Subrack and cabinet numbering rules

SingleRAN
Base Station Cabinets and Subracks
(Including the BBU Subrack)
Configuration Feature Parameter
Description
Issue 03
Date 2013-07-30
HUAWEI TECHNOLOGIES CO., LTD.

Copyright © Huawei Technologies Co., Ltd. 2013. 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: support@huawei.com
Issue 03 (2013-07-30) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
i

Contents
1 Introduction....................................................................................................................................1
1.1 Scope..............................................................................................................................................................................1
1.2 Intended Audience..........................................................................................................................................................1
1.3 Change History...............................................................................................................................................................1
2 Overview.........................................................................................................................................4
2.1 Base Stations and Cabinets.............................................................................................................................................4
2.1.1 Mapping Between Base Station Models and Cabinet Types.......................................................................................4
2.1.2 Cabinet Numbering Rules...........................................................................................................................................8
2.2 Subrack.........................................................................................................................................................................11
2.2.1 Subrack Types...........................................................................................................................................................11
2.2.2 Subrack Numbering Rules.........................................................................................................................................12
2.3 BBU Board Types........................................................................................................................................................14
2.4 Typical Cabinet and Subrack Configurations for 3900 Series Base Stations...............................................................16
3 Related Features...........................................................................................................................24
4 Impact on the Network...............................................................................................................25
5 Engineering Guidelines.............................................................................................................26
5.1 Information to Be Collected.........................................................................................................................................26
5.2 Feature Deployment.....................................................................................................................................................26
5.2.1 Deployment Requirements........................................................................................................................................26
5.2.2 Network Planning......................................................................................................................................................26
5.2.3 Data Preparation........................................................................................................................................................26
5.2.4 Feature Activation/Initial Configuration...................................................................................................................35
5.2.5 Activation Observation..............................................................................................................................................37
5.3 Feature Reconfiguration...............................................................................................................................................37
5.3.1 Modifying Cabinet Configuration.............................................................................................................................37
5.3.2 Modifying Subrack Configuration.............................................................................................................................39
5.3.3 Modifying BBU Board Configuration.......................................................................................................................40
5.3.4 Deleting BBU Boards................................................................................................................................................42
5.4 BBU Board Maintenance..............................................................................................................................................44
5.4.1 Resetting BBU Boards...............................................................................................................................................44
5.4.2 Querying BBU Board Information............................................................................................................................45
SingleRAN
Base Station Cabinets and Subracks (Including the BBU
Subrack) Configuration Feature Parameter Description Contents
ii

6 Parameters.....................................................................................................................................46
7 Counters........................................................................................................................................60
8 Reference Documents.................................................................................................................61
SingleRAN
Subrack) Configuration Feature Parameter Description Contents
iii

1Introduction
1.1 Scope
This document describes which cabinets and subracks are required for different base station
models and how to configure them. This document also describes how to configure and maintain
boards in a baseband unit (BBU) subrack. The base stations mentioned in this document refer
to 3900 series base stations.
Any managed objects (MOs), parameters, alarms, or counters described in this document
correspond to the software release delivered with this document. In the event of updates, the
updates will be described in the product documentation delivered with the latest software release.
1.2 Intended Audience
This document is intended for personnel who:
l Need to understand the features described herein
l Work with Huawei products
1.3 Change History
This section provides information about the changes in different document versions. There are
two types of changes, which are defined as follows:
l Feature change
Changes in features of a specific product version
l Editorial change
Changes in wording or addition of information that was not described in the earlier version
03 (2013-07-30)
This issue includes the following changes.
SingleRAN
Subrack) Configuration Feature Parameter Description 1 Introduction
1

Change
Type
Change Description Parameter Change
Feature
change
Added rules when configuring RRU subrack
numbers. For details, see section Table 2-8.
None
Editorial
change
None. None
02 (2013-06-25)
Change
Type
Feature
change
Added a parameter for modifying the
baseband board configurations of co-MPT
base stations. For details, see section
Modifying the Baseband Board
Configuration.
CPRIEX
Editorial
change
Incorporated the original chapter
"Configuration Rules" into 2 Overview.
None
01 (2013-04-28)
Change
Type
Feature
change
Added the following configuration rules for
upgraded BTS3012 series base stations:
l Added nameplates and logical names of
cabinets to Table 2-1.
l Added cabinet numbering rules to Table
2-6.
l Added subrack numbering rules to Table
2-9.
Value range of TYPE
Editorial
change
None None
SingleRAN
2

