFUd V6/ MRFUdw V6

Supported

AISG2.0 and AISG1.1

NOTE


6.3.14 MRFUe Technical Specifications Using the software-defined radio (SDR) technology, Multi-Mode Radio Frequency Unit Type E (MRFUe) modules can work in different modes with different configurations.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an MRFUe.

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179



Table 6-191 Modes and frequency bands supported by an MRFUe Type




Mode

IBW (MHz)

MRFUe

900 EGSM

880 to 915

925 to 960


35

1800

1710 to 1785

1805 to 1880


l GSM: 35 l LTE FDD: 40 l GL: 35

NOTE

On the 900 MHz frequency band, only the hardware of the MRFUe supports the LTE mode.

RF Specifications Table 6-192 lists radio frequency (RF) specifications of an MRFUe. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The MRFUe that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard. l The MRFUe that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

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180



Table 6-192 RF specifications of an MRFUe Ty pe


Capacit y

Receiver Sensitivity (dBm) Receive r Sensitiv ity with One Antenn a



MR FU e

1T 2R

GSM: 8 TRXs

GSM:

GSM:

GSM:

l 900 MHz: -113.7

l 900 MHz: -116.5

l 1800 MHz: -114.0

l 1800 MHz: -116.8

l 900 MHz: -119.2 (theore tical value)

UMTS:

UMTS:

l 900 MHz: -125. 8

l 900 MHz: -128.6

LTE FDD:

l 900 MHz: -109.1

UMTS: 4 carriers LTE FDD: 2 carriers. The bandwidt h per carrier is 1.4, 3, 5, 10, 15, or 20 MHz.

l 900 MHz: -106. 3 l 1800 MHz: -106. 6

LTE FDD:

l 1800 MHz: -109.4

l 1800 MHz: -119.5 (theore tical value)

Output Power

Power Consump tion

The MRFUe supports the maximum power configuration 1 x 125 W. For the typical configuration s, see Typical Power Configuratio n for MRFUe.

See the MRFUe sheet in 3900 Series Base Station Power Consumpti on Specificati ons.

UMTS: l 900 MHz: -131.3 LTE FDD: l 900 MHz: -111.8 l 1800 MHz: -112.1

Engineering Specifications The following table lists the equipment specifications of an MRFUe.

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181



Table 6-193 Equipment specifications of an MRFUe Type


Weight (kg)

MRFUe


12

Table 6-194 lists the surge protection specifications of ports on an MRFUe. NOTE


Table 6-194 Surge protection specifications of ports on an MRFUe Ports



Power port

Surge current

20 kA

The following table provides the surge protection standards of an MRFUe. Table 6-195 Surge protection standards of an MRFUe Item

Standard

Surge protection


Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an MRFUe.

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182



Table 6-196 Specifications of CPRI ports on an MRFUe Type



Topology

Cascading Levels

MRFUe

2

1.25, 2.5, or 4.9


CPRI MUX: l GU: 6 l GL: 4

Antenna Capability The following table provides the antenna capability of an MRFUe. Table 6-197 Antenna capability of an MRFUe Type

TMA Support


MRFUe

Supported

AISG2.0 and AISG1.1

NOTE


6.4 Technical Specifications of RRUs This section provides technical specifications of RRUs, including supported modes, frequency bands, RF specifications, engineering specifications, specifications of CPRI ports, and antenna capabilities.

6.4.1 RRU3004 Technical Specifications The RRU3004 is a double-transceiver Remote Radio Unit, which supports a maximum of two carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3004. Table 6-198 Modes and frequency bands supported by an RRU3004

Issue 07 (2016-04-29)

Type




Mode

RRU3004

900 EGSM

880 to 915

925 to 960

GSM

900 PGSM

890 to 915

935 to 960

1800

1710 to 1785

1805 to 1880


183



RF Specifications Table 6-199 lists RF specifications of an RRU3004. NOTE

ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels.

Table 6-199 RF specifications of an RRU3004 Type

RRU30 04

RX and TX Chann els

Capaci ty

2T2R

2 TRXs

Receiver Sensitivity (dBm) Receiver Sensitivity with One Antenna


-113.0

-115.8

Output Power

Power Consum ption

l 900 MHz: The RRU3004 supports the maximum power configuratio n 2 x 30 W.

See the RRU300 4 sheet in 3900 Series Base Station Power Consump tion Specifica tions.

l 1800 MHz: The RRU3004 supports the maximum power configuratio n 2 x 20 W. For typical configurations, see Typical Power Configuration for RRU3004.

Engineering Specifications The following table lists equipment specifications of an RRU3004.

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184



Table 6-200 Equipment specifications of an RRU3004 Type

Input Power Specifications


Weight (kg)

RRU3004

-48 V DC, voltage range: -57 V DC to -36 V DC

l 485 mm x 380 mm x 130 mm (with the housing)

l 17 (with the housing) l 15 (without the housing)

l 480 mm x 356 mm x 100 mm (without the housing)

The following table lists environmental specifications of an RRU3004. Table 6-201 Environmental specifications of an RRU3004 Type

Operating Temperatu re

Relative Humidity

Absolute Humidity

Atmospher ic Pressure

Storage Time

RRU3004

l Without solar radiation: -40°C to +50°C

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa

It is recommende d that the device be installed and used within one year after its delivery because of the failure rate.

l With solar radiation: -40°C to +45°C

The following table lists compliance standards of an RRU3004. Table 6-202 Compliance standards of an RRU3004 Item

Standard

Operating Environment

l 3GPP TS 45.005 l ETSI EN 300019-1-4 V2.1.2 (2003-04) Class 4.1: "Nonweatherprotected locations"

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Anti-Seismic Performance

NEBS GR63 zone4

Protection Rating

IP65


185



Item

Standard

Surge protection


Table 6-203 lists the surge protection specifications of ports on an RRU3004. NOTE


Table 6-203 Surge protection specifications of ports on an RRU3004 Ports



DC power supply port

Surge current

20 kA

AC power supply port

Surge current

40 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an RRU3004. Table 6-204 Specifications of CPRI ports on an RRU3004

Issue 07 (2016-04-29)

Type



Topology

Cascading Levels

Maximum Distance from the BBU (km)

RRU3004

2

1.25

Star, chain, or ring

6

40


186



Antenna Capability The following table lists antenna capability of an RRU3004. Table 6-205 Antenna capability of an RRU3004 Type

TMA Support

RET Antenna Support

RRU3004

Not supported

AISG1.1

NOTE

l

An external bridge tap (BT) is required if an RRU3004 needs to be configured with a towermounted amplifier (TMA).

l


6.4.2 RRU3008 Technical Specifications The RRU3008 is a multi-carrier Remote Radio Unit (RRU) applicable to the GSM network, which supports a maximum of eight carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3008. Table 6-206 Modes and frequency bands supported by an RRU3008 Type




Mode

IBW (MHz)

RRU30 08 V1

850

824 to 849

869 to 894

GSM

12.5

900 EGSM

880 to 915

925 to 960

880 to 905

925 to 950

900 PGSM

890 to 915

935 to 960

900 CMCC

885 to 910

930 to 955

1800

1710 to 1755

1805 to 1850

1740 to 1785

1835 to 1880

1850 to 1890

1930 to 1970

1870 to 1910

1950 to 1990

900 EGSM

880 to 915

925 to 960

900 PGSM

890 to 915

935 to 960

1900

RRU30 08 V2

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12.5

15

15

GSM

20

187


Type





900 CMCC

885 to 910

930 to 955

Mode

IBW (MHz)




RRU30 08 V1

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RX and TX Chann els

Capaci ty

2T2R

8 TRXs



-113.0

-115.8


Output Power

Power Consum ption

The RRU3008 V1 supports the maximum power configuration 2 x 40 W. For typical configurations, see Typical Power Configuration for RRU3008 V1.


188


Type

RRU30 08 V2


RX and TX Chann els

Capaci ty

2T2R

8 TRXs



l 900 MHz EGSM: -113.3

l 900 MHz EGSM: -116.1

l 900 MHz PGSM/9 00 MHz CMCC: -113.5

l 900 MHz PGSM/9 00 MHz CMCC: -116.3

Output Power

Power Consum ption

The RRU3008 V2 supports the maximum power configuration 2 x 40 W. For typical configurations, see Typical Power Configuration for RRU3008 V2.

Engineering Specifications Table 6-208 lists equipment specifications of an RRU3008. Table 6-208 Equipment specifications Type

Input Power Specifications


Weight (kg)

RRU3008

-48 V DC, voltage range: -57 V DC to -36 V DC


l 25 (with the housing) l 23 (without the housing)


The following table lists environmental specifications of an RRU3008.

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189



Table 6-209 Environmental specifications of an RRU3008 Type


Relative Humidity

Absolute Humidity


Storage Time

RRU3008 V1


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l With solar radiation: -40°C to +45°C RRU3008 V2

l Without solar radiation: -40°C to +55°C l With solar radiation: -40°C to +50°C

The following table lists compliance standards of an RRU3008. Table 6-210 Compliance standards of an RRU3008 Item

Standard



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NEBS GR63 zone4

Protection Rating

IP65


190



Item

Standard

Surge protection


Table 6-211 list the surge protection specifications of ports on an RRU3008. NOTE






Surge current

20 kA


Surge current

40 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an RRU3008.

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191



Table 6-212 Specifications of CPRI ports on an RRU3008 Type



Topology

Cascading Levels


RRU3008 V1

2

l 850 MHz/ 1900 MHz: 1.25


6

40

l 900 MHz: 1.25 l 1800 MHz: 1.25 or 2.5 RRU3008 V2

2

1.25 or 2.5

Antenna Capability The following table lists antenna capability of an RRU3008. Table 6-213 Antenna capability of an RRU3008 Type

TMA Support

RET Antenna Support

RRU3008 V1

Supported

AISG2.0 and AISG1.1

RRU3008 V2

Supported

AISG2.0 and AISG1.1

NOTE


6.4.3 RRU3801E Technical Specifications An RRU3801E, which is a remote radio unit for UMTS, supports a maximum of two carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3801E.

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Table 6-214 Modes and frequency bands supported by an RRU3801E Type




Mode

IBW (MHz)

RRU3801E (DC)

2100

1920 to 1980

2110 to 2170

UMTS

25

1900

1850 to 1910

1930 to 1990

25

850

824 to 835

869 to 880

25

2100

1920 to 1980

2110 to 2170

25

RRU3801E (AC)

RF Specifications Table 6-215 lists radio frequency (RF) specifications of an RRU3801E. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The receiver sensitivity on the UMTS 850 MHz frequency band is measured on its frequency subbands. l Maximum output power = Maximum output power of the PA - Internal loss. The maximum output power is measured at the antenna port.

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Table 6-215 RRU3801E RF specifications Type

RRU380 1E

RX and TX Channe l

Capacit y




1T2R

2 carriers

l 2100 MHz: -125. 8

l 2100 MHz: --128 .6

l 2100 MHz: -131. 3

l 1900 MHz: -125. 3

l 1900 MHz: -128. 1

l 1900 MHz: -130. 8

l 850 MHz: -125. 6

l 850 MHz: -128. 4

l 850 MHz: -131. 1

Output Power

Power Consu mption

The RRU380 1E supports the maximu m power configur ation 1 x 40 W. For typical configur ations, see Typical Power Configu ration for RRU380 1E.

See the RRU380 1E sheet in 3900 Series Base Station Power Consum ption Specifica tions.

Engineering Specifications The following table lists the equipment specifications of an RRU3801E.

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Table 6-216 Equipment specifications of an RRU3801E Type

Input Power


Weight

RRU3801E (DC)

-48 V DC; voltage range: -57 V DC to -36 V DC


l 15 kg (without the housing) l 17 kg (with the housing)

l 485 mm x 285 mm x 170 mm (with the housing) RRU3801E (AC)

l 200 V AC to 240 V AC singlephase; voltage range: 176 V AC to 290 V AC l 100/200 V AC to 120/240 V AC dual-phase; voltage range: 90/180 V AC to 135/270 V AC


l 20.5 kg (without the housing) l 22.5 kg (with the housing)


The following table lists the environmental specifications of an RRU3801E. Table 6-217 Environmental specifications of an RRU3801E Type


Relative Humidity

Absolute Humidity


Storage Time

RRU3801E

l With 1120 W/m2 solar radiation: -40°C to +50°C

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa



The following table lists the compliance standards for an RRU3801E. Issue 07 (2016-04-29)


195



Table 6-218 Compliance standards of an RRU3801E Item

Standard




NEBS GR63 zone4

Protection Rating

l RRU3801E (DC): IP65 l RRU3801E (AC): IP55

Surge protection


Table 6-219 lists the surge protection specifications of ports on an RRU3801E. NOTE


Table 6-219 Surge protection specifications of ports on an RRU3801E Ports




Surge current

20 kA


Surge current

40 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an RRU3801E. Issue 07 (2016-04-29)


196



Table 6-220 Specifications of CPRI ports on an RRU3801E Type



Topology

Cascading Levels


RRU3801E

2

1.25 or 2.5


l When the rate at the CPRI port is 1.25 Gbit/s: 4

40


Antenna Capability The following table lists the antenna capability of an RRU3801E. Table 6-221 Antenna capability of an RRU3801E Type

TMA Support

RET Antenna Support

RRU3801E

Supported

AISG1.1

NOTE


6.4.4 RRU3804 Technical Specifications The RRU3804 is a type of radio remote unit. An RRU3804 working in UMTS mode supports a maximum of four UMTS carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3804.

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Table 6-222 Modes and frequency bands supported by an RRU3804 Type




Mode

IBW (MHz)

RRU3804 (DC)

2100

1920 to 1980

2110 to 2170

UMTS

1900

1850 to 1910

1930 to 1990

UMTS

AWS

1710 to 1755

2110 to 2155

UMTS

850

824 to 849

869 to 894

UMTS

l RRU380 4: 20 l RRU380 4 (Optimiz ed version): 25

835 to 849

880 to 894

UMTS

10

1920 to 1980

2110 to 2170

UMTS

l RRU380 4: 20

RRU3804 (AC)

2100

l RRU380 4 (Optimiz ed version): 25 850

824 to 849

869 to 894

20

RF Specifications Table 6-223 lists radio frequency (RF) specifications of an RRU3804. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The receiver sensitivity on the UMTS 850 MHz frequency band is measured on its frequency subbands. l Maximum output power = Maximum output power of the PA - Internal loss. The maximum output power is measured at the antenna port.

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Table 6-223 RRU3804 RF specifications Type

RRU380 4

RX and TX Channe l

Capacit y




1T2R

l RRU 3804 (DC): 4 carrie rs

l 2100 MHz or AWS : -125. 8

l 2100 MHz or AWS : -128. 6

l 2100 MHz or AWS : -131. 3

l 1900 MHz : -125. 3

l 1900 MHz: -128. 1

l 1900 MHz: -130. 8

l 850 MHz: -128. 4

l 850 MHz: -131. 1

l RRU 3804 (AC): 4 carrie rs

l 850 MHz : -125. 6

Output Power

Power Consu mption

The RRU380 4 supports the maximu m power configur ation 1 x 60 W. For typical configur ations, see Typical Power Configu ration for RRU380 4.

See the RRU380 4 sheet in 3900 Series Base Station Power Consum ption Specifica tions.

Engineering Specifications The following table lists the equipment specifications of an RRU3804.

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199




Input Power


Weight

RRU3804 (DC)




l 485 mm x 285 mm x 170 mm (with the housing) RRU3804 (AC)





The following table lists the environmental specifications of an RRU3804. Table 6-225 Environmental specifications of an RRU3804 Type


Relative Humidity

Absolute Humidity


Storage Time

RRU3804 (DC)


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


RRU3804 (AC)


The following table lists the compliance standards for an RRU3804. Issue 07 (2016-04-29)


200



Table 6-226 Compliance standards of an RRU3804 Item

Standard




NEBS GR63 zone4

Protection Rating

l RRU3804 (DC): IP65 l RRU3804 (AC): IP55

Surge protection








Surge current

20 kA


Surge current

40 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an RRU3804. Issue 07 (2016-04-29)


201






Topology

Cascading Levels


RRU3804

2

RRU3804 modules of different BOM codes support different CPRI data rates:



40

l RRU380 4 modules of 0231592 7, 0231611 6, 0231597 0, 0231546 7, 0231620 3, and 0231686 3 support only 1.25 Gbit/s.


l RRU380 4 modules of other BOM codes support both 1.25 Gbit/s and 2.5 Gbit/s.

Antenna Capability The following table lists the antenna capability of an RRU3804.

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202



Table 6-229 Antenna capability of an RRU3804 Type

TMA Support

RET Antenna Support

RRU3804

Supported

AISG2.0 and AISG1.1

NOTE


6.4.5 RRU3805 Technical Specifications The RRU3805 is a type of radio remote unit. An RRU3805 working in UMTS mode supports a maximum of three UMTS carriers.





Mode

IBW (MHz)

RRU3805

1900

1850 to 1890

1930 to 1970

UMTS

12.5 (per TX channel)

1870 to 1910

1950 to 1990

835 to 849

880 to 894

850

UMTS


l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l Maximum output power = Maximum output power of the PA - Internal loss. The maximum output power is measured at the antenna port.

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Table 6-231 RF Specifications Type

RRU380 5

TX and RX Channe l

Capacit y




2T2R

l 1900 MHz: 2 carrie rs

-125.2

-128.0

-130.7

l 850 MHz: 2 carrie rs

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Output Power

Power Consum ption

The RRU380 5 supports configur ations of singleoutput, multiple -input multiple -output (MIMO) , or the combina tion of the two. The RRU380 5 supports the maximu m power configur ation 2 x 30 W. For typical configur ations, see Typical Power Configu ration for RRU38 05.


204



Engineering Specifications The following table lists the equipment specifications of an RRU3805. Table 6-232 Equipment specifications of an RRU3805 Type

Input Power


Weight

RRU3805

l 1800 MHz: -48 V DC; voltage range: -57 V DC to -36 V DC


l 22 kg (without the housing)

l 1900 MHz or 850 MHz: -48 V DC; voltage range: -57 V DC to -38.4 V DC


l 24 kg (with the housing)



Relative Humidity

Absolute Humidity


Storage Time

RRU3805


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa



The following table lists the compliance standards for an RRU3805.

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205




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


Surge Protection Specifications Table 6-235 lists the surge protection specifications of ports on an RRU3805. NOTE





Power supply port

Surge current

20 kA


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206






Topology

Cascading Levels


RRU3805

2

l 850/1900 MHz: 1.25



40

l 1800 MHz: 1.25/2.5


Antenna Capability The following table lists the antenna capability of an RRU3805. Table 6-237 Antenna capability of an RRU3805 Type

TMA Support

RET Antenna Support

RRU3805

Supported

AISG2.0 and AISG1.1

NOTE


6.4.6 RRU3806 Technical Specifications An RRU3806, which is a remote radio unit for UMTS, supports a maximum of four carriers.


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207







Mode

IBW (MHz)

RRU3806

2100

1920 to 1980

2110 to 2170

UMTS

25



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208




RRU380 6

RX and TX Channe l

Capacit y




1T2R

4 carriers

-125.8

-128.6

-131.3

Output Power

Power Consu mption




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209




Input Power


Weight

RRU3806 (DC)




l 485 mm x 285 mm x 170 mm (with the housing) RRU3806 (AC)







Relative Humidity

Absolute Humidity


Storage Time

RRU3806 (DC)


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


RRU3806 (AC)




210




Standard




NEBS GR63 zone4

Protection Rating

l RRU3806 (DC): IP65 l RRU3806 (AC): IP55

Surge protection








Surge current

20 kA


Surge current

40 kA



211






Topology

Cascading Levels


RRU3806

2

1.25 or 2.5



40



TMA Support

RET Antenna Support

RRU3806

Supported

AISG2.0 and AISG1.1

NOTE


6.4.7 RRU3808 Technical Specifications The RRU3808 is a type of radio remote unit. An RRU3808 working in UMTS mode supports a maximum of four UMTS carriers. If it works in LTE FDD mode, it supports two LTE FDD carriers.


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212







Mode

IBW (MHz)

RRU3808

2100

1920 to 1980

2110 to 2170

UMTS

30 (per TX channel)

AWS

1710 to 1755

2110 to 2155




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213




RRU380 8

TX and RX Channe l

Capacit y




2T2R

UMTS: 4 carriers

UMTS: -125.8

UMTS: -128.6

UMTS: -131.3

LTE FDD: -106.5

LTE FDD: -109.3

LTE FDD: -112.0

LTE FDD: Two carriers. l One carrie r with a band width of 5, 10, or 15 MHz. l Two carrie rs: the band width per carrie r is 5 or 10 MHz.

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Output Power

Power Consu mption

The maximu m power configur ation is 2 x 40 W.


UMTS mode supports configur ations of singleoutput, multipleinput multipleoutput (MIMO) , or the combinat ion of the two, and uneven power configur ations. For typical configur ations in hybrid configur ation scenarios , see the table Carrier combina tions

214


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

support ed by RRU380 8 (UMTS) in hybrid configur ations. In this scenario, one RRU380 8 supports a maximu m of four carriers. Each transmit channel supports a maximu m of four carriers and the maximu m output power of each transmit channel is 40 W. For typical configur ations,

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215


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

see Typical Power Configu ration for RRU380 8.

Table 6-248 Carrier combinations supported by RRU3808 (UMTS) in hybrid configurations Number of MIMO Carriers


1

3

2

3

3

1

Equipment Specifications Table 6-249 lists the equipment specifications of an RRU3808. Table 6-249 Equipment specifications of an RRU3808 Type

Input Power


Weight

RRU3808





The following table lists the environmental specifications of an RRU3808. Issue 07 (2016-04-29)


216





Relative Humidity

Absolute Humidity


Storage Time

RRU3808


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l With solar radiatio: -40°C to +50°C

The following table lists the compliance standards for an RRU3808. Table 6-251 Compliance standards of an RRU3808 Item

Standard


l 3GPP TS 25.141 l 3GPP TS 36.141 l 3GPP TS 37.141 l ETSI EN 300019-1-4 V2.1.2 (2003-04) Class 4.1: "Nonweatherprotected locations"

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NEBS GR63 zone4

Protection Rating

IP65


217



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


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218






Topology

Cascading Levels


RRU3808

2

1.25 or 2.5

Star, chain, ring, or dualstar

UMTS:

UMTS: 40


LTE FDD/UL:

l When the rate at the CPRI port is 2.5 Gbit/s: 8 LTE FDD: l When the rate at the CPRI port is 1.25 Gbit/s: Cascadin g is not supporte d. l When the rate at the CPRI port is 2.5 Gbit/s: – Three levels are suppo rted if the cell band width is less than or equal

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The maximum distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows: l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configure d: 20 l When the LBBPd2 or UBBPd4 is configure d: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configure d: – Cell quanti ty ≤ 3: 40

219


Type




Topology

Cascading Levels

to 5 MHz. – Two levels are suppo rted if the cell band width is 10 MHz.

Maximum Distance from the BBU (km) – Cell quanti ty ≥ 4: 20

– Casca ding is not recom mend ed if the cell band width is greate r than or equal to 15 MHz. UL: l CPRI MUX: 4

Antenna Capability The following table lists the antenna capability of an RRU3808. Table 6-254 Antenna capability of an RRU3808

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Type

TMA Support

RET Antenna Support

RRU3808

Supported

AISG2.0 and AISG1.1


220



NOTE


6.4.8 RRU3821E Technical Specifications An RRU3821E, which is a radio remote unit for LTE FDD, supports a maximum of one carrier.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3821E. Table 6-255 Modes and frequency bands supported by an RRU3821E Type




Mode

RRU3821 E

1800

1744.9 to 1764.9

1839.9 to 1859.9

LTE FDD


l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l RRU3821E modules that work in LTE FDD mode and operate in the 1800 MHz frequency band comply with the 3GPP TS 37.104 V10.4.0 & TS 37.141 V10.4.0 protocols. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module.

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Table 6-256 RF specifications of an RRU3821E Ty pe

RR U38 21E

Tr an sm it an d Re cei ve Ch an ne l

Capacity

2T 2R

LTE FDD: 1 carrier with a bandwidth of 5, 10, 15, or 20 MHz



LTE FDD: -100.0

LTE FDD: -102.8

Output Power

Power Consumption

Full configuration: 2 x 5 W. For typical configurations, see Typical Power Configuration for RRU3821E.

l When the output power is 2 x 1 W, the power consumption of an RRU3821E is as follows: – DC: 75 W – AC: 80 W l When the output power is 2 x 5 W, the power consumption of an RRU3821E in AC scenarios is 120 W.


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222




Input Power


Weight (kg)

RRU3821 E

l -48 V DC; voltage range: -57 V DC to -36 V DC

300 mm x 240 mm x 110 mm (with the housing)

10 (with the housing)

l 100 V AC to -240 V AC, voltage range: 100 V AC to -240 V AC


Operating Temperatur e

Relative Humidity

Absolute Humidity

Atmospheri c Pressure

Storage Time

RRU 3821 E


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa



The following table lists the compliance standards for an RRU3821E. Table 6-259 Compliance standards of an RRU3821E Item

Standard




NEBS GR63 zone4

Protection Rating

l IP65 (outdoor) l IP30 (indoor)

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223



Item

Standard

Surge protection







Power supply port

Surge current

20 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an RRU3821E.

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224






Topology

Cascading Levels


RRU3821E

2

1.25, 2.5, or 4.9

Star, chain, ring

LTE FDD (When the CPRI data rate is 4.9 Gbit/s):

The maximum distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows:

l Uncompr essed CPRI – 2T2R: cell band width ≤ 10 MHz, four levels ; cell band width ≥ 15 MHz, two levels – 1T2R: cell band width ≥ 10 MHz, four levels l Compres sed CPRI – 2T2R: cell band width ≥ 15 MHz, four levels

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l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configure d: 20 l When the LBBPd2 or UBBPd4 is configure d: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configure d: – Cell quanti ty ≤ 3: 40 – Cell quanti ty ≥ 4: 20

225


Type




Topology

Cascading Levels

Maximum Distance from the BBU (km) NOTE The RRU3821E supports a maximum distance of 20 km from the BBU in signal combination scenarios.


TMA Support


RRU3821E

Not supported

Not supported



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226







Mode

IBW (MHz)

RRU3824

2100

1920 to 1980

2110 to 2170

UMTS




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227




RRU382 4

RX and TX Channe l

Capacit y




1T2R

four carriers

-125.8

-128.6

-131.3

Output Power

Power Consu mption



Engineering Specifications The Table 6-265 lists the equipment specifications of an RRU3824. NOTE

RRU3824 does not have the housing by default.

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228




Input Power


Weight

RRU3824


400 mm x 300 mm x 100 mm (without the housing)

14 kg (without the housing)

NOTE The RRU3824 supports AC power supply when connected to an external AC/DC power module or an OPM15M. For details, see AC/DC Power Module User Guide and OPM15M User Guide.

The following table lists the environmental specifications of an RRU3824.

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229





Relative Humidity

Absolute Humidity


Storage Time

RRU3824


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiatio: -40°C to +55°C NOTE According to the installation scenario, traffic load, and carrier configuratio n, the output power of some RRUs may temporarily decrease when they work in the highest 10°C temperature range.


Standard



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NEBS GR63 zone4

Protection Rating

IP65


230



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


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231






Topology

Cascading Levels


RRU3824

2

1.25 or 2.5



40



TMA Support

RET Antenna Support

RRU3824

Supported

AISG2.0 and AISG1.1

NOTE




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232







Mode

IBW (MHz)

RRU3826

2100

1920 to 1980

2110 to 2170

UMTS




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233




RRU382 6

RX and TX Channe l

Capacit y




1T2R

four carriers

-125.8

-128.6

-131.3

Output Power

Power Consu mption

The RRU382 6 supports the maximu m power configur ation 1 x 80 W. For typical configur ations, see Typical Power Configu ration for RRU382 6..


Engineering Specifications The Table 6-273 lists the equipment specifications of an RRU3826. NOTE


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234




Input Power


Weight

RRU3826






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235





Relative Humidity

Absolute Humidity


Storage Time

RRU3826


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiation: -40°C to +55°C NOTE According to the installation scenario, traffic load, and carrier configuratio n, the output power of some RRUs may temporarily decrease when they work in the highest 10°C temperature range.


Standard



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NEBS GR63 zone4

Protection Rating

IP65


236



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


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237






Topology

Cascading Levels


RRU3826

2

1.25 or 2.5



40



TMA Support

RET Antenna Support

RRU3826

Supported

AISG2.0 and AISG1.1

NOTE


6.4.11 RRU3828 Technical Specifications The RRU3828 is a type of radio remote unit. An RRU3828 working in UMTS mode supports a maximum of six UMTS carriers.


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238







Mode

IBW (MHz)

RRU3828

2100

1920 to 1980

2110 to 2170

UMTS




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239




RRU382 8

TX and RX Channe l

Capacit y




2T2R


-126.1

-128.9

-131.6


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Output Power

Power Consu mption

The RRU382 8 supports the maximu m power configur ation 2 x 40 W.


UMTS modecon figuratio ns of singleoutput, MIMO, or the combinat ion of the two, and uneven power configur ations. For typical configur ations in hybrid configur ation scenarios , see the table Carrier combina tions support

240


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

ed by RRU382 8 in hybrid configur ations. In this scenario, one RRU382 8 supports a maximu m of six carriers. Each transmit channel supports a maximu m of four carriers and the maximu m output power of each transmit channel is 40 W. For typical configur ations, see Typical Power Configu

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241


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

ration for RRU382 8.

Table 6-281 Carrier combinations supported by RRU3828 in hybrid configurations Number of MIMO Carriers


1

5

2

4

3

2


Input Power


Weight

RRU3828





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242





Relative Humidity

Absolute Humidity


Storage Time

RRU3828


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


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243








Power supply port

Surge current

20 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an RRU3828. Table 6-286 Specifications of CPRI ports on an RRU3828 Type



Topology

Cascading Levels


RRU3828

2

1.25 or 2.5



40



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Type

TMA Support

RET Antenna Support

RRU3828

Supported

AISG2.0 and AISG1.1


244



NOTE


6.4.12 RRU3829 Technical Specifications The RRU3829 is a type of remote radio unit. An RRU3829 working in UMTS mode supports a maximum of six UMTS carriers.





Mode

IBW (MHz)

RRU3829

2100

1920 to 1980

2110 to 2170

UMTS



l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001.

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245




RRU382 9

TX and RX Channe l

Capacit y




2T2R


-126.1

-128.9

-131.6


Issue 07 (2016-04-29)


Output Power

Power Consu mption

The RRU382 9 supports the maximu m power configur ation 2 x 60 W.


UMTS mode configur ations of singleoutput, MIMO, or the combinat ion of the two, and uneven power configur ations. For typical configur ations in hybrid configur ation scenarios , see the table Carrier combina tions support

246


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

ed by RRU382 9 in hybrid configur ations. In this scenario, one RRU382 9 supports a maximu m of six carriers. Each transmit channel supports a maximu m of four carriers and the maximu m output power of each transmit channel is 60 W. For typical configur ations, see Typical Power Configu

Issue 07 (2016-04-29)


247


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

ration for RRU382 9.



1

5

2

4

3

2

Equipment Specifications The following table lists the equipment specifications of an RRU3829. Table 6-291 Equipment specifications of an RRU3829 Type

Input Power


Weight

RRU3829





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248





Relative Humidity

Absolute Humidity


Storage Time

RRU3829


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


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249








Power supply port

Surge current

20 kA




Topology

Cascading Levels


RRU3829

2

1.25 or 2.5



40



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Type

TMA Support

RET Antenna Support

RRU3829

Supported

AISG2.0 and AISG1.1


250



NOTE


6.4.13 RRU3832 Technical Specifications The RRU3832 is a type of radio remote unit. An RRU3832 working in UMTS mode supports a maximum of six UMTS carriers. If it works in LTE FDD mode, it supports two LTE FDD carriers.





Mode

IBW (MHz)

RRU3832

2100

1920 to 1980

2110 to 2170

UMTS

60

AWS

1710 to 1755

2110 to 2155


45

AWS-3

1710 to 1780

2110 to 2180


70



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251




RRU383 2

TX and RX Channe l

Capacit y




2T4R

UMTS:

UMTS:

UMTS:

UMTS:


l 2100 MHz / AWS : -126. 1

l 2100 MHz/ AWS : -128. 9

l 2100 MHz/ AWS : -131. 6

l AWS -3: -128. 7

l AWS -3: -131. 4

LTE FDD:

LTE FDD:

l 2100 MHz/ AWS : -109. 3

l 2100 MHz/ AWS : -112. 0

l AWS -3: -109. 5

l AWS -3: -112. 2


l AWS -3: -125. 9

LTE FDD:

LTE FDD:

l AWS :2 carrie rs. The band width per carrie r is 5, 10, 15, or 20 MHz.

l 2100 MHz / AWS : -106. 5 l AWS -3: -106. 7

Output Power

Power Consu mption

The maximu m power configur ation is 2 x 60 W.


For typical configur ations, see Typical Power Configu ration for RRU383 2.

l AWS -3: 3 carrie rs. The band width per carrie r is 5, 10, Issue 07 (2016-04-29)


252


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

15, or 20 MHz.

Equipment Specifications Table 6-299 lists the equipment specifications of an RRU3832. NOTE



Input Power


Weight

RRU3832






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253





Relative Humidity

Absolute Humidity


Storage Time

RRU3832


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l With solar radiation: -40°C to +50°C NOTE According to the installation scenario, traffic load, and carrier configuratio n, the output power of some RRUs may temporarily decrease when they work in the highest 10°C temperature range.


Standard


l 3GPP TS 25.141 l 3GPP TS 36.141 l ETSI EN 300019-1-4 V2.1.2 (2003-04) Class 4.1: "Nonweatherprotected locations"

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NEBS GR63 zone4

Protection Rating

IP65


254



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


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255






Topology

Cascading Levels


RRU3832

2

l 2100 MHz/ AWS: 1.25, 2.5, or 4.9


UMTS:

UMTS: 40


LTE FDD/UL:

l AWS-3: 2.5, 4.9, or 9.8

l When the rate at the CPRI port is 2.5 Gbit/s or 4.9 Gbit/s: 8 LTE FDD: l When the rate at the CPRI port is 1.25 Gbit/s: Cascadin g is not supporte d. l When the rate at the CPRI port is 2.5 Gbit/s: – Two levels are suppo rted if the cell band width is less than

Issue 07 (2016-04-29)



256


Type




Topology

Cascading Levels

or equal to 5 MHz.


– Casca ding is not recom mend ed if the cell band width is greate r than or equal to 10 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Two levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Casca ding is not

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257



Type



Topology

Cascading Levels


recom mend ed if the cell band width is greate r than or equal to 15 MHz. UL CPRI MUX: 4


TMA Support

RET Antenna Support

RRU3832

Supported

AISG2.0 and AISG1.1

NOTE


6.4.14 RRU3838 Technical Specifications The RRU3838 is a type of radio remote unit. An RRU3838 supports a maximum of six UMTS carriers.


Issue 07 (2016-04-29)


258







Mode

IBW (MHz)

RRU3838

2100

1920 to 1980

2110 to 2170

UMTS

60


l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l Maximum output power = Maximum output power of the PA - Internal loss. The maximum output power is measured at the antenna port.

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259




RRU383 8

TX and RX Channe l

Capacit y




2T2R


-126.1

-128.9

-131.6


Output Power

Power Consu mption

The RRU383 8 supports the maximu m power configur ation 2 x 40 W, configur ations of singleoutput, MIMO, or the combinat ion of the two, and uneven power configur ations.


For typical configur ations in hybrid configur ation scenarios , see the table Carrier combina tions support ed by RRU383

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260


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

8 in hybrid configur ations. In this scenario, one RRU383 8 supports a maximu m of six carriers. Each transmit channel supports a maximu m of four carriers and the maximu m output power of each transmit channel is 40 W. For typical configur ations, see Typical Power Configu ration for

Issue 07 (2016-04-29)


261


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

RRU383 8.



1

5

2

4

3

2

Equipment Specifications Table 6-308 lists the equipment specifications of an RRU3838. NOTE



Input Power


Weight

RRU3838





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262





Relative Humidity

Absolute Humidity


Storage Time

RRU3838


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


263



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


264






Topology

Cascading Levels


RRU3838

2

1.25 or 2.5

Star, chain or ring


40



TMA Support

RET Antenna Support

RRU3838

Supported

AISG2.0 and AISG1.1

NOTE


6.4.15 RRU3839 Technical Specifications The RRU3839 is a type of remote radio unit. An RRU3839 working in UMTS mode supports a maximum of six UMTS carriers.


Issue 07 (2016-04-29)


265







Mode

IBW (MHz)

RRU3839

2100

1920 to 1980

2110 to 2170

UMTS

60


l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001.

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266




RRU383 9

TX and RX Channe l

Capacit y




2T2R


-126.1

-128.9

-131.6


Output Power

Power Consu mption

The RRU383 9 supports the maximu m power configur ation 2 x 60 W, configur ations of singleoutput, MIMO, or the combinat ion of the two, and uneven power configur ations.


For typical configur ations in hybrid configur ation scenarios , see the table Carrier combina tions support ed by RRU383

Issue 07 (2016-04-29)


267


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

9 in hybrid configur ations. In this scenario, one RRU383 9 supports a maximu m of six carriers. Each transmit channel supports a maximu m of four carriers and the maximu m output power of each transmit channel is 60 W. For typical configur ations, see Typical Power Configu ration for

Issue 07 (2016-04-29)


268


Type


TX and RX Channe l

Capacit y




Output Power

Power Consu mption

RRU383 9.



1

5

2

4

3

2

Equipment Specifications The following table lists the equipment specifications of an RRU3839. Table 6-317 Equipment specifications of an RRU3839 Type

Input Power


Weight

RRU3839







269





Relative Humidity

Absolute Humidity


Storage Time

RRU3839


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


270



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


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271






Topology

Cascading Levels


RRU3839

2

1.25, 2.5, or 4.9



40

l When the rate at the CPRI port is 2.5 Gbit/s or 4.9 Gbit/s: 8


TMA Support

RET Antenna Support

RRU3839

Supported

AISG2.0 and AISG1.1

NOTE


6.4.16 RRU3201 Technical Specifications An RRU3201, which is a remote radio unit for LTE FDD, supports two carriers.


Issue 07 (2016-04-29)


272







Mode

IBW (MHz)

RRU320 1

700 (band 13)

777 to 787

746 to 756

LTE FDD

10

2600 (band 7)

2500 to 2570

2620 to 2690

l Band C: 2500 to 2520

l Band C: 2620 to 2640

l Band D: 2510 to 2560

l Band D: 2630 to 2680

l Band E: 2550 to 2570

l Band E: 2670 to 2690

30



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273




RRU3 201

TX and RX Chan nel

Capacity

2T2R

l 700 MHz: One carrier with a bandwidth of 1.4, 3, 5 or 10 MHz.



-105.8

-108.6

l 2600 MHz: Two carriers. The bandwidth per carrier is 15 MHz or the continuous bandwidth of the two carriers is 10 MHz+10 MHz, or the bandwidth of one carrier is 20 MHz and the bandwidth of the other carrier is 10 MHz.

Output Power

Power Consum ption

The maximum power configurat ion is 2 x 40 W. For typical configurat ions, see Typical Power Configur ation for RRU3201 .

See the RRU3201 sheet in 3900 Series Base Station Power Consumpt ion Specificati ons.


Input Power


Weight (kg)

RRU3201


l 480 mm x 270 mm x 140 mm (18 L, without the housing)

l ≤ 17.5 (without the housing)

l 485 mm x 285 mm x 170 mm (23.5 L, with the housing)

Issue 07 (2016-04-29)


l ≤ 19 (with the housing)

274




Operatin g Temperat ure

Relative Humidity

Absolute Humidity


Storage Time

RRU32 01

l With solar radiatio n of 1120 W/m2: -40°C to +50°C

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiatio n: -40°C to +55°C


Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


275



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


276






Topology

Cascading Levels


RRU3201

2

1.25 or 2.5


l When the rate at the CPRI port is 1.25 Gbit/s: Cascadin g is not supporte d.

l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configure d: 20

l When the rate at the CPRI port is 2.5 Gbit/s: – Three levels are suppo rted if the cell band width is less than or equal to 5 MHz. – Two levels are suppo rted if the cell band width is 10 MHz.

l When the LBBPd2 or UBBPd4 is configure d: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configure d: – Cell quanti ty ≤ 3: 40 – Cell quanti ty ≥ 4: 20

– Casca ding

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277


Type




Topology

Cascading Levels


is not recom mend ed if the cell band width is greate r than or equal to 15 MHz.


TMA Support


RRU3201

Supported

AISG2.0 and AISG1.1

NOTE




Issue 07 (2016-04-29)


278







Mode

IBW (MHz)

RRU32 03

700 (band 12)

698 to 716

728 to 746

LTE FDD

15



Issue 07 (2016-04-29)


279




RRU3 203


Capacity

2T2R

Two carriers with a bandwidth of 1.4, 3, 5, 10, or 15 MHz



-105.8

-108.6

Output Power

Power Consum ption

The RRU3203 supports the maximum power configurat ion 2 x 40 W.


For typical configurat ions, see Typical Power Configur ation for RRU3203 .


Input Power


Weight (kg)

RRU3203



l ≤ 21 (without the housing)




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280




Operating Temperature

Relative Humidity

Absolute Humidity

Atmosphe ric Pressure

Storage Time

RRU32 03

l With solar radiation of 1120 W/m2: -40°C to +50°C

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa

It is recommend ed that the device be installed and used within one year after its delivery because of the failure rate.



Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


Issue 07 (2016-04-29)


281








Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


282






Topology

Cascading Levels


RRU3203

2

1.25 or 2.5






– Casca ding

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283


Type




Topology

Cascading Levels




TMA Support


RRU3203

Supported

AISG2.0 and AISG1.1

NOTE




Issue 07 (2016-04-29)


284







Mode

IBW (MHz)

RRU322 0

DD 800 (band 20)

832 to 847

791 to 806

LTE FDD

15

842 to 862

801 to 821

20



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285




RRU3 220


Capacity

2T2R

Two carriers.



-106.1

-108.9

l One carrier with a bandwidth of 1.4, 3, 5, 10, 15, or 20 MHz. l Two carriers (high 20 MHz): the bandwidth per carrier is 10 MHz.

Output Power

Power Consum ption

The RRU3220 supports the maximum power configurat ion 2 x 40 W. For typical configurat ions, see Typical Power Configur ation for RRU3220 .



Input Power


Weight (kg)

RRU3220




l 400 mm x 240 mm x 160 mm (15 L, with the housing)



Issue 07 (2016-04-29)


286





Relative Humidity

Absolute Humidity

Atmosph eric Pressure

Storage Time

RRU32 20


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa

It is recommen ded that the device be installed and used within one year after its delivery because of the failure rate.



Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


Issue 07 (2016-04-29)


287








Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


288






Topology

Cascading Levels


RRU3220

2

1.25 or 2.5






– Casca ding

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289


Type




Topology

Cascading Levels




TMA Support


RRU3220

Not supported

AISG2.0 and AISG1.1

NOTE

l When an RRU3220 uses a tower mounted amplifier (TMA), a bias tee (BT) is required. l For RF modules supporting RET antennas, the feeding voltage is 12 V and feeding current is 2.3 A.

6.4.19 RRU3220E Technical Specifications The RRU3220E is a type of low-power RRU. It applies to continuous coverage solutions for micro base stations in high traffic hotspots. The RRU3220E features characteristics such as easy site acquisition and easy deployment. In addition, multiple RRU3220Es can be combined to form a multimode RRU.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3220E.

Issue 07 (2016-04-29)


290



Table 6-347 Modes and frequency bands supported by an RRU3220E Type




Mode

IBW (MHz)

RRU32 20E

1800 (band 3)

1710 to 1770

1805 to 1865

LTE FDD

20



Issue 07 (2016-04-29)


291



Table 6-348 RF specifications of an RRU3220E Type

RRU3 220E


Capacity

2T2R

Each RRU3220E supports one carrier with a bandwidth of 5, 10, 15, or 20 MHz.



-103.0

-105.8

Output Power

Power Consum ption

The RRU3220 E supports the maximum power configurat ion 2 x 5 W. For typical configurat ions, see Typical Power Configur ation for RRU3220 E.

When the output power is 2 x 5 W, the power consumpti on of an RRU3220 E is as follows: l Typical Power Consu mption : 70 W l Maxim um Power Consu mption : 90 W

Engineering Specifications The following table lists the equipment specifications of an RRU3220E. Table 6-349 Equipment specifications of an RRU3220E Type

Input Power


Weight (kg)

RRU3220 E

l 220 V AC singlephase; voltage range: 176 V AC to 290 V AC

290 mm x 210 mm x 60 mm (3.6 L, without antennas)

4.5 kg (without antennas)

l 110 V AC dualphase; voltage range: 90/180 V AC to 135/270 V AC Issue 07 (2016-04-29)


292





Relative Humidity

Absolute Humidity


Storage Time

RRU322 0E

l With solar radiation: – 40°C to +45°C

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiation: – 40°C to +50°C


Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


293



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


294






Topology

Cascading Levels


RRU3220E

2

2.5 or 4.9

Star or chain

l When the rate at the CPRI port is 2.5 Gbit/s:


– Four levels are suppo rted if the cell band width is less than or equal to 5 MHz. – Two levels are suppo rted if the cell band width is 10 MHz. – Casca ding is not suppo rted if the cell band width is greate r than

Issue 07 (2016-04-29)



295


Type




Topology

Cascading Levels


or equal to 15 MHz. l When the data rate at the CPRI port is 4.9 Gbit/s: – Four levels are suppo rted. – Six levels are suppo rted if the cell band width is less than or equal to 10 MHz.

Antenna Capability The following table lists the antenna capability of an RRU3220E. Table 6-354 Antenna capability of an RRU3220E

Issue 07 (2016-04-29)

Type

TMA Support


RRU3220E

Not supported

Not supported


296



6.4.20 RRU3221 Technical Specifications An RRU3221, which is a remote radio unit for LTE FDD, supports a maximum of two carriers.





Mode

IBW (MHz)

RRU322 1

2600 (band 7)

2500 to 2570

2620 to 2690

LTE FDD

40



Issue 07 (2016-04-29)


297




RRU3 221


Capacity

2T2R




-106.0

-108.8

Output Power

Power Consum ption




Issue 07 (2016-04-29)


298




Input Power


Weight (kg)

RRU3221









Relative Humidity

Absolute Humidity


Storage Time

RRU32 21


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



Issue 07 (2016-04-29)


299



Item

Standard


NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


300






Topology

Cascading Levels


RRU3221

2

1.25, 2.5, or 4.9






– Casca ding

Issue 07 (2016-04-29)


301


Type




Topology

Cascading Levels


is not recom mend ed if the cell band width is greate r than or equal to 15 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Four levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Two levels are suppo rted if the cell band width is

Issue 07 (2016-04-29)


302


Type




Topology

Cascading Levels


greate r than or equal to 15 MHz.


TMA Support


RRU3221

Supported

AISG2.0 and AISG1.1

NOTE







Mode

IBW (MHz)

RRU32 22

DD 800 (band 20)

832 to 862

791 to 821

LTE FDD

20

RF Specifications Table 6-364 lists radio frequency (RF) specifications of an RRU3222. Issue 07 (2016-04-29)


303



NOTE



RRU3 222


Capacity

2T2R

Two carriers.



-106.4

-109.2

l One carrier with a bandwidth of 1.4, 3, 5, 10, 15, or 20 MHz. l Two carriers: the continuous bandwidth of the two carriers is 10 MHz+10 MHz.

Output Power

Power Consum ption




Issue 07 (2016-04-29)


304




Input Power


Weight (kg)

RRU3222








Relative Humidity

Absolute Humidity


Storage Time

RRU322 2


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


305



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


306






Topology

Cascading Levels


RRU3222

2

1.25 or 2.5






– Casca ding

Issue 07 (2016-04-29)


307


Type




Topology

Cascading Levels




TMA Support


RRU3222

Supported

AISG2.0 and AISG1.1

NOTE




Issue 07 (2016-04-29)


308







Mod e

IBW (MHz)

RRU32 29

2600 (band 7)

2500 to 2570

2620 to 2690

LTE FDD

40




RRU3 229

Issue 07 (2016-04-29)


Capacity

2T2R




-106.0

-108.8


Output Power

Power Consum ption

The RRU3229 supports the maximum power configurati on 2 x 60 W. For typical configurati ons, see Typical Power Configura tion for RRU3229 .


309




Input Power


Weight (kg)

RRU3229









Relative Humidity

Absolute Humidity


Storage Time

RRU32 29


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Issue 07 (2016-04-29)


310




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


311






Topology

Cascading Levels


RRU3229

2

1.25, 2.5, or 4.9






– Casca ding

Issue 07 (2016-04-29)


312


Type




Topology

Cascading Levels



Issue 07 (2016-04-29)


313



Type



Topology

Cascading Levels




TMA Support


RRU3229

Supported

AISG2.0 and AISG1.1

NOTE


6.4.23 RRU3230E Technical Specifications The RRU3230E is a type of low-power RRU. It applies to continuous coverage solutions for micro base stations in high traffic hotspots. The RRU3230E features characteristics such as easy site acquisition and easy deployment. In addition, multiple RRU3230Es can be combined to form a multimode RRU.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3230E. Table 6-379 Modes and frequency bands supported by an RRU3230E

Issue 07 (2016-04-29)

Type




Mode

IBW (MHz)

RRU3 230E

1800 (band 3)

1710 to 1770

1805 to 1865

LTE FDD

40

1735 to 1785

1830 to 1880


40

314





Table 6-380 RF specifications of an RRU3230E Type

RRU3 230E


Capacity

2T2R

Each RRU3230E supports two carriers with a bandwidth of 5, 10, 15, or 20 MHz.



l -105 dBm (IBW ≤ 20 MHz)

l -107.8 dBm (IBW ≤ 20 MHz)

l -103 dBm (20 MHz < IBW ≤ 40 MHz)

l -105.8 dBm (20 MHz < IBW ≤ 40 MHz)

Output Power

Power Consum ption

The RRU3230 E supports the maximum power configurat ion 2 x 5 W. For typical configurat ions, see Typical Power Configur ation for RRU3230 E.

When the output power is 2 x 5 W, the power consumpti on of an RRU3230 E is as follows: l Typical Power Consu mption : 70 W l Maxim um Power Consu mption : 90 W


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Input Power


Weight (kg)

RRU3230 E

220 V/110 V AC, voltage range: 90 V AC to 290 V AC

290 mm x 210 mm x 68 mm (4 L, without antennas)

5 kg (without antennas)

290 mm x 210 mm x 101 mm (6 L, with antennas)

6 kg (with antennas)



Relative Humidity

Absolute Humidity


Storage Time

RRU323 0E

l With solar radiation: – 40°C to +45°C

5% RH to 95% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiation: – 40°C to +50°C


Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


316



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


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317






Topology

Cascading Levels


RRU3230E

2

2.5, 4.9, or 9.8

Star, chain , or ring

l When the rate at the CPRI port is 2.5 Gbit/s:


– Three levels are suppo rted if the cell band width is less than or equal to 5 MHz. – Two levels are suppo rted if the cell band width is 10 MHz. – Casca ding is not suppo rted if the cell band width is greate r than

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318


Type




Topology

Cascading Levels


or equal to 15 MHz. l When the data rate at the CPRI port is 4.9 Gbit/s: – Six levels are suppo rted if the cell band width is less than or equal to 5 MHz. – Four levels are suppo rted if the cell band width is 10 MHz. – Three levels are suppo rted if the cell band

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319


Type




Topology

Cascading Levels


width is greate r than or equal to 15 MHz. l When the data rate at the CPRI port is 9.8 Gbit/s: six levels are supporte d.


TMA Support


RRU3230E

Not supported

Not supported



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320







Mode

IBW (MHz)

RRU324 0

2600 (band 7)

2500 to 2570

2620 to 2690

LTE FDD

40




RRU3 240

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Capacity

2T4R




-106.0

-108.8


Output Power

Power Consum ption



321




Input Power


Weight (kg)

RRU3240









Relative Humidity

Absolute Humidity


Storage Time

RRU32 40


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




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322




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


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323






Topology

Cascading Levels


RRU3240

2

1.25, 2.5, or 4.9




l When the rate at the CPRI port is 2.5 Gbit/s: – Two levels are suppo rted if the cell band width is less than or equal to 5 MHz. – Casca ding is not recom mend ed if the cell band width is greate r than

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324


Type




Topology

Cascading Levels


or equal to 10 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Two levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Casca ding is not recom mend ed if the cell band width is greate r than or equal to 15 MHz.

Antenna Capability The following table lists the antenna capability of an RRU3240. Issue 07 (2016-04-29)


325




TMA Support


RRU3240

Supported

AISG2.0 and AISG1.1

NOTE







Mode

IBW (MHz)

RRU3249

700 (band 12)

699 to 716

729 to 746

LTE FDD

15



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326




RRU3 249


Capacity

2T2R

2 carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz.



-105.8

-108.6

Output Power

Power Consum ption




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327




Input Power


Weight (kg)

RRU3249


400 mm x 300 mm x 150 mm (18 L, without the housing)

≤ 20 (without the housing)




Relative Humidity

Absolute Humidity


Storage Time

RRU32 49


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiation: -40°C to +55°C NOTE According to the installation scenario, traffic load, and carrier configuration, the output power of RRU3249 may temporarily decrease when they work in the highest 10°C temperature range.



328




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


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329






Topology

Cascading Levels


RRU3249

2

1.25, 2.5, 4.9, or 9.8

Star, chain, or load sharing



l When the rate at the CPRI port is 2.5 Gbit/s: – Four levels are suppo rted if the cell band width is less than or equal to 5 MHz. – Two levels are suppo rted if the cell band width is 10 MHz.


– Casca ding

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330


Type




Topology

Cascading Levels


is not suppo rted if the cell band width is greate r than or equal to 15 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Four levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Two levels are suppo rted if the cell band width is greate

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331


Type




Topology

Cascading Levels


r than or equal to 15 MHz. l When the rate at the CPRI port is 9.8 Gbit/s: Four levels are supporte d.


TMA Support


RRU3249

Supported

AISG2.0 and AISG1.1

NOTE




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332







Mode

IBW (MHz)

RRU3260

2600 (band 7)

2500 to 2570

2620 to 2690

LTE FDD

50




RRU3 260

Issue 07 (2016-04-29)


Capacity

2T4R




-106.5

-109.3


Output Power

Power Consump tion

The RRU3260 supports the maximum power configurati on 2 x 40 W. For typical configurati ons, see Typical Power Configura tion for RRU3260.

See the RRU3260 sheet in 3900 Series Base Station Power Consumpti on Specificati ons.

333




Input Power


Weight (kg)

RRU3260







Relative Humidity

Absolute Humidity


Storage Time

RRU32 60


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiation: -40°C to +55°C NOTE According to the installation scenario, traffic load, and carrier configuration, the output power of some RRUs may temporarily decrease when they work in the highest 10°C temperature range.

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334




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA



335






Topology

Cascading Levels


RRU3260

2





l RRU326 0 modules of 02311KV A support 1.25 Gbit/s, 2.5 Gbit/s, 4.9 Gbit/s, or 9.8 Gbit/s; l RRU326 0 modules of other BOM codes support 1.25 Gbit/s, 2.5 Gbit/ s,or 4.9 Gbit/s.

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336


Type




Topology

Cascading Levels


or equal to 10 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Two levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Casca ding is not recom mend ed if the cell band width is greate r than or equal to 15 MHz. l (Only the RRU326 0 with the BOM

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337


Type




Topology

Cascading Levels


code 02311KV A supporte d)When the rate at the CPRI port is 9.8 Gbit/s: – Four levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Two levels are suppo rted if the cell band width is greate r than or equal to 15 MHz.



338




TMA Support


RRU3260

Supported

AISG2.0 and AISG1.1

NOTE


6.4.27 RRU3262 Technical Specifications An RRU3262, which is a remote radio unit for LTE FDD, supports three carriers.





Mode

IBW (MHz)

RRU326 2

2600 (band 7)

2500 to 2570

2620 to 2690

LTE FDD

60

700 (band 28)

703 to 748

758 to 803

45



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339



Table 6-412 RF specifications of an RRU3262 Typ e

Tran smit and Rece ive Cha nnel s

Capacity

RRU 3262

2T4R




2600 MHz: 3 carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz.

l 2600 MHz : -106. 5

l 2600 MHz : -109. 3

l 2600 MHz : -112

700 MHz: 2 carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz.

l 700 MHz : -106

l 700 MHz : -108. 8

l 700 MHz : -111. 5

Output Power

Power Consu mption


See the RRU326 2 sheet in 3900 Series Base Station Power Consum ption Specific ations.


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340




Input Power


Weight (kg)

RRU3262


l 2600 MHz: 400 mm x 300 mm x 100 mm (12 L, without the housing)

l 2600 MHz: ≤ 15 (without the housing)


l 700 MHz: 400 mm x 300 mm x 150 mm (18 L, without the housing)

l 700 MHz: ≤ 20 (without the housing)



Relative Humidity

Absolute Humidity


Storage Time

RRU32 62


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiation: -40°C to +55°C NOTE According to the installation scenario, traffic load, and carrier configuration, the output power of RRU3262 may temporarily decrease when they work in the highest 10°C temperature range.



341




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


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342






Topology

Cascading Levels


RRU3262

2

1.25, 2.5, 4.9, or 9.8





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343


Type




Topology

Cascading Levels


or equal to 10 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Two levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Casca ding is not recom mend ed if the cell band width is greate r than or equal to 15 MHz. l When the rate at the CPRI port is

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344


Type




Topology

Cascading Levels


9.8 Gbit/s: Four levels are supporte d.


TMA Support


RRU3262

Supported

AISG2.0 and AISG1.1

NOTE




Issue 07 (2016-04-29)

Type




Mode

IBW (MHz)

RRU326 8

2600 (band 7)

2500 to 2570

2620 to 2690

LTE FDD

50

700 (band 28)

Band A: 703 to 743

Band A: 758 to 798

Band B: 718 to 748

Band B: 773 to 803


25

345


Type





800

832 to 862

791 to 821

Mode

IBW (MHz)

20




RRU3 268

Issue 07 (2016-04-29)


Capacity

2T2R




l 2600 MHz: -106.5

l 2600 MHz: -109.3

l 700 MHz: -106.0

l 700 MHz: -108.8

l 800M Hz: -106.4

l 800M Hz: -109.2


Output Power

Power Consum ption



346




Input Power


Weight (kg)

RRU3268







Relative Humidity

Absolute Humidity


Storage Time

RRU32 68


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiation: -40°C to +55°C NOTE According to the installation scenario, traffic load, and carrier configuration, the output power of some RRUs may temporarily decrease when they work in the highest 10°C temperature range.

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347




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA



348






Topology

Cascading Levels


RRU3268

2





l RRU326 8 modules of 02311KV B, 02311K WV, 02311K WW, 02311K WU, and 02311LD E support 1.25 Gbit/s, 2.5 Gbit/s, 4.9 Gbit/s, or 9.8 Gbit/s; l RRU326 8 modules of other BOM codes support 1.25 Gbit/s, 2.5 Gbit/ s,or 4.9 Gbit/s.



– Casca ding

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349


Type




Topology

Cascading Levels



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350


Type




Topology

Cascading Levels


greate r than or equal to 15 MHz. l (Only the RRU326 8 with the BOM code 02311KV B, 02311K WV, 02311K WW, 02311K WU, or 02311LD E supporte d) When the rate at the CPRI port is 9.8 Gbit/s: Four levels are supporte d.


Issue 07 (2016-04-29)

Type

TMA Support


RRU3268

Supported

AISG2.0 and AISG1.1


351



NOTE


6.4.29 RRU3269 Technical Specifications An RRU3269, which is a remote radio unit for LTE FDD, supports two bands and a maximum of two carriers.

Supported RATs and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3269. Table 6-427 Modes and frequency bands supported by an RRU3269 Type




Mode

IBW (MHz)

RRU326 9

700 (band 12 & band 13)

Band 12: 699 to 715

Band 12: 729 to 745

LTE FDD

Band 13: 777 to 787

Band 13: 746 to 756

l 700 MHz (Band 12): 15 l 700 MHz (Band 13): 10 l 700 MHz (Band 12 & Band 13): 16

RF Specifications Table 6-428 lists the radio frequency (RF) specifications of an RRU3269. NOTE


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352




RRU3 269


Capacity

2T2R

Two carriers.



l 700 MHz (band 12): -105.8

l 700 MHz (band 12): -108.6

l 700 MHz (band 13): -106.2

l 700 MHz (band 13): -109.0

Output Power

Power Consum ption

A maximum of 2 x 60 W. For typical configurat ions, see Typical Power Configur ation for RRU3269 .

For details, see the RRU3269 sheet in 3900 Series Base Station Power Consumpt ion Specificati ons.


Input Power


Weight (kg)

RRU3269



≤ 20 kg (without the housing)




353





Relative Humidity

Absolute Humidity


Storage Time

RRU32 69

l With solar radiatio n of 1120 W/m2: -40ºC to +50ºC

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiatio n: -40ºC to +55ºC NOTE According to the installatio n scenario, traffic load, and carrier configurati on, the output power of some RRUs may temporaril y decrease when they work in the highest 10°C temperatur e range.

The following table lists the compliance standards of an RRU3269.

Issue 07 (2016-04-29)


354




Standard



Shockproof Protection

NEBS GR63 zone4

Ingress Protection (IP) Rating

IP65

Surge protection


Table 6-432 lists the surge protection specifications of an RRU3269. NOTE


Table 6-432 Surge protection specifications of an RRU3269 Port



Power supply socket

Surge current

20kA

CPRI Port Specifications The following table lists the CPRI port specifications of an RRU3269. Issue 07 (2016-04-29)


355



Table 6-433 CPRI port specifications of an RRU3269 Type



CPRI Topology

Cascading Capability


RRU3269

2

1.25, 2.5, 4.9, or 9.8




l When the rate at the CPRI port is 2.5 Gbit/s: – Four levels are suppo rted if the cell band width is less than or equal to 5 MHz.


– Two levels are suppo rted if the cell band width is 10 MHz.

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356


Type




CPRI Topology



– Casca ding is not suppo rted if the cell band width is greate r than or equal to 15 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Four levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Two levels are suppo rted if the cell band

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357


Type




CPRI Topology



width is greate r than or equal to 15 MHz. l When the rate at the CPRI port is 9.8 Gbit/s: Four levels are supporte d.


TMA Support

Supported RET Antenna

RRU3269

Supported

AISG2.0 and AISG1.1

NOTE


6.4.30 RRU3281 Technical Specifications An RRU3281, which is a remote radio unit for LTE FDD, supports two bands and a maximum of three carriers.

Supported RATs and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3281.

Issue 07 (2016-04-29)


358







Mode

IBW (MHz)

RRU328 1

2600 (band 7)

2500 to 2570

2620 to 2690

LTE FDD

60




RRU3 281


Capacity

4T4R

Three carriers.



-106.3

-109.1

Output Power

Power Consum ption

A maximum of 4 x 40 W. For typical configurat ions, see Typical Power Configur ation for RRU3281 .

For details, see the RRU3281 sheet in 3900 Series Base Station Power Consumpt ion Specificati ons.

Engineering Specifications The following table lists the equipment specifications of an RRU3281. Issue 07 (2016-04-29)


359




Input Power


Weight (kg)

RRU3281


400 mm x 300 mm x 150 mm

≤ 21 kg (without the housing)



Issue 07 (2016-04-29)


360





Relative Humidity

Absolute Humidity


Storage Time

RRU32 81

l With solar radiatio n of 1120 W/m2: -40ºC to +50ºC

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l Without solar radiatio n: -40ºC to +55ºC NOTE According to the installatio n scenario, traffic load, and carrier configurati on, the output power of some RRUs may temporaril y decrease when they work in the highest 10°C temperatur e range.

The following table lists the compliance standards of an RRU3281.

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361




Standard



Shockproof Protection

NEBS GR63 zone4

Ingress Protection (IP) Rating

IP65

Surge protection


Table 6-440 lists the surge protection specifications of an RRU3281. NOTE


Table 6-440 Surge protection specifications of an RRU3281 Port



Power supply socket

Surge current

20kA

CPRI Port Specifications The following table lists the CPRI port specifications of an RRU3281. Issue 07 (2016-04-29)


362



Table 6-441 CPRI port specifications of an RRU3281 Type



CPRI Topology



RRU3281

2

1.25, 2.5, 4.9, or 9.8




l When the rate at the CPRI port is 2.5 Gbit/s: – Two levels are suppo rted if the cell band width is less than or equal to 5 MHz.


– Casca ding is not recom mend ed if the cell band width is

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363


Type




CPRI Topology



greate r than or equal to 10 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Two levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Casca ding is not recom mend ed if the cell band width is greate r than or equal to 15 MHz.

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364


Type




CPRI Topology



l When the rate at the CPRI port is 9.8 Gbit/s: – Four levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Two levels are suppo rted if the cell band width is greate r than or equal to 15 MHz.

Antenna Capability The following table lists the antenna capability of an RRU3281.

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365




TMA Support


RRU3281

Supported

AISG2.0 and AISG1.1

NOTE


6.4.31 RRU3668 Technical Specifications An RRU3668, which is a remote radio unit for LTE FDD, supports one carrier.





Mode

RRU3668

450

452.5 to 457.5

462.5 to 467.5

LTE FDD



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366




RRU3 668


Capacity

2T2R

One carriers. The bandwidth per carrier is 1.4,3 or 5 MHz.



-101.5

-104.3

Output Power

Power Consum ption

For typical configurat ions, see Typical Power Configur ation for RRU3668 .



Input Power


Weight (kg)

RRU3668


400 mm x 300 mm x 150 mm

≤ 25

NOTE The RRU3668 supports AC applications after being configured with an AC/DC power module. For details, see the AC/DC Power Module User Guide.


Issue 07 (2016-04-29)


367





Relative Humidity

Absolute Humidity


RRU3668


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa



Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


Table 6-448 lists the surge protection specifications of ports on an RRU3668.

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368



NOTE





Power supply port

Surge current

20 kA




Topology

Cascading Levels


RRU3668

2

1.25, 2.5 or 4.9


4

20


TMA Support


RRU3668

Supported

AISG2.0 and AISG1.1

NOTE



Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3841. Issue 07 (2016-04-29)


369







Mode

IBW (MHz)

RRU3 841

AWS (band 4)

1710 to 1755

2110 to 2155

LTE FDD

40




RRU3 841

Issue 07 (2016-04-29)


Capacity

4T4R

Two carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz; the total bandwidth between the maximum frequency and the minimum frequency of the spectrums for two carriers does not exceed 40 MHz.



-106.3

-109.1


Output Power

Power Consum ption

Output power for the RRU3841 (LTE FDD, AWS)


370



Table 6-453 Output power for the RRU3841 (LTE FDD, AWS) TX and RX Mode

TX RF Port Combination Mode

Maximum Output Power (W)

1T2R

Port A or port B

1 x 60

2T2R

Port A is used with port B

2 x 60. For typical configurations, see Typical Power Configuration for RRU3841.

l Port A is used with port C

2 x 30

l Port B is used with port D 2T2R + 2T2R (two sectors)

Port A is used with port C and port B is used with port D

2 x 30 + 2 x 30

2T4R

Port A is used with port B

2 x 60

4T4R

Ports A, B, C, and D are used together

4 x 30. For typical configurations, see Typical Power Configuration for RRU3841.


Input Power


Weight (kg)

RRU3841









371





Relative Humidity

Absolute Humidity

Atmosphe ric Pressure

Storage Time

RRU38 41

4T4R

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa

It is recommend ed that the device be installed and used within one year after its delivery because of the failure rate.

l With solar radiation of 1120 W/m2: -40°C to +45°C l Without solar radiation: -40°C to +50°C Other configurations l With solar radiation of 1120 W/m2: -40°C to +50°C l Without solar radiation: -40°C to +55°C


Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


372



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


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373






Topology

Cascading Levels


RRU3841

2

1.25, 2.5, or 4.9





Issue 07 (2016-04-29)



374


Type




Topology

Cascading Levels


or equal to 10 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Two levels are suppo rted if the cell band width is less than or equal to 10 MHz. – Casca ding is not recom mend ed if the cell band width is greate r than or equal to 15 MHz.



375




TMA Support


RRU3841

Supported

AISG2.0 and AISG1.1

NOTE


6.4.33 RRU3908 Technical Specifications RRU3908 modules are remote radio units and are classified into RRU3908 V1 and RRU3908 V2 modules. With the software-defined radio (SDR) technique, RRU3908 modules can work in different modes with different configurations.





Mode

IBW (MHz)

RRU390 8 V1 (DC/AC )

850

824 to 849

869 to 894

GSM and UMTS

12.5

900 PGSM

890 to 915

935 to 960

12.5

900 EGSM

880 to 905

925 to 950

GSM, UMTS, and GU

1800

1710 to 1755

1805 to 1850

l GSM: 15

1740 to 1785

1835 to 1880


l LTE FDD: 20 l GL: 15

1900

RRU390 8 V2 (DC)

850

1850 to 1890

1930 to 1970

1870 to 1910

1950 to 1990

824 to 849

869 to 894

GSM and UMTS

12.5

GSM, UMTS, and GU

l GSM: 20 l UMTS: 25 l GU: 20

900 PGSM

Issue 07 (2016-04-29)

890 to 915

935 to 960


GSM, UMTS, LTE

l GSM: 20

376



Type

RRU390 8 V2 (AC)




Mode

IBW (MHz)

900 EGSM

880 to 915

925 to 960

FDD, GU, and GL

l UMTS/LT E FDD: 25 l GU/GL: 20

900 PGSM

890 to 915

935 to 960


l GSM: 20 l UMTS/LT E FDD: 25 l GU/GL: 20

NOTE

On the 900 MHz frequency band, only the hardware of the RRU3908 V2 supports the LTE mode.


l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3908 that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard. The RRU3908 that works in GSM mode and operates in the 850 or 1900 MHz frequency band complies with the 3GPP TS 45.005 V10.2.0 and 3GPP TS 51.021 V10.2.0 standards. l The RRU3908 that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards. The RRU3908 that works in UMTS, LTE FDD, or MSR mode and operates in the 850 or 1900 MHz frequency band complies with the 3GPP TS 37.104 V10.4.0 and TS 37.141 V10.4.0 standards.

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377



Table 6-461 RF specifications of an RRU3908

Issue 07 (2016-04-29)

Ty pe


Capacit y

RR U3 908 V1

2T 2R

Receiver Sensitivity (dBm) Receiv er Sensiti vity with One Anten na

Receiv er Sensiti vity with Two Anten nas


GSM: 6 TRXs

GSM: -113.0

GSM: -115.8

UMTS: 4 carriers

UMTS: -125.5

UMTS: -128.3


LTE FDD: 1 carrier with a bandwidt h of 5, 10, 15, or 20 MHz

LTE FDD: -106.3

LTE FDD: -109.1

UMTS: -131.0 LTE FDD: -111.8


Output Power

Power Consumpti on

The RRU3908 V1 supports the maximum power configuration 2 x 40 W. For typical PA configurations, see Typical Power Configuration for RRU3908 V1.

See the RRU3908 sheet in 3900 Series Base Station Power Consumption Specification s.

378



Ty pe


Capacit y

RR U3 908 V2

2T 2R

GSM: 8 TRXs UMTS: l 850 MHz: 2 carrie rs l 900 MHz: 4 carrie rs LTE FDD: 1 carriers with a bandwidt h of 1.4, 3, 5, 10, 15, or 20 MHz




GSM:

GSM:

GSM:

l 850/ 900 MH z PGS M: -113 .5

l 850/ 900 MHz PGS M: -116. 3

l 850/90 0 MHz PGSM : -119.0 (theor etical value)

l 900 MH z EGS M: -113 .3 UMTS: l 850/ 900 MH z PGS M: -125 .5 l 900 MH z EGS M: -125 .3 LTE FDD:

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l 900 MHz EGS M: -116. 1 UMTS: l 850/ 900 MHz PGS M: -128. 3 l 900 MHz EGS M: -128. 1

l 900 MHz EGSM : -118.8 (theor etical value)

Output Power

Power Consumpti on

The RRU3908 V2 supports the maximum power configuration 2 x 40 W. For typical PA configurations, see Typical Power Configuration for RRU3908 V2.

UMTS: l 850/90 0 MHz PGSM : -131.0 l 900 MHz EGSM : -130.8

LTE FDD:

LTE FDD:

l 900 MHz PGS

l 900 MHz PGSM


379


Ty pe



Capacit y




l 900 MH z PGS M: -106 .3

M: -109. 1

: -111.8

l 900 MH z EGS M: -106 .1

l 900 MHz EGS M: -108. 9

Output Power

Power Consumpti on

l 900 MHz EGSM : -111.6


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380




Input Power


Weight (kg)

RRU3908 V1

l -48 V DC; voltage range: -36 V DC to -57 V DC

l RRU3908 V1 (DC): 485 mm x 380 mm x 170 mm (with the housing)

l RRU3908 V1 (DC): 23 (with the housing)

l 220 V AC AC single-phase; voltage range: 176 V AC to 290 V AC l 110 V AC dualphase, voltage range: 90/180 V AC to 135/270 V AC RRU3908 V2

l -48 V DC; voltage range: -36 V DC to -57 V DC l 220 V AC singlephase; voltage range: 176 V AC to 290 V AC l 110 V AC dualphase, voltage range: 90/180 V AC to 135/270 V AC

l RRU3908 V1 (AC): 485 mm x 380 mm x 250 mm (with the housing)

l RRU3908 V2 (DC): 485 mm x 380 mm x 170 mm (with the housing) l RRU3908 V2 (AC): 485 mm x 380 mm x 250 mm (with the housing)

l RRU3908 V1 (AC): 29 (with the housing)

l RRU3908 V2 (DC): 23 (with the housing) l RRU3908 V2 (AC): 29 (with the housing)



Relative Humidity

Absolute Humidity


Storage Time

RRU 3908 V1


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa



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381



Type


RRU 3908 V2


Relative Humidity

Absolute Humidity


Storage Time



Standard


l 3GPP TS 45.005 l 3GPP TS 25.141 l 3GPP TS 36.141 l 3GPP TS 37.141 l ETSI EN 300019-1-4 V2.1.2 (2003-04) Class 4.1: "Nonweatherprotected locations"


NEBS GR63 zone4

Protection Rating

IP65

Surge protection


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382









Surge current

20 kA


Surge current

40 kA




Topology

Cascading Levels


RRU3908 V1

2

l 850 MHz/900 MHz/ 1900 MHz: 1.25


CPRI MUX:

l GU (dualstar/ CPRI MUX): 40 l In the GL mode (dualstar/ CPRI MUX), the maximu m distances of the RRUs from the BBU vary with the types of BBP in LTE

l 1800 MHz: 1.25 or 2.5

Issue 07 (2016-04-29)


l GU: 6 l GL: 4

383



Type



RRU3908 V2

2

1.25 or 2.5

Topology

Cascading Levels

Maximum Distance from the BBU (km) mode as follows – When the LBBP c, LBBP d1, UBB Pd3, or UBB Pda is config ured: 20 – When the LBBP d2 or UBB Pd4 is config ured: 40 – When the LBBP d3, UBB Pd5, or UBB Pd6 is config ured: – Ce ll qu ant ity ≤ 3: 40

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384



Type



Topology

Cascading Levels

Maximum Distance from the BBU (km) – Ce ll qu ant ity ≥ 4: 20


TMA Support


RRU3908 V1

Supported

AISG2.0 and AISG1.1

RRU3908 V2

Supported

AISG2.0 and AISG1.1

NOTE


6.4.34 RRU3926 Technical Specifications RRU3926 modules are remote radio units and can work in different modes with different configurations and the software-defined radio (SDR) technique.