Draft A (2013-01-15)
Compared with issue 03 (2012-09-15) of SRAN7.0, Draft A (2013-01-15) of SRAN8.0 includes
the following changes.
Change Type Change Description Parameter Change
Feature change l Added configurations and
maintenance modes of
cabinets, subracks, and
BBU boards to eGBTSs
and co-MPT base
stations. For details, see
chapter 5 Engineering
Guidelines.
l Added cabinet
nameplates for upgraded
cabinets to Table 2-1.
None.
Editorial change None. None.
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2Overview
2.1 Base Stations and Cabinets
2.1.1 Mapping Between Base Station Models and Cabinet Types
The 3900 series base stations have the following models:
l BTS3900
l BTS3900L
l BTS3900A
l BTS3900AL
l DBS3900
l BTS3900C
The 3900 series base stations have the following cabinet types:
l BTS3900
l BTS3900L
l Advanced power module (APM30) series cabinets
l Radio frequency cabinet (RFC)
l Transmission cabinet (TMC) series cabinets
l Outdoor mini box (OMB)
l Battery backup cabinet (BBC)
l BTS3900AL
l TP48600A-H17B1
l BTS3012_SRAN cabinet
l BTS3012II_SRAN cabinet
l BTS3012AE_SRAN cabinet
l VIRTUAL cabinet
SingleRAN
Subrack) Configuration Feature Parameter Description 2 Overview
4

For details about the mapping between base station models and cabinet types, see section Table
2-1.
NOTE
VIRTUAL indicates a virtual cabinet. It can be an object in physical entity modeling, for example, a legacy
cabinet or a cabinet type not included in the existing cabinet types. It can also be an object when there is
no physical entity, for example, when a base station is installed in an open rack.
Table 2-1 Mapping between base station models and cabinet types
Base Station
Model
Physical Cabinet Cabinet
Nameplate
Logical Name
DBS3900 APM series cabinet APM30/APM30H
(Ver.A)/APM30H
(Ver.B)/APM30H
(Ver.C)/APM30H
(Ver.D) /APM30H
(Ver.D_A1)/
APM30H
(Ver.D_A2)/
APM30H (Ver.D_B)
APM30
OMB cabinet OMB/OMB (Ver.C) OMB
TMC series cabinet TMC/TMC11H
(Ver.A)/TMC11H
(Ver.B)/TMC11H
(Ver.C)/TMC11H
(Ver.D) /TMC11H
(Ver.D_A1)/
TMC11H
(Ver.D_A2)/
TMC11H (Ver.D_B)
TMC
TP48600A-H17B1
cabinet
TP48600A-H17B1 TP48600A
Battery cabinet BBC BBC
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Base Station
Model
Nameplate
Logical Name
IBBS200T (Ver.A)
IBBS200D (Ver.B)/
IBBS200T (Ver.B)
IBBS200D (Ver.C)/
IBBS200T (Ver.C)
IBBS200D (Ver.D)/
IBBS200T (Ver.D)
IBBS200D
(Ver.D_A)/
IBBS200T
(Ver.D_A)
IBBS200D
(Ver.D_B)/
IBBS200T
(Ver.D_B)
BBC
IBBS700D/
IBBS700T
BBC
Virtual cabinet,
including indoor
centralized rack
(ICR), IMB03, and
19-inch rack
- VIRTUAL
BTS3900C(1) OMB cabinet BTS3900C/
BTS3900C (Ver.C)
OMB
BTS3900 BTS3900 cabinet BTS3900 (Ver.B)/
BTS3900 (Ver.C)/
BTS3900 (Ver.D)/
BTS3900
(Ver.D_A)/
BTS3900 (Ver.D_B)
BTS3900
BTS3012 cabinet BTS3012 (Ver.D_Z) BTS3012_SRAN
BTS3012II cabinet/
BTS3012III cabinet
BTS3012 (Ver.D_Z) BTS3012II_SRAN
Virtual cabinet - VIRTUAL
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Base Station
Model
Nameplate
Logical Name
BTS3900A APM series cabinet APM30/APM30H
(Ver.A)/APM30H
(Ver.B)/APM30H
(Ver.C)/APM30H
(Ver.D) /APM30H
(Ver.D_A1)/
APM30H
(Ver.D_A2)/
APM30H (Ver.D_B)
APM30
RFC cabinet RFC (Ver.B)/RFC
(Ver.C)/RFC
(Ver.D_A)/RFC
(Ver.D_B)
RFC
TMC series cabinet TMC/TMC11H
(Ver.A)/TMC11H
(Ver.B)/TMC11H
(Ver.C)/TMC11H
(Ver.D) /TMC11H
(Ver.D_A1)/
TMC11H
(Ver.D_A2)/
TMC11H (Ver.D_B)
TMC
Battery cabinet BBC BBC
IBBS200T (Ver.A)
IBBS200D (Ver.B)/
IBBS200T (Ver.B)
IBBS200D (Ver.C)/
IBBS200T (Ver.C)
IBBS200D (Ver.D)/
IBBS200T (Ver.D)
IBBS200D
(Ver.D_A)/
IBBS200T
(Ver.D_A)
IBBS200D
(Ver.D_B)/
IBBS200T
(Ver.D_B)
BBC
IBBS700D/
IBBS700T
BBC
BTS3012AE cabinet BTS3012AE
(Ver.D_Z)
BTS3012AE_SRAN
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Base Station
Model
Nameplate
Logical Name
BTS3900L BTS3900L cabinet BTS3900L (Ver.B)/
BTS3900L (Ver.C)/
BTS3900L (Ver.D)/
BTS3900L
(Ver.D_B)
BTS3900L
BTS3900AL BTS3900AL cabinet BTS3900AL
(Ver.A)
BTS3900AL
TMC series cabinet TMC11H (Ver.C) TMC
Battery cabinet IBBS700D/
IBBS700T
BBC
NOTE
(1) The BTS3900C is a type of distributed base station. The logical names of other cabinets used by the
BTS3900C are configured to the same as those of the DBS3900.
2.1.2 Cabinet Numbering Rules
Cabinet numbers range from 0 to 62, and cabinets where BBUs reside must be numbered 0 to
7. Otherwise, software cannot work properly. Table 2-2, Table 2-3, Table 2-4, Table 2-5 and
Table 2-6 describe how cabinets are numbered.
Table 2-2 BTS3900 and BTS3900L cabinet numbering rules
Logical Name
of the Cabinet
Cabinet Number Description
BTS3900/
BTS3900L/
VIRTUAL
0 to 7 Assigned according to the sequence of deploying
base stations. For example, if a site has only one
BBU, the BBU is configured in cabinet 0. If a site
has two BBUs, it is recommended that the primary
BBU be configured in cabinet 0.
Reserved 8 to 9 Reserved for other cabinets not mentioned in this
document
APM30/TMC/
VIRTUAL/BBC/
OMB
10 to 19 Remote cabinets used for monitoring UMTS/LTE
RRUs
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8