Issue 07 (2016-04-29)

Type




Mode

IBW (MHz)

RRU392 6

900 EGSM

880 to 915

925 to 960

35

900 PGSM

890 to 915

935 to 960

GSM, UMTS, and GU


25

385


Type





Mode

IBW (MHz)

1800

1710 to 1785

1805 to 1880




l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3926 that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard . l The RRU3926 that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

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386



Table 6-469 RF specifications of an RRU3926 Ty pe


Capacit y




RR U3 926

1T 2R

GSM: 8 TRXs

GSM:

GSM:

GSM:

l 900 MHz: -113. 7

l 900 MHz: -116.5


UMTS: 6 carriers LTE FDD: 2 carriers, the bandwidt h per carrier is 1.4, 3, 5, 10, 15, or 20 MHz

l 1800 MHz: -114. 0 UMTS: l 900 MHz: -125. 8 LTE FDD l 1800 MHz: -106. 6

l 1800 MHz: -116.8 UMTS: l 900 MHz: -128.6 LTE FDD l 1800 MHz: -109.4

l 1800 MHz: -119.5 (theor etical value) UMTS: l 900 MHz: -131.3

Output Power

Power Consumptio n

The RRU3926 supports the maximum power configuratio n 1 x 80 W. For the typical configuratio ns, see Typical Power Configurati on for RRU3926.

See the RRU3926 sheet in 3900 Series Base Station Power Consumption Specifications .

LTE FDD l 1800 MHz: -112.1


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387




Input Power


Weight (kg)

RRU3926



l 15 (with the housing)



l 13.5 (without the housing)



Relative Humidity

Absolute Humidity


Storage Time

RRU 3926


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



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388



Item

Standard


NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


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389






Topology

Cascading Levels


RRU3926

2

1.25 or 2.5


l Chain: 21

l GU (dualstar/ CPRI MUX): 40

NOTE When the number of RRU cascadin g levels is greater than 6, the data rate of configur ed optical modules must be not lower than 2.5 Gbit/s.

l CPRI MUX: – GU: 6 – GL: 4

l In the GL mode (dualstar/ CPRI MUX), the maximu m distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows – When the LBBP c, LBBP d1, UBB Pd3, or UBB Pda is config ured: 20 – When the LBBP d2 or

Issue 07 (2016-04-29)


390


Type




Topology

Cascading Levels

Maximum Distance from the BBU (km) UBB Pd4 is config ured: 40 – When the LBBP d3, UBB Pd5, or UBB Pd6 is config ured: – Ce ll qu ant ity ≤ 3: 40 – Ce ll qu ant ity ≥ 4: 20


Issue 07 (2016-04-29)

Type

TMA Support


RRU3926

Supported

AISG2.0 and AISG1.1


391



NOTE







Mode

IBW (MHz)

RRU392 8

900 EGSM

880 to 915

925 to 960


35

1800

1710 to 1785

1805 to 1880



NOTE

On the 900 MHz frequency band, only the hardware of the RRU3928 supports the LTE mode.

RF Specifications Table 6-477 lists radio frequency (RF) specifications of an RRU3928.

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392



NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3928 that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard. l The RRU3928 that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

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393





Capacit y




RR U3 928

2T 2R

GSM: 8 TRXs

GSM:

GSM:

GSM:

l 900 MHz: -113. 7

l 900 MHz: -116.5



l 1800 MHz: -114. 0 UMTS: l 900 MHz: -125. 8 LTE FDD: l 900 MHz: -106. 3 l 1800 MHz: -106. 6

l 1800 MHz: -116.8 UMTS: l 900 MHz: -128.6 LTE FDD:


Output Power

Power Consumpt ion

The RRU3928 supports the maximum power configuration 2 x 40 W. For the typical configurations , see Typical Power Configuratio n for RRU3928.

See the RRU3928 sheet in 3900 Series Base Station Power Consumptio n Specificatio ns.

UMTS:

l 900 MHz: -109.1

l 900 MHz: -131.3

l 1800 MHz: -109.4

LTE FDD: l 900 MHz: -111.8 l 1800 MHz: -112.1


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394




Input Power


Weight (kg)

RRU3928









Relative Humidity

Absolute Humidity


Storage Time

RRU 3928


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



Issue 07 (2016-04-29)


395



Item

Standard


NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


396






Topology

Cascading Levels


RRU3928

2

1.25, 2.5, or 4.9


CPRI MUX:

l GU: 40

l GU: 6

l GL/UL: The maximu m distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows:

l GL: 4 l UL: 4

– When the LBBP c, LBBP d1, UBB Pd3, or UBB Pda is config ured: 20 – When the LBBP d2 or UBB Pd4 is config ured: 40 – When the LBBP d3, UBB

Issue 07 (2016-04-29)


397


Type




Topology

Cascading Levels

Maximum Distance from the BBU (km) Pd5, or UBB Pd6 is config ured: – Ce ll qu ant ity ≤ 3: 40 – Ce ll qu ant ity ≥ 4: 20


TMA Support


RRU3928

Supported

AISG2.0 and AISG1.1

NOTE



Issue 07 (2016-04-29)


398







Mode

IBW (MHz)

RRU392 9

900 EGSM

880 to 915

925 to 960

35

900 PGSM

890 to 915

935 to 960


1800

1710 to 1785

1805 to 1880


l GSM: 35

25


NOTE



l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3929 that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard. l The RRU3929 that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

Issue 07 (2016-04-29)


399





Capacit y



Receiver Sensitiv ity with Four Antenna s

RR U3 929

2T 2R

GSM: 8 TRXs

GSM:

GSM:

GSM:

l 900 MHz: -113. 7

l 900 MHz: -116.5


UMTS: l Witho ut MIM O: 6 carrie rs l With MIM O: 4 carrie rs LTE FDD: 2 carriers, the bandwidt h per carrier is 1.4, 3, 5, 10, 15, or 20 MHz




Output Power

Power Consumpt ion

The RRU3929 supports the maximum power configuration 2 x 60 W. For the typical configurations, see Typical Power Configuration for RRU3929.


UMTS:

l 900 MHz: -109.1

l 900 MHz: -131.3

l 1800 MHz: -109.4

LTE FDD: l 900 MHz: -111.8 l 1800 MHz: -112.1


Issue 07 (2016-04-29)


400




Input Power


Weight (kg)

RRU3929









Relative Humidity

Absolute Humidity


Storage Time

RRU 3929


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



Issue 07 (2016-04-29)


401



Item

Standard


NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


402






Topology

Cascading Levels


RRU3929

2

1.25, 2.5, or 4.9


CPRI MUX:

l GU: 40

l GU: 6


l GL: 4 l UL: 4


Issue 07 (2016-04-29)


403


Type




Topology

Cascading Levels



TMA Support


RRU3929

Supported

AISG2.0 and AISG1.1

NOTE


6.4.37 RRU3930E Technical Specifications The RRU3930E is a type of low-power RRU. It applies to continuous coverage solutions for micro base stations in high traffic hotspots. The RRU3930E features characteristics such as easy site acquisition and easy deployment. In addition, multiple RRU3930Es can be combined to form a multimode RRU. With the Software Defined Radio (SDR) technology, the RRU3930E can work either in UL dual-mode through software configuration modification. Issue 07 (2016-04-29)


404



Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3930E. Table 6-492 Modes and frequency bands supported by an RRU3930E Type




Mode

IBW (MHz)

RRU3930E

2100

1920 to 1980

2110 to 2170


40



Issue 07 (2016-04-29)


405




RRU3930 E

TX and RX Channel

Capacity

2T2R

UMTS: A RRU3930 E working in UMTS mode can be configured with a maximum of four carriers. LTE FDD: A RRU3930 E working in LTE FDD mode can be configured with a maximum of two carriers with a bandwidth of 5, 10, 15, or 20 MHz.



UMTS: -123 dBm

UMTS: -125.8 dBm

LTE FDD:

LTE FDD:

l -105 dBm (IBW ≤ 20 MHz)

l -107.8 dBm (IBW ≤ 20 MHz)

l -103 dBm (20 MHz < IBW ≤ 40 MHz)

l -105.8 dBm (20 MHz < IBW ≤ 40 MHz)

Output Power

Power Consum ption

The maximum power configurati on is 2 x 5 W.

When the output power is 2 x 5 W, the power consumpti on of an RRU3930 E is as follows:

For typical configurati ons, see Typical Power Configura tion for RRU3930 E.

l Typical Power Consu mption : 70 W l Maxim um Power Consu mption : 90 W

UL: A RRU3930 E working in UMTS +LTE FDD mode can be configured with a maximum of two UMTS Issue 07 (2016-04-29)


406


Type


TX and RX Channel

Capacity


Output Power


Power Consum ption

carriers plus one LTE carrier.

Equipment Specifications Table 6-494 lists the equipment specifications of an RRU3930E. Table 6-494 Equipment specifications of an RRU3930E Type

Input Power


Weight

RRU3930E

220 V/110 V AC, voltage range: 90 V AC to 290 V AC

290 mm x 210 mm x 68 mm (4 L, without antennas)

5 kg (without antennas) 6 kg (with antennas)

290 mm x 210 mm x 101 mm (6 L, with antennas)

The following table lists the environmental specifications of an RRU3930E.

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407



Table 6-495 Environmental specifications of an RRU3930E Type


Relative Humidity

Absolute Humidity


Storage Time

RRU3930E


5% RH to 95% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l With solar radiatio: -40°C to +45°C


Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


408



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


409






Topology

Cascading Levels


RRU3930E

2

2.5, 4.9 or 9.8


UMTS: 6

UMTS: 40

LTE FDD:

LTE FDD/UL:

l When the rate at the CPRI port is 2.5 Gbit/s: – Three levels are suppo rted if the cell band width is less than or equal to 5 MHz. – Two levels are suppo rted if the cell band width is 10 MHz. – Casca ding is not suppo rted if the cell band width is

Issue 07 (2016-04-29)



410


Type




Topology

Cascading Levels



l When the data rate at the CPRI port is 4.9 Gbit/s: – Six levels are suppo rted if the cell band width is less than or equal to 5 MHz. – Four levels are suppo rted if the cell band width is 10 MHz. – Three levels are suppo rted if the

Issue 07 (2016-04-29)


411



Type



Topology

Cascading Levels


cell band width is greate r than or equal to 15 MHz. l When the data rate at the CPRI port is 9.8 Gbit/s: six levels are supporte d. UL: l CPRI MUX: 6


TMA Support

RET Antenna Support

RRU3930E

Supported

AISG2.0 and AISG1.1

NOTE


6.4.38 RRU3936 Technical Specifications RRU3936 modules are remote radio units and can work in different modes with different configurations and the software-defined radio (SDR) technique. Issue 07 (2016-04-29)


412







Mode

IBW (MHz)

RRU393 6

850

824 to 849

869 to 894

GSM, UMTS, and GU

25

900 EGSM

880 to 915

925 to 960

35

900 PGSM

890 to 915

935 to 960

GSM, UMTS, and GU

1900

1850 to 1910

1930 to 1990


l GSM: 35

25

l UMTS/LT E FDD/UL: 40 l GU/GL: 35

1800

1710 to 1785

1805 to 1880




Issue 07 (2016-04-29)


413



NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity, as recommended in 3GPP TS 51.021, is measured at the antenna connector on condition that the channel rate is 13 kbit/s and the Bit Error Rate (BER) is not higher than 2%. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3936 that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard. l The RRU3936 that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

Issue 07 (2016-04-29)


414





Capacit y




RR U3 936

1T 2R

GSM: 8 TRXs

GSM:

GSM:

GSM:

l 850 MHz: -113.4

l 850 MHz: -116.2

l 900 MHz: -113.7

l 900 MHz: -116.5


l 1800 MHz: -114.0

l 1800 MHz: -116.8

l 1900 MHz: -113.7

l 1900 MHz: -116.5

UMTS:

UMTS:

l 850 MHz: -125.5

l 850 MHz: -128.3

l 900 MHz: -125.8

l 900 MHz: -128.6

l 1900 MHz: -125.8

l 1900 MHz: -128.6

LTE FDD:

LTE FDD:

l 1800 MHz: -106.6

l 1800 MHz: -109.4

l 850 MHz: -131.0

l 1900 MHz: -106.3

l 1900 MHz: -109.1

l 900 MHz: -131.3


Issue 07 (2016-04-29)


Output Power

Power Consump tion


See the RRU3936 sheet in 3900 Series Base Station Power Consumpti on Specificati ons.

l 1800 MHz: -119.5 (theor etical value) l 1900 MHz: -119.2 (theor etical value) UMTS:


415


Ty pe



Capacit y




Output Power

Power Consump tion

l 1900 MHz: -131.3 LTE FDD: l 1800 MHz: -112.1 l 1900 MHz: -111.8


Input Power


Weight (kg)

RRU3936


400 mm x 300 mm x 100 mm (without the shell)

14 (without the shell)


Issue 07 (2016-04-29)

NOTE RRU3936 does not have the housing by default.


416





Relative Humidity

Absolute Humidity


Storage Time

RRU 3936


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l With solar radiation: -40°C to +50°C NOTE According to the installation scenario, traffic load, and carrier configuration, the output power of the RRU3936 may temporarily decrease when they work in the highest 10°C temperature range.


Standard




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NEBS GR63 zone4


417



Item

Standard

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


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418






Topology

Cascading Levels


RRU3936

2

1.25 or 2.5


CPRI MUX:

l GU: 40

l GU: 6

l GL: The maximu m distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows:

l GL: 4 l UL: 4


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419


Type




Topology

Cascading Levels



TMA Support


RRU3936

Supported

AISG2.0 and AISG1.1

NOTE



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420







Mode

IBW (MHz)

RRU393 8

900 PGSM

890 to 915

935 to 960


25

900 EGSM

880 to 915

925 to 960


35

1800

1710 to 1785

1805 to 1880



NOTE



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421



NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity, as recommended in 3GPP TS 51.021, is measured at the antenna connector on condition that the channel rate is 13 kbit/s and the Bit Error Rate (BER) is not higher than 2%. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3938 that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard. l The RRU3938 that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

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422





Capacit y




RR U3 938

2T 2R

GSM: 8 TRXs

GSM:

GSM:

GSM:

l 900 MHz: -113. 7

l 900 MHz: -116.5






Output Power

Power Consumpt ion

The RRU3938 supports the maximum power configuration 2 x 40 W. For the typical configurations , see Typical Power Configuratio n for RRU3938.


UMTS:

l 900 MHz: -109.1

l 900 MHz: -131.3

l 1800 MHz: -109.4

LTE FDD: l 900 MHz: -111.8 l 1800 MHz: -112.1


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423




Input Power


Weight (kg)

RRU3938



14 (without the housing)




Relative Humidity

Absolute Humidity


Storage Time

RRU 3938


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa



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424




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection




Table 6-513 Surge protection specifications of ports on an RRU3938

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Ports



Power supply port

Surge current

20 kA


425




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426






Topology

Cascading Levels


RRU3938

2

1.25, 2.5, or 4.9


CPRI MUX:

l GU: 40

l GU: 6


l GL: 4 l UL: 4


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427


Type




Topology

Cascading Levels



TMA Support


RRU3938

Supported

AISG2.0 and AISG1.1

NOTE



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428







Mode

IBW (MHz)

RRU393 9

1800

1710 to 1785

1805 to 1880




l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l The GSM receiver sensitivity, as recommended in 3GPP TS 51.021, is measured at the antenna connector on condition that the channel rate is 13 kbit/s and the Bit Error Rate (BER) is not higher than 2%. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3939 that works in GSM mode and operates in the 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard. l The RRU3939 that works in LTE FDD or multiple service ring (MSR) mode and operates in the 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

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429





Capacit y




RR U3 939

2T 2R

GSM: 8 TRXs

GSM: -114.0

GSM: -116.8

LTE FDD: 2 carriers, the bandwidt h per carrier is 1.4, 3, 5, 10, 15, or 20 MHz

LTE FDD: -106.6

LTE FDD: -109.4

GSM: -119.5 (theoretic al value) LTE FDD: -112.1

Output Power

Power Consumpt ion




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430




Input Power


Weight (kg)

RRU3939







Relative Humidity

Absolute Humidity


Storage Time

RRU 3939


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa



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431




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA



432






Topology

Cascading Levels


RRU3939

2

1.25, 2.5, or 4.9


GL CPRI MUX: 4

The maximum distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows: l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configure d: 20 l When the LBBPd2 or UBBPd4 is configure d: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configure d: – Cell quanti ty ≤ 3: 40 – Cell quanti ty ≥ 4: 20

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433




TMA Support


RRU3939

Supported

AISG2.0 and AISG1.1

NOTE







Mode

IBW (MHz)

RRU394 2

1900

1850 to 1910

1930 to 1990


l GSM: 35 l UMTS/LT E FDD/UL: 40 l GU/GL: 35

850

824 to 849

869 to 894

GSM, UMTS, LTE FDD, GU, and UL

25


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434



NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. C W + D W in the Output Power column indicates that this RF module is configured with 2 transmit channels and the maximum output power of the transmit channel is C W and D W, respectively. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3942 that works in GSM mode and operates in the 850 MHz/1900 MHz frequency band complies with the 3GPP TS 45.005 V10.2.0 and 3GPP TS 51.021 V10.2.0 standards. l The RRU3942 that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 850 MHz/1900 MHz frequency band complies with the 3GPP TS 37.104 V10.4.0 and TS 37.141 V10.4.0 standards.

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435





Capacit y

RR U3 942

2T 4R

GSM: 8 TRXs UMTS: l Witho ut MIM O: 6 carrie rs




GSM:

GSM:

GSM:

l 850 MHz: -113. 4

l 850 MHz: -116.2


l 1900 MHz: -113. 7


UMTS:


l 1900 MHz: -125. 8

l 850 MHz: -125. 5

LTE FDD: l 850M Hz: -106. 0 l 1900 MHz: -106. 3

Issue 07 (2016-04-29)

l 1900 MHz: -116.5 UMTS: l 850 MHz: -128.3 l 1900 MHz: -128.6


Output Power

Power Consumpt ion

The RRU3942 supports the maximum power configuration 2 x 60 W or 40 W+80 W. For the typical configurations, see Typical Power Configuration for RRU3942.


UMTS:

LTE FDD:

l 850 MHz: -131

l 850M Hz: -108.8

l 1900 MHz: -131.3

l 1900 MHz: -109.1

LTE FDD: l 850M Hz: -111.5 l 1900 MHz: -111.8


436




Input Power


Weight (kg)

RRU3942









Relative Humidity

Absolute Humidity


Storage Time

RRU 3942


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




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437




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA



438






Topology

Cascading Levels


RRU3942

2

1.25, 2.5, or 4.9


CPRI MUX:

l GU: 40

l GU: 6

l GL/UL/ GUL: The maximu m distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows:

l GL: 4 l UL: 4 l GUL: 4

– When the LBBP c, LBBP d1, UBB Pd3, or UBB Pda is config ured: 20 – When the LBBP d2 or UBB Pd4 is config ured: 40 – When the LBBP d3,

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439


Type




Topology

Cascading Levels

Maximum Distance from the BBU (km) UBB Pd5, or UBB Pd6 is config ured: – Ce ll qu ant ity ≤ 3: 40 – Ce ll qu ant ity ≥ 4: 20


TMA Support


RRU3942

Supported

AISG2.0 and AISG1.1

NOTE


6.4.42 RRU3952 Technical Specifications RRU3952 modules are remote radio units and can work in different modes with different configurations and the software-defined radio (SDR) technique. Issue 07 (2016-04-29)


440







Mode

IBW (MHz)

RRU395 2

850

824 to 849

869 to 894


25

2100

1920 to 1980

2110 to 2170


60


l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. C W + D W in the Output Power column indicates that this RF module is configured with 2 transmit channels and the maximum output power of the transmit channel is C W and D W, respectively. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3952 that works in GSM mode and operates in the 850 MHz frequency band complies with the 3GPP TS 45.005 V10.2.0 and 3GPP TS 51.021 V10.2.0 standards. l The RRU3952 that works in UMTS, LTE FDD, or multi-standard radio (MSR) mode and operates in the 850 MHz frequency band complies with the 3GPP TS 37.104 V10.4.0 and TS 37.141 V10.4.0 standards.

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441





Capacit y

RR U3 952

2T 4R

GSM: 8 TRXs




GSM:

GSM:

GSM:

l -113. 4

l -116.2

l Witho ut MIM O: 6 carrie rs

UMTS:

l 850 MHz: -128.3

l -118.9 (theor etical value)


l 2100 MHz: -126. 1

UMTS:


l 850 MHz: -125. 5

LTE FDD: l 850 MHz: -106. 0 l 2100 MHz: -106. 9

UMTS:

UMTS:

l 2100 MHz: -128.9

l 850 MHz: -131.0

LTE FDD:

l 2100 MHz: -131.6

l 850 MHz: -108.8 l 2100 MHz: -109.7

Output Power

Power Consumpt ion

The RRU3952 supports the maximum power configuration 2 x 60 W or 40 W+80 W. For the typical configurations, see Typical Power Configuration for RRU3952.


LTE FDD: l 850 MHz: -111.5 l 2100 MHz: -112.4


Issue 07 (2016-04-29)


442




Input Power


Weight (kg)

RRU3952


RRU3952 (850MHz): 400 mm x 300 mm x 150 mm (without the housing)

RRU3952 (850MHz): 20 (without the housing)


RRU3952 (2100MHz): 400 mm x 300 mm x 100 mm (without the housing)

RRU3952 (2100MHz): 15 (without the housing)



Relative Humidity

Absolute Humidity


Storage Time

RRU 3952


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



Issue 07 (2016-04-29)


443



Item

Standard


NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


444






Topology

Cascading Levels


RRU3952

2

1.25, 2.5, 4.9, or 9.8


CPRI MUX:

l GU: 40

l GU: 6


l GL: 4 l UL: 4


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445


Type




Topology

Cascading Levels



TMA Support


RRU3952

Supported

AISG2.0 and AISG1.1

NOTE


6.4.43 RRU3953/RRU3953w Technical Specifications RRU3953/RRU3953w modules are remote radio units and can work in different modes with different configurations and the software-defined radio (SDR) technique.

Issue 07 (2016-04-29)


446



Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3953/ RRU3953w. Table 6-540 Modes and frequency bands supported by an RRU3953/RRU3953w Type




Mode

IBW (MHz)

RRU395 3

900 EGSM

880 to 915

925 to 960

GSM, UMTS, and GU

35

1800

1710 to 1785

1805 to 1880


45

1900

1850 to 1910

1930 to 1990


40

1800

1710 to 1785

1805 to 1880


75

RRU395 3w

RF Specifications Table 6-541 lists radio frequency (RF) specifications of an RRU3953/RRU3953w. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l The GSM receiver sensitivity, as recommended in 3GPP TS 51.021, is measured at the antenna connector on condition that the channel rate is 13 kbit/s and the Bit Error Rate (BER) is not higher than 2%. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3953/RRU3953w that works in GSM mode and operates in the 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard, and operates in the 1900 MHz frequency band complies with the 3GPP TS 45.005 V10.2.0 and 3GPP TS 51.021 V10.2.0 standards.. l The RRU3953/RRU3953w that works in UMTS, LTE FDD or multiple service ring (MSR) mode, and operates in the 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards, and operates in the 1900 MHz frequency band complies with the 3GPP TS 37.104 V10.4.0 and TS 37.141 V10.4.0 standards.

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447



Table 6-541 RF specifications of an RRU3953/RRU3953w Ty pe


Capacit y




RR U3 953 / RR U3 953 w

2T 4R

GSM: 8 TRXs

GSM:

GSM:

GSM:

l 900 MHz EGS M: -113. 8

l 900 MHz EGS M: -116.6

l 900 MHz EGS M: -119.3 (theor etical value)

UMTS: l NonMIM O: 6 carrie rs l MIM O: 4 carrie rs LTE FDD: l 1800 MHz/ 1900 MHz: 2 carrie rs, the band width per carrie r is 1.4, 3, 5, 10, 15, or 20 MHz

Issue 07 (2016-04-29)

l 1800 MHz: -114. 0 l 1900 MHz: -113. 7 UMTS: l 900 MHz EGS M: -125. 9 l 1900 MHz: -125. 8 LTE FDD: l 1800 MHz: -106. 6

l 1800 MHz: -116.8 l 1900 MHz: -116.5 UMTS: l 900 MHz EGS M: -128.7 l 1900 MHz: -128.6 LTE FDD:

l 1800 MHz: -119.5 (theor etical value) l 1900 MHz: -119.2 (theor etical value) UMTS:

l 1800 MHz: -109.4

l 900 MHz EGS M: -131.4

l 1900 MHz: -109.1

l 1900 MHz: -131.3

Output Power

Power Consumpt ion

The RRU3953/ RRU3953w supports the maximum power configuration 2 x 80 W. When the RRU3953/ RRU3953w works in GSM mode, it supports the maximum power configuration 2 x 60 W. For the typical configurations, see Typical Power Configuration for RRU3953/ RRU3953w.


LTE FDD:


448


Ty pe



Capacit y



l 1900 MHz: -106. 3


Output Power

Power Consumpt ion

l 1800 MHz: -112.1 l 1900 MHz: -111.8

Engineering Specifications The following table lists the equipment specifications of an RRU3953/RRU3953w. Table 6-542 Equipment specifications of an RRU3953/RRU3953w Type

Input Power


Weight (kg)

RRU3953 / RRU3953 w




NOTE The RRU3953/ RRU3953w supports AC power supply when connected to an external AC/DC power module or an OPM15M. For details, see AC/DC Power Module User Guide and OPM15M User Guide.

The following table lists the environmental specifications of an RRU3953/RRU3953w.

Issue 07 (2016-04-29)


449



Table 6-543 Environmental specifications of an RRU3953/RRU3953w Type


Relative Humidity

Absolute Humidity


Storage Time

RRU 3953/ RRU 3953 w


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l With solar radiation: -40°C to +50°C NOTE According to the installation scenario, traffic load, and carrier configuration, the output power of the RRU3953/ RRU3953w may temporarily decrease when they work in the highest 10°C temperature range.

The following table lists the compliance standards for an RRU3953/RRU3953w. Table 6-544 Compliance standards of an RRU3953/RRU3953w Item

Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


450



Item

Standard

Surge protection


Table 6-545 lists the surge protection specifications of ports on an RRU3953/RRU3953w. NOTE


Table 6-545 Surge protection specifications of ports on an RRU3953/RRU3953w Ports



Power supply port

Surge current

20 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an RRU3953/RRU3953w.

Issue 07 (2016-04-29)


451



Table 6-546 Specifications of CPRI ports on an RRU3953/RRU3953w Type



Topology

Cascading Levels


RRU3953/ RRU3953w

2

1.25, 2.5, 4.9, or 9.8


CPRI MUX:

l GU: 40

l GU: 6

l GL/UL/ GUL: The maximu m distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows:


– When the LBBP c, LBBP d1, UBB Pd3, or UBB Pda is config ured: 20 – When the LBBP d2 or UBB Pd4 is config ured: 40 – When the LBBP d3,

Issue 07 (2016-04-29)


452


Type




Topology

Cascading Levels

Maximum Distance from the BBU (km) UBB Pd5, or UBB Pd6 is config ured: – Ce ll qu ant ity ≤ 3: 40 – Ce ll qu ant ity ≥ 4: 20

Antenna Capability The following table lists the antenna capability of an RRU3953/RRU3953w. Table 6-547 Antenna capability of an RRU3953/RRU3953w Type

TMA Support


RRU3953/RRU3953w

Supported

AISG2.0 and AISG1.1

NOTE


6.4.44 RRU3958 Technical Specifications RRU3958 modules are remote radio units that can work in different modes when using different configurations and the software-defined radio (SDR) technique. Issue 07 (2016-04-29)


453







Mode

IBW (MHz)

RRU395 8

2100

1920 to 1980

2110 to 2170


60


l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l An RRU3958 working in UMTS, LTE FDD, or multi-standard radio (MSR) mode and operating in the 2100 MHz frequency band complies with the 3GPP TS 37.104 standard.

Issue 07 (2016-04-29)


454




Tr an s m it an d R ec ei ve C ha n ne ls

Capacit y




RR U3 958

2T 2R

UMTS:

UMTS: -126.1

UMTS: -128.9

LTE FDD: -106.9

LTE FDD: -109.7


l 6 carrie rs witho ut MIM O

UMTS: -112.4

l 4 carrie rs with MIM O

Output Power

Power Consumpt ion

The RRU3958 supports a maximum of 2x40 W power configuration. For the typical output power configuration, see Typical Power Configuration for RRU3958.

See the RRU3958 sheet in 3900 Series Base Station Power Consumpti on Specificatio ns.

LTE FDD: 2 carriers, bandwidt h per carrier is 5, 10, 15, or 20 MHz


Issue 07 (2016-04-29)


455




Input Power

Dimensions (HxWxD)

Weight (kg)

RRU3958







Relative Humidity

Absolute Humidity


Storage Time

RRU 3958


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa

The product must be installed and put into use within a year after being delivered, or it may malfunction.

l With solar radiation: -40°C to +50°C NOTE According to the installation scenario, traffic load, and carrier configuration, the output power of an RRU may temporarily decrease when its operating temperature is within 10°C.

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456



The following table lists the compliance standards for an RRU3958. Table 6-552 Compliance standards for an RRU3958 Item

Standard

Operating environment


Anti-seismic performance

NEBS GR63 zone4

Protection rating

IP65

Surge protection




Table 6-553 Surge protection specifications of ports on an RRU3958

Issue 07 (2016-04-29)

Port



Power supply port

Surge current

20 kA


457






Topology

Cascading Level


RRU3958

2

1.25/2.5/4.9/ 9.8

Star, chain, and dual-star


UMTS: 40 LTE FDD: l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configure d: 20 l When the LBBPd2 or UBBPd4 is configure d: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configure d: – Cell quanti ty ≤ 3: 40 – Cell quanti ty ≥ 4: 20



458




TMA Support


RRU3958

Supported

AISG2.0 and AISG1.1

NOTE


6.4.45 RRU3959/RRU3959w Technical Specifications RRU3959/RRU3959w modules are remote radio units and can work in different modes with different configurations and the software-defined radio (SDR) technique.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3959/ RRU3959w. Table 6-556 Modes and frequency bands supported by an RRU3959/RRU3959w Type




Mode

IBW (MHz)

RRU395 9

900 EGSM

880 to 915

925 to 960

25

900 PGSM

890 to 915

935 to 960

GSM, UMTS, and GU

900

885 to 910

930 to 955

25

885 to 915

930 to 960

30

1710 to 1785

1805 to 1880

1710 to 1770

1805 to 1865

1730 to 1780

1825 to 1875

2100

1920 to 1980

1800

1710 to 1785

1800

RRU395 9w

35


45

2110 to 2170

UMTS, LTE FDD, UL

60

1805 to 1880


75

RF Specifications Table 6-557 lists radio frequency (RF) specifications of an RRU3959/RRU3959w. Issue 07 (2016-04-29)


459



NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity is measured, as recommended in 3GPP TS 25.104, over the full band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3959/RRU3959w that works in GSM mode and operates in the 900 or 1800 MHz frequency band complies with the EN 301 502 V9.2.1 standard. l The RRU3959/RRU3959w that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 900 or 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards. l The RRU3959 that works in UMTS, LTE FDD, or multiple service ring (MSR) mode and operates in the 2100MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards.

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Table 6-557 RF specifications of an RRU3959/RRU3959w Ty pe


Capacit y

RR U3 959 (90 0 M Hz)

2T 2R




GSM: 8 TRXs

GSM: -113.7

GSM: -116.5

UMTS:

UMTS: -125.8

UMTS: -128.6


l Witho ut MIM O: 6 carrie rs

UMTS: -131.3


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Output Power

Power Consumpt ion

The RRU3959 supports the maximum power configuration 2 x 60 W. For the typical configurations, see Typical Power Configuration for RRU3959/ RRU3959w.


461



Ty pe


Capacit y

RR U3 959 (18 00 M Hz) / RR U3 959 w

2T 2R




GSM: 8 TRXs

GSM: -114.0

GSM: -116.8

LTE FDD:

LTE FDD: -106.6

LTE FDD: -109.4


l RRU 3959: 2 carrie rs, the band width per carrie r is 1.4, 3, 5, 10, 15, or 20 MHz

LTE FDD: – 112.1

Output Power

Power Consumpt ion

The RRU3959 supports the maximum power configuration 2 x 60 W. For the typical configurations, see Typical Power Configuration for RRU3959/ RRU3959w.

l RRU 3959 w: 2 carrie rs, the band width per carrie r is 5, 10, 15, or 20 MHz

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Ty pe


Capacit y

RR U3 959 (21 00 M Hz)

2T 2R

UMTS: l Witho ut MIM O: 6 carrie rs




UMTS: -126.1

UMTS: -128.9

UMTS: -131.6

LTE FDD: -106.9

LTE FDD: -109.7

LTE FDD: -112.4


Output Power

Power Consumpt ion

The RRU3959 supports the maximum power configuration 2 x 60 W. For the typical configuration, seeTypical Power Configuration for RRU3959/ RRU3959w.

LTE FDD: 4 carriers, the bandwidt h per carrier is 5, 10, 15, or 20MHz

Engineering Specifications The following table lists the equipment specifications of an RRU3959/RRU3959w.

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Table 6-558 Equipment specifications of an RRU3959/RRU3959w Type

Input Power


Weight (kg)

RRU3959 / RRU3959 w


400mm x 300mm x 100mm (without the housing)

l RRU3959 (900 MHz/1800 MHz)/ RRU3959w: 14 (without the housing)

NOTE The RRU3959/ RRU3959w supports AC power supply when connected to an external AC/DC power module or an OPM15M. For details, see AC/DC Power Module User Guide and OPM15M User Guide.

l RRU3959 (2100 MHz): 15 (without the housing)

The following table lists the environmental specifications of an RRU3959/RRU3959w.

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464



Table 6-559 Environmental specifications of an RRU3959/RRU3959w Type


Relative Humidity

Absolute Humidity


Storage Time

RRU 3959/ RRU 3959 w


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


l With solar radiation: -40°C to +50°C NOTE According to the installation scenario, traffic load, and carrier configuration, the output power of the RRU3959/ RRU3959w may temporarily decrease when they work in the highest 10°C temperature range.

The following table lists the compliance standards for an RRU3959/RRU3959w. Table 6-560 Compliance standards of an RRU3959/RRU3959w Item

Standard



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NEBS GR63 zone4

Protection Rating

IP65


465



Item

Standard

Surge protection


Table 6-561 lists the surge protection specifications of ports on an RRU3959/RRU3959w. NOTE


Table 6-561 Surge protection specifications of ports on an RRU3959/RRU3959w Ports



Power supply port

Surge current

20 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an RRU3959/RRU3959w.

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466



Table 6-562 Specifications of CPRI ports on an RRU3959/RRU3959w Type



Topology

Cascading Levels


RRU3959/ RRU3959w

2

1.25, 2.5, 4.9, or 9.8


CPRI MUX:


l GU: 6 l GL: 4 l UL: 4

l In the GL mode (dualstar/ CPRI MUX), the maximu m distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows – When the LBBP c, LBBP d1, UBB Pd3, or UBB Pda is config ured: 20 – When the LBBP d2 or

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467


Type




Topology

Cascading Levels

Maximum Distance from the BBU (km) UBB Pd4 is config ured: 40 – When the LBBP d3, UBB Pd5, or UBB Pd6 is config ured: – Ce ll qu ant ity ≤ 3: 40 – Ce ll qu ant ity ≥ 4: 20

Antenna Capability The following table lists the antenna capability of an RRU3959/RRU3959w. Table 6-563 Antenna capability of an RRU3959/RRU3959w

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Type

TMA Support


RRU3959/RRU3959w

Supported

AISG2.0 and AISG1.1


468



NOTE







Mode

IBW (MHz)

RRU396 1

900

880 to 915

925 to 960

GSM, UMTS, and GU

35

800

832 to 862

791 to 821

LTE FDD

20

NOTE

The RRU3961 can work in 900 MHz frequency band or 800 MHz frequency band, and work in both the two frequency bands at the same time.


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469



NOTE

l 2xATBR in the Transmit and Receive Channels column indicates that the RF module can work in two frequency bands at the same time and each frequency band supports A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity, as recommended in 3GPP TS 51.021, is measured at the antenna connector on condition that the channel rate is 13 kbit/s and the Bit Error Rate (BER) is not higher than 2%. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The RRU3961 that works in GSM mode and operates in the 900 MHz frequency band complies with the EN 301 502 V9.2.1 standard. l The RRU3961 that works in UMTS or multiple service ring (MSR) mode and operates in the 900 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards. l The RRU3961 that works in LTE FDD mode and operates in the 800 MHz frequency band complies with the 3GPP TS 36.141 standard.

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Capacit y

RR U3 961

2x 2T 2R




GSM: 8 TRXs

GSM: -113.7

GSM: -116.5

UMTS: 4 carriers

UMTS: -125.8

UMTS: -128.6


LTE FDD: 2 carriers. When one carrier is configure d, the bandwidt h of this carrier is 10 MHz or 20 MHz. When two carriers are configure d, the bandwidt h per carrier is 10 MHz.

LTE FDD: -106.3

LTE FDD: -109.1

UMTS: -131.3 LTE FDD: -111.8

Output Power

Power Consumpt ion





471




Input Power


Weight (kg)

RRU3961








Relative Humidity

Absolute Humidity


Storage Time

RRU 3961

Without solar radiation: -40°C to +55°C

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


With solar radiation: -40°C to +45°C


Standard



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NEBS GR63 zone4

Protection Rating

IP65


472



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


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473






Topology

Cascading Levels


RRU3961

2

1.25 or 2.5


CPRI MUX:


l GU: 6 l GL: 4 l UL: 4 l GUL: 4

l In the GL, UL, or GUL mode (dualstar/ CPRI MUX), the maximu m distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows – When the LBBP c, LBBP d1, UBB Pd3, or UBB Pda is config ured: 20 – When the

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474


Type




Topology

Cascading Levels

Maximum Distance from the BBU (km) LBBP d2 or UBB Pd4 is config ured: 40 – When the LBBP d3, UBB Pd5, or UBB Pd6 is config ured: – Ce ll qu ant ity ≤ 3: 40 – Ce ll qu ant ity ≥ 4: 20


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Type

TMA Support


RRU3961

Supported

AISG2.0


475



NOTE


6.4.47 RRU3971 Technical Specifications RRU3971 modules are remote radio units that can work in different modes when using different configurations and the software-defined radio (SDR) technique.





Mode

IBW (MHz)

RRU397 1

1800

1710 to 1785

1805 to 1880

LTE FDD and GL

45

1900

1850 to 1910

1930 to 1990

UMTS, LTE FDD, GU, GL, UL and GUL

40

AWS

1710 to 1780

2110 to 2180


70

RF Specifications The following table lists radio frequency (RF) specifications of an RRU3971.

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476



NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l EF non-MSR indicates that E data is carried on one transmit channel of an RF module while F data is carried on the other transmit channel of the RF module. l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l An RRU3971 that works in LTE FDD or multi-standard radio (MSR) mode and operating in the 1800 MHz frequency band complies with the ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104 standards. l An RRU3971 that works in UMTS, LTE FDD or multi-standard radio (MSR) mode and operating in the 1900 MHz frequency band complies with the 3GPP TS 37.104 V10.4.0 and TS 37.141 V10.4.0 standards.


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Ty pe


Capacit y




RR U3 971

4T 4R

GSM: 4 carriers

GSM: -113.4

GSM: -116.2

UMTS: 8 carriers

UMTS: -125.8

UMTS: -128.6

LTE FDD: 2 carriers, bandwidt h per carrier is 5, 10, 15, or 20 MHz

LTE FDD: -106.0

LTE FDD: -108.8

GSM: -118.9 (theoreti cal value) UMTS: -131.3 LTE FDD: -111.5


Output Power

Power Consumpt ion

The RRU3971 supports the maximum power configuration of 4x40 W. For the typical output power configurations, see Typical Power Configuration for RRU3971.

See the RRU3971 sheet in 3900 Series Base Station Power Consumpti on Specificatio ns.

477




Input Power


Weight (kg)

RRU3971







Relative Humidity

Absolute Humidity


Storage time

RRU 3971

l With solar radiation : -40°C to +45°C

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




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Table 6-576 Compliance standards for an RRU3971 Item

Standard




NEBS GR63 zone4

Protection rating

IP65

Surge protection




Table 6-577 Surge protection specifications of ports on an RRU3971 Port



Power supply port

Surge current

20 kA

Specifications of CPRI ports The following table lists the specifications of CPRI ports on an RRU3971. Issue 07 (2016-04-29)


479






Topology

Cascading Level


RRU3971

2

1.25/2.5/4.9/ 9.8


CPRI MUX:

l GU: 40

l GU: six levels


l GL: four levels l UL: four levels


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480


Type




Topology

Cascading Level



TMA Support


RRU3971

Supported

AISG2.0 and AISG1.1

NOTE


6.4.48 RRU3952m Technical Specifications An RRU3952m is a multimode radio remote unit. Adopting the software-defined radio (SDR) technology, RRU3952m modules can work in different modes with different configurations.

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Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3952m. Table 6-580 Modes and frequency bands supported by an RRU3952m Type




Mode

IBW (MHz)

RRU395 2m

1800

1710 to 1785

1805 to 1880

GSM, LTE FDD, GL

l 1800 MHz 2T4R: 45 l 1800 MHz 2T2R +2100 MHz 2R: 40

2100

1920 to 1980

2110 to 2170

UMTS, LTE FDD, UL

60

NOTE

l The RRU3952m (1800MHz) can work in either 1800 MHz 2T4R or 1800 MHz 2T2R+2100 MHz 2R mode. l The RRU3952m (2100MHz) can work in either 2100 MHz 2T4R or 2100 MHz 2T2R+1800 MHz 2R mode.

RF Specifications Table 6-581 lists the radio frequency (RF) specifications of an RRU3952m. NOTE

l ATBR in the Transmit and Receive Channels column indicates that this RF module has A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l EF MSR indicates that E and F data is carried on the same transmit channel of an RF module. l The GSM receiver sensitivity, as recommended in 3GPP TS 51.021, is measured at the antenna connector on condition that the channel rate is 13 kbit/s and the Bit Error Rate (BER) is not higher than 2%. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard.

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482



Table 6-581 RF specifications of an RRU3952m Ty pe

T X/ R X C ha nn el

Capacit y

RR U3 952 m

2T 4R




GSM: 8 carriers

GSM: -113.9

GSM: -116.7

UMTS:

UMTS: -126.0

UMTS: -128.8


LTE FDD: -106.8

LTE FDD: -109.6

l NonMIM O: 6 carrie rs l MIM O: 4 carrie rs

UMTS: -131.5 LTE FDD: -112.3

LTE FDD: 2 carriers with bandwidt h of 1.4/3/5/1 0/15/20 MHz

Output Power

Power Consump tion

The RRU3952m supports the maximum power configuration 2 x 60 W. For the typical configurations, see Typical Power Configuration of the RRU3952m.

See the RRU3952 m sheet in 3900 Series Base Station Power Consumpti on Specificati ons.

Engineering Specifications The following table lists the engineering specifications of an RRU3952m.

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483



Table 6-582 Equipment specifications of an RRU3952m Type

Input power


Weight (kg)

RRU3952 m




NOTE The RRU3952m supports AC power supply when connected to an external AC/DC power module or an OPM15M. For details, see AC/DC Power Module User Guide and OPM15M User Guide.

The following table lists the environmental specifications of an RRU3952m. Table 6-583 Environmental specifications of an RRU3952m Type


Relative Humidity

Absolute Humidity


Storage Time

RRU 3952 m

l -40°C to +55°C (without solar radiation)

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa

It is recommended that the device be installed and used within one year after its delivery when the failure rate is considered.

l -40°C to +50°C (with solar radiation) NOTE According to the installation scenario, traffic load, and carrier configuration, the output power of the RRU3952m may temporarily decrease when they work in the highest 10°C temperature range.

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The following table lists the compliance standards for an RRU3952m. Table 6-584 Compliance standards of an RRU3952m Item

Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


Table 6-585 lists the surge protection specifications of ports on an RRU3952m. NOTE


Table 6-585 Surge protection specifications of ports on an RRU3952m

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Ports



Power port

Surge current

20 kA


485



CPRI Specifications The following table lists the specifications of CPRI ports on an RRU3952m.

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486



Table 6-586 Specifications of CPRI ports on an RRU3952m Type



Topology

Cascading Level


RRU3952m

2

1.25/2.5/4.9/ 9.8


CPRI MUX:

GU: 40

l GU: 6

GL/UL/ GUL:



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487


Type




Topology

Cascading Level


Antenna Capability The following table lists the antenna capability of an RRU3952m. Table 6-587 Antenna capability of an RRU3952m Type

TMA Support

RET Antenna Support

RRU3952m

Supported

AISG2.0 and AISG1.1

NOTE


6.4.49 RRU3168 Technical Specifications An RRU3168, which is a remote radio unit for LTE TDD, supports one carrier.



Frequency Range (MHz)

Mode

IBW (MHz)

OBW (MHz)

RRU3168

1900

1900 to 1920

LTE TDD

20

20


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488



NOTE



Transmit and Receive Channels

Capacity

Output Power

Power Consumption

RRU3168

8T8R

One carrier. The bandwidth per carrier is 20 MHz.

When the uplinkdownlink subframe configuration 3:1 is used, the maximum output power of the RRU3168 is 8 x 10 W. For typical configurations, see Typical Power Configuration for RRU3168.

See the RRU3168 sheet in 3900 Series Base Station Power Consumption Specifications.


Input Power


Weight (kg)

RRU3168


550 mm x 320 mm x 135 mm (24L, without the housing)



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489





Relative Humidity

Absolute Humidity


Storage Time

RRU31 68


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard


l 3GPP TS36.141 l ETSI EN 300019-1-4 V2.1.2 (2003-04) Class 4.1: "Nonweatherprotected locations"

Protection Rating

IP65

Surge protection


Table 6-593 lists the surge protection specifications of ports on an RRU3168. Issue 07 (2016-04-29)


490



NOTE





Power supply port

Surge current

20 kA




Topology

Cascading Levels


RRU3168

2

9.8


N/A

10


TMA Support


RRU3168

Not supported

AISG2.0 and AISG1.1

NOTE


6.4.50 RRU3232 Technical Specifications An RRU3232, which is a remote radio unit for LTE TDD, supports two carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3232. Issue 07 (2016-04-29)


491






Mode

IBW (MHz)

OBW (MHz)

RRU3232

2600 (Band 38)

2570 to 2620

LTE TDD

40

40

2500 (Band 41)

2496 to 2690

40

40

2300 (Band 40)

2300 to 2400

40

40

3500

3400 to 3700

40

40

1800

1755 to 1920

40

40



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492





Capacity

Output Power

Power Consumption

RRU3232

4T4R


l 1800, 2300, or 2600 MHz: The RRU3232 supports the maximum power configuratio n 4 x 20 W.


l 3500 MHz: The RRU3232 supports the maximum power configuratio n 4 x 10 W. For typical configurations, see Typical Power Configuration for RRU3232.


Input Power


Weight (kg)

RRU3232







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493





Relative Humidity

Absolute Humidity


Storage Time

RRU32 32


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


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494








Power supply port

Surge current

20 kA


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Type



Topology

Cascading Levels


RRU3232

2

2.5 or 4.9


4

If only one level of RRUs is configured, the maximum distance between an RRU and a BBU is 10 km. If multiple levels of RRUs are configured, the maximum distance between an RRU in the lowest level and a BBU is 20 km.


495




TMA Support


RRU3232

Not supported

AISG2.0 and AISG1.1

NOTE


6.4.51 RRU3236E Technical Specifications An RRU3236E is a remote radio unit working in LTE TDD mode. One RRU3236E supports a maximum of three carriers.

Supported Modes and Frequency Bands The following table lists the modes and frequency bands supported by an RRU3236E. Table 6-604 Modes and frequency bands supported by an RRU3236E RRU Type



Mode

IBW (MHz)

OBW (MHz)

RRU323 6E

2300 (Band 40)

2300 to 2400

LTE TDD

100

60

RF Specifications Table 6-605 lists RF specifications of an RRU3236E. NOTE


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496



Table 6-605 RF specifications of an RRU3236E RRU Type


Capacity

Output Power

Power Consumption

RRU3236 E

2T2R

Each RRU3236E supports three carriers, of which the bandwidth is 5 MHz, 10 MHz, 15 MHz, or 20 MHz.

Each RRU3236E supports a maximum of 2x5 W output power. For the typical output power configuration, see Typical Power Configuration for RRU3236E.

For details, see the RRU3236E sheet in 3900 Series Base Station Power Consumption Specifications.

Engineering Specifications The following table lists the equipment specifications of an RRU3236E. Table 6-606 Equipment specifications of an RRU3236E RRU Type

Power

Dimensions (HxWxD)

Weight (kg)

RRU3236 E

140 V AC to 300 V AC

290 mm x 210 mm x 101 mm (6 L)

≤6

The following table lists the environmental specifications of an RRU3236E.

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497



Table 6-607 Environmental specifications of an RRU3236E RRU Type


Relative Humidity

Absolute Humidity


Storage Time

RRU32 36E


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa

The product must be installed and put into use within a year after being delivered, or it may malfunctio n.


The following table lists the compliance standards for an RRU3236E. Table 6-608 Compliance standards for an RRU3236E Item

Standard



Shockproof protection

NEBS GR63 zone4

Ingress Protection (IP) rating

IP65

Surge protection


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498





Table 6-609 Surge protection specifications of ports on an RRU3236E Port



Power port

Surge current

20 kA

CPRI Specifications The following table lists the specifications of CPRI ports on an RRU3236E. Table 6-610 Specifications of CPRI ports on an RRU3236E

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RRU Type



Topology

Cascading Level


RRU3236E

2

4.9/9.8


4

If only one level of RRU is configured, the maximum distance between the RRU and a BBU is 10 km. If multiple levels of RRUs are configured, the maximum distance between the RRU at the lowest level and a BBU is 20 km.


499



Antenna Capability The following table lists the antenna capability of an RRU3236E. Table 6-611 Antenna capability of an RRU3236E RRU Type

TMA Support

RET Antenna Support

RRU3236E

Not supported

Not supported

6.4.52 RRU3251 Technical Specifications An RRU3251, which is a remote radio unit for LTE TDD, supports three carriers.




Mode

IBW (MHz)

OBW (MHz)

RRU3251

2300 (Band 40)

2300 to 2400

LTE TDD

60

60



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500




Transmi t and Receive Channel s

Capacity

Output Power

Power Consumption

RRU3 251

2T2R

Three carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz.

The RRU3251 supports the maximum power configuration 2 x 50 W (-40°C to +45°C) or 2 x 40 W (-40°C to +50°C). For typical configurations, see Typical Power Configuration for RRU3251.



Input Power


Weight (kg)

RRU3251


l 400 mm x 220 mm x 140 mm (12.32 L, without the housing)



l ≤ 14.5 (with the housing)


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501





Relative Humidity

Absolute Humidity


Storage Time

RRU32 51

l 2 x 50 W:

5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa


– With solar radiation of 1120 W/m2: -40°C to +45°C – Without solar radiation: -40°C to +50°C l 2 x 40 W: – With solar radiation of 1120 W/m2: -40°C to +50°C – Without solar radiation: -40°C to +55°C


Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


502



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


503






Topology

Cascading Levels


RRU3251

2

2.5 or 4.9


4



TMA Support


RRU3251

Not supported

AISG2.0 and AISG1.1

NOTE


6.4.53 RRU3252 Technical Specifications An RRU3252, which is a remote radio unit for LTE TDD, supports two carriers. Issue 07 (2016-04-29)


504






Mode

IBW (MHz)

OBW (MHz)

RRU325 2 (DC)

2300 (Band 40)

2300 to 2400

LTE TDD

80

40

RRU325 2 (AC)

2500 (Band 41)

2496 to 2690

80

40

2600 (Band 38)

2570 to 2620

50

50




Transm it and Receive Channe ls

Capacity

Output Power

Power Consumption

RRU3 252

4T4R


The RRU3252 supports the maximum power configuration 4 x 20 W. For typical configurations, see Typical Power Configuration for RRU3252.




505




Input Power


Weight (kg)

RRU32 52 (DC)


l 480 mm x 270 mm x 140 mm (18L, without the housing)

l ≤ 19.5 (without the housing) l ≤ 21 (with the housing)

l 485 mm x 300 mm x 170 mm (24.7L, with the housing) RRU32 52 (AC)

AC; voltage range: 90 V AC to 290 V AC


≤ 19.5 (without the housing)



Relative Humidity

Absolute Humidity


Storage Time

RRU32 52


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


506



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


507






Topology

Cascading Levels


RRU3252

2

2.5 or 4.9


4



TMA Support


RRU3252

Not supported

AISG2.0 and AISG1.1

NOTE


6.4.54 RRU3253 Technical Specifications An RRU3253, which is a remote radio unit for LTE TDD, supports two carriers. Issue 07 (2016-04-29)


508






Mode

IBW (MHz)

OBW (MHz)

RRU3253

2600 (Band 38)

2575 to 2615

LTE TDD

40

40




Issue 07 (2016-04-29)

Type


Capacity

Output Power

Power Consumption

RRU3 253

8T8R

Two carriers. The bandwidth per carrier is 10 or 20 MHz.

When the uplinkdownlink subframe configuration 2:2 is used, the maximum output power of the RRU3253 is 8 x 16 W. When the uplinkdownlink subframe configuration 3:1 is used, the maximum output power of the RRU3253 is 8 x 12 W. For typical configurations, see Typical Power Configuration for RRU3253.



509




Input Power


Weight (kg)

RRU3253






Relative Humidity

Absolute Humidity


Storage Time

RRU32 53


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard



Issue 07 (2016-04-29)


NEBS GR63 zone4

Protection Rating

IP65


510



Item

Standard

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)

Type



Topology

Cascading Levels


RRU3253

2

2.5, 4.9 or 9.8

Star

N/A

10


511




TMA Support


RRU3253

Not supported

AISG2.0 and AISG1.1

NOTE


6.4.55 RRU3256 Technical Specifications An RRU3256, which is a remote radio unit for LTE TDD, supports four carriers.




Mode

IBW (MHz)

OBW (MHz)

RRU325 6

2300 (Band 40)

2300 to 2400

LTE TDD

100

80

2500 (Band 41)

2496 to 2690

115

80

2600 (Band 38)

2570 to 2620

50

50

3500 (Band 42/43)

3400 to 3700

80

80



Issue 07 (2016-04-29)


512





Capacity

Output Power

Power Consumption

RRU3256

4T4R

Four carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz.




Input Power


Weight (kg)

RRU3256







Issue 07 (2016-04-29)


513





Relative Humidity

Absolute Humidity


Storage Time

RRU32 56


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


Issue 07 (2016-04-29)


514








Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)

Type



Topology

Cascading Levels


RRU3256

2

2.5, 4.9 or 9.8


4



515




TMA Support


RRU3256

Not supported

AISG2.0 and AISG1.1

NOTE


6.4.56 RRU3259 Technical Specifications An RRU3259, which is a remote radio unit for LTE TDD, supports three carriers.




Mode

IBW (MHz)

OBW (MHz)

RRU3 259

2600

2545 to 2625

LTE TDD

60

60



Issue 07 (2016-04-29)


516





Capacity

Output Power

Power Consumption

RRU3 259

8T8R

Three carriers. The bandwidth per carrier is 10 or 20 MHz.

The RRU3259 supports the maximum power configuration 8 x 12.5 W. For typical configurations, see Typical Power Configuration for RRU3259.



Input Power


Weight (kg)

RRU3259






Relative Humidity

Absolute Humidity


Storage Time

RRU32 59


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa



Issue 07 (2016-04-29)


517




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection







Power supply port

Surge current

20 kA


Issue 07 (2016-04-29)


518






Topology

Cascading Levels


RRU3259

2

4.9 or 9.8

Star

N/A

10


TMA Support


RRU3259

Not supported

AISG2.0 and AISG1.1

NOTE


6.4.57 RRU3276 Technical Specifications An RRU3276 is a remote radio unit working in LTE TDD mode. An RRU3276 supports a maximum of four carriers.


Issue 07 (2016-04-29)

Type


Frequenc y Range (MHz)

Mode

IBW (MHz)

OBW (MHz)

RRU327 6

2300 (Band 40)

2300 to 2400

LTE TDD

100

80

2600 (Band 41)

2496 to 2690

150

80

2600 (Band 41)

2520 to 2620

100

80

2600 (Band 38)

2570 to 2620

40

40


519







Capacity

Output Power

Power Consumption

RRU3 276

4T4R

l 2300 MHz: Four carriers (The bandwidth per carrier is 5, 10, 15, or 20 MHz.)

Maximum power configuration: 4x40 W. For the typical power configuration of an RRU3276, see Typical Power Configuration for an RRU3276.

For details, see the RRU3276 sheet in 3900 Series Base Station Power Consumption Specifications.

l 2600 MHz: Four carriers (The bandwidth per carrier is 5, 10, 15, or 20 MHz.)

NOTE Output power varies depending on filters or uplink-downlink subframe configurations.


Power Specifications

Dimensions (HxWxD)

Weight (kg)

RRU3 276






520





Relative Humidity

Absolute Humidity


Storage Time

RRU32 76


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard




NEBS GR63 zone4

Protection level

IP65

Surge protection


Issue 07 (2016-04-29)


521








Power port

Surge current

20 kA


Quantit y of CPRI Ports


Topology

Casca ding Level


RRU 3276

2

4.9 or 9.8


4



Issue 07 (2016-04-29)

Type

TMA Support


RRU327 6

No

AISG2.0 and AISG1.1


522



NOTE


6.4.58 RRU3278 Technical Specifications An RRU3278 is a remote radio unit working in LTE TDD mode. An RRU3278 supports a maximum of four carriers.



Frequenc y Range (MHz)

Mode

IBW (MHz)

OBW (MHz)

RRU327 8

3500 (Band 42)

3400 to 3600

LTE TDD

160

80



Issue 07 (2016-04-29)


523





Capacity

Output Power

Power Consumption

RRU3 278

8T8R

3500 MHz: Four carriers (The bandwidth per carrier is 5, 10, 15, or 20 MHz.)

Maximum power configuration: 8x16 W. For the typical power configuration of an RRU3278, see Typical Power Configuration for an RRU3278.

For details, see the RRU3278 sheet in 3900 Series Base Station Power Consumption Specifications.

NOTE Output power varies depending on filters or uplink-downlink subframe configurations.


Power Specifications

Dimensions (HxWxD)

Weight (kg)

RRU3 278





Issue 07 (2016-04-29)


524





Relative Humidity

Absolute Humidity


Storage Time

RRU32 78


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard




NEBS GR63 zone4

Protection level

IP65

Surge protection


Issue 07 (2016-04-29)


525








Power port

Surge current

20 kA


Quantit y of CPRI Ports


Topology

Casca ding Level


RRU 3278

2

4.9 or 9.8

Star and ring topologies

Not support ed



Issue 07 (2016-04-29)

Type

TMA Support


RRU327 8

No

AISG2.0 and AISG1.1


526



NOTE


6.4.59 RRU3279 Technical Specifications An RRU3279, which is a remote radio unit for LTE TDD, supports four carriers.




Mode

IBW (MHz)

OBW (MHz)

RRU327 9

2300 (Band 40)

2300 to 2400

LTE TDD

80

80

2500 (Band 41)

2496 to 2690

80

80

2600 (Band 38)

2570 to 2620

40

40



Issue 07 (2016-04-29)


527





Capacity

Output Power

Power Consumption

RRU3279

8T8R

l 2300 MHz: Four carriers. The bandwidth per carrier is 10, 15, or 20 MHz.



l 2500 MHz: Four carriers. The bandwidth per carrier is 10, 15, or 20 MHz. l 2600 MHz: Three carriers. The bandwidth per carrier is 10, 15, or 20 MHz.

NOTE The output power of an RRU3279 varies with filters and uplink-downlink subframe configurations.


Input Power


Weight (kg)

RRU3279





Issue 07 (2016-04-29)


528





Relative Humidity

Absolute Humidity


Storage Time

RRU32 79


5% RH to 100% RH

1 g/m3 to 30 g/m3

70 kPa to 106 kPa




Standard




NEBS GR63 zone4

Protection Rating

IP65

Surge protection


Issue 07 (2016-04-29)


529








Power supply port

Surge current

20 kA




Topology

Cascading Levels


RRU3279

2

4.9 or 9.8

Star, or ring

N/A

≤ 10


TMA Support


RRU3279

Not supported

AISG2.0 and AISG1.1

NOTE


6.5 Technical Specifications of AAUs This section provides technical specifications of AAUs, including supported modes, frequency bands, RF and antenna specifications, engineering specifications, antenna capabilities, specifications of CPRI ports, and electrical specifications. Issue 07 (2016-04-29)


530



6.5.1 AAU3902 Technical Specifications The AAU3902 is an active antenna unit that integrates the functions of the RF modules and antennas.

Scenario Table 6-676 lists the scenarios supported by an AAU3902. NOTE

In xA+yP in the Scenario column, A stands for active, P stands for passive, x indicates the frequency band of the active unit, and y indicates the frequency band of the passive unit. For example, 2100 A + 1710~2690 P + 790~960 P means that the frequency band of the active unit is 2100 MHz and the frequency band of the passive unit is 1710 MHz to 2690 MHz and 790 MHz to 960 MHz.

Table 6-676 AAU3902 scenario Scenario

Antenna Type

2100 A + 1710~2690 P + 790~960 P

AAU3902 Antenna

(Hereinafter referred to as 2.1 A) 1800 A + 1710~2690 P + 790~960 P (Hereinafter referred to as 1.8 A) 1800 A + 2100 A + 1710~2690 P + 790~960 P (Hereinafter referred to as 1.8 A + 2.1 A)

Antenna Specifications The AAU3902 antenna supports the following frequency bands: 790 MHz to 960 MHz, 1710 MHz to 2690 MHz and 1725 MHz to 2170 MHz. For mechanical downtilt of these antennas, see Table 6-677. For electrical properties of these antennas, see Table 6-678, Table 6-679, and Table 6-680. For pattern samples of these antennas, see Figure 6-1 for reference. Table 6-677 AAU3902 antenna mechanical downtilt

Issue 07 (2016-04-29)

Antenna Frequency Range (MHz)

Mechanical Downtilt (°)

790 to 960

-3 to 3

1710 to 2690

-3 to 3

1725 to 2170

-3 to 3


531



Table 6-678 AAU3902 antenna electrical properties (790MHz to 960MHz) Item

Specifications

Frequency range (MHz)

790 to 960 (only for passive module) 790 to 862

880 to 960

Polarization

+45°, -45°

Electrical downtilt (°)

0 to 10, continuously adjustable

Gain (dBi)

Side lobe suppression for first side lobe above main beam (Typ.) (dB)

0°

5°

10°

0°

5°

10°

0°

5°

10°

15.7

15.9

15.6

16

16.1

15.6

16.1

16.3

15.8

0°

5°

10°

0°

5°

10°

0°

5°

10°

18

18

18

18

18

18

18

18

18

Horizontal 3dB beam width (°)

65

64

62

Vertical 3dB beam width (°)

10.1

9.8

9.3

VSWR

<1.5

Isolation between ports (dB)

≥28

Front to back ratio, copolar (dB)

Typ.27

Cross polar ratio (0°)(dB)

Typ.18

Max. power per input (W)

250 (at 50°C ambient temperature)

Intermodulation IM3 (dBc)

≤-153 (2 x 43 dBm carrier)

Impedance (Ω)

50

Grounding

Issue 07 (2016-04-29)

824 to 894

DC Ground


532



Table 6-679 AAU3902 antenna electrical properties (1710MHz to 2690MHz) Item

Specifications


1710 to 2690 (only for passive module) 1710 to 1990

2500 to 2690

Polarization

+45°, -45°



Gain (dBi)


2°

6°

10°

2°

6°

10°

2°

6°

10°

17.5

17.3

17

17.8

17.8

17.3

17.8

18.2

17.7

2°

6°

10°

2°

6°

10°

2°

6°

10°

16

16

17

17

17

17

17

18

18


65

62

60


5.8

5.4

4.3

VSWR

<1.5


≥28


Typ.28

Cross polar ratio (0°)(dB)

Typ.18





Impedance (Ω)

50

Grounding

Issue 07 (2016-04-29)

1920 to 2170

DC Ground


533



NOTE

l In Table 6-680, *: AAU3902 supports the Dividual Tilts by Carrier feature. The tilt difference between carriers operating in the 2100 MHz frequency band and 1800 MHz frequency band ranges from 0 to 5.5 degree. l For details about the Dividual Tilts by Carrier feature, see AAS Feature Parameter Description of the corresponding mode.

Table 6-680 AAU3902 antenna electrical properties (1725MHz to 2170MHz) Specifications

Item Frequency range (MHz)

1725 to 2170 (only for active module) 1920 to 2170

Polarization

+45°, -45°



Tilt difference range between carriers *(°)

0 to 5

Gain (dBi)


0 to 6

0°

6°

12°

0°

6°

12°

16.6

17.1

16.8

16.5

17

16.5

0°

6°

12°

0°

6°

12°

18

17

16

18

18

17


60

64


5.7

6.4

VSWR

<1.5


≥28


Typ.28

Cross polar ratio (dB)

Issue 07 (2016-04-29)

1725 to 1880

0°

Typ.20

±6 0°

Typ.10


534



Item

Specifications

Max. power per slot of active antenna part (W)

2 x 60 (at 50°C ambient temperature)



Impedance (Ω)

50

Figure 6-1 Pattern sample of AAU3902 antenna

RF Specifications The RF specifications of an AAU3902 include the following: frequency band, EIRP, capacity, receiver sensitivity, output power, and power consumption. Table 6-681 Frequency band of AAU3902 Scenario




IBW (MHz)

2.1 A

2100

1920 to 1980

2110 to 2170

40

1.8 A

1800

1725 to 1785

1820 to 1880


1.8 A + 2.1 A

1800

1725 to 1785

1820 to 1880


2100

Issue 07 (2016-04-29)

1920 to 1980

2110 to 2170


40

535



Table 6-682 AAU3902 EIRP Frequency Band (MHz)

EIRP

1800

2 x 40W + 17dBi = 2 x 63dBm

2100

2 x 40W + 17dBi = 2 x 63dBm

NOTE

In Table 6-683: l

The GSM receiver sensitivity, as recommended in 3GPP TS 51.021, is measured at the antenna connector on condition that the channel rate is 13 kbit/s and the Bit Error Rate (BER) is not higher than 2%.

l

The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001.

l

The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard.

l

Typical power consumption is measured when the base station load reaches 50% and maximum power consumption is measured when the base station load reaches 100%.

Table 6-683 Capacity, receiver sensitivity, output power, and power consumption of AAU3902 Scena rio

Capacity

Equivalent Receiver Sensitivity of an Active Unit

Output Power

Power Consumption (W)

2.1 A

UMTS:

UMTS: 125.8 dBm-17 dBi

For the typical configurations, see Typical Power Configuration for AAU3902.

l Typical power consumption: 260

l 8 carriers (nonMIMO 1T2R) l 4 carriers (MIMO 2T2R or 2T4R) 1.8 A

GSM: 6 carriers LTE FDD: 2 carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz.

Issue 07 (2016-04-29)

l GSM: 114.0 dBm-17 dBi l LTE FDD: -106.6 Bm-17 dBi


l Maximum power consumption: 360

l Typical power consumption: 275 l Maximum power consumption: 365

536



Scena rio

Capacity

Equivalent Receiver Sensitivity of an Active Unit

1.8 A + 2.1 A

GSM: 6 carriers

l GSM: 114.0dBm17dBi

l Typical power consumption: 505

l UMTS: 125.8dBm17dBi

l Maximum power consumption: 695

UMTS: l 8 carriers (nonMIMO 1T2R) l 4 carriers (MIMO 2T2R or 2T4R)

Output Power

Power Consumption (W)

l LTE FDD: -106.6dBm17dBi

LTE FDD: 2 carriers. The bandwidth per carrier is 5, 10, 15, or 20 MHz.

Engineering Specifications The following table lists the equipment specifications of an AAU3902. Table 6-684 Equipment specifications of an AAU3902 Input Power


Weight


l AAU3902: 2000 mm x 350 mm x 260 mm (without the attachment plate)

l Minimum antenna weight (without modules and the attachment plate): 33.5 kg

l RU44: 416 mm x 310 mm x 132 mm

l When one RU44 is configured (without the handles, decorating plates and mounting kits): 53 kg l When two RU44s are configured (without the handles, decorating plates and mounting kits): 62 kg l RU44: 10.9 kg

Issue 07 (2016-04-29)


537



The following table lists the environmental specifications of an AAU3902. Table 6-685 Environment specifications of an AAU3902 Item

Specifications


l Without solar radiation: -40ºC to +55ºC l With solar radiation: -40ºC to +50ºC l Front: 980 N (Assume that the wind speed is 150 km/h.)

Wind load

l Side: 650 N (Assume that the wind speed is 150 km/h.) l Rear: 960 N (Assume that the wind speed is 150 km/h.) Max. operational wind speed

150 km/h

Survival wind speed

200 km/h

Relative humidity

5% RH to 100% RH

Absolute humidity

1 g/m3 to 30 g/m3

Storage Time


The following table lists the compliance standards for an AAU3902. Table 6-686 Compliance standards for an AAU3902 Item

Standard



Anti-Seismic Protection

Issue 07 (2016-04-29)

ETSI300019-2-3


538



Item

Standard

Surge protection


Table 6-687 lists the surge protection specifications of ports on an AAU3902. NOTE


Table 6-687 Surge protection specifications for ports on an AAU3902 Ports



DC power port

Surge current

20 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an AAU3902. Table 6-688 Specifications of CPRI ports on an AAU3902 Number of CPRI Ports


Topology

Cascading Levels


2

1.25, 2.5, 4.9, or 6.144

Star or chain

3

40

Antenna Capability The following table lists the antenna capability of an AAU3902. Issue 07 (2016-04-29)


539



Table 6-689 Antenna capability of an AAU3902 TMA Support


Passive antennas connected to a TMA

AISG2.0

NOTE

For AAUs supporting RET antennas, the feeding voltage is 12 V and feeding current is 2.3 A.

6.5.2 AAU3910 Technical Specifications The AAU3910 is an active antenna unit that integrates the functions of RF modules and antennas.

AAU Configuration Configured with different types of AUs and RUs, the AAU3910 can support different configuration scenarios. Table 6-690 provides the configuration scenarios of the AAU3910. NOTE

l In xA+yP in the AAU Configuration column, A indicates active modules and P indicates the passive modules (not installed in the AAU3911 slots). x indicates the frequency band of the active unit, and y indicates the frequency band of the passive unit. For example, 2100 A+700-900 P means that the frequency band of the active module is 2100 MHz and that of the passive unit ranges from 700 MHz to 900 MHz. l In the RU Configuration column, UP indicates that the RU is installed in the upper slot of the AAU and DOWN indicates that the RU is installed in the lower slot of the AAU. l In the AU Specifications column, UP indicates the frequency band supported by the antenna port at the rear of the antenna and DOWN indicates the frequency band supported by the antenna port at the bottom of the antenna.

Table 6-690 AAU3910 configurations AAU Configuration

RU Configuration

AU Specifications

2100 A (2T4R 2x60 W) + 1800/2600 P (4 Ports)

RU3832 2100 MHz 2T4R, 2x60 W (UP)

AU10Ia 1920-2170 MHz (UP), 1710-1880 MHz/2500-2690 MHz (DOWN)

1800 A (4T4R 4x40 W) + 2100/2600 P (4 Ports)

RU3971 1800 MHz 4T4R, 4x40 W (UP)

AU10Ib 1710-1880 MHz (UP), 1920-2170 MHz/2500-2690 MHz (DOWN)

2600 A (2T4R 2x40 W) + 1800-2100 P (4 Ports)

RU3260 2600 MHz 2T4R, 2x40 W (UP)

2600 A (2T4R 2x40 W) + 2100 A (2T4R 2x60 W)

RU3260 2600 MHz 2T4R, 2x40 W (UP)

AU10Ic 2500-2690 MHz (UP), 1710-2170 MHz (DOWN)

RU3832 2100 MHz 2T4R, 2x60 W (DOWN) Issue 07 (2016-04-29)


540



AAU Configuration

RU Configuration

AU Specifications

AWS A (2T4R 2x60 W) + PCS P (4 Ports)

RU3832 AWS 2T4R, 2x60 W (UP)

AU10Id 1710-1770 MHz/2110-2170 MHz (UP), 1850-1990 MHz (DOWN)

Antenna Specifications Table 6-691 provides the electrical specifications of AU10Ia 1920-2170 MHz (UP), 1710-1880 MHz/2500-2690 MHz (DOWN) and AU10Ib 1710-1880 MHz (UP), 1920-2170 MHz/2500-2690 MHz (DOWN). Figure 6-2 provides the pattern samples of AU10Ia for reference, Figure 6-3 provides the pattern samples of AU10Ib for reference. Table 6-691 Electrical specifications of AU10Ia/AU10Ib Specifications


2 x (1710 to 2690) 1710 to 1880

1920 to 2170

Polarization

+45°, -45°

Electrical downtilt (°) Gain (dBi)

Side lobe suppression for first side lobe above main beam (Typ.)(dB)

0 to 12, continuously adjustable 0°

6°

12°

0°

6°

12°

0°

6°

12°

17.1

17.3

17.0

17.7

17.9

17.5

18.2

18.2

17.8

0°

6°

12°

0°

6°

12°

0°

6°

12°

18

17

16

18

17

16

18

17

16


66

64

60


6.5

6

4.5

VSWR

<1.5

Isolation between ports (dB) Front to back ratio, copolar (dB)

Issue 07 (2016-04-29)

2500 to 2690

Intra-system: ≥30 Inter-system: ≥28 (Typ.30) Typ.28


541



Item

Specifications


0°

Typ.20

±6 0°

Typ.10



Impedance (Ω)

50

Grounding

DC Ground

Figure 6-2 Pattern sample of AU10Ia

Figure 6-3 Pattern sample of AU10Ib

Issue 07 (2016-04-29)


542



Table 6-692 provides the electrical specifications of AU10Ic 2500-2690 MHz (UP), 1710-2170 MHz (DOWN), Figure 6-4 provides the pattern samples of AU10Ic for reference. Table 6-692 Electrical specifications of AU10Ic 2500-2690 MHz (UP), 1710-2170 MHz (DOWN) Item

Specifications


1710 to 1880

1850 to 1995

1920 to 2170

Polarization

+45°, -45°



Gain (dBi)


2500 to 2690

0°

6°

12°

0°

6°

12°

0°

6°

12°

0°

6°

12°

17. 1

17. 3

17. 0

17. 1

17. 3

17. 0

17. 7

17. 9

17. 5

18. 2

18. 2

17. 8

0°

6°

12°

0°

6°

12°

0°

6°

12°

0°

6°

12°

18

17

16

18

17

16

18

17

16

18

17

16


66

62

64

60


6.5

6.1

6

4.5

VSWR

<1.5


Intra-system: ≥30 Inter-system: ≥28 (Typ.30)


Typ.28


0 °

Typ.20

± 6 0 °

Typ.10


Issue 07 (2016-04-29)

2 x (1710 to 2690)



543



Item

Specifications

Impedance (Ω)

50

Grounding

DC Ground

Figure 6-4 Pattern sample of AU10Ic

Table 6-693 provides the electrical specifications of AU10Id 1710-1770 MHz/2110-2170 MHz (UP), 1850-1990 MHz (DOWN), Figure 6-5 provides the pattern samples of AU10Id for reference. Table 6-693 Electrical specifications of AU10Id 1710-1770 MHz/2110-2170 MHz (UP), 1850-1990 MHz (DOWN) Item

Specifications


2 x (1710 to 2170) AWS

AWS

PCS

1710 to 1770

2110 to 2170

1850 to 1995

Polarization

+45°, -45°


Issue 07 (2016-04-29)


6°

12°

0°

6°

12°

0°

6°

12°

17.1

17.4

17.1

17.8

18.1

17.9

17.4

17.8

17.4


544



Item

Specifications


0°

6°

12°

0°

6°

12°

0°

6°

12°

18

17

16

18

17

16

18

17

16


66

61

62


6.5

5.6

6.1

VSWR

<1.5


Intra-system: ≥30 Inter-system: ≥28 (Typ.30)


Typ.28


0°

Typ.20

±6 0°

Typ.10



Impedance (Ω)

50

Grounding

DC Ground

Figure 6-5 Pattern sample of AU10Id

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545



RU Specifications The AAU3910 supports RU3832, RU3260. RU specifications include the supported frequency band, RX and TX channels, capacity, and output power. Table 6-694 Modes and frequency bands supported by RUs RU Type




Working Mode

IBW (MHz)

RU3260

2600

2500-2570

2620-2690

LTE FDD

50

RU3832

2100

1920-1980

2110-2170

UMTS

60

AWS

1710-1755

2110-2155

UMTS, LTE FDD, UL

45

1800

1710-1785

1805-1880

LTE FDD, GL

40

RU3971

NOTE


Table 6-695 RX/TX channel, capacity, and output power of an RU RU Type

TX/RX Channe l

Capacity

Output Power

RU3832

2T4R

UMTS: 6 carriers without MIMO or 4 carriers with MIMO

The RU3832 supports a maximum of 2x60 W power configuration. For the typical output power configuration, see Typical Power Configuration for AAU3910.