Logical Name
of the Cabinet
APM30/TMC/
VIRTUAL/BBC/
OMB
20 to 29 Remote cabinets used for monitoring GSM RRUs
document
Table 2-3 BTS3900AL cabinet numbering rules
Logical Name
of the Cabinet
BTS3900AL/
VIRTUAL
base stations. The BBU is configured in cabinet
0.
TMC 8 Transmission cabinets
BBC 9 to 10 BTS3900AL supporting BBC cabinets
APM30/TMC/
VIRTUAL/BBC/
OMB
RRUs (In new deployment scenarios, it is
recommended that you number this type of
cabinet sequentially from 11 if a BBC cabinet is
numbered 10)
APM30/TMC/
VIRTUAL/BBC/
OMB
document
Table 2-4 BTS3900A and DBS3900 (including outdoor APM30H) cabinet numbering rules
Logical Name
of the Cabinet
APM30/TMC 0 APM30, TMC, or virtual cabinet where a BBU
resides. Assigned according to the sequence of
deploying base stations. For example, if a site has
only one BBU, the BBU is configured in cabinet
0; if a site has two BBUs, it is recommended that
the primary BBU be configured in cabinet 0.
RFC/VIRTUAL 1 to 4 Cabinets where RFUs reside, including virtual
cabinets and RFC cabinets
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Logical Name
of the Cabinet
APM30/TMC/
VIRTUAL
5 to 7 APM30H, TMC11H, and virtual cabinet
TMC 8 Transmission cabinets (not configuring BBUs)
BBC 9 to 14 APM30 supported BBC cabinets
APM30/TMC/
VIRTUAL/BBC/
OMB
RRUs (In new deployment scenarios, it is
recommended that you number this type of
cabinet sequentially from 11 if a BBC cabinet is
numbered 10)
APM30/TMC/
VIRTUAL/BBC/
OMB
document
Table 2-5 DBS3900 indoor scenario or OMB cabinet numbering rules
Logical Name
of the Cabinet
OMB/VIRTUAL 0 to 7 OMB or virtual cabinet where a BBU resides,
assigned according to the sequence of deploying
base stations.
document
APM30/TMC/
VIRTUAL/BBC/
OMB
RRUs
APM30/TMC/
VIRTUAL/BBC/
OMB
document
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10

Table 2-6 Upgraded BTS3012 series cabinet numbering rules
Logical Name
of the Cabinet
BTS3012_SRA
N/
BTS3012AE_SR
AN
base stations. Cabinets where BBUs reside are
numbered from 0 to 7. For example, if a site has
only one BBU, the BBU is configured in cabinet
0. If a site has two BBUs, it is recommended that
the primary BBU be configured in cabinet 0.
Reserved 8 Reserved for other cabinets not mentioned in this
document
BBC 9 to 12 Supported BBCs
APM30/TMC/
VIRTUAL/BBC/
OMB
RRUs (In new deployment scenarios, numbers 10,
11, and 12 are preferentially used for BBCs.)
APM30/TMC/
VIRTUAL/BBC/
OMB
document
2.2 Subrack
2.2.1 Subrack Types
Table 2-7 lists the subrack types.
Table 2-7 Subrack types
Logical Name of the Subrack Description
BBU3900 BBU subrack: 2 U (88.9 mm or 3.50 in.)
RFU RFU subrack
PMU Power subrack
TCU Temperature control device subrack
FMU RFU fan subrack
BAT Battery subrack
RRU RRU subrack
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Logical Name of the Subrack Description
EMU EMU subrack
GRU GPS receiver subrack
CCU CCU subrack
2.2.2 Subrack Numbering Rules
Entity subracks, such as BBU3900 subracks and RFU subracks, depend on cabinet types.
Extension subracks house optional peripherals, such as EMUs and GPS receivers. To ensure
subrack number consistency and scalability, a peripheral can occupy an extension subrack
independently.
Subrack numbers range from 0 to 254. Numbers of entity subracks cannot be changed. Numbers
of extension subracks can be defined by users. Table 2-8 and Table 2-9 describe how subracks
are numbered.
Table 2-8 Subrack numbering rules for BTS3900 series base stations (including upgraded ones)
Logical
Name of
the
Subrack
Subrack Number Subrack
Type
Description
BBU3900 0 to 1 Entity subrack None
RFU 4 to 5 Entity subrack RFU subrack. RFUs can be
configured in subracks 4 and 5 in
BTS3900L and virtual cabinets, and
only in subrack 4 in other cabinets.
PMU 7 Entity subrack None
TCU 8 Entity subrack None
FMU 11 to 12 Entity subrack None
CCU 15 Entity subrack None
GRU/
EMU
40 to 59 Extension
subrack
GPS receivers, EMUs, and GATMs
can be configured in extension
subracks. You are advised to
configure the GATM in subrack 50
or 51.
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12

Logical
Name of
the
Subrack
Type
Description
RRU 60 to 254 Entity subrack You are advised to comply with the
following rules when configuring
RRU subrack numbers:
l The RRU subrack numbers for
the same project must consistent
with each other.
l If a multimode RRU needs to be
configured in multiple modes, it
must be configured with the same
subrack number. Otherwise an
alarm is generated, indicating the
configuration conflict.
l The RRU subrack numbers are
numbered starting from the
lowest band that the RRUs
support. Some subrack numbers
need to be reserved for capacity
expansion. For example, in a
network using the RRU3926 of
900 MHz, RRU3929 of 1800
MHz, and RRU3806 of 2100
MHz, the subrack numbers are
assigned as follows: 60 to 69 are
assigned to the RRU3926s of 900
MHz, 70 to 79 are assigned to the
RRU3929s of 1800 MHz, and 80
to 89 are assigned to the
RRU3806s of 2100 MHz.
Reserved 2 to 3 Reserved None
Reserved 6 Reserved None
Reserved 13 to 14 Reserved The TCU can be configured in
subrack 14 in a virtual cabinet.
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13

Table 2-9 Upgraded BTS3012 series base station subrack numbering rules
Logical
Name of
the
Subrack
Type
Description
BBU3900 0 Entity subrack None
BBU3900 1 Entity subrack None
RFU 4 Entity subrack None
RFU 5 Entity subrack RFU subrack, not housing any board
PMU 7 Entity subrack None
TCU 8 Entity subrack None
FMU 11 Entity subrack None
RRU 60 to 254 Entity subrack RRU subrack, which must be
configured in cabinet 0
Reserved 6 Reserved None
MCS 20 Entity subrack MCS, not housing any board
AFS 21 Entity subrack AFS, not housing any board
Reserved 40 to 59 Extension
subrack
For housing the EMU and other
boards
2.3 BBU Board Types
Table 2-10 lists the modules that can be configured in a BBU3900 and the corresponding
configuration rules.
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14

Table 2-10 Configurations of modules in a BBU
Board
Name
Full
Name
Logical
Name
Cabinet
Number
Subrack
Number
Slot
Number
Quantity
WBBP WCDMA
baseband
processing
unit
WBBP 0 to 7 0 to 1 Slots 0 to 5 0 to 6
LBBP LTE
baseband
processing
unit
LBBP 0 to 7 0 to 1 Slots 0 to 5 0 to 6
UTRP Universal
transmissi
on
processing
unit
UTRP 0 to 7 0 to 1 GSM:
Slots 0 to 4
UMTS/
LTE: Slots
0 to 6
0 to 1
USCU Universal
satellite
card and
clock unit
USCU 0 to 7 0 to 1 Slots 0 to 5 0 to 1
GTMU GSM
transmissi
on and
timing and
manageme
nt unit
GTMU 0 to 7 0 to 1 Slot 6 0 to 1
WMPT WCDMA
main
processing
and
transmissi
on unit
WMPT 0 to 7 0 to 1 Slot 6 or 7 0 to 2
LMPT LTE main
processing
and
transmissi
on unit
LMPT 0 to 7 0 to 1 Slot 6 or 7 0 to 2
UMPT Universal
main
processing
and
transmissi
on unit
UMPT 0 to 7 0 to 1 Slot 6 or 7 0 to 2
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Board
Name
Full
Name
Logical
Name
Cabinet
Number
Subrack
Number
Slot
Number
Quantity
FAN FAN
module
FAN 0 to 7 0 to 1 Slot 16 1
UPEU Universal
power and
environme
nt
interface
unit
UPEU 0 to 7 0 to 1 Slot 18 or
19
1 to 2
UEIU Universal
environme
nt
interface
unit
UEIU 0 to 7 0 to 1 Slot 18 or
19
0 to 1
UCIU Universal
cascaded
interface
unit
UCIU 0 to 7 0 to 1 Slots 0 to 7 0 to 1
UBRI Universal
baseband
radio
interface
unit
UBRI 0 to 7 0 to 1 Slot 0 to 3 0 to 2
NOTE
BBU board in a BTS supports automatic or manual configuration. If a BBU board supports automatic
configuration, the configuration of the board automatically takes effect when the configuration of the
cabinet housing the board takes effect. If a BBU board supports manual configuration, the configuration
of the board takes effect only after the board is manually configured. In a BBU of a BTS, the GTMU, FAN,
and UPEU support automatic configuration, whereas other boards require manual configuration.
All boards installed in a BBU must be configured.
For more details about the BBU board configuration, see BBU3900 Hardware Description.
2.4 Typical Cabinet and Subrack Configurations for 3900
Series Base Stations
The configuration rules in this section apply to GBTSs, eGBTSs, NodeBs, eNodeBs, and co-
MPT base stations.
In multimode base stations, the configuration rules for cabinets, subracks, and common boards
in a BBU subrack are as follows:
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16