LTE FDD: 2 carriers with bandwidth of 5/10/15/20 MHz RU3260

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2T4R

LTE FDD: 2 carriers with bandwidth of 5/10/15/20 MHz



546



RU Type

TX/RX Channe l

Capacity

Output Power

RU3971

4T4R

GSM: 4 TRXs



RF Specifications RF specifications of the AAU3910 include the equivalent isotropically radiated power (EIRP), equivalent isotropically receiver sensitivity (EIRS), and maximum power consumption. NOTE

l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l Maximum Power Consumption is the power consumption when the base station load reaches 100%. It refers to the power consumption of the AAU3910 with no RF module connected.

Issue 07 (2016-04-29)

AAU Configuration


EIRP

EIRS

Maximum Power Consumptio n (W)

2100 A (2T4R 2x60W) + 1800/2600 P (4 Ports)

2100

2 x 60W + 17.5dBi = 2 x 65.3dBm

UMTS: -126.1dBm - 17dBi

385

1800 A (4T4R 4x40 W) + 2100/2600 P (4 Ports)

1800

4 x 40W + 17.5dBi = 4 x 63.5dBm

GSM: -113.4dBm 17.5dBi

550

2600 A (2T4R 2x40W) + 1800-2100 P (4 Ports)

2600

2 x 40W + 18dBi = 2 x 64dBm

LTE FDD: -106.5dBm - 18dBi

325

2600 A (2T4R 2x40W) + 2100 A (2T4R 2x60W)

2600

2 x 40W + 18dBi = 2 x 64dBm

LTE FDD: -106.5dBm - 18dBi

325

2100

2 x 60W + 17.5dBi = 2 x 65.3dBm

UMTS: -126.1dBm - 17dBi

385

LTE FDD: -106.0dBm 17.5dBi


547



AAU Configuration


EIRP

EIRS


AWS A (2T4R 2x60W) + PCS P (4 Ports)

AWS

2 x 60W + 17.5dBi = 2 x 65.3dBm

UMTS: -126.1dBm - 17.5dBi

385

LTE FDD: -106.5dBm 17.5dBi

Engineering Specifications Table 6-696 and Table 6-697 list the equipment specifications of an AAU3910. Table 6-696 Power and Dimensions of an AAU3910 Type

Power Supply


AAU3910


1,450mm x 320mm x 230mm

Table 6-697 Weight of an AAU3910 AAU Configuration

Weight (kg)

2100 A (2T4R 2x60W) + 1800/2600 P (4 Ports)

39.5

1800 A (4T4R 4x40 W) + 2100/2600 P (4 Ports)

40

2600 A (2T4R 2x40W) + 1800-2100 P (4 Ports)

39.5

2600 A (2T4R 2x40W) + 2100 A (2T4R 2x60W)

53.5

AWS A (2T4R 2x60W) + PCS P (4 Ports)

39.5

The following table lists the environmental specifications of an AAU3910.

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548



Table 6-698 Environmental specifications of an AAU3910 Item

Specification


l 1800 A (4T4R 4x40 W) + 2100/2600 P (4 Ports) configuration scenario: – Without solar radiation: -40°C to + 50°C – With solar radiation: -40°C to + 45°C l Other configuration scenarios: – Without solar radiation: -40°C to + 55°C – With solar radiation: -40°C to + 50°C l Front: 660 N (Assume that the wind speed is 150 km/h.)

Wind load


150 km/h

Survival wind speed

200 km/h

Relative Humidity

5% RH to 100% RH

Absolute Humidity

1 g/m3 to 30 g/m3

Air Pressure

70 kPa to 106 kPa

Storage Time



Standard



Issue 07 (2016-04-29)


ETSI300019-2-3

Protection Rating

IP55


549



Item

Standard

Surge protection


The following table lists the surge protection specifications of ports on an AAU3910. NOTE





RU power port

Surge current

20 kA

Specifications of CPRI Ports The following table lists the specifications of CPRI ports on an AAU3910.

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550



Table 6-701 Specifications of CPRI ports on an AAU3910 RU Type

Quant ity of CPRI Ports


Topology

Cascading Level


RU3832

2

1.25/2.5/4. 9

Star, chain, ring, and dual-star

UMTS:

UMTS: 40 LTE FDD/GL/UL: The maximum distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows: l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configured: 20 l When the LBBPd2 or UBBPd4 is configured: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configured: – Cell quantity ≤ 3: 40 – Cell quantity ≥ 4: 20

l When the CPRI data rate is 1.25 Gbit/s: 4 l When the CPRI data rate is 2.5 Gbit/s or 4.9 Gbit/s: 8 UL CPRI MUX: 4

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551



RU Type



Topology

Cascading Level

RU3260

2

1.25/2.5/4. 9


LTE FDD:


l When the rate at the CPRI port is 1.25 Gbit/s: Cascading is not supported. l When the rate at the CPRI port is 2.5 Gbit/s: – Three levels are supported if the cell bandwidth is less than or equal to 5 MHz. – Two levels are supported if the cell bandwidth is 10 MHz. – Cascading is not recommend ed if the cell bandwidth is greater than or equal to 15 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Four levels are supported if the cell bandwidth

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552


RU Type




Topology

Cascading Level


is less than or equal to 10 MHz. – Two levels are supported if the cell bandwidth is greater than or equal to 15 MHz. RU3971

2

1.25/2.5/4. 9/9.8


GL CPRI MUX: 4

Antenna Capability The following table lists the antenna capability of an AAU3910. Table 6-702 Antenna capability of an AAU3910 Type

TMA Support

RET Antenna Support

AAU3910

Supported by passive antennas

AISG2.0

6.5.3 AAU3911 Technical Specifications The AAU3911 is an active antenna unit that incorporates the functions of RF modules and antennas.

AAU Configuration Configured with different types of AUs and RUs, the AAU3911 can support different configuration scenarios. Table 6-703 provides the configuration scenarios of the AAU3911.

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553



NOTE

l In xA+yP in the AAU Configuration column, A indicates active modules and P indicates the passive modules (not installed in the AAU3911 slots). x indicates the frequency band of the active unit, and y indicates the frequency band of the passive unit. For example, 2100 A+700-900 P means that the frequency band of the active module is 2100 MHz and that of the passive unit ranges from 700 MHz to 900 MHz. l In the RU Configuration column, UP indicates that the RU is installed in the upper slot of the AAU and DOWN indicates that the RU is installed in the lower slot of the AAU. l In the AU Specifications column, UP indicates the frequency band supported by the antenna port at the rear of the antenna and DOWN indicates the frequency band supported by the antenna port at the bottom of the antenna. l The Combiner Configuration column indicates whether a combiner is configured and, if so, the frequency band specifications of the combiner. For details about a combiner, see AAU3911 Hardware Description. l In scenarios where a combiner is configured, the combiner loss must be considered when a passive module is connected to the combiner. Therefore, the antenna gain of the passive module equals the antenna gain minus 0.5 dB. For example, when the configuration 2100 A (2T4R 2x60 W) + 1800 P (4 Ports) + 700-900 P (2 Ports) is used, the antenna gain of the RF module is calculated as follows when the combiner is connected to an RF module working in the 1800 MHz frequency band: 17 dBi - 0.5 dB = 16.5 dBi.

Table 6-703 AAU3911 configurations

Issue 07 (2016-04-29)

AAU Configuration

RU Configuration

AU Specifications

Combiner Configuration

2600 A (2T4R 2x40 W) + 1800-2100 P (4 Ports) + 700-900 P (2 Ports)

RU3260 2600 MHz 2T4R, 2x40 W (UP)

None

AWS A (2T4R 2x60 W) + 700-900 P (2 Ports)

RU3832 AWS 2T4R, 2x60 W (DOWN)

AU11Ia 2500-2690 MHz (UP), 1710-2180 MHz/690-960 MHz (DOWN)

2600 A (2T4R 2x40 W) + AWS A (2T4R 2x60 W) + 700-900 P (2 Ports)

RU3260 2600 MHz 2T4R, 2x40 W (UP)

AWS A (2T4R 2x60 W) + PCS P (4 Ports) + 700-900 P (2 Ports)

RU3832 AWS 2T4R, 2x60 W (UP)

AWS/PCS Combiner 4 path (DOWN)

2100 A (2T4R 2x60 W) + 1800 P (4 Ports) + 700-900 P (2 Ports)

RU3832 2100 MHz 2T4R, 2x60 W (UP)

AU11Ib 1710-2690 MHz (UP), 690-960 MHz (DOWN)

1800 A (2T4R 2x60 W) + 2100 P (2 Ports) + 2600 P (4 Ports) + 700-900 P (2 Ports)

RU3952m 1800 MHz 2T4R, 2x60 W (UP)

AU11Ic 1710-2180 MHz (UP), 2500-2690 MHz/690-960 MHz (DOWN)

1710-1880 MHz/ 1920-2180 MHz Combiner 2 path (DOWN)

RU3832 AWS 2T4R, 2x60 W (DOWN)



554



AAU Configuration

RU Configuration

AU Specifications

Combiner Configuration


RU3952m 2100 MHz 2T4R, 2x60 W (UP)


1800 A (2T4R 2x60 W) + 2100 A (2T4R 2x60 W) + 2600 P (4 Ports) + 700-900 P (2 Ports)

RU3952m 1800 MHz 2T2R + 2100 MHz 2R, 2x60W (UP)

None

RU3952m 2100 MHz 2T2R + 1800 MHz 2R, 2x60W (DOWN)

Antenna Specifications Table 6-704 provides the electrical specifications of AU11Ia 2500-2690 MHz (UP) and 1710-2180 MHz/690-960 MHz (DOWN), Figure 6-6 provides the pattern samples of AU11Ia for reference. Table 6-704 Electrical specifications of AU11Ia 2500-2690 MHz (UP) and 1710-2180 MHz/ 690-960 MHz (DOWN) Item

Specifications


690-8 03

790-8 62

824-8 94

Polarization

880-9 60

17101880

19202180

25002690

+45°, -45°


0 to 10, continuously adjustable 15.5


15.5

16.0

16.0

17

17

> 17

> 17

Horizontal 3 dB beam width (°)

65

63

Vertical 3 dB beam width (°)

9.5

6.4

VSWR

17.5

< 1.5

Isolation (dB)

Intra-system: ≥ 28 Inter-system: ≥ 28 (Typ.30)

Issue 07 (2016-04-29)

Front-to-rear ratio (dB)

> 25

> 25

Max. Input Power Per Port (W)

120

80


555



Item

Specifications

Max. Total Input Power (W)

240


360

≤ -153 (2x43 dBm carriers)

Impedance (Ω)

50

Grounding

DC grounding

Figure 6-6 Pattern sample of AU11Ia

Table 6-705 provides the electrical specifications of AU11Ib 1710-2690 MHz (UP) and 690-960 MHz (DOWN), Figure 6-7 provides the pattern samples of AU11Ib for reference. Table 6-705 Electrical specifications of AU11Ib 1710-2690 MHz (UP) and 690-960 MHz (DOWN) Item

Specifications


690-8 03

790-8 62

824-8 94

Polarization

880-9 60

19202180

25002690

+45°, -45°


0 to 10, continuously adjustable 15.5


15.5

16.0

16.0

17

17.5

> 17

> 17


65

63


9.5

6.4

VSWR

Issue 07 (2016-04-29)

17101880

18

< 1.5


556



Item

Specifications

Isolation (dB)

Intra-system: ≥ 28 Inter-system: ≥ 30


> 25

> 25


120

80


240

320



Impedance (Ω)

50

Grounding

DC grounding

Figure 6-7 Pattern sample of AU11Ib

Table 6-706 provides the electrical specifications of AU11Ic 1710-2180 MHz (UP) and 2500-2690 MHz/690-960 MHz (DOWN), Figure 6-8 provides the pattern samples of AU11Ic for reference. Table 6-706 Electrical specifications of the AU11Ic 1710-2180 MHz (UP) and 2500-2690 MHz/690-960 MHz (DOWN) Item

Specifications

Frequency range (MHz) Polarization

790-8 62

824-8 94

880-9 60

17101880

19202180

25002690

+45°, -45°

Electrical downtilt (°) Issue 07 (2016-04-29)

690-8 03



557



Item

Specifications

Gain (dBi)

15.5


15.5

16.0

16.0

17

17

> 17

> 17


65

63


9.5

6.4

VSWR

17.5

< 1.5

Isolation (dB)

Intra-system: ≥ 28 Inter-system: ≥ 28 (Typ.30)


> 25

> 25


120

80


240

360



Impedance (Ω) Grounding

50 DC grounding

Figure 6-8 Pattern sample of AU11Ic

RU Specifications The AAU3911 supports RU3832, RU3260, and RU3952m. RU specifications include the supported frequency band, RX and TX channels, capacity, and output power.

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558



Table 6-707 Modes and frequency bands supported by RUs RU Type




Working Mode

IBW (MHz)

RU3832

2100

1920-1980

2110-2170

UMTS

60

AWS

1710-1755

2110-2155

UMTS, LTE FDD, UL

40

RU3260

2600

2500-2570

2620-2690

LTE FDD

50

RU3952m

1800

1710-1785

1805-1880

GSM, LTE FDD, GL

l 1800 MHz 2T4R: 45 l 1800 MHz 2T2R + 2100 MHz 2R: 40

2100

1920-1980

2110-2170

UMTS, LTE FDD, UL

60

NOTE


Table 6-708 RX/TX channel, capacity, and output power of an RU RU Type

TX/RX Channe l

Capacity

Output Power

RU3832

2T4R

UMTS: 6 carriers without MIMO or 4 carriers with MIMO


LTE FDD: 2 carriers with bandwidth of 5/10/15/20 MHz RU3260

Issue 07 (2016-04-29)

2T4R




559



RU Type

TX/RX Channe l

Capacity

Output Power

RU3952m

2T4R

GSM: 8 TRXs

The RU3952m supports a maximum of 2x60 W power configuration. For the typical output power configuration, see Typical Power Configuration for AAU3911.

LTE FDD: 2 carriers with bandwidth of 5/10/15/20 MHz UMTS: 6 carriers without MIMO or 4 carriers with MIMO

RF Specifications RF specifications of the AAU3911 include the equivalent isotropically radiated power (EIRP), equivalent isotropically receiver sensitivity (EIRS), and maximum power consumption. NOTE

l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l Maximum Power Consumption is the power consumption when the base station load reaches 100%. It refers to the power consumption of the AAU3911 with no RF module connected.

Issue 07 (2016-04-29)

AAU Configuration


EIRP

EIRS



2600

2x40 W + 17.5 dBi = 2x63.5 dBm

LTE FDD: -106.5 dBm-17.5 dBi

330

AWS A (2T4R 2x60 W) + 700-900 P (2 Ports)

AWS

2x60 W + 17 dBi = 2x64.8 dBm

UMTS: -126.1 dBm-17 dBi

385


2600

LTE FDD: -106.5 dBm-17 dBi 2x40 W + 17.5 dBi = 2x63.5 dBm



330

560



AAU Configuration


EIRP

EIRS


AWS

2x60 W + 17 dBi = 2x64.8 dBm


385

LTE FDD: -106.5 dBm-17 dBi AWS A (2T4R 2x60 W) + PCS P (4 Ports) + 700-900 P (2 Ports)

AWS

2x60 W + 17 dBi = 2x64.8 dBm

UMTS: -126.1 dBm-16.5 dBi

385


2100

2x60 W + 17 dBi = 2x64.8 dBm


385


1800

2x60 W + 17 dBi = 2x64.8 dBm

GSM: -113.9 dBm-17 dBi

420


2100


1800


LTE FDD: -106.8 dBm-17 dBi

2x60 W + 17 dBi = 2x64.8 dBm


400


2x60 W + 17 dBi = 2x64.8 dBm

GSM: -113.9 dBm-17 dBi

420

LTE FDD: -106.8 dBm-17 dBi 2100

2x60 W + 17 dBi = 2x64.8 dBm


400


Engineering Specifications Table 6-709 and Table 6-710 list the equipment specifications of an AAU3911. Issue 07 (2016-04-29)


561



Table 6-709 Power and Dimensions of an AAU3911 Type

Input Power


AAU3911

–48 V DC; voltage range: –36 V DC to –57 V DC

2020 mm x 359 mm x 290 mm


Weight (kg)


49

AWS A (2T4R 2x60 W) + 700-900 P (2 Ports)

49


64

AWS A (2T4R 2x60 W) + PCS P (4 Ports) + 700-900 P (2 Ports)

54


54


57


57


65

2300 A (4T4R 4x20 W) + 2600 A (4T4R 4x30 W) + 700-900 P (2 Ports)

68

The following table lists the environmental specifications of an AAU3911.

Issue 07 (2016-04-29)


562



Table 6-711 Environmental specifications of an AAU3911 Item

Specifications


l -40°C to +55°C (without solar radiation) l -40°C to +50°C (with solar radiation) l Front: 990 N (Assume that the wind speed is 150 km/h.)

Wind load


150 km/h

Survival wind speed

200 km/h

Relative humidity

5% RH to 100% RH

Absolute humidity

1 g/m3-30 g/m3


70 kPa to 106 kPa

Storage time

It is recommended that the device be installed and used within one year after its delivery when the failure rate is considered.


Standard



Issue 07 (2016-04-29)


ETSI300019-2-3

Protection class

IP55


563



Item

Standard

Surge protection


The following table describes the surge protection specifications for ports on an AAU3911. NOTE


Table 6-713 Surge protection specifications for ports on an AAU3911 Port



RU power port

Surge current

20 kA

CPRI Specifications The following table lists the specifications of CPRI ports on an AAU3911.

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564



Table 6-714 Specifications of CPRI ports on an AAU3911 RU Type



Topology

Cascading Level


RU3832

2

1.25/2.5/4. 9


UMTS:

UMTS/GU: 40 LTE FDD/GL/UL: The maximum distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows: l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configured: 20 l When the LBBPd2 or UBBPd4 is configured: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configured: – Cell quantity ≤ 3: 40 – Cell quantity ≥ 4: 20

l When the CPRI data rate is 1.25 Gbit/s: 4 l When the CPRI data rate is 2.5 Gbit/s or 4.9 Gbit/s: 8 UL CPRI MUX: 4

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565



RU Type



Topology

Cascading Level

RU3260

2

1.25/2.5/4. 9


LTE FDD:


l When the rate at the CPRI port is 1.25 Gbit/s: Cascading is not supported. l When the rate at the CPRI port is 2.5 Gbit/s: – Three levels are supported if the cell bandwidth is less than or equal to 5 MHz. – Two levels are supported if the cell bandwidth is 10 MHz. – Cascading is not recommend ed if the cell bandwidth is greater than or equal to 15 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Four levels are supported if the cell bandwidth

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566


RU Type




Topology

Cascading Level


is less than or equal to 10 MHz. – Two levels are supported if the cell bandwidth is greater than or equal to 15 MHz. RU3952 m

2

1.25/2.5/4. 9/9.8


GL CPRI MUX: 4 UL CPRI MUX: 4

Antenna Capability The following table lists the antenna capability of an AAU3911. Table 6-715 Antenna capability of an AAU3911 Type

TMA Support

RET Antenna Support

AAU3911


AISG2.0

6.5.4 AAU3920 Technical Specifications The AAU3920 is an active antenna unit that integrates the functions of RF modules and antennas.

Antenna Specifications The AAU3920 has two built-in antennas. Table 6-716 provides the antenna electrical properties of the AAU3920, Figure 6-9 provides the pattern samples of AAU3920 antenna for reference.

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567



Table 6-716 Antenna electrical specifications of the AAU3920 Item

Specifications


2 x (1710 to 2690) 1710 to 1880

1920 to 2170

Polarization

+45°, -45°




6°

12°

0°

6°

12°

0°

6°

12°

17.1

17.3

17

17.7

17.9

17.5

18

18.2

17.8

0°

6°

12°

0°

6°

12°

0°

6°

12°

18

17

16

18

17

16

18

17

16


66

64

60


6.5

6

4.5


Intra-system: ≥30

Front to back ratio (dB)

Typ.28

Cross polarization ratio (dB)

0°: Typ.20

Max. total input power (W) Impedance (Ω) Grounding

Issue 07 (2016-04-29)

2500 to 2690

Inter-system: ≥30

±60°: Typ.10 NA

160 (the ambient temperature is 50°C) 50 DC ground


568



Figure 6-9 Pattern sample of AAU3920 antenna

RF Specifications RF specifications of the AAU3920 include the frequency bands and modes supported by RUs, the equivalent isotropically radiated power (EIRP), capacity, equivalent isotropically receiver sensitivity (EIRS), output power, and maximum power consumption. The following table lists the modes and frequency bands supported by an AAU3920.

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569



Table 6-717 Supported Modes and Frequency Bands Type




Mode

IBW (MHz)

AAU3920

1800

1710 to 1785

1805 to 1880

LTE FDD, GL

40

2100

1920 to 1980

2110 to 2170

UMTS

40

Table 6-718 AAU3920 EIRP Type

EIRP

AAU3920

2x80 W + 17.5 dBi = 2x66.5 dBm

NOTE

l 2xATBR in the Transmit and Receive Channels column indicates that the RF module can work in two frequency bands at the same time and each frequency band supports A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l The GSM receiver sensitivity, as recommended in 3GPP TS 51.021, is measured at the antenna connector on condition that the channel rate is 13 kbit/s and the Bit Error Rate (BER) is not higher than 2%. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l Typical power consumption is measured when the base station load reaches 50% and maximum power consumption is measured when the base station load reaches 100%. The Power Consumption column provides the power consumption of the AAU3920 with no RF module connected.

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570



Table 6-719 RX/TX channel, capacity, EIRS, output power, and power consumption of the AAU3920 Typ e

Trans mit and Receiv e Chann els

Capacity

EIRS

Output power

Power Consu mption

AAU 3920

2x2T4 R

GSM: 8 carriers

GSM (1800 MHz): -114.0dBm - 17.3dBi

UMTS:

UMTS (2100MHz): -126.1dBm - 17.9dBi

The AAU3920 supports a maximum of 2x80 W power configuration. For the typical configurations, see Typical Power Configuration for AAU3920.

Maximu m power consump tion: 600 W

l Without MIMO: 8 carriers

LTE (1800 MHz): -106.6dBm - 17.3dBi

l With MIMO: 4 carriers LTE FDD: 2 carriers, with bandwidth of 5/10/15/20 MHz

Engineering Specifications The following table lists the equipment specifications of an AAU3920. Table 6-720 Equipment specifications of an AAU3920 Type

Power


Weight (kg)

AAU3920


1450 mm x 320 mm x 188 mm

35

The following table lists the environmental specifications of an AAU3920. Table 6-721 Environmental specifications of an AAU3920

Issue 07 (2016-04-29)

Item

Specifications


-40°C to +55°C (without solar radiation)


571



Item

Specifications

Wind load

l Front: 710 N (Assume that the wind speed is 150 km/h.) l Side: 400 N (Assume that the wind speed is 150 km/h.) l Rear: 830 N (Assume that the wind speed is 150 km/h.)

Max. operational wind speed

150 km/h

Survival wind speed

200 km/h

Relative humidity

5% RH to 100% RH

Absolute humidity

1 g/m3 to 30 g/m3


70 kPa to 106 kPa

Storage time

It is recommended that the device be installed and used within one year after its delivery due to the failure rate.


Standard



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ETSI300019-2-3

Protection Rating

IP55


572



Item

Standard

Surge protection







RU power port

Surge current

20 kA


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573



Table 6-724 Specifications of CPRI ports on an AAU3920 Type



Topology

Cascading Level


AAU392 0

2

1.25/2.5/4. 9/9.8


CPRI MUX:

The maximum distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows:


l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configured: 20 l When the LBBPd2 or UBBPd4 is configured: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configured: – Cell quantity ≤ 3: 40 – Cell quantity ≥ 4: 20

Antenna Capability The following table lists the antenna capability of an AAU3920. Table 6-725 Antenna capability of an AAU3920

Issue 07 (2016-04-29)

Type

TMA Support

RET Antenna Support

AAU3920


AISG2.0


574




Antenna Specifications Table 6-726 provides the antenna electrical specifications of the AAU3940 (1800 MHz to 2100 MHz). Figure 6-10 shows the pattern sample of the AAU3940 antenna (1800 MHz to 2100 MHz). Table 6-726 Antenna electrical specifications of the AAU3940 (1800 MHz to 2100 MHz) Specifications


1710 to 1880

1920 to 2170

Polarization

+45°, -45°


-3 to 12, continuously adjustable

Gain (dBi)

14

14.5


70

70


13

12

Front-to-back ratio (dB) Grounding

Typ.25 DC ground

Figure 6-10 Pattern sample of the AAU3940 antenna (1800 MHz to 2100 MHz)

Table 6-727 provides the antenna electrical specifications of the AAU3940 (AWS to PCS). Figure 6-11 shows the pattern sample of the AAU3940 antenna (AWS to PCS). Issue 07 (2016-04-29)


575



Table 6-727 Antenna electrical specifications of the AAU3940 (AWS to PCS) Item

Specifications


1710 to 1910

1930 to 2155

Polarization

+45°, -45°


-3 to 12, continuously adjustable

Gain (dBi)

14

14.5


70

70


13

12

Front-to-back ratio (dB) Grounding

Typ.25 DC ground

Figure 6-11 Pattern sample of the AAU3940 antenna (AWS to PCS)

RF Specifications RF specifications of the AAU3940 include the frequency bands and modes, capacity, output power, maximum power consumption, equivalent isotropically receiver sensitivity (EIRS), and equivalent isotropically radiated power (EIRP). The following table lists the modes and frequency bands supported by an AAU3940.

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576



Table 6-728 Supported modes and frequency bands Type




Mode

IBW (MHz)

AAU3940 (1800 MHz to 2100 MHz) (AC/DC)

1800

1710 to 1785

1805 to 1880

LTE FDD

40

2100

1920 to 1980

2110 to 2170


40

AAU3940 (AWS to PCS) (DC)

AWS

1710 to 1755

2110 to 2155

LTE FDD

40

PCS

1850 to 1910

1930 to 1990


40

NOTE

When the AAU3940 (AWS to PCS) is configured with carriers both on the PCS frequency band and AWS frequency band, third-order intermodulated signals may fall into the receive frequency band under certain spectrum combinations, which deteriorates AAU3940 performance. As a result, the AAU3940 cannot work properly. Before configuring carriers for the AAU3940, ensure that the spectrum combinations will not result in such a configuration scenario.

Table 6-729 Capacity of the AAU3940 Type

Mode

Capacity

AAU3940 (1800 MHz to 2100 MHz)/ AAU3940 (AWS to PCS)

UMTS

l 6 carriers without MIMO l 4 carriers with MIMO

LTE FDD

2 carriers, with bandwidth of 5/10/15/20 MHz

UMTS + LTE FDD

For details, see Table 6-1281, Table 6-1283, Table 6-1291, and Table 6-1293 in Typical Power Configuration for AAU3940.

NOTE

l 2xATBR in the Transmit and Receive Channels column indicates that the RF module can work in two frequency bands at the same time and each frequency band supports A transmit channels and B receive channels. l C x D W in the Output Power column indicates that this RF module is configured with C transmit channels and the maximum output power of each transmit channel is D W. l Typical power consumption is measured when the base station load reaches 50%. Maximum power consumption is measured when the base station load reaches 100%. The Power Consumption column provides the power consumption of the AAU3940 with no RF module connected.

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577



Table 6-730 RX/TX channel, output power, and power consumption of the AAU3940 Type


Output Power

Power Consumption

AAU3940 (1800 MHz to 2100 MHz)/ AAU3940 (AWS to PCS)

2x2T2R

l When the ambient temperature ranges from –40°C to +50°C, the AAU3940 supports a maximum of 2x30 W output power.

l 2x30 W

l When the ambient temperature ranges from –40°C to +40°C, the AAU3940 supports a maximum of 2x40 W output power. For the typical power configurations, see Typical Power Configuration for AAU3940.

– Typical power consumption: 210 W – Maximum power consumption: 300 W l 2x40 W – Typical power consumption: 250 W – Maximum power consumption: 350 W

NOTE

l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard.

Table 6-731 EIRS and EIRP of the AAU3940 Type


EIRS

EIRP

AAU3940 (1800 MHz to 2100 MHz)

1800

LTE FDD: -106.1 dBm 14 dBi

2x30 W + 14 dBi = 2x58.8 dBm 2x40 W + 14 dBi = 2x60.0 dBm

2100

AAU3940 (AWS to PCS)

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AWS

l UMTS: -125.7 dBm 14.5 dBi

2x30 W + 14.5 dBi = 2x59.3 dBm

l LTE FDD: -106.1 dBm - 14.5 dBi

2x40 W + 14.5 dBi = 2x60.5 dBm

LTE FDD: -105.9 dBm 14 dBi

2x30 W + 14.5 dBi = 2x59.3 dBm 2x40 W + 14.5 dBi = 2x60.5 dBm


578


Type



EIRS

EIRP

PCS

l UMTS: -125.5 dBm 14 dBi

2x30 W + 14.5 dBi = 2x59.3 dBm

l LTE FDD: -105.9 dBm - 14 dBi

2x40 W + 14.5 dBi = 2x60.5 dBm

Engineering Specifications The following table lists the equipment specifications of an AAU3940. Table 6-732 Equipment specifications of an AAU3940 Type

Power

Dimensions (Height x Diameter)

Weight (kg)

AAU3940 (1800 MHz to 2100 MHz) (AC)

l 220 V AC; voltage range: 176 V AC to 290 V AC

750 mm x 150 mm

15

AAU3940 (1800 MHz to 2100 MHz) (DC)


AAU3940 (AWS to PCS) (DC)


l 110 V AC dual-livewire; voltage range: 90 V/180 V AC to 135 V/270 V AC

The following table lists the environmental specifications of an AAU3940. Table 6-733 Environmental specifications of an AAU3940 Item

Specifications


-40°C to +50°C (2x30 W, without solar radiation) -40°C to +40°C (2x40 W, without solar radiation)

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579



Item

Specifications

Wind load

l Front: 100 N (Assume that the wind speed is 150 km/h.) l Side: 100 N (Assume that the wind speed is 150 km/h.) l Rear: 115 N (Assume that the wind speed is 150 km/h.)

Max. operational wind speed

150 km/h

Survival wind speed

200 km/h

Relative humidity

5% RH to 100% RH

Absolute humidity

1 g/m3 to 30 g/m3


70 kPa to 106 kPa

Storage time



Standard



Issue 07 (2016-04-29)


ETSI300019-2-3

Protection rating

IP55


580



Item

Standard

Surge protection







AC power port

Surge current

20 kA

DC power port

Surge current

20 kA


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581



Table 6-736 Specifications of CPRI ports on an AAU3940 Type



Topology

Cascading Level


AAU394 0

2

1.25/2.5/4. 9/9.8



The maximum distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows: l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configured: 20 l When the LBBPd2 or UBBPd4 is configured: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configured: – Cell quantity ≤ 3: 40 – Cell quantity ≥ 4: 20


AAU Configuration Configured with different types of AUs and RUs, the AAU3961 can support different configuration scenarios. Table 6-737 describes the configuration scenarios supported by the AAU3961. Issue 07 (2016-04-29)


582



NOTE

l In xA+yP in the AAU Configuration column, A indicates active modules and P indicates passive modules (not installed in the AAU3961 slots). x and y indicate the frequency bands of active and passive modules, respectively. For example, 2100 A + 700~900 P indicates that the frequency band of the active module is 2100 MHz and that of the passive module ranges from 700 MHz to 900 MHz. l In the RU Configuration column, UP indicates that the RU is installed in the upper slot of the AAU and DOWN indicates that the RU is installed in the lower slot of the AAU. l In the AU Specifications column, UP indicates the frequency band supported by the antenna port which leads a cable through the upper slot at the rear of the antenna, DOWN indicates the frequency band supported by the antenna port which leads a cable through the lower slot at the rear of the antenna, and BOTTOM indicates the frequency band supported by the antenna port at the bottom of the antenna.

Table 6-737 AAU3961 configuration AAU Configuration

RU Configuration

AU Specifications

1800 A (4T4R 4x40 W) + 2600 A (4T4R 4x20 W) + 1800~2600 P (2 Ports) + 700~900 P (2 Ports)

RU3971 1800 MHz 4T4R, 4x40 W (UP)

1800 A (4T4R 4x40 W) + 1800~2600 P (2 Ports) + 700~900 P (2 Ports)

RU3971 1800 MHz 4T4R, 4x40 W (UP)

TSI4518R00 1710~2170 MHz (UP), 2500~2690 MHz (DOWN), 690~960 MHz/1710~2690 MHz (BOTTOM)

RU3261 2600 MHz 4T4R, 4x20 W (DOWN)

Antenna Specifications Table 6-738 describes the electrical specifications of the TSI4518R00 1710~2170 MHz (UP), 2500~2690 MHz (DOWN), 690~960 MHz/1710~2690 MHz (BOTTOM). Figure 6-12 shows the pattern sample of the TSI4518R00. Table 6-738 Electrical specifications of the TSI4518R00 Item

Specifications


690 to 960

690 to 803

790 to 862

824 to 894

880 to 960

Polarization

2x (25 00 to 269 0)

171 0 to 188 0

250 0 to 269 0

192 0 to 217 0

2 x (1710 to 2690)

171 0 to 199 0

192 0 to 217 0

230 0 to 240 0

250 0 to 269 0

+45°, -45°


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2 x (1710 to 2170)




583



Item Gain (dBi)

Specifications at mid tilt

14. 1

14. 2

14. 3

14. 6

17. 1

17. 6

18. 0

16. 7

17. 1

17. 1

17. 3

over all tilts

14± 0.4

14. 1±0 .4

14. 2± 0.4

14. 5±0 .4

17± 0.5

17. 5±0 .5

18± 0.4

16. 6±0 .5

17± 0.5

17. 1±0 .4

17. 2±0 .3


>15

>1 5

>1 5

>1 5

>1 7

>1 7

>1 6

>1 5

>1 5

>1 5

>1 5


68± 3

67± 3

66 ±4

65± 3

67± 4

64± 4

59± 3

68± 4

65± 4

61± 4

59± 3


15. 7±1 .5

13. 9±1 .5

13. 2± 1.2

12. 6±1 .2

6.6 ±0. 6

6±0 .5

4.8 ±0. 3

6.4 ±0. 6

5.6 ±0. 6

5.1 ±0. 65

4.9 ±0. 4

VSWR Cross polar isolation (dB)

Intra-system: 28 (Typical)

Interband isolation (dB)

Inter-system: 28 (Typical)

Front to back ratio, ±30°(dB)

>23

>2 5

>2 5

>2 5

>2 5

>2 5

>2 5

>2 6

>2 8

>2 8

>2 8

Cross polar ratio, 0° (dB)

>18

>2 0

>2 0

>2 0

>1 8

>1 8

>1 8

>1 8

>1 6

>1 5

>1 8


120

80

Max. total input power (W)

240

480



Impedance (Ω)

50

Grounding

Issue 07 (2016-04-29)

< 1.5

DC ground


584



Figure 6-12 Pattern sample of the TSI4518R00

RF Specifications The AAU3961 supports the following types of RUs: RU3971 and RU3261. Table 6-739 Modes and frequency bands supported by an RU RU Type




Mode

IBW (MHz)

RU3971

1800

1710 to 1785

1805 to 1880

LTE FDD and GL

45

RU3261

2600

2500 to 2570

2620 to 2690

LTE FDD

60

NOTE


Table 6-740 RX/TX channel and output power of an RU

Issue 07 (2016-04-29)

RU Type


Output Power

RU3971

4T4R

Each RU3971 supports a maximum of 4x40 W output power. For the typical output power configuration, see Typical Power Configuration for AAU3961.

RU3261

4T4R

Each RU3261 supports a maximum of 4x20 W output power. For the typical output power configuration, see Typical Power Configuration for AAU3961.


585



Table 6-741 Capacity of an RU RU Type

Mode

Capacity

RU3971

LTE FDD

Each RU3971 supports a maximum of two carriers.

GSM+LTE FDD

For details, see Table 6-1297 in Typical Power Configuration for AAU3961.

LTE FDD

Each RU3261 supports a maximum of two carriers.

RU3261

NOTE

l The GSM receiver sensitivity is measured, as recommended in 3GPP TS 51.021, over the central band at the antenna connector on condition that the channel rate reaches 13 kbit/s and the bit error rate (BER) does not exceed 2%. The central band is the 80% of the full band. l The UMTS receiver sensitivity, as recommended in 3GPP TS 25.104, is measured at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the BER does not exceed 0.001. l The LTE FDD receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 5 MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard. l The maximum power consumption is the power consumed when an AAU3961 works with 100% load. It is the power consumption of the AAU3961 with no RF module connected.

AAU Configuration


EIRP

EIRS



1800

4x40 W + 17 dBi = 4x63 dBm

GSM: -113.4 dBm 17 dBi

550

2600

4x20 W + 17.5 dBi = 4x60.5 dBm

LTE FDD: -106.1 dBm - 17.5 dBi

380


1800

4x40 W + 17 dBi = 4x63 dBm

GSM: -113.4 dBm 17 dBi

550

LTE FDD: -106.0 dBm - 17 dBi

LTE FDD: -106.0 dBm - 17 dBi

Engineering Specifications Table 6-742 and Table 6-743 provide the equipment specifications of an AAU3961.

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586



Table 6-742 Power and dimensions of an AAU3961 Type

Power

Dimensions (HxWxD)

AAU3961


1550 mm x 370 mm x 230 mm


Weight (kg)


63


45

The following table lists the environmental specifications of an AAU3961. Table 6-744 Environmental specifications of an AAU3961 Item

Specifications


l Without solar radiation: -40°C to +50°C l With solar radiation: -40°C to +45°C l Front: 665 N (Assume that the wind speed is 150 km/h.)

Wind load


150 km/h

Survival wind speed

200 km/h

Relative humidity

5% RH to 100% RH

Absolute humidity

1 g/m3 to 30 g/m3


70 kPa to 106 kPa

Storage time


The following table lists the compliance standards for an AAU3961.

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587



Table 6-745 Compliance standards for an AAU3961 Item

Standard


l 3GPP TS 36.141 l 3GPP TS 37.141 l ETSI EN 300019-1-4 V2.1.2 (2003-04) Class 4.1: "Nonweatherprotected locations"


ETSI300019-2-3

Protection rating

IP55

Surge protection







RU power port

Surge current

20 kA


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588



Table 6-747 Specifications of CPRI ports on an AAU3961

Issue 07 (2016-04-29)

RU Type



Topology

Cascading Level


RU3971

2

1.25/2.5/4. 9


GL CPRI MUX: 4 LTE FDD: l When the rate at the CPRI port is 1.25 Gbit/s: Cascading is not supported. l When the rate at the CPRI port is 2.5 Gbit/s: – Three levels are supported if the cell bandwidth is less than or equal to 5 MHz. – Two levels are supported if the cell bandwidth is 10 MHz. – Cascading is not recommend ed if the cell bandwidth is greater than or equal to 15 MHz. l When the rate at the CPRI port is 4.9 Gbit/s: – Four levels are supported if

LTE FDD/GL: The maximum distances of the RRUs from the BBU vary with the types of BBP in LTE mode as follows: l When the LBBPc, LBBPd1, UBBPd3, or UBBPda is configured: 20 l When the LBBPd2 or UBBPd4 is configured: 40 l When the LBBPd3, UBBPd5, or UBBPd6 is configured: – Cell quantity ≤ 3: 40 – Cell quantity ≥ 4: 20


589



RU Type



Topology

Cascading Level

RU3261

2

1.25/2.5/4. 9


the cell bandwidth is less than or equal to 10 MHz. – Two levels are supported if the cell bandwidth is greater than or equal to 15 MHz.


Antenna Capability The following table provides the antenna capability of an AAU3961. Table 6-748 Antenna capability of an AAU3961 Type

TMA Support

RET Antenna Support

AAU3961


AISG2.0

6.6 Engineering Specifications of Cabinets This section describes engineering specifications of each type of cabinet, including input power specifications, equipment specifications, environment specifications, surge protection specifications, and standards that have been complied with.

6.6.1 BTS3900 Engineering Specifications BTS3900 engineering specifications include input power specifications, equipment specifications, environment specifications, surge protection specifications, and standards that have been complied with.

Input Power Specifications The BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets have different power input specifications. Table 6-749, Table 6-750, and Table 6-751 describe the power input specifications for the BTS3900 (Ver.B) cabinet, BTS3900 (Ver.C) cabinet, and BTS3900 (Ver.D) cabinet, respectively. Issue 07 (2016-04-29)


590



NOTE

For the configurations of upper-level circuit breakers and cross-sectional areas of power cables in a BTS3900 cabinet, see Configurations of Upper-Level Circuit Breakers and Power Cables in a BTS3900 in 3900 Series Base Station Hardware Description.

Table 6-749 Input power supported by the BTS3900 (Ver.B) cabinet Input Power

Voltage Range

-48 V DC

-38.4 V DC to -57 V DC

+24 V DC

+21.6 V DC to +29 V DC

120/208 V AC to 127/220 V AC dual-livewire

105/176 V AC to 150/260 V AC


90/180 V AC to 135/270 V AC

200 V AC to 240 V AC single-phase


200/346 V AC to 240/415 V AC threephase

176/304 V AC to 290/500 V AC

Table 6-750 Input power supported by the BTS3900 (Ver.C) cabinet Input Power

Voltage Range

-48 V DC

-38.4 V DC to -57 V DC


105/176 V AC to 150/260 V AC


90/180 V AC to 135/270 V AC




176/304 V AC to 290/500 V AC

Table 6-751 Input power supported by the BTS3900 (Ver.D) cabinet

Issue 07 (2016-04-29)

Input Power

Voltage Range

-48 V DC

-38.4 V DC to -57 V DC




176/304 V AC to 290/500 V AC


591



Equipment Specifications The following table lists the size and weight of BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets. Table 6-752 Equipment specifications of BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets Cabinet


Weight

BTS3900 (Ver.B)/BTS3900 (Ver.C)

900 mm x 600 mm x 450 mm

≤ 135 kg (including 1 BBU and 6 RFUs and excluding the transmission equipment)

BTS3900 (Ver.D) cabinet

l DC: 900 mm x 600 mm x 450 mm

l DC: ≤ 135 kg (including 1 BBU and 6 RFUs and excluding the AC power supply)

l AC: 1250 mm x 600 mm x 450 mm (including the IMS06; base: 40 mm x 600 mm x 420 mm)

l AC: ≤ 180 kg (including 1 BBU, 6 RFUs, and the AC power supply)

Environment Specifications The BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets have the same environment specifications, as provided in the following table. Table 6-753 Environment specifications of the BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets Item

Specification/Standard


-20°C to +55°C Short term: +50°C to +55°C NOTE Short term indicates that a base station does not work for over 15 days within a year or that a base station does not continuously work for over 72 hours.

Relative humidity

5% RH to 95% RH


70 kPa to 106 kPa

Noise Sound Power Level

ETS300 753 3.1 ≤7.2bels

Storage Time

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592



Item


Biological environment

l The equipment room must be well-sealed and dustproof to prevent the growth of fungus or mildew. l Ensure that animals such as rodents (rats for example), ants, winged insects, or snakes cannot enter the equipment room.

Surge Protection Specifications The BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets have the same surge protection specifications, as provided in Table 6-754. NOTE


Table 6-754 Surge protection specifications of ports on the BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets Port


Specification


Surge

4 kV (1.2/50 μs)


Surge current

5 kA

Standards The BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets comply with the same standards, as provided in the following table.

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593



Table 6-755 Standards with which the BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets comply Item

Standard

Security standards

l X.509: Supported in GBSS14.0/RAN14.0/eRAN3.0/SRAN7.0 and later versions l RFC 1825: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 1826: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 1827: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 4492: Supported in all versions l RFC 5246: Supported in GBSS15.0/RAN15.0/eRAN6.0/ SRAN8.0 and later versions l Secure Socket Layer (SSL): Supported in all versions

Protection rating

IP20


ETS 300 019-1-3 Class 3.1

Storage

ETSI EN300019-1-1 V2.1.4 (2003-04) class1.2 "Weatherprotected, not temperature-controlled storage locations"

Transportation

ETSI EN300019-1-2 V2.1.4 (2003-04) class 2.3 "Public transportation"


IEC 60068-2-57: Environmental testing -Part 2-57: Tests -Test Ff: Vibration -Time-history method YD5083: Interim Provisions for Test of Anti-seismic Performances of Telecommunications Equipment (telecom industry standard in People's Republic of China)

Anti-earthquake performance

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ETSI EN 300019-1-3: "Earthquake"


594



Item

Standard

EMC

NOTE The BTS3900 complies with the following standards. If interference exists because the BTS3900 is installed near antennas or other radio receive devices, you are advised to extend the distance between them or adjust the location and direction of antennas.

The multi-mode base station meets the Electromagnetic Compatibility (EMC) requirements and complies with the following standards: l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l ETSI EN 301489-1/8/23 l 3GPP TS 25.113 l ETSI EN 301908-1 l ITU-T SM 329-10 l FCC PART15 The GBTS meets the EMC requirements and complies with the following standards: l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l ETSI EN 301489-1/8 l ETSI EN 301908-1 l ITU-T SM 329-10 l FCC PART15 The NodeB has been certified by European standards. The NodeB meets the EMC requirements and complies with the following standards: l CISPR 22 (1997) l EN 55022 (1998) l EN 301 489-23 V1.2.1 (2002-11) l CISPR 24 (1998) l IEC 61000-4-2 l IEC 61000-4-3 l IEC 61000-4-4 l IEC 61000-4-5 l IEC 61000-4-6 l IEC 61000-4-29 l GB 9254-1998 l ETSI 301 489-1 V1.3.1 (2001-09) l FCC Part 15 The eNodeB has been certified by European standards. The eNodeB meets the EMC requirements and complies with the following standards: Issue 07 (2016-04-29)


595



Item

Standard l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l 3GPP TS 36.113 l ETSI EN 301489-1/23 l ETSI EN 301908-1 V2.2.1 (2003-10) l ITU-R SM.329-10

Surge protection


6.6.2 BTS3900L Engineering Specifications BTS3900L engineering specifications include input power specifications, equipment specifications, environment specifications, surge protection specifications, and standards that have been complied with.

Input Power Specifications The BTS3900L (Ver.B) and BTS3900L (Ver.C) cabinets support the same power input, as provided in Table 6-756. Table 6-757 lists the input power specifications of the BTS3900L (Ver.D) cabinets. NOTE

For the configurations of upper-level circuit breakers and cross-sectional areas of power cables in a BTS3900L cabinet, see Configurations of Upper-Level Circuit Breakers and Power Cables in a BTS3900L in 3900 Series Base Station Hardware Description.

Table 6-756 Input power supported by the BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets

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Input Power

Voltage Range

-48 V DC

-38.4 V DC to -57 V DC


596



Table 6-757 Input power supported by the BTS3900L (Ver.D) cabinets Input Power

Voltage Range

-48 V DC

-38.4 V DC to -57 V DC




176/304 V AC to 290/500 V AC

Equipment Specifications The BTS3900L (Ver.B) and BTS3900L (Ver.C) cabinets have the same size and weight. Table 6-758 lists the equipment specifications of BTS3900L (Ver.B) or BTS3900L (Ver.C) cabinets. Table 6-759 lists the equipment specifications of a BTS3900L (Ver.D) cabinet. Table 6-758 Equipment specifications of BTS3900L (Ver.B) or BTS3900L (Ver.C) cabinets Item

Specifications


1600 mm x 600 mm x 450 mm

Weight

≤ 235 kg (fully configured cabinet delivered with boards and modules: including 2 BBUs and 12 RFUs and excluding the transmission equipment)

Table 6-759 Equipment specifications of a BTS3900L (Ver.D) cabinet Item

Specifications


l DC: 1600 mm x 600 mm x 450 mm l AC: 1950 mm x 600 mm x 450 mm (with IMS06; Base: 40 mm x 600 mm x 420 mm)

Weight

l DC: ≤ 235 kg (fully configured cabinet delivered with boards and modules: including 2 BBUs and 12 RFUs and excluding the transmission equipment) l AC: ≤ 280 kg (fully configured cabinet delivered with boards and modules: including 2 BBUs, 12 RFUs, and the AC power supply, and excluding the transmission equipment)

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597



Environment Specifications The BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets have the same environment specifications, as provided in the following table. Table 6-760 Environment specifications of the BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets Item



-20°C to +55°C Short term: +50°C to +55°C NOTE Short term indicates that a base station does not work for over 15 days within a year or that a base station does not continuously work for over 72 hours.

Relative humidity

5% RH to 95% RH


70 kPa to 106 kPa


ETS300 753 3.1 ≤7.2bels

Storage Time


Biological environment

l The equipment room must be well-sealed and dustproof to prevent the growth of fungus or mildew. l Ensure that animals such as rodents (rats for example), ants, winged insects, or snakes cannot enter the equipment room.

Surge Protection Specifications The BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets have the same surge protection specifications, as provided in Table 6-761. NOTE


Table 6-761 Surge protection specifications of ports on the BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets

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Port


Specification


Surge

4 kV (1.2/50 μs)


598



Standards The BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets comply with the same standards, as provided in the following table. Table 6-762 Standards with which the BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets comply Item

Standard

Security standards

l X.509: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 1825: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 1826: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 1827: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 4492: Supported in all versions l RFC 5246: Supported in GBSS15.0/RAN15.0/eRAN6.0/ SRAN8.0 and later versions l Secure Socket Layer (SSL): Supported in all versions

Protection rating

IP20


ETS 300 019-1-3 Class 3.1

Storage

ETSI EN300019-1-1V2.1.4 (2003-04) class1.2 "Weatherprotected, not temperature-controlled storage locations"

Transportation

ETSI EN300019-1-2V2.1.4 (2003-04) class 2.3 "Public transportation"


IEC 60068-2-57: Environmental testing -Part 2-57: Tests -Test Ff:Vibration -Time-history method YD5083: Interim Provisions for Test of Anti-seismic Performances of Telecommunications Equipment (telecom industry standard in People's Republic of China)


Issue 07 (2016-04-29)



599



Item

Standard

EMC

NOTE The BTS3900L complies with the following standards. If interference exists because the BTS3900L is installed near antennas or other radio receive devices, you are advised to extend the distance between them or adjust the location and direction of antennas.



600



Item


Surge protection


6.6.3 BTS3900A Engineering Specifications BTS3900A engineering specifications include input power specifications, equipment specifications, environment specifications, surge protection specifications, and standards that have been complied with.

Input Power Specifications The BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets support the same power input, as provided in the following table. NOTE

For the configurations of upper-level circuit breakers and cross-sectional areas of power cables in a BTS3900A cabinet, see Configurations of Upper-Level Circuit Breakers and Power Cables in a BTS3900A in 3900 Series Base Station Hardware Description.

Table 6-763 Input power supported by the BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets

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Input Power

Voltage Range

-48 V DC

-38.4 V DC to -57 V DC Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.

601



Input Power

Voltage Range


105/176 V AC to 150/260 V AC


100/200 V AC to 120/240 V AC




176/304 V AC to 290/500 V AC

Equipment Specifications The following table lists the equipment specifications of the BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets. Table 6-764 Equipment specifications of the BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets Item

Cabinet

Specification


BTS3900A (Ver.B)/ BTS3900A (Ver.C)/ BTS3900A (Ver.D)/ BTS3900A (Ver.E)

1400 mm x 600 mm x 480 mm (without base) l APM30H (Ver.B)/APM30H (Ver.C)/ APM30H (Ver.D)/APM30H (Ver.E)/ TMC11H (Ver.B)/TMC11H (Ver.C)/TMC11H (Ver.D)/TMC11H (Ver.E): 700 mm x 600 mm x 480 mm l RFC (Ver.B)/RFC (Ver.C)/RFC (Ver.D)/RFC (Ver.E): 700 mm x 600 mm x 480 mm Base: 200 mm x 600 mm x 480 mm

Weight

BTS3900A (Ver.B)/ BTS3900A (Ver.C)/ BTS3900A (Ver.D)/ BTS3900A (Ver.E)

≤ 194 kg (with boards installed in AC cabinets before delivery) l ≤ 87 kg (with APM30H in full configuration, without transmission devices and storage batteries) l ≤ 107 kg (with RFC in full configuration)

Heat Dissipation Capabilities of the Cabinet

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BTS3900A (Ver.B)

700 W at 50°C

BTS3900A (Ver.C)

700 W at 50°C or 1050 W at 50°C

BTS3900A (Ver.D)

700 W at 50°C or 1500 W at 50°C

BTS3900A (Ver.E)

700 W at 50°C or 1800 W at 50°C


602



Environment Specifications The BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets have the same environment specifications, as provided in the following table. Table 6-765 Environment specifications of the BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets Item

Specification


-40°C to +50°C (with 1120 W/M2 solar radiation); an AC heater assembly unit (HAU) is required if the operating temperature is below -20°C.

Relative humidity

5% RH to 100% RH


70 kPa to 106 kPa


l When the heat consumption of the APM30H is lower than 700 W and the output power of an RF module is lower than or equal to 80 W, the noise sound power level complies with the ETS 300 753 4.1E (Rural) standard. – ≤6.1bels@+25°C – ≤6.7bels@+45°C l When the heat consumption of the APM30H is higher than 700 W or the output power of an RF module is higher than 80 W, the noise sound power level complies with the ETS 300 753 4.1E (Urban) standard. – ≤6.6bels@+25°C – ≤7.6bels@+45°C

Storage Time


Surge Protection Specifications The BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets have the same surge protection specifications, as provided in Table 6-766. NOTE


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603



Table 6-766 Surge protection specifications of ports on the BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets Port


Specification

-48 V DC output remote port

Surge current

20 kA

-48 V DC input port

Surge current

20 kA


Surge current

30 kA

Standards The BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets comply with the same standards, as provided in the following table. Table 6-767 Standards with which the BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), and BTS3900A (Ver.E) cabinets comply Item

Standard

Security standards

l X.509: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 1825: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 1826: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 1827: Supported in GBSS14.0/RAN14.0/eRAN3.0/ SRAN7.0 and later versions l RFC 4492: Supported in all versions l RFC 5246: Supported in GBSS15.0/RAN15.0/eRAN6.0/ SRAN8.0 and later versions l Secure Socket Layer (SSL): Supported in all versions

Issue 07 (2016-04-29)

Protection rating

IP55


ETS 300 019-1-4 Class 4.1

Storage

ETSI EN300019-1-1V2.1.4 (2003-04) class1.2 "Weatherprotected, not temperature-controlled storage locations"

Transportation



604



Item

Standard


IEC 60068-2-57: Environmental testing -Part 2-57: Tests -Test Ff:Vibration -Time-history method YD5083: Interim Provisions for Test of Anti-seismic Performances of Telecommunications Equipment (telecom industry standard in People's Republic of China)


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605



Item

Standard

EMC

NOTE The BTS3900A complies with the following standards. If interference exists because the BTS3900A is installed near antennas or other radio receive devices, you are advised to extend the distance between them or adjust the location and direction of antennas.



606



Item


Surge protection


6.6.4 BTS3900AL Engineering Specifications BTS3900AL engineering specifications include input power specifications, equipment specifications, environment specifications, surge protection specifications, and standards that have been complied with.

Input Power Specifications The following table lists the input power specifications of a BTS3900AL (Ver.A) cabinet. NOTE

For the configurations of upper-level circuit breakers and cross-sectional areas of power cables in a BTS3900AL cabinet, see Configurations of Upper-Level Circuit Breakers and Power Cables in a BTS3900AL (Ver.A) in 3900 Series Base Station Hardware Description.

Table 6-768 Input power specifications of a BTS3900AL (Ver.A) cabinet

Issue 07 (2016-04-29)

Input Power

Voltage Range




176/304 V AC to 290/500 V AC


607



Input Power

Voltage Range


105/176 V AC to 150/260 V AC


90/180 V AC to 135/270 V AC

-48 V DC

-38.4 V DC to -57 V DC

Equipment Specifications The following table lists the equipment specifications of a BTS3900AL (Ver.A) cabinet. Table 6-769 Equipment specifications of a BTS3900AL (Ver.A) cabinet Item

Specification


1925 mm x 770 mm x 750 mm (with the base) Base: 200 mm x 770 mm x 700 mm

Weight

≤ 550 kg (full configuration, with the base and full configuration of storage batteries, and without transmission devices)

Heat Dissipation Capabilities of the Cabinet

2200 W at 50°C

Environment Specifications The following table lists the environment specifications of a BTS3900AL (Ver.A) cabinet. Table 6-770 Environment specifications of a BTS3900AL (Ver.A) cabinet Item

Specification


l -40°C to +50°C (with 1120 W/M2 solar radiation and without storage batteries); an AC heater assembly unit (HAU) is required if the operating temperature is below -20°C. l -40°C to +40°C (with 1120 W/M2 solar radiation and storage batteries); an AC heater assembly unit (HAU) is required if the operating temperature is below -20°C.

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Relative humidity

5% RH to 100% RH


70 kPa to 106 kPa


608



Item

Specification


l When the output power of an RF module is lower than or equal to 80 W, the noise sound power level complies with the ETS 300 753 4.1E (Rural) standard. – ≤6.1bels@+25°C – ≤6.7bels@+45°C l When the output power of an RF module is higher than 80 W, the noise sound power level complies with the ETS 300 753 4.1E (Urban) standard. – ≤6.6bels@+25°C – ≤7.6bels@+45°C

Storage Time


Surge Protection Specifications Table 6-771 lists the surge protection specifications of ports on a BTS3900AL (Ver.A) cabinet. NOTE


Table 6-771 Surge protection specifications of ports on a BTS3900AL (Ver.A) cabinet Port


Specification

AC input power port

Surge current

30 kA

Standards The following table lists the standards with which a BTS3900AL (Ver.A) cabinet complies.

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609



Table 6-772 Standards with which a BTS3900AL (Ver.A) cabinet complies Item

Standard

Security standards

l X.509: Supported in GBSS14.0/RAN14.0/eRAN3.0/SRAN7.0 and later versions l RFC 1825: Supported in GBSS14.0/RAN14.0/eRAN3.0/SRAN7.0 and later versions l RFC 1826: Supported in GBSS14.0/RAN14.0/eRAN3.0/SRAN7.0 and later versions l RFC 1827: Supported in GBSS14.0/RAN14.0/eRAN3.0/SRAN7.0 and later versions l RFC 4492: Supported in all versions l RFC 5246: Supported in GBSS15.0/RAN15.0/eRAN6.0/SRAN8.0 and later versions l Secure Socket Layer (SSL): Supported in all versions

Issue 07 (2016-04-29)

Protectio n rating

IP55


ETS 300 019-1-4 Class 4.1

Storage

ETSI EN300019-1-1V2.1.4 (2003-04) class 1.2 "Weatherprotected, not temperature-controlled storage locations"

Transport ation


Antiseismic performa nce

IEC 60068-2-57: Environmental testing -Part 2-57:Tests -Test Ff:Vibration Time-history method

Antiearthquak e performa nce


YD5083: Interim Provisions for Test of Anti-seismic Performances of Telecommunications Equipment (telecom industry standard in People's Republic of China)


610



Item

Standard

EMC

NOTE The BTS3900AL complies with the following standards. If interference exists because the BTS3900AL is installed near antennas or other radio receive devices, you are advised to extend the distance between them or adjust the location and direction of antennas.

The multi-mode base station meets the Electromagnetic Compatibility (EMC) requirements and complies with the following standards: l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l ETSI EN 301489-1/8/23 l 3GPP TS 25.113 l ETSI EN 301908-1 l ITU-T SM 329-10 l FCC PART15 The GBTS meets the EMC requirements and complies with the following standards: l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l ETSI EN 301489-1/8 l ETSI EN 301908-1 l ITU-T SM 329-10 l FCC PART15 The NodeB has been certified by European standards. The NodeB meets the EMC requirements and complies with the following standards: l CISPR 22 (1997) l EN 55022 (1998) l EN 301 489-23 V1.2.1 (2002-11) l CISPR 24 (1998) l IEC 61000-4-2 l IEC 61000-4-3 l IEC 61000-4-4 l IEC 61000-4-5 l IEC 61000-4-6 l IEC 61000-4-29 l GB 9254-1998 l ETSI 301 489-1 V1.3.1 (2001-09) l FCC Part 15 The eNodeB has been certified by European standards. The eNodeB meets the EMC requirements and complies with the following standards: l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l 3GPP TS 36.113 Issue 07 (2016-04-29)


611



Item

Standard l ETSI EN 301489-1/23 l ETSI EN 301908-1 V2.2.1 (2003-10) l ITU-R SM.329-10

Surge protection


6.6.5 DBS3900 Engineering Specifications DBS3900 engineering specifications include input power specifications, equipment specifications, environment specifications, surge protection specifications, and standards that have been complied with.

Input Power Specifications The following table lists the input power specifications of a DBS3900. NOTE

l For the configurations of upper-level circuit breakers and power cables in a DBS3900 using a BBU3900 or BBU3910, see Configurations of Upper-Level Circuit Breakers and Power Cables in a DBS3900 Configured with a BBU3900 or BBU3910 in 3900 Series Base Station Hardware Description. l For the configurations of upper-level circuit breakers and power cables in a DBS3900 using a BBU3910A3, see When a DBS3900 Is Configured with a BBU3910A in 3900 Series Base Station Hardware Description.

Table 6-773 Input power specifications of a DBS3900 Item

Input Power

Voltage Range

baseband unit (BBU)

-48 V DC

-38.4 V DC to -57 V DC

remote radio unit (RRU)

-48 V DC

-36 V DC to -57 V DC

Equipment Specifications The equipment specifications of a DBS3900 include the following: Issue 07 (2016-04-29)


612



l

BBU equipment specifications (for details, see6.1 Technical Specifications of the BBU3900s and BBU3910s and 6.2 Technical Specifications of the BBU3910A)

l

RRU equipment specifications (for details, see Technical Specifications of RRUs)

l

Related cabinet equipment specifications (for details, see 3900 Series Base Station Hardware Description)

Environment Specifications The environment specifications of a DBS3900 include the following: l

BBU environment specifications (for details, see 6.1 Technical Specifications of the BBU3900s and BBU3910s and 6.2 Technical Specifications of the BBU3910A)

l

RRU environment specifications (for details, see Technical Specifications of RRUs)

Surge Protection Specifications The surge protection specifications of ports on a DBS3900 include the following: l

Surge protection specifications of ports on the BBU (for details, see 6.1 Technical Specifications of the BBU3900s and BBU3910s and 6.2 Technical Specifications of the BBU3910A)

l

Surge protection specifications of ports on a remote radio unit (RRU) (for details, see Technical Specifications of RRUs)

Standards The following table lists the standards with which a DBS3900 complies. Table 6-774 Standards with which a DBS3900 complies Item

Standard

Security standard s


Operatin g environ ment Issue 07 (2016-04-29)

ETS 300 019-1-4 Class 4.1


613


Issue 07 (2016-04-29)


Item

Standard

Storage


Transpor tation



IEC 60068-2-57: Environmental testing -Part 2-57:Tests -Test Ff:Vibration Time-history method

Antiearthqua ke performa nce


YD5083: Interim Provisions for Test of Anti-seismic Performances of Telecommunications Equipment (telecom industry standard in People's Republic of China)


614



Item

Standard

EMC

NOTE The DBS3900 complies with the following standards. If interference exists because the DBS3900 is installed near antennas or other radio receive devices, you are advised to extend the distance between them or adjust the location and direction of antennas.

The multi-mode base station meets the Electromagnetic Compatibility (EMC) requirements and complies with the following standards: l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l ETSI EN 301489-1/8/23 l 3GPP TS 25.113 l ETSI EN 301908-1 l ITU-T SM 329-10 l FCC PART15 The GBTS meets the EMC requirements and complies with the following standards: l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l ETSI EN 301489-1/8 l ETSI EN 301908-1 l ITU-T SM 329-10 l FCC PART15 The NodeB has been certified by European standards. The NodeB meets the EMC requirements and complies with the following standards: l CISPR 22 (1997) l EN 55022 (1998) l EN 301 489-23 V1.2.1 (2002-11) l CISPR 24 (1998) l IEC 61000-4-2 l IEC 61000-4-3 l IEC 61000-4-4 l IEC 61000-4-5 l IEC 61000-4-6 l IEC 61000-4-29 l GB 9254-1998 l ETSI 301 489-1 V1.3.1 (2001-09) l FCC Part 15 The eNodeB has been certified by European standards. The eNodeB meets the EMC requirements and complies with the following standards: l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l 3GPP TS 36.113 Issue 07 (2016-04-29)


615



Item

Standard l ETSI EN 301489-1/23 l ETSI EN 301908-1 V2.2.1 (2003-10) l ITU-R SM.329-10

6.6.6 BTS3900C Engineering Specifications BTS3900C engineering specifications include input power specifications, equipment specifications, environment specifications, surge protection specifications, and standards that have been complied with.

Input Power Specifications The BTS3900C and BTS3900C (Ver.C) cabinets support the same power input, as provided in the following table. NOTE

For the configurations of upper-level circuit breakers and cross-sectional areas of power cables in a BTS3900C cabinet, see Configurations of Upper-Level Circuit Breakers and Power Cables in a BTS3900C in 3900 Series Base Station Hardware Description.

Table 6-775 Input power specifications of the BTS3900C and BTS3900C (Ver.C) cabinets Input Power

Voltage Range

-48 V DC

-38.4 V DC to -57 V DC




90/180 V AC to 135/270 V AC

Equipment Specifications Table 6-776 and Table 6-777 list the equipment specifications of a BTS3900C cabinet and a BTS3900C (Ver.C) cabinet, respectively. Table 6-776 Equipment specifications of a BTS3900C cabinet Item

Specification


600 mm x 400 mm x 390 mm l OMB: 600 mm x 240 mm x 390 mm l RRU subrack: 600mm x 160 mm x 390 mm

Issue 07 (2016-04-29)


616



Item

Specification

Weight

l AC cabinet: ≤ 28 kg (excluding the BBU and RRU) l DC cabinet: ≤ 26 kg (excluding the BBU and RRU)

Table 6-777 Equipment specifications of a BTS3900C (Ver.C) cabinet Item

Specification


600 mm x 420 mm x 430 mm l OMB (Ver.C): 600 mm x 240 mm x 430 mm l RRU subrack: 600mm x 180 mm x 430 mm l AC cabinet: ≤ 32 kg (excluding the BBU and RRU)

Weight

l DC cabinet: ≤ 28 kg (excluding the BBU and RRU) Heat Dissipation Capabilities of the Cabinet

650 W at 50°C

Environment Specifications Table 6-778 and Table 6-779 list the environment specifications of a BTS3900C cabinet and a BTS3900C (Ver.C) cabinet, respectively. Table 6-778 Environment specifications of a BTS3900C cabinet Item

Specification


l With solar radiation: -40°C to +45°C l Without solar radiation: -40°C to +50°C

Relative humidity

5% RH to 100% RH


70 kPa to 106 kPa


ETS300 753 Rural area, Class 4.1E l ≤6.1bels@+25°C l ≤6.7bels@+45°C

Storage Time

Issue 07 (2016-04-29)



617



Table 6-779 Environment specifications of a BTS3900C (Ver.C) cabinet Item

Specification


-33°C to +50°C

Relative humidity

5% RH to 100% RH


70 kPa to 106 kPa


l When the heat consumption of the BTS3900C (Ver.C) is lower than or equal to 300 W, the noise sound power level complies with the ETS 300 753 4.1E (Rural) standard. – ≤6.1bels@+25°C – ≤6.7bels@+45°C l When the heat consumption of the BTS3900C (Ver.C) is higher than 300 W, the noise sound power level complies with the ETS 300 753 4.1E (Urban) standard. – ≤6.6bels@+25°C – ≤7.6bels@+45°C

Storage Time


Surge Protection Specifications Table 6-780 and Table 6-781 list the surge protection specifications of ports on a BTS3900C cabinet and a BTS3900C (Ver.C) cabinet, respectively. NOTE


Table 6-780 Surge protection specifications of ports on a BTS3900C cabinet

Issue 07 (2016-04-29)

Port


Specification

DC port

Surge current

15 kA

AC port

Surge current

30 kA


618



Table 6-781 Surge protection specifications of ports on a BTS3900C (Ver.C) cabinet Port


Specification

DC port

Surge current

20 kA

AC port

Surge current

30 kA

Standards The BTS3900C and BTS3900C (Ver.C) cabinets comply with the same standards, as provided in the following table. Table 6-782 Standards with which the BTS3900C and BTS3900C (Ver.C) cabinets comply Item

Standard

Security standards


Issue 07 (2016-04-29)

Protectio n rating

IP55


ETS 300 019-1-4 Class 4.1

Storage


Transport ation



IEC 60068-2-57: Environmental testing -Part 2-57:Tests -Test Ff:Vibration Time-history method YD5083: Interim Provisions for Test of Anti-seismic Performances of Telecommunications Equipment (telecom industry standard in People's Republic of China)


619



Item

Standard

Antiearthquak e performa nce


Noise

l ETS 300 753 4.1E (rural area) l ETS 300 753 4.1E (urban area)

EMC

NOTE The BTS3900C complies with the following standards. If interference exists because the BTS3900C is installed near antennas or other radio receive devices, you are advised to extend the distance between them or adjust the location and direction of antennas.

The multi-mode base station meets the Electromagnetic Compatibility (EMC) requirements and complies with the following standards: l R&TTE Directive 1999/5/EC l R&TTE Directive 89/336/EEC l ETSI EN 301489-1/8/23 l 3GPP TS 25.113 l ETSI EN 301908-1 l ITU-T SM 329-10 l FCC PART15 The NodeB has been certified by European standards. The NodeB meets the EMC requirements and complies with the following standards: l CISPR 22 (1997) l EN 55022 (1998) l EN 301 489-23 V1.2.1 (2002-11) l CISPR 24 (1998) l IEC 61000-4-2 l IEC 61000-4-3 l IEC 61000-4-4 l IEC 61000-4-5 l IEC 61000-4-6 l IEC 61000-4-29 l GB 9254-1998 l ETSI 301 489-1 V1.3.1 (2001-09) l FCC Part 15

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Item

Standard

Surge protection


6.7 Typical Power Configuration Reference for RF Modules This chapter describes the power configuration rules and typical power configurations for RF modules.

6.7.1 Principles for Configuring Power of RF Modules This chapter describes the power specifications of radio frequency (RF) modules, power amplifier (PA) configuration principles, and remarks. Power specifications When you configure power for RF modules, comply with the following power specifications: l

l

RF modules serving a single mode: –

GSM: multi-carrier base transceiver station (MCBTS) in 3GPP TS 45.005

–

UMTS: 3GPP TS 25.141

–

LTE: 3GPP TS 36.141

RF modules serving multiple modes: Multi-Standard Radio (MSR) in 3GPP TS 37.141

PA Configuration Principles RF modules fall into the following types: l

1TX RF modules: modules that have only one transmit channel, such as the MRFU V1.

l

2TX RF modules: modules that have two transmit channels, such as the RRU3908.

l

4TX RF modules: modules that have four transmit channels, such as the RRU3252.

l

8TX RF modules: modules that have eight transmit channels, such as the RRU3253.

When multi-mode RF modules work in a single mode, rules for configuring RF channels are the same as those for configuring RF channels in single-mode RF modules. The following table provides the rules for configuring RF channels in multi-mode RF modules working in multiple modes. Issue 07 (2016-04-29)


621



Table 6-783 Configuration Rules for RF Channels RF Module Type

Configuration Rule

1Tx RF modules

Non-MSR standard: One RF module can serve only one mode and the rule for configuring RF channels in such an RF module is the same as that for configuring RF channels in a single-mode RF module. MSR standard: One RF module can serve two modes at the same time, and data of the two modes can be carried over the same transmit channel.

2TX RF modules

Non-MSR standard: One RF module can serve two modes at the same time, and data of the two modes must be carried over different transmit channels. For example, GSM data is carried over channel A while UMTS data over channel B. MSR standard: One RF module can serve two modes at the same time, and data of the two modes can be carried over the same or different transmit channels. Power of two transmit channels must be balanced if possible.

Remarks l

In this document, a transmit channel is represented by PA. For example, n transmit channels of an RF module are represented by PA1, PA2, ..., and PAn. The two transmit channels of a 2TX RF module are represented by PA1 and PA2. Unless otherwise specified, the power values of all PAs of an RF module can be interchanged.

l

In this document, each value in the Output Power per Carrier (W) column indicates the maximum output power of each carrier under the corresponding configuration while ensuring the network performance. Output Power per GSM Carrier With Dynamic Power Sharing is the available maximum output power for every TRX during dynamic power sharing. If this power is exceeded, the system cannot guarantee the network performance and will report ALM-28010 Carrier Configuration Error.

l

In MIMO carrier scenarios, MxN W indicates that a MIMO carrier is configured in M PAs, and each PA is configured with power of N W.

l

For a nTX RF module (n is 2, 4, or 8), the restriction is as follows:

, where PAi indicates the number of carriers of transmit channel i; Pi indicates the output power of each carrier of transmit channel i; PA indicates the total number of carriers configured in this RF module; P indicates the maximum output power supported by each carrier. l

The formula for calculating the frequency spacing between GSM and UMTS channels: GU frequency spacing ≥ [(GSM bandwidth/2) + (UMTS bandwidth/2)].

l

The typical configuration tables for PAs of GSM RF modules provided in this document only list power values in GSMK mode because power values in 8PSK mode cannot be configured.

l

The output power per carrier of an RF module in a GBTS is the same as that of the same RF module in an eGBTS. For GBTSs, the unit of the output power per carrier is W. For eGBTSs, the unit of the output power per carrier is dBm. The two units can be mutually

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622



converted using the following formula: dBm =10 x log(1000 x W, 10). For example, when there is only one carrier on GRFU V1 (GSM, 1900 MHz), the output power per carrier for a GBTS is 60 W (GMSK), and that for an eGBTS is 47.8 dBm (GMSK) after rounding off the result of the following formula: 10 x log(1000 x 60, 10).

6.7.2 Typical Power Configurations for RFUs This chapter describes the typical power configurations for RFUs.

Typical Power Configuration for DRFU A DRFU is a 2TX RF module that can work in GSM mode. l

Table 6-784 and Table 6-785 provide the typical power configuration for the DRFU (GSM (GBTS), 900 MHz).

l

Table 6-786 and Table 6-787 provide the typical power configuration for the DRFU (GSM (GBTS), 1800 MHz). NOTE

Two DRFU modules are required when four carriers are configured.

Table 6-784 Output power for the DRFU (GSM (GBTS), 900 MHz) Mode

Total Number of GSM Carriers

Output Power per GSM Carrier (W)

GSM

1

45 (GMSK)/30 (8PSK)

1 (PBT)

71 (GMSK)/41 (8PSK)

2

45 (GMSK)/30 (8PSK)

4

20 (GMSK)/14 (8PSK)

Table 6-785 Configuration of DRFU PAs (GSM (GBTS), 900 MHz) Configur ation Scenario (Total Number of Carriers)

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PA2

PA1 Number of GSM Carriers


Number of GSM Carriers


GSM 1

1

45 (GMSK)

0

0

GSM 1

1 (PBT)

71 (GMSK)

0

0

GSM 2

1

45 (GMSK)

1

45 (GMSK)

GSM 4

2

20 (GMSK)

2

20 (GMSK)


623



Table 6-786 Output power for the DRFU (GSM (GBTS), 1800 MHz) Mode



GSM

1

40 (GMSK)/26 (8PSK)

1 (PBT)

63 (GMSK)/42 (8PSK)

2

40 (GMSK)/26 (8PSK)

4

18 (GMSK)/12 (8PSK)

Table 6-787 Configuration of DRFU PAs (GSM (GBTS), 1800 MHz) Configur ation Scenario (Total Number of Carriers)

PA2





GSM 1

1

40 (GMSK)

0

0

GSM 1

1 (PBT)

63 (GMSK)

0

0

GSM 2

1

40 (GMSK)

1

40 (GMSK)

GSM 4

2

18 (GMSK)

2

18 (GMSK)

Typical Power Configuration for GRFU V1 A GRFU V1 is a 1TX RF module that can work in GSM mode. l

Table 6-788 provides the typical power configuration for the GRFU V1 (GSM (GBTS), 1900 MHz).

l

Table 6-789 provides the typical power configuration for the GRFU V1 (GSM (eGBTS), 1900 MHz). NOTE

The maximum output power of the RF module in S1 configuration is 60 W. To achieve the maximum output power, you need to buy a license.

Table 6-788 Output power for the GRFU V1 (GSM (GBTS), 1900 MHz)

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Mode



Output Power per GSM Carrier With Dynamic Power Sharing (W)

GSM

1

60 (GMSK)/40 (8PSK)

60 (GMSK)/40 (8PSK)


624



Mode




2

40 (GMSK)/26 (8PSK)

40 (GMSK)/26 (8PSK)

3

27 (GMSK)/18 (8PSK)

31 (GMSK)/20 (8PSK)

4

20 (GMSK)/13 (8PSK)

27 (GMSK)/18 (8PSK)

5

12 (GMSK)/8 (8PSK)

20 (GMSK)/13 (8PSK)

6

10 (GMSK)/6.6 (8PSK)

16 (GMSK)/10 (8PSK)

Table 6-789 Output power for the GRFU V1 (GSM (eGBTS), 1900 MHz) Mode


Output Power per GSM Carrier (dBm)

Output Power per GSM Carrier With Dynamic Power Sharing (dBm)

GSM

1

47.8 (GMSK)/46.0 (8PSK)

47.8 (GMSK)/46.0 (8PSK)

2

46.0 (GMSK)/44.1 (8PSK)

46.0 (GMSK)/44.1 (8PSK)

3

44.3 (GMSK)/42.6 (8PSK)

44.9 (GMSK)/43.0 (8PSK)

4

43.0 (GMSK)/41.1 (8PSK)

44.3 (GMSK)/42.6 (8PSK)

5

40.8 (GMSK)/39.0 (8PSK)

43.0 (GMSK)/41.1 (8PSK)

6

40.0 (GMSK)/38.2 (8PSK)

42.0 (GMSK)/40.0 (8PSK)

Typical Power Configuration for GRFU V2/GRFU V2a A GRFU V2/GRFU V2a is a 1TX RF module that can work in GSM mode. l

Table 6-790 provides the typical power configuration for the GRFU V2/GRFU V2a (GSM (GBTS), 900 MHz).

l

Table 6-791 provides the typical power configuration for the GRFU V2/GRFU V2a (GSM (GBTS), 1800 MHz).

l

Table 6-792 provides the typical power configuration for the GRFU V2/GRFU V2a (GSM (eGBTS), 900 MHz).

l

Table 6-793 provides the typical power configuration for the GRFU V2/GRFU V2a (GSM (eGBTS), 1800 MHz).

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625



NOTE

l

l

For the GRFU V2/GRFU V2a operating in the 900 MHz frequency band: l


l

After design optimization, the 8 phase shift keying (8PSK) and Gaussian minimum shiftfrequency keying (GMSK) modulation schemes enable the same output power for each carrier on the the RF module when the S1, S2, or S3 configuration is used.

l

When the S4, S5, or S6 configuration is used, the license controlling the GBFD-118104 Enhanced EDGE Coverage feature must be obtained. Otherwise, the 8PSK and GMSK modulation schemes cannot enable the same output power for each carrier on the RF module.

For the GRFU V2/GRFU V2a operating in the 1800 MHz frequency band: l


l

When the S4, S5, or S6 configuration is used, the license controlling the GBFD-118104 Enhanced EDGE Coverage feature must be obtained. Otherwise, the 8PSK and GMSK modulation schemes cannot enable the same output power for each carrier on the RF module.

Table 6-790 Output power for the GRFU V2/GRFU V2a (GSM (GBTS), 900 MHz) Mode




GSM

1

60 (GMSK)/60 (8PSK)

60 (GMSK)/60 (8PSK)

2

40 (GMSK)/40 (8PSK)

40 (GMSK)/40 (8PSK)

3

27 (GMSK)/27 (8PSK)

31 (GMSK)/31 (8PSK)

4

20 (GMSK)/20 (8PSK)

27 (GMSK)/27 (8PSK)

5

16 (GMSK)/16 (8PSK)

20 (GMSK)/20 (8PSK)

6

12 (GMSK)/12 (8PSK)

20 (GMSK)/20 (8PSK)

Table 6-791 Output power for the GRFU V2/GRFU V2a (GSM (GBTS), 1800 MHz)

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Mode




GSM

1

60 (GMSK)/40 (8PSK)

60 (GMSK)/40 (8PSK)

2

40 (GMSK)/26 (8PSK)

40 (GMSK)/26 (8PSK)

3

27 (GMSK)/18 (8PSK)

31 (GMSK)/20 (8PSK)

4

20 (GMSK)/20 (8PSK)

27 (GMSK)/27 (8PSK)

5

16 (GMSK)/16 (8PSK)

20 (GMSK)/20 (8PSK)


626


Mode





6

12 (GMSK)/12 (8PSK)

20 (GMSK)/20 (8PSK)

Table 6-792 Output power for the GRFU V2/GRFU V2a (GSM (eGBTS), 900 MHz) Mode




GSM

1

47.8 (GMSK)/47.8 (8PSK)

47.8 (GMSK)/47.8 (8PSK)

2

46.0 (GMSK)/46.0 (8PSK)

46.0 (GMSK)/46.0 (8PSK)

3

44.3 (GMSK)/44.3 (8PSK)

44.9 (GMSK)/44.9 (8PSK)

4

43.0 (GMSK)/43.0 (8PSK)

44.3 (GMSK)/44.3 (8PSK)

5

42.0 (GMSK)/42.0 (8PSK)

43.0 (GMSK)/43.0 (8PSK)

6

40.8 (GMSK)/40.8 (8PSK)

43.0 (GMSK)/43.0 (8PSK)

Table 6-793 Output power for the GRFU V2/GRFU V2a (GSM (eGBTS), 1800 MHz)

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Mode




GSM

1

47.8 (GMSK)/46.0 (8PSK)

47.8 (GMSK)/46.0 (8PSK)

2

46.0 (GMSK)/44.1 (8PSK)

46.0 (GMSK)/44.1 (8PSK)

3

44.3 (GMSK)/42.6 (8PSK)

44.9 (GMSK)/43.0 (8PSK)

4

43.0 (GMSK)/43.0 (8PSK)

44.3 (GMSK)/44.3 (8PSK)


627



Mode




5

42.0 (GMSK)/42.0 (8PSK)

43.0 (GMSK)/43.0 (8PSK)

6

40.8 (GMSK)/40.8 (8PSK)

43.0 (GMSK)/43.0 (8PSK)

Typical Power Configuration for WRFU An WRFU is a 1TX RF module that can work in UMTS mode. l

Table 6-794 provide the typical power configuration for the WRFU (UMTS, 850 MHz/ 2100 MHz, 80W).

l

Table 6-795 provide the typical power configuration for the WRFU (Optimized)(UMTS, 2100 MHz, 80W).

l

Table 6-796 provide the typical power configuration for the WRFU (UMTS, 2100 MHz, 40W).

Table 6-794 Output power for the WRFU (UMTS, 850 MHz/2100 MHz, 80W) Mode

Total Number of UMTS Carriers

Output Power per UMTS Carrier (W)

UMTS

1

60

2

40

3

20

4

20

Table 6-795 Output power for the WRFU (Optimized)(UMTS, 2100 MHz, 80W)

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Mode



UMTS

1

80

2

40

3

26

4

20


628



Table 6-796 Output power for the WRFU (UMTS, 2100 MHz, 40W) Mode



UMTS

1

40

2

20

Typical Power Configuration for WRFUa A WRFUa is a 1TX RF module that can work in UMTS mode. l

Table 6-797 provide the typical power configuration for the WRFUa (UMTS, 2100 MHz).

Table 6-797 Output power for the WRFUa (UMTS, 2100 MHz) Mode



UMTS

1

80

2

50

3

33

4

25

Typical Power Configuration for WRFUd A WRFUd is a 2TX RF module that can work in UMTS mode. Table 6-798 and Table 6-799 provide the typical power configuration for the WRFUd (UMTS, 2100 MHz). Table 6-798 Output power for the WRFUd (UMTS, 2100 MHz)

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Mode



UMTS

1

Configured in one PA: 60

2


2

Configured in two PAs: 60

3


4



629



Mode



4


6


1 (MIMO)

2 x 40

2 (MIMO)

2 x 30

3 (MIMO)

2 x 20

4 (MIMO)

2 x 15

Table 6-799 Configuration of WRFUd PAs (UMTS, 2100 MHz) PA1

PA2

Configuration Scenario (Total Number of Carriers)

Number of UMTS Carriers




UMTS 1

1

60

0

0

UMTS 2

2

30

0

0

UMTS 2

1

60

1

60

UMTS 3

3

20

0

0

UMTS 4

4

15

0

0

UMTS 4

2

30

2

30

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

Typical Power Configuration for WRFUe An WRFUe is a 2TX RF module that can work in UMTS mode. Table 6-800 and Table 6-801 provide the typical power configuration for the WRFUe (UMTS, 2100 MHz). Issue 07 (2016-04-29)


630



Table 6-800 Output power for the WRFUe (UMTS, 2100 MHz) Mode



UMTS

1


2


2


3


4


4


6


1 (MIMO)

2 x 40

2 (MIMO)

2 x 40

3 (MIMO)

2 x 26

4 (MIMO)

2 x 20

Table 6-801 Configuration of WRFUe PAs (UMTS, 2100 MHz)

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UMTS 1

1

80

0

0

UMTS 2

2

40

0

0

UMTS 2

1

80

1

80

UMTS 3

3

26

0

0

UMTS 4

4

20

0

0

UMTS 4

2

40

2

40

UMTS 6

3

26

3

26

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

40

2

40

UMTS 3 (MIMO)

3

26

3

26

PA1

PA2


631



Configuration Scenario (Total Number of Carriers) UMTS 4 (MIMO)

PA1

PA2





4

20

4

20

Typical Power Configuration for CRFUd A CRFUd is a 2TX RF module that can work in LTE FDD mode. l

Table 6-802 and Table 6-803 provide the typical power configuration for the CRFUd (LTE FDD, AWS).

l

Table 6-804 and Table 6-805 provide the typical power configuration for the CRFUd (LTE FDD, 2100 MHz).

Table 6-802 Output power for the CRFUd (LTE FDD, AWS) Working mode

Total Number of LTE FDD Carriers

Output Power per LTE FDD Carrier (W)

Bandwidth of LTE FDD Carrier (MHz)

LTE FDD

1 (MIMO)

2 x 40

1.4, 3, 5

1 (MIMO)

2 x 60

10, 15, 20

2 (MIMO)

2 x 30

5, 10, 15, 20

2 (MIMO)

l carrier 1: 2 x 20

l carrier 1: 5,10

l carrier 2: 2 x 40

l carrier 2: 10,20

l carrier 1: 2 x 15

l carrier 1: 5

l carrier 2: 2 x 45

l carrier 2: 15

l carrier 1: 2 x 12

l carrier 1: 5

l carrier 2: 2 x 48

l carrier 2: 20

l carrier 1: 2 x 24

l carrier 1: 10

l carrier 2: 2 x 36

l carrier 2: 15

l carrier 1: 2 x 26

l carrier 1: 15

l carrier 2: 2 x 34

l carrier 2: 20

2 (MIMO)

2 (MIMO)

2 (MIMO)

2 (MIMO)

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632



Table 6-803 Configuration of CRFUd PAs (LTE FDD, AWS) Configuration Scenario (Total Number of Carriers)

PA1

PA2

Number of LTE FDD Carriers




LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l carrier 1: 20

2

l carrier 1: 20

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

l carrier 2: 40 l carrier 1: 15

l carrier 2: 40 2


l carrier 2: 45 2



2


l carrier 1: 15


2

l carrier 2: 34


Table 6-804 Output power for the CRFUd (LTE FDD, 2100 MHz) Working mode




LTE FDD

1 (MIMO)

2 x 10

5,10,15,20

1 (MIMO)

2 x 20

5,10,15,20

1 (MIMO)

2 x 40

10,15,20

1 (MIMO)

2 x 60

15,20

2 (MIMO)

l carrier1: 2 x 20

l carrier1: 10

l carrier2: 2 x 10

l carrier2: 5

l carrier1: 2 x 20

l carrier1: 10

l carrier2: 2 x 20

l carrier2: 10

2 (MIMO)

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633



Working mode




2 (MIMO)

l carrier1: 2 x 20

l carrier1: 10

l carrier2: 2 x 30

l carrier2: 15

l carrier1: 2 x 20

l carrier1: 10

l carrier2: 2 x 40

l carrier2: 20

2 (MIMO)

Table 6-805 Configuration of CRFUd PAs (LTE FDD, 2100 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

10

1

10

LTE FDD 1 (MIMO)

1

20

1

20

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

l carrier1: 20

2

l carrier1: 20

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

l carrier2: 10 l carrier1: 20

l carrier2: 10 2


l carrier2: 20 2


l carrier1: 20


2

l carrier2: 40


Typical Power Configuration for CRFUe A CRFUe is a 2TX RF module that can work in LTE FDD mode. Table 6-806 and Table 6-807 provide the typical power configuration for the CRFUe (LTE FDD, 2100 MHz).

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634



Table 6-806 Output power for the CRFUe (LTE FDD, 2100 MHz) Working mode




LTE FDD

1 (MIMO)

2 x 10

5,10,15,20

1 (MIMO)

2 x 20

5,10,15,20

1 (MIMO)

2 x 40

10,15,20

1 (MIMO)

2 x 60

15,20

1 (MIMO)

2 x 80

15,20

2 (MIMO)

l carrier1: 2 x 20

l carrier1: 10

l carrier2: 2 x 10

l carrier2: 5

l carrier1: 2 x 20

l carrier1: 10

l carrier2: 2 x 20

l carrier2: 10

l carrier1: 2 x 20

l carrier1: 10

l carrier2: 2 x 30

l carrier2: 15

l carrier1: 2 x 20

l carrier1: 10

l carrier2: 2 x 40

l carrier2: 20

l carrier1: 2 x 40

l carrier1: 20

l carrier2: 2 x 40

l carrier2: 20

2 (MIMO)

2 (MIMO)

2 (MIMO)

2 (MIMO)

Table 6-807 Configuration of CRFUe PAs (LTE FDD, 2100 MHz) Configuration Scenario (Total Number of Carriers)

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PA1

PA2





LTE FDD 1 (MIMO)

1

10

1

10

LTE FDD 1 (MIMO)

1

20

1

20

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

80

1

80


635




PA1

PA2





LTE FDD 2 (MIMO)

2

l carrier1: 20

2

l carrier1: 20

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2


l carrier2: 10 2


l carrier2: 20 2



2


l carrier1: 20


2

l carrier2: 40


Typical Power Configuration for LRFU A LRFU is a 2TX RF module that can work in LTE FDD mode. Table 6-808 and Table 6-809 provide the typical power configuration for the LRFU (LTE FDD, 2600 MHz). Table 6-808 Output power for the LRFU (LTE FDD, 2600 MHz) Working mode




LTE FDD

1 (MIMO)

2 x 40

1.4, 3, 5, 10, 15, 20

Table 6-809 Configuration of LRFU PAs (LTE FDD, 2600 MHz) Configuration Scenario (Total Number of Carriers) LTE FDD 1 (MIMO)

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PA1

PA2





1

40

1

40


636



Typical Power Configuration for LRFUe A LRFUe is a 2TX RF module that can work in LTE FDD mode. Table 6-810 and Table 6-811 provide the typical power configuration for the LRFUe (LTE FDD, DD 800 MHz). Table 6-812 and Table 6-813 provide the typical power configuration for the LRFUe (LTE FDD, 700 MHz). Table 6-814 and Table 6-815 provide the typical power configuration for the LRFUe (LTE FDD, 2600 MHz). Table 6-810 Output power for the LRFUe (LTE FDD, DD 800 MHz) Working mode




LTE FDD

1 (MIMO)

2 x 20

5

1 (MIMO)

2 x 40

10

1 (MIMO)

2 x 60

15, 20

2 (MIMO)

2 x 30

10

Table 6-811 Configuration of LRFUe PAs (LTE FDD, DD 800 MHz) Configuration Scenario (Total Number of Carriers)

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PA1

PA2





LTE FDD 1 (MIMO)

1

20

1

20

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

30

2

30


637



Table 6-812 Output power for the LRFUe (LTE FDD, 700 MHz) Working mode




LTE FDD

1(MIMO)

2 x 80

10, 15, 20

1(MIMO)

2 x 60

10, 15, 20

1(MIMO)

2 x 40

5, 10, 15, 20

2(MIMO)

l carrier1: 2 x 30

5, 10

l carrier2: 2 x 30 2(MIMO)

2(MIMO)

2(MIMO)

2(MIMO)

2(MIMO)

l carrier1: 2 x 20

l carrier1: 5

l carrier2: 2 x 40

l carrier2: 10

l carrier1: 2 x 15

l carrier1: 5

l carrier2: 2 x 45

l carrier2: 15

l carrier1: 2 x 12

l carrier1: 5

l carrier2: 2 x 48

l carrier2: 20

l carrier1: 2 x 24

l carrier1: 10

l carrier2: 2 x 36

l carrier2: 15

l carrier1: 2 x 20

5, 10

l carrier2: 2 x 20 2(MIMO)

2(MIMO)

2(MIMO)

2(MIMO)

l carrier1: 2 x 13

l carrier1: 5

l carrier2: 2 x 27

l carrier2: 10

l carrier1: 2 x 10

l carrier1: 5

l carrier2: 2 x 30

l carrier2: 15

l carrier1: 2 x 8

l carrier1: 5

l carrier2: 2 x 32

l carrier2: 20

l carrier1: 2 x 16

l carrier1: 10

l carrier2: 2 x 24

l carrier2: 15

Table 6-813 Configuration of LRFUe PAs (LTE FDD, 700 MHz) Configuration Scenario (Total Number of Carriers) LTE FDD 1(MIMO) Issue 07 (2016-04-29)

PA1

PA2





1

80

1

80


638




PA1

PA2





LTE FDD 1(MIMO)

1

60

1

60

LTE FDD 1(MIMO)

1

40

1

40

LTE FDD 2(MIMO)

2

l carrier1: 30

2

l carrier1: 30

LTE FDD 2(MIMO)

2

LTE FDD 2(MIMO)

2

LTE FDD 2(MIMO)

2

LTE FDD 2(MIMO)

2

LTE FDD 2(MIMO)

2

LTE FDD 2(MIMO)

2

LTE FDD 2(MIMO)

2

LTE FDD 2(MIMO)

2

LTE FDD 2(MIMO)

2



2



2



2



2



2



2



2



2



2

l carrier2: 24

l carrier2: 24

Table 6-814 Output power for the LRFUe (LTE FDD, 2600 MHz)

Issue 07 (2016-04-29)

Working mode




LTE(FDD)

1(MIMO)

2x40

5

1(MIMO)

2x60

10,15,20


639



Working mode




2(MIMO)

l carrier1: 30

l carrier1: 10

l carrier2: 30

l carrier2: 10

l carrier1: 20

l carrier1: 5

l carrier2: 40

l carrier2: 10

l carrier1: 20

l carrier1: 5

l carrier2: 20

l carrier2: 5

l carrier1: 15

l carrier1: 5

l carrier2: 45

l carrier2: 15

l carrier1: 12

l carrier1: 5

l carrier2: 48

l carrier2: 20

l carrier1: 24

l carrier1: 10

l carrier2: 36

l carrier2: 15

2(MIMO)

2(MIMO)

2(MIMO)

2(MIMO)

2(MIMO)

Table 6-815 Configuration of LRFUe PAs (LTE FDD, 2600 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2





LTE(FDD) 1(MIMO)

1

40

1

40

LTE(FDD) 1(MIMO)

1

60

1

60

LTE(FDD) 2(MIMO)

2

l carrier1: 30

2

l carrier1: 30

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2


l carrier2: 30 2


l carrier2: 40 2



2


l carrier1: 20


2

l carrier2: 48



640



Configuration Scenario (Total Number of Carriers) LTE(FDD) 2 (MIMO)

PA1

PA2





2

l carrier1: 24

2

l carrier1: 24

l carrier2: 36

l carrier2: 36

Typical Power Configuration for MRFU V1 An MRFU V1 is a 1TX RF module that can work in GSM, UMTS, LTE (FDD), GU, or GL mode. l

Table 6-816 provides the typical power configuration for the MRFU V1 (GSM, 900 MHz/1800 MHz/1900 MHz).

l

Table 6-817 provides the typical power configuration for the MRFU V1 (UMTS, 900 MHz/1900 MHz).

l

Table 6-818 provides the typical power configuration for the MRFU V1 (LTE FDD, 1800 MHz).

l

Table 6-819 provides the typical power configuration for the MRFU V1 (GU MSR, 900 MHz).

l

Table 6-820 provides the typical power configuration for the MRFU V1 (GL MSR, 1800 MHz). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the MRFU working in GSM mode: The maximum output power of the RF module in S1 configuration is 60 W. To achieve the maximum output power, you need to buy a license.

Issue 07 (2016-04-29)


641



Table 6-816 Output power for the MRFU V1 (GSM, 900 MHz/1800 MHz/1900 MHz) Mode




GSM

1

60

60

2

40

40

3

27

31

4

20

27

5

12

20

6

10

16

NOTE

(a) indicates that only hardware is available for the configuration.

Table 6-817 Output power for the MRFU V1 (UMTS, 900 MHz/1900 MHz) Mode



UMTS

1

60

2

40

3(a)

27(a)

4(a)

20(a)

Table 6-818 Output power for the MRFU V1 (LTE FDD, 1800 MHz) Mode




LTE FDD

1

60

3, 5, 10

Table 6-819 Output power for the MRFU V1 (GU MSR, 900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

40

40


642



Mode





1

2

40

20

2

1

20

40

2

2

20

20

3

1

20

10

3

1

16

20

3

2

16

10

3

2

10

20

4

1

12

20

4

2

10

10

5

1

10

10

Table 6-820 Output power for the MRFU V1 (GL MSR, 1800 MHz) Mode






GSM + LTE FDD

1

1

40

40

3, 5, 10

2

1

20

40

3, 5, 10

3

1

20

10

3, 5, 10

3

1

16

20

3, 5, 10

4

1

15

10

3, 5, 10

4

1

12

20

3, 5, 10

5

1

10

20

3, 5, 10

Typical Power Configuration for MRFU V2/MRFU V2a An MRFU V2/MRFU V2a is a 1TX RF module that can work in GSM, UMTS, LTE (FDD), GU, GL, or UL mode. NOTE

An MRFU V2 can work at the 850 MHz, 900 MHz, or 1800 MHz frequency band. An MRFU V2a can work at the 900 MHz or 1800 MHz frequency band.

Issue 07 (2016-04-29)


643



l

Table 6-821 provides the typical power configuration for the MRFU V2/MRFU V2a (GSM, 850 MHz/900 MHz/1800 MHz).

l

Table 6-822 provides the typical power configuration for the MRFU V2/MRFU V2a (UMTS, 850 MHz/900 MHz).

l

Table 6-823 provides the typical power configuration for the MRFU V2/MRFU V2a (LTE FDD, 900 MHz/1800 MHz).

l

Table 6-824 provides the typical power configuration for the MRFU V2/MRFU V2a (GU MSR, 850 MHz/900 MHz).

l

Table 6-825 provides the typical power configuration for the MRFU V2/MRFU V2a (GL MSR, 900 MHz/1800MHz).

l

Table 6-826 provides the typical power configuration for the MRFU V2 (LTE FDD, 850 MHz, two combined).

l

Table 6-827 provides the typical power configuration for the MRFU V2 (UL MSR, 850 MHz, two combined). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the MRFU working in GSM mode: The maximum output power of the RF module in S1 configuration is 60 W. To achieve the maximum output power, you need to buy a license.

Table 6-821 Output power for the MRFU V2/MRFU V2a (GSM, 850 MHz/900 MHz/1800 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

60

60

2

40

40

3

27

31

4

20

27

5

16

20

6

12

20


644



NOTE

l


l

Two MRFU V2 or MRFU V2a modules are required to support UMTS MIMO.

Table 6-822 Output power for the MRFU V2/MRFU V2a (UMTS, 850 MHz/900 MHz) Mode



UMTS

1

60

2

40

3(a)

26(a)

4(a)

20(a)

1 (MIMO)

2 x 60

2 (MIMO)

2 x 40

3 (MIMO)(a)

2 x 27(a)

4 (MIMO)(a)

2 x 20(a)

Table 6-823 Output power for the MRFU V2/MRFU V2a (LTE FDD, 900 MHz/1800 MHz) Mode




LTE FDD

1

60

l 900 MHz: 1.4, 3, 5, 10, 15, 20 l 1800 MHz: 5, 10, 15, 20

Table 6-824 Output power for the MRFU V2/MRFU V2a (GU MSR, 850 MHz/900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

40

40

2

1

20

40

2

1

30

20

3

1

20

20

4

1

12

20


645



Mode





5

1

10

20

1

2

40

20

2

2

20

20

3

2

16

10

3

2

10

20

4

2

10

10

Table 6-825 Output power for the MRFU V2/MRFU V2a (GL MSR, 900 MHz/1800 MHz) Mode






GSM + LTE FDD

1

1

40

30

l 900 MHz: 1.4, 3, 5, 10, 15 l 1800 MHz: 5, 10, 15

1

1

30

40

l 900 MHz: 1.4, 3, 5, 10, 15 l 1800 MHz: 5, 10, 15

2

1

27

20

l 900 MHz: 1.4, 3, 5, 10, 15 l 1800 MHz: 5, 10, 15

2

1

20

40

l 900 MHz: 1.4, 3, 5, 10, 15 l 1800 MHz: 5, 10, 15

Issue 07 (2016-04-29)


646


Mode







3

1

20

20

l 900 MHz: 1.4, 3, 5, 10, 15 l 1800 MHz: 5, 10, 15

4

1

12

20

l 900 MHz: 1.4, 3, 5, 10 l 1800 MHz: 5, 10

4

1

15

10

l 900 MHz: 1.4, 3, 5, 10 l 1800 MHz: 5, 10

5

1

10

20

l 900 MHz: 1.4, 3, 5, 10 l 1800 MHz: 5, 10

Table 6-826 Output power for the MRFU V2(LTE FDD, 850 MHz, two combined)

Issue 07 (2016-04-29)

Mode




LTE FDD

1 (MIMO)

2 x 60

5, 10, 15, 20


647



Table 6-827 Output power for the MRFU V2(UL MSR, 850 MHz, two combined) Mode






UMTS + LTE FDD

1

1 (MIMO)

40

2 x 40

5, 10

2

1 (MIMO)

40

2 x 40

5, 10

Typical Power Configuration for MRFU V6 An MRFU V6 is a 1TX RF module that can work in GSM, UMTS, LTE (FDD), GU, or GL mode. l

Table 6-828 provides the typical power configuration for the MRFU V6 (GSM, 900 MHz/1800 MHz).

l

Table 6-829 provides the typical power configuration for the MRFU V6 (UMTS, 900 MHz).

l

Table 6-830 provides the typical power configuration for the MRFU V6 (UMTS, 900 MHz, two combined).

l

Table 6-831 provides the typical power configuration for the MRFU V6 (LTE FDD, 900 MHz/1800 MHz).

l

Table 6-832 provides the typical power configuration for the MRFU V6 (GU MSR, 900 MHz).

l

Table 6-833 provides the typical power configuration for the MRFU V6 (GL MSR, 900 MHz/1800MHz). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the MRFU V6 working in GSM mode: The maximum output power of the RF module in S1 configuration is 60 W. To achieve the maximum output power, you need to buy a license.

Issue 07 (2016-04-29)


648



Table 6-828 Output power for the MRFU V6 (GSM, 900 MHz/1800 MHz) Mode




GSM

1

60

60

2

40

40

3

27

31

4

20

27

5

16

20

6

12

20

Table 6-829 Output power for the MRFU V6 (UMTS, 900 MHz) Mode



UMTS

1

60

2

40

3

26

4

20

Table 6-830 Output power for the MRFU V6 (UMTS, 900 MHz, two combined) Mode



UMTS

1(MIMO)

2x60

2(MIMO)

2x40

3(MIMO)

2x26

4(MIMO)

2x20

Table 6-831 Output power for the MRFU V6 (LTE FDD, 900 MHz/1800 MHz)

Issue 07 (2016-04-29)

Mode




LTE(FDD)

1

60

5, 10, 15, 20


649



Table 6-832 Output power for the MRFU V6 (GU MSR, 900 MHz) Mode





GSM + UMTS

1

1

40

40

1

2

40

20

2

1

20

40

2

1

30

20

2

2

20

20

3

1

20

20

3

2

16

10

3

2

10

20

4

1

12

20

4

2

10

10

5

1

10

20

Table 6-833 Output power for the MRFU V6 (GL MSR, 900 MHz/1800 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE(FDD)

1

1

40

30

1.4, 3, 5, 10, 15

1

1

30

40

1.4, 3, 5, 10, 15

2

1

27

20

1.4, 3, 5, 10, 15

2

1

20

30

1.4, 3, 5, 10, 15

3

1

20

20

1.4, 3, 5, 10, 15

4

1

12

20

10

5

1

10

20

10


650



Typical Power Configuration for MRFUc The MRFUc is a 2TX RF module that works in UMTS, LTE FDD, or UL mode. l

Table 6-834 and Table 6-835 provide the typical power configuration for the MRFUc (UMTS, 2100 MHz).

l

Table 6-836 and Table 6-837 provide the typical power configuration for the MRFUc (LTE FDD, 2100 MHz).

l

Table 6-838 and Table 6-839 provide the typical power configuration for the MRFUc (UL MSR, 2100 MHz). NOTE

l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB.

Table 6-834 Output power for the MRFUc (UMTS, 2100 MHz) Mode



UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2x40

2 (MIMO)

2x30

3 (MIMO)

2x20

4 (MIMO)

2x15

2+1 (MIMO)

l Non-MIMO carrier: 30 l MIMO carrier: 2x30

2+2 (MIMO)


2+3 (MIMO)


4+1 (MIMO)


Issue 07 (2016-04-29)


651



Mode



4+2 (MIMO)

l Non-MIMO carrier: 15 l MIMO carrier: 2x15 l Non-MIMO carrier: 15

6+1 (MIMO)

l MIMO carrier: 2x15

Table 6-835 Configuration of MRFUc PAs (UMTS, 2100 MHz)

Issue 07 (2016-04-29)

PA1

PA2






UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

60

UMTS 4

2

30

2

30

UMTS 5

3

20

2

30

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

60

1

60

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

UMTS 2 + 1 (MIMO)

2

30

2

30

UMTS 2 + 2 (MIMO)

3

20

3

20

UMTS 2 + 3 (MIMO)

4

15

4

15

UMTS 4 + 1 (MIMO)

3

20

3

20

UMTS 4 + 2 (MIMO)

4

15

4

15


652



Configuration Scenario (Total Number of Carriers) UMTS 6 + 1 (MIMO)

PA1

PA2





4

15

4

15

Table 6-836 Output power of the MRFUc (LTE FDD, 2100 MHz) Mode



Bandwidth of LTE FDD (MHz)

LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

2 (MIMO)

2x30

5, 10, 15, 20

3 (MIMO)

2x20

5, 10, 15, 20

4 (MIMO)

2x15

5, 10, 15

Table 6-837 Configuration of MRFUc PAs (LTE FDD, 2100 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 3 (MIMO)

3

20

3

20

LTE FDD 4 (MIMO)

4

15

4

15


653



Table 6-838 Output power for the MRFUc (UL MSR, 2100 MHz) Mode





Bandwidth of LTE FDD (MHz)

UMTS + LTE FDD

1

1 (MIMO)

30

2x30

5, 10, 15, 20

2

1 (MIMO)

30

2x30

5, 10, 15, 20

3

1 (MIMO)

20

2x20

5, 10, 15, 20

4

1 (MIMO)

20

2x20

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x30

2x30

5, 10, 15, 20

2 (MIMO)

1 (MIMO)

2x20

2x20

5, 10, 15, 20

3 (MIMO)

1 (MIMO)

2x15

2x15

5, 10, 15, 20

4 (MIMO)

1 (MIMO)

2x10

2x20

5, 10, 15, 20

6

1 (MIMO)

15

2x15

5, 10, 15, 20

2

2 (MIMO)

20

2x20

5, 10, 15, 20

4

2 (MIMO)

15

2x15

5, 10, 15, 20

6

2 (MIMO)

10

2x15

5, 10, 15

2

3 (MIMO)

15

2x15

5, 10, 15

Table 6-839 Configuration of MRFUc PAs (UL MSR, 2100 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs) UMTS 1+ LTE FDD 1 (MIMO )

Issue 07 (2016-04-29)

PA2

PA1 Numb er of UMTS Carrie rs

Outpu t Power per UMTS Carrie r (W)

Numb er of LTE FDD Carrie rs

Outpu t Power per LTE FDD Carrie r (W)

Numb er of UMTS Carrie rs




1

30

1

30

0

0

1

30


654


Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)


PA2









UMTS 2+ LTE FDD 1 (MIMO )

1

30

1

30

1

30

1

30


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20

UMTS 1 (MIMO ) + LTE FDD 1 (MIMO )

1

30

1

30

1

30

1

30


2

20

1

20

2

20

1

20


655



Issue 07 (2016-04-29)


PA2










3

15

1

15

3

15

1

15


4

10

1

20

4

10

1

20


3

15

1

15

3

15

1

15


1

20

2

20

1

20

2

20


2

15

2

15

2

15

2

15


3

10

2

15

3

10

2

15


656



Config uratio n Scenar io (Total Numb er of Carrie rs) UMTS 2+ LTE FDD 3 (MIMO )

PA2









1

15

3

15

1

15

3

15

Typical Power Configuration for MRFUd An MRFUd is a 2TX RF module that can work in GSM, UMTS, LTE FDD, GU, GL, or UL mode. l

Table 6-840 and Table 6-841 provide the typical power configuration for the MRFUd (GSM, 900 MHz/1800 MHz).

l

Table 6-842 and Table 6-843 provide the typical power configuration for the MRFUd (UMTS, 900 MHz/2100 MHz).

l

Table 6-844 and Table 6-845 provide the typical power configuration for the MRFUd (LTE FDD, 900 MHz/1800 MHz).

l

Table 6-846 and Table 6-847 provide the typical power configuration for the MRFUd (LTE FDD, 2100 MHz).

l

Table 6-848 and Table 6-849 provide the typical power configuration for the MRFUd (GU non-MSR, 900 MHz).

l

Table 6-850 and Table 6-851 provide the typical power configuration for the MRFUd (GU MSR, 900 MHz).

l

Table 6-852 and Table 6-853 provide the typical power configuration for the MRFUd (GL MSR, 900 MHz/1800 MHz).

l

Table 6-854 and Table 6-855 provide the typical power configuration for the MRFUd (UL MSR, 900 MHz/2100 MHz).

Issue 07 (2016-04-29)


657



NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the MRFUd working in GSM mode: when the S1 or S2 configuration is applied, the maximum output power of each carrier on the MRFUd is 80 W. If the output power of 60 W or 80 W is required, the related license must be obtained. l When two LTE carriers are configured, it is recommended that the power spectrum density (PSD) of the two carriers be set to the same value. Power spectrum density = Carrier output power/Carrier bandwidth (1.4 MHz and 3 MHz bandwidths are considered as 5 MHz bandwidth in this formula.)

Table 6-840 Output power for the MRFUd (GSM, 900 MHz/1800 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

80

80

2

80

80

3

40

40

4

40

40

5

27

30

6

27

30

7

20

27

8

20

27


658



Table 6-841 Configuration of MRFUd PAs (GSM, 900 MHz/1800 MHz) Configur ation Scenario (Total Number of Carriers)

PA2






Output Power per GSM Carrier With Dynami c Power Sharing (W)

GSM 1

1

80

80

0

0

0

GSM 2

1

80

80

1

80

80

GSM 3

2

40

40

1

40

40

GSM 4

2

40

40

2

40

40

GSM 5

3

27

30

2

27

30

GSM 6

3

27

30

3

27

30

GSM 7

4

20

27

3

20

27

GSM 8

4

20

27

4

20

27

PA1

Table 6-842 Output power for the MRFUd (UMTS, 900 MHz/2100 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

80

2

80

3

40

4

40

5

25

6

25

1 (MIMO)

2 x 40

2 (MIMO)

2 x 40

3 (MIMO)

2 x 25

4 (MIMO)

2 x 20


659



Table 6-843 Configuration of MRFUd PAs (UMTS, 900 MHz/2100 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





UMTS 1

1

80

0

0

UMTS 2

1

80

1

80

UMTS 3

2

40

1

40

UMTS 4

2

40

2

40

UMTS 5

3

25

2

25

UMTS 6

3

25

3

25

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

40

2

40

UMTS 3 (MIMO)

3

25

3

25

UMTS 4 (MIMO)

4

20

4

20

NOTE

(a) indicates that the configuration is supported from SRAN8.0 and supported only at the 1800 MHz frequency band.

Table 6-844 Output power for the MRFUd (LTE FDD, 900 MHz/1800 MHz)

Issue 07 (2016-04-29)

Mode




LTE FDD

1 (MIMO)(a)

2 x 80(a)

5, 10, 15, 2(a)

1 (MIMO)

2 x 60

5, 10, 15, 20

1 (MIMO)

2 x 40

1.4, 3, 5, 10, 15, 20

2 (MIMO)

2 x 40

1.4, 3, 5, 10, 15, 20


660



Table 6-845 Configuration of MRFUd PAs (LTE FDD, 900 MHz/1800 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)(a)

1(a)

80(a)

1(a)

80(a)

LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

40

2

40

Table 6-846 Output power for the MRFUd (LTE FDD, 2100 MHz) Mode




LTE FDD

1 (MIMO)

2 x 60

5, 10, 15, 20

2 (MIMO)

2 x 40

1.4, 3, 5, 10, 15, 20

Table 6-847 Configuration of MRFUd PAs (LTE FDD, 2100 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

40

2

40


661



Table 6-848 Output power for the MRFUd (GU non-MSR, 900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

80

80

2

1

40

80

3

1

27

80

4

1

20

80

5

1

16

80

6

1

12

80

1

2

80

40

2

2

40

40

3

2

27

40

4

2

20

40

5

2

16

40

6

2

12

40

1

3

80

25

2

3

40

25

3

3

27

25

4

3

20

25

5

3

16

25

1

4

80

20

2

4

40

20

3

4

27

20

4

4

20

20


662



Table 6-849 Configuration of MRFUd PAs (GU non-MSR, 900 MHz) Configur ation Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA2

PA1 Numb er of GSM Carrier s

Outp ut Powe r per GSM Carrie r (W)



Num ber of GSM Carrie rs



Outp ut Power per UMT S Carrie r (W)

GSM 1 + UMTS 1

1

80

0

0

0

0

1

80

GSM 2 + UMTS 1

2

40

0

0

0

0

1

80

GSM 3 + UMTS 1

3

27

0

0

0

0

1

80

GSM 4 + UMTS 1

4

20

0

0

0

0

1

80

GSM 5 + UMTS 1

5

16

0

0

0

0

1

80

GSM 6 + UMTS 1

6

12

0

0

0

0

1

80

GSM 1 + UMTS 2

1

80

0

0

0

0

2

40

GSM 2 + UMTS 2

2

40

0

0

0

0

2

40

GSM 3 + UMTS 2

3

27

0

0

0

0

2

40

GSM 4 + UMTS 2

4

20

0

0

0

0

2

40

GSM 5 + UMTS 2

5

16

0

0

0

0

2

40

GSM 6 + UMTS 2

6

12

0

0

0

0

2

40

GSM 1 + UMTS 3

1

80

0

0

0

0

3

25

GSM 2 + UMTS 3

2

40

0

0

0

0

3

25

GSM 3 + UMTS 3

3

27

0

0

0

0

3

25


663



Configur ation Scenario (Total Number of Carriers)

PA2









GSM 4 + UMTS 3

4

20

0

0

0

0

3

25

GSM 5 + UMTS 3

5

16

0

0

0

0

3

25

GSM 1 + UMTS 4

1

80

0

0

0

0

4

20

GSM 2 + UMTS 4

2

40

0

0

0

0

4

20

GSM 3 + UMTS 4

3

27

0

0

0

0

4

20

GSM 4 + UMTS 4

4

20

0

0

0

0

4

20

NOTE

l

(b) indicates that the configuration is supported from SRAN7.0 and supported only at the 900 MHz frequency band.

l

(c) indicates that the configuration is supported from SRAN8.0.

Table 6-850 Output power for the MRFUd (GU MSR, 900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1(b)

1(b)

30(b)

50(b)

2(b)

1(b)

30(b)

50(b)

2

1

40

40

3

1

40

40

4

1

27

40

5

1

27

20

5

1

25

30


664


Mode

Issue 07 (2016-04-29)






5

1

20

40

6

1

20

40

7

1

20

20

7

1

16

30

1(b)

2(b)

30(b)

50(b)

1

2

40

40

2(b)

2(b)

30(b)

50(b)

2

2

40

40

3

2

30

20

3

2

25

30

3

2

20

40

4

2

30

20

4

2

25

30

4

2

20

40

5

2

20

20

5(c)

2(c)

20(c)

30(c)

6

2

20

20

1

1 (MIMO)

40

2 x 40

1(b)

1 (MIMO)(b)

30(b)

2 x 50(b)

2

1 (MIMO)

40

2 x 40

2(b)

1 (MIMO)(b)

30(b)

2 x 50(b)

3

1 (MIMO)

20

2 x 40

3

1 (MIMO)

25

2 x 30

4

1 (MIMO)

20

2 x 40

4

1 (MIMO)

25

2 x 30

4

1 (MIMO)

30

2 x 20

1

2 (MIMO)

20

2 x 30

1

2 (MIMO)

40

2 x 20


665



Mode





2

2 (MIMO)

20

2 x 30

2

2 (MIMO)

40

2 x 20

3

2 (MIMO)

15

2 x 20

4

2 (MIMO)

15

2 x 20

Table 6-851 Configuration of MRFUd PAs (GU MSR, 900 MHz) Configur ation Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA2

PA1 Numb er of GSM Carrie rs

Outp ut Power per GSM Carrie r (W)

Numb er of UMTS Carrier s

Outp ut Powe r per UMT S Carri er (W)

Numb er of GSM Carrie rs

Outpu t Power per GSM Carrie r (W)

Num ber of UMT S Carri ers


GSM 1 + UMTS 1(b)

1(b)

30(b)

1(b)

50(b)

0(b)

0(b)

0(b)

0(b)

GSM 2 + UMTS 1(b)

1(b)

30(b)

1(b)

50(b)

1(b)

30(b)

0(b)

0(b)

GSM 2 + UMTS 1

1

40

1

40

1

40

0

0

GSM 3 + UMTS 1

2

40

0

0

1

40

1

40

GSM 4 + UMTS 1

3

27

0

0

1

27

1

40

GSM 5 + UMTS 1

3

27

0

0

2

27

1

20

GSM 5 + UMTS 1

3

25

0

0

2

25

1

30

GSM 5 + UMTS 1

4

20

0

0

1

20

1

40


666



Issue 07 (2016-04-29)


PA2









GSM 6 + UMTS 1

4

20

0

0

2

20

1

40

GSM 7 + UMTS 1

4

20

0

0

3

20

1

20

GSM 7 + UMTS 1

5

16

0

0

2

16

1

30

GSM 1 + UMTS 2(b)

1(b)

30(b)

1(b)

50(b)

0(b)

0(b)

1(b)

50(b)

GSM 1 + UMTS 2

1

40

1

40

0

0

1

40

GSM 2 + UMTS 2(b)

1(b)

30(b)

1(b)

50(b)

1(b)

30(b)

1(b)

50(b)

GSM 2 + UMTS 2

1

40

1

40

1

40

1

40

GSM 3 + UMTS 2

2

30

1

20

1

30

1

20

GSM 3 + UMTS 2

2

25

1

30

1

25

1

30

GSM 3 + UMTS 2

2

20

1

40

1

20

1

40

GSM 4 + UMTS 2

2

30

1

20

2

30

1

20

GSM 4 + UMTS 2

2

25

1

30

2

25

1

30

GSM 4 + UMTS 2

2

20

1

40

2

20

1

40

GSM 5 + UMTS 2

4

20

0

0

1

20

2

20


667



Issue 07 (2016-04-29)


PA2









GSM 5 + UMTS 2(c)

4(c)

20(c)

0(c)

0(c)

1(c)

20(c)

2(c)

30(c)

GSM 6 + UMTS 2

l Sce nari o 1: 4

l Sce nari o 1: 20

l Scen ario 1: 0

l Sce nari o 1: 2

l Sce nari o 1: 20

l Sce nari o 2: 20

l Sce nari o 2: 3

l Sce nari o 2: 20

l Sce nar io 1: 2

l Sce nari o 1: 20

l Sce nari o 2: 3

l Sc en ari o 1: 0

GSM 1 + UMTS 1 (MIMO)

1

40

1

40

0

0

1

40

GSM 1 + UMTS 1 (MIMO) (b)

1(b)

30(b)

1(b)

50(b)

0(b)

0(b)

1(b)

50(b)


1

40

1

40

1

40

1

40


1(b)

30(b)

1(b)

50(b)

1(b)

30(b)

1(b)

50(b)


2

20

1

40

1

20

1

40


2

25

1

30

1

25

1

30

l Scen ario 2: 1

l Sc en ari o 2: 20


l Sce nar io 2: 1

l Sce nari o 2: 20

668




PA2










2

20

1

40

2

20

1

40


2

25

1

30

2

25

1

30


2

30

1

20

2

30

1

20


1

20

2

30

0

0

2

30


1

40

2

20

0

0

2

20


1

20

2

30

1

20

2

30


1

40

2

20

1

40

2

20


2

15

2

20

1

15

2

20


2

15

2

20

2

15

2

20

NOTE

l (d) indicates that the configuration is supported from SRAN7.0 and supported only at the 1800 MHz frequency band. l (e) indicates that the configuration applies to SRAN8.0 and later versions, and the configuration is supported only when the base stations works at a temperature 5°C lower than the standard temperature.

Issue 07 (2016-04-29)


669



Table 6-852 Output power for the MRFUd (GL MSR, 900 MHz/1800 MHz) Mode





Bandwidt h of LTE FDD Carrier (MHz)

GSM + LTE FDD

1

1 (MIMO)

40

2 x 40

1.4, 3, 5, 10, 15, 20

1(d)

1 (MIMO) (d)

30(d)

2 x 50(d)

1.4, 3, 5, 10, 15, 20(d)

2

1 (MIMO)

40

2 x 40

1.4, 3, 5, 10, 15, 20

2(d)

1 (MIMO) (d)

30(d)

2 x 50(d)

1.4, 3, 5, 10, 15, 20(d)

3

1 (MIMO)

30

2 x 20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

25

2 x 30

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2 x 40

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2 x 40

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

25

2 x 30

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

30

2 x 20

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

16

2 x 30

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

20

2 x 20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

15

2 x 20

1.4, 3, 5, 10, 15, 20

6(d)

1 (MIMO) (d)

16(d)

2 x 30(d)

1.4, 3, 5, 10, 15, 20(d)

2(e)

2 (MIMO) (e)

20(e)

l Carrier 1: 2 x 20(e) l Carrier 2: 2 x 40(e)

Issue 07 (2016-04-29)


l Carrier 1: 10(e) l Carrier 2: 20(e)

670



Table 6-853 Configuration of MRFUd PAs (GL MSR, 900 MHz/1800 MHz) Config uratio n Scenar io (Total Numb er of Carrier s)

Issue 07 (2016-04-29)

PA2

PA1 Numbe r of GSM Carrier s


Numb er of LTE FDD Carrier s

Outpu t Power per LTE FDD Carrier (W)





GSM 1 + LTE FDD 1 (MIMO )

1

40

1

40

0

0

1

40

GSM 1 + LTE FDD 1 (MIMO )(d)

1(d)

30(d)

1(d)

50(d)

0(d)

0(d)

1(d)

50(d)


1

40

1

40

1

40

1

40


1(d)

30(d)

1(d)

50(d)

1(d)

30(d)

1(d)

50(d)


2

30

1

20

1

30

1

20


2

25

1

30

1

25

1

30


2

20

1

40

1

20

1

40


671


Config uratio n Scenar io (Total Numb er of Carrier s)

Issue 07 (2016-04-29)


PA2










2

20

1

40

2

20

1

40


2

25

1

30

2

25

1

30


2

30

1

20

2

30

1

20


3

16

1

30

2

16

1

30


3

20

1

20

2

20

1

20


3

15

1

20

3

15

1

20


3(d)

16(d)

1(d)

30(d)

3(d)

16(d)

1(d)

30(d)


672



Config uratio n Scenar io (Total Numb er of Carrier s) GSM 2 + LTE FDD 2 (MIMO )(e)

PA2









1(e)

20(e)

2(e)

l Carr ier 1: 20(e )

1(e)

20(e)

2(e)

l Car rier 1: 20( e)

l Carr ier 2: 40(e )

l Car rier 2: 40( e)

NOTE

(g) indicates that the configuration is supported only at the 900 MHz frequency band. (h) indicates that the configuration is supported only at the 2100 MHz frequency band.

Table 6-854 Output power for the MRFUd (UL MSR, 900 MHz/2100 MHz)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

40

2 x 40

5, 10, 15, 20

2

1 (MIMO)

40

2 x 40

5, 10, 15, 20

3

1 (MIMO)

20

2 x 40

5, 10, 15, 20

3(g)

1 (MIMO) (g)

30(g)

2 x 20(g)

5, 10(g)

4

1 (MIMO)

20

2 x 40

5, 10, 15, 20

4(g)

1 (MIMO) (g)

30(g)

2 x 20(g)

5, 10(g)

4(h)

1 (MIMO) (h)

26(h)

2 x 26(h)

5, 10, 15, 20(h)


673



Mode






6(h)

1 (MIMO) (h)

20(h)

2 x 20(h)

5, 10, 15, 20(h)

2(h)

2 (MIMO) (h)

20(h)

2 x 30(h)

5, 10, 15, 20(h)

4(h)

2 (MIMO) (h)

20(h)

2 x 20(h)

5, 10, 15, 20(h)

Table 6-855 Configuration of MRFUd PAs (UL MSR, 900 MHz/2100 MHz) Config uratio n Scenar io (Total Numb er of Carrier s)

Issue 07 (2016-04-29)

PA2

PA1 Numbe r of UMTS Carrier s




Numb er of UMT S Carrie rs




UMTS 1 + LTE FDD 1 (MIMO )

1

40

1

40

0

0

1

40


1

40

1

40

1

40

1

40


2

20

1

40

1

20

1

40

UMTS 3 + LTE FDD 1 (MIMO )(g)

2(g)

30(g)

1(g)

20(g)

1(g)

30(g)

1(g)

20(g)


674




PA2










2

20

1

40

2

20

1

40

UMTS 4 + LTE FDD 1 (MIMO )(g)

2(g)

30(g)

1(g)

20(g)

2(g)

30(g)

1(g)

20(g)

UMTS 4 + LTE FDD 1 (MIMO )(h)

2(h)

26(h)

1(h)

26(h)

2(h)

26(h)

1(h)

26(h)


3(h)

20(h)

1(h)

20(h)

3(h)

20(h)

1(h)

20(h)


1(h)

20(h)

2(h)

30(h)

1(h)

20(h)

2(h)

30(h)


2(h)

20(h)

2(h)

20(h)

2(h)

20(h)

2(h)

20(h)

Typical Power Configuration for MRFUd V6/MRFUdw V6 An MRFUd V6/MRFUdw V6 is a 2TX RF module that can work in GSM, LTE FDD, or GL mode. l

Issue 07 (2016-04-29)

Table 6-856 and Table 6-857 provide the typical power configuration for the MRFUd V6 (GSM, 1800 MHz). Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.

675



l

Table 6-858 and Table 6-859 provide the typical power configuration for the MRFUdw V6 (GSM, 1800 MHz).

l

Table 6-860 and Table 6-861 provide the typical power configuration for the MRFUd V6/MRFUdw V6 (LTE FDD, 1800 MHz).

l

Table 6-862 and Table 6-863 provide the typical power configuration for the MRFUd V6/MRFUdw V6 (GL MSR, 1800 MHz). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the MRFUd V6/MRFUdw V6 working in GSM mode: when the S1 or S2 configuration is applied, the maximum output power of each carrier on the MRFUd is 80 W. If the output power of 60 W or 80 W is required, the related license must be obtained.

Table 6-856 Output power for the MRFUd V6 (GSM, 1800 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

80

80

2

80

80

3

40

40

4

40

40

5

27

30

6

27

30

7

20

27

8

20

27


676



Table 6-857 Configuration of MRFUd V6 PAs (GSM, 1800 MHz) Configur ation Scenario (Total Number of Carriers)

PA2







GSM 1

1

80

80

0

0

0

GSM 2

1

80

80

1

80

80

GSM 3

2

40

40

1

40

40

GSM 4

2

40

40

2

40

40

GSM 5

3

27

30

2

27

30

GSM 6

3

27

30

3

27

30

GSM 7

4

20

27

3

20

27

GSM 8

4

20

27

4

20

27

PA1

Table 6-858 Output power for the MRFUdw V6 (GSM, 1800 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

60

60

2

60

60

3

30

30

4

30

30

5

20

25

6

20

25

7

15

20

8

15

20


677



Table 6-859 Configuration of MRFUdw V6 PAs (GSM, 1800 MHz) Configur ation Scenario (Total Number of Carriers)

PA2







GSM 1

1

60

60

0

0

0

GSM 2

1

60

60

1

60

60

GSM 3

2

30

30

1

30

30

GSM 4

2

30

30

2

30

30

GSM 5

3

20

25

2

20

25

GSM 6

3

20

25

3

20

25

GSM 7

4

15

20

3

15

20

GSM 8

4

15

20

4

15

20

PA1

Table 6-860 Output power for the MRFUd V6/MRFUdw V6 (LTE FDD, 1800 MHz)

Issue 07 (2016-04-29)

Mode




LTE FDD

1 (MIMO)

2x80

5, 10, 15, 20

1 (MIMO)

2x40

1.4, 3

2 (MIMO)

2x40

1.4, 3, 5, 10, 15, 20


678



Table 6-861 Configuration of MRFUd V6/MRFUdw V6 PAs (LTE FDD, 1800 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

80

1

80

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

40

2

40

Table 6-862 Output power for the MRFUd V6/MRFUdw V6 (GL MSR, 1800 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

40

2x40

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

30

2x50

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

40

2x40

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

30

2x50

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

30

2x20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

25

2x30

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

25

2x30

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

30

2x20

1.4, 3, 5, 10, 15, 20


679



Mode






5

1 (MIMO)

16

2x30

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

16

2x30

1.4, 3, 5, 10, 15, 20

Table 6-863 Configuration of MRFUd V6/MRFUdw V6 PAs (GL MSR, 1800 MHz) Config uratio n Scenar io (Total Numb er of Carrier s)

Issue 07 (2016-04-29)

PA2










1

40

1

40

0

0

1

40


1

30

1

50

0

0

1

50


1

40

1

40

1

40

1

40


680



Issue 07 (2016-04-29)


PA2










1

30

1

50

1

30

1

50


2

30

1

20

1

30

1

20


2

25

1

30

1

25

1

30


2

20

1

40

1

20

1

40


2

20

1

40

2

20

1

40


2

25

1

30

2

25

1

30


2

30

1

20

2

30

1

20


681




PA2










3

16

1

30

2

16

1

30


3

20

1

20

2

20

1

20


3

20

1

20

3

20

1

20


3

16

1

30

3

16

1

30

Typical Power Configuration for MRFUe An MRFU V1 is a 1TX RF module that can work in GSM, UMTS, LTE (FDD), GU, or GL mode. l

Table 6-864 provides the typical power configuration for the MRFUe (GSM, 900 MHz/ 1800 MHz).

l

Table 6-865 provides the typical power configuration for the MRFUe (UMTS, 900 MHz).

l

Table 6-866 provides the typical power configuration for the MRFUe (LTE FDD, 900 MHz/1800 MHz).

l

Table 6-867 provides the typical power configuration for the MRFUe (GU MSR, 900 MHz).

l

Table 6-868 provides the typical power configuration for the MRFUe (GL MSR, 900 MHz/1800 MHz) .

Issue 07 (2016-04-29)


682



NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the MRFUe working in GSM mode: when the S1 configuration is applied, the maximum output power of each carrier on the MRFUe is 125 W; when the S2 configuration is applied, the maximum output power of each carrier on the MRFUe is 60 W. If the output power of 60 W, 80 W, or 125 W is required, the related license must be obtained.

Table 6-864 Output power for the MRFUe (GSM, 900 MHz/1800 MHz) Mode




GSM

1

80 (SRAN6.0)

80

1

125 (SRAN7.0, 900 MHz)

125

2

60

60

3

40

50

4

30

40

5

25

30

6

20

30

7

15

20

8

10

16

Table 6-865 Output power for the MRFUe (UMTS, 900 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

80

2

60


683



Mode



3

40

4

30

Table 6-866 Output power for the MRFUe (LTE FDD, 900 MHz/1800 MHz) Mode




LTE FDD

1

60

5, 10, 15, 20

1

40

1.4, 3, 5, 10, 15, 20

2

60

5, 10, 15, 20

2

40

1.4, 3, 5, 10, 15, 20

NOTE

(a) indicates that the configuration is supported from SRAN8.0.

Table 6-867 Output power for the MRFUe (GU MSR, 900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

2

1

40

40

3

1

25

30

4

1

24

20

4

1

20

30

5

1

18

20

5

1

16

30

6

1

13

20

6(a)

1(a)

15(a)

20(a)

7

1

10

20

1

2

40

40

2

2

20

30

3

2

20

20


684



Mode





3

2

15

30

4

2

18

20

5

2

12

20

5(a)

2(a)

15(a)

20(a)

NOTE

In SRAN6.0, when an MRFUe works in GL mode and is configured with two LTE FDD carriers, each carrier can use 1.4 MHz, 3 MHz, 5 MHz, or 10 MHz bandwidth. In SRAN7.0, when an MRFUe works in GL mode and is configured with two LTE FDD carriers, only one carrier can use 15 MHz or larger bandwidth.

Table 6-868 Output power for the MRFUe (GL MSR, 900 MHz/1800 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1

60

60

5, 10, 15, 20

1

1

60

40

1.4, 3, 5, 10, 15, 20

2

1

40

40

1.4, 3, 5, 10, 15, 20

3

1

25

30

1.4, 3, 5, 10, 15, 20

3

1

20

40

1.4, 3, 5, 10, 15, 20

4

1

24

20

1.4, 3, 5, 10, 15, 20

4

1

20

30

1.4, 3, 5, 10, 15, 20

5

1

20

20

1.4, 3, 5, 10, 15, 20

5

1

16

30

1.4, 3, 5, 10, 15, 20

6

1

13

20

1.4, 3, 5, 10, 15, 20


685



Mode






7

1

10

20

1.4, 3, 5, 10, 15, 20

3

2

20

20

1.4, 3, 5, 10, 15, 20

4

2

18

20

1.4, 3, 5, 10, 15, 20

5

2

12

20

1.4, 3, 5, 10, 15, 20

6.7.3 Typical Power Configurations for RRUs This chapter describes the typical power configurations for RRUs.

Typical Power Configuration for RRU3004 An RRU3004 is a 2TX RF module that can work in GSM mode. l

Table 6-869 and Table 6-870 provide the typical power configuration for the RRU3004 (GSM (GBTS), 900 MHz).

l

Table 6-871 and Table 6-872 provide the typical power configuration for the RRU3004 (GSM (GBTS), 1800 MHz). NOTE

Two RRU3004 modules are required when three or four carriers are configured.

Table 6-869 Output power for the RRU3004 (GSM (GBTS), 900 MHz)

Issue 07 (2016-04-29)

Mode



GSM

1

30 (GMSK)/20 (8PSK)

1 (PBT)

40 (GMSK)/26 (8PSK)

2

30 (GMSK)/20 (8PSK)

3

15 (GMSK)/10 (8PSK)

4

15 (GMSK)/10 (8PSK)


686



Table 6-870 Configuration of RRU3004 PAs (GSM (GBTS), 900 MHz) Configur ation Scenario (Total Number of Carriers)

PA2





GSM 1

1

30 (GMSK)

0

0

GSM 1

1 (PBT)

40 (GMSK)

0

0

GSM 2

1

30 (GMSK)

1

30 (GMSK)

GSM 3

2

15 (GMSK)

1

15 (GMSK)

GSM 4

2

15 (GMSK)

2

15 (GMSK)

Table 6-871 Output power for the RRU3004 (GSM (GBTS), 1800 MHz) Mode



GSM

1

20 (GMSK)/13 (8PSK)

1 (PBT)

30 (GMSK)/20 (8PSK)

2

20 (GMSK)/13 (8PSK)

3

10 (GMSK)/6.6 (8PSK)

4

10 (GMSK)/6.6 (8PSK)

Table 6-872 Configuration of RRU3004 PAs (GSM (GBTS), 1800 MHz) Configur ation Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA2





GSM 1

1

20 (GMSK)

0

0

GSM 1

1 (PBT)

30 (GMSK)

0

0

GSM 2

1

20 (GMSK)

1

20 (GMSK)

GSM 3

2

10 (GMSK)

1

10 (GMSK)

GSM 4

2

10 (GMSK)

2

10 (GMSK)


687



Typical Power Configuration for RRU3008 V1 An RRU3008 V1 is a 2TX RF module that can work in GSM mode. l

Table 6-873 and Table 6-874 provide the typical power configuration for the RRU3008 V1 (GSM (GBTS), 900 MHz/850 MHz/1800 MHz/1900 MHz).

l

Table 6-875 and Table 6-876 provide the typical power configuration for the RRU3008 V1 (GSM (eGBTS), 900 MHz/850 MHz/1800 MHz/1900 MHz).

Table 6-873 Output power for the RRU3008 V1 (GSM (GBTS), 900 MHz/850 MHz/1800 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

40 (GMSK)/26 (8PSK)

40 (GMSK)/26 (8PSK)

2

40 (GMSK)/26 (8PSK)

40 (GMSK)/26 (8PSK)

3

20 (GMSK)/13 (8PSK)

20 (GMSK)/13 (8PSK)

4

15 (GMSK)/10 (8PSK)

20 (GMSK)/13 (8PSK)

5

12 (GMSK)/8 (8PSK)

12 (GMSK)/8 (8PSK)

6

10 (GMSK)/6.6 (8PSK)

12 (GMSK)/8 (8PSK)

7

7 (GMSK)/4.6 (8PSK)

8 (GMSK)/5.3 (8PSK)

8

5.5 (GMSK)/3.6 (8PSK)

7 (GMSK)/4.6 (8PSK)


688



Table 6-874 Configuration of RRU3008 V1 PAs (GSM (GBTS), 900 MHz/850 MHz/1800 MHz/1900 MHz) Confi gurati on Scena rio (Total Numb er of Carrie rs)

PA2







GSM 1

1

40 (GMSK)

40 (GMSK)

0

0

0

GSM 2

1

40 (GMSK)

40 (GMSK)

1

40 (GMSK)

40 (GMSK)

GSM 3

2

20 (GMSK)

20 (GMSK)

1

20 (GMSK)

20 (GMSK)

GSM 4

2

15 (GMSK)

20 (GMSK)

2

15 (GMSK)

20 (GMSK)

GSM 5

3

12 (GMSK)

12 (GMSK)

2

12 (GMSK)

12 (GMSK)

GSM 6

3

10 (GMSK)

12 (GMSK)

3

10 (GMSK)

12 (GMSK)

GSM 7

4

7 (GMSK)

8 (GMSK)

3

7 (GMSK)

8 (GMSK)

GSM 8

4

5.5 (GMSK)

7 (GMSK)

4

5.5 (GMSK)

7 (GMSK)

Table 6-875 Output power for the RRU3008 V1 (GSM (eGBTS), 900 MHz/850 MHz/1800 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

46.0 (GMSK)/44.1 (8PSK)

46.0 (GMSK)/44.1 (8PSK)

2

46.0 (GMSK)/44.1 (8PSK)

46.0 (GMSK)/44.1 (8PSK)

3

43.0 (GMSK)/41.1 (8PSK)

43.0 (GMSK)/41.1 (8PSK)


689



Mode




4

41.8 (GMSK)/40.0 (8PSK)

43.0 (GMSK)/41.1 (8PSK)

5

40.8 (GMSK)/39.0 (8PSK)

40.8 (GMSK)/39.0 (8PSK)

6

40.0 (GMSK)/38.2 (8PSK)

40.8 (GMSK)/39.0 (8PSK)

7

38.5 (GMSK)/36.6 (8PSK)

39.0 (GMSK)/37.2 (8PSK)

8

37.4 (GMSK)/35.6 (8PSK)

38.5 (GMSK)/36.6 (8PSK)

Table 6-876 Configuration of RRU3008 V1 PAs (GSM (eGBTS), 900 MHz/850 MHz/1800 MHz/1900 MHz) Confi gurati on Scena rio (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2







GSM 1

1

46.0 (GMSK)

46.0 (GMSK)

0

0

0

GSM 2

1

46.0 (GMSK)

46.0 (GMSK)

1

46.0 (GMSK)

46.0 (GMSK)

GSM 3

2

43.0 (GMSK)

43.0 (GMSK)

1

43.0 (GMSK)

43.0 (GMSK)

GSM 4

2

41.8 (GMSK)

43.0 (GMSK)

2

41.8 (GMSK)

43.0 (GMSK)

GSM 5

3

40.8 (GMSK)

40.8 (GMSK)

2

40.8 (GMSK)

40.8 (GMSK)

GSM 6

3

40.0 (GMSK)

40.8 (GMSK)

3

40.0 (GMSK)

40.8 (GMSK)


690



Confi gurati on Scena rio (Total Numb er of Carrie rs)

PA2







GSM 7

4

38.5 (GMSK)

39.0 (GMSK)

3

38.5 (GMSK)

39.0 (GMSK)

GSM 8

4

37.4 (GMSK)

38.5 (GMSK)

4

37.4 (GMSK)

38.5 (GMSK)

Typical Power Configuration for RRU3008 V2 An RRU3008 V2 is a 2TX RF module that can work in GSM mode. l

Table 6-877 and Table 6-878 provide the typical power configuration for the RRU3008 V2 (GSM (GBTS), 900 MHz).

l

Table 6-879 and Table 6-880 provide the typical power configuration for the RRU3008 V2 (GSM (eGBTS), 900 MHz). NOTE

l

After design optimization, the 8 phase shift keying (8PSK) and Gaussian minimum shift-frequency keying (GMSK) modulation schemes enable the same output power for each carrier on the RRU3008 V2 when any of the S1 through S6 configurations is used.

l

When the S7 or S8 configurations is used, the license controlling the GBFD-118104 Enhanced EDGE Coverage feature must be obtained. Otherwise, the 8PSK and GMSK modulation schemes cannot enable the same output power for each carrier on the RRU3008 V2.

l

RF standard: EN 301 502 V9.2.1.

Table 6-877 Output power for the RRU3008 V2 (GSM (GBTS), 900 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

40 (GMSK)/40 (8PSK)

40 (GMSK)/40 (8PSK)

2

40 (GMSK)/40 (8PSK)

40 (GMSK)/40 (8PSK)

3

20 (GMSK)/20 (8PSK)

20 (GMSK)/20 (8PSK)


691



Mode




4

20 (GMSK)/20 (8PSK)

20 (GMSK)/20 (8PSK)

5

13 (GMSK)/13 (8PSK)

15 (GMSK)/15 (8PSK)

6

13 (GMSK)/13 (8PSK)

15 (GMSK)/15 (8PSK)

7

10 (GMSK)/10 (8PSK)

13 (GMSK)/13 (8PSK)

8

10 (GMSK)/10 (8PSK)

13 (GMSK)/13 (8PSK)

Table 6-878 Configuration of RRU3008 V2 PAs (GSM (GBTS), 900 MHz) Confi gurati on Scena rio (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2







GSM 1

1

40 (GMSK)

40 (GMSK)

0

0

0

GSM 2

1

40 (GMSK)

40 (GMSK)

1

40 (GMSK)

40 (GMSK)

GSM 3

2

20 (GMSK)

20 (GMSK)

1

20 (GMSK)

20 (GMSK)

GSM 4

2

20 (GMSK)

20 (GMSK)

2

20 (GMSK)

20 (GMSK)

GSM 5

3

13 (GMSK)

15 (GMSK)

2

13 (GMSK)

15 (GMSK)

GSM 6

3

13 (GMSK)

15 (GMSK)

3

13 (GMSK)

15 (GMSK)

GSM 7

4

10 (GMSK)

13 (GMSK)

3

10 (GMSK)

13 (GMSK)


692


Confi gurati on Scena rio (Total Numb er of Carrie rs) GSM 8


PA2







4

10 (GMSK)

13 (GMSK)

4

10 (GMSK)

13 (GMSK)

Table 6-879 Output power for the RRU3008 V2 (GSM (eGBTS), 900 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

46.0 (GMSK)/46.0 (8PSK)

46.0 (GMSK)/46.0 (8PSK)

2

46.0 (GMSK)/46.0 (8PSK)

46.0 (GMSK)/46.0 (8PSK)

3

43.0 (GMSK)/43.0 (8PSK)

43.0 (GMSK)/43.0 (8PSK)

4

43.0 (GMSK)/43.0 (8PSK)

43.0 (GMSK)/43.0 (8PSK)

5

41.1 (GMSK)/41.1 (8PSK)

41.8 (GMSK)/41.8 (8PSK)

6

41.1 (GMSK)/41.1 (8PSK)

41.8 (GMSK)/41.8 (8PSK)

7

40.0 (GMSK)/40.0 (8PSK)

41.1 (GMSK)/41.1 (8PSK)

8

40.0 (GMSK)/40.0 (8PSK)

41.1 (GMSK)/41.1 (8PSK)


693



Table 6-880 Configuration of RRU3008 V2 PAs (GSM (eGBTS), 900 MHz) Confi gurati on Scena rio (Total Numb er of Carrie rs)

PA2







GSM 1

1

46.0 (GMSK)

46.0 (GMSK)

0

0

0

GSM 2

1

46.0 (GMSK)

46.0 (GMSK)

1

46.0 (GMSK)

46.0 (GMSK)

GSM 3

2

43.0 (GMSK)

43.0 (GMSK)

1

43.0 (GMSK)

43.0 (GMSK)

GSM 4

2

43.0 (GMSK)

43.0 (GMSK)

2

43.0 (GMSK)

43.0 (GMSK)

GSM 5

3

41.1 (GMSK)

41.8 (GMSK)

2

41.1 (GMSK)

41.8 (GMSK)

GSM 6

3

41.1 (GMSK)

41.8 (GMSK)

3

41.1 (GMSK)

41.8 (GMSK)

GSM 7

4

40.0 (GMSK)

41.1 (GMSK)

3

40.0 (GMSK)

41.1 (GMSK)

GSM 8

4

40.0 (GMSK)

41.1 (GMSK)

4

40.0 (GMSK)

41.1 (GMSK)

Typical Power Configuration for RRU3801C An RRU3801C is a 1TX RF module that can work in UMTS mode. Table 6-881 provide the typical power configuration for the RRU3801C (UMTS, 850 MHz/900 MHz/1800 MHz/AWS/1900 MHz/2100 MHz). Table 6-881 Output power for the RRU3801C (UMTS, 850 MHz/900 MHz/1800 MHz/AWS/ 1900 MHz/2100 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

40

2

20


694



Typical Power Configuration for RRU3801E An RRU3801E is a 1TX RF module that can work in UMTS mode. Table 6-882 provide the typical power configuration for the RRU3801E (UMTS, 850 MHz/ 1900 MHz/2100 MHz). Table 6-882 Output power for the RRU3801E (UMTS, 850 MHz/1900 MHz/2100 MHz) Mode



UMTS

1

40

2

20

Typical Power Configuration for RRU3804 An RRU3804 is a 1TX RF module that can work in UMTS mode. l

Table 6-883 provide the typical power configuration for the RRU3804 (UMTS, 850 MHz/AWS/1900 MHz/2100 MHz).

Table 6-883 Output power for the RRU3804 (UMTS, 850 MHz/AWS/1900 MHz/2100 MHz) Mode



UMTS

1

60

2

30

3

20

4

15


Table 6-884 and Table 6-885 provide the typical power configuration for the RRU3805 (UMTS, 850 MHz/1900 MHz).

l

Table 6-886 and Table 6-887 provide the typical power configuration for the RRU3805 (UMTS, 1800 MHz).

Issue 07 (2016-04-29)


695



Table 6-884 Output power for the RRU3805 (UMTS, 850 MHz/1900 MHz) Mode



UMTS

1


2


1 (MIMO)

2 x 30

2 (MIMO)

2 x 15

Table 6-885 Configuration of RRU3805 PAs (UMTS, 850 MHz/1900 MHz) PA1

PA2






UMTS 1

1

40

0

0

UMTS 2

1

30

1

30

UMTS 1 (MIMO)

1

30

1

30

UMTS 2 (MIMO)

2

15

2

15

Table 6-886 Output power for the RRU3805 (UMTS, 1800 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1


2


2


3


3

Configured in two PAs: 30 + 60

1 (MIMO)

2 x 60

2 (MIMO)

2 x 30

3 (MIMO)

2 x 20


696



Table 6-887 Configuration of RRU3805 PAs (UMTS, 1800 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





UMTS 1

1

60

0

0

UMTS 2

2

30

0

0

UMTS 2

1

60

1

60

UMTS 3

3

20

0

0

UMTS 3

2

30

1

60

UMTS 1 (MIMO)

1

60

1

60

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

Typical Power Configuration for RRU3806 An RRU3806 is a 1TX RF module that can work in UMTS mode. Table 6-888 provide the typical power configuration for the RRU3806 (UMTS, 2100 MHz). Table 6-888 Output power for the RRU3806 (UMTS, 2100 MHz) Mode



UMTS

1

80

2

40

3

26

4

20

Typical Power Configuration for RRU3808 An RRU3808 is a 2TX RF module that can work in UMTS, LTE FDD mode. l

Issue 07 (2016-04-29)

Table 6-889 and Table 6-890 provide the typical power configuration for the RRU3808 (UMTS, AWS/2100 MHz). Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.

697



l

Table 6-891 and Table 6-892 provide the typical power configuration for the RRU3808 (LTE FDD, AWS).

l

Table 6-893 and Table 6-894 provide the typical power configuration for the RRU3808 (UL, AWS).

Table 6-889 Output power for the RRU3808 (UMTS, AWS/2100 MHz) Mode



UMTS

1


2


2


3


4


4


1 (MIMO)

2 x 40

2 (MIMO)

2 x 20

3 (MIMO)

2 x 13

4 (MIMO)

2 x 10

Table 6-890 Configuration of RRU3808 PAs (UMTS, AWS/2100 MHz)

Issue 07 (2016-04-29)






UMTS 1

1

40

0

0

UMTS 2

2

20

0

0

UMTS 2

1

40

1

40

UMTS 3

3

13

0

0

UMTS 4

4

10

0

0

UMTS 4

2

20

2

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

20

2

20

PA1

PA2


698




PA1

PA2





UMTS 3 (MIMO)

3

13

3

13

UMTS 4 (MIMO)

4

10

4

10

Table 6-891 Output power for the RRU3808 (LTE FDD, AWS) Mode




LTE FDD

1 (MIMO)

2 x 40

5, 10, 15, 20

2 (MIMO)

l Carrier1: 2 x 13

l Carrier1: 5

l Carrier2: 2 x 27

l Carrier2: 10

2 x 20

5

2 (MIMO)

Table 6-892 Configuration of RRU3808 PAs (LTE FDD, AWS) Configuration Scenario (Total Number of Carriers)





LTE FDD 1

1

40

1

40

LTE FDD 2

2

l Carrier1: 13

2

l Carrier1: 13

PA1

PA2

l Carrier2: 27 LTE FDD 2

Issue 07 (2016-04-29)

2

20

l Carrier2: 27 2


20

699



Table 6-893 Output power for the RRU3808 (UL, AWS) Mode






UMTS + LTE FDD

1 (MIMO)

1 (MIMO)

2 x 20

2 x 20

5, 10, 15, 20

1

1 (MIMO)

20

2 x 20

5, 10, 15, 20

2

1 (MIMO)


2 x 20

5, 10, 15, 20

3

1 (MIMO)


2 x 20

5, 10

4

1 (MIMO)


2 x 20

5, 10

Table 6-894 Configuration of RRU3808 PAs (UL, AWS) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2

Nu mbe r of UM TS Carr iers


Nu mbe r of LTE FDD Carr iers

Outp ut Powe r per LTE FDD Carri er (W)



Num ber of LTE FDD Carri ers


UMTS 1 (MIMO) + LTE FDD 1 (MIMO)

1

20

1

20

1

20

1

20

UMTS 1 + LTE FDD 1 (MIMO)

1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

10

1

20

1

10

1

20


2

10

1

20

2

10

1

20


700



Typical Power Configuration for RRU3821E An RRU3821E is a 2TX RF module that can work in LTE FDD mode. l

Table 6-895 and Table 6-896 provide the typical power configuration for the RRU3821E (LTE FDD, 1800 MHz, 2 x 0.25 W).

l

Table 6-897 and Table 6-898 provide the typical power configuration for the RRU3821E (LTE FDD, 1800 MHz, 2 x 1 W).

l

Table 6-899 and Table 6-900 provide the typical power configuration for the RRU3821E (LTE FDD, 1800 MHz, 2 x 5 W) . NOTE

The output power per carrier in the output power table provides the maximum output power possible while ensuring the network performance.

Table 6-895 Output power for the RRU3821E (LTE FDD, 1800 MHz, 2 x 0.25 W) Mode




LTE FDD

1

0.25

5, 10, 15, 20

1 (MIMO)

2 x 0.25

5, 10, 15, 20

Table 6-896 Configuration of RRU3821E PAs (LTE FDD, 1800 MHz, 2 x 0.25 W) Configuration Scenario (Total Number of Carriers)





LTE FDD 1

1

0.25

0

0

LTE FDD 1 (MIMO)

1

0.25

1

0.25

PA1

PA2

Table 6-897 Output power for the RRU3821E (LTE FDD, 1800 MHz, 2 x 1 W)

Issue 07 (2016-04-29)

Mode




LTE FDD

1

1

5, 10, 15, 20

1 (MIMO)

2x1

5, 10, 15, 20


701



Table 6-898 Configuration of RRU3821E PAs (LTE FDD, 1800 MHz, 2 x 1 W) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1

1

1

0

0

LTE FDD 1 (MIMO)

1

1

1

1

Table 6-899 Output power for the RRU3821E (LTE FDD, 1800 MHz, 2 x 5 W) Mode




LTE FDD

1

5

5, 10, 15, 20

1 (MIMO)

2x5

5, 10, 15, 20

Table 6-900 Configuration of RRU3821E PAs (LTE FDD, 1800 MHz, 2 x 5 W) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1

1

5

0

0

LTE FDD 1 (MIMO)

1

5

1

5


Table 6-901 provide the typical power configuration for the RRU3824 (UMTS, 2100 MHz).


Issue 07 (2016-04-29)

Mode



UMTS

1

60


702



Mode



2

30

3

20

4

15


Table 6-902 provide the typical power configuration for the RRU3826 (UMTS, 2100 MHz).

Table 6-902 Output power for the RRU3826 (UMTS, 2100 MHz) Mode



UMTS

1

80

2

40

3

26

4

20


Table 6-903 and Table 6-904provide the typical power configuration for the RRU3828 (UMTS, 2100 MHz).


Issue 07 (2016-04-29)

Mode



UMTS

1


2


2


3



703



Mode



4


4


6


1 (MIMO)

2 x 40

2 (MIMO)

2 x 20

3 (MIMO)

2 x 13

4 (MIMO)

2 x 10

Table 6-904 Configuration of RRU3828 PAs (UMTS, 2100 MHz)

Issue 07 (2016-04-29)

PA1

PA2






UMTS 1

1

40

0

0

UMTS 2

2

20

0

0

UMTS 2

1

40

1

40

UMTS 3

3

13

0

0

UMTS 4

4

10

0

0

UMTS 4

2

20

2

20

UMTS 6

3

13

3

13

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

20

2

20

UMTS 3 (MIMO)

3

13

3

13

UMTS 4 (MIMO)

4

10

4

10


704








UMTS

1


2


2


3


4


4


6


1 (MIMO)

2 x 40

2 (MIMO)

2 x 30

3 (MIMO)

2 x 20

4 (MIMO)

2 x 15


Issue 07 (2016-04-29)






UMTS 1

1

60

0

0

UMTS 2

2

30

0

0

UMTS 2

1

60

1

60

UMTS 3

3

20

0

0

UMTS 4

4

15

0

0

UMTS 4

2

30

2

30

UMTS 6

3

20

3

20

PA1

PA2


705




PA1

PA2





UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

Typical Power Configuration for RRU3832 An RRU3832 is a 2TX RF module that can work in UMTS, LTE FDD, UL mode. l

Table 6-907 and Table 6-908 provide the typical power configuration for the RRU3832 (UMTS, AWS-3/AWS/2100 MHz).

l

Table 6-909 and Table 6-910 provide the typical power configuration for the RRU3832 (LTE FDD, AWS-3/AWS).

l

Table 6-911 and Table 6-912 provide the typical power configuration for the RRU3832 (UL, AWS-3/AWS). NOTE

l The RRU3832 working in UMTS mode supports configurations of single-output, MIMO, or the combination of the two, and uneven power configurations. In hybrid configuration scenarios, one RRU3832 supports a maximum of six carriers. Each transmit channel supports a maximum of four carriers and the maximum output power of each transmit channel is 60 W. l The RRU3832 supports 2 x 15 Mhz cells and 2 x 20 MHz cells only when the RRU is connected to the baseband board using two fiber optic cables.

Table 6-907 Output power for the RRU3832 (UMTS, AWS-3/AWS/2100 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

60

2

60

3

30

4

30

5

20


706



Mode



6

20

1 (MIMO)

2 x 40

2 (MIMO)

2 x 30

3 (MIMO)

2 x 20

4 (MIMO)

2 x 15

5 + 1 (MIMO)


4 + 2 (MIMO)

l MIMO carrier: 2x15 l Non-MIMO carrier: 15

2 + 3 (MIMO)


Table 6-908 Configuration of RRU3832 PAs (UMTS, AWS-3/AWS/2100 MHz)

Issue 07 (2016-04-29)





Output Power UMTS per Carrier (W)

UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

30

UMTS 4

2

15

2

30

UMTS 5

3

20

2

20

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

PA1

PA2


707




PA1

PA2




Output Power UMTS per Carrier (W)

UMTS 5 + 1 (MIMO)

4

15

3

15

UMTS 4 + 2 (MIMO)

4

15

4

15

UMTS 2 + 3 (MIMO)

4

15

4

15

NOTE (1):

indicates that only the RRU3832 operating at AWS-3 supports this configuration.

Table 6-909 Output power for the RRU3832 (LTE FDD, AWS-3/AWS) Mode




LTE FDD

1 (MIMO)

2 x 20

5

1 (MIMO)

2 x 40

10

1 (MIMO)

2 x 60

5, 10, 15, 20

2 (MIMO)

2 x 20

5

2 (MIMO)

2 x 30

5, 10

2 (MIMO)

l Carrier1: 2 x 20

l Carrier1: 5

l Carrier2: 2 x 40

l Carrier2: 10

l Carrier1: 2 x 15

l Carrier1: 5

l Carrier2: 2 x 45

l Carrier2: 15

l Carrier1: 2x12(1)

l Carrier1: 5(1)

l Carrier2: 2x48

l Carrier2: 20

l Carrier1: 2x24(1)

l Carrier1: 10(1)

l Carrier2: 2x36

l Carrier2: 15

l Carrier1: 2x15(1)

l Carrier1: 5(1)

l Carrier2: 2x15

l Carrier2: 5

l Carrier3: 2x30

l Carrier3: 10

2 (MIMO)

2 (MIMO)(1)

2 (MIMO)(1)

3 (MIMO)(1)

Issue 07 (2016-04-29)


708



Mode




3 (MIMO)(1)

l Carrier1: 2x10(1)

l Carrier1: 5(1)

l Carrier2: 2x20

l Carrier2: 10

l Carrier3: 2x20

l Carrier3: 10

Table 6-910 Configuration of RRU3832 PAs (LTE FDD, AWS-3/AWS) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

20

1

20

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

20

2

20

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l Carrier 1: 20

2

l Carrier1: 20

l Carrier 2: 40 LTE FDD 2 (MIMO)

2

l Carrier 1: 15

l Carrier2: 40 2

l Carrier 2: 45 LTE FDD 2 (MIMO)(1)

2(1)

l Carrier 1: 12(1)

l Carrier2: 45 2(1)

l Carrier 2: 48 LTE FDD 2 (MIMO)(1)

2(1)

l Carrier 1: 24(1) l Carrier 2: 36

Issue 07 (2016-04-29)


l Carrier1: 15

l Carrier1: 12(1) l Carrier2: 48

2(1)

l Carrier1: 24(1) l Carrier2: 36

709




LTE FDD 3 (MIMO)(1)

LTE FDD 3 (MIMO)(1)

PA1

PA2





3(1)

l Carrier 1: 15(1)

3(1)

l Carrier1: 15(1)

l Carrier 2: 15

l Carrier2: 15

l Carrier 3: 30

l Carrier3: 30

l Carrier 1: 10(1)

3(1)

3(1)

l Carrier1: 10(1)

l Carrier 2: 20

l Carrier2: 20

l Carrier 3: 30

l Carrier3: 30

Table 6-911 Output power for the RRU3832 (UL, AWS-3/AWS)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1 (MIMO)

1 (MIMO)

2 x 20

2 x 40

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2 x 30

2 x 30

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2 x 40

2 x 20

5, 10, 15, 20

1

1 (MIMO)

20

2 x 40

5, 10, 15, 20

1

1 (MIMO)

30

2 x 30

5, 10, 15, 20

1

1 (MIMO)

40

2 x 20

5, 10, 15, 20

2

1 (MIMO)

20

2 x 40

5, 10, 15, 20

2

1 (MIMO)

30

2 x 30

5, 10, 15, 20

2

1 (MIMO)

40

2 x 20

5, 10, 15, 20

3

1 (MIMO)

20

2 x 20

5, 10, 15, 20

4

1 (MIMO)

20

2 x 20

5, 10, 15, 20


710


Mode







1+1 (MIMO)

1 (MIMO)

20

2 x 20

5, 10, 15, 20

Table 6-912 Configuration of RRU3832 PAs (UL, AWS-3/AWS) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

20

1

40

1

20

1

40


1

30

1

30

1

30

1

30


1

40

1

20

1

40

1

20


1

20

1

40

0

0

1

40


1

30

1

30

0

0

1

30


2

40

1

20

0

0

1

20


1

20

1

40

1

20

1

40


1

30

1

30

1

30

1

30


2

40

1

20

2

40

1

20


711




PA1

PA2










2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20

UMTS 1 (MIMO) + UMTS 1 + LTE FDD 1 (MIMO)

2

20

1

20

1

20

1

20

Typical Power Configuration for RRU3838 An RRU3838 is a 2TX RF module that can work in UMTS mode. Table 6-913 and Table 6-914 provide the typical power configuration for the RRU3838 (UMTS, 2100 MHz). Table 6-913 Output power for the RRU3838 (UMTS, 2100 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1


2


2


3


4


4


6


1 (MIMO)

2 x 40

2 (MIMO)

2 x 20

3 (MIMO)

2 x 13

4 (MIMO)

2 x 10


712




PA1

PA2





UMTS 1

1

40

0

0

UMTS 2

2

20

0

0

UMTS 2

1

40

1

40

UMTS 3

3

13

0

0

UMTS 4

4

10

0

0

UMTS 4

2

20

2

20

UMTS 6

3

13

3

13

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

20

2

20

UMTS 3 (MIMO)

3

13

3

13

UMTS 4 (MIMO)

4

10

4

10

Typical Power Configuration for RRU3839 An RRU3839 is a 2TX RF module that can work in UMTS mode. Table 6-915 and Table 6-916 provide the typical power configuration for the RRU3839 (UMTS, 2100 MHz). Table 6-915 Output power for the RRU3839 (UMTS, 2100 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1


2


2


3


4



713



Mode



4


6


1 (MIMO)

2 x 40

2 (MIMO)

2 x 30

3 (MIMO)

2 x 20

4 (MIMO)

2 x 15

Table 6-916 Configuration of RRU3839 PAs (UMTS, 2100 MHz) PA1

PA2






UMTS 1

1

60

0

0

UMTS 2

2

30

0

0

UMTS 2

1

60

1

60

UMTS 3

3

20

0

0

UMTS 4

4

15

0

0

UMTS 4

2

30

2

30

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

Typical Power Configuration for RRU3841 An RRU3841 is a 2TX RF module that can work in LTE FDD mode. l

Issue 07 (2016-04-29)

Table 6-917 and Table 6-918 provide the typical power configuration for the RRU3841 (LTE FDD, AWS, 4x30 W). Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.

714


l


Table 6-919 and Table 6-920 provide the typical power configuration for the RRU3841(LTE FDD, AWS, 2x60 W).

Table 6-917 Output power for the RRU3841 (LTE FDD, AWS, 4x30 W) Working mode




LTE FDD

1 (MIMO)

4 x 30

1.4, 3, 5, 10, 15, 20

2 (MIMO)

4 x 15

5, 10, 15, 20

2 (MIMO)

l carrier 1: 4 x 10

l carrier 1: 5, 10

l carrier 1: 4 x 20

l carrier 2: 10, 20

Table 6-918 Configuration of RRU3841 PAs (LTE FDD, AWS, 4x30 W) Configuration Scenario (Total Number of LTE Carriers)

PA1

PA3

PA4




Outp ut Power per LTE FDD Carrie r (W)





LTE FDD 1 (MIMO)

1

30

1

30

1

30

1

30

LTE FDD 2 (MIMO)

2

15

2

15

2

15

2

15

LTE FDD 2 (MIMO)

2

l ca rri er 1: 10

2

l carr ier 1: 10

2

l car rie r 1: 10

2

l car rie r 1: 10

l ca rri er 2: 20

Issue 07 (2016-04-29)

PA2

l carr ier 2: 20


l car rie r 2: 20

l car rie r 2: 20

715



Table 6-919 Output power for the RRU3841 (LTE FDD, AWS, 2x60 W) Working mode




LTE FDD

1 (MIMO)

2 x 60

1.4, 3, 5, 10, 15, 20

2 (MIMO)

2 x 30

5, 10, 15, 20

2 (MIMO)

l carrier 1: 2 x 20

l carrier 1: 5, 10

l carrier 2: 2 x 40

l carrier 2: 10, 20

Table 6-920 Configuration of RRU3841 PAs (LTE FDD, AWS, 2x60 W) Configuration Scenario (Total Number of LTE Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l carrier 1: 20

2


l carrier 2: 40

Typical Power Configuration for RRU3201 An RRU3201 is a 2TX RF module that can work in LTE FDD mode. Table 6-921 and Table 6-922 provide the typical power configuration for the RRU3201 (LTE FDD, 700 MHz). Table 6-923 and Table 6-924 provide the typical power configuration for the RRU3201 (LTE FDD, 2600 MHz). Table 6-921 Output power for the RRU3201 (LTE FDD, 700 MHz)

Issue 07 (2016-04-29)

Working mode




LTE FDD

1 (MIMO)

2 x 40

1.4, 3, 5, 10


716



Table 6-922 Configuration of RRU3201 PAs (LTE FDD, 700 MHz) Configuration Scenario (Total Number of Carriers) LTE FDD 1 (MIMO)

PA1

PA2





1

40

1

40

Table 6-923 Output power for the RRU3201 (LTE FDD, 2600 MHz) Working mode




LTE FDD

1 (MIMO)

2 x 40

5, 10, 15, 20

2 (MIMO)

2 x 20

10,15

2 (MIMO)

l carrier1: 2 x 13

l carrier1: 10

l carrier2: 2 x 27

l carrier2: 20

Table 6-924 Configuration of RRU3201 PAs (LTE FDD, 2600 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

LTE FDD 2 (MIMO)

2

l carrier1: 13

2

l carrier1: 13

l carrier2: 27

l carrier2: 27

Typical Power Configuration for RRU3203 An RRU3203 is a 2TX RF module that can work in LTE FDD mode. Table 6-925 and Table 6-926 provide the typical power configuration for the RRU3203 (LTE FDD, 700 MHz).

Issue 07 (2016-04-29)


717







LTE FDD

1 (MIMO)

2 x 40

1.4, 3, 5, 10, 15

2 (MIMO)

2 x 20

5


PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

Typical Power Configuration for RRU3220 An RRU3220 is a 2TX RF module that can work in LTE FDD mode. Table 6-927 and Table 6-928 provide the typical power configuration for the RRU3220 (LTE FDD, DD 800 MHz). Table 6-927 Output power for the RRU3220 (LTE FDD, DD 800 MHz)

Issue 07 (2016-04-29)

Working mode




LTE FDD

1 (MIMO)

2 x 40

1.4, 3, 5, 10, 15, 20

2 (MIMO)

2 x 20

10


718



Table 6-928 Configuration of RRU3220 PAs (LTE FDD, DD 800 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

Typical Power Configuration for RRU3220E An RRU3220E is a 2TX RF module that can work in LTE FDD mode. Table 6-929 and Table 6-930 provide the typical power configuration for the RRU3220E (LTE FDD, 1800 MHz). Table 6-929 Output power for the RRU3220E (LTE FDD, 1800 MHz) Working mode




LTE FDD

1 (MIMO)

2x5

5, 10, 15, 20

Table 6-930 Configuration of RRU3220E PAs (LTE FDD, 1800 MHz) Configuration Scenario (Total Number of Carriers) LTE FDD 1 (MIMO)

PA1

PA2





1

5

1

5

Typical Power Configuration for RRU3221 An RRU3221 is a 2TX RF module that can work in LTE FDD mode. Table 6-931 and Table 6-932 provide the typical power configuration for the RRU3221 (LTE FDD, 2600 MHz).

Issue 07 (2016-04-29)


719







LTE FDD

1 (MIMO)

2 x 40

5, 10, 15, 20

2 (MIMO)

2 x 20

5, 10, 15, 20


PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

Typical Power Configuration for RRU3222 An RRU3222 is a 2TX RF module that can work in LTE FDD mode. Table 6-933 and Table 6-934 provide the typical power configuration for the RRU3222 (LTE FDD, DD 800 MHz). Table 6-933 Output power for the RRU3222 (LTE FDD, DD 800 MHz)

Issue 07 (2016-04-29)

Working mode




LTE FDD

1 (MIMO)

2 x 40

1.4, 3, 5, 10, 15, 20

2 (MIMO)

2 x 20

10


720



Table 6-934 Configuration of RRU3222 PAs (LTE FDD, DD 800 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

Typical Power Configuration for RRU3229 An RRU3229 is a 2TX RF module that can work in LTE FDD mode. Table 6-935 and Table 6-936 provide the typical power configuration for the RRU3229 (LTE FDD , 2600 MHz) Table 6-935 Output power for the RRU3229 (LTE FDD , 2600 MHz) Working mode




LTE FDD

1 (MIMO)

2 x 60

10, 15, 20

2 (MIMO)

2 x 30

5, 10, 15, 20


PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

30

2

30

Typical Power Configuration for RRU3230E An RRU3230E is a 2TX RF module that can work in LTE FDD mode. Table 6-937 and Table 6-938 provide the typical power configuration for the RRU3230E (LTE FDD, 1800 MHz). Issue 07 (2016-04-29)


721



Table 6-937 Output power for the RRU3230E (LTE FDD, 1800 MHz) Working mode




LTE FDD

1 (MIMO)

2x5

5, 10, 15, 20

LTE FDD

2 (MIMO)

2 x 2.5

5, 10, 15, 20

Table 6-938 Configuration of RRU3230E PAs (LTE FDD, 1800 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

5

1

5

LTE FDD 2 (MIMO)

2

2.5

2

2.5

Typical Power Configuration for RRU3240 An RRU3240 is a 2TX RF module that can work in LTE FDD mode.. Table 6-939 and Table 6-940 provide the typical power configuration for the RRU3240 (LTE FDD, 2600 MHz). Table 6-939 Output power for the RRU3240 (LTE FDD, 2600 MHz)

Issue 07 (2016-04-29)

Working mode




LTE FDD

1 (MIMO)

2 x 40

5, 10, 15, 20

2 (MIMO)

2 x 20

5, 10, 15, 20


722




PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

Typical Power Configuration for RRU3249 An RRU3249 is a 2TX RF module that can work in LTE FDD mode. Table 6-941 and Table 6-942 provide the typical power configuration for the RRU3249 (LTE FDD, 700 MHz). Table 6-941 Output power for the RRU3249 (LTE FDD, 700 MHz) Working mode




LTE FDD

1 (MIMO)

2x40

5

1 (MIMO)

2x60

10, 15

2 (MIMO)

l carrier 1: 2x30

l carrier 1: 5

l carrier 2: 2x30

l carrier 2: 5

l carrier 1: 20

l carrier 1: 5

l carrier 2: 40

l carrier 2: 10

2 (MIMO)


Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40


723




PA1

PA2





LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l carrier1: 20

2

l carrier1: 20

l carrier2: 40

l carrier2: 40

Typical Power Configuration for RRU3260 An RRU3260 is a 2TX RF module that can work in LTE FDD mode. Table 6-943 and Table 6-944 provide the typical power configuration for the RRU3260 (LTE FDD, 2600 MHz). Table 6-943 Output power for the RRU3260 (LTE FDD, 2600 MHz) Working mode




LTE FDD

1 (MIMO)

2 x 40

5,10,15,20

2 (MIMO)

2 x 20

5,10,15,20

2 (MIMO)

l carrier 1: 2 x 13

l carrier 1: 5,10

l carrier 2: 2 x 27

l carrier 2: 10,20

l carrier 1: 2 x 10

l carrier 1: 5

l carrier 2: 2 x 30

l carrier 2: 15

l carrier 1: 2 x 8

l carrier 1: 5

l carrier 2: 2 x 32

l carrier 2: 20

l carrier 1: 2 x 16

l carrier 1: 10

l carrier 2: 2 x 24

l carrier 2: 15

l carrier 1: 2 x 17

l carrier 1: 15

l carrier 2: 2 x 23

l carrier 2: 20

2 (MIMO)

2 (MIMO)

2 (MIMO)

2 (MIMO)

Issue 07 (2016-04-29)


724




PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

LTE FDD 2 (MIMO)

2

l carrier 1: 13

2

l carrier 1: 13

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2



2



2



2



2

l carrier 2: 23

l carrier 2: 23

Typical Power Configuration for RRU3262 An RRU3262 is a 2TX RF module that can work in LTE FDD mode. Table 6-945 and Table 6-946 provide the typical power configuration for the RRU3262 (LTE FDD, 2600 MHz). Table 6-947 and Table 6-948 provide the typical power configuration for the RRU3262 (LTE FDD, 700 MHz). Table 6-945 Output power for the RRU3262 (LTE FDD, 2600 MHz) Working mode




LTE(FDD)

1(MIMO)

2 x 40

5

1(MIMO)

2 x 60

10, 15, 20

2(MIMO)

l carrier 1: 2 x 30

5, 10, 15, 20

l carrier 2: 2 x 30

Issue 07 (2016-04-29)


725



Working mode




2(MIMO)

l carrier 1: 2 x 20

l carrier 1: 5, 10

l carrier 2: 2 x 40

l carrier 2: 10, 20

l carrier 1: 2 x 15

l carrier 1: 5

l carrier 2: 2 x 45

l carrier 2: 15

l carrier 1: 2 x 12

l carrier 1: 5

l carrier 2: 2 x 48

l carrier 2: 20

l carrier 1: 2 x 24

l carrier 1: 10

l carrier 2: 2 x 36

l carrier 2: 15

l carrier 1: 2 x 26

l carrier 1: 15

l carrier 2: 2 x 34

l carrier 2: 20

l carrier 1: 2 x 20

5, 10, 15, 20

2(MIMO)

2(MIMO)

2(MIMO)

2(MIMO)

3(MIMO)

l carrier 2: 2 x 20 l carrier 3: 2 x 20 3(MIMO)

3(MIMO)

3(MIMO)

3(MIMO)

3(MIMO)

3(MIMO)

Issue 07 (2016-04-29)

l carrier 1: 2 x 15

l carrier 1: 5, 10

l carrier 2: 2 x 15

l carrier 2: 5, 10

l carrier 3: 2 x 30

l carrier 3: 10, 20

l carrier 1: 2 x 12

l carrier 1: 5

l carrier 2: 2 x 12

l carrier 2: 5

l carrier 3: 2 x 36

l carrier 3: 15

l carrier 1: 2 x 10

l carrier 1: 5

l carrier 2: 2 x 10

l carrier 2: 5

l carrier 3: 2 x 40

l carrier 3: 20

l carrier 1: 2 x 12

l carrier 1: 5

l carrier 2: 2 x 24

l carrier 2: 10

l carrier 3: 2 x 24

l carrier 3: 10

l carrier 1: 2 x 10

l carrier 1: 5

l carrier 2: 2 x 20

l carrier 2: 10

l carrier 3: 2 x 30

l carrier 3: 15

l carrier 1: 2 x 9

l carrier 1: 5

l carrier 2: 2 x 17

l carrier 2: 10

l carrier 3: 2 x 34

l carrier 3: 20


726



Working mode




3(MIMO)

l carrier 1: 2 x 9

l carrier 1: 5

l carrier 2: 2 x 26

l carrier 2: 15

l carrier 3: 2 x 26

l carrier 3: 15

l carrier 1: 2 x 8

l carrier 1: 5

l carrier 2: 2 x 23

l carrier 2: 15

l carrier 3: 2 x 30

l carrier 3: 20

l carrier 1: 2 x 7

l carrier 1: 5

l carrier 2: 2 x 27

l carrier 2: 20

l carrier 3: 2 x 27

l carrier 3: 20

l carrier 1: 2 x 17

l carrier 1: 10

l carrier 2: 2 x 17

l carrier 2: 10

l carrier 3: 2 x 26

l carrier 3: 15

l carrier 1: 2 x 15

l carrier 1: 10

l carrier 2: 2 x 23

l carrier 2: 15

l carrier 3: 2 x 23

l carrier 3: 15

l carrier 1: 2 x 13

l carrier 1: 10

l carrier 2: 2 x 20

l carrier 2: 15

l carrier 3: 2 x 27

l carrier 3: 20

l carrier 1: 2 x 12

l carrier 1: 10

l carrier 2: 2 x 24

l carrier 2: 20

l carrier 3: 2 x 24

l carrier 3: 20

l carrier 1: 2 x 18

l carrier 1: 15

l carrier 2: 2 x 18

l carrier 2: 15

l carrier 3: 2 x 24

l carrier 3: 20

l carrier 1: 2 x 16

l carrier 1: 15

l carrier 2: 2 x 22

l carrier 2: 20

l carrier 3: 2 x 22

l carrier 3: 20

3(MIMO)

3(MIMO)

3(MIMO)

3(MIMO)

3(MIMO)

3(MIMO)

3(MIMO)

3(MIMO)

Issue 07 (2016-04-29)


727




PA2





LTE(FDD) 1(MIMO)

1

40

1

40

LTE(FDD) 1(MIMO)

1

60

1

60

LTE(FDD) 2(MIMO)

2

l carrier 1: 30

2

l carrier 1: 30

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2

LTE(FDD) 3(MIMO)

3

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

Issue 07 (2016-04-29)

PA1


l carrier 2: 30 2


l carrier 2: 40 2


2

2

3

3

3

3


2






l carrier 1: 20


3

l carrier 1: 20

l carrier 2: 20

l carrier 2: 20

l carrier 3: 20

l carrier 3: 20

l carrier 1: 15

3

l carrier 1: 15

l carrier 2: 15

l carrier 2: 15

l carrier 3: 30

l carrier 3: 30

l carrier 1: 12

3

l carrier 1: 12

l carrier 2: 12

l carrier 2: 12

l carrier 3: 36

l carrier 3: 36

l carrier 1: 10

3

l carrier 1: 10

l carrier 2: 10

l carrier 2: 10

l carrier 3: 40

l carrier 3: 40

l carrier 1: 12

3

l carrier 1: 12

l carrier 2: 24

l carrier 2: 24

l carrier 3: 24

l carrier 3: 24


728



Configuration Scenario (Total Number of Carriers) LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

LTE(FDD) 3(MIMO)

Issue 07 (2016-04-29)

PA1

PA2





3

l carrier 1: 10

3

l carrier 1: 10

3

3

3

3

3

3

3

3

3

l carrier 2: 20

l carrier 2: 20

l carrier 3: 30

l carrier 3: 30

l carrier 1: 9

3

l carrier 1: 9

l carrier 2: 17

l carrier 2: 17

l carrier 3: 34

l carrier 3: 34

l carrier 1: 9

3

l carrier 1: 9

l carrier 2: 26

l carrier 2: 26

l carrier 3: 26

l carrier 3: 26

l carrier 1: 8

3

l carrier 1: 8

l carrier 2: 23

l carrier 2: 23

l carrier 3: 30

l carrier 3: 30

l carrier 1: 7

3

l carrier 1: 7

l carrier 2: 27

l carrier 2: 27

l carrier 3: 27

l carrier 3: 27

l carrier 1: 17

3

l carrier 1: 17

l carrier 2: 17

l carrier 2: 17

l carrier 3: 26

l carrier 3: 26

l carrier 1: 15

3

l carrier 1: 15

l carrier 2: 23

l carrier 2: 23

l carrier 3: 23

l carrier 3: 23

l carrier 1: 13

3

l carrier 1: 13

l carrier 2: 20

l carrier 2: 20

l carrier 3: 27

l carrier 3: 27

l carrier 1: 12

3

l carrier 1: 12

l carrier 2: 24

l carrier 2: 24

l carrier 3: 24

l carrier 3: 24

l carrier 1: 18

3

l carrier 1: 18

l carrier 2: 18

l carrier 2: 18

l carrier 3: 24

l carrier 3: 24


729



Configuration Scenario (Total Number of Carriers) LTE(FDD) 3(MIMO)

PA1

PA2





3

l carrier 1: 16

3

l carrier 1: 16

l carrier 2: 22

l carrier 2: 22

l carrier 3: 22

l carrier 3: 22





LTE(FDD)

1(MIMO)

2x40

5

1(MIMO)

2x60

10,15,20

2(MIMO)

l carrier 1: 30

l carrier 1: 10

l carrier 2: 30

l carrier 2: 10

l carrier 1: 20

l carrier 1: 5

l carrier 2: 40

l carrier 2: 10

l carrier 1: 20

l carrier 1: 5

l carrier 2: 20

l carrier 2: 5

l carrier 1: 15

l carrier 1: 5

l carrier 2: 45

l carrier 2: 15

l carrier 1: 12

l carrier 1: 5

l carrier 2: 48

l carrier 2: 20

l carrier 1: 24

l carrier 1: 10

l carrier 2: 36

l carrier 2: 15

2(MIMO)

2(MIMO)

2(MIMO)

2(MIMO)

2(MIMO)

Table 6-948 Configuration of RRU3262 PAs (LTE FDD, 700 MHz) Configuration Scenario (Total Number of Carriers) LTE(FDD) 1(MIMO)

Issue 07 (2016-04-29)

PA1

PA2





1

60

1

60


730




PA1

PA2





LTE(FDD) 1(MIMO)

1

40

1

40

LTE(FDD) 2(MIMO)

2

l carrier1: 30

2

l carrier1: 30

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2

LTE(FDD) 2(MIMO)

2


l carrier2: 30 2


l carrier2: 40 2


2


2




l carrier1: 20


2

l carrier2: 36


Typical Power Configuration for RRU3268 The RRU3268 has two RF channels and can work in a LTE FDD base station. Table 6-949 and Table 6-950 provide the typical power configuration for the RRU3268 (LTE FDD, 700 MHz/800 MHz/2600 MHz). NOTE

l

In band 28 of the 700 MHz frequency band, the total bandwidth between the maximum frequency and the minimum frequency of two carriers on the RRU3268 cannot exceed 25 MHz.

l

In the 800 MHz frequency band, the total bandwidth between the maximum frequency and the minimum frequency of two carriers on the RRU3268 cannot exceed 20 MHz.

Table 6-949 Output power for the RRU3268 (LTE FDD, 700 MHz/800 MHz/2600 MHz)

Issue 07 (2016-04-29)

Working mode




LTE FDD

1 (MIMO)

2x40

5,10,15,20

2 (MIMO)

2x20

5,10,15,20


731



Working mode




2 (MIMO)

l carrier 1: 2 x 13

l carrier 1: 5,10

l carrier 2: 2 x 27

l carrier 2: 10,20

l carrier 1: 2 x 10

l carrier 1: 5

l carrier 2: 2 x 30

l carrier 2: 15

l carrier 1: 2 x 8

l carrier 1: 5

l carrier 2: 2 x 32

l carrier 2: 20

l carrier 1: 2 x 16

l carrier 1: 10

l carrier 2: 2 x 24

l carrier 2: 15

l carrier 1: 2 x 17

l carrier 1: 15

l carrier 2: 2 x 23

l carrier 2: 20

2 (MIMO)

2 (MIMO)

2 (MIMO)

2 (MIMO)

Table 6-950 Configuration of RRU3268 (LTE FDD, 700 MHz/800 MHz/2600 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

LTE FDD 2 (MIMO)

2

l carrier 1: 13

2

l carrier 1: 13

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2

LTE FDD 2 (MIMO)

2


l carrier 2: 27 2


l carrier 2: 30 2



2


l carrier 1: 10


2

l carrier 2: 23



732



Typical Power Configuration for RRU3269 An RRU3269 is a 2TX RF module that can work in LTE FDD mode. Table 6-951 and Table 6-952 provide the typical power configuration for the RRU3269 (LTE FDD, 700 MHz (Band 12& Band 13)). Table 6-951 Output power for the RRU3269 (LTE FDD, 700 MHz (Band 12& Band 13)) Working mode




LTE FDD

1 (MIMO): Band 12 or Band13

2 x 40

5

1 (MIMO): Band 12

2 x 60

10, 15

1 (MIMO): Band 13

2 x 60

10

2 (MIMO): Band 12 & Band 13

l carrier1: 2 x 30

l carrier1: 5

l carrier2: 2 x 30

l carrier2: 5

2 (MIMO): Band 12

l carrier1: 2 x 20

l carrier1: 5

l carrier2: 2 x 40

l carrier2: 10

Table 6-952 Configuration of RRU3269 PAs (LTE FDD, 700 MHz (Band 12& Band 13)) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

l carrier1: 30

2

l carrier1: 30

LTE FDD 2 (MIMO)

2


l carrier2: 30 2

l carrier2: 40


Typical Power Configuration for RRU3281 An RRU3281 is a 4TX RF module that can work in LTE FDD mode. Table 6-953 and Table 6-954 provide the typical power configuration for the RRU3281 (LTE FDD, 2600 MHz). Issue 07 (2016-04-29)


733







LTE FDD

1 (MIMO)

4 x 40

5, 10, 15, 20

1 (MIMO)

4 x 30

5, 10, 15, 20

1 (MIMO)

4 x 20

5, 10, 15, 20

1 (MIMO)

4 x 10

5, 10, 15, 20

2 (MIMO)

4 x 15

5, 10, 15, 20

2 (MIMO)

4 x 20

5, 10, 15, 20

2 (MIMO)

l carrier1: 4 x 30

5, 10, 15, 20

l carrier2: 4 x 10 l carrier1: 4 x 10

3 (MIMO)

5, 10, 15, 20

l carrier2: 4 x 10 l carrier3: 4 x 20 l carrier1: 4 x 10

3 (MIMO)

5, 10, 15, 20

l carrier2: 4 x 15 l carrier3: 4 x 15

Table 6-954 Configuration of RRU3281 PAs (LTE FDD, 2600 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2

PA1

PA3

PA4









LTE FDD 1 (MIMO )

1

40

1

40

1

40

1

40

LTE FDD 1 (MIMO )

1

30

1

30

1

30

1

30


734



Issue 07 (2016-04-29)


PA2

PA1

PA3

PA4









LTE FDD 1 (MIMO )

1

20

1

20

1

20

1

20

LTE FDD 1 (MIMO )

1

10

1

10

1

10

1

10

LTE FDD 2 (MIMO )

2

20

2

20

2

20

2

20

LTE FDD 2 (MIMO )

2

15

2

15

2

15

2

15

LTE FDD 2 (MIMO )

2

l carr ier1 : 30

2

l carr ier1 : 30

2

l carr ier1 : 30

2

l carr ier1 : 30

LTE FDD 3 (MIMO )

3

l carr ier2 : 10 l carr ier1 : 10

l carr ier2 : 10 3

l carr ier1 : 10

l carr ier2 : 10 3

l carr ier1 : 10

l carr ier2 : 10 3

l carr ier1 : 10

l carr ier2 : 10

l carr ier2 : 10

l carr ier2 : 10

l carr ier2 : 10

l carr ier3 : 20

l carr ier3 : 20

l carr ier3 : 20

l carr ier3 : 20


735


Config uratio n Scenar io (Total Numb er of Carrie rs) LTE FDD 3 (MIMO )


PA2

PA1

PA3

PA4









3

l carr ier1 : 10

3

l carr ier1 : 10

3

l carr ier1 : 10

3

l carr ier1 : 10

l carr ier2 : 15

l carr ier2 : 15

l carr ier2 : 15

l carr ier2 : 15

l carr ier3 : 15

l carr ier3 : 15

l carr ier3 : 15

l carr ier3 : 15

Typical Power Configuration for RRU3668 An RRU3668 is a 2TX RF module that can work in LTE FDD mode. Table 6-955 and Table 6-956 provide the typical power configuration for the RRU3668 (LTE FDD, 450 MHz). Table 6-955 Output power for the RRU3668 (LTE FDD, 450 MHz) Mode




LTE FDD

1 (MIMO)

2 x 40

1.4, 3, 5

Table 6-956 Configuration of RRU3668 PAs (LTE FDD, 450 MHz) Configuratio n Scenario (Total Number of Carriers) LTE FDD 1 (MIMO)

Issue 07 (2016-04-29)

PA1

PA2





1

40

1

40


736



Typical Power Configuration for RRU3908 V1 An RRU3908 V1 is a 2TX RF module that can work in GSM, UMTS, LTE FDD, GU, or GL mode. l

Table 6-957 and Table 6-958 provide the typical power configuration for the RRU3908 V1 (GSM, 850 MHz/900 MHz/1800 MHz/1900 MHz).

l

Table 6-959 and Table 6-960 provide the typical power configuration for the RRU3908 V1 (UMTS, 850 MHz/900 MHz/1900 MHz).

l

Table 6-961 and Table 6-962 provide the typical power configuration for the RRU3908 V1 (LTE FDD, 1800 MHz).

l

Table 6-963 and Table 6-964 provide the typical power configuration for the RRU3908 V1 (GU non-MSR, 900 MHz).

l

Table 6-965 and Table 6-966 provide the typical power configuration for the RRU3908 V1 (GU MSR, 900 MHz).

l

Table 6-967 and Table 6-968 provide the typical power configuration for the RRU3908 V1 (GL MSR, 1800 MHz). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions.

Table 6-957 Output power for the RRU3908 V1 (GSM, 850 MHz/900 MHz/1800 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

40

40

2

40

40

3

20

20

4

15

20

5

12

12

6

10

12


737



Table 6-958 Configuration of RRU3908 V1 PAs (GSM, 850 MHz/900 MHz/1800 MHz/1900 MHz) Configur ation Scenario (Total Number of Carriers)

PA2






Output Power per GSM Carrier With Dyna mic Power Sharin g (W)

GSM 1

1

40

40

0

0

0

GSM 2

1

40

40

1

40

40

GSM 3

2

20

20

1

20

20

GSM 4

2

15

20

2

15

20

GSM 5

3

12

12

2

12

12

GSM 6

3

10

12

3

10

12

PA1

NOTE


Table 6-959 Output power for the RRU3908 V1 (UMTS, 850 MHz/900 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

40

2

30

3(a)

20(a)

4(a)

15(a)

1 (MIMO)

2 x 30

2 (MIMO)

2 x 15


738



Table 6-960 Configuration of RRU3908 V1 PAs (UMTS, 850 MHz/900 MHz/1900 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





UMTS 1

1

40

0

0

UMTS 2

1

30

1

30

UMTS 3(a)

2(a)

20(a)

1(a)

20(a)

UMTS 4(a)

2(a)

15(a)

2(a)

15(a)

UMTS 1 (MIMO)

1

30

1

30

UMTS 2 (MIMO)

2

15

2

15

Table 6-961 Output power for the RRU3908 V1 (LTE FDD, 1800 MHz) Mode




LTE FDD

1 (MIMO)

2 x 30

5, 10, 15, 20

Table 6-962 Configuration of RRU3908 V1 PAs (LTE FDD, 1800 MHz) Configuration Scenario (Total Number of Carriers)

LTE FDD 1 (MIMO)

PA1

PA2





1

30

1

30

Table 6-963 Output power for the RRU3908 V1 (GU non-MSR, 900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

40

30

1

1

30

40


739


Mode






1

2

30

20

2

1

20

30

2

1

15

40

2

2

15

20

3

1

10

30

3

2

10

10

4

1

7.5

20

4

2

7.5

10

5

1

6

20

Table 6-964 Configuration of RRU3908 V1 PAs (GU non-MSR, 900 MHz) Configurat ion Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2




Outpu t Power per UMT S Carrie r (W)



Num ber of UMT S Carrie rs


GSM 1 + UMTS 1

1

40

0

0

0

0

1

30

GSM 1 + UMTS 1

1

30

0

0

0

0

1

40

GSM 1 + UMTS 2

1

30

0

0

0

0

2

20

GSM 2 + UMTS 1

2

20

0

0

0

0

1

30

GSM 2 + UMTS 1

2

15

0

0

0

0

1

40

GSM 2 + UMTS 2

2

15

0

0

0

0

2

20

GSM 3 + UMTS 1

3

10

0

0

0

0

1

30


740


Configurat ion Scenario (Total Number of Carriers)


PA1

PA2









GSM 3 + UMTS 2

3

10

0

0

0

0

2

10

GSM 4 + UMTS 1

4

7.5

0

0

0

0

1

20

GSM 4 + UMTS 2

4

7.5

0

0

0

0

2

10

GSM 5 + UMTS 1

5

6

0

0

0

0

1

20

Table 6-965 Output power for the RRU3908 V1 (GU MSR, 900 MHz) Mode





GSM + UMTS

1

1

20

20

4

1

12

12

4

2

10

10

5

1

10

10

Table 6-966 Configuration of RRU3908 V1 PAs (GU MSR, 900 MHz) Configurat ion Scenario (Total Number of Carriers)

GSM 1 + UMTS 1 Issue 07 (2016-04-29)

PA1

PA2

Num ber of GSM Carri ers





Outp ut Powe r per GSM Carri er (W)



1

20

1

20

0

0

0

0


741




PA1

PA2









GSM 4 + UMTS 1

3

12

0

0

1

12

1

12

GSM 4 + UMTS 2

3

10

0

0

1

10

2

10

GSM 5 + UMTS 1

3

10

0

10

2

10

1

10

Table 6-967 Output power for the RRU3908 V1 (GL MSR, 1800 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

20

2 x 10

5, 10

1

1 (MIMO)

10

2 x 20

5, 10

2

1 (MIMO)

20

2 x 10

5, 10

2

1 (MIMO)

10

2 x 20

5, 10

3

1 (MIMO)

10

2 x 10

5, 10

4

1 (MIMO)

10

2 x 10

5, 10


742



Table 6-968 Configuration of RRU3908 V1 PAs (GL MSR, 1800 MHz) Configurati on Scenario (Total Number of Carriers)

PA1

PA2



Num ber of LTE FDD Carrie rs






GSM 1 + LTE FDD 1 (MIMO)

1

20

1

10

0

20

1

10


1

10

1

20

0

10

1

20


1

20

1

10

1

20

1

10


1

10

1

20

1

10

1

20


2

10

1

10

1

10

1

10


2

10

1

10

2

10

1

10

Typical Power Configuration for RRU3908 V2 An RRU3908 V2 is a 2TX RF module that can work in GSM, UMTS, LTE FDD, GU, or GL mode. l

Table 6-969 and Table 6-970 provide the typical power configuration for the RRU3908 V2 (GSM, 850 MHz/900 MHz).

l

Table 6-971 and Table 6-972 provide the typical power configuration for the RRU3908 V2 (UMTS, 850 MHz/900 MHz).

l

Table 6-973 and Table 6-974 provide the typical power configuration for the RRU3908 V2 (LTE FDD, 900 MHz).

l

Table 6-975 and Table 6-976 provide the typical power configuration for the RRU3908 V2 (GU non-MSR, 850 MHz/900 MHz).

l

Table 6-977 and Table 6-978 provide the typical power configuration for the RRU3908 V2 (GU MSR, 850 MHz/900 MHz).

Issue 07 (2016-04-29)


743


l


Table 6-979 and Table 6-980 provide the typical power configuration for RRU3908 V2 (GL MSR, 900 MHz). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l The power capacity of the RRU3908 V2 is 2x60 W. Due to the restricted working temperature, the actual power capacity can only reach 2x40 W.

Table 6-969 Output power for the RRU3908 V2 (GSM, 850 MHz/900 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

40

40

2

40

40

3

20

20

4

20

20

5

13

15

6

13

15

7

10

13

8

10

13


744



Table 6-970 Configuration of RRU3908 V2 PAs (GSM, 850 MHz/900 MHz) Configur ation Scenario (Total Number of Carriers)

PA2







GSM 1

1

40

40

0

0

0

GSM 2

1

40

40

1

40

40

GSM 3

2

20

20

1

20

20

GSM 4

2

20

20

2

20

20

GSM 5

3

13

15

2

13

15

GSM 6

3

13

15

3

13

15

GSM 7

4

10

13

3

10

13

GSM 8

4

10

13

4

10

13

PA1

NOTE

(a) indicates that the configuration is supported only at the 900 MHz frequency band.

Table 6-971 Output power for the RRU3908 V2 (UMTS, 850 MHz/900 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

60

2

40

3(a)

20(a)

4(a)

20(a)

1 (MIMO)

2 x 40

2 (MIMO)

2 x 20

3 (MIMO)(a)

2 x 10(a)

4 (MIMO)(a)

2 x 10(a)


745



Table 6-972 Configuration of RRU3908 V2 PAs (UMTS, 850 MHz/900 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





UMTS 1

1

60

0

0

UMTS 2

1

40

1

40

UMTS 3(a)

2(a)

20(a)

1(a)

20(a)

UMTS 4(a)

2(a)

20(a)

2(a)

20(a)

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

20

2

20

UMTS 3 (MIMO)(a)

3(a)

10(a)

3(a)

10(a)

UMTS 4 (MIMO)(a)

4(a)

10(a)

4(a)

10(a)

Table 6-973 Output power for the RRU3908 V2 (LTE FDD, 900 MHz) Mode




LTE FDD

1 (MIMO)

2 x 40

1.4, 3, 5, 10, 15, 20

Table 6-974 Configuration of RRU3908 V2 PAs (LTE FDD, 900 MHz) Configuration Scenario (Total Number of Carriers) LTE FDD 1 (MIMO)

Issue 07 (2016-04-29)

PA1

PA2





1

40

1

40


746



Table 6-975 Output power for the RRU3908 V2 (GU non-MSR, 850 MHz/900 MHz) Mode





GSM + UMTS

1

1

40

40

2

1

20

40

3

1

13

40

4

1

10

40

5

1

6

20

1

2

40

20

2

2

20

20

3

2

13

20

4

2

10

20

Table 6-976 Configuration of RRU3908 V2 PAs (GU non-MSR, 850 MHz/900 MHz) Config uration Scenar io (Total Numb er of Carrier s)

Issue 07 (2016-04-29)

PA2









GSM 1 + UMTS 1

1

40

0

0

0

0

1

40

GSM 2 + UMTS 1

2

20

0

0

0

0

1

40

GSM 3 + UMTS 1

3

13

0

0

0

0

1

40


747



Config uration Scenar io (Total Numb er of Carrier s)

PA2









GSM 4 + UMTS 1

4

10

0

0

0

0

1

40

GSM 5 + UMTS 1

5

6

0

0

0

0

1

20

GSM 1 + UMTS 2

1

40

0

0

0

0

2

20

GSM 2 + UMTS 2

2

20

0

0

0

0

2

20

GSM 3 + UMTS 2

3

13

0

0

0

0

2

20

GSM 4 + UMTS 2

4

10

0

0

0

0

2

20

NOTE

(b) indicates that the configuration is supported from SRAN7.0.

Table 6-977 Output power for the RRU3908 V2 (GU MSR, 850 MHz/900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

3

1

20

20


748



Mode





4

1

13

20

5

1

10

30

1

1 (MIMO)

20

2 x 20

2

1 (MIMO)

20

2 x 20

3

1 (MIMO)

15

2 x 10

4

1 (MIMO)

15

2 x 10

4(b)

1 (MIMO)(b)

10(b)

2 x 20(b)

Table 6-978 Configuration of RRU3908 V2 PAs (GU MSR, 850 MHz/900 MHz) Configur ation Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA2









GSM 3 + UMTS 1

2

20

0

0

1

20

1

20

GSM 4 + UMTS 1

3

13

0

0

1

13

1

20

GSM 5 + UMTS 1

4

10

0

0

1

10

1

30


1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

15

1

10

1

15

1

10


749




PA2










2

15

1

10

2

15

1

10


2(b)

10(b)

1(b)

20(b)

2(b)

10(b)

1(b)

20(b)

Table 6-979 Output power for the RRU3908 V2 (GL MSR, 900 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

20

2 x 20

1.4, 3, 5, 10, 15

2

1 (MIMO)

20

2 x 20

1.4, 3, 5, 10, 15

3

1 (MIMO)

15

2 x 10

1.4, 3, 5, 10, 15

4

1 (MIMO)

15

2 x 10

1.4, 3, 5, 10

4

1 (MIMO)

12

2 x 15

1.4, 3, 5, 10


750



Table 6-980 Configuration of RRU3908 V2 PAs (GL MSR, 900 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2




Outp ut Powe r per LTE FDD Carrie r (W)




Out put Po wer per LTE FD D Car rier (W)


1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

15

1

10

1

15

1

10


2

15

1

10

2

15

1

10


2

12

1

15

2

12

1

15

Typical Power Configuration for RRU3926 An RRU3926 is a 1TX RF module that can work in GSM, UMTS, LTE FDD, GU, or GL mode. l

Table 6-981 provides the typical power configuration for the RRU3926 (GSM, 900 MHz/1800 MHz).

l

Table 6-982 provides the typical power configuration for the RRU3926 (UMTS, 900 MHz).

l

Table 6-983 provides the typical power configuration for the RRU3926 (LTE FDD, 1800 MHz).

l

Table 6-984 provides the typical power configuration for the RRU3926 (GU MSR, 900 MHz).

l

Table 6-985 provides the typical power configuration for the RRU3926 (GL MSR, 800 MHz).

Issue 07 (2016-04-29)


751



NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the RRU3926 working in GSM mode: when the S1 configuration is applied, the maximum output power of each carrier on the RRU3926 is 80 W. If the output power of 60 W or 80 W is required, the related license must be obtained. l In SRAN7.0 and earlier versions, an RRU3926 can only work in GSM, UMTS, or GU mode. In SRAN8.0 and later versions, an RRU3926 can work in GSM, UMTS, LTE FDD, GU, or GL mode.

Table 6-981 Output power for the RRU3926 (GSM, 900 MHz/1800 MHz) Mode




GSM

1

80

80

2

40

40

3

27

31

4

20

27

5

16

20

6

12

20

7

10

16

8

7

12

NOTE



Issue 07 (2016-04-29)

Mode



UMTS

1

80


752



Mode



2

40

3

25

4

20

5(a)

16(a)

6(a)

12(a)

Table 6-983 Output power for the RRU3926 (LTE FDD, 1800 MHz) Mode




LTE FDD

1

60

5, 10, 15, 20

1

40

1.4, 3, 5, 10, 15, 20

2

40

1.4, 3, 5, 10

NOTE

(b) indicates that the configuration is supported from SRAN7.0.

Table 6-984 Output power for the RRU3926 (GU MSR, 900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

40

40

1

2

40

20

2

1

30

20

2

1

20

40

2

2

20

20

3

1

20

20

3

2

16

10

3(b)

2(b)

13(b)

20(b)

4

1

12

20

4

2

12

10


753



Mode





5

1

10

20

5

2

10

10

6

1

10

10

6

2

8

10

7

1

8

10

Table 6-985 Output power for the RRU3926 (GL MSR, 1800 MHz) Mode






GSM + LTE FDD

1

1

40

40

1.4, 3, 5, 10, 15, 20

2

1

20

40

1.4, 3, 5, 10, 15, 20

2

1

30

20

1.4, 3, 5, 10, 15, 20

3

1

20

20

1.4, 3, 5, 10, 15, 20

4

1

12

20

1.4, 3, 5, 10, 15, 20

5

1

10

20

1.4, 3, 5, 10,15

6

1

10

10

1.4, 3, 5, 10,15

7

1

8

10

1.4, 3, 5, 10,15

Typical Power Configuration for RRU3928 An RRU3928 is a 2TX RF module that can work in GSM, UMTS, LTE FDD, GU, GL, or UL mode. l

Issue 07 (2016-04-29)

Table 6-986 and Table 6-987 provide the typical power configuration for the RRU3928 (GSM, 900 MHz/1800 MHz). Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.

754



l


l

Table 6-990 and Table 6-991 provide the typical power configuration for the RRU3928 (LTE FDD, 900 MHz/1800 MHz).

l

Table 6-992 and Table 6-993 provide the typical power configuration for the RRU3928 (GU non-MSR, 900 MHz).

l

Table 6-994 and Table 6-995 provide the typical power configuration for the RRU3928 (GU MSR, 900 MHz).

l

Table 6-996 and Table 6-997 provide the typical power configuration for the RRU3928 (GL MSR, 900 MHz/1800 MHz).

l

Table 6-998 and Table 6-999 provide the typical power configuration for the RRU3928 (UL MSR, 900 MHz). NOTE


Table 6-986 Output power for the RRU3928 (900 MHz/1800 MHz, GSM)

Issue 07 (2016-04-29)

Mode



Output Power per GSM Carrier (W) When Dynamic Power Sharing Is Used

GSM

1

40

40

2

40

40

3

20

20

4

20

20

5

13

15

6

13

15

7

10

13

8

10

13


755



Table 6-987 Typical power configuration for the RRU3928 (900 MHz/1800 MHz, GSM, PA) Configur ation Scenario (Total Number of Carriers)

PA2






Output Power per GSM Carrier (W) When Dyna mic Power Sharin g Is Used

GSM 1

1

40

40

0

0

0

GSM 2

1

40

40

1

40

40

GSM 3

2

20

20

1

20

20

GSM 4

2

20

20

2

20

20

GSM 5

3

13

15

2

13

15

GSM 6

3

13

15

3

13

15

GSM 7

4

10

13

3

10

13

GSM 8

4

10

13

4

10

13

PA1

Table 6-988 Output power for the RRU3928 (900 MHz, UMTS)

Issue 07 (2016-04-29)

Mode



UMTS

1

40

2

40

3

20

4

20

1 (MIMO)

2x40

2 (MIMO)

2x20

3 (MIMO)

2x10

4 (MIMO)

2x10


756



Table 6-989 Typical power configuration for the RRU3928 (900 MHz, UMTS, PA) Configuration Scenario (Total Number of Carriers)

PA1

PA2





UMTS 1

1

40

0

0

UMTS 2

1

40

1

40

UMTS 3

2

20

1

20

UMTS 4

2

20

2

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

20

2

20

UMTS 3 (MIMO)

3

10

3

10

UMTS 4 (MIMO)

4

10

4

10

Table 6-990 Output power for the RRU3928 (900 MHz/1800 MHz, LTE FDD) Mode



Bandwidth Supported by LTE FDD (MHz)

LTE FDD

1 (MIMO)

2x40

1.4, 3, 5, 10, 15, 20

2 (MIMO)

2x20

1.4, 3, 5, 10, 15, 20

Table 6-991 Typical power configuration for the RRU3928 (900 MHz/1800 MHz, LTE FDD, PA) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20


757



Table 6-992 Output power for the RRU3928 (900 MHz, GU non-MSR) Mode





GSM + UMTS

1

1

40

40

2

1

20

40

3

1

13

40

4

1

10

40

1

2

40

20

2

2

20

20

3

2

13

20

4

2

10

20

Table 6-993 Typical power configuration for the RRU3928 (900 MHz, GU non-MSR, PA) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2









GSM 1 + UMTS 1

1

40

0

0

0

0

1

40

GSM 2 + UMTS 1

2

20

0

0

0

0

1

40

GSM 3 + UMTS 1

3

13

0

0

0

0

1

40

GSM 4 + UMTS 1

4

10

0

0

0

0

1

40


758




PA2









GSM 1 + UMTS 2

1

40

0

0

0

0

2

20

GSM 2 + UMTS 2

2

20

0

0

0

0

2

20

GSM 3 + UMTS 2

3

13

0

0

0

0

2

20

GSM 4 + UMTS 2

4

10

0

0

0

0

2

20

NOTE


Table 6-994 Output power for the RRU3928 (900 MHz, GU MSR)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

3

1

20

20

4

1

13

20

5

1

10

20

6(a)

1(a)

10(a)

20(a)

1

1 (MIMO)

20

2x20

2

1 (MIMO)

20

2x20

3

1 (MIMO)

10

2x20


759



Mode





4

1 (MIMO)

10

2x20

1

2 (MIMO)

20

2x10

2

2 (MIMO)

20

2x10

3

2 (MIMO)

10

2x10

4

2 (MIMO)

10

2x10

Table 6-995 Output power for the RRU3928 (900MHz, GU MSR, PA) Configura tion Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA2

PA1 Num ber of GSM Carrie rs








GSM 3 + UMTS 1

2

20

0

0

1

20

1

20

GSM 4 + UMTS 1

3

13

0

0

1

13

1

20

GSM 5 + UMTS 1

4

10

0

0

1

10

1

20

GSM 6 + UMTS 1(a)

4(a)

10(a)

0(a)

0(a)

2(a)

10(a)

1(a)

20(a)


1

20

1

20

0

20

1

20


1

20

1

20

1

20

1

20


2

10

1

20

1

10

1

20


2

10

1

20

2

10

1

20


760


Configura tion Scenario (Total Number of Carriers)


PA2










1

20

2

10

0

20

2

10


1

20

2

10

1

20

2

10


2

10

2

10

1

10

2

10


2

10

2

10

2

10

2

10

Table 6-996 Output power for the RRU3928 (900 MHz/1800 MHz, GL MSR)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

10

2x20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

15

2x10

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

10

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

15

2x10

1.4, 3, 5, 10, 15, 20


761



Mode






5

1 (MIMO)

10

2x10

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

10

2x10

1.4, 3, 5, 10, 15, 20

Table 6-997 Typical power configuration for the RRU3928 (900 MHz/1800 MHz, GL MSR, PA) Configuratio n Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2








Out put Pow er per LTE FDD Carri er (W)


1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

10

1

20

1

10

1

20


2

15

1

10

1

15

1

10


2

10

1

20

2

10

1

20


2

15

1

10

2

15

1

10


762



Configuratio n Scenario (Total Number of Carriers)

PA1

PA2










3

10

1

10

2

10

1

10


3

10

1

10

3

10

1

10

Table 6-998 Output power for the RRU3928 (900 MHz, UL MSR)

Issue 07 (2016-04-29)

Mode





Bandwidt h Supported by LTE FDD (MHz)

UMTS + LTE FDD

1

1 (MIMO)

20

2x20

5, 10

2

1 (MIMO)

20

2x20

5, 10

3

1 (MIMO)

10

2x20

5, 10

4

1 (MIMO)

10

2x20

5, 10


763



Table 6-999 Typical power configuration for the RRU3928 (900MHz, UL MSR, PA) Config uratio n Scenar io (Total Numb er of Carrier s)

PA2










1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

10

1

20

1

10

1

20


2

10

1

20

2

10

1

20


Table 6-1000 and Table 6-1001 provide the typical power configuration for the RRU3929 (GSM, 900 MHz/1800 MHz).

l


l

Table 6-1004 and Table 6-1005 provide the typical power configuration for the RRU3929 (LTE FDD, 900 MHz/1800 MHz).

l


l


Issue 07 (2016-04-29)


764



l

Table 6-1010 and Table 6-1011 provide the typical power configuration for the RRU3929 (GL MSR, 900 MHz/1800 MHz).

l


l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the RRU3929 working in GSM mode, the maximum output power per carrier is 60 W when the S1 or S2 configuration is applied. If the output power of 60 W is required, the related license must be purchased.


Issue 07 (2016-04-29)

Mode




GSM

1

60

60

2

60

60

3

30

30

4

30

30

5

20

25

6

20

25

7

15

20

8

15

20


765




PA2







GSM 1

1

60

60

0

0

0

GSM 2

1

60

60

1

60

60

GSM 3

2

30

30

1

30

30

GSM 4

2

30

30

2

30

30

GSM 5

3

20

25

2

20

25

GSM 6

3

20

25

3

20

25

GSM 7

4

15

20

3

15

20

GSM 8

4

15

20

4

15

20

PA1

Table 6-1002 Output power for the RRU3929 (900 MHz/1800 MHz, UMTS)

Issue 07 (2016-04-29)

Mode



UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2x40

2 (MIMO)

2x30


766



Mode



3 (MIMO)

2x20

4 (MIMO)

2 x 15

Table 6-1003 Typical power configuration for the RRU3929 (900 MHz/1800 MHz, UMTS, PA) PA1

PA2






UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

30

UMTS 4

2

30

2

30

UMTS 5

3

20

2

20

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

Table 6-1004 Output power for the RRU3929 (900 MHz/1800 MHz, LTE FDD)

Issue 07 (2016-04-29)

Mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

1 (MIMO)

2x40

1.4, 3, 5, 10, 15, 20

2 (MIMO)

2x30

1.4, 3, 5, 10, 15, 20


767



Mode




2 (MIMO)

l Carrier 1: 2x20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x40


PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40

l Carrier 2: 40

Table 6-1006 Output power for the RRU3929 (900 MHz/1800 MHz, GU non-MSR)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

60

60

1

2

60

30

1

3

60

20

2

1

30

60

2

2

30

30

2

3

30

20

2

4

30

15

3

1

20

60

3

2

20

30


768



Mode





3

3

20

20

3

4

20

15

4

1

15

60

4

2

15

30

4

3

15

20

4

4

15

15

5

1

10

60

5

2

10

30

5

3

10

20

6

1

7

60

6

2

7

30

Table 6-1007 Typical power configuration for the RRU3929 (900 MHz/1800 MHz, GU nonMSR, PA) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2









GSM 1 + UMTS 1

1

60

0

0

0

0

1

60

GSM 1 + UMTS 2

1

60

0

0

0

0

2

30

GSM 1 + UMTS 3

1

60

0

0

0

0

3

20


769



Issue 07 (2016-04-29)


PA2









GSM 2 + UMTS 1

2

30

0

0

0

0

1

60

GSM 2 + UMTS 2

2

30

0

0

0

0

2

30

GSM 2 + UMTS 3

2

30

0

0

0

0

3

20

GSM 2 + UMTS 4

2

30

0

0

0

0

4

15

GSM 3 + UMTS 1

3

20

0

0

0

0

1

60

GSM 3 + UMTS 2

3

20

0

0

0

0

2

30

GSM 3 + UMTS 3

3

20

0

0

0

0

3

20

GSM 3 + UMTS 4

3

20

0

0

0

0

4

15

GSM 4 + UMTS 1

4

15

0

0

0

0

1

60


770



Issue 07 (2016-04-29)


PA2









GSM 4 + UMTS 2

4

15

0

0

0

0

2

30

GSM 4 + UMTS 3

4

15

0

0

0

0

3

20

GSM 4 + UMTS 4

4

15

0

0

0

0

4

15

GSM 5 + UMTS 1

5

10

0

0

0

0

1

60

GSM 5 + UMTS 2

5

10

0

0

0

0

2

30

GSM 5 + UMTS 3

5

10

0

0

0

0

3

20

GSM 6 + UMTS 1

6

7

0

0

0

0

1

60

GSM 6 + UMTS 2

6

7

0

0

0

0

2

30


771



Table 6-1008 Output power for the RRU3929 (900 MHz/1800 MHz, GU MSR)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

2

30

30

1

2

20

40

2

1

40

20

2

1

30

30

2

2

20

40

2

2

30

30

2

2

40

20

3

1

30

30

3

1

20

40

3

2

20

20

3

2

15

30

4

1

20

40

4

2

20

20

4

2

15

30

5

1

20

20

5

1

15

30

5

2

13

20

6

1

15

30

6

2

12

20

7

1

10

20

1

1 (MIMO)

20

2x40

1

1 (MIMO)

30

2x30

1

1 (MIMO)

40

2x20

1

2 (MIMO)

20

2x20

2

1 (MIMO)

20

2x40

2

1 (MIMO)

30

2x30

2

1 (MIMO)

40

2x20

2

2 (MIMO)

20

2x20


772



Mode





2

2 (MIMO)

30

2 x 15

3

1 (MIMO)

20

2x20

3

1 (MIMO)

15

2x30

3

2 (MIMO)

15

2 x 15

3

2 (MIMO)

20

2x10

3

2 (MIMO)

10

2x20

4

1 (MIMO)

20

2x20

4

1 (MIMO)

15

2x30

4

2 (MIMO)

15

2 x 15

4

2 (MIMO)

20

2x10

4

2 (MIMO)

10

2x20

Table 6-1009 Typical power configuration for the RRU3929 (900 MHz/1800 MHz, GU MSR, PA) Configurati on Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2




Outp ut Powe r per UMT S Carrie r (W)





GSM 1 + UMTS 2

1

30

1

30

0

0

1

30

GSM 1 + UMTS 2

1

20

1

40

0

0

1

40

GSM 2 + UMTS 1

1

40

1

20

1

40

0

0

GSM 2 + UMTS 1

1

30

1

30

1

30

0

0

GSM 2 + UMTS 2

1

20

1

40

1

20

1

40


773


Configurati on Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)


PA1

PA2









GSM 2 + UMTS 2

1

30

1

30

1

30

1

30

GSM 2 + UMTS 2

1

40

1

20

1

40

1

20

GSM 3 + UMTS 1

2

30

0

0

1

30

1

30

GSM 3 + UMTS 1

2

20

0

0

1

20

1

40

GSM 3 + UMTS 2

2

20

1

20

1

20

1

20

GSM 3 + UMTS 2

2

15

1

30

1

15

1

30

GSM 4 + UMTS 1

3

20

0

0

1

20

1

40

GSM 4 + UMTS 2

2

20

1

20

2

20

1

20

GSM 4 + UMTS 2

2

15

1

30

2

15

1

30

GSM 5 + UMTS 1

3

20

0

0

2

20

1

20

GSM 5 + UMTS 1

4

15

0

0

1

15

1

30

GSM 5 + UMTS 2

3

13

1

20

2

13

1

20

GSM 6 + UMTS 1

4

15

0

0

2

15

1

30

GSM 6 + UMTS 2

3

12

1

20

3

12

1

20

GSM 7 + UMTS 1

5

10

0

0

2

10

1

20


774



Issue 07 (2016-04-29)


PA1

PA2










1

20

1

40

0

0

1

40


1

30

1

30

0

0

1

30


1

40

1

20

0

0

1

20


1

20

2

20

0

0

2

20


1

20

1

40

1

20

1

40


1

30

1

30

1

30

1

30


1

40

1

20

1

40

1

20


1

20

2

20

1

20

2

20


1

30

2

15

1

30

2

15


2

20

1

20

1

20

1

20


2

15

1

30

1

15

1

30


775




PA1

PA2










2

15

2

15

1

15

2

15


2

20

2

10

1

20

2

10


2

10

2

20

1

10

2

20


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


2

15

2

15

2

15

2

15


2

20

2

10

2

20

2

10


2

10

2

20

2

10

2

20

NOTE

Issue 07 (2016-04-29)

l


l

(b) indicates that the configuration is supported from SRAN7.0 (BTS3900 V100R007C00SPC280) and is only supported at the 1800 MHz frequency band.


776




Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

3 (b)

1 (MIMO) (b)

15 (b)

2x30 (b)

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4 (a)

1 (MIMO) (a)

15 (a)

2x30(a)

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

5 (b)

1 (MIMO) (b)

7.5 (b)

2x30 (b)

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

6 (b)

1 (MIMO) (b)

7.5 (b)

2x30 (b)

1.4, 3, 5, 10, 15, 20


777



Table 6-1011 Typical power configuration for the RRU3929 (900 MHz/1800 MHz, GL MSR, PA) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

20

0

0

1

20


1

30

1

30

0

0

1

30


1

20

1

40

0

0

1

40


1

40

1

20

1

40

1

20


1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


2

20

1

20

1

20

1

20

GSM 3 + LTE FDD 1 (MIMO) (b)

2 (b)

15 (b)

1 (b)

30 (b)

1 (b)

15 (b)

1 (b)

30 (b)


2

20

1

20

2

20

1

20

GSM 4 + LTE FDD 1 (MIMO) (a)

2 (a)

15 (a)

1 (a)

30 (a)

2 (a)

15 (a)

1*(a)

30 (a)


3

12

1

20

2

12

1

20


3 (b)

7.5 (b)

1 (b)

30 (b)

2 (b)

7.5 (b)

1 (b)

30 (b)


778




PA1

PA2










3

12

1

20

3

12

1

20


3 (b)

7.5 (b)

1 (b)

30 (b)

3 (b)

7.5 (b)

1 (b)

30 (b)

Table 6-1012 Output power for the RRU3929 (900 MHz, UL MSR)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

30

2x30

5, 10

1

1 (MIMO)

20

2x40

5, 10

2

1 (MIMO)

30

2x30

5, 10

2

1 (MIMO)

20

2x40

5, 10

3

1 (MIMO)

20

2x20

5, 10

3

1 (MIMO)

15

2x30

5, 10

4

1 (MIMO)

20

2x20

5, 10

4

1 (MIMO)

15

2x30

5, 10


779



Table 6-1013 Typical power configuration for the RRU3929 (900 MHz, UL MSR, PA) Configuratio n Scenario (Total Number of Carriers)

PA1

PA2










1

30

1

30

0

0

1

30


1

20

1

40

0

0

1

40


1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


2

20

1

20

1

20

1

20


2

15

1

30

1

15

1

30


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30

Typical Power Configuration for RRU3930E An RRU3930E is a 2TX RF module that can work in UMTS, LTE FDD, or UL mode. l

Table 6-1014 and Table 6-1015 provide the typical power configuration for the RRU3930E (UMTS, 2100 MHz).

l

Table 6-1016 and Table 6-1017 provide the typical power configuration for the RRU3930E (LTE FDD, 2100 MHz).

Issue 07 (2016-04-29)


780


l


Table 6-1018 and Table 6-1019 provide the typical power configuration for the RRU3930E (UL, 2100 MHz).

Table 6-1014 Output power for the RRU3930E (UMTS, 2100MHz) Mode



UMTS

1


2


3

Configured in two PAs: 2.5

4


1 (MIMO)

2x5

2 (MIMO)

2 x 2.5

3 (MIMO)

2 x 1.7

4 (MIMO)

2 x 1.25

Table 6-1015 Configuration of RRU3930E PAs (UMTS, 2100 MHz)

Issue 07 (2016-04-29)






UMTS 1

1

5

0

0

UMTS 2

1

5

1

5

UMTS 3

2

2.5

1

2.5

UMTS 4

2

2.5

2

2.5

UMTS 1 (MIMO)

1

5

1

5

UMTS 2 (MIMO)

2

2.5

2

2.5

UMTS 3 (MIMO)

3

1.7

3

1.7

UMTS 4 (MIMO)

4

1.25

4

1.25

PA1

PA2


781



Table 6-1016 Output power for the RRU3930E (LTE FDD, 2100 MHz) Mode




LTE FDD

1 (MIMO)

2x5

5, 10, 15, 20

2 (MIMO)

2 x 2.5

5, 10, 15, 20

Table 6-1017 Configuration of RRU3930E PAs (LTE FDD, 2100 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

5

1

5

LTE FDD 2 (MIMO)

2

2.5

2

2.5

Table 6-1018 Output power for the RRU3930E (UL, 2100MHz)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1 (MIMO)

1 (MIMO)

2 x 2.5

2 x 2.5

5, 10, 15, 20

2

1 (MIMO)


2 x 2.5

5, 10, 15, 20

2 (MIMO)

1 (MIMO)

2 x 1.7

2 x 1.7

5, 10, 15, 20


782



Table 6-1019 Configuration of RRU3930E PAs (UL, 2100MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2










1

2.5

1

2.5

1

2.5

1

2.5


1

2.5

1

2.5

1

2.5

1

2.5


2

1.7

1

2.5

2

1.7

1

2.5

Typical Power Configuration for RRU3936 The RRU3936 has only one RF channel and can work in GSM, UMTS, LTE FDD, GU, GL, or UL base station. l

Table 6-1020 provides the typical power configuration for the RRU3936 (GSM, 850 MHz/900 MHz/1800 MHz/1900 MHz).

l

Table 6-1021 provides the typical power configuration for the RRU3936 (UMTS, 850 MHz/900 MHz/1900 MHz).

l

Table 6-1022 provides the typical power configuration for the RRU3936 (LTE FDD, 1800 MHz/1900 MHz).

l

Table 6-1023 provides the typical power configuration for the RRU3936 (GU MSR, 850 MHz/900 MHz/1900 MHz).

l


l


l

Table 6-1026 provides the typical power configuration for the RRU3936 (UL MSR, 1900 MHz).

Issue 07 (2016-04-29)


783



NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the RRU3936 working in GSM mode, the maximum output power per carrier is 80 W when the S1 configuration is applied. If the output power of 60 W or 80 W is required, the related license must be purchased.

Table 6-1020 Output power for the RRU3936 (GSM, 850 MHz/900 MHz/1800 MHz/1900 MHz) Mode




GSM

1

80

80

2

40

40

3

27

31

4

20

27

5

16

20

6

12

20

7

10

16

8

7

12

NOTE

In the following table, * indicates that the UMTS mode is supported in terms of hardware.

Table 6-1021 Output power for the RRU3936 (UMTS, 850 MHz/900 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

80


784



Mode



2

40

3

25

4

20

5*

16*

6*

12*

Table 6-1022 Output power for the RRU3936 (LTE FDD, 1800 MHz/1900 MHz) Mode




LTE FDD

1

60

5, 10, 15, 20

1

40

1.4, 3, 5, 10, 15, 20

2

40

1.4, 3, 5, 10

NOTE

In the following table, * indicates that the configuration is supported from SRAN7.0.

Table 6-1023 Output power for the RRU3936 (GU MSR, 850 MHz/900 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

40

40

1

2

40

20

2

1

30

20

2

1

20

40

2

2

20

20

3

1

20

20

3

2

16

10

3*

2*

13*

20*

4

1

12

20

4

2

12

10


785



Mode





5

1

10

20

5

2

10

10

6

1

10

10

6

2

8

10

7

1

8

10

Table 6-1024 Output power for the RRU3936 (GL MSR, 1800 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1

40

40

1.4, 3, 5, 10, 15, 20

2

1

20

40

1.4, 3, 5, 10, 15, 20

2

1

30

20

1.4, 3, 5, 10, 15, 20

3

1

20

20

1.4, 3, 5, 10, 15, 20

4

1

12

20

1.4, 3, 5, 10, 15, 20

5

1

10

20

1.4, 3, 5, 10, 15

6

1

10

10

1.4, 3, 5, 10, 15

7

1

8

10

1.4, 3, 5, 10, 15


786









GSM + LTE FDD

1

1

40

40

1.4, 3, 5, 10, 15, 20

2

1

20

40

1.4, 3, 5, 10, 15, 20

2

1

30

20

1.4, 3, 5, 10, 15, 20

3

1

20

20

1.4, 3, 5, 10, 15, 20

4

1

12

20

1.4, 3, 5, 10, 15, 20

5

1

10

20

1.4, 3, 5, 10, 15

6

1

10

10

1.4, 3, 5, 10, 15

7

1

8

10

1.4, 3, 5, 10, 15

1

2

20

30

1.4, 3, 5, 10

1

2

30

20

1.4, 3, 5, 10

2

2

20

20

1.4, 3, 5, 10

2

2

20

l Carrier 1: 15

1.4, 3, 5, 10

l Carrier 2: 25 2

2

20

l Carrier 1: 10

1.4, 3, 5, 10

l Carrier 2: 30

Issue 07 (2016-04-29)

3

2

13

20

1.4, 3, 5, 10

3

2

17

10

1.4, 3, 5, 10

4

2

12

10

1.4, 3, 5, 10

5

2

10

10

1.4, 3, 5, 10

6

2

8

10

1.4, 3, 5, 10


787



Table 6-1026 Output power for the RRU3936 (UL MSR, 1900 MHz) Mode






UMTS + LTE FDD

1

1

40

40

1.4, 3, 5, 10, 15, 20

2

1

20

40

1.4, 3, 5, 10, 15, 20

2

1

30

20

1.4, 3, 5, 10, 15, 20

3

1

20

20

1.4, 3, 5, 10, 15, 20

1

2

20

30

1.4, 3, 5, 10

1

2

30

l Carrier 1: 20

1.4, 3, 5, 10

l Carrier 2: 40 2

2

20

20

1.4, 3, 5, 10


Table 6-1027 and Table 6-1028 provide the typical power configuration for an RRU3938 operating in the 900 MHz/1800 MHz frequency band and working in GSM mode.

l

Table 6-1029 and Table 6-1030 provide the typical power configuration for an RRU3938 operating in the 900 MHz frequency band and working in UMTS mode.

l

Table 6-1031 and Table 6-1032 provide the typical power configuration for an RRU3938 operating in the 900 MHz/1800 MHz frequency band and working in LTE FDD mode.

l

Table 6-1033 and Table 6-1034 provide the typical power configuration for an RRU3938 operating in the 900 MHz frequency band and working in GU non-MSR mode.

l

Table 6-1035 and Table 6-1036 provide the typical power configuration for an RRU3938 operating in the 900 MHz frequency band and working in GU MSR mode.

l

Table 6-1037 and Table 6-1038 provide the typical power configuration for an RRU3938 operating in the 900 MHz/1800 MHz frequency band and working in GL MSR mode.

Issue 07 (2016-04-29)


788


l


Table 6-1039 and Table 6-1040 provide the typical power configuration for an RRU3938 operating in the 900 MHz frequency band and working in UL MSR mode. NOTE



Issue 07 (2016-04-29)

Mode




GSM

1

40

40

2

40

40

3

20

20

4

20

20

5

13

15

6

13

15

7

10

13

8

10

13


789




PA2







GSM 1

1

40

40

0

0

0

GSM 2

1

40

40

1

40

40

GSM 3

2

20

20

1

20

20

GSM 4

2

20

20

2

20

20

GSM 5

3

13

15

2

13

15

GSM 6

3

13

15

3

13

15

GSM 7

4

10

13

3

10

13

GSM 8

4

10

13

4

10

13

PA1

Table 6-1029 Output power for the RRU3938 (900 MHz, UMTS)

Issue 07 (2016-04-29)

Mode



UMTS

1

40

2

40

3

20

4

20

1 (MIMO)

2x40

2 (MIMO)

2x20

3 (MIMO)

2x10

4 (MIMO)

2x10


790



Table 6-1030 Typical power configuration for the RRU3938 (900 MHz, UMTS, PA) Configuration Scenario (Total Number of Carriers)

PA1

PA2





UMTS 1

1

40

0

0

UMTS 2

1

40

1

40

UMTS 3

2

20

1

20

UMTS 4

2

20

2

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

20

2

20

UMTS 3 (MIMO)

3

10

3

10

UMTS 4 (MIMO)

4

10

4

10

Table 6-1031 Output power for the RRU3938 (900 MHz/1800 MHz, LTE FDD) Mode




LTE FDD

1 (MIMO)

2x40

1.4, 3, 5, 10, 15, 20

2 (MIMO)

2x20

1.4, 3, 5, 10, 15, 20


Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20


791



Table 6-1033 Output power for the RRU3938 (900 MHz, GU non-MSR) Mode





GSM + UMTS

1

1

40

40

2

1

20

40

3

1

13

40

4

1

10

40

1

2

40

20

2

2

20

20

3

2

13

20

4

2

10

20

Table 6-1034 Typical power configuration for the RRU3938 (900 MHz, GU non-MSR, PA) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2









GSM 1 + UMTS 1

1

40

0

0

0

0

1

40

GSM 2 + UMTS 1

2

20

0

0

0

0

1

40

GSM 3 + UMTS 1

3

13

0

0

0

0

1

40

GSM 4 + UMTS 1

4

10

0

0

0

0

1

40


792




PA2









GSM 1 + UMTS 2

1

40

0

0

0

0

2

20

GSM 2 + UMTS 2

2

20

0

0

0

0

2

20

GSM 3 + UMTS 2

3

13

0

0

0

0

2

20

GSM 4 + UMTS 2

4

10

0

0

0

0

2

20

Table 6-1035 Output power for the RRU3938 (900 MHz, GU MSR)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

3

1

20

20

4

1

13

20

5

1

10

20

6

1

10

20

1

1 (MIMO)

20

2x20

2

1 (MIMO)

20

2x20

3

1 (MIMO)

10

2x20

4

1 (MIMO)

10

2x20

1

2 (MIMO)

20

2x10


793



Mode





2

2 (MIMO)

20

2x10

3

2 (MIMO)

10

2x10

4

2 (MIMO)

10

2x10

Table 6-1036 Typical power configuration for the RRU3938 (900 MHz, GU MSR, PA) Configura tion Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA2









GSM 3 + UMTS 1

2

20

0

0

1

20

1

20

GSM 4 + UMTS 1

3

13

0

0

1

13

1

20

GSM 5 + UMTS 1

4

10

0

0

1

10

1

20

GSM 6 + UMTS 1

4

10

0

0

2

10

1

20


1

20

1

20

0

20

1

20


1

20

1

20

1

20

1

20


2

10

1

20

1

10

1

20


2

10

1

20

2

10

1

20


1

20

2

10

0

20

2

10


794




PA2










1

20

2

10

1

20

2

10


2

10

2

10

1

10

2

10


2

10

2

10

2

10

2

10


Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

10

2x20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

15

2x10

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

10

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

15

2x10

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

10

2x10

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

10

2x10

1.4, 3, 5, 10, 15, 20


795



Table 6-1038 Typical power configuration for the RRU3938 (900 MHz/1800 MHz, GL MSR, PA) Configuratio n Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

10

1

20

1

10

1

20


2

15

1

10

1

15

1

10


2

10

1

20

2

10

1

20


2

15

1

10

2

15

1

10


3

10

1

10

2

10

1

10


3

10

1

10

3

10

1

10


796



Table 6-1039 Output power for the RRU3938 (900 MHz, UL MSR) Mode






UMTS + LTE FDD

1

1 (MIMO)

20

2x20

5, 10

2

1 (MIMO)

20

2x20

5, 10

3

1 (MIMO)

10

2x20

5, 10

4

1 (MIMO)

10

2x20

5, 10

Table 6-1040 Typical power configuration for the RRU3938 (900 MHz, UL MSR, PA) Config uratio n Scenar io (Total Numb er of Carrier s)

Issue 07 (2016-04-29)

PA2










1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

10

1

20

1

10

1

20


2

10

1

20

2

10

1

20


797



Typical Power Configuration for RRU3939 An RRU3939 is a 2TX RF module that can work in GSM, LTE FDD, or GL mode. l

Table 6-1041 and Table 6-1042 provide the typical power configuration for the RRU3939 (GSM, 1800 MHz).

l

Table 6-1043 and Table 6-1044 provide the typical power configuration for the RRU3939 (LTE FDD, 1800 MHz).

l

Table 6-1045 and Table 6-1046 provide the typical power configuration for the RRU3939 (GL MSR, 1800 MHz). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the RRU3939 working in GSM mode: when the S1 or S2 configuration is applied, the maximum output power of each carrier on the RRU3939 is 60 W. If the output power of 60 W is required, the related license must be obtained.

Table 6-1041 Output power for the RRU3939 (GSM, 1800 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

60

60

2

60

60

3

30

30

4

30

30

5

20

25

6

20

25

7

15

20

8

15

20


798



Table 6-1042 Configuration of RRU3939 PAs (GSM, 1800 MHz) Configur ation Scenario (Total Number of Carriers)

PA2







GSM 1

1

60

60

0

0

0

GSM 2

1

60

60

1

60

60

GSM 3

2

30

30

1

30

30

GSM 4

2

30

30

2

30

30

GSM 5

3

20

25

2

20

25

GSM 6

3

20

25

3

20

25

GSM 7

4

15

20

3

15

20

GSM 8

4

15

20

4

15

20

PA1





LTE FDD

1 (MIMO)

2 x 60

5, 10, 15, 20

1 (MIMO)

2 x 40

1.4, 3, 5, 10, 15, 20

2 (MIMO)

2 x 30

1.4, 3, 5, 10, 15, 20

2 (MIMO)

l Carrier 1: 2 x 20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2 x 40

Issue 07 (2016-04-29)


799




PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40

l Carrier 2: 40

Table 6-1045 Output power for the RRU3939 (GL MSR, 1800 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

40

2 x 20

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

30

2 x 30

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

20

2 x 40

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

40

2 x 20

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

30

2 x 30

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

20

2 x 40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2 x 20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

15

2 x 30

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2 x 20

1.4, 3, 5, 10, 15, 20


800


Mode







4

1 (MIMO)

15

2 x 30

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

12

2 x 20

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

7.5

2 x 30

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

12

2 x 20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

7.5

2 x 30

1.4, 3, 5, 10, 15, 20

Table 6-1046 Configuration of RRU3939 PAs (GL MSR, 1800 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

20

0

0

1

20


1

30

1

30

0

0

1

30


1

20

1

40

0

0

1

40


1

40

1

20

1

40

1

20


1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


801




PA1

PA2










2

20

1

20

1

20

1

20


2

15

1

30

1

15

1

30


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


3

12

1

20

2

12

1

20


3

7.5

1

30

2

7.5

1

30


3

12

1

20

3

12

1

20


3

7.5

1

30

3

7.5

1

30

Typical Power Configuration for RRU3942 An RRU3942 is a 2TX RF module that can work in GSM, UMTS, LTE FDD, GU, GL, UL, or GUL mode. l

Table 6-1047 and Table 6-1048 provide the typical power configuration for the RRU3942 (GSM, 850 MHz/1900 MHz, 2 x 60 W).

l

Table 6-1049 and Table 6-1050 provide the typical power configuration for the RRU3942 (UMTS, 850 MHz/1900 MHz, 2 x 60 W).

l

Table 6-1051 and Table 6-1052 provide the typical power configuration for the RRU3942 (GU non-MSR, 850 MHz/1900 MHz, 2 x 60 W).

l

Table 6-1053 and Table 6-1054 provide the typical power configuration for the RRU3942 (GU non-MSR, 850 MHz/1900 MHz, 2 x 60 W).

l

Table 6-1055 and Table 6-1056 provide the typical power configuration for the RRU3942 (GSM, 850 MHz/1900 MHz, 40 W+80 W).

Issue 07 (2016-04-29)


802



l

Table 6-1057 and Table 6-1058 provide the typical power configuration for the RRU3942 (UMTS, 850 MHz/1900 MHz, 40 W+80 W).

l

Table 6-1059 and Table 6-1060 provide the typical power configuration for the RRU3942 (LTE FDD, 850 MHz, 2 x 60 W).

l

Table 6-1061 and Table 6-1062 provide the typical power configuration for the RRU3942 (LTE FDD, 1900 MHz, 2 x 60 W).

l

Table 6-1063 and Table 6-1064 provide the typical power configuration for the RRU3942 (GU non-MSR, 850 MHz/1900 MHz, 40 W+80 W).

l

Table 6-1065 and Table 6-1066 provide the typical power configuration for the RRU3942 (GU MSR, 850 MHz/1900 MHz, 40 W+80 W).

l

Table 6-1067 and Table 6-1068 provide the typical power configuration for the RRU3942 (GL MSR, 1900 MHz, 2 x 60 W).

l

Table 6-1069 and Table 6-1070 provide the typical power configuration for the RRU3942 (GL MSR, 1900 MHz, 40 W+80 W).

l

Table 6-1071 and Table 6-1072 provide the typical power configuration for the RRU3942 (UL MSR, 850 MHz, 2 x 60 W).

l

Table 6-1073 and Table 6-1074 provide the typical power configuration for the RRU3942 (UL MSR, 1900 MHz, 2 x 60 W).

l

Table 6-1075 and Table 6-1076 provide the typical power configuration for the RRU3942 (UL MSR, 1900 MHz, 40 W+80 W).

l

Table 6-1077 and Table 6-1078 provide the typical power configuration for the RRU3942 (GUL MSR, 1900 MHz, 2 x 60 W). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the RRU3942 working in GSM mode, the maximum output power per carrier is 80 W when the S1 configuration is applied and 60 W when the S2 configuration is applied. If the output power of 60 W or 80 W is required, the related license must be purchased. l In versions earlier than SRAN7.0, an RRU3942 can only support the 2x60 W configuration and can only work in GSM, UMTS, or GU mode. l From SRAN7.0 onwards, an RRU3942 supports the 2x60 W or 40 W+80 W configuration. The 2x60 W configuration is typical configuration. Unless otherwise specified, the PA1 value and PA2 value in the 2x60 W configuration are interchangeable. The 40 W+80 W configuration is not typical configuration. In this configuration, only PA2 can be configured with 80 W output power, and values of PA1 and PA2 are not interchangeable.

Issue 07 (2016-04-29)


803



Table 6-1047 Output power for the RRU3942 (GSM, 850 MHz/1900 MHz, 2x60 W) Mode




GSM

1

60

60

2

60

60

3

30

30

4

30

30

5

20

25

6

20

25

7

15

20

8

15

20

Table 6-1048 Typical power configuration for the RRU3942 (GSM, 850 MHz/1900 MHz, 2x60 W, PA)

Issue 07 (2016-04-29)








GSM 1

1

60

60

0

0

0

GSM 2

1

60

60

1

60

60

GSM 3

2

30

30

1

30

30

GSM 4

2

30

30

2

30

30

GSM 5

3

20

25

2

20

25

GSM 6

3

20

25

3

20

25

GSM 7

4

15

20

3

15

20

PA2

PA1


804




PA2







GSM 8

4

15

20

4

15

20

PA1

Table 6-1049 Output power for the RRU3942 (UMTS, 850 MHz/1900 MHz, 2x60 W)

Issue 07 (2016-04-29)

Mode



UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2x40

2 (MIMO)

2x30

3 (MIMO)

2x20

4 (MIMO)

2 x 15


805



Table 6-1050 Typical power configuration for the RRU3942 (UMTS, 850 MHz/1900 MHz, 2x60 W, PA) Configuration Scenario (Total Number of Carriers)

PA1

PA2





UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

30

UMTS 4

2

30

2

30

UMTS 5

3

20

2

20

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

NOTE

(a) indicates that the configuration is supported from SRAN8.0 and the power values used by PA1 and PA2 cannot be interchanged when the configuration is applied.

Table 6-1051 Output power for the RRU3942 (GU non-MSR, 850 MHz/1900 MHz, 2x60 W)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

60

60

1

2

60

30

1

3

60

20

2

1

30

60

2

2

30

30

2

3

30

20


806



Mode





2

4

30

15

3

1

20

60

3

2

20

30

3

3

20

20

3

4

20

15

4

1

15

60

4

2

15

30

4

3

15

20

4

4

15

15

5

1

10

60

5

2

10

30

5

3

10

20

6

1

7

60

6

2

7

30

6(a)

2(a)

10(a)

30(a)

6(a)

3(a)

10(a)

20(a)

Table 6-1052 Typical power configuration for the RRU3942 (GU non-MSR, 850 MHz/1900 MHz, 2x60 W, PA) Config uratio n Scenar io (Total Numb er of Carrie rs) GSM 1 + UMTS 1

Issue 07 (2016-04-29)

PA2









1

60

0

0

0

0

1

60


807



Issue 07 (2016-04-29)


PA2









GSM 1 + UMTS 2

1

60

0

0

0

0

2

30

GSM 1 + UMTS 3

1

60

0

0

0

0

3

20

GSM 2 + UMTS 1

2

30

0

0

0

0

1

60

GSM 2 + UMTS 2

2

30

0

0

0

0

2

30

GSM 2 + UMTS 3

2

30

0

0

0

0

3

20

GSM 2 + UMTS 4

2

30

0

0

0

0

4

15

GSM 3 + UMTS 1

3

20

0

0

0

0

1

60

GSM 3 + UMTS 2

3

20

0

0

0

0

2

30

GSM 3 + UMTS 3

3

20

0

0

0

0

3

20


808



Issue 07 (2016-04-29)


PA2









GSM 3 + UMTS 4

3

20

0

0

0

0

4

15

GSM 4 + UMTS 1

4

15

0

0

0

0

1

60

GSM 4 + UMTS 2

4

15

0

0

0

0

2

30

GSM 4 + UMTS 3

4

15

0

0

0

0

3

20

GSM 4 + UMTS 4

4

15

0

0

0

0

4

15

GSM 5 + UMTS 1

5

10

0

0

0

0

1

60

GSM 5 + UMTS 2

5

10

0

0

0

0

2

30

GSM 5 + UMTS 3

5

10

0

0

0

0

3

20

GSM 6 + UMTS 1

6

7

0

0

0

0

1

60


809




PA2









GSM 6 + UMTS 2

6

7

0

0

0

0

2

30

GSM 6 + UMTS 2(a)

0(a)

0(a)

2(a)

30(a)

6(a)

10(a)

0(a)

0(a)

GSM 6 + UMTS 3(a)

0(a)

0(a)

3(a)

20(a)

6(a)

10(a)

0(a)

0(a)

Table 6-1053 Output power for the RRU3942 (GU MSR, 850 MHz/1900 MHz, 2x60 W)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

2

30

30

1

2

20

40

2

1

40

20

2

1

30

30

2

2

20

40

2

2

30

30

2

2

40

20

3

1

30

30

3

1

20

40

3

2

20

20

3

2

15

30

4

1

20

40


810


Mode

Issue 07 (2016-04-29)






4

2

20

20

4

2

15

30

5

1

20

20

5

1

15

30

5

2

13

20

6

1

15

30

6

2

12

20

7

1

10

20

1

1 (MIMO)

20

2x40

1

1 (MIMO)

30

2x30

1

1 (MIMO)

40

2x20

1

2 (MIMO)

20

2x20

2

1 (MIMO)

20

2x40

2

1 (MIMO)

30

2x30

2

1 (MIMO)

40

2x20

2

2 (MIMO)

20

2x20

2

2 (MIMO)

30

2 x 15

3

1 (MIMO)

20

2x20

3

1 (MIMO)

15

2x30

3

2 (MIMO)

15

2 x 15

3

2 (MIMO)

20

2x10

3

2 (MIMO)

10

2x20

4

1 (MIMO)

20

2x20

4

1 (MIMO)

15

2x30

4

2 (MIMO)

15

2 x 15

4

2 (MIMO)

20

2x10

4

2 (MIMO)

10

2x20


811



Table 6-1054 Typical power configuration for the RRU3942 (GU MSR, 850 MHz/1900 MHz, 2x60 W, PA) Configurati on Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2









GSM 1 + UMTS 2

1

30

1

30

0

0

1

30

GSM 1 + UMTS 2

1

20

1

40

0

0

1

40

GSM 2 + UMTS 1

1

40

1

20

1

40

0

0

GSM 2 + UMTS 1

1

30

1

30

1

30

0

0

GSM 2 + UMTS 2

1

20

1

40

1

20

1

40

GSM 2 + UMTS 2

1

30

1

30

1

30

1

30

GSM 2 + UMTS 2

1

40

1

20

1

40

1

20

GSM 3 + UMTS 1

2

30

0

0

1

30

1

30

GSM 3 + UMTS 1

2

20

0

0

1

20

1

40

GSM 3 + UMTS 2

2

20

1

20

1

20

1

20

GSM 3 + UMTS 2

2

15

1

30

1

15

1

30

GSM 4 + UMTS 1

3

20

0

0

1

20

1

40

GSM 4 + UMTS 2

2

20

1

20

2

20

1

20

GSM 4 + UMTS 2

2

15

1

30

2

15

1

30

GSM 5 + UMTS 1

3

20

0

0

2

20

1

20


812



Issue 07 (2016-04-29)


PA1

PA2









GSM 5 + UMTS 1

4

15

0

0

1

15

1

30

GSM 5 + UMTS 2

3

13

1

20

2

13

1

20

GSM 6 + UMTS 1

4

15

0

0

2

15

1

30

GSM 6 + UMTS 2

3

12

1

20

3

12

1

20

GSM 7 + UMTS 1

5

10

0

0

2

10

1

20


1

20

1

40

0

0

1

40


1

30

1

30

0

0

1

30


1

40

1

20

0

0

1

20


1

20

2

20

0

0

2

20


1

20

1

40

1

20

1

40


1

30

1

30

1

30

1

30


1

40

1

20

1

40

1

20


813



Issue 07 (2016-04-29)


PA1

PA2










1

20

2

20

1

20

2

20


1

30

2

15

1

30

2

15


2

20

1

20

1

20

1

20


2

15

1

30

1

15

1

30


2

15

2

15

1

15

2

15


2

20

2

10

1

20

2

10


2

10

2

20

1

10

2

20


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


2

15

2

15

2

15

2

15


2

20

2

10

2

20

2

10


814





PA1

PA2









2

10

2

20

2

10

2

20

Table 6-1055 Output power for the RRU3942 (GSM, 850 MHz/1900 MHz, 40 W+80 W)

Issue 07 (2016-04-29)

Mode




GSM

1

80

80

2

40

40

3

40

40

4

27

27

5

20

20

6

20

20

7

16

20

8

13

15


815



Table 6-1056 Typical power configuration for the RRU3942 (GSM, 850 MHz/1900 MHz, 40 W+80 W, PA) Config uration Scenari o (Total Numbe r of Carriers )

PA2

Numbe r of GSM Carriers






GSM 1

0

0

0

1

80

80

GSM 2

l Scena rio 1:1

l Scena rio 1:40

l Scenario 1:40

l Scenari o 1:1

l Scenario 1:40

l Scena rio 2:0

l Scena rio 2:0

l Scenario 2:0

l Scenari o 2:2

l Scena rio 1:40

GSM 3

1

40

40

2

40

40

GSM 4

1

27

27

3

27

27

GSM 5

l Scena rio 1:1

l Scena rio 1:20

l Scenario 1:20

l Scenari o 1:4

l Scenario 1:20

l Scena rio 2:2

l Scena rio 2:20

l Scenario 2:20

l Scenari o 2:3

l Scena rio 1:20

GSM 6

2

20

20

4

20

20

GSM 7

2

16

20

5

16

20

GSM 8

3

13

15

5

13

15

PA1

l Scena rio 2:40

l Scena rio 2:20

l Scenario 2:40

l Scenario 2:20

Table 6-1057 Output power for the RRU3942 (UMTS, 850 MHz/1900 MHz, 40 W+80 W)

Issue 07 (2016-04-29)

Mode



UMTS

1

80

3

40

6

20


816



Table 6-1058 Typical power configuration for the RRU3942 (UMTS, 850 MHz/1900 MHz, 40 W+80 W, PA) Configuration Scenario (Total Number of Carriers)

PA1

PA2





UMTS 1

0

0

1

80

UMTS 3

1

40

2

40

UMTS 6

2

20

4

20

Table 6-1059 Output power for the RRU3942 (LTE FDD, 850 MHz, 2x60 W) Mode




LTE FDD

1 (MIMO)

2x60

5, 10

2 (MIMO)

l Carrier 1: 2x10

l Carrier 1: 1.4

l Carrier 2: 2x50

l Carrier 2: 5, 10

Table 6-1060 Typical power configuration for the RRU3942 (LTE FDD, 850 MHz, 2x60 W, PA) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

l Carrier 1: 10

2

l Carrier 1: 10

l Carrier 2: 50

l Carrier 2: 50

Table 6-1061 Output power for the RRU3942 (LTE FDD, 1900 MHz, 2x60 W)

Issue 07 (2016-04-29)

Mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20


817



Mode




1 (MIMO)

2x40

1.4, 3, 5, 10, 15, 20

2 (MIMO)

2x30

1.4, 3, 5, 10, 15, 20

2 (MIMO)

l Carrier 1: 2x20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x40

Table 6-1062 Typical power configuration for the RRU3942 (LTE FDD, 1900 MHz, 2x60 W, PA) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40

l Carrier 2: 40

Table 6-1063 Output power for the RRU3942 (GU non-MSR, 850 MHz/1900 MHz, 40 W+80 W)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

80

40

1

1

40

80

1

2

80

20

1

2

40

40

1

3

80

10

1

3

40

25


818


Mode

Issue 07 (2016-04-29)






1

4

80

10

2

1

40

40

2

1

20

80

2

2

40

20

2

2

20

40

2

3

40

10

2

3

20

25

2

4

40

10

2

4

20

20

3

1

27

40

3

1

13

80

3

2

27

20

3

2

13

40

3

3

27

10

3

3

13

25

3

4

27

10

3

4

13

20

4

1

20

40

4

1

10

80

4

2

20

20

4

2

10

40

4

3

20

10

4

3

10

25

4

4

20

10

4

4

10

20

5

1

16

40

5

2

16

20

5

3

16

10


819



Mode





6

1

12

40

6

2

12

20

7

1

6

40

Table 6-1064 Typical power configuration for the RRU3942 (GU non-MSR, 850 MHz/1900 MHz, 40 W+80 W, PA) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2





Numb er of GSM Carrier s




GSM 1 + UMTS 1

0

0

1

40

1

80

0

0

GSM 1 + UMTS 1

1

40

0

0

0

0

1

80

GSM 1 + UMTS 2

0

0

2

20

1

80

0

0

GSM 1 + UMTS 2

1

40

0

0

0

0

2

40

GSM 1 + UMTS 3

0

0

3

10

1

80

0

0


820



Issue 07 (2016-04-29)


PA2









GSM 1 + UMTS 3

1

40

0

0

0

0

3

25

GSM 1 + UMTS 4

0

0

4

10

1

80

0

0

GSM 2 + UMTS 1

0

0

1

40

2

40

0

0

GSM 2 + UMTS 1

2

20

0

0

0

0

1

80

GSM 2 + UMTS 2

0

0

2

20

2

40

0

0

GSM 2 + UMTS 2

2

20

0

0

0

0

2

40

GSM 2 + UMTS 3

0

0

3

10

2

40

0

0

GSM 2 + UMTS 3

2

20

0

0

0

0

3

25


821



Issue 07 (2016-04-29)


PA2









GSM 2 + UMTS 4

0

0

4

10

2

40

0

0

GSM 2 + UMTS 4

2

20

0

0

0

0

4

20

GSM 3 + UMTS 1

0

0

1

40

3

27

0

0

GSM 3 + UMTS 1

3

13

0

0

0

0

1

80

GSM 3 + UMTS 2

0

0

2

20

3

27

0

0

GSM 3 + UMTS 2

3

13

0

0

0

0

2

40

GSM 3 + UMTS 3

0

0

3

10

3

27

0

0

GSM 3 + UMTS 3

3

13

0

0

0

0

3

25


822



Issue 07 (2016-04-29)


PA2









GSM 3 + UMTS 4

0

0

4

10

3

27

0

0

GSM 3 + UMTS 4

3

13

0

0

0

0

4

20

GSM 4 + UMTS 1

0

0

1

40

4

20

0

0

GSM 4 + UMTS 1

4

10

0

0

0

0

1

80

GSM 4 + UMTS 2

0

0

2

20

4

20

0

0

GSM 4 + UMTS 2

4

10

0

0

0

0

2

40

GSM 4 + UMTS 3

0

0

3

10

4

20

0

0

GSM 4 + UMTS 3

4

10

0

0

0

0

3

25


823



Issue 07 (2016-04-29)


PA2









GSM 4 + UMTS 4

0

0

4

10

4

20

0

0

GSM 4 + UMTS 4

4

10

0

0

0

0

4

20

GSM 5 + UMTS 1

0

0

1

40

5

16

0

0

GSM 5 + UMTS 2

0

0

2

20

5

16

0

0

GSM 5 + UMTS 3

0

0

3

10

5

16

0

0

GSM 6 + UMTS 1

0

0

1

40

6

12

0

0

GSM 6 + UMTS 2

0

0

2

20

6

12

0

0

GSM 7 + UMTS 1

0

0

1

40

7

6

0

0


824



NOTE

(b) indicates that the configuration is supported only at the 1900 MHz frequency band.

Table 6-1065 Output power for the RRU3942 (GU MSR, 850 MHz/1900 MHz, 40 W+80 W)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

2

40

40

1

3

40

20

1

4

40

20

2

1

40

40

2

2

40

20

2(b)

2(b)

20(b)

40(b)

2

3

30

20

3

1

20

40

3

2

20

30

3

2

13

40

5

1

20

20

6

1

10

20

1

1 (MIMO)

40

2x40

1

2 (MIMO)

40

2x20

2

1 (MIMO)

30

2x20

2

2 (MIMO)

20

2x20

4

1 (MIMO)

20

2x20

4

2 (MIMO)

10

2x10


825



Table 6-1066 Typical power configuration for the RRU3942 (GU MSR, 850 MHz/1900 MHz, 40 W+80 W, PA) Configurati on Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2









GSM 1 + UMTS 2

0

0

1

40

1

40

1

40

GSM 1 + UMTS 3

0

0

1

20

1

40

2

20

GSM 1 + UMTS 4

0

0

2

20

1

40

2

20

GSM 2 + UMTS 1

1

40

0

0

1

40

1

40

GSM 2 + UMTS 2

1

40

0

0

1

40

2

20

GSM 2 + UMTS 2(b)

0(b)

0(b)

1(b)

40(b)

2(b)

20(b)

1(b)

40(b)

GSM 2 + UMTS 3

0

0

2

20

2

30

1

20

GSM 3 + UMTS 1

1

20

0

0

2

20

1

40

GSM 3 + UMTS 2

2

20

0

0

1

20

2

30

GSM 3 + UMTS 2

0

0

1

40

3

13

1

40

GSM 5 + UMTS 1

1

20

1

20

4

20

0

0

GSM 6 + UMTS 1

4

10

0

0

2

10

1

20


0

0

1

40

1

40

1

40


0

0

2

20

1

40

2

20


826




PA1

PA2










0

0

1

20

2

30

1

20


0

0

2

20

2

20

2

20


1

20

1

20

3

20

1

20


0

0

2

10

4

10

2

10

NOTE

(c) indicates that the configuration is not supported in SRAN8.1.

Table 6-1067 Output power for the RRU3942 (GL MSR, 1900 MHz, 2x60 W)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20


827


Mode







2

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

15

2x30

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

6 (c)

1 (MIMO) (c)

15 (c)

2x10 (c)

5, 10, 15, 20 (c)

Table 6-1068 Typical power configuration for the RRU3942 (GL MSR, 1900 MHz, 2x60 W, PA) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2







Nu mbe r of LTE FD D Carr iers

Out put Pow er per LTE FDD Carr ier (W)


1

40

1

20

0

0

1

20


1

30

1

30

0

0

1

30


1

20

1

40

0

0

1

40


1

40

1

20

1

40

1

20


828




PA1

PA2










1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


3

12

1

20

2

12

1

20


3

12

1

20

3

12

1

20

GSM 6 + LTE FDD 1 (MIMO) (c)

3 (c)

15 (c)

1 (c)

10 (c)

3 (c)

15 (c)

1 (c)

10 (c)

Table 6-1069 Output power for the RRU3942 (GL MSR, 1900 MHz, 40 W+80 W)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

5

1 (MIMO)

12

2x20

5, 10, 15, 20

6

1 (MIMO)

15

2x10

5, 10, 15, 20

7

1 (MIMO)

12

2x10

5, 10, 15, 20

7

1 (MIMO)

10

2x20

5, 10, 15, 20


829


Mode







8

1 (MIMO)

10

2x10

5, 10, 15, 20

Table 6-1070 Typical power configuration for the RRU3942 (GL MSR, 1900 MHz, 40 W+80 W, PA) Configuration Scenario (Total Number of Carriers)

PA1

PA2










1

12

1

20

4

12

1

20


2

15

1

10

4

15

1

10


2

12

1

10

5

12

1

10


2

10

1

20

5

10

1

20


2

10

1

10

6

10

1

10

Table 6-1071 Output power for the RRU3942 (UL MSR, 850 MHz, 2x60 W)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

30

2x30

5

1

1 (MIMO)

20

2x40

10


830


Mode







1

1 (MIMO)

40

2x20

1.4

2

1 (MIMO)

30

2x30

1.4, 5

2

1 (MIMO)

40

2x20

1.4, 5

1 (MIMO)

2 (MIMO)

2x20

2x20

1.4, 5

1

2 (MIMO)

20

l Carrier 1: 2x10

l Carrier 1: 1.4

l Carrier 2: 2x30

l Carrier 2: 5

Table 6-1072 Typical power configuration for the RRU3942 (UL MSR, 850 MHz, 2x60 W, PA) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2






Outp ut Pow er per UMT S Carri er (W)




1

30

1

30

0

0

1

30


1

20

1

40

0

0

1

40


1

40

1

20

0

0

1

20


1

30

1

30

1

30

1

30


1

40

1

20

1

40

1

20


1

20

2

20

1

20

2

20


831





PA1

PA2









1

20

2

l C ar ri er 1: 10

0

0

2

l C ar ri er 1: 1 0

l C ar ri er 2: 30

l C ar ri er 2: 3 0

NOTE

(c) indicates that the configuration is not supported in SRAN8.1.

Table 6-1073 Output power for the RRU3942 (UL MSR, 1900 MHz, 2x60 W)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

2

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x30

2x30

1.4, 3, 5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x20

2x40

1.4, 3, 5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x40

2x20

1.4, 3, 5, 10, 15, 20


832


Mode







2 (MIMO)

1 (MIMO)

2x20

2x20

1.4, 3, 5, 10, 15, 20

1 (MIMO) + 2 (NonMIMO)

1 (MIMO)

2x10 (MIMO) + 20 (NonMIMO)

2x20

1.4, 3, 5, 10, 15, 20

3 (MIMO) (c)

1 (MIMO) (c)

2x15 (c)

2x15 (c)

1.4, 3, 5, 10, 15, 20

4 (MIMO) (c)

1 (MIMO) (c)

2x10 (c)

2x20 (c)

1.4, 3, 5, 10, 15, 20

Table 6-1074 Typical power configuration for the RRU3942 (UL MSR, 1900 MHz, 2x60 W, PA) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

30

1

30

1

30

1

30


1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


1

40

1

20

1

40

1

20


2

20

1

20

2

20

1

20


833




PA1

PA2










1 (MI MO) +1

10 (MIM O) + 20 (NonMIMO )

1

20

1 (MIM O) +1

10 (MIM O) + 20 (NonMIM O)

1

20

UMTS 3 (MIMO) + LTE FDD 1 (MIMO) (c)

3 (c)

15 (c)

1 (c)

15 (c)

3 (c)

15 (c)

1 (c)

15 (c)

UMTS 4 (MIMO) + LTE FDD 1 (MIMO) (c)

4(c)

10(c)

1(c)

20(c)

4(c)

10(c)

1(c)

20(c)

Table 6-1075 Output power for the RRU3942 (UL MSR, 1900 MHz, 40 W+80 W)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

40

2x40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20


834



Table 6-1076 Typical power configuration for the RRU3942 (UL MSR, 1900 MHz, 40 W+80 W, PA) Configuratio n Scenario (Total Number of Carriers)

PA1

PA2

Num ber of UM TS Carri ers









0

0

1

40

1

40

1

40


0

0

1

20

3

20

1

20


1

20

1

20

3

20

1

20

NOTE

(a) indicates that the configuration is supported from SRAN8.0 and the power values used by PA1 and PA2 cannot be interchanged when the configuration is applied.

Table 6-1077 Output power for the RRU3942 (GUL MSR, 1900 MHz, 2x60 W)

Issue 07 (2016-04-29)

Mode

Total Numbe r of GSM Carriers

Total Numbe r of UMTS Carriers

Total Numb er of LTE FDD Carrier s




Bandwi dth Suppor ted by LTE FDD (MHz)

GSM + UMTS + LTE FDD

1

1

1 (MIMO )

40

40

2x20

5, 10

2

1

1 (MIMO )

20

40

2x20

5, 10

3

1

1 (MIMO )

12

40

2x20

5, 10


835


Mode

Issue 07 (2016-04-29)









4 (a)

1 (a)

1 (MIMO ) (a)

10 (a)

40 (a)

2x20 (a)

5, 10 (a)

1

2

1 (MIMO )

40

20

2x20

5, 10

2

2

1 (MIMO )

20

20

2x20

5, 10

3

2

1 (MIMO )

12

20

2x20

5, 10

4

2

1 (MIMO )

10

20

2x20

5, 10

1

1

1 (MIMO )

30

30

2x30

5, 10

2

1

1 (MIMO )

15

30

2x30

5, 10

1

2

1 (MIMO )

30

15

2x30

5, 10

2

2

1 (MIMO )

15

15

2x30

5, 10


836



Table 6-1078 Typical power configuration for the RRU3942 (GUL MSR, 1900 MHz, 2x60 W, PA) Configu ration Scenario (Total Number of Carriers )

Issue 07 (2016-04-29)

PA2

PA1 N u m be r of G S M Ca rri ers

O ut pu t Po we r pe r G S M Ca rri er (W )

N u m be r of U M TS Ca rri ers

Ou tpu t Po we r per U M TS Car rier (W )

N u m be r of LT E FD D Ca rri ers

Ou tpu t Po we r per LT E FD D Car rier (W)

Nu mb er of GS M Car rier s

Out put Po wer per GS M Car rier (W)

Nu mb er of UM TS Car rier s

Out put Po wer per UM TS Car rier (W)

Nu mb er of LT E FD D Car rier s

Out put Pow er per LTE FD D Carr ier (W)

GSM 1 + UMTS 1 + LTE FDD 1 (MIMO)

0

0

1

40

1

20

1

40

0

0

1

20


0

0

1

40

1

20

2

20

0

0

1

20


0

0

1

40

1

20

3

12

0

0

1

20

GSM 4 + UMTS 1 + LTE FDD 1 (MIMO) (a)

0 (a)

0 (a)

1 (a)

40 (a)

1 (a)

20 (a)

4 (a)

10 (a)

0 (a)

0 (a)

1 (a)

20 (a)


0

0

2

20

1

20

1

40

0

0

1

20


837


Configu ration Scenario (Total Number of Carriers )

Issue 07 (2016-04-29)


PA2














0

0

3

12

1

20

2

20

0

0

1

20


0

0

4

10

1

20

3

12

0

0

1

20

GSM 4 + UMTS 2 + LTE FDD 1 (MIMO) (a)

0 (a)

0(a )

2 (a)

20 (a)

1 (a)

20 (a)

4 (a)

10 (a)

0 (a)

0 (a)

1 (a)

20 (a)


0

0

1

30

1

30

1

30

0

0

1

30


0

0

1

30

1

30

2

15

0

0

1

30


838




PA2














0

0

2

15

1

30

1

30

0

0

1

30


0

0

2

15

1

30

2

15

0

0

1

30

Typical Power Configuration for RRU3952 An RRU3952 is a 2TX RF module that can work in GSM, UMTS, LTE FDD, GU, GL, UL mode. l

Table 6-1079 and Table 6-1080 provide the typical power configuration for the RRU3952 (GSM, 850MHz, 2x60W).

l

Table 6-1081 and Table 6-1082 provide the typical power configuration for the RRU3952 (UMTS, 850MHz, 2x60W).

l

Table 6-1083 and Table 6-1084 provide the typical power configuration for the RRU3952 (LTE FDD, 850MHz, 2x60W).

l

Table 6-1085 and Table 6-1086 provide the typical power configuration for the RRU3952 (GU non-MSR, 850MHz, 2x60W).

l

Table 6-1087 and Table 6-1088 provide the typical power configuration for the RRU3952 (GU MSR, 850MHz, 2x60W).

l

Table 6-1089 and Table 6-1090 provide the typical power configuration for the RRU3952 (GL MSR, 850MHz, 2x60W).

l

Table 6-1091 and Table 6-1092 provide the typical power configuration for the RRU3952 (UL MSR, 850MHz, 2x60W).

Issue 07 (2016-04-29)


839



l

Table 6-1093 and Table 6-1094 provide the typical power configuration for the RRU3952 (GSM, 850MHz, 40W+80W).

l

Table 6-1095 and Table 6-1096 provide the typical power configuration for the RRU3952 (UMTS, 850MHz, 40W+80W).

l

Table 6-1097 and Table 6-1098 provide the typical power configuration for the RRU3952 (GU non-MSR, 850MHz, 40W+80W).

l

Table 6-1099 and Table 6-1100 provide the typical power configuration for the RRU3952 (GU MSR, 850MHz, 40W+80W).

l

Table 6-1101 and Table 6-1102 provide the typical power configuration for the RRU3952 (GL MSR, 850MHz, 40W+80W).

l


l


l


l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the RRU3952 working in GSM mode: when the S1 configuration is applied, the maximum output power of each carrier on the RRU3952 is 80 W; when the S2 configuration is applied, the maximum output power of each carrier on the RRU3952 is 60 W. If the output power of 60 W or 80 W is required, the related license must be obtained. l The RRU3952 supports 2 x 60 W or 40 W + 80 W configuration. The "40 W + 80 W" configuration does not apply to typical scenarios. When this configuration is used, only power of channel B can be 80 W. l When two LTE carriers are configured, it is recommended that the power spectrum density (PSD) of the two carriers be set to the same value. Power spectrum density = Carrier output power/Carrier bandwidth (1.4 MHz and 3 MHz bandwidths are considered as 5 MHz bandwidth in this formula.)

Table 6-1079 Output power for the RRU3952 (GSM, 850MHz, 2x60W)

Issue 07 (2016-04-29)

mode




GSM

1

60

60

2

60

60


840



mode




3

30

30

4

30

30

5

20

25

6

20

25

7

15

20

8

15

20

Table 6-1080 Configuration of RRU3952 PAs (GSM, 850MHz, 2x60W)

Issue 07 (2016-04-29)

PA2








GSM 1

1

60

60

0

0

0

GSM 2

1

60

60

1

60

60

GSM 3

2

30

30

1

30

30

GSM 4

2

30

30

2

30

30

GSM 5

3

20

25

2

20

25

GSM 6

3

20

25

3

20

25

GSM 7

4

15

20

3

15

20

GSM 8

4

15

20

4

15

20


841



Table 6-1081 Output power for the RRU3952 (UMTS, 850MHz, 2x60W) mode



UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2x40

2 (MIMO)

2x30

3 (MIMO)

2x20

4 (MIMO)

2x15

Table 6-1082 Configuration of RRU3952 PAs (UMTS, 850MHz, 2x60W)

Issue 07 (2016-04-29)






UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

30

UMTS 4

2

30

2

30

UMTS 5

3

20

2

20

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

PA1

PA2


842



Table 6-1083 Output power for the RRU3952 (LTE FDD, 850MHz, 2x60W) mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

1 (MIMO)

2x40

1.4, 3

2 (MIMO)

2x30

1.4, 3, 5, 10, 15, 20

2 (MIMO)

l Carrier 1: 2x20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x40

Table 6-1084 Configuration of RRU3952 PAs (LTE FDD, 850MHz, 2x60W) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD2 (MIMO)

2

30

2

30

LTE FDD2 (MIMO)

2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40

l Carrier 2: 40

Table 6-1085 Output power for the RRU3952 (GU non-MSR, 850MHz, 2x60W)

Issue 07 (2016-04-29)

mode





GSM + UMTS

1

1

60

60

1

2

60

30

1

3

60

20

2

1

30

60

2

2

30

30

2

3

30

20


843



mode





2

4

30

15

3

1

20

60

3

2

20

30

3

3

20

20

3

4

20

15

4

1

15

60

4

2

15

30

4

3

15

20

4

4

15

15

5

1

10

60

5

2

10

30

5

3

10

20

6

1

7

60

6

2

7

30

Table 6-1086 Configuration of RRU3952 PAs (GU non-MSR, 850MHz, 2x60W) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2









GSM 1 + UMTS 1

1

60

0

0

0

0

1

60

GSM 1 + UMTS 2

1

60

0

0

0

0

2

30


844



Issue 07 (2016-04-29)


PA2









GSM 1 + UMTS 3

1

60

0

0

0

0

3

20

GSM 2 + UMTS 1

2

30

0

0

0

0

1

60

GSM 2 + UMTS 2

2

30

0

0

0

0

2

30

GSM 2 + UMTS 3

2

30

0

0

0

0

3

20

GSM 2 + UMTS 4

2

30

0

0

0

0

4

15

GSM 3 + UMTS 1

3

20

0

0

0

0

1

60

GSM 3 + UMTS 2

3

20

0

0

0

0

2

30

GSM 3 + UMTS 3

3

20

0

0

0

0

3

20

GSM 3 + UMTS 4

3

20

0

0

0

0

4

15


845



Issue 07 (2016-04-29)


PA2









GSM 4 + UMTS 1

4

15

0

0

0

0

1

60

GSM 4 + UMTS 2

4

15

0

0

0

0

2

30

GSM 4 + UMTS 3

4

15

0

0

0

0

3

20

GSM 4 + UMTS 4

4

15

0

0

0

0

4

15

GSM 5 + UMTS 1

5

10

0

0

0

0

1

60

GSM 5 + UMTS 2

5

10

0

0

0

0

2

30

GSM 5 + UMTS 3

5

10

0

0

0

0

3

20

GSM 6 + UMTS 1

6

7

0

0

0

0

1

60

GSM 6 + UMTS 2

6

7

0

0

0

0

2

30


846



Table 6-1087 Output power for the RRU3952 (GU MSR, 850MHz, 2x60W)

Issue 07 (2016-04-29)

mode





GSM + UMTS

1

2

30

30

1

2

20

40

2

1

40

20

2

1

30

30

2

2

20

40

2

2

30

30

2

2

40

20

3

1

30

30

3

1

20

40

3

2

20

20

3

2

15

30

4

1

20

40

4

2

20

20

4

2

15

30

5

1

20

20

5

1

15

30

5

2

13

20

6

1

15

30

6

2

12

20

7

1

10

20

1

1 (MIMO)

20

2x40

1

1 (MIMO)

30

2x30

1

1 (MIMO)

40

2x20

1

2 (MIMO)

20

2x20

2

1 (MIMO)

20

2x40

2

1 (MIMO)

30

2x30


847



mode





2

1 (MIMO)

40

2x20

2

2 (MIMO)

20

2x20

2

2 (MIMO)

30

2x15

3

1 (MIMO)

20

2x20

3

1 (MIMO)

15

2x30

3

2 (MIMO)

15

2x15

3

2 (MIMO)

20

2x10

3

2 (MIMO)

10

2x20

4

1 (MIMO)

20

2x20

4

1 (MIMO)

15

2x30

4

2 (MIMO)

15

2x15

4

2 (MIMO)

20

2x10

4

2 (MIMO)

10

2x20

Table 6-1088 Configuration of RRU3952 PAs (GU MSR, 850MHz, 2x60W) Configurati on Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2









GSM 1 + UMTS 2

1

30

1

30

0

0

1

30

GSM 1 + UMTS 2

1

20

1

40

0

0

1

40

GSM 2 + UMTS 1

1

40

1

20

1

40

0

0

GSM 2 + UMTS 1

1

30

1

30

1

30

0

0


848



Issue 07 (2016-04-29)


PA1

PA2









GSM 2 + UMTS 2

1

20

1

40

1

20

1

40

GSM 2 + UMTS 2

1

30

1

30

1

30

1

30

GSM 2 + UMTS 2

1

40

1

20

1

40

1

20

GSM 3 + UMTS 1

2

30

0

0

1

30

1

30

GSM 3 + UMTS 1

2

20

0

0

1

20

1

40

GSM 3 + UMTS 2

2

20

1

20

1

20

1

20

GSM 3 + UMTS 2

2

15

1

30

1

15

1

30

GSM 4 + UMTS 1

3

20

0

0

1

20

1

40

GSM 4 + UMTS 2

2

20

1

20

2

20

1

20

GSM 4 + UMTS 2

2

15

1

30

2

15

1

30

GSM 5 + UMTS 1

3

20

0

0

2

20

1

20

GSM 5 + UMTS 1

4

15

0

0

1

15

1

30

GSM 5 + UMTS 2

3

13

1

20

2

13

1

20

GSM 6 + UMTS 1

4

15

0

0

2

15

1

30

GSM 6 + UMTS 2

3

12

1

20

3

12

1

20


849



Issue 07 (2016-04-29)


PA1

PA2









GSM 7 + UMTS 1

5

10

0

0

2

10

1

20


1

20

1

40

0

0

1

40


1

30

1

30

0

0

1

30


1

40

1

20

0

0

1

20


1

20

2

20

0

0

2

20


1

20

1

40

1

20

1

40


1

30

1

30

1

30

1

30


1

40

1

20

1

40

1

20


1

20

2

20

1

20

2

20


1

30

2

15

1

30

2

15


2

20

1

20

1

20

1

20


850



Issue 07 (2016-04-29)


PA1

PA2










2

15

1

30

1

15

1

30


2

15

2

15

1

15

2

15


2

20

2

10

1

20

2

10


2

10

2

20

1

10

2

20


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


2

15

2

15

2

15

2

15


2

20

2

10

2

20

2

10


2

10

2

20

2

10

2

20


851



Table 6-1089 Output power for the RRU3952 (GL MSR, 850MHz, 2x60W) mode






GSM + LTE FDD

1

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

15

2x30

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

1

2 (MIMO)

20

l Carrier 1: 2x20

1.4, 3, 5, 10

l Carrier 2: 2x20 1

2 (MIMO)

20

l Carrier 1: 2x10

1.4, 3, 5, 10

l Carrier 2: 2x30 1

2 (MIMO)

30

l Carrier 1: 2x20

1.4, 3, 5, 10

l Carrier 2: 2x10

Issue 07 (2016-04-29)


852


mode







2

2 (MIMO)

20

l Carrier 1: 2x10

1.4, 3, 5, 10

l Carrier 2: 2x30 2

2 (MIMO)

20

l Carrier 1: 2x20

1.4, 3, 5, 10

l Carrier 2: 2x20 3

2 (MIMO)

10

l Carrier 1: 2x20

1.4, 3, 5, 10

l Carrier 2: 2x20 3

2 (MIMO)

15

l Carrier 1: 2x20

1.4, 3, 5, 10

l Carrier 2: 2x10 4

2 (MIMO)

20

l Carrier 1: 2x10

1.4, 3, 5, 10

l Carrier 2: 2x10 4

2 (MIMO)

10

l Carrier 1: 2x20

1.4, 3, 5, 10

l Carrier 2: 2x20 4

2 (MIMO)

15

l Carrier 1: 2x20

1.4, 3, 5, 10

l Carrier 2: 2x10

Issue 07 (2016-04-29)


853



Table 6-1090 Configuration of RRU3952 PAs (GL MSR, 850MHz, 2x60W) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

20

0

0

1

20


1

30

1

30

0

0

1

30


1

20

1

40

0

0

1

40


1

40

1

20

1

40

1

20


1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


3

12

1

20

2

12

1

20


3

12

1

20

3

12

1

20

GSM 1 + LTE FDD2 (MIMO)

1

20

2

20

0

0

2

20


854





PA1

PA2









1

20

2

l Car rier 1: 10

0

0

2

l C ar ri er 1: 1 0

l Car rier 2: 30


1

30

2

l Car rier 1: 20 l Car rier 2: 10

Issue 07 (2016-04-29)


l C ar ri er 2: 3 0 0

0

2

l C ar ri er 1: 2 0 l C ar ri er 2: 1 0

855





PA1

PA2









1

20

2

l Car rier 1: 10

1

20

2

l C ar ri er 1: 1 0

l Car rier 2: 30

l C ar ri er 2: 3 0


1

20

2

20

1

20

2

20


2

10

2

20

1

10

2

20


2

15

2

l Car rier 1: 20

1

15

2

l C ar ri er 1: 2 0

l Car rier 2: 10

Issue 07 (2016-04-29)

l C ar ri er 2: 1 0


2

20

2

10

2

20

2

10


2

10

2

20

2

10

2

20


856





PA1

PA2









2

15

2

l Car rier 1: 20

2

15

2

l C ar ri er 1: 2 0

l Car rier 2: 10

l C ar ri er 2: 1 0

Table 6-1091 Output power for the RRU3952 (UL MSR, 850MHz, 2x60W)

Issue 07 (2016-04-29)

mode






UMTS + LTE FDD

1 (MIMO)

1 (MIMO)

2x30

2x30

1.4, 3, 5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x20

2x40

1.4, 3, 5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x40

2x20

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

2 (MIMO)

1 (MIMO)

2x20

2x20

1.4, 3, 5, 10, 15, 20


857


mode







3

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

3 (MIMO)

1 (MIMO)

2x15

2x15

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4 (MIMO)

1 (MIMO)

2x10

2x20

1.4, 3, 5, 10, 15, 20

2+1 (MIMO)

1 (MIMO)

l NonMIMO carrier: 20

2x20

1.4, 3, 5, 10, 15, 20


Table 6-1092 Configuration of RRU3952 PAs (UL MSR, 850MHz, 2x60W) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2









UMTS 1 (MIMO)+ LTE FDD 1 (MIMO)

1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


1

40

1

20

1

40

1

20


1

30

1

30

1

30

1

30


858




PA1

PA2










2

20

1

20

2

20

1

20


2

20

1

20

1

20

1

20


3

15

1

15

3

15

1

15


2

20

1

20

2

20

1

20


4

10

1

20

4

10

1

20

UMTS 2 + UMTS 1 (MIMO)+ LTE FDD 1 (MIMO)

1+1 (MI MO)

l No nMI MO carr ier: 20

1

20

1+1 (MIM O)

l N on M I M O ca rri er: 20

1

20

l MI MO carr ier: 10

Issue 07 (2016-04-29)


l M I M O ca rri er: 10

859



Table 6-1093 Output power for the RRU3952 (GSM, 850MHz, 40W+80W) mode




GSM

1

80

80

2

40

40

3

40

40

4

27

27

5

20

20

6

20

20

7

16

20

8

13

15

Table 6-1094 Configuration of RRU3952 PAs (GSM, 850MHz, 40W+80W)

Issue 07 (2016-04-29)

Config uration Scenari o (Total Numbe r of Carriers )







GSM 1

0

0

0

1

80

80

GSM 2

l Scena rio 1: 1

l Scena rio 1: 40

l Scenario 1: 40

l Scenari o 1: 1

l Scenario 1: 40

l Scena rio 2: 0

l Scena rio 2: 0

l Scenario 2: 0

l Scenari o 2: 2

l Scena rio 1: 40

GSM 3

1

40

40

2

40

40

GSM 4

1

27

27

3

27

27

PA2

PA1


l Scena rio 2: 40

l Scenario 2: 40

860


Config uration Scenari o (Total Numbe r of Carriers )


PA2

PA1 Numbe r of GSM Carriers






l Scena rio 1: 1

l Scena rio 1: 20

l Scenario 1: 20

l Scenari o 1: 4

l Scenario 1: 20

l Scena rio 2: 2

l Scena rio 2: 20

l Scenario 2: 20

l Scenari o 2: 3

l Scena rio 1: 20

GSM 6

2

20

20

4

20

20

GSM 7

2

16

20

5

16

20

GSM 8

3

13

15

5

13

15

GSM 5

l Scenario 2: 20

l Scena rio 2: 20

Table 6-1095 Output power for the RRU3952 (UMTS, 850MHz, 40W+80W) mode



UMTS

1

80

3

40

6

20

Table 6-1096 Configuration of RRU3952 PAs (UMTS, 850MHz, 40W+80W)

Issue 07 (2016-04-29)






UMTS 1

0

0

1

80

UMTS 3

1

40

2

40

UMTS 6

2

20

4

20

PA1


PA2

861



Table 6-1097 Output power for the RRU3952 (GU non-MSR, 850MHz, 40W+80W)

Issue 07 (2016-04-29)

mode





GSM + UMTS

1

1

80

40

1

1

40

80

1

2

80

20

1

2

40

40

1

3

80

10

1

3

40

25

1

4

80

10

2

1

40

40

2

1

20

80

2

2

40

20

2

2

20

40

2

3

40

10

2

3

20

25

2

4

40

10

2

4

20

20

3

1

27

40

3

1

13

80

3

2

27

20

3

2

13

40

3

3

27

10

3

3

13

25

3

4

27

10

3

4

13

20

4

1

20

40

4

1

10

80

4

2

20

20

4

2

10

40


862



mode





4

3

20

10

4

3

10

25

4

4

20

10

4

4

10

20

5

1

16

40

5

2

16

20

5

3

16

10

6

1

12

40

6

2

12

20

7

1

6

40

Table 6-1098 Configuration of RRU3952 PAs (GU non-MSR, 850MHz, 40W+80W) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2









GSM 1 + UMTS 1

0

0

1

40

1

80

0

0

GSM 1 + UMTS 1

1

40

0

0

0

0

1

80

GSM 1 + UMTS 2

0

0

2

20

1

80

0

0


863



Issue 07 (2016-04-29)


PA2









GSM 1 + UMTS 2

1

40

0

0

0

0

2

40

GSM 1 + UMTS 3

0

0

3

10

1

80

0

0

GSM 1 + UMTS 3

1

40

0

0

0

0

3

25

GSM 1 + UMTS 4

0

0

4

10

1

80

0

0

GSM 2 + UMTS 1

0

0

1

40

2

40

0

0

GSM 2 + UMTS 1

2

20

0

0

0

0

1

80

GSM 2 + UMTS 2

0

0

2

20

2

40

0

0

GSM 2 + UMTS 2

2

20

0

0

0

0

2

40


864



Issue 07 (2016-04-29)


PA2









GSM 2 + UMTS 3

0

0

3

10

2

40

0

0

GSM 2 + UMTS 3

2

20

0

0

0

0

3

25

GSM 2 + UMTS 4

0

0

4

10

2

40

0

0

GSM 2 + UMTS 4

2

20

0

0

0

0

4

20

GSM 3 + UMTS 1

0

0

1

40

3

27

0

0

GSM 3 + UMTS 1

3

13

0

0

0

0

1

80

GSM 3 + UMTS 2

0

0

2

20

3

27

0

0

GSM 3 + UMTS 2

3

13

0

0

0

0

2

40


865



Issue 07 (2016-04-29)


PA2









GSM 3 + UMTS 3

0

0

3

10

3

27

0

0

GSM 3 + UMTS 3

3

13

0

0

0

0

3

25

GSM 3 + UMTS 4

0

0

4

10

3

27

0

0

GSM 3 + UMTS 4

3

13

0

0

0

0

4

20

GSM 4 + UMTS 1

0

0

1

40

4

20

0

0

GSM 4 + UMTS 1

4

10

0

0

0

0

1

80

GSM 4 + UMTS 2

0

0

2

20

4

20

0

0

GSM 4 + UMTS 2

4

10

0

0

0

0

2

40


866



Issue 07 (2016-04-29)


PA2









GSM 4 + UMTS 3

0

0

3

10

4

20

0

0

GSM 4 + UMTS 3

4

10

0

0

0

0

3

25

GSM 4 + UMTS 4

0

0

4

10

4

20

0

0

GSM 4 + UMTS 4

4

10

0

0

0

0

4

20

GSM 5 + UMTS 1

0

0

1

40

5

16

0

0

GSM 5 + UMTS 2

0

0

2

20

5

16

0

0

GSM 5 + UMTS 3

0

0

3

10

5

16

0

0

GSM 6 + UMTS 1

0

0

1

40

6

12

0

0


867




PA2









GSM 6 + UMTS 2

0

0

2

20

6

12

0

0

GSM 7 + UMTS 1

0

0

1

40

7

6

0

0

Table 6-1099 Output power for the RRU3952 (GU MSR, 850MHz, 40W+80W)

Issue 07 (2016-04-29)

mode





GSM + UMTS

1

2

40

40

1

3

40

20

1

4

40

20

2

1

40

40

2

2

40

20

2

3

30

20

3

1

20

40

3

2

20

30

3

2

13

40

5

1

20

20

6

1

10

20

1

1 (MIMO)

40

2x40

1

2 (MIMO)

40

2x20

2

1 (MIMO)

30

2x20


868



mode





2

2 (MIMO)

20

2x20

4

1 (MIMO)

20

2x20

4

2 (MIMO)

10

2x10

Table 6-1100 Configuration of RRU3952 PAs (GU MSR, 850MHz, 40W+80W) Configurati on Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2









GSM 1 + UMTS 2

0

0

1

40

1

40

1

40

GSM 1 + UMTS 3

0

0

1

20

1

40

2

20

GSM 1 + UMTS 4

0

0

2

20

1

40

2

20

GSM 2 + UMTS 1

1

40

0

0

1

40

1

40

GSM 2 + UMTS 2

1

40

0

0

1

40

2

20

GSM 2 + UMTS 3

0

0

2

20

2

30

1

20

GSM 3 + UMTS 1

1

20

0

0

2

20

1

40

GSM 3 + UMTS 2

2

20

0

0

1

20

2

30

GSM 3 + UMTS 2

0

0

1

40

3

13

1

40

GSM 5 + UMTS 1

1

20

1

20

4

20

0

0

GSM 6 + UMTS 1

4

10

0

0

2

10

1

20


869




PA1

PA2










0

0

1

40

1

40

1

40


0

0

2

20

1

40

2

20


0

0

1

20

2

30

1

20


0

0

2

20

2

20

2

20


1

20

1

20

3

20

1

20


0

0

2

10

4

10

2

10

Table 6-1101 Output power for the RRU3952 (GL MSR, 850MHz, 40W+80W)

Issue 07 (2016-04-29)

mode






GSM + LTE FDD

5

1 (MIMO)

12

2x20

5, 10, 15, 20

6

1 (MIMO)

15

2x10

5, 10, 15, 20

7

1 (MIMO)

12

2x10

5, 10, 15, 20

7

1 (MIMO)

10

2x20

5, 10, 15, 20

8

1 (MIMO)

10

2x10

5, 10, 15, 20


870



Table 6-1102 Configuration of RRU3952 PAs (GL MSR, 850MHz, 40W+80W) Configuration Scenario (Total Number of Carriers)

PA1

PA2










1

12

1

20

4

12

1

20


2

15

1

10

4

15

1

10


2

12

1

10

5

12

1

10


2

10

1

20

5

10

1

20


2

10

1

10

6

10

1

10


Issue 07 (2016-04-29)

Mode



UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2x60

2 (MIMO)

2x30

3 (MIMO)

2x20

4 (MIMO)

2 x 15


871



Mode



2 + 1 (MIMO)


4 + 1 (MIMO)


2 + 2 (MIMO)


4 + 2 (MIMO)


2 + 3 (MIMO)


Table 6-1104 Typical power configuration for RRU3952 PAs (UMTS, 2100 MHz)

Issue 07 (2016-04-29)






UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

60

UMTS 4

2

30

2

30

UMTS 5

3

20

2

30

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

60

1

60

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

UMTS 2 + 1 (MIMO)

2

30

2

30

PA1

PA2


872




PA1

PA2





UMTS 4 + 1 (MIMO)

3

20

3

20

UMTS 2 + 2 (MIMO)

3

20

3

20

UMTS 4 + 2 (MIMO)

4

15

4

15

UMTS 2 + 3 (MIMO)

4

15

4

15





LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

2 (MIMO)

2x30

5, 10, 15, 20

Table 6-1106 Typical power configuration of RRU3952 PAs (LTE FDD, 2100 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20


873



Table 6-1107 Output power for the RRU3952 (UL MSR, 2100 MHz) Mode






UMTS + LTE FDD

1

1 (MIMO)

30

2x30

5, 10, 15, 20

2

1 (MIMO)

30

2x30

5, 10, 15, 20

3

1 (MIMO)

20

2x20

5, 10, 15, 20

4

1 (MIMO)

20

2x20

5, 10, 15, 20

6

1 (MIMO)

15

2x15

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x30

2x30

5, 10, 15, 20

2 (MIMO)

1 (MIMO)

2x20

2x20

5, 10, 15, 20

3 (MIMO)

1 (MIMO)

2 x 15

2x15

5, 10, 15, 20

2

2 (MIMO)

20

2x20

5, 10, 15, 20

4

2 (MIMO)

15

2x15

5, 10, 15, 20

Table 6-1108 Typical power configuration for RRU3952 PAs (UL MSR, 2100 MHz) Confi gurati on Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2









UMTS 1+ LTE FDD 1 (MIM O)

1

30

1

30

0

0

1

30


1

30

1

30

1

30

1

30


874


Confi gurati on Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)


PA2










2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


3

15

1

15

3

15

1

15

UMTS 1 (MIM O) + LTE FDD 2 (MIM O)

1

30

1

30

1

30

1

30


2

20

1

20

2

20

1

20


875



Confi gurati on Scenar io (Total Numb er of Carrie rs)

PA2










3

15

1

15

3

15

1

15


1

20

2

20

1

20

2

20


2

15

2

15

2

15

2

15

Typical Power Configuration for RRU3953/RRU3953w An RRU3953/RRU3953w is a 2T module working in GSM, UMTS,LTE FDD, GU, GL, UL or GUL mode. l

Table 6-1109 and Table 6-1110 provide the typical power configuration of an RRU3953/ RRU3953w operating in the 900/1800/1900 MHz frequency band and working in GSM mode.

l

Table 6-1111 and Table 6-1112 provide the typical power configuration of an RRU3953 operating in the 900 MHz frequency band and working in UMTS mode.

l

Table 6-1113 and Table 6-1114 provide the typical power configuration of an RRU3953 operating in the 1900 MHz frequency band and working in UMTS mode.

l

Table 6-1115 and Table 6-1116 provide the typical power configuration of an RRU3953/ RRU3953w operating in the 1800/1900 MHz frequency band and working in LTE FDD mode.

l

Table 6-1117 and Table 6-1118 provide the typical power configuration of an RRU3953 operating in the 900/1900 MHz frequency band and working in GU non-MSR mode.

Issue 07 (2016-04-29)


876



l

Table 6-1119 and Table 6-1120 provide the typical power configuration of an RRU3953 operating in the 900/1900 MHz frequency band and working in GU MSR mode.

l

Table 6-1121 and Table 6-1122 provide the typical power configuration of an RRU3953/ RRU3953w operating in the 1800/1900 MHz frequency band and working in GL MSR mode.

l

Table 6-1123 and Table 6-1124 provide the typical power configuration of an RRU3953 operating in the 1900 MHz frequency band and working in UL MSR mode.

l

Table 6-1125 and Table 6-1126 provide the typical power configuration of an RRU3953 operating in the 1900 MHz frequency band and working in GUL MSR mode. NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the RRU3953/RRU3953w working in GSM mode: when the S1 or S2 configuration is applied, the maximum output power of each carrier on the RRU3953/RRU3953w is 60 W. If the output power of 60 W is required, the related license must be obtained. l When two LTE carriers are configured, it is recommended that the power spectrum density (PSD) of the two carriers be set to the same value. Power spectrum density = Carrier output power/Carrier bandwidth (1.4 MHz and 3 MHz bandwidths are considered as 5 MHz bandwidth in this formula.) l For RRU3953w, the scenario where the third-order intermodulated signal falls in the receive frequency range of a configured carrier is not supported. NOTE

l The RRU3953 supports a maximum of 2x80 W power configuration, and supports a maximum of 2 x 60 W power configuration working in GSM mode. l (a) indicates that when working in the 1900 MHz frequency band in GSM mode, the RRU3953 also supports the power configuration of 40 W+80 W. l (b) indicates that when only working in the 900 MHz frequency band, the RRU3953 supports the power configuration. l (c) indicates that when only working in the 1900 MHz frequency band, the RRU3953 supports the power configuration.

Table 6-1109 Output power of the RRU3953/RRU3953w (GSM, 900/1800/1900 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

60

60


877



Mode




2

60

60

3

30

30

4

30

30

5

20

25

6

20

25

7

15

20

8

15

20

1(a)

80(a)

80(a)

2(a)

40(a)

40(a)

3(a)

40(a)

40(a)

4(a)

27(a)

27(a)

5(a)

20(a)

20(a)

6(a)

20(a)

20(a)

7(a)

16(a)

20(a)

Table 6-1110 Typical power configuration of the RRU3953/RRU3953w (GSM, 900/1800/1900 MHz, PA)

Issue 07 (2016-04-29)








GSM 1

1

60

60

0

0

0

PA2

PA1


878




PA2







GSM 2

1

60

60

1

60

60

GSM 3

2

30

30

1

30

30

GSM 4

2

30

30

2

30

30

GSM 5

3

20

25

2

20

25

GSM 6

3

20

25

3

20

25

GSM 7

4

15

20

3

15

20

GSM 8

4

15

20

4

15

20

GSM 1(a)

0(a)

0(a)

0(a)

1(a)

80(a)

80(a)

GSM 2(a)

1(a)

40(a)

40(a)

1(a)

40(a)

40(a)

GSM 3(a)

1(a)

40(a)

40(a)

2(a)

40(a)

40(a)

GSM 4(a)

1(a)

27(a)

27(a)

3(a)

27(a)

27(a)

GSM 5(a)

2(a)

20(a)

20(a)

3(a)

20(a)

20(a)

GSM 6(a)

2(a)

20(a)

20(a)

4(a)

20(a)

20(a)

GSM 7(a)

2(a)

16(a)

20(a)

5(a)

16(a)

20(a)

PA1


Issue 07 (2016-04-29)

Mode



UMTS

1

80

2

80

3

40

4

40


879



Mode



5

26

6

26

1(MIMO)

2x60

2(MIMO)

2x40

3(MIMO)

2x26

4(MIMO)

2x20

Table 6-1112 Typical power configuration for the RRU3953 (UMTS, 900 MHz, PA) PA1

PA2






UMTS 1

1

80

0

0

UMTS 2

1

80

1

80

UMTS 3

2

40

1

40

UMTS 4

2

40

2

40

UMTS 5

3

26

2

26

UMTS 6

3

26

3

26

UMTS 1(MIMO)

1

60

1

60

UMTS 2(MIMO)

2

40

2

40

UMTS 3(MIMO)

3

26

3

26

UMTS 4(MIMO)

4

20

4

20


Issue 07 (2016-04-29)

Mode



UMTS

1

80


880



Mode



2

80

3

40

4

40

5

25

6

25

1 (MIMO)

2x40

2 (MIMO)

2x40

3 (MIMO)

2x20

4 (MIMO)

2x20

Table 6-1114 Typical power configuration for the RRU3953 (UMTS, 1900 MHz, PA)

Issue 07 (2016-04-29)






UMTS 1

1

80

0

0

UMTS 2

1

80

1

80

UMTS 3

2

40

1

40

UMTS 4

2

40

2

40

UMTS 5

3

25

2

25

UMTS 6

3

25

3

25

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

40

2

40

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

20

4

20

PA1

PA2


881



NOTE

The RRU3953 supports LTE cells with bandwidth of 1.4/3/5/10/15/20 MHz. The RRU3953w supports LTE cells with bandwidth of 5/10/15/20 MHz.

Table 6-1115 Output power for the RRU3953/RRU3953w (LTE FDD, 1800 MHz/1900 MHz) Mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

1 (MIMO)

2x40

1.4, 3

2 (MIMO)

2x40

1.4, 3, 5, 10, 15, 20

Table 6-1116 Typical power configuration for the RRU3953/RRU3953w (LTE FDD, 1800 MHz/1900 MHz, PA) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

40

2

40

Table 6-1117 Output power for the RRU3953 (GU non-MSR, 900 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1(c)

1(c)

80(c)

80(c)

1(c)

2(c)

80(c)

40(c)

1(c)

3(c)

80(c)

27(c)

1(c)

4(c)

80(c)

20(c)

2

1

40

80

2

2

40

40


882



Mode





2

3

40

27

2

4

40

20

3

1

27

80

3

2

27

40

3

3

27

27

3

4

27

20

4

1

20

80

4

2

20

40

4

3

20

27

4

4

20

20

5

1

16

80

5

2

16

40

5

3

16

27

6

1

12

80

6

2

12

40

6(c)

3(c)

10(c)

27(c)

7(c)

1(c)

6(c)

80(c)

Table 6-1118 Output power for the RRU3953 (GU non-MSR, 900 MHz/1900 MHz, PA) Config uratio n Scenar io (Total Numb er of Carrie rs) GSM 1 + UMTS 1 (c) Issue 07 (2016-04-29)

PA2









1(c)

80(c)

0(c)

0(c)

0(c)

0(c)

1(c)

80(c)


883



Issue 07 (2016-04-29)


PA2









GSM 1 + UMTS 2 (c)

1(c)

80(c)

0(c)

0(c)

0(c)

0(c)

2(c)

40(c)

GSM 1 + UMTS 3 (c)

1(c)

80(c)

0(c)

0(c)

0(c)

0(c)

3(c)

27(c)

GSM 1 + UMTS 4 (c)

1(c)

80(c)

0(c)

0(c)

0(c)

0(c)

4(c)

20(c)

GSM 2 + UMTS 1

2

40

0

0

0

0

1

80

GSM 2 + UMTS 2

2

40

0

0

0

0

2

40

GSM 2 + UMTS 3

2

40

0

0

0

0

3

27

GSM 2 + UMTS 4

2

40

0

0

0

0

4

20

GSM 3 + UMTS 1

3

27

0

0

0

0

1

80

GSM 3 + UMTS 2

3

27

0

0

0

0

2

40


884



Issue 07 (2016-04-29)


PA2









GSM 3 + UMTS 3

3

27

0

0

0

0

3

27

GSM 3 + UMTS 4

3

27

0

0

0

0

4

20

GSM 4 + UMTS 1

4

20

0

0

0

0

1

80

GSM 4 + UMTS 2

4

20

0

0

0

0

2

40

GSM 4 + UMTS 3

4

20

0

0

0

0

3

27

GSM 4 + UMTS 4

4

20

0

0

0

0

4

20

GSM 5 + UMTS 1

5

16

0

0

0

0

1

80

GSM 5 + UMTS 2

5

16

0

0

0

0

2

40

GSM 5 + UMTS 3

5

16

0

0

0

0

3

27


885




PA2









GSM 6 + UMTS 1

6

12

0

0

0

0

1

80

GSM 6 + UMTS 2

6

12

0

0

0

0

2

40

GSM 6 + UMTS 3 (c)

6(c)

10(c)

0(c)

0(c)

0(c)

0(c)

3(c)

27(c)

GSM 7 + UMTS 1 (c)

7(c)

6(c)

0(c)

0(c)

0(c)

0(c)

1(c)

80(c)

Table 6-1119 Output power for the RRU3953 (GU MSR, 900 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1(b)

1(b)

30(b)

50(b)

1(b)

2(b)

30(b)

50(b)

1

1

40

40

1

2

40

40

1

3

40

40

1(b)

4(b)

40(b)

20(b)

1(c)

4(c)

40(c)

27(c)

2(b)

1(b)

30(b)

50(b)

2

1

40

40


886


Mode

Issue 07 (2016-04-29)






2(b)

2(b)

30(b)

50(b)

2

2

40

40

2(b)

3(b)

20(b)

40(b)

2

3

40

20

2(b)

4(b)

40(b)

20(b)

3

1

40

40

3

2

20

40

3(b)

2(b)

25(b)

30(b)

3(b)

2(b)

30(b)

20(b)

3(b)

3(b)

25(b)

25(b)

3(b)

3(b)

20(b)

30(b)

3(b)

4(b)

20(b)

20(b)

4

1

20

40

4(b)

1(b)

27(b)

40(b)

4

2

20

40

4(b)

2(b)

25(b)

30(b)

4(b)

2(b)

30(b)

20(b)

4(b)

3(b)

15(b)

20(b)

4(b)

4(b)

15(b)

25(b)

5

1

20

40

5(b)

1(b)

27(b)

27(b)

5

2

20

20

5

2

15

30

5(b)

2(b)

20(b)

30(b)

6

1

20

40

6

2

20

20

6(c)

2(c)

15(c)

30(c)

7(c)

1(c)

15(c)

30(c)

7(b)

1(b)

16(b)

30(b)


887


Mode

Issue 07 (2016-04-29)






7(b)

1(b)

20(b)

20(b)

1(b)

1(MIMO)(b)

30(b)

2x50 (b)

1

1(MIMO)

40

2x40

2(b)

1(MIMO)(b)

30(b)

2x50 (b)

2

1(MIMO)

40

2x40

3

1(MIMO)

20

2x40

3(b)

1(MIMO)(b)

25(b)

2x30 (b)

4

1(MIMO)

20

2x40

4(b)

1(MIMO)(b)

25(b)

2x30 (b)

4(b)

1(MIMO)(b)

30(b)

2x20 (b)

1(b)

2(MIMO)(b)

20(b)

2x30 (b)

1

2(MIMO)

40

2x20

2(b)

2(MIMO)(b)

20(b)

2x30 (b)

2

2(MIMO)

40

2x20

3(b)

2(MIMO)(b)

15(b)

2x20 (b)

3

2(MIMO)

20

2x20

4(b)

2(MIMO)(b)

15(b)

2x20 (b)

4(c)

2(MIMO)(c)

20(c)

2x20 (c)

1(b)

3(MIMO)(b)

20(b)

2x20 (b)

2(b)

3(MIMO)(b)

15(b)

2x20 (b)


888



Table 6-1120 Output power for the RRU3953 (GU MSR, 900 MHz/1900 MHz, PA) Configurati on Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2









GSM 1 + UMTS 1(b)

1(b)

30(b)

1(b)

50(b)

0(b)

0(b)

0(b)

0(b)

GSM 1 + UMTS 1

1

40

1

40

0

0

0

0

GSM 1 + UMTS 2(b)

1(b)

30(b)

1(b)

50(b)

0(b)

0(b)

1(b)

50(b)

GSM 1 + UMTS 2

1

40

1

40

0

0

1

40

GSM 1 + UMTS 3

1

40

1

40

0

0

2

40

GSM 1 + UMTS 4(b)

1(b)

40(b)

2(b)

20(b)

0(b)

0(b)

2(b)

20(b)

GSM 1 + UMTS 4(c)

1(c)

40(c)

1(c)

27(c)

0(c)

0(c)

3(c)

27(c)

GSM 2 + UMTS 1(b)

1(b)

30(b)

1(b)

50(b)

1(b)

30(b)

0(b)

0(b)

GSM 2 + UMTS 1

1

40

1

40

1

40

0

0

GSM 2 + UMTS 2(b)

1(b)

30(b)

1(b)

50(b)

1(b)

30(b)

1(b)

50(b)

GSM 2 + UMTS 2

1

40

1

40

1

40

1

40

GSM 2 + UMTS 3(b)

2(b)

20(b)

2(b)

40(b)

0(b)

0(b)

1(b)

40(b)

GSM 2 + UMTS 3

1

40

2

20

1

40

1

20

GSM 2 + UMTS 4(b)

1(b)

40(b)

2(b)

20(b)

1(b)

40(b)

2(b)

20(b)

GSM 3 + UMTS 1

2

40

0

0

1

40

1

40


889



Issue 07 (2016-04-29)


PA1

PA2









GSM 3 + UMTS 2

2

20

1

40

1

20

1

40

GSM 3 + UMTS 2(b)

2(b)

25(b)

1(b)

30(b)

1(b)

25(b)

1(b)

30(b)

GSM 3 + UMTS 2(b)

2(b)

30(b)

1(b)

20(b)

1(b)

30(b)

1(b)

20(b)

GSM 3 + UMTS 3(b)

2(b)

25(b)

1(b)

25(b)

1(b)

25(b)

2(b)

25(b)

GSM 3 + UMTS 3(b)

2(b)

20(b)

1(b)

30(b)

1(b)

20(b)

2(b)

30(b)

GSM 3 + UMTS 4(b)

2(b)

20(b)

1(b)

20(b)

1(b)

20(b)

2(b)

20(b)

GSM 4 + UMTS 1(c)

2(c)

20(c)

1(c)

40(c)

2(c)

20(c)

0(c)

0(c)

GSM 4 + UMTS 1(b)

3(b)

27(b)

1(b)

40(b)

1(b)

27(b)

0(b)

40(b)

GSM 4 + UMTS 2

2

20

1

40

2

20

1

40

GSM 4 + UMTS 2(b)

2(b)

25(b)

1(b)

30(b)

2(b)

25(b)

1(b)

30(b)

GSM 4 + UMTS 2(b)

2(b)

30(b)

1(b)

20(b)

2(b)

30(b)

1(b)

20(b)

GSM 4 + UMTS 3(b)

2(b)

15(b)

2(b)

20(b)

2(b)

15(b)

1(b)

20(b)

GSM 4 + UMTS 4(b)

2(b)

15(b)

2(b)

25(b)

2(b)

15(b)

2(b)

25(b)

GSM 5 + UMTS 1(c)

3(c)

20(c)

0(c)

0(c)

2(c)

20(c)

1(c)

40(c)

GSM 5 + UMTS 1(b)

4(b)

20(b)

0(b)

0(b)

1(b)

20(b)

1(b)

40(b)


890



Issue 07 (2016-04-29)


PA1

PA2









GSM 5 + UMTS 1(b)

3(b)

27(b)

0(b)

0(b)

2(b)

27(b)

1(b)

27(b)

GSM 5 + UMTS 2

3

20

1

20

2

20

1

20

GSM 5 + UMTS 2(b)

4(b)

20(b)

0(b)

0(b)

1(b)

20(b)

2(b)

30(b)

GSM 5 + UMTS 2

3

15

1

30

2

15

1

30

GSM 6 + UMTS 1

4

20

0

0

2

20

1

40

GSM 6 + UMTS 2

3

20

1

20

3

20

1

20

GSM 6 + UMTS 2(b)

3(b)

20(b)

1(b)

20(b)

3(b)

20(b)

1(b)

20(b)

GSM 6 + UMTS 2(c)

3(c)

15(c)

1(c)

30(c)

3(c)

15(c)

1(c)

30(c)

GSM 7 + UMTS 1(c)

4(c)

15(c)

0(c)

0(c)

3(c)

15(c)

1(c)

30(c)

GSM 7 + UMTS 1(b)

5(b)

16(b)

0(b)

30(b)

2(b)

16(b)

1(b)

30(b)

GSM 7 + UMTS 1(b)

4(b)

20(b)

0(b)

20(b)

3(b)

20(b)

1(b)

20(b)

GSM 1 + UMTS 1(MIMO)(b)

1(b)

30(b)

1(b)

50(b)

0(b)

0(b)

1(b)

50(b)

GSM 1 + UMTS 1(MIMO)

1

40

1

40

0

0

1

40


1(b)

30(b)

1(b)

50(b)

1(b)

30(b)

1(b)

50(b)


891



Issue 07 (2016-04-29)


PA1

PA2










1

40

1

40

1

40

1

40


2

20

1

40

1

20

1

40


2(b)

25(b)

1(b)

30(b)

1(b)

25(b)

1(b)

30(b)


2

20

1

40

2

20

1

40


2(b)

25(b)

1(b)

30(b)

2(b)

25(b)

1(b)

30(b)


2(b)

30(b)

1(b)

20(b)

2(b)

30(b)

1(b)

20(b)


1(b)

20(b)

2(b)

30(b)

0(b)

20(b)

2(b)

30(b)


1

40

2

20

0

0

2

20


1(b)

20(b)

2(b)

30(b)

1(b)

20(b)

2(b)

30(b)


1

40

2

20

1

40

2

20


2(b)

15(b)

2(b)

20(b)

1(b)

15(b)

2(b)

20(b)


892




PA1

PA2









GSM 3 + UMTS 2(MIMO)(c)

2(c)

20(c)

2(c)

20(c)

1(c)

20(c)

2(c)

20(c)


2(b)

15(b)

2(b)

20(b)

1(b)

15(b)

2(b)

20(b)

GSM 4 + UMTS 2(MIMO)(c)

2(c)

20(c)

2(c)

20(c)

2(c)

20(c)

2(c)

20(c)


1(b)

20(c)

3(b)

20(c)

0(b)

0(b)

3(b)

20(c)


1(b)

15(b)

3(b)

20(c)

1(b)

15(b)

3(b)

20(c)

NOTE

l The RRU3953 supports LTE cells with bandwidth of 1.4/3/5/10/15/20 MHz. The RRU3953w supports LTE cells with bandwidth of 5/10/15/20 MHz.

Table 6-1121 Output power for the RRU3953/RRU3953w (GL MSR, 1800 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

40

2x40

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

30

2x50

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

40

2x40

1.4, 3, 5, 10, 15, 20


893


Mode







2

1 (MIMO)

30

2x50

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

25

2x30

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

30

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

25

2x30

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

30

2x20

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

16

2x30

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

7(c)

1 (MIMO) (c)

15(c)

2x20(c)

1.4, 3, 5, 10, 15, 20(c)

1

2 (MIMO)

20

2x30

1.4, 3, 5, 10, 15, 20

1

2 (MIMO)

20

l Carrier 1: 2x40

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x20 1(c)

2 (MIMO) (c)

30(c)

l Carrier 1: 2x20(c)

1.4, 3, 5, 10, 15, 20(c)

l Carrier 2: 2x30(c) 1(c)

Issue 07 (2016-04-29)

2 (MIMO) (c)

40(c)


2x20(c)

1.4, 3, 5, 10, 15, 20(c)

894


Mode







2

2 (MIMO)

20

2x30

1.4, 3, 5, 10, 15, 20

2

2 (MIMO)

20

l Carrier 1: 2x40

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x20 2(c)

2 (MIMO) (c)

30(c)

l Carrier 1: 2x20(c)

1.4, 3, 5, 10, 15, 20(c)

l Carrier 2: 2x30(c) 2(c)

2 (MIMO) (c)

40(c)

2x20(c)

1.4, 3, 5, 10, 15, 20(c)

3

2 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

3

2 (MIMO)

20

l Carrier 1: 2x25

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x15 4

2 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

2 (MIMO)

20

l Carrier 1: 2x25

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x15 4

2 (MIMO)

10

l Carrier 1: 2x40

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x20

Issue 07 (2016-04-29)


895



Table 6-1122 Typical power configuration for the RRU3953/RRU3953w (GL MSR, 1800 MHz/1900 MHz, PA) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

40

0

0

1

40


1

30

1

50

0

0

1

50


1

40

1

40

1

40

1

40


1

30

1

50

1

30

1

50


2

20

1

40

1

20

1

40


2

25

1

30

1

25

1

30


2

30

1

20

1

30

1

20


2

20

1

40

2

20

1

40


2

25

1

30

2

25

1

30


2

30

1

20

2

30

1

20


3

20

1

20

2

20

1

20


3

16

1

30

2

16

1

30


3

20

1

20

3

20

1

20


896




PA1

PA2










4(c)

15(c)

1(c)

20(c)

3(c)

15(c)

1(c)

20(c )


1

20

2

30

0

0

2

30


1

20

2

l Car rier 1: 40

0

0

2

l C a r r i e r 1 : 4 0

l Car rier 2: 20

l C a r r i e r 2 : 2 0

Issue 07 (2016-04-29)


897




GSM 1 + LTE FDD2 (MIMO) (c)

PA1

PA2









1(c)

30(c)

2(c)

l Car rier 1: 20( c)

0(c)

0(c)

2(c)

l C a r r i e r 1 : 2 0( c )


l C a r r i e r 2 : 3 0( c )

Issue 07 (2016-04-29)


1(c)

40(c)

2(c)

20(c)

0(c)

0(c)

2(c)

20(c )


1

20

2

30

1

20

2

30


898





PA1

PA2









1

20

2

l Car rier 1: 40

1

20

2

l C a r r i e r 1 : 4 0

l Car rier 2: 20

l C a r r i e r 2 : 2 0

Issue 07 (2016-04-29)


899





PA1

PA2









1(c)

30(c)

2(c)


1(c)

30(c)

2(c)

l C a r r i e r 1 : 2 0( c )


l C a r r i e r 2 : 3 0( c )

Issue 07 (2016-04-29)


1(c)

40(c)

2(c)

20(c)

1(c)

40(c)

2(c)

20(c )


2

20

2

20

1

20

2

20


900





PA1

PA2









2

20

2

l Car rier 1: 25

1

20

2

l C a r r i e r 1 : 2 5

l Car rier 2: 15

l C a r r i e r 2 : 1 5 GSM 4 + LTE FDD 2 (MIMO)

Issue 07 (2016-04-29)

2

20

2

20


2

20

2

20

901





PA1

PA2









2

20

2

l Car rier 1: 25

2

20

2

l C a r r i e r 1 : 2 5

l Car rier 2: 15

l C a r r i e r 2 : 1 5

Issue 07 (2016-04-29)


902





PA1

PA2









2

10

2

l Car rier 1: 40

2

10

2

l C a r r i e r 1 : 4 0

l Car rier 2: 20

l C a r r i e r 2 : 2 0

Table 6-1123 Output power for the RRU3953 (UL MSR, 1900 MHz)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

40

2x40

1.4, 3, 5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x40

2x40

1.4, 3, 5, 10, 15, 20


903


Mode







2

1 (MIMO)

40

2x40

1.4, 3, 5, 10, 15, 20

2 (MIMO)

1 (MIMO)

2x20

2x40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

3 (MIMO)

1 (MIMO)

2 x 15

2x30

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4 (MIMO)

1 (MIMO)

2 x 15

2x20

1.4, 3, 5, 10, 15, 20

1

2 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

1

2 (MIMO)

20

l Carrier 1: 2x20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x40 1

2 (MIMO)

20

2x30

1.4, 3, 5, 10, 15, 20

2

2 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

2

2 (MIMO)

20

l Carrier 1: 2x20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x40

Issue 07 (2016-04-29)

2

2 (MIMO)

20

2x30

1.4, 3, 5, 10, 15, 20

3

2 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

2 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20


904


Mode







2+1 (MIMO)

1 (MIMO)

l NonMIMO: 20

2x20

1.4, 3, 5, 10, 15, 20

l MIMO: 2x10

Table 6-1124 Output power for the RRU3953 (UL MSR, 1900 MHz, PA) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

40

0

0

1

40


1

40

1

40

1

40

1

40


1

40

1

40

1

40

1

40


2

20

1

40

2

20

1

40


2

20

1

40

1

20

1

40


3

15

1

30

3

15

1

30


2

20

1

20

2

20

1

20


4

15

1

20

4

15

1

20


905




PA1

PA2










1

40

2

20

0

0

2

20


1

20

2

l C ar ri er 1: 20

0

0

2

l C ar ri er 1: 2 0

l C ar ri er 2: 40

l C ar ri er 2: 4 0


1

20

2

30

0

0

2

30


1

40

2

20

1

40

2

20


1

20

2

l C ar ri er 1: 20

1

20

2

l C ar ri er 1: 2 0

l C ar ri er 2: 40

UMTS 2 + LTE FDD 2 (MIMO) Issue 07 (2016-04-29)

1

20

2

30


l C ar ri er 2: 4 0 1

20

2

30

906




PA1

PA2










2

20

2

20

1

20

2

20


2

20

2

20

2

20

2

20

UMTS 2 + UMTS 1 (MIMO)+ LTE FDD 2 (MIMO)

1 (MI MO) +1

10 (MIM O)+ 20 (NonMIMO )

1

20

1 (MIM O)+ 1

10 (MIM O) + 20 (NonMIM O)

1

20

Table 6-1125 Output power for the RRU3953 (GUL MSR, 1900 MHz)

Issue 07 (2016-04-29)

Mode









1

1

1 (MIMO )

40

40

2x40

1.4, 3, 5, 10, 15, 20

2

1

1 (MIMO )

20

40

2x40

1.4, 3, 5, 10, 15, 20

3

1

1 (MIMO )

20

40

2x20

1.4, 3, 5, 10, 15, 20

4

1

1 (MIMO )

10

40

2x20

1.4, 3, 5, 10, 15, 20


907


Mode









1

2

1 (MIMO )

40

20

2x40

1.4, 3, 5, 10, 15, 20

2

2

1 (MIMO )

20

20

2x40

1.4, 3, 5, 10, 15, 20

3

2

1 (MIMO )

20

20

2x20

1.4, 3, 5, 10, 15, 20

4

2

1 (MIMO )

10

20

2x20

1.4, 3, 5, 10, 15, 20

Table 6-1126 Typical power configuration for the RRU3953 (GUL MSR, 1900 MHz, PA) Configu ration Scenario (Total Number of Carriers )


Issue 07 (2016-04-29)

PA2













1

40

0

0

1

40

0

0

1

40

1

40


908



Issue 07 (2016-04-29)


PA2














2

20

0

0

1

40

0

0

1

40

1

40


3

20

0

0

1

20

0

0

1

40

1

20


4

10

0

0

1

20

0

0

1

40

1

20


1

40

0

0

1

40

0

0

2

20

1

40


2

20

0

0

1

40

0

0

2

20

1

40


909




PA2














3

20

0

0

1

20

0

0

2

20

1

20


4

10

0

0

1

20

0

0

2

20

1

20

Typical Power Configuration for RRU3958 An RRU3958 is a 2TX RF module that can work in UMTS, LTE FDD, or UL mode. l


l


l


l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l When two LTE carriers are configured, it is recommended that the power spectrum density (PSD) of the two carriers be set to the same value. Power spectrum density = Carrier output power/Carrier bandwidth (1.4 MHz and 3 MHz bandwidths are considered as 5 MHz bandwidth in this formula.)

Issue 07 (2016-04-29)


910






UMTS

1

40

2

40

3

20

4

20

5

13

6

13

1 (MIMO)

2x40

2 (MIMO)

2x20

3 (MIMO)

2x13

4 (MIMO)

2x10

2 + 1 (MIMO)


2 + 2 (MIMO)


2 + 3 (MIMO)


4 + 1 (MIMO)


4 + 2 (MIMO)


6 + 1 (MIMO)


Table 6-1128 Typical power configuration for RRU3958 PAs (UMTS, 2100 MHz)

Issue 07 (2016-04-29)






UMTS 1

1

40

0

0

UMTS 2

1

40

1

40

PA1

PA2


911




PA1

PA2





UMTS 3

2

20

1

40

UMTS 4

2

20

2

20

UMTS 5

3

13

2

20

UMTS 6

3

13

3

13

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

20

2

20

UMTS 3 (MIMO)

3

13

3

13

UMTS 4 (MIMO)

4

10

4

10

UMTS 2 + 1 (MIMO)

2

20

2

20

UMTS 2 + 2 (MIMO)

3

13

3

13

UMTS 2 + 3 (MIMO)

4

10

4

10

UMTS 4 + 1 (MIMO)

3

13

3

13

UMTS 4 + 2 (MIMO)

4

10

4

10

UMTS 6 + 1 (MIMO)

4

10

4

10

Table 6-1129 Output power for the RRU3958 (LTE FDD, 2100 MHz)

Issue 07 (2016-04-29)

Mode




LTE FDD

1 (MIMO)

2x40

5, 10, 15, 20

2 (MIMO)

2x20

5, 10, 15, 20


912



Table 6-1130 Typical power configuration of RRU3958 PAs (LTE FDD, 2100 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20


Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

20

2x20

5, 10, 15, 20

2

1 (MIMO)

20

2x20

5, 10, 15, 20

3

1 (MIMO)

13

2x13

5, 10, 15, 20

4

1 (MIMO)

13

2x13

5, 10, 15, 20

6

1 (MIMO)

10

2x10

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x20

2x20

5, 10, 15, 20

2 (MIMO)

1 (MIMO)

2x13

2x13

5, 10, 15, 20

3 (MIMO)

1 (MIMO)

2x10

2x10

5, 10, 15, 20

2

2 (MIMO)

13

2x13

5, 10, 15, 20

4

2 (MIMO)

10

2x10

5, 10, 15, 20


913



Table 6-1132 Typical power configuration for RRU3958 PAs (UL MSR, 2100 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2










1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

13

1

13

1

13

1

13


2

13

1

13

2

13

1

13


3

10

1

10

3

10

1

10


1

20

1

20

1

20

1

20


914




PA2










2

13

1

13

2

13

1

13


3

10

1

10

3

10

1

10


1

13

2

13

1

13

2

13


2

10

2

10

2

10

2

10

Typical Power Configuration for RRU3959/RRU3959w An RRU3959/RRU3959w is a 2TX RF module that can work in GSM, UMTS, LTE FDD, GU, or GL mode.

Typical Power Configuration for RRU3959/RRU3959w l

Table 6-1133 and Table 6-1134 provide the typical power configuration for the RRU3959 (GSM, 900 MHz/1800 MHz).

l


Issue 07 (2016-04-29)


915



l


l


l


l

Table 6-1143 and Table 6-1144 provide the typical power configuration for the RRU3959 (GL MSR, 1800 MHz).

l

Table 6-1145 and Table 6-1146 provide the typical power configuration for the RRU3959w (LTE FDD, 1800 MHz).

l

Table 6-1147 and Table 6-1148 provide the typical power configuration for the RRU3959w (GL MSR, 1800 MHz).

l

Table 6-1149 and Table 6-1150 provide the typical power configuration for the RRU3959 (UMTS, 2100MHz).

l

Table 6-1151 and Table 6-1152 provide the typical power configuration for the RRU3959 (LTE FDD, 2100MHz).

l

Table 6-1153 and Table 6-1154 provide the typical power configuration for the RRU3959 (UL MSR, 2100MHz). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l For the RRU3959/RRU3959w working in GSM mode: when the S1 or S2 configuration is applied, the maximum output power of each carrier on the RRU3959 is 60 W. If the output power of 60 W is required, the related license must be obtained. l When two LTE carriers are configured, it is recommended that the power spectrum density (PSD) of the two carriers be set to the same value. Power spectrum density = Carrier output power/Carrier bandwidth (1.4 MHz and 3 MHz bandwidths are considered as 5 MHz bandwidth in this formula.) l For RRU3959w, the scenario where the third-order intermodulated signal falls in the receive frequency range of a configured carrier is not supported.

Table 6-1133 Output power for the RRU3959 (GSM, 900 MHz/1800 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

60

60


916



Mode




2

60

60

3

30

30

4

30

30

5

20

25

6

20

25

7

15

20

8

15

20

Table 6-1134 Configuration of RRU3959 PAs (GSM, 900 MHz/1800 MHz)

Issue 07 (2016-04-29)

PA2








GSM 1

1

60

60

0

0

0

GSM 2

1

60

60

1

60

60

GSM 3

2

30

30

1

30

30

GSM 4

2

30

30

2

30

30

GSM 5

3

20

25

2

20

25

GSM 6

3

20

25

3

20

25

GSM 7

4

15

20

3

15

20

GSM 8

4

15

20

4

15

20


917






UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2 x 40

2 (MIMO)

2 x 30

3 (MIMO)

2 x 20

4 (MIMO)

2 x 15


Issue 07 (2016-04-29)






UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

30

UMTS 4

2

30

2

30

UMTS 5

3

20

2

20

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

PA1

PA2


918



Table 6-1137 Output power for the RRU3959 (GU non-MSR, 900 MHz)

Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

1

60

60

1

2

60

30

1

3

60

20

2

1

30

60

2

2

30

30

2

3

30

20

2

4

30

15

3

1

20

60

3

2

20

30

3

3

20

20

3

4

20

15

4

1

15

60

4

2

15

30

4

3

15

20

4

4

15

15

5

1

10

60

5

2

10

30

5

3

10

20

6

1

7

60

6

2

7

30


919



Table 6-1138 Configuration of RRU3959 PAs (GU non-MSR, 900 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2









GSM 1 + UMTS 1

1

60

0

0

0

0

1

60

GSM 1 + UMTS 2

1

60

0

0

0

0

2

30

GSM 1 + UMTS 3

1

60

0

0

0

0

3

20

GSM 2 + UMTS 1

2

30

0

0

0

0

1

60

GSM 2 + UMTS 2

2

30

0

0

0

0

2

30

GSM 2 + UMTS 3

2

30

0

0

0

0

3

20

GSM 2 + UMTS 4

2

30

0

0

0

0

4

15

GSM 3 + UMTS 1

3

20

0

0

0

0

1

60


920



Issue 07 (2016-04-29)


PA2









GSM 3 + UMTS 2

3

20

0

0

0

0

2

30

GSM 3 + UMTS 3

3

20

0

0

0

0

3

20

GSM 3 + UMTS 4

3

20

0

0

0

0

4

15

GSM 4 + UMTS 1

4

15

0

0

0

0

1

60

GSM 4 + UMTS 2

4

15

0

0

0

0

2

30

GSM 4 + UMTS 3

4

15

0

0

0

0

3

20

GSM 4 + UMTS 4

4

15

0

0

0

0

4

15

GSM 5 + UMTS 1

5

10

0

0

0

0

1

60

GSM 5 + UMTS 2

5

10

0

0

0

0

2

30


921




PA2









GSM 5 + UMTS 3

5

10

0

0

0

0

3

20

GSM 6 + UMTS 1

6

7

0

0

0

0

1

60

GSM 6 + UMTS 2

6

7

0

0

0

0

2

30


Issue 07 (2016-04-29)

Mode





GSM + UMTS

1

2

30

30

1

2

20

40

2

1

40

20

2

1

30

30

2

2

20

40

2

2

30

30

2

2

40

20

3

1

30

30

3

1

20

40

3

2

20

20

3

2

15

30


922


Mode

Issue 07 (2016-04-29)






4

1

20

40

4

2

20

20

4

2

15

30

5

1

20

20

5

1

15

30

5

2

13

20

6

1

15

30

6

2

13

20

7

1

10

20

1

1 (MIMO)

20

2 x 40

1

1 (MIMO)

30

2 x 30

1

1 (MIMO)

40

2 x 20

1

2 (MIMO)

20

2 x 20

2

1 (MIMO)

20

2 x 40

2

1 (MIMO)

30

2 x 30

2

1 (MIMO)

40

2 x 20

2

2 (MIMO)

20

2 x 20

2

2 (MIMO)

30

2 x 15

3

1 (MIMO)

20

2 x 20

3

1 (MIMO)

15

2 x 30

3

2 (MIMO)

15

2 x 15

3

2 (MIMO)

20

2 x 10

3

2 (MIMO)

10

2 x 20

4

1 (MIMO)

20

2 x 20

4

1 (MIMO)

15

2 x 30

4

2 (MIMO)

15

2 x 15

4

2 (MIMO)

20

2 x 10

4

2 (MIMO)

10

2 x 20


923



Table 6-1140 Configuration of RRU3959 PAs (GU MSR, 900 MHz) Configurati on Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2









GSM 1 + UMTS 2

1

30

1

30

0

0

1

30

GSM 1 + UMTS 2

1

20

1

40

0

0

1

40

GSM 2 + UMTS 1

1

40

1

20

1

40

0

0

GSM 2 + UMTS 1

1

30

1

30

1

30

0

0

GSM 2 + UMTS 2

1

20

1

40

1

20

1

40

GSM 2 + UMTS 2

1

30

1

30

1

30

1

30

GSM 2 + UMTS 2

1

40

1

20

1

40

1

20

GSM 3 + UMTS 1

2

30

0

0

1

30

1

30

GSM 3 + UMTS 1

2

20

0

0

1

20

1

40

GSM 3 + UMTS 2

2

20

1

20

1

20

1

20

GSM 3 + UMTS 2

2

15

1

30

1

15

1

30

GSM 4 + UMTS 1

3

20

0

0

1

20

1

40

GSM 4 + UMTS 2

2

20

1

20

2

20

1

20

GSM 4 + UMTS 2

2

15

1

30

2

15

1

30


924



Issue 07 (2016-04-29)


PA1

PA2









GSM 5 + UMTS 1

3

20

0

0

2

20

1

20

GSM 5 + UMTS 1

4

15

0

0

1

15

1

30

GSM 5 + UMTS 2

3

13

1

20

2

13

1

20

GSM 6 + UMTS 1

4

15

0

0

2

15

1

30

GSM 6 + UMTS 2

3

13

1

20

3

13

1

20

GSM 7 + UMTS 1

5

10

0

0

2

10

1

20


1

20

1

40

0

0

1

40


1

30

1

30

0

0

1

30


1

40

1

20

0

0

1

20


1

20

2

20

0

0

2

20


1

20

1

40

1

20

1

40


1

30

1

30

1

30

1

30


1

40

1

20

1

40

1

20


925



Issue 07 (2016-04-29)


PA1

PA2










1

20

2

20

1

20

2

20


1

30

2

15

1

30

2

15


2

20

1

20

1

20

1

20


2

15

1

30

1

15

1

30


2

15

2

15

1

15

2

15


2

20

2

10

1

20

2

10


2

10

2

20

1

10

2

20


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


2

15

2

15

2

15

2

15


2

20

2

10

2

20

2

10


926




PA1


PA2









2

10

2

20

2

10

2

20





LTE FDD

1 (MIMO)

2 x 60

5, 10, 15, 20

1 (MIMO)

2 x 40

1.4, 3

2 (MIMO)

2 x 30

1.4, 3, 5, 10, 15, 20

2 (MIMO)

l Carrier 1: 2 x 20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2 x 40


Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40


l Carrier 2: 40

927









GSM + LTE FDD

1

1 (MIMO)

40

2 x 20

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

30

2 x 30

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

20

2 x 40

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

40

2 x 20

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

30

2 x 30

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

20

2 x 40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2 x 20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

15

2 x 30

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2 x 20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

15

2 x 30

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

12

2 x 20

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

7.5

2 x 30

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

12

2 x 20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

7.5

2 x 30

1.4, 3, 5, 10, 15, 20

1

2 (MIMO)

20

2 x 20

1.4, 3, 5, 10, 15, 20

1

2 (MIMO)

20

l Carrier 1: 2 x 30

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2 x 10

Issue 07 (2016-04-29)


928


Mode







1

2 (MIMO)

30

l Carrier 1: 2 x 20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2 x 10 2

2 (MIMO)

20

2 x 20

1.4, 3, 5, 10, 15, 20

2

2 (MIMO)

20

l Carrier 1: 2 x 30

1.4, 3, 5, 10, 15, 20


2 (MIMO)

10

2 x 20

1.4, 3, 5, 10, 15, 20

3

2 (MIMO)

15

l Carrier 1: 2 x 20

1.4, 3, 5, 10, 15, 20


2 (MIMO)

20

2 x 10

1.4, 3, 5, 10, 15, 20

4

2 (MIMO)

10

2 x 20

1.4, 3, 5, 10, 15, 20

4

2 (MIMO)

15

l Carrier 1: 2 x 20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2 x 10

Issue 07 (2016-04-29)


929



Table 6-1144 Configuration of RRU3959 PAs (GL MSR, 1800 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

20

0

0

1

20


1

30

1

30

0

0

1

30


1

20

1

40

0

0

1

40


1

40

1

20

1

40

1

20


1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


2

20

1

20

1

20

1

20


2

15

1

30

1

15

1

30


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


3

12

1

20

2

12

1

20


3

7.5

1

30

2

7.5

1

30


3

12

1

20

3

12

1

20


3

7.5

1

30

3

7.5

1

30


930




PA1

PA2










1

20

2

20

0

0

2

20


1

20

2

l Car rier 1: 30

0

0

2

l C a r r i e r 1 : 3 0

l Car rier 2: 10

l C a r r i e r 2 : 1 0

Issue 07 (2016-04-29)


931





PA1

PA2









1

30

2

l Car rier 1: 20

0

0

2

l C a r r i e r 1 : 2 0

l Car rier 2: 10


Issue 07 (2016-04-29)

1

20

2

20


1

20

2

20

932





PA1

PA2









1

20

2

l Car rier 1: 30

1

20

2

l C a r r i e r 1 : 3 0

l Car rier 2: 10


Issue 07 (2016-04-29)

2

10

2

20


1

10

2

20

933





PA1

PA2









2

15

2

l Car rier 1: 20

1

15

2

l C a r r i e r 1 : 2 0

l Car rier 2: 10

l C a r r i e r 2 : 1 0

Issue 07 (2016-04-29)


2

20

2

10

2

20

2

10


2

10

2

20

2

10

2

20


934





PA1

PA2









2

15

2

l Car rier 1: 20

2

15

2

l C a r r i e r 1 : 2 0

l Car rier 2: 10

l C a r r i e r 2 : 1 0

Table 6-1145 Output power for the RRU3959w (LTE FDD, 1800 MHz)

Issue 07 (2016-04-29)

Mode




LTE FDD

2 (MIMO)

l Carrier 1: 2 x 20

l Carrier 1: 5

l Carrier 2: 2 x 40

l Carrier 2: 10


935



Table 6-1146 Configuration of RRU3959w PAs (LTE FDD, 1800 MHz) Configuration Scenario (Total Number of Carriers) LTE FDD 2 (MIMO)

PA1

PA2





2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40

l Carrier 2: 40

Table 6-1147 Output power for the RRU3959w (GL MSR, 1800 MHz) Mode






GSM + LTE FDD

2

1 (MIMO)

20

2 x 40

10

4

1 (MIMO)

20

2 x 20

5

4

1 (MIMO)

15

2 x 30

10, 15

Table 6-1148 Configuration of RRU3959w PAs (GL MSR, 1800 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

20

1

40

1

20

1

40


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


936






UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2x40

2 (MIMO)

2x30

3 (MIMO)

2x20

4 (MIMO)

2x15

2+1 (MIMO)

l Non-MIMO Carrier: 30 l MIMO Carrier: 2x30 l Non-MIMO Carrier: 20

2+2 (MIMO)

l MIMO Carrier: 2x20 l Non-MIMO Carrier: 15

2+3 (MIMO)


4+1 (MIMO)


4+2 (MIMO)


6+1 (MIMO)

l MIMO Carrier: 2x15


Issue 07 (2016-04-29)






UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

PA1

PA2


937




PA1

PA2





UMTS 3

2

30

1

60

UMTS 4

2

30

2

30

UMTS 5

3

20

2

30

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

60

1

60

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

UMTS 2 + 1 (MIMO)

2

30

2

30

UMTS 2 + 2 (MIMO)

3

20

3

20

UMTS 2 + 3 (MIMO)

4

15

4

15

UMTS 4 + 1 (MIMO)

3

20

3

20

UMTS 4 + 2 (MIMO)

4

15

4

15

UMTS 6 + 1 (MIMO)

4

15

4

15

Table 6-1151 Output power for the RRU3959 (LTE FDD, 2100 MHz)

Issue 07 (2016-04-29)

Mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

2 (MIMO)

2x30

5, 10, 15, 20

3 (MIMO)

2x20

5, 10, 15, 20


938



Mode




4 (MIMO)

2x15

5, 10, 15


PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 3 (MIMO)

3

20

3

20

LTE FDD 4 (MIMO)

4

15

4

15


Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

30

2x30

5, 10, 15, 20

2

1 (MIMO)

30

2x30

5, 10, 15, 20

3

1 (MIMO)

20

2x20

5, 10, 15, 20

4

1 (MIMO)

20

2x20

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x30

2x30

5, 10, 15, 20

2 (MIMO)

1 (MIMO)

2x20

2x20

5, 10, 15, 20

3 (MIMO)

1 (MIMO)

2x15

2x15

5, 10, 15, 20

4 (MIMO)

1 (MIMO)

2x10

2x20

5, 10, 15, 20

6

1 (MIMO)

15

2x15

5, 10, 15, 20

2

2 (MIMO)

20

2x20

5, 10, 15, 20


939



Mode






4

2 (MIMO)

15

2x15

5, 10, 15, 20

6

2 (MIMO)

10

2x15

5, 10, 15

2

3 (MIMO)

15

2x15

5, 10, 15

Table 6-1154 Configuration of RRU3959 PAs (UL MSR, 2100 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2










1

30

1

30

0

0

1

30


1

30

1

30

1

30

1

30


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


940



Issue 07 (2016-04-29)


PA2










1

30

1

30

1

30

1

30


2

20

1

20

2

20

1

20


3

15

1

15

3

15

1

15


4

10

1

20

4

10

1

20


3

15

1

15

3

15

1

15


941




PA2










1

20

2

20

1

20

2

20


2

15

2

15

2

15

2

15


3

10

2

15

3

10

2

15


1

15

3

15

1

15

3

15

Typical Power Configuration for RRU3961 An RRU3961 is a 2TX RF module that can work in GSM, UMTS, LTE FDD, GU, UL, or GUL mode. l

Table 6-1155 and Table 6-1156 provide the typical power configuration for the RRU3961 (GSM, 900 MHz).

l


l


l


Issue 07 (2016-04-29)


942



l


l

Table 6-1165 and Table 6-1166 provide the typical power configuration for the RRU3961 (GL, GSM 900 MHz+LTE FDD 800 MHz).

l

Table 6-1167 and Table 6-1168 provide the typical power configuration for the RRU3961 (UL, UMTS 900 MHz+LTE FDD 800 MHz).

l

Table 6-1169 and Table 6-1170 provide the typical power configuration for the RRU3961 (GUL, GU MSR 900 MHz+LTE FDD 800 MHz). NOTE


Table 6-1155 Output power for the RRU3961 (GSM, 900 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

40

40

2

40

40

3

20

20

4

20

20

5

13

15

6

13

15

7

10

13

8

10

13


943



Table 6-1156 Configuration of RRU3961 PAs (GSM, 900 MHz) Configur ation Scenario (Total Number of Carriers)

PA2







GSM 1

1

40

40

0

0

0

GSM 2

1

40

40

1

40

40

GSM 3

2

20

20

1

20

20

GSM 4

2

20

20

2

20

20

GSM 5

3

13

15

2

13

15

GSM 6

3

13

15

3

13

15

GSM 7

4

10

13

3

10

13

GSM 8

4

10

13

4

10

13

PA1


Issue 07 (2016-04-29)

Mode



UMTS

1

40

2

40

3

20

4

20

1 (MIMO)

2 x 40

2 (MIMO)

2 x 20

3 (MIMO)

2 x 10

4 (MIMO)

2 x 10


944




PA1

PA2





UMTS 1

1

40

0

0

UMTS 2

1

40

1

40

UMTS 3

2

20

1

20

UMTS 4

2

20

2

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

20

2

20

UMTS 3 (MIMO)

3

10

3

10

UMTS 4 (MIMO)

4

10

4

10





LTE FDD

1 (MIMO)

2 x 40

10, 20

2 (MIMO)

2 x 20

10

Table 6-1160 Configuration of RRU3961 PAs (LTE FDD, 800 MHz) Configurat ion Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2






LTE FDD 1 (MIMO)

1

40

1

40

10, 20

LTE FDD 2 (MIMO)

2

20

2

20

10


945



Table 6-1161 Output power for the RRU3961 (GU non-MSR, 900 MHz) Mode





GSM + UMTS

1

1

40

40

2

1

20

40

3

1

13

40

4

1

10

40

1

2

40

20

2

2

20

20

3

2

13

20

4

2

10

20

Table 6-1162 Configuration of RRU3961 PAs (GU non-MSR, 900 MHz) Configur ation Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA2









GSM 1 + UMTS 1

1

40

0

0

0

0

1

40

GSM 2 + UMTS 1

2

20

0

0

0

0

1

40

GSM 3 + UMTS 1

3

13

0

0

0

0

1

40

GSM 4 + UMTS 1

4

10

0

0

0

0

1

40

GSM 1 + UMTS 2

1

40

0

0

0

0

2

20

GSM 2 + UMTS 2

2

20

0

0

0

0

2

20

GSM 3 + UMTS 2

3

13

0

0

0

0

2

20


946



GSM 4 + UMTS 2


PA2









4

10

0

0

0

0

2

20


Issue 07 (2016-04-29)

Mode





GSM + UMTS

3

1

20

20

4

1

13

20

5

1

10

20

6

1

10

20

1

1 (MIMO)

20

2 x 20

2

1 (MIMO)

20

2 x 20

3

1 (MIMO)

10

2 x 20

4

1 (MIMO)

10

2 x 20

1

2 (MIMO)

20

2 x 10

2

2 (MIMO)

20

2 x 10

3

2 (MIMO)

10

2 x 10

4

2 (MIMO)

10

2 x 10


947



Table 6-1164 Configuration of RRU3961 PAs (GU MSR, 900 MHz) Configurati on Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2









GSM 3 + UMTS 1

2

20

0

0

1

20

1

20

GSM 4 + UMTS 1

3

13

0

0

1

13

1

20

GSM 5 + UMTS 1

4

10

0

0

1

10

1

20

GSM 6 + UMTS 1

4

10

0

0

2

10

1

20


1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

10

1

20

1

10

1

20


2

10

1

20

2

10

1

20


1

20

2

10

0

0

2

10


1

20

2

10

1

20

2

10


2

10

2

10

1

10

2

10


2

10

2

10

2

10

2

10


948



Table 6-1165 Output power for the RRU3961 (GL, GSM 900 MHz+LTE FDD 800 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

40

2 x 20

10, 20

2

1 (MIMO)

40

2 x 20

10, 20

3

1 (MIMO)

20

2 x 20

10, 20

4

1 (MIMO)

20

2 x 20

10, 20

5

1 (MIMO)

13

2 x 20

10, 20

6

1 (MIMO)

13

2 x 20

10, 20

7

1 (MIMO)

10

2 x 20

10, 20

8

1 (MIMO)

10

2 x 20

10, 20

1

2 (MIMO)

40

2 x 10

10

2

2 (MIMO)

40

2 x 10

10

3

2 (MIMO)

20

2 x 10

10

4

2 (MIMO)

20

2 x 10

10

5

2 (MIMO)

13

2 x 10

10

6

2 (MIMO)

13

2 x 10

10

7

2 (MIMO)

10

2 x 10

10

8

2 (MIMO)

10

2 x 10

10


949



Table 6-1166 Configuration of RRU3961 PAs (GL, GSM 900 MHz+LTE FDD 800 MHz) Configuratio n Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

20

0

0

1

20


1

40

1

20

1

40

1

20


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


3

13

1

20

2

13

1

20


3

13

1

20

3

13

1

20


4

10

1

20

3

10

1

20


4

10

1

20

4

10

1

20


1

40

2

10

0

0

2

10


1

40

2

10

1

40

2

10


950




PA1

PA2










2

20

2

10

1

20

2

10


2

20

2

10

2

20

2

10


3

13

2

10

2

13

2

10


3

13

2

10

3

13

2

10


4

10

2

10

3

10

2

10


4

10

2

10

4

10

2

10

Table 6-1167 Output power for the RRU3961 (UL, UMTS 900 MHz+LTE FDD 800 MHz)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

40

2 x 20

10, 20

2

1 (MIMO)

40

2 x 20

10, 20

3

1 (MIMO)

20

2 x 20

10, 20

4

1 (MIMO)

20

2 x 20

10, 20

1

2 (MIMO)

40

2 x 10

10


951


Mode







2

2 (MIMO)

40

2 x 10

10

3

2 (MIMO)

20

2 x 10

10

4

2 (MIMO)

20

2 x 10

10

1 (MIMO)

1 (MIMO)

2 x 40

2 x 20

10, 20

2 (MIMO)

1 (MIMO)

2 x 20

2 x 20

10, 20

3 (MIMO)

1 (MIMO)

2 x 10

2 x 20

10, 20

4 (MIMO)

1 (MIMO)

2 x 10

2 x 20

10, 20

1 (MIMO)

2 (MIMO)

2 x 40

2 x 10

10

2 (MIMO)

2 (MIMO)

2 x 20

2 x 10

10

3 (MIMO)

2 (MIMO)

2 x 10

2 x 10

10

4 (MIMO)

2 (MIMO)

2 x 10

2 x 10

10

Table 6-1168 Configuration of RRU3961 PAs (UMTS 900 MHz+LTE FDD 800 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

20

0

0

1

20


1

40

1

20

1

40

1

20


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


952




Issue 07 (2016-04-29)

PA1

PA2










1

40

2

10

0

0

2

10


1

40

2

10

1

40

2

10


2

20

2

10

1

20

2

10


2

20

2

10

2

20

2

10


1

40

1

20

1

40

1

20


2

20

1

20

2

20

1

20


3

10

1

20

3

10

1

20


4

10

1

20

4

10

1

20


1

40

2

10

1

40

2

10


2

20

2

10

2

20

2

10


3

10

2

10

3

10

2

10


4

10

2

10

4

10

2

10


953



Table 6-1169 Output power for the RRU3961 (GUL, GU MSR 900 MHz+LTE FDD 800 MHz)

Issue 07 (2016-04-29)

Mode



Total Numbe r of LTE FDD Carriers




Bandwi dth of LTE FDD Carrier (MHz)


1

1

1 (MIMO)

40

40

2 x 20

10, 20

2

1

1 (MIMO)

20

40

2 x 20

10, 20

3

1

1 (MIMO)

20

20

2 x 20

10, 20

4

1

1 (MIMO)

10

40

2 x 20

10, 20

1

2

1 (MIMO)

40

20

2 x 20

10, 20

2

2

1 (MIMO)

20

20

2 x 20

10, 20

3

2

1 (MIMO)

13

20

2 x 20

10, 20

4

2

1 (MIMO)

10

20

2 x 20

10, 20

1

1

2 (MIMO)

40

40

2 x 10

10

2

1

2 (MIMO)

20

40

2 x 10

10

3

1

2 (MIMO)

20

20

2 x 10

10

4

1

2 (MIMO)

10

40

2 x 10

10

1

2

2 (MIMO)

40

20

2 x 10

10

2

2

2 (MIMO)

20

20

2 x 10

10

3

2

2 (MIMO)

13

20

2 x 10

10

4

2

2 (MIMO)

10

20

2 x 10

10


954


Mode

Issue 07 (2016-04-29)








Bandwi dth of LTE FDD Carrier (MHz)

1

1 (MIMO)

1 (MIMO)

20

2 x 20

2 x 20

10, 20

3

1 (MIMO)

1 (MIMO)

10

2 x 20

2 x 20

10, 20

2

2 (MIMO)

1 (MIMO)

20

2 x 10

2 x 20

10, 20

4

2 (MIMO)

1 (MIMO)

10

2 x 10

2 x 20

10, 20

1

1 (MIMO)

2 (MIMO)

20

2 x 20

2 x 10

10

3

1 (MIMO)

2 (MIMO)

10

2 x 20

2 x 10

10

2

2 (MIMO)

2 (MIMO)

20

2 x 10

2 x 10

10

4

2 (MIMO)

2 (MIMO)

10

2 x 10

2 x 10

10


955



Table 6-1170 Configuration of RRU3961 PAs (GUL, GU MSR 900 MHz+LTE FDD 800 MHz) Configura tion Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA2

PA1 Nu mb er of GS M Ca rri ers

Ou tpu t Po we r per GS M Car rier (W )

Nu mb er of U M TS Car rier s

Ou tpu t Po we r per U M TS Ca rri er (W )


Ou tpu t Po we r per LT E FD D Car rier (W )


Ou tpu t Po we r per GS M Ca rri er (W )




Ou tpu t Po we r per LT E FD D Ca rri er (W )


1

40

0

0

1

20

0

0

1

40

1

20


2

20

0

0

1

20

0

0

1

40

1

20


2

20

0

0

1

20

1

20

1

20

1

20


4

10

0

0

1

20

0

0

1

40

1

20


1

40

0

0

1

20

0

0

2

20

1

20


2

20

0

0

1

20

0

0

2

20

1

20


956



Issue 07 (2016-04-29)


PA2














3

13

0

0

1

20

0

0

2

20

1

20


4

10

0

0

1

20

0

0

2

20

1

20


1

40

0

0

2

10

0

0

1

40

2

10


2

20

0

0

2

10

0

0

1

40

2

10


2

20

0

0

2

10

1

20

1

20

2

10


4

10

0

0

2

10

0

0

1

40

2

10


1

40

0

0

2

10

0

0

2

20

2

10


957



Issue 07 (2016-04-29)


PA2














2

20

0

0

2

10

0

0

2

20

2

10


3

13

0

0

2

10

0

0

2

20

2

10


4

10

0

0

2

10

0

0

2

20

2

10

GSM 1 + UMTS 1 (MIMO) + LTE FDD 1 (MIMO)

1

20

1

20

1

20

0

0

1

20

1

20


2

10

1

20

1

20

1

10

1

20

1

20


1

20

2

10

1

20

1

20

2

10

1

20


958




PA2














2

10

2

10

1

20

2

10

2

10

1

20


1

20

1

20

2

10

0

0

1

20

2

10


2

10

1

20

2

10

1

10

1

20

2

10


1

20

2

10

2

10

1

20

2

10

2

10


2

10

2

10

2

10

2

10

2

10

2

10

Typical Power Configuration for RRU3971 An RRU3971 is a 4TX RF module that can work in UMTS, LTE FDD, GU, GL, UL, or GUL mode. Issue 07 (2016-04-29)


959



l

Table 6-1171 and Table 6-1172 provide the typical power configuration of an RRU3971 (UMTS, AWS/1900 MHz).

l

Table 6-1173 and Table 6-1174 provide the typical power configuration of an RRU3971 (LTE FDD, AWS/1800 MHz/1900 MHz).

l

Table 6-1175 and Table 6-1176 provide the typical power configuration of an RRU3971 (GU MSR, 1900 MHz).

l

Table 6-1177 and Table 6-1178 provide the typical power configuration of an RRU3971 (GL MSR, 1800 MHz/1900 MHz).

l

Table 6-1179 and Table 6-1180 provide the typical power configuration of an RRU3971 (UL MSR, AWS/1900 MHz).

l

Table 6-1181 and Table 6-1182 provide the typical power configuration of an RRU3971 (GUL MSR, 1900 MHz). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l When two LTE carriers are configured, it is recommended that the power spectrum density (PSD) of the two carriers be set to the same value. Power spectrum density = Carrier output power/Carrier bandwidth (1.4 MHz and 3 MHz bandwidths are considered as 5 MHz bandwidth in this formula.)

Table 6-1171 Output power for the RRU3971 (UMTS, AWS/1900 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

4

40

8

20


960



Table 6-1172 Configuration of RRU3971 PAs (UMTS, AWS/1900 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs)

PA2

PA1

PA3

PA4









UMTS 4

1

40

1

40

1

40

1

40

UMTS 8

2

20

2

20

2

20

2

20

Table 6-1173 Output power for the RRU3971 (LTE FDD, AWS/1800 MHz/1900 MHz) Mode




LTE FDD

1 (MIMO)

4x40

5, 10, 15, 20

2 (MIMO)

4x20

5, 10, 15, 20

Table 6-1174 Configuration of RRU3971 PAs (LTE FDD, AWS/1800 MHz/1900 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2

PA1

PA3

PA4









LTE FDD 1 (MIMO )

1

40

1

40

1

40

1

40

LTE FDD 2 (MIMO )

2

20

2

20

2

20

2

20


961



Table 6-1175 Output power for the RRU3971 (GU MSR, 1900 MHz) Mode





GSM + UMTS

2

8

20

10

4

8

10

10

Table 6-1176 Configuration of RRU3971 PAs (GU MSR, 1900 MHz) C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) G S M 2 + U M TS 8

Issue 07 (2016-04-29)

PA1

PA2

PA3

PA4

N u m b er of G S M C ar ri er s

O ut p ut Po w er pe r G S M C ar ri er ( W )

N u m be r of U M T S C ar ri er s

O ut p ut Po w er pe r U M T S C ar ri er ( W )

N u m be r of G S M C ar ri er s












1

20

2

10

1

20

2

10

0

0

2

10

0

0

2

10


962


C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) G S M 4 + U M TS 8


PA1

PA2

PA3

PA4

















2

10

2

10

2

10

2

10

0

0

2

10

0

0

2

10

Table 6-1177 Output power for the RRU3971 (GL MSR, 1800 MHz/1900 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

2

1 (MIMO)

15

4x25

5, 10, 15, 20

2

1 (MIMO)

20

4x20

5, 10, 15, 20

2

2 (MIMO)

20

4x10

5, 10, 15, 20

4

1 (MIMO)

15

4x10

5, 10, 15, 20


963



Mode






4

1 (MIMO)

10

4x20

5, 10, 15, 20

4

2 (MIMO)

10

4x10

5, 10, 15, 20

Table 6-1178 Configuration of RRU3971 PAs (GL MSR, 1800 MHz/1900 MHz) Configu ration Scenari o (Total Numbe r of Carriers )

Issue 07 (2016-04-29)

PA2

PA1

PA3

PA4


O ut p ut P o w er p er G S M C ar ri er ( W )

N u m b er of L T E F D D C ar ri er s

O ut p ut P o w er p er L T E F D D C ar ri er ( W )














1

15

1

25

1

15

1

25

0

0

1

25

0

0

1

25


1

20

1

20

1

20

1

20

0

0

1

20

0

0

1

20


1

20

2

10

1

20

2

10

0

0

2

10

0

0

2

10


964


Configu ration Scenari o (Total Numbe r of Carriers )


PA2

PA1

PA3

PA4


















2

15

1

10

2

15

1

10

0

0

1

10

0

0

1

10


2

10

1

20

2

10

1

20

0

0

1

20

0

0

1

20


2

10

2

10

2

10

2

10

0

0

2

10

0

0

2

10

Table 6-1179 Output power for the RRU3971 (UL MSR, AWS/1900 MHz)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

4

1 (MIMO)

20

4x20

5, 10, 15, 20

4

2 (MIMO)

20

4x10

5, 10, 15, 20


965



Table 6-1180 Configuration of RRU3971 PAs (UL MSR, AWS/1900 MHz) C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) U M TS 4 + LT E F D D 1 ( M I M O)

Issue 07 (2016-04-29)

PA1

PA2

PA3

PA4



N u m be r of L T E F D D C ar ri er s

O ut p ut Po w er pe r L T E F D D C ar ri er ( W )













1

20

1

20

1

20

1

20

1

20

1

20

1

20

1

20


966


C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) U M TS 4 + LT E F D D 2 ( M I M O)

Issue 07 (2016-04-29)


PA1

PA2

PA3

PA4

















1

20

2

10

1

20

2

10

1

20

2

10

1

20

2

10


967



Table 6-1181 Output power for the RRU3971 (GUL MSR, 1900 MHz)

Issue 07 (2016-04-29)

Mode









4

4

1 (MIMO)

10

10

4x20

5, 10, 15, 20

4

4

1 (MIMO)

15

15

4x10

5, 10, 15, 20


968



Table 6-1182 Configuration of RRU3971 PAs (GUL MSR, 1900 MHz) C o n f i g u r a t i o n S c e n a r i o ( T o t a l N u m b e r o f C a r r i e r s )

PA1 N u m b e r o f G S M C a r r i e r s

G 2 S M 4 + U

Issue 07 (2016-04-29)

PA2

PA3

PA4

O u t p u t P o w e r p e r G S M C a r r i e r ( W )

N u m b e r o f U M T S C a r r i e r s

O u t p u t P o w e r p e r U M T S C a r r i e r ( W )

N u m b e r o f L T E F D D C a r r i e r s

O u t p u t P o w e r p e r L T E F D D C a r r i e r ( W )

N u m b e r o f G S M C a r r i e r s


















1 0

0

0

1

2 0

2

1 0

0

0

1

2 0

0

0

2

1 0

1

2 0

0

0

2

1 0

1

2 0


969


C o n f i g u r a t i o n S c e n a r i o ( T o t a l N u m b e r o f C a r r i e r s )






PA2 N u m b e r o f L T E F D D C a r r i e r s




















M T S 4 + L T

Issue 07 (2016-04-29)


970




























E F D D 1 ( M

Issue 07 (2016-04-29)


971




























I M O )

Issue 07 (2016-04-29)


972





G 2 S M 4 + U M

Issue 07 (2016-04-29)

PA2

PA3

PA4
























1 5

0

0

1

1 0

2

1 5

0

0

1

1 0

0

0

2

1 5

1

1 0

0

0

2

1 5

1

1 0


973




























T S 4 + L T E

Issue 07 (2016-04-29)


974




























F D D 1 ( M I

Issue 07 (2016-04-29)


975




























M O )

Typical Power Configuration of the RRU3952m An RRU3952m is a 2T RF module working in GSM, UMTS, LTE FDD, GL or UL mode. Issue 07 (2016-04-29)


976



l

Table 6-1183 and Table 6-1184 provide the typical power configuration for the RRU3952m(1800MHz) (GSM, 1800 MHz).

l

Table 6-1185 and Table 6-1186 provide the typical power configuration for the RRU3952m(1800MHz) (LTE FDD, 1800 MHz).

l

Table 6-1187 and Table 6-1188 provide the typical power configuration for the RRU3952m(1800MHz) (GL MSR, 1800 MHz).

l

Table 6-1189 and Table 6-1190 provide the typical power configuration for the RRU3952m(2100MHz) (UMTS, 2100 MHz).

l

Table 6-1191 and Table 6-1192 provide the typical power configuration for the RRU3952m(2100MHz) (LTE FDD, 2100 MHz).

l

Table 6-1193 and Table 6-1194 provide the typical power configuration for the RRU3952m(2100MHz) (UL MSR, 2100 MHz). NOTE

l If the power sharing feature is activated, assume that UEs in a cell are randomly located. l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l Station spacing, frequency multiplexing factor, power control algorithm, and traffic model all affect the gains of dynamic power sharing. In most cases, network plans are designed on the basis of power specifications of dynamic power sharing. l Before activating the dynamic power sharing feature, enable the DTX and power control functions. In GBSS8.1, the dynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell, GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, and GBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, the dynamic power sharing feature can be used together with these features. However, the dynamic power sharing feature currently cannot be used together with the GBFD-117002 IBCA (Interference Based Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, and GBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions. l When the RRU3952m works in GSM mode and the S1 or S2 configuration is used, the maximum output power is 60 W per carrier. The corresponding 60 W power license must be obtained. l When two LTE carriers are configured, it is recommended that the power spectrum density (PSD) of the two carriers be set to the same value. Power spectrum density = Carrier output power/Carrier bandwidth (1.4 MHz and 3 MHz bandwidths are considered as 5 MHz bandwidth in this formula.)

Table 6-1183 Output power for the RRU3952m(1800MHz) (GSM, 1800 MHz)

Issue 07 (2016-04-29)

Mode




GSM

1

60

60

2

60

60

3

30

30

4

30

30

5

20

25

6

20

25


977



Mode




7

15

20

8

15

20

Table 6-1184 Configuration of RRU3952m PAs(1800MHz) (GSM, 1800 MHz) PA2








GSM 1

1

60

60

0

0

0

GSM 2

1

60

60

1

60

60

GSM 3

2

30

30

1

30

30

GSM 4

2

30

30

2

30

30

GSM 5

3

20

25

2

20

25

GSM 6

3

20

25

3

20

25

GSM 7

4

15

20

3

15

20

GSM 8

4

15

20

4

15

20

Table 6-1185 Output power for the RRU3952m(1800MHz) (LTE FDD, 1800 MHz)

Issue 07 (2016-04-29)

Mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20


978



Mode




1 (MIMO)

2x40

1.4, 3

2 (MIMO)

2x30

1.4, 3, 5, 10, 15, 20

2 (MIMO)

l Carrier 1: 2x20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x40

Table 6-1186 Configuration of RRU3952m PAs(1800MHz) (LTE FDD, 1800 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40

l Carrier 2: 40

Table 6-1187 Output power for the RRU3952m(1800MHz) (GL MSR, 1800 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

1

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20


979


Mode

Issue 07 (2016-04-29)







2

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

15

2x30

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

15

2x30

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

15

2x15

5, 10, 15, 20

1

2 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

2

2 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

3

2 (MIMO)

20

2x10

1.4, 3, 5, 10, 15, 20

4

2 (MIMO)

20

2x10

1.4, 3, 5, 10, 15, 20


980



Table 6-1188 Configuration of RRU3952m PAs(1800MHz) (GL MSR, 1800 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

20

0

0

1

20


1

30

1

30

0

0

1

30


1

20

1

40

0

0

1

40


1

40

1

20

1

40

1

20


1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


2

20

1

20

1

20

1

20


2

15

1

30

1

15

1

30


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


3

12

1

20

2

12

1

20


3

12

1

20

3

12

1

20


3

15

1

15

3

15

1

15


1

20

2

20

0

0

2

20


981




PA1

PA2










1

20

2

20

1

20

2

20


2

20

2

10

1

20

2

10


2

20

2

10

2

20

2

10

Table 6-1189 Output power for the RRU3952m(2100MHz) (UMTS, 2100MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2x40

2 (MIMO)

2x30

3 (MIMO)

2x20

4 (MIMO)

2x15


982



Table 6-1190 Configuration of RRU3952m PAs(2100MHz) (UMTS, 2100MHz) Configuratio n Scenario (Total Number of Carriers)

PA1

PA2





UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

30

UMTS 4

2

30

2

30

UMTS 5

3

20

2

20

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

Table 6-1191 Output power for the RRU3952m(2100MHz) (LTE FDD, 2100 MHz) Mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

2 (MIMO)

2x30

5, 10, 15, 20

2 (MIMO)

l Carrier 1: 2x20

5, 10, 15, 20

l Carrier 2: 2x40

Issue 07 (2016-04-29)


983



Table 6-1192 Configuration of RRU3952m PAs(2100MHz) (LTE FDD, 2100 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40

l Carrier 2: 40

Table 6-1193 Output power for the RRU3952m(2100MHz) (UL MSR, 2100 MHz)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

20

2x40

5, 10, 15, 20

1

1 (MIMO)

40

2x20

5, 10, 15, 20

2

1 (MIMO)

20

2x40

5, 10, 15, 20

2

1 (MIMO)

40

2x20

5, 10, 15, 20

3

1 (MIMO)

20

2x20

5, 10, 15, 20

4

1 (MIMO)

20

2x20

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x20

2x40

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x40

2x20

5, 10, 15, 20

1

2 (MIMO)

20

2x20

5, 10, 15, 20

2

2 (MIMO)

20

2x20

5, 10, 15, 20


984



Table 6-1194 Configuration of RRU3952m PAs(2100MHz) (UL MSR, 2100 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2










1

20

1

40

0

0

1

40


1

40

1

20

0

0

1

20


1

20

1

40

1

20

1

40


1

40

1

20

1

40

1

20


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


1

20

1

40

1

20

1

40


1

40

1

20

1

40

1

20


1

20

2

20

0

0

2

20


1

20

2

20

1

20

2

20

Typical Power Configuration for RRU3168 The RRU3168 has eight transmit channels and can work in an LTE TDD base station. Table 6-1195 and Table 6-1196 provide the typical power configuration for the RRU3168 (LTE TDD, 1900 MHz).

Issue 07 (2016-04-29)


985



Table 6-1195 Output power for the RRU3168 (LTE TDD, 1900 MHz) Working mode

Total Number of LTE TDD Carriers

Output Power per LTE TDD Carrier (W)

Bandwidth of LTE TDD Carrier (MHz)

LTE TDD 8T8R

1 (MIMO)

8 x 10

20

Table 6-1196 Configuration of RRU3168 PAs (LTE TDD, 1900 MHz) C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) LT E T D D 1 ( M I M O) 8T 8R

Issue 07 (2016-04-29)

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

N u m be r of L T E T D D C ar ri er s

O ut p ut P o w er pe r L T E T D D C ar ri er ( W )

N u m be r of L T E T D D Ca rri er s

O ut pu t Po w er pe r L T E T D D Ca rri er ( W )






O ut p ut Po w er pe r L T E T D D C ar ri er ( W )







1

10

1

10

1

10

1

10

1

10

1

10

1

10

1

10


986



Typical Power Configuration for RRU3232 The RRU3232 has four transmit channels and can work in an LTE TDD base station. Table 6-1197 and Table 6-1198 provide the typical power configuration for the RRU3232 (LTE TDD, 1800MHz or 2300 MHz or 2600 MHz). Table 6-1199 and Table 6-1200 provide the typical power configuration for the RRU3232 (LTE TDD, 3500 MHz). Table 6-1197 Output power for the RRU3232 (LTE TDD, 1800MHz or 2300 MHz or 2600 MHz) Working mode




LTE TDD

1 (MIMO)

2x20

5,10,15,20

2 (MIMO)

2x20

5,10,15,20

1 (MIMO)

4x20

5,10,15,20

2 (MIMO)

4x10

5,10,15,20

Table 6-1198 Configuration of RRU3232 PAs (LTE TDD, 1800MHz or 2300 MHz or 2600 MHz) Configurati on Scenario (Total Number of Carriers)

LTE TDD 1

PA1

PA2

PA3

PA4

Num ber of LTE TDD Carri ers

Outp ut Power per LTE TDD Carrie r (W)

Num ber of LTE TDD Carrie rs


Numb er of LTE TDD Carrie rs

Outp ut Powe r per LTE TDD Carrie r (W)



1

20

1

20

0

0

0

0

1

20

1

20

1

20

1

20

1

20

1

20

1

20

1

20

(MIMO) 2T2R LTE TDD 2 (MIMO) 2T2R LTE TDD 1 (MIMO) 4T4R

Issue 07 (2016-04-29)


987




LTE TDD 2

PA1

PA2

PA3

PA4

Num ber of LTE TDD Carri ers








2

10

2

10

2

10

2

10

(MIMO) 4T4R

NOTE

The 3650–3675 MHz frequency resources have been approved by Federal Communications Commission (FCC). As stipulated by FCC, the equivalent isotropically radiated power (EIRP) for the 3650–3675 MHz frequencies must be less than 1 W/MHz.

Table 6-1199 Output power for the RRU3232 (LTE TDD, 3500 MHz)

Issue 07 (2016-04-29)

Working mode




LTE TDD

1 (MIMO)

2x10

5,10,15,20

2 (MIMO)

2x10

5,10,15,20

1 (MIMO)

4x10

5,10,15,20

2 (MIMO)

4x5

5,10,15,20


988



Table 6-1200 Configuration of RRU3232 PAs (LTE TDD, 3500 MHz) Confi gurati on Scenar io (Total Numb er of Carrie rs) LTE TDD 1

PA2

PA1

PA3

PA4


Outpu t Power per LTE TDD Carrie r (W)







1

10

1

10

0

0

0

0

1

10

1

10

1

10

1

10

1

10

1

10

1

10

1

10

2

5

2

5

2

5

2

5

(MIMO ) 2T2R LTE TDD 2 (MIMO ) 2T2R LTE TDD 1 (MIMO ) 4T4R LTE TDD 2 (MIMO ) 4T4R

Typical Power Configuration for RRU3236E The RRU3236E has two transmit channels and can work in an LTE TDD base station. Table 6-1201 and Table 6-1202 provide the typical power configuration for the RRU3236E (LTE TDD, 2300 MHz). Table 6-1201 Output power for the RRU3236E (LTE TDD, 2300 MHz)

Issue 07 (2016-04-29)

Working mode




LTE TDD

1 (MIMO)

2x5

5,10,15,20

2 (MIMO)

2 x 2.5

5,10,15,20

3 (MIMO)

2 x 1.6

5,10,15,20


989



Table 6-1202 Configuration of RRU3236E PAs (LTE TDD, 2300 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2

Number of LTE TDD Carriers




LTE TDD 1 (MIMO) 2T2R

1

5

1

5


2

2.5

2

2.5


3

1.6

3

1.6

Typical Power Configuration for RRU3251 The RRU3251 has two transmit channels and can work in an LTE TDD base station. Table 6-1203 and Table 6-1204 provide the typical power configuration for the RRU3251 (LTE TDD, 2300 MHz). Table 6-1203 Output power for the RRU3251 (LTE TDD, 2300 MHz) Working mode




LTE TDD

1 (MIMO)

2 x 20

10,15,20

1 (MIMO)

2 x 40

10,15,20

2 (MIMO)

2 x 20

10,15,20

2 (MIMO)

2 x 25

10,15,20

Table 6-1204 Configuration of RRU3251 PAs (LTE TDD, 2300 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2






1

20

1

20


1

40

1

40


990




PA1

PA2






2

20

2

20

LTE TDD 2

2

25

2

25

(MIMO) 2T2R

Typical Power Configuration for RRU3252 The RRU3252 has four transmit channels and can work in an LTE TDD base station. Table 6-1205 and Table 6-1206 provide the typical power configuration for the RRU3252 (LTE TDD, 2300 MHz or 2500 MHz). Table 6-1205 Output power for the RRU3252 (LTE TDD, 2300 MHz or 2500 MHz) Working mode




LTE TDD

1 (MIMO)

2x20

5,10,15,20

2 (MIMO)

2x20

5,10,15,20

1 (MIMO)

4x20

5,10,15,20

2 (MIMO)

4x10

5,10,15,20

Table 6-1206 Configuration of RRU3252 PAs (LTE TDD, 2300 MHz or 2500 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs) LTE TDD 1 (MIMO ) 2T2R Issue 07 (2016-04-29)

PA2

PA1

PA3

PA4









1

20

1

20

0

0

0

0


991




PA2

PA1

PA3

PA4









LTE TDD 2 (MIMO ) 2T2R

1

20

1

20

1

20

1

20


1

20

1

20

1

20

1

20


2

10

2

10

2

10

2

10

Typical Power Configuration for RRU3253 The RRU3253 has eight transmit channels and can work in an LTE TDD base station. Table 6-1207 and Table 6-1208 provide the typical power configuration for the RRU3253 (LTE TDD, 2600 MHz). Table 6-1207 Output power for the RRU3253 (LTE TDD, 2600 MHz)

Issue 07 (2016-04-29)

Working mode




LTE TDD

1 (MIMO)

8x5

10,20

2 (MIMO)

8x5

10,20


992




Issue 07 (2016-04-29)

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















1

5

1

5

1

5

1

5

1

5

1

5

1

5

1

5


993


C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) LT E T D D 2 ( M I M O) 8T 8R


PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















2

5

2

5

2

5

2

5

2

5

2

5

2

5

2

5

Typical Power Configuration for RRU3256 The RRU3256 has four transmit channels and can work in an LTE TDD base station. Table 6-1209 and Table 6-1210 provide the typical power configuration for the RRU3256 (LTE TDD, 2300 MHz or 2500 MHz). Table 6-1211 and Table 6-1212 provide the typical power configuration for the RRU3256 (LTE TDD, 3500 MHz).

Issue 07 (2016-04-29)


994



Table 6-1209 Output power for the RRU3256 (LTE TDD, 2300 MHz or 2500 MHz) Working mode




LTE TDD

1 (MIMO)

2 x 30

5,10,15,20

2 (MIMO)

2 x 15

5,10,15,20

3 (MIMO)

2 x 10

5,10,15,20

4 (MIMO)

2 x 7.5

5,10,15,20

1 (MIMO)

4 x 30

5,10,15,20

2 (MIMO)

4 x 15

5,10,15,20

3 (MIMO)

4 x 10

5,10,15,20

4 (MIMO)

4 x 7.5

5,10,15,20

Table 6-1210 Configuration of RRU3256 PAs (LTE TDD, 2300 MHz or 2500 MHz) Confi gurati on Scenar io (Total Numb er of Carrie rs) LTE TDD 1

PA2

PA1

PA3

PA4









1

30

1

30

0

0

0

0

2

15

2

15

0

0

0

0

3

10

3

10

0

0

0

0

(MIMO ) 2T2R LTE TDD 2 (MIMO ) 2T2R LTE TDD 3 (MIMO ) 2T2R

Issue 07 (2016-04-29)


995



Confi gurati on Scenar io (Total Numb er of Carrie rs) LTE TDD 4

PA2

PA1

PA3

PA4









4

7.5

4

7.5

0

0

0

0

1

30

1

30

1

30

1

30

2

15

2

15

2

15

2

15

3

10

3

10

3

10

3

10

4

7.5

4

7.5

4

7.5

4

7.5

(MIMO ) 2T2R LTE TDD 1 (MIMO ) 4T4R LTE TDD 2 (MIMO ) 4T4R LTE TDD 3 (MIMO ) 4T4R LTE TDD 4 (MIMO ) 4T4R

NOTE

The 3650–3675 MHz frequency resources have been approved by Federal Communications Commission (FCC). As stipulated by FCC, the equivalent isotropically radiated power (EIRP) for the 3650–3675 MHz frequencies must be less than 1 W/MHz.

Table 6-1211 Output power for the RRU3256 (LTE TDD, 3500 MHz)

Issue 07 (2016-04-29)

Working mode




LTE TDD

1 (MIMO)

2 x 15

5,10,15,20

2 (MIMO)

2 x 7.5

5,10,15,20


996



Working mode




3 (MIMO)

2x5

5,10,15,20

4 (MIMO)

2 x 3.75

5,10,15,20

1 (MIMO)

4 x 15

5,10,15,20

2 (MIMO)

4 x 7.5

5,10,15,20

3 (MIMO)

4x5

5,10,15,20

4 (MIMO)

4 x 3.75

5,10,15,20

Table 6-1212 Configuration of RRU3256 PAs (LTE TDD, 3500 MHz) Confi gurati on Scenar io (Total Numb er of Carrie rs) LTE TDD 1

PA2

PA1

PA3

PA4









1

15

1

15

0

0

0

0

2

7.5

2

7.5

0

0

0

0

3

5

3

5

0

0

0

0

4

3.75

4

3.75

0

0

0

0


Issue 07 (2016-04-29)


997


Confi gurati on Scenar io (Total Numb er of Carrie rs) LTE TDD 1


PA2

PA1

PA3

PA4









1

15

1

15

1

15

1

15

2

7.5

2

7.5

2

7.5

2

7.5

3

5

3

5

3

5

3

5

4

3.75

4

3.75

4

3.75

4

3.75


Typical Power Configuration for RRU3259 The RRU3259 has eight transmit channels and can work in an LTE TDD base station. Table 6-1213 and Table 6-1214 provide the typical power configuration for the RRU3259 (LTE TDD, 2600 MHz). Table 6-1213 Output power for the RRU3259 (LTE TDD, 2600 MHz) Working mode




LTE TDD 8T8R

1 (MIMO)

8x5

10, 20

2 (MIMO)

8x5

10, 20

3 (MIMO)

l Carrier1:8 x 5

10, 20

l Carrier2:8 x 5 l Carrier3:8 x 2.5 Issue 07 (2016-04-29)


998




Issue 07 (2016-04-29)

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















1

5

1

5

1

5

1

5

1

5

1

5

1

5

1

5


999



Issue 07 (2016-04-29)


PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















2

5

2

5

2

5

2

5

2

5

2

5

2

5

2

5


1000



Issue 07 (2016-04-29)


PA1

PA2 N u m be r of L T E T D D Ca rri er s

PA3

PA4

PA5

PA6 N u m be r of L T E T D D C ar ri er s





3

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C a r r i e r 1 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i












1001


C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s)




O ut p ut P o w er pe r L T E T D D C ar ri er ( W ) e r 3 : 2 . 5

PA3



e r 3 : 2 . 5

PA4



e r 3 : 2 . 5

PA5





e r 3 : 2 . 5

e r 3 : 2 . 5





e r 3 : 2 . 5


e r 3 : 2 . 5

e r 3 : 2 . 5

Typical Power Configuration for an RRU3276 An RRU3276 has four transmit channels and can work in LTE TDD mode. Table 6-1215 and Table 6-1216 provide the typical power configuration for an RRU3276 operating in the 2300 MHz/2600 MHz frequency band and working in LTE TDD mode. Table 6-1215 Output power of an RRU3276 (2300 MHz/2600 MHz, LTE TDD)

Issue 07 (2016-04-29)

Mode



Bandwidth Supported by LTE TDD (MHz)

LTE TDD

1 (MIMO)

2x40

5, 10, 15, or 20

2 (MIMO)

2x20

5, 10, 15, or 20


1002



Mode




3 (MIMO)

l Carrier 1: 2x20

5, 10, 15, or 20

l Carrier 2: 2x10 l Carrier 3: 2x10 4 (MIMO)

2x10

5, 10, 15, or 20

1 (MIMO)

4x40

5, 10, 15, or 20

2 (MIMO)

4x20

5, 10, 15, or 20

3 (MIMO)

l Carrier 1: 4x20

5, 10, 15, or 20

l Carrier 2: 4x10 l Carrier 3: 4x10 4 (MIMO)

4x10

5, 10, 15, or 20

Table 6-1216 Typical power configuration for an RRU3276 (2300 MHz/2600 MHz, LTE TDD, PA) Config uratio n Scenar io (Total Numb er of Carrier s)

Issue 07 (2016-04-29)

PA2

PA1

PA3

PA4


Outpu t Power per LTE TDD Carrier (W)







LTE TDD 1 (MIMO ), 2T2R

1

40

1

40

0

0

0

0


2

20

2

20

0

0

0

0


1003


Config uratio n Scenar io (Total Numb er of Carrier s) LTE TDD 3 (MIMO ), 2T2R

Issue 07 (2016-04-29)


PA2

PA1

PA3

PA4









3

l Carr ier 1: 20

3

l Carr ier 1: 20

0

0

0

0

l Carr ier 2: 10

l Carr ier 2: 10

l Carr ier 3: 10

l Carr ier 3: 10


4

10

4

10

0

0

0

0


1

40

1

40

1

40

1

40


2

20

2

20

2

20

2

20


3

l Carr ier 1: 20

3

l Carr ier 1: 20

3

l Carr ier 1: 20

3

l Carr ier 1: 20

l Carr ier 2: 10

l Carr ier 2: 10

l Carr ier 2: 10

l Carr ier 2: 10

l Carr ier 3: 10

l Carr ier 3: 10

l Carr ier 3: 10

l Carr ier 3: 10


1004


Config uratio n Scenar io (Total Numb er of Carrier s) LTE TDD 4 (MIMO ), 4T4R


PA2

PA1

PA3

PA4









4

10

4

10

4

10

4

10

Typical Power Configuration for an RRU3278 An RRU3278 has eight transmit channels and can work in LTE TDD mode. Table 6-1217 and Table 6-1218 provide the typical power configuration for an RRU3278 operating in the 3500 MHz frequency band and working in LTE TDD mode. Table 6-1217 Output power of an RRU3278 (3500 MHz, LTE TDD) Mode




LTE TDD

1 (MIMO)

4x16

5, 10, 15, or 20

2 (MIMO)

4x8

5, 10, 15, or 20

3 (MIMO)

l Carrier1: 4 x 5

5, 10, 15, or 20

l Carrier2: 4 x 5 l Carrier3: 4 x 6 4 (MIMO)

4x4

5, 10, 15, or 20

1 (MIMO)

8x16

5, 10, 15, or 20

2 (MIMO)

8x8

5, 10, 15, or 20

3 (MIMO)

l Carrier1: 8 x 5

5, 10, 15, or 20

l Carrier2: 8 x 5 l Carrier3: 8 x 6 4 (MIMO)

Issue 07 (2016-04-29)

8x4


5, 10, 15, or 20

1005



Table 6-1218 Typical power configuration for an RRU3278 (3500 MHz, LTE TDD, PA) C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) LT E T D D 1 ( M I M O) , 2T 2R

Issue 07 (2016-04-29)

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8



N u m b er of L T E T D D C ar ri er s














1

16

1

16

1

16

1

16

0

0

0

0

0

0

0

0


1006


C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) LT E T D D 2 ( M I M O) , 2T 2R

Issue 07 (2016-04-29)


PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















2

8

2

8

2

8

2

8

0

0

0

0

0

0

0

0


1007



Issue 07 (2016-04-29)


PA1

PA2

PA3

PA4




3

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C0 a r r i e r 1 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i

l C a r r i

l C a r r i

l C a r r i







PA6

PA7

PA8








0

0

0

0

0

0

0


1008





PA2




e r 3 : 6 LT E T D D 4 ( M I M O) , 2T 2R

Issue 07 (2016-04-29)

4

4



e r 3 : 6 4

4



e r 3 : 6 4

4

PA5

PA6

PA7

PA8









0

0

0

0

0

0

0

0

e r 3 : 6 4

4


1009



Issue 07 (2016-04-29)


PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















1

16

1

16

1

16

1

16

1

16

1

16

1

16

1

16


1010



Issue 07 (2016-04-29)


PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















2

8

2

8

2

8

2

8

2

8

2

8

2

8

2

8


1011



Issue 07 (2016-04-29)


PA1

PA2

PA3

PA4


PA6


PA8



3

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C3 a r r i e r 1 : 5

l C a r r i e r 1 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i














1012





PA2




e r 3 : 6 LT E T D D 4 ( M I M O) , 4T 4R

4

4



e r 3 : 6 4

4


4



e r 3 : 6 4

PA5 O ut pu t Po w er pe r L T E T D D Ca rri er ( W )

e r 3 : 6 4

4


4



e r 3 : 6 4

PA7 O ut pu t Po w er pe r L T E T D D Ca rri er ( W )

e r 3 : 6 4

4



e r 3 : 6 4

4

e r 3 : 6 4

4

Typical Power Configuration for RRU3279 The RRU3279 has eight transmit channels and can work in an LTE TDD base station.

Issue 07 (2016-04-29)


1013



Table 6-1219 and Table 6-1220 provide the typical power configuration for the RRU3279 (LTE TDD, 2300 MHz). Table 6-1219 Output power for the RRU3279 (LTE TDD, 2300 MHz) Working mode




LTE TDD 8T8R

1(MIMO)

8 x 20

10, 15, 20

2(MIMO)

8 x 10

10, 15, 20

3(MIMO)

l Carrier1: 8 x 10

10, 15, 20

l Carrier2: 8 x 5 l Carrier3: 8 x 5 4(MIMO)

Issue 07 (2016-04-29)

8x5


10, 15, 20

1014



Table 6-1220 Configuration of RRU3279 PAs (LTE TDD, 2300 MHz) C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) LT E( T D D) 1 ( M I M O) 8T 8R

Issue 07 (2016-04-29)

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















1

20

1

20

1

20

1

20

1

20

1

20

1

20

1

20


1015


C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) LT E( T D D) 2 ( M I M O) 8T 8R

Issue 07 (2016-04-29)


PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















2

10

2

10

2

10

2

10

2

10

2

10

2

10

2

10


1016



Issue 07 (2016-04-29)


PA1


PA3

PA4

PA5






3

l C3 a r r i e r 1 : 1 0

l C3 a r r i e r 1 : 1 0

l C3 a r r i e r 1 : 1 0

l C3 a r r i e r 1 : 1 0

l C3 a r r i e r 1 : 1 0

l C3 a r r i e r 1 : 1 0

l C3 a r r i e r 1 : 1 0

l C a r r i e r 1 : 1 0

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r

l C a r r

l C a r r

l C a r r

l C a r r

l C a r r

l C a r r

l C a r r












1017








i e r 3 : 5 LT E( T D D) 4 ( M I M O) 8T 8R

4

5



i e r 3 : 5 4

5



i e r 3 : 5 4

5


5



i e r 3 : 5 4

PA6

5



i e r 3 : 5 4

PA7

5



i e r 3 : 5 4

PA8 O ut p ut Po w er pe r L T E T D D C ar ri er ( W )

i e r 3 : 5 4

5

i e r 3 : 5 4

5

Table 6-1221 and Table 6-1222 provide the typical power configuration for the RRU3279 (LTE TDD, 2500 MHz).

Issue 07 (2016-04-29)


1018



Table 6-1221 Output power for the RRU3279 (LTE TDD, 2500 MHz) Working mode




LTE TDD 8T8R

1(MIMO)

8 x 15

10, 15, 20

2(MIMO)

l Carrier1: 8 x 10

10, 15, 20

l Carrier2: 8 x 5 3(MIMO)

8x5

10, 15, 20

4(MIMO)

l Carrier1: 8 x 5

10, 15, 20

l Carrier2: 8 x 5 l Carrier3: 8 x 2.5 l Carrier4: 8 x 2.5

Issue 07 (2016-04-29)


1019



Table 6-1222 Configuration of RRU3279 PAs (LTE TDD, 2500 MHz) C on fi gu ra ti on Sc en ar io (T ot al N u m be r of C ar ri er s) LT E( T D D) 1 ( M I M O) 8T 8R

Issue 07 (2016-04-29)

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















1

15

1

15

1

15

1

15

1

15

1

15

1

15

1

15


1020



Issue 07 (2016-04-29)


PA1


PA3

PA4

PA5






2

l C2 a r r i e r 1 : 1 0

l C2 a r r i e r 1 : 1 0

l C2 a r r i e r 1 : 1 0

l C2 a r r i e r 1 : 1 0

l C2 a r r i e r 1 : 1 0

l C2 a r r i e r 1 : 1 0

l C2 a r r i e r 1 : 1 0

l C a r r i e r 1 : 1 0

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5












1021



Issue 07 (2016-04-29)


PA1

PA2

PA3

PA4

PA5

PA6

PA7

PA8

















3

5

3

5

3

5

3

5

3

5

3

5

3

5

3

5


1022



Issue 07 (2016-04-29)


PA1


PA3

PA4

PA5






4

l C4 a r r i e r 1 : 5

l C4 a r r i e r 1 : 5

l C4 a r r i e r 1 : 5

l C4 a r r i e r 1 : 5

l C4 a r r i e r 1 : 5

l C4 a r r i e r 1 : 5

l C4 a r r i e r 1 : 5

l C a r r i e r 1 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i e r 2 : 5

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i

l C a r r i












1023







PA3



PA4



PA5










e r 3 : 2 . 5

e r 3 : 2 . 5

e r 3 : 2 . 5

e r 3 : 2 . 5

e r 3 : 2 . 5

e r 3 : 2 . 5

e r 3 : 2 . 5

e r 3 : 2 . 5

l C a r r i e r 4 : 2 . 5

l C a r r i e r 4 : 2 . 5

l C a r r i e r 4 : 2 . 5

l C a r r i e r 4 : 2 . 5

l C a r r i e r 4 : 2 . 5

l C a r r i e r 4 : 2 . 5

l C a r r i e r 4 : 2 . 5

l C a r r i e r 4 : 2 . 5

6.7.4 Typical Power Configuration for AAU The typical power configuration for active antenna system (AAS) modules is described.

Issue 07 (2016-04-29)


1024



Typical Power Configuration for AAU3902 An AAU3902 is a 2TX RF module that can work in UMTS, LTE FDD, or GL mode. l

Table 6-1223 provides the typical power configuration for the AAU3902 (UMTS, 2100 MHz, 1T2R, 3 Sectors).

l

Table 6-1224 provides the typical power configuration for the AAU3902 (UMTS, 2100 MHz, 2T2R/2T4R, 3 Sectors).

l


l


l

Table 6-1227 provides the typical power configuration for the AAU3902 (LTE FDD, 1800 MHz, 2T2R/2T4R, 3 Sectors).

l

Table 6-1228 provides the typical power configuration for the AAU3902 (LTE FDD, 1800 MHz, 4T4R, 3 Sectors).

l

Table 6-1229 provides the typical power configuration for the AAU3902 (LTE FDD, 1800 MHz, 2T2R, 6 Sectors).

l

Table 6-1230 provides the typical power configuration for the AAU3902 (GL, 1800 MHz, GSM 1T2R & LTE FDD 2T2R/2T4R, 3 Sectors).

l

Table 6-1231 provides the typical power configuration for the AAU3902 (GL, 1800 MHz, GSM 1T2R & LTE FDD 4T4R, 3 Sectors).

l

Table 6-1232 provides the typical power configuration for the AAU3902 (GL, 1800 MHz, GSM 1T2R & LTE FDD 2T2R, 3 Sectors for GSM & 6 Sectors for LTE FDD). NOTE

l The Virtual Antenna Port Configuration column provides the output power configurations of virtual antenna ports when the Dividual Tilts by Carrier feature is used. l Rxy indicates a virtual antenna port connected to a virtual RET subunit. Where l

x is a decimal digit ranging from 0 to 7. It indicates the number of a port on the vertical plane.

l

y indicates the number of a port on the horizontal plane and can be set to A or B. A indicates the +45° polarized radiator element and B indicates the -45° polarized radiator element.

l If the Vertical Multiple Sectors feature is used, the base station supports a maximum of six sectors. If this feature is not used, the base station supports a maximum of three sectors. l For details about the Vertical Multiple Sectors features, see AAS Feature Parameter Description of the corresponding mode.

Table 6-1223 Output power for the AAU3902 (UMTS, 2100 MHz, 1T2R, 3 Sectors) Mode



Virtual Antenna Port Configuration

UMTS

1

40

R0A: 40 W, R0B: 0 W

2

40

l R0A: 40 W, R0B: 0 W l R1A: 0 W, R1B: 40 W

Issue 07 (2016-04-29)


1025


Mode





3

20

l R0A: 20 W, R0B: 0 W l R1A: 0 W, R1B: 20 W l R2A: 20 W, R2B: 0 W

4

20

l R0A: 20 W, R0B: 0 W l R1A: 0 W, R1B: 20 W l R2A: 20 W, R2B: 0 W l R3A: 0 W, R3B: 20 W

5

13

l R0A: 13 W, R0B: 0 W l R1A: 0 W, R1B: 13 W l R2A: 13 W, R2B: 0 W l R3A: 0 W, R3B: 13 W l R4A: 13 W, R4B: 0 W

6

13

l R0A: 13 W, R0B: 0 W l R1A: 0 W, R1B: 13 W l R2A: 13 W, R2B: 0 W l R3A: 0 W, R3B: 13 W l R4A: 13 W, R4B: 0 W l R5A: 0 W, R5B: 13 W

7

10

l R0A: 10 W, R0B: 0 W l R1A: 0 W, R1B: 10 W l R2A: 10 W, R2B: 0 W l R3A: 0 W, R3B: 10 W l R4A: 10 W, R4B: 0 W l R5A: 0 W, R5B: 10 W l R6A: 10 W, R6B: 0 W

8

10

l R0A: 10 W, R0B: 0 W l R1A: 0 W, R1B: 10 W l R2A: 10 W, R2B: 0 W l R3A: 0 W, R3B: 10 W l R4A: 10 W, R4B: 0 W l R5A: 0 W, R5B: 10 W l R6A: 10 W, R6B: 0 W l R7A: 0 W, R7B: 10 W

Issue 07 (2016-04-29)


1026



Table 6-1224 Output power for the AAU3902 (UMTS, 2100 MHz, 2T2R/2T4R, 3 Sectors) Mode




UMTS

1

40 + 40

R0A: 40 W, R0B: 40 W

2

20 + 20

l R0A: 20 W, R0B: 20 W l R1A: 20 W, R1B: 20 W

3

13 + 13

l R0A: 13 W, R0B: 13 W l R1A: 13 W, R1B: 13 W l R2A: 13 W, R2B: 13 W

4

10 + 10






UMTS

1

40

l Sector 1: R0A: 40 W, R0B: 0 W l Sector 2: R1A: 0 W, R1B: 40 W

2

20

l Sector 1: – Carrier 1: R0A: 20 W, R0B: 0 W – Carrier 2: R1A: 0 W, R1B: 20 W l Sector 2: – Carrier 1: R2A: 20 W, R2B: 0 W – Carrier 2: R3A: 0 W, R3B: 20 W

Issue 07 (2016-04-29)


1027


Mode





3

13

l Sector 1: – Carrier 1: R0A: 13 W, R0B: 0 W – Carrier 2: R1A: 0 W, R1B: 13 W – Carrier 3: R2A: 13 W, R2B: 0 W l Sector 2: – Carrier 1: R3A: 0 W, R3B: 13 W – Carrier 2: R4A: 13 W, R4B: 0 W – Carrier 3: R5A: 0 W, R5B: 13 W

4

10

l Sector 1: – Carrier 1: R0A: 10 W, R0B: 0 W – Carrier 2: R1A: 0 W, R1B: 10 W – Carrier 3: R2A: 10 W, R2B: 0 W – Carrier 4: R3A: 0 W, R3B: 10 W l Sector 2: – Carrier 1: R4A: 10 W, R4B: 0 W – Carrier 2: R5A: 0 W, R5B: 10 W – Carrier 3: R6A: 10 W, R6B: 0 W – Carrier 4: R7A: 0 W, R7B: 10 W

Issue 07 (2016-04-29)


1028







UMTS

1

20 + 20


2

10 + 10


3

6.5+6.5

l Sector 1: – Carrier 1: R0A: 6.5 W, R0B: 6.5 W – Carrier 2: R1A: 6.5 W, R1B: 6.5 W – Carrier 3: R2A: 6.5 W, R2B: 6.5 W l Sector 2: – Carrier 1: R3A: 6.5 W, R3B: 6.5 W – Carrier 2: R4A: 6.5 W, R4B: 6.5 W – Carrier 3: R5A: 6.5 W, R5B: 6.5 W

4

5+5

l Sector 1: – Carrier 1: R0A: 5 W, R0B: 5 W – Carrier 2: R1A: 5 W, R1B: 5 W – Carrier 3: R2A: 5 W, R2B: 5 W – Carrier 4: R3A: 5 W, R3B: 5 W l Sector 2: – Carrier 1: R4A: 5 W, R4B: 5 W – Carrier 2: R5A: 5 W, R5B: 5 W – Carrier 3: R6A: 5 W, R6B: 5 W – Carrier 4: R7A: 5 W, R7B: 5 W

Issue 07 (2016-04-29)


1029



Table 6-1227 Output power for the AAU3902 (LTE FDD, 1800 MHz, 2T2R/2T4R, 3 Sectors) Mode





LTE FDD

1

2 x 40

5, 10, 15, 20

R0A: 40 W, R0B: 40 W

2

2 x 20

5, 10, 15, 20

l R0A: 20 W, R0B: 20 W l R1A: 20 W, R1B: 20 W

Table 6-1228 Output power for the AAU3902 (LTE FDD, 1800 MHz, 4T4R, 3 Sectors) Mode





LTE FDD

1

4 x 20

5, 10, 15, 20

l R0A: 20 W, R0B: 20 W l R1A: 20 W, R1B: 20 W

2

4 x 10

5, 10, 15, 20


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1030



Table 6-1229 Output power for the AAU3902 (LTE FDD, 1800 MHz, 2T2R, 6 Sectors) Mode





LTE FDD

1

2 x 40

5, 10, 15, 20


2

2 x 20

5, 10, 15, 20


Table 6-1230 Output power for the AAU3902 (GL, 1800 MHz, GSM 1T2R & LTE FDD 2T2R/2T4R, 3 Sectors) Mode

Total Num ber of GSM Carri ers


Total Num ber of LTE FDD Carri ers




GL

6

10

1

2 x 10

5, 10, 15, 20

l GSM: R0A: 10 W, 10 W, 10 W; R0B: 10 W, 10 W, 10 W l LTE: R1A: 10 W; R1B: 10 W

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1031


Mode








5

10

1

2 x 10

5, 10, 15, 20

l GSM: R0A: 10 W, 10 W, 10 W; R0B: 10 W, 10 W l LTE: R1A: 10 W; R1B: 10 W

4

10

1

2 x 20

5, 10, 15, 20

l GSM: R0A: 10 W, 10 W; R0B: 10 W, 10 W l LTE: R1A: 20 W; R1B: 20 W

3

10

1

2 x 20

5, 10, 15, 20

l GSM: R0A: 10 W, 10 W; R0B: 10 W l LTE: R1A: 20 W; R1B: 20 W

2

20

1

2 x 20

5, 10, 15, 20

l GSM: R0A: 20 W; R0B: 20 W l LTE: R1A: 20 W; R1B: 20 W

1

20

1

2 x 20

5, 10, 15, 20

l GSM: R0A: 20 W l LTE: R1A: 20 W; R1B: 20 W

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1032



Table 6-1231 Output power for the AAU3902 (GL, 1800 MHz, GSM 1T2R & LTE FDD 4T4R, 3 Sectors) Mode







GL

4

10

1

4 x 10

5, 10, 15, 20

l GSM: R0A: 10 W, 10 W; R0B: 10 W, 10 W l LTE: R1A: 10 W, R1B: 10 W; R2A: 10 W, R2B: 10 W

3

10

1

4 x 10

5, 10, 15, 20

l GSM: R0A: 10 W, 10 W; R0B: 10 W l LTE: R1A: 10 W, R1B: 10 W; R2A: 10 W, R2B: 10 W

2

20

1

4 x 10

5, 10, 15, 20

l GSM: R0A: 20 W; R0B: 20 W l LTE: R1A: 10 W, R1B: 10 W; R2A: 10 W, R2B: 10 W

1

20

1

4 x 10

5, 10, 15, 20

l GSM: R0A: 20 W l LTE: R1A: 10 W, R1B: 10 W; R2A: 10 W, R2B: 10 W

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1033



Table 6-1232 Output power for the AAU3902 (GL, 1800 MHz, GSM 1T2R & LTE FDD 2T2R, 3 Sectors for GSM & 6 Sectors for LTE FDD) Mode







GL

4

10

1

2 x 10

5, 10, 15, 20

l GSM: R0A: 10 W, 10 W; R0B: 10 W, 10 W l LTE: – Sector 1: R1A: 10 W, R1B: 10 W – Sector 2: R2A: 10 W, R2B: 10 W

3

10

1

2 x 10

5, 10, 15, 20

l GSM: R0A: 10 W, 10 W; R0B: 10 W l LTE: – Sector 1: R1A: 10 W, R1B: 10 W – Sector 2: R2A: 10 W, R2B: 10 W

2

20

1

2 x 10

5, 10, 15, 20

l GSM: R0A: 20 W; R0B: 20 W l LTE: – Sector 1: R1A: 10 W, R1B: 10 W – Sector 2: R2A: 10 W, R2B: 10 W

Issue 07 (2016-04-29)


1034



Mode







1

20

1

2 x 10

5, 10, 15, 20

l GSM: R0A: 20 W l LTE: – Sector 1: R1A: 10 W, R1B: 10 W – Sector 2: R2A: 10 W, R2B: 10 W

Typical Power Configuration for AAU3910 An AAU3910 can be configured with different types of RUs to work in UMTS, LTE FDD, or UL mode. Different types of RUs support different numbers of TX channels and working modes. l

RU3832: 2T, working in UMTS, LTE FDD, or UL mode.

l

RU3260: 2T, working in LTE FDD mode

l

Table 6-1233 and Table 6-1234 provide the typical power configuration for the RU3832 (UMTS, 2100 MHz/AWS).

l

Table 6-1235 and Table 6-1236 provide the typical power configuration for the RU3832 (LTE FDD, AWS).

l

Table 6-1237 and Table 6-1238 provide the typical power configuration for the RU3832 (UL MSR, AWS).

l

Table 6-1239 and Table 6-1240 provide the typical power configuration for the RU3260 (LTE FDD, 2600 MHz).

l


l

Table 6-1243 and Table 6-1244 provide the typical power configuration for the RU3971 (GL MSR, 1800 MHz). NOTE

l If the RF module is placed at an altitude of 3500 to 4500 meters, its power reduces by 1 dB. If the RF module is placed at an altitude of 4500 to 6000 meters, its power reduces by 2 dB. l When two LTE carriers are configured, it is recommended that the power spectrum density (PSD) of the two carriers be set to the same value. Power spectrum density = Carrier output power/Carrier bandwidth (1.4 MHz and 3 MHz bandwidths are considered as 5 MHz bandwidth in this formula.)

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1035



Table 6-1233 Output power for the RU3832 (UMTS, 2100 MHz/AWS) Working Mode



UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2x40

2 (MIMO)

2x30

3 (MIMO)

2x20

4 (MIMO)

2x15

Table 6-1234 Configuration of RU3832 PAs (UMTS, 2100 MHz/AWS)

Issue 07 (2016-04-29)






UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

30

UMTS 4

2

30

2

30

UMTS 5

3

20

2

20

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

PA1

PA2


1036



Table 6-1235 Output power for the RU3832 (LTE FDD, AWS) Working Mode




LTE FDD

1 (MIMO)

2x20

5

1 (MIMO)

2x40

10

1 (MIMO)

2x60

5, 10, 15, 20

2 (MIMO)

2x20

5

2 (MIMO)

2x30

5, 10

2 (MIMO)

Carrier 1: 2x20

Carrier 1: 5

Carrier 2: 2x40

Carrier 2: 10

Carrier 1: 2x15

Carrier 1: 5

Carrier 2: 2x45

Carrier 2: 15

2 (MIMO)

Table 6-1236 Configuration of RU3832 PAs (LTE FDD, AWS) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

20

1

20

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

20

2

20

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

Carrier 1: 20

2

Carrier 1: 20

LTE FDD 2 (MIMO)

2

Carrier 2: 40 Carrier 1: 15

Carrier 2: 40 2

Carrier 2: 45



1037



Table 6-1237 Output power for the RU3832 (UL MSR, AWS) Working Mode






UMTS + LTE FDD

1 (MIMO)

1 (MIMO)

2x20

2x40

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x30

2x30

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x40

2x20

5, 10, 15, 20

1

1 (MIMO)

20

2x40

5, 10, 15, 20

1

1 (MIMO)

30

2x30

5, 10, 15, 20

1

1 (MIMO)

40

2x20

5, 10, 15, 20

2

1 (MIMO)

20

2x40

5, 10, 15, 20

2

1 (MIMO)

30

2x30

5, 10, 15, 20

2

1 (MIMO)

40

2x20

5, 10, 15, 20

3

1 (MIMO)

20

2x20

5, 10, 15, 20

4

1 (MIMO)

20

2x20

5, 10, 15, 20

1+1 (MIMO)

1 (MIMO)

Without MIMO: 20

2x20

5, 10, 15, 20

With MIMO: 2x20

Table 6-1238 Configuration of RU3832 PAs (UL MSR, AWS) Configuration Scenario (Total Number of Carriers)


Issue 07 (2016-04-29)

PA1

PA2









1

20

1

40

1

20

1

40


1038




Issue 07 (2016-04-29)

PA1

PA2










1

30

1

30

1

30

1

30


1

40

1

20

1

40

1

20


1

20

1

40

0

0

1

40


1

30

1

30

0

0

1

30


2

40

1

20

0

0

1

20


1

20

1

40

1

20

1

40


1

30

1

30

1

30

1

30


2

40

1

20

2

40

1

20


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


2

20

1

20

1

20

1

20


1039



Table 6-1239 Output power for the RU3260 (LTE FDD, 2600 MHz) Working Mode




LTE FDD

1 (MIMO)

2x40

5, 10, 15, 20

2 (MIMO)

2x20

5, 10, 15, 20

Table 6-1240 Configuration of RU3260 PAs (LTE FDD, 2600 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

Table 6-1241 Output power for the RU3971 (LTE FDD, 1800 MHz)

Issue 07 (2016-04-29)

Mode




LTE FDD

1 (MIMO)

4x40

5, 10, 15, 20

2 (MIMO)

4x20

5, 10, 15, 20


1040



Table 6-1242 Configuration of RU3971 PAs (LTE FDD, 1800 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs)

PA2

PA1

PA3

PA4









LTE FDD 1 (MIMO )

1

40

1

40

1

40

1

40

LTE FDD 2 (MIMO )

2

20

2

20

2

20

2

20

Table 6-1243 Output power for the RU3971 (GL MSR, 1800 MHz)

Issue 07 (2016-04-29)

Mode






GSM + LTE FDD

2

1 (MIMO)

15

4x25

5, 10, 15, 20

2

1 (MIMO)

20

4x20

5, 10, 15, 20

2

2 (MIMO)

20

4x10

5, 10, 15, 20

4

1 (MIMO)

15

4x10

5, 10, 15, 20

4

1 (MIMO)

10

4x20

5, 10, 15, 20

4

2 (MIMO)

10

4x10

5, 10, 15, 20


1041



Table 6-1244 Configuration of RU3971 PAs (GL MSR, 1800 MHz) Configu ration Scenari o (Total Numbe r of Carriers )

Issue 07 (2016-04-29)

PA2

PA1

PA3

PA4


















1

15

1

25

1

15

1

25

0

0

1

25

0

0

1

25


1

20

1

20

1

20

1

20

0

0

1

20

0

0

1

20


1

20

2

10

1

20

2

10

0

0

2

10

0

0

2

10


2

15

1

10

2

15

1

10

0

0

1

10

0

0

1

10


2

10

1

20

2

10

1

20

0

0

1

20

0

0

1

20


1042





PA2

PA1

PA3

PA4

















2

10

2

10

2

10

2

10

0

0

2

10

0

0

2

10

Typical Power Configuration for AAU3911 An AAU3911 can work in GSM, UMTS, LTE FDD, GL, or UL mode after being configured with different types of RUs. Different types of RUs support different numbers of TX channels and working modes. l

RU3832: 2T, working in UMTS, LTE FDD, or UL mode.

l

RU3260: 2T, working in LTE FDD mode

l

RU3952m: 2T, working in GSM, LTE FDD, or GL mode.

l

Table 6-1245 and Table 6-1246 provide the typical power configuration for the RU3832 (UMTS, 2100 MHz/AWS).

l

Table 6-1247 and Table 6-1248 provide the typical power configuration for the RU3832 (LTE FDD, AWS).

l

Table 6-1249 and Table 6-1250 provide the typical power configuration for the RU3832 (UL MSR, AWS).

l


l

Table 6-1253 and Table 6-1254 provide the typical power configuration for the RU3952m(1800MHz) (GSM, 1800 MHz).

Issue 07 (2016-04-29)


1043



l

Table 6-1255 and Table 6-1256 provide the typical power configuration for the RU3952m(1800MHz) (LTE FDD, 1800 MHz).

l

Table 6-1257 and Table 6-1258 provide the typical power configuration for the RU3952m(1800MHz) (GL MSR, 1800 MHz).

l

Table 6-1259 and Table 6-1260 provide the typical power configuration for the RU3952m(2100MHz) (UMTS, 2100 MHz).

l

Table 6-1261 and Table 6-1262 provide the typical power configuration for the RU3952m(2100MHz) (LTE FDD, 2100 MHz).

l

Table 6-1263 and Table 6-1264 provide the typical power configuration for the RU3952m(2100MHz) (UL MSR, 2100 MHz). NOTE


Table 6-1245 Output power for the RU3832 (UMTS, 2100 MHz/AWS) Working Mode



UMTS

1

60

2

60

3

30

4

30

5

20

6

20

1 (MIMO)

2x40

2 (MIMO)

2x30

3 (MIMO)

2x20

4 (MIMO)

2x15

Table 6-1246 Configuration of RU3832 PAs (UMTS, 2100 MHz/AWS)

Issue 07 (2016-04-29)






UMTS 1

1

60

0

0

PA1

PA2


1044




PA1

PA2





UMTS 2

1

60

1

60

UMTS 3

2

30

1

30

UMTS 4

2

30

2

30

UMTS 5

3

20

2

20

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15

Table 6-1247 Output power for the RU3832 (LTE FDD, AWS) Working Mode




LTE FDD

1 (MIMO)

2x20

5

1 (MIMO)

2x40

10

1 (MIMO)

2x60

5, 10, 15, 20

2 (MIMO)

2x20

5

2 (MIMO)

2x30

5, 10

2 (MIMO)

Carrier 1: 2x20

Carrier 1: 5

Carrier 2: 2x40

Carrier 2: 10

Carrier 1: 2x15

Carrier 1: 5

Carrier 2: 2x45

Carrier 2: 15

2 (MIMO)

Issue 07 (2016-04-29)


1045



Table 6-1248 Configuration of RU3832 PAs (LTE FDD, AWS) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

20

1

20

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

20

2

20

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

Carrier 1: 20

2

Carrier 1: 20

LTE FDD 2 (MIMO)

2


Carrier 2: 40 2

Carrier 1: 15

Carrier 2: 45

Carrier 2: 45

Table 6-1249 Output power for the RU3832 (UL MSR, AWS)

Issue 07 (2016-04-29)

Working Mode






UMTS + LTE FDD

1 (MIMO)

1 (MIMO)

2x20

2x40

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x30

2x30

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x40

2x20

5, 10, 15, 20

1

1 (MIMO)

20

2x40

5, 10, 15, 20

1

1 (MIMO)

30

2x30

5, 10, 15, 20

1

1 (MIMO)

40

2x20

5, 10, 15, 20

2

1 (MIMO)

20

2x40

5, 10, 15, 20

2

1 (MIMO)

30

2x30

5, 10, 15, 20

2

1 (MIMO)

40

2x20

5, 10, 15, 20


1046


Working Mode







3

1 (MIMO)

20

2x20

5, 10, 15, 20

4

1 (MIMO)

20

2x20

5, 10, 15, 20

1+1 (MIMO)

1 (MIMO)

Without MIMO: 20

2x20

5, 10, 15, 20

With MIMO: 2x20

Table 6-1250 Configuration of RU3832 PAs (UL MSR, AWS) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

20

1

40

1

20

1

40


1

30

1

30

1

30

1

30


1

40

1

20

1

40

1

20


1

20

1

40

0

0

1

40


1

30

1

30

0

0

1

30


2

40

1

20

0

0

1

20


1

20

1

40

1

20

1

40


1047




PA1

PA2










1

30

1

30

1

30

1

30


2

40

1

20

2

40

1

20


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


2

20

1

20

1

20

1

20

Table 6-1251 Output power for the RU3260 (LTE FDD, 2600 MHz) Working Mode




LTE FDD

1 (MIMO)

2x40

5, 10, 15, 20

2 (MIMO)

2x20

5, 10, 15, 20

Table 6-1252 Configuration of RU3260 PAs (LTE FDD, 2600 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20


1048



Table 6-1253 Output power forthe RU3952m(1800MHz) (GSM, 1800 MHz) Working Mode




GSM

1

60

60

2

60

60

3

30

30

4

30

30

5

20

25

6

20

25

7

15

20

8

15

20

Table 6-1254 Configuration of RU3952m PAs(1800MHz) (GSM, 1800 MHz)

Issue 07 (2016-04-29)








GSM 1

1

60

60

0

0

0

GSM 2

1

60

60

1

60

60

GSM 3

2

30

30

1

30

30

GSM 4

2

30

30

2

30

30

GSM 5

3

20

25

2

20

25

GSM 6

3

20

25

3

20

25

GSM 7

4

15

20

3

15

20

PA2

PA1


1049




PA2







GSM 8

4

15

20

4

15

20

PA1

Table 6-1255 Output power for the RU3952m(1800MHz) (LTE FDD, 1800 MHz) Working Mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

1 (MIMO)

2x40

1.4, 3

2 (MIMO)

2x30

1.4, 3, 5, 10, 15, 20

2 (MIMO)

l Carrier 1: 2x20

1.4, 3, 5, 10, 15, 20

l Carrier 2: 2x40

Table 6-1256 Configuration of RU3952m PAs(1800MHz) (LTE FDD, 1800 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

30

2

30


1050



Configuration Scenario (Total Number of Carriers) LTE FDD 2 (MIMO)

PA1

PA2





2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40

l Carrier 2: 40

Table 6-1257 Output power for the RU3952m(1800MHz) (GL MSR, 1800 MHz)

Issue 07 (2016-04-29)

Working Mode






GSM + LTE FDD

1

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

1

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

30

2x30

1.4, 3, 5, 10, 15, 20

2

1 (MIMO)

20

2x40

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

3

1 (MIMO)

15

2x30

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

1 (MIMO)

15

2x30

1.4, 3, 5, 10, 15, 20

5

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

12

2x20

1.4, 3, 5, 10, 15, 20

6

1 (MIMO)

15

2 x 15

5, 10, 15, 20


1051


Working Mode







1

2 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

2

2 (MIMO)

40

2x20

1.4, 3, 5, 10, 15, 20

3

2 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

4

2 (MIMO)

20

2x20

1.4, 3, 5, 10, 15, 20

Table 6-1258 Configuration of RU3952m PAs(1800MHz) (GL MSR, 1800 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

40

1

20

0

0

1

20


1

30

1

30

0

0

1

30


1

20

1

40

0

0

1

40


1

40

1

20

1

40

1

20


1

30

1

30

1

30

1

30


1

20

1

40

1

20

1

40


2

20

1

20

1

20

1

20


1052




PA1

PA2










2

15

1

30

1

15

1

30


2

20

1

20

2

20

1

20


2

15

1

30

2

15

1

30


3

12

1

20

2

12

1

20


3

12

1

20

3

12

1

20


3

15

1

15

3

15

1

15


1

40

2

20

0

0

2

20


1

40

2

20

1

40

2

20


2

20

2

20

1

20

2

20


2

20

2

20

2

20

2

20

Table 6-1259 Output power for the RU3952m(2100MHz) (UMTS, 2100MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

60

2

60

3

30


1053



Mode



4

30

5

20

6

20

1 (MIMO)

2x40

2 (MIMO)

2x30

3 (MIMO)

2x20

4 (MIMO)

2x15

Table 6-1260 Configuration of RU3952m PAs(2100MHz) (UMTS, 2100MHz)

Issue 07 (2016-04-29)

PA1

PA2






UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

30

1

30

UMTS 4

2

30

2

30

UMTS 5

3

20

2

20

UMTS 6

3

20

3

20

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

30

2

30

UMTS 3 (MIMO)

3

20

3

20

UMTS 4 (MIMO)

4

15

4

15


1054



Table 6-1261 Output power for the RU3952m(2100MHz) (LTE FDD, 2100 MHz) Mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

2 (MIMO)

2x30

5, 10, 15, 20

2 (MIMO)

l Carrier 1: 2x20

5, 10, 15, 20

l Carrier 2: 2x40

Table 6-1262 Configuration of RU3952m PAs(2100MHz) (LTE FDD, 2100 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

30

2

30

LTE FDD 2 (MIMO)

2

l Carrier 1: 20

2

l Carrier 1: 20

l Carrier 2: 40

l Carrier 2: 40

Table 6-1263 Output power for the RU3952m(2100MHz) (UL MSR, 2100 MHz)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

1 (MIMO)

20

2x40

5, 10, 15, 20

1

1 (MIMO)

40

2x20

5, 10, 15, 20

2

1 (MIMO)

20

2x40

5, 10, 15, 20

2

1 (MIMO)

40

2x20

5, 10, 15, 20

3

1 (MIMO)

20

2x20

5, 10, 15, 20

4

1 (MIMO)

20

2x20

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x20

2x40

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x40

2x20

5, 10, 15, 20


1055


Mode







1

2 (MIMO)

20

2x20

5, 10, 15, 20

2

2 (MIMO)

20

2x20

5, 10, 15, 20

Table 6-1264 Configuration of RU3952m PAs(2100MHz) (UL MSR, 2100 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

20

1

40

0

0

1

40


1

40

1

20

0

0

1

20


1

20

1

40

1

20

1

40


1

40

1

20

1

40

1

20


2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20


1

20

1

40

1

20

1

40


1

40

1

20

1

40

1

20


1

20

2

20

0

0

2

20


1056





PA1

PA2









1

20

2

20

1

20

2

20

Typical Power Configuration for AAU3920 An AAU3920 is a 2T module working in UMTS, LTE FDD, GL, UL or GUL mode. l

Table 6-1265 and Table 6-1266 provide the typical power configuration for the AAU3920 (UMTS, 2100 MHz).

l

Table 6-1267 and Table 6-1268 provide the typical power configuration for the AAU3920 (LTE FDD, 1800 MHz).

l

Table 6-1269 and Table 6-1270 provide the typical power configuration for the AAU3920 (GL MSR, 1800 MHz).

l

Table 6-1271 and Table 6-1272 provide the typical power configuration for the AAU3920 (UL, UMTS 2100 MHz + LTE FDD 1800 MHz).

l

Table 6-1273 and Table 6-1274 provide the typical power configuration for the AAU3920 (GUL, GL MSR 1800 MHz + UMTS 2100 MHz).

Table 6-1265 Output power for the AAU3920 (UMTS, 2100 MHz)

Issue 07 (2016-04-29)

Mode



UMTS

1

60

2

60

3

40

4

40

5

25

6

25

7

20

8

20


1057



Mode



1 (MIMO)

2x60

2 (MIMO)

2x40

3 (MIMO)

2x25

4 (MIMO)

2x20

Table 6-1266 Configuration of AAU3920 PAs (UMTS, 2100 MHz)

Issue 07 (2016-04-29)

PA1

PA2






UMTS 1

1

60

0

0

UMTS 2

1

60

1

60

UMTS 3

2

40

1

40

UMTS 4

2

40

2

40

UMTS 5

3

25

2

25

UMTS 6

3

25

3

25

UMTS 7

4

20

3

20

UMTS 8

4

20

4

20

UMTS 1 (MIMO)

1

60

1

60

UMTS 2 (MIMO)

2

40

2

40

UMTS 3 (MIMO)

3

25

3

25

UMTS 4 (MIMO)

4

20

4

20


1058



Table 6-1267 Output power for the AAU3920 (LTE FDD, 1800 MHz) Mode




LTE FDD

1 (MIMO)

2x60

5, 10, 15, 20

2 (MIMO)

2x40

5, 10, 15, 20

Table 6-1268 Configuration of AAU3920 PAs (LTE FDD, 1800 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

60

1

60

LTE FDD 2 (MIMO)

2

40

2

40

Table 6-1269 Output power for the AAU3920 (GL MSR, 1800 MHz)

Issue 07 (2016-04-29)

Mode






GSM+LTE FDD

1

1 (MIMO)

40

2x40

5, 10, 15, 20

2

1 (MIMO)

40

2x40

5, 10, 15, 20

3

1 (MIMO)

20

2x40

5, 10, 15, 20

4

1 (MIMO)

20

2x40

5, 10, 15, 20

5

1 (MIMO)

20

2x20

5, 10, 15, 20

6

1 (MIMO)

20

2x20

5, 10, 15, 20

7

1 (MIMO)

15

2x20

5, 10, 15, 20

8

1 (MIMO)

15

2x20

5, 10, 15, 20

2

2 (MIMO)

20

2x20

5, 10, 15, 20

4

2 (MIMO)

20

2x20

5, 10, 15, 20


1059



Table 6-1270 Configuration of AAU3920 PAs (GL MSR, 1800 MHz) Configuration Scenario (Total Number of Carriers)

PA1

PA2

Nu mbe r of GS M Carr iers









1

40

1

40

0

0

1

40


1

40

1

40

1

40

1

40


2

20

1

40

1

20

1

40


2

20

1

40

2

20

1

40


3

20

1

20

2

20

1

20


3

20

1

20

3

20

1

20


4

15

1

20

3

15

1

20


4

15

1

20

4

15

1

20


1

20

2

20

1

20

2

20


2

20

2

20

2

20

2

20

Table 6-1271 Output power for the AAU3920 (UL, UMTS 2100 MHz + LTE FDD 1800 MHz)

Issue 07 (2016-04-29)

Mode






UMTS 2100 MHz + LTE

1

1 (MIMO)

40

2x40

5, 10, 15, 20


1060



Mode






FDD 1 1800 MHz

2

1 (MIMO)

40

2x40

5, 10, 15, 20

3

1 (MIMO)

20

2x40

5, 10, 15, 20

4

1 (MIMO)

20

2x40

5, 10, 15, 20

1

2 (MIMO)

20

2x30

5, 10, 15, 20

2

2 (MIMO)

20

2x30

5, 10, 15, 20

3

2 (MIMO)

20

2x20

5, 10, 15, 20

4

2 (MIMO)

20

2x20

5, 10, 15, 20

1 (MIMO)

1 (MIMO)

2x40

2x40

5, 10, 15, 20

1 (MIMO)

2 (MIMO)

2x40

2x20

5, 10, 15, 20

2 (MIMO)

2 (MIMO)

2x20

2x20

5, 10, 15, 20

3 (MIMO)

1 (MIMO)

2x20

2x20

5, 10, 15, 20

Table 6-1272 Configuration of AAU3920 PAs (UL, UMTS 2100 MHz + LTE FDD 1800 MHz) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2










1

40

1

40

1

40

0

0


1

40

1

40

1

40

1

40


1

40

1

40

2

20

1

20


1

40

1

40

2

20

2

20


1061




Issue 07 (2016-04-29)

1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2










2

30

2

30

1

20

0

0


2

30

2

30

1

20

1

20


2

20

2

20

2

20

1

20


2

20

2

20

2

20

2

20


1

40

1

40

1

40

1

40


2

20

2

20

1

40

1

40


2

20

2

20

2

20

2

20


1

20

1

20

3

20

3

20


1062



Table 6-1273 Output power for the AAU3920 (GUL, GL MSR 1800 MHz + UMTS 2100 MHz)

Issue 07 (2016-04-29)

Mode








GL 1800 MHz + UMTS 2100 MHz

1

1 (MIMO )

1

20

2x20

40

5, 10, 15, 20

2

1 (MIMO )

2

20

2x20

40

5, 10, 15, 20

3

1 (MIMO )

1

20

2x40

20

5, 10, 15, 20

3

1 (MIMO )

2

20

2x20

20

5, 10, 15, 20

3

1 (MIMO )

3

20

2x20

20

5, 10, 15, 20

3

1 (MIMO )

3

20

2x20

20

5, 10, 15, 20

4

1 (MIMO )

2

20

2x20

20

5, 10, 15, 20

6

1 (MIMO )

2

13

2x20

20

5, 10, 15, 20

4

1 (MIMO )

1 (MIMO)

20

2x20

2x20

5, 10, 15, 20

4

1 (MIMO )

2 (MIMO)

20

2x20

2x10

5, 10, 15, 20

5

1 (MIMO )

1 (MIMO)

13

2x20

2x20

5, 10, 15, 20


1063


Mode









6

1 (MIMO )

1 (MIMO)

13

2x20

2x20

5, 10, 15, 20

4

1 (MIMO )

3 (MIMO)

15

2x20

2x10

5, 10, 15, 20

Table 6-1274 Configuration of AAU3920 PAs (GUL, GL MSR 1800 MHz + UMTS 2100 MHz) Configurat ion Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2

N u m be r of G S M Ca rri ers


N u m be r of LT E F D D Ca rri ers

O ut pu t Po we r pe r LT E F D D Ca rri er (W )





Nu mb er of U MT S Car rier s

Ou tpu t Po we r per U MT S Car rier (W)



GSM 1 + LTE FDD 1 (MIMO) + UMTS 1

1

20

1

20

0

0

1

20

1

40

0

0


1

20

1

20

1

20

1

20

1

40

1

40


1064



Issue 07 (2016-04-29)


1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2














2

20

1

40

1

20

1

40

0

0

1

20


2

20

1

20

1

20

1

20

1

20

1

20


2

20

1

20

1

20

1

20

1

20

2

20


3

20

1

20

0

0

1

20

0

0

3

20


2

20

1

20

2

20

1

20

1

20

1

20


3

13

1

20

3

13

1

20

1

20

1

20


1065



Issue 07 (2016-04-29)


1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2













GSM 4 + LTE FDD 1 (MIMO) + UMTS 1 (MIMO)

2

20

1

20

2

20

1

20

1

20

1

20


2

20

1

20

2

20

1

20

2

10

2

10


3

13

1

20

2

13

1

20

1

20

1

20


3

13

1

20

3

13

1

20

1

20

1

20


2

15

1

20

2

15

1

20

3

10

3

10


1066



Typical Power Configuration for AAU3940 An AAU3940 is a 2TX module working in UMTS, LTE FDD, or UL mode. l

Table 6-1275 and Table 6-1276 provide the typical power configuration for the AAU3940 (2100 MHz, UMTS, 2x30 W) or AAU3940 (PCS, UMTS, 2x30 W).

l

Table 6-1277 and Table 6-1278 provide the typical power configuration for the AAU3940 (1800/2100 MHz, LTE FDD, 2x30 W) or AAU3940 (AWS/PCS, LTE FDD, 2x30 W).

l

Table 6-1279 and Table 6-1280 provide the typical power configuration for the AAU3940 (1800 MHz+2100 MHz, LTE FDD, 2x30 W) or AAU3940 (AWS+PCS, LTE FDD, 2x30 W).

l

Table 6-1281 and Table 6-1282 provide the typical power configuration for the AAU3940 (2100 MHz UMTS+1800/2100 MHz LTE FDD, 2x30 W) or AAU3940 (PCS UMTS+AWS/PCS LTE FDD, 2x30 W).

l

Table 6-1283 and Table 6-1284 provide the typical power configuration for the AAU3940 (1800 MHz LTE FDD+2100 MHz UL MSR, 2x30 W) or AAU3940 (AWS LTE FDD+PCS UL MSR, 2x30 W).

l

Table 6-1285 and Table 6-1286 provide the typical power configuration for the AAU3940 (2100 MHz, UMTS, 2x40 W) or AAU3940 (PCS, UMTS, 2x40 W).

l

Table 6-1287 and Table 6-1288 provide the typical power configuration for the AAU3940 (1800/2100 MHz, LTE FDD, 2x40 W) or AAU3940 (AWS/PCS, LTE FDD, 2x40 W).

l

Table 6-1289 and Table 6-1290 provide the typical power configuration for the AAU3940 (1800 MHz+2100 MHz, LTE FDD, 2x40 W) or AAU3940 (AWS+PCS, LTE FDD, 2x40 W).

l

Table 6-1291 and Table 6-1292 provide the typical power configuration for the AAU3940 (2100 MHz UMTS+1800/2100 MHz LTE FDD, 2x40 W) or AAU3940 (PCS UMTS+AWS/PCS LTE FDD, 2x40 W).

l

Table 6-1293 and Table 6-1294 provide the typical power configuration for the AAU3940 (1800 MHz LTE FDD+2100 MHz UL MSR, 2x40 W) or AAU3940 (AWS LTE FDD+PCS UL MSR, 2x40 W). NOTE

When the ambient temperature ranges from -40°C to 50°C, the AAU3940 supports a maximum of 2x30 W output power. When the ambient temperature ranges from -40°C to 40°C, the AAU3940 supports a maximum of 2x40 W output power.

Table 6-1275 Output power for the AAU3940 (2100 MHz, UMTS, 2x30 W) or AAU3940 (PCS, UMTS, 2x30 W)

Issue 07 (2016-04-29)

Mode



UMTS

1

30

2

30

3

15

4

15


1067



Mode



5

10

6

10

1 (MIMO)

2x30

2 (MIMO)

2x15

3 (MIMO)

2x10

4 (MIMO)

2x7.5

Table 6-1276 Typical power configuration of AAU3940 PAs (2100 MHz, UMTS, 2x30 W) or AAU3940 PAs (PCS, UMTS, 2x30 W)

Issue 07 (2016-04-29)

PA1

PA2






UMTS 1

1

30

0

0

UMTS 2

1

30

1

30

UMTS 3

2

15

1

15

UMTS 4

2

15

2

15

UMTS 5

3

10

2

10

UMTS 6

3

10

3

10

UMTS 1 (MIMO)

1

30

1

30

UMTS 2 (MIMO)

2

15

2

15

UMTS 3 (MIMO)

3

10

3

10

UMTS 4 (MIMO)

4

7.5

4

7.5


1068



Table 6-1277 Output power for the AAU3940 (1800/2100 MHz, LTE FDD, 2x30 W) or AAU3940 (AWS/PCS, LTE FDD, 2x30 W) Mode




LTE FDD

1 (MIMO)

2x30

5, 10, 15, 20

2 (MIMO)

2x15

5, 10, 15, 20

Table 6-1278 Typical power configuration of AAU3940 PAs (1800/2100 MHz, LTE FDD, 2x30 W) or AAU3940 PAs (AWS/PCS, LTE FDD, 2x30 W) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

30

1

30

LTE FDD 2 (MIMO)

2

15

2

15

Table 6-1279 Output power for the AAU3940 (1800 MHz+2100 MHz, LTE FDD, 2x30 W) or AAU3940 (AWS+PCS, LTE FDD, 2x30 W) Mode

LTE FDD 1800 MHz + LTE FDD 2100 MHz

Issue 07 (2016-04-29)

1800 MHz

2100 MHz



Bandwid th Supporte d by LTE FDD (MHz)




1 (MIMO)

2x15

5, 10, 15, 20

1 (MIMO)

2x15

5, 10, 15, 20


1069



Table 6-1280 Typical power configuration of AAU3940 PAs (1800 MHz+2100 MHz, LTE FDD, 2x30 W) or AAU3940 PAs (AWS+PCS, LTE FDD, 2x30 W) Configur ation Scenario (Total Number of Carriers)

LTE FDD 1800 MHz 1 (MIMO) + LTE FDD 2100 MHz 1 (MIMO)

1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2









1

15

1

15

1

15

1

15

Table 6-1281 Output power for the AAU3940 (2100 MHz UMTS+1800/2100 MHz LTE FDD, 2x30 W) or AAU3940 (PCS UMTS, AWS/PCS LTE FDD, 2x30 W)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

15

1 (MIMO)

2x15

5, 10, 15, 20

2

15

1 (MIMO)

2x15

5, 10, 15, 20

3

10

1 (MIMO)

2x10

5, 10, 15, 20

4

10

1 (MIMO)

2x10

5, 10, 15, 20

1

10

2 (MIMO)

2x10

5, 10, 15, 20

2

10

2 (MIMO)

2x10

5, 10, 15, 20

3

7.5

2 (MIMO)

2x7.5

5, 10, 15, 20

4

7.5

2 (MIMO)

2x7.5

5, 10, 15, 20

1 (MIMO)

2x15

1 (MIMO)

2x15

5, 10, 15, 20

2 (MIMO)

2x10

1 (MIMO)

2x10

5, 10, 15, 20

3 (MIMO)

2x7.5

1 (MIMO)

2x7.5

5, 10, 15, 20

1 (MIMO)

2x10

2 (MIMO)

2x10

5, 10, 15, 20


1070


Mode







2 (MIMO)

2x7.5

2 (MIMO)

2x7.5

5, 10, 15, 20

Table 6-1282 Typical power configuration of AAU3940 PAs (2100 MHz UMTS, 1800/2100 MHz LTE FDD, 2x30 W) or AAU3940 PAs (PCS UMTS+AWS/PCS LTE FDD, 2x30 W) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

15

1

15

0

0

1

15


1

15

1

15

1

15

1

15


2

10

1

10

1

10

1

10


2

10

1

10

2

10

1

10


1

10

2

10

0

0

2

10


1

10

2

10

1

10

2

10


2

7.5

2

7.5

1

7.5

2

7.5


2

7.5

2

7.5

2

7.5

2

7.5


1

15

1

15

1

15

1

15


2

10

1

10

2

10

1

10


1071




PA1

PA2










3

7.5

1

7.5

3

7.5

1

7.5


1

10

2

10

1

10

2

10


2

7.5

2

7.5

2

7.5

2

7.5

Table 6-1283 Output power for the AAU3940 (1800 MHz LTE FDD+2100 MHz UL MSR, 2x30 W) or AAU3940 (AWS LTE FDD+PCS UL MSR, 2x30 W) Mode

LTE FDD 1800 MHz + UMTS 2100 MHz + LTE FDD 2100 MHz

Issue 07 (2016-04-29)

1800 MHz

2100 MHz



Bandw idth Suppo rted by LTE FDD (MHz)

Total Numb er of UMTS Carrier s




Band width Suppo rted by LTE FDD (MHz)

1 (MIMO )

2x10

5, 10, 15, 20

1

10

1 (MIM O)

2x10

5, 10, 15, 20

1 (MIMO )

2x10

5, 10, 15, 20

2

10

1 (MIM O)

2x10

5, 10, 15, 20

1 (MIMO )

2x7.5

5, 10, 15, 20

3

7.5

1 (MIM O)

2x7.5

5, 10, 15, 20

1 (MIMO )

2x7.5

5, 10, 15, 20

4

7.5

1 (MIM O)

2x7.5

5, 10, 15, 20


1072



Mode

1800 MHz

2100 MHz









1 (MIMO )

2x10

5, 10, 15, 20

1 (MIMO )

2x10

1 (MIM O)

2x10

5, 10, 15, 20

1 (MIMO )

2x7.5

5, 10, 15, 20

2 (MIMO )

2x7.5

1 (MIM O)

2x7.5

5, 10, 15, 20

Table 6-1284 Typical power configuration of AAU3940 PAs (1800 MHz LTE FDD+2100 MHz UL MSR, 2x30 W) or AAU3940 PAs (AWS LTE FDD+PCS UL MSR, 2x30 W) Configurati on Scenario (Total Number of Carriers)

1800 MHz: LTE FDD 1 (MIMO)

1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2




Ou tp ut Po we r pe r LT E FD D Ca rri er (W )


Ou tp ut Po we r per U M TS Ca rri er (W )







1

10

1

10

1

10

1

10

0

0

1

10

2100 MHz: UMTS 1 + LTE FDD 1 (MIMO)

Issue 07 (2016-04-29)


1073





1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2













1

10

1

10

1

10

1

10

1

10

1

10

1

7.5

1

7.5

2

7.5

1

7.5

1

7.5

1

7.5

1

7.5

1

7.5

2

7.5

1

7.5

2

7.5

1

7.5

2100 MHz: UMTS 2 + LTE FDD 1 (MIMO) 1800 MHz: LTE FDD 1 (MIMO) 2100 MHz: UMTS 3 + LTE FDD 1 (MIMO) 1800 MHz: LTE FDD 1 (MIMO) 2100 MHz: UMTS 4 + LTE FDD 1 (MIMO)

Issue 07 (2016-04-29)


1074





1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2













1

10

1

10

1

10

1

10

1

10

1

10

1

7.5

1

7.5

2

7.5

1

7.5

2

7.5

1

7.5

2100 MHz: UMTS 1 (MIMO) + LTE FDD 1 (MIMO) 1800 MHz: LTE FDD 1 (MIMO) 2100 MHz: UMTS 2 (MIMO) + LTE FDD 1 (MIMO)

Table 6-1285 Output power for the AAU3940 (2100 MHz, UMTS, 2x40 W) or AAU3940 (PCS, UMTS, 2x40 W)

Issue 07 (2016-04-29)

Mode



UMTS

1

40

2

40

3

20


1075



Mode



4

20

5

13

6

13

1 (MIMO)

2x40

2 (MIMO)

2x20

3 (MIMO)

2x13

4 (MIMO)

2x10

Table 6-1286 Typical power configuration of AAU3940 PAs (2100 MHz, UMTS, 2x40 W) or AAU3940 PAs (PCS, UMTS, 2x40 W)

Issue 07 (2016-04-29)

PA1

PA2






UMTS 1

1

40

0

0

UMTS 2

1

40

1

40

UMTS 3

2

20

1

20

UMTS 4

2

20

2

20

UMTS 5

3

13

2

13

UMTS 6

3

13

3

13

UMTS 1 (MIMO)

1

40

1

40

UMTS 2 (MIMO)

2

20

2

20

UMTS 3 (MIMO)

3

13

3

13

UMTS 4 (MIMO)

4

10

4

10


1076



Table 6-1287 Output power for the AAU3940 (1800/2100 MHz, LTE FDD, 2x40 W) or AAU3940 (AWS/PCS, LTE FDD, 2x40 W) Mode




LTE FDD

1 (MIMO)

2x40

5, 10, 15, 20

2 (MIMO)

2x20

5, 10, 15, 20

Table 6-1288 Typical power configuration of AAU3940 PAs (1800/2100 MHz, LTE FDD, 2x40 W) or AAU3940 PAs (AWS/PCS, LTE FDD, 2x40 W) Configuration Scenario (Total Number of Carriers)

PA1

PA2





LTE FDD 1 (MIMO)

1

40

1

40

LTE FDD 2 (MIMO)

2

20

2

20

Table 6-1289 Output power for the AAU3940 (1800 MHz+2100 MHz, LTE FDD, 2x40 W) or AAU3940 (AWS+PCS, LTE FDD, 2x40 W) Mode

LTE FDD 1800 MHz + LTE FDD 2100 MHz

Issue 07 (2016-04-29)

1800 MHz

2100 MHz







1 (MIMO)

2x20

5, 10, 15, 20

1 (MIMO)

2x20

5, 10, 15, 20


1077



Table 6-1290 Typical power configuration of AAU3940 PAs (1800 MHz+2100 MHz, LTE FDD, 2x40 W) or AAU3940 PAs (AWS+PCS, LTE FDD, 2x40 W) Configur ation Scenario (Total Number of Carriers)

LTE FDD 1800 MHz 1 (MIMO) + LTE FDD 2100 MHz 1 (MIMO)

1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2









1

20

1

20

1

20

1

20

Table 6-1291 Output power for the AAU3940 (2100 MHz UMTS+1800/2100 MHz LTE FDD, 2x40 W) or AAU3940 (PCS UMTS+AWS/PCS LTE FDD, 2x40 W)

Issue 07 (2016-04-29)

Mode






UMTS + LTE FDD

1

20

1 (MIMO)

2x20

5, 10, 15, 20

2

20

1 (MIMO)

2x20

5, 10, 15, 20

3

13

1 (MIMO)

2x13

5, 10, 15, 20

4

13

1 (MIMO)

2x13

5, 10, 15, 20

1

13

2 (MIMO)

2x13

5, 10, 15, 20

2

13

2 (MIMO)

2x13

5, 10, 15, 20

3

10

2 (MIMO)

2x10

5, 10, 15, 20

4

10

2 (MIMO)

2x10

5, 10, 15, 20

1 (MIMO)

2x20

1 (MIMO)

2x20

5, 10, 15, 20

2 (MIMO)

2x13

1 (MIMO)

2x13

5, 10, 15, 20

3 (MIMO)

2x10

1 (MIMO)

2x10

5, 10, 15, 20

1 (MIMO)

2x13

2 (MIMO)

2x13

5, 10, 15, 20


1078


Mode







2 (MIMO)

2x10

2 (MIMO)

2x10

5, 10, 15, 20

Table 6-1292 Typical power configuration of AAU3940 PAs (2100 MHz UMTS+1800/2100 MHz LTE FDD, 2x40 W) or AAU3940 PAs (PCS UMTS+AWS/PCS LTE FDD, 2x40 W) Configuration Scenario (Total Number of Carriers)

Issue 07 (2016-04-29)

PA1

PA2










1

20

1

20

0

0

1

20


1

20

1

20

1

20

1

20


2

13

1

13

1

13

1

13


2

13

1

13

2

13

1

13


1

13

2

13

0

0

2

13


1

13

2

13

1

13

2

13


2

10

2

10

1

10

2

10


2

10

2

10

2

10

2

10


1

20

1

20

1

20

1

20


2

13

1

13

2

13

1

13


1079




PA1

PA2










3

10

1

10

3

10

1

10


1

13

2

13

1

13

2

13


2

10

2

10

2

10

2

10

Table 6-1293 Output power for the AAU3940 (1800 MHz LTE FDD+2100 MHz UL MSR, 2x40 W) or AAU3940 (AWS LTE FDD+PCS UL MSR, 2x40 W) Mode

LTE FDD 1800 MHz + UMTS 2100 MHz + LTE FDD 2100 MHz

Issue 07 (2016-04-29)

1800 MHz

2100 MHz









1 (MIMO )

2x13

5, 10, 15, 20

1

13

1 (MIM O)

2x13

5, 10, 15, 20

1 (MIMO )

2x13

5, 10, 15, 20

2

13

1 (MIM O)

2x13

5, 10, 15, 20

1 (MIMO )

2x10

5, 10, 15, 20

3

10

1 (MIM O)

2x10

5, 10, 15, 20

1 (MIMO )

2x10

5, 10, 15, 20

4

10

1 (MIM O)

2x10

5, 10, 15, 20


1080



Mode

1800 MHz

2100 MHz









1 (MIMO )

2x13

5, 10, 15, 20

1 (MIMO )

2x13

1 (MIM O)

2x13

5, 10, 15, 20

1 (MIMO )

2x10

5, 10, 15, 20

2 (MIMO )

2x10

1 (MIM O)

2x10

5, 10, 15, 20

Table 6-1294 Typical power configuration of AAU3940 PAs (1800 MHz LTE FDD+2100 MHz UL MSR, 2x40 W) or AAU3940 PAs (AWS LTE FDD+PCS UL MSR, 2x40 W) Configurati on Scenario (Total Number of Carriers)


1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2













1

13

1

13

1

13

1

13

0

0

1

13

2100 MHz: UMTS 1 + LTE FDD 1 (MIMO)

Issue 07 (2016-04-29)


1081





1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2













1

13

1

13

1

13

1

13

1

13

1

13

1

10

1

10

2

10

1

10

1

10

1

10

1

10

1

10

2

10

1

10

2

10

1

10

2100 MHz: UMTS 2 + LTE FDD 1 (MIMO) 1800 MHz: LTE FDD 1 (MIMO) 2100 MHz: UMTS 3 + LTE FDD 1 (MIMO) 1800 MHz: LTE FDD 1 (MIMO) 2100 MHz: UMTS 4 + LTE FDD 1 (MIMO)

Issue 07 (2016-04-29)


1082





1800 MHz PA1

1800 MHz PA2

2100 MHz PA1

2100 MHz PA2













1

13

1

13

1

13

1

13

1

13

1

13

1

10

1

10

2

10

1

10

2

10

1

10

2100 MHz: UMTS 1 (MIMO) + LTE FDD 1 (MIMO) 1800 MHz: LTE FDD 1 (MIMO) 2100 MHz: UMTS 2 (MIMO) + LTE FDD 1 (MIMO)

Typical Power Configuration for AAU3961 An AAU3961 can work in LTE FDD or GL mode after being configured with different types of RUs. Different types of RUs support different numbers of TX channels and working modes. l

RU3971: A 4T module that can work in LTE FDD or GL mode

l

RU3261: A 4T module that can work in LTE FDD mode

l


Issue 07 (2016-04-29)


1083



l

Table 6-1297 and Table 6-1298 provide the typical power configuration for the RU3971 (GL MSR, 1800 MHz).

l

Table 6-1299 and Table 6-1300 provide the typical power configuration for the RU3261 (LTE FDD, 2600 MHz). NOTE


Table 6-1295 Output power for the RU3971 (LTE FDD, 1800 MHz) Mode




LTE FDD

1 (MIMO)

4x40

5, 10, 15, 20

2 (MIMO)

4x20

5, 10, 15, 20

Table 6-1296 Typical power configuration of RU3971 PAs (LTE FDD, 1800 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs)

Issue 07 (2016-04-29)

PA2

PA1

PA3

PA4









LTE FDD 1 (MIMO )

1

40

1

40

1

40

1

40

LTE FDD 2 (MIMO )

2

20

2

20

2

20

2

20


1084



Table 6-1297 Output power for the RU3971 (GL MSR, 1800 MHz) Mode






GSM + LTE FDD

2

1 (MIMO)

15

4x25

5, 10, 15, 20

2

1 (MIMO)

20

4x20

5, 10, 15, 20

2

2 (MIMO)

20

4x10

5, 10, 15, 20

4

1 (MIMO)

15

4x10

5, 10, 15, 20

4

1 (MIMO)

10

4x20

5, 10, 15, 20

4

2 (MIMO)

10

4x10

5, 10, 15, 20

Table 6-1298 Typical power configuration of RU3971 PAs (GL MSR, 1800 MHz) Configu ration Scenari o (Total Numbe r of Carriers )


Issue 07 (2016-04-29)

PA2

PA1

PA3

PA4

















1

15

1

25

1

15

1

25

0

0

1

25

0

0

1

25


1085



Issue 07 (2016-04-29)


PA2

PA1

PA3

PA4


















1

20

1

20

1

20

1

20

0

0

1

20

0

0

1

20


1

20

2

10

1

20

2

10

0

0

2

10

0

0

2

10


2

15

1

10

2

15

1

10

0

0

1

10

0

0

1

10


2

10

1

20

2

10

1

20

0

0

1

20

0

0

1

20


2

10

2

10

2

10

2

10

0

0

2

10

0

0

2

10


1086



Table 6-1299 Output power for the RU3261 (LTE FDD, 2600 MHz) Mode




LTE FDD

1 (MIMO)

4x20

5, 10, 15, 20

2 (MIMO)

4x10

5, 10, 15, 20

Table 6-1300 Typical power configuration of RU3261 PAs (LTE FDD, 2600 MHz) Config uratio n Scenar io (Total Numb er of Carrie rs)

PA2

PA1

PA3

PA4









LTE FDD 1 (MIMO )

1

20

1

20

1

20

1

20

LTE FDD 2 (MIMO )

2

10

2

10

2

10

2

10

6.7.5 Configuring Power Supported by RF Modules This section describes how to configure power supported by RF modules. l

Table 6-1301 lists the power supported by RF modules in a GBTS.

l

Table 6-1302 lists the power supported by RF modules in an eGBTS.

Issue 07 (2016-04-29)


1087



Table 6-1301 Supported power in a GBTS Module Type

RRU3908 V1

RRU3008 V1

MRFU V1

GRFU V1

RRU3908 V2

RRU3008 V2

MRFU V2

GRFU V2

RRU3928

MRFU V2a

GRFU V2a

RRU3929

MRFU V6

RRU3926

MRFUd

RRU3936

MRFUd V6

RRU3938

MRFUdw V6

RRU3939

MRFUe

RRU3942 RRU3952 RRU3952m RRU3953 RRU3953w RRU3959 RRU3959w RRU3961 RRU3962 RRU3962d RRU3965 RRU3965d RRU3971 AAU3910 (RU3938) AAU3911 (RU3952m) AAU3920 Frequency Type

Issue 07 (2016-04-29)

ALL

ALL

ALL


ALL

1088


Available Power (Unit: W)


80

60

125

125

60

40

80

80

40

30

60

60

31

25

50

50

30

20

45

45

27

16

40

40

25

15

31

31

20

14

30

30

16

13.3

27

27

15

13

25

25

14

12

24

24

13.3

11

21

21

13

10

20

20

12

9.5

19

19

11

9

18

18

10

8.5

17

17

9.5

8

16

16

9

7.5

15

15

8.5

7

14

14

8

6

13

13

7.5

5.5

12

12

7

5

11.5

11.5

6

4

10

10

5.5

3.7

8

8

5

3.1

7

7

4 3.7 3.1 3 2.5 2 1.5 1

Issue 07 (2016-04-29)


1089



Table 6-1302 Supported power in an eGBTS Module Type

RRU3908 V1

RRU3008 V1

MRFU V1

GRFU V1

MRFU V2

GRFU V2

RRU3908 V2

RRU3008 V2

MRFU V2a

GRFU V2a

RRU3928

AAU3902

MRFU V6 MRFUd

RRU3929

MRFUd V6

RRU3926 RRU3936

MRFUdw V6

RRU3938

MRFUe

RRU3939 RRU3942 RRU3952 RRU3952m RRU3953 RRU3953w RRU3959 RRU3959w RRU3961 RRU3962 RRU3962d RRU3965 RRU3965d RRU3971 AAU3910 (RU3938) AAU3911 (RU3952m) AAU3920 Frequency Type

Issue 07 (2016-04-29)

ALL

ALL

ALL


ALL

1800 MHz

1090


Available Power (Unit: dBm)


49.0

47.8

51.0

51.0

46.0

47.8

46.0

49.0

49.0

44.8

46.0

44.8

47.8

47.8

44.0

44.9

44.0

47.0

47.0

43.0

44.8

43.0

46.5

46.5

42.0

44.3

42.0

46.0

46.0

41.8

44.0

41.8

44.9

44.9

41.5

43.0

41.5

44.8

44.8

41.2

42.0

41.2

44.3

44.3

41.1

41.8

41.1

44.0

44.0

40.8

41.5

40.8

43.8

43.8

40.4

41.2

40.4

43.2

43.2

40.0

41.1

40.0

43.0

43.0

39.8

40.8

39.8

42.8

42.8

39.5

40.4

39.5

42.6

42.6

39.3

40.0

39.3

42.3

42.3

39.0

39.8

39.0

42.0

42.0

38.8

39.5

38.8

41.8

41.8

38.5

39.3

38.5

41.5

41.5

37.8

39.0

37.8

41.1

41.1

37.4

38.8

37.4

40.8

40.8

37.0

38.5

37.0

40.6

40.6

36.0

37.8

36.0

40.0

40.0

35.7

37.4

35.7

39.0

39.0

34.9

37.0

34.9

38.5

38.5

36.0 35.7 34.9 34.8 34.0 33.0 31.8 30.0

Issue 07 (2016-04-29)


1091


7 Reliability

7

Reliability

3900 series base stations adopt a platform design so that hardware can be shared on this platform. This provides mature communications technologies and stable transmission reliability.

System Reliability 3900 series base stations feature a reliability design with load sharing and redundancy configuration, optimized fault detection and isolation technologies for boards and the system. This greatly enhances system reliability. l

l

Redundancy configuration –

Units such as the power supply unit all support redundancy configuration.

–

CPRI ports that connect the BBU and RF modules support the ring topology. When one CPRI link becomes faulty, services are automatically switched over to the other CPRI link.

–

Key files such as software versions and data configuration files all support redundancy backup.

Reliability The system automatically detects and diagnoses faults in the software, hardware, and environment, and reports alarms. Then the system automatically clears the faults using self-healing measures. If the faults cannot be cleared, the faulty units will be automatically isolated.

Hardware Reliability l

Anti-misinsertion of boards When a board is mistakenly inserted into the slot of another board, this board cannot be connected to the backplane, and in this way, the equipment is free from damage.

l

Overtemperature protection When the temperature near the power amplifier (PA) in an RF module is too high, the base station reports an over-temperature alarm and immediately shuts down the PA. This function protects the PA from damage caused by over-temperature.

l

Reliable power supply –

Issue 07 (2016-04-29)

Wide voltage range and surge protection Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.

1092


l

7 Reliability

–

Power failure protection for programs and data

–

Protection of power supply against overvoltage, overcurrent, and reverse connection of positive and negative poles on boards

All-round surge protection design Surge protection is provided for AC and DC power sockets, input and output signal ports (E1/T1 port, FE/GE ports, interconnection ports, and Boolean alarm port), antenna connectors, and GPS ports. GPS is short for Global Positioning System.

Software Reliability l

Redundancy backup The system stores important files or data such as software versions and data configuration files to ensure normal operation of the system when errors occur in these files or data.

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Software versions: The system stores software versions. If the current version is abnormal, the system switches over to the backup version, which ensures normal operation of the base station.

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Data configuration files: The system stores data configuration files in different partitions. If the current file is damaged, the base station can continue working properly by loading the backup file.

Error tolerance When software errors occur, the system can still work due to its self-healing and error tolerance capabilities, which are supported by the following functions:

Issue 07 (2016-04-29)

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Scheduled check of key resources: The system checks software resource usage periodically. If resources cannot be released because of software errors, the system can release the occupied resources in time and export logs and alarms.

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Task monitoring: When software is running, monitoring processes check for internal software faults or certain hardware faults. If an error occurs in a task, an alarm is reported and self-healing measures are taken to restore the task.

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Data verification: The system performs scheduled or event-driven data consistency check, restores data selectively or preferably, and generates logs and alarms.

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Watchdog: When a software error occurs, the base station system detects the error using the software and hardware watchdogs and automatically resets.


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3900 Series Base Station Technical Description(V100R010C10_07)(PDF)-En

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