l The primary mode in a multimode base station is listed in descending order of priority:
GSM, UMTS, and LTE.
l All cabinets and the following subracks must be configured in primary mode: BBU, primary
mode-dedicated RF, PMU, EMU, TCU, CCU, and FMU. Only BBU subracks containing
the main control boards for secondary modes, secondary mode-dedicated RF subracks, and
cabinets housing these subracks need to be configured in secondary modes.
l Cabinets and subracks configured in both primary and secondary modes must have
consistent cabinet and subrack numbers. Otherwise, parameter configuration conflict
alarms will be generated.
l In a BBU subrack, the UPEU, UEIU, and FAN can be configured in two modes, the UCIU
and UTRPc can be configured only in one mode, and the USCU can be configured in either
one mode or two modes.
Table 2-11 lists the typical subrack configuration for 3900 series base stations.
Table 2-11 Typical subrack configuration for 3900 series base stations
Base
Station
Model
Pow
er
Inpu
t
Hardwa
re
Cabinet
Type
Type
and
Quantit
y of the
Cabinet
to Be
Configu
red
Cabi
net
Num
ber
Recom
mende
d
Subrac
k Type
Su
bra
ck
Nu
mb
er
Remarks
BTS390
0
-48 V
DC
BTS3900 1
BTS3900
0 RFU 4 None
FMU 11
EMU/
EMUA
40
BBU390
0
0
+24 V
DC/
220 V
AC/
110 V
AC
BTS3900 1 to 2
BTS3900
s
0 to 1 RFU 4 If there are two
BTS3900 cabinets,
BBU3900 is
configured in
cabinet 0. It is
recommended that
the two cabinets be
numbered 0 and 1.
The BBU3900
manages the two
cabinets.
Each cabinet is
configured with
one PMU. A +24 V
DC cabinet does
FMU 11
BBU390
0
0
EMU/
EMUA
40
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17

Base
Station
Model
Pow
er
Inpu
t
Hardwa
re
Cabinet
Type
Type
and
Quantit
y of the
Cabinet
to Be
Configu
red
Cabi
net
Num
ber
Recom
mende
d
Subrac
k Type
Su
bra
ck
Nu
mb
er
Remarks
PMU 7 not require any
PMU.
BTS390
0
220 V
AC
BTS3012
_SRAN
1 to 2
BTS3012
_SRANs
0 to 1 RFU 4 BBU3900 is
configured in
cabinet 0. It is
recommended that
the two cabinets be
numbered 0 and 1.
The BBU3900
manages the two
cabinets.
FMU 11
BBU390
0
0
EMU/
EMUA
40
PMU 7
BTS390
0
-48 V
DC
BTS3012
_SRAN
1 to 2
BTS3012
_SRANs
0 to 1 RFU 4 BBU3900 is
configured in
cabinet 0. It is
recommended that
the two cabinets be
numbered 0 and 1.
The BBU3900
manages the two
cabinets.
FMU 11
BBU390
0
0
EMU/
EMUA
40
BTS390
0L
-48 V
DC
BTS3900
L
BTS3900
L
0 RFU 4
and
5
In the BTS3900L
cabinet, the lower
RFU subrack is
numbered 4, and
the upper RFU
subrack is
numbered 5. The
lower FMU
subrack is
numbered 11, and
the upper FMU
FMU 11
and
12
EMU/
EMUA
40
GATM0 50
GATM1 51
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18

Base
Station
Model
Pow
er
Inpu
t
Hardwa
re
Cabinet
Type
Type
and
Quantit
y of the
Cabinet
to Be
Configu
red
Cabi
net
Num
ber
Recom
mende
d
Subrac
k Type
Su
bra
ck
Nu
mb
er
Remarks
BBU390
0
subrack is
numbered 12.
0
BTS390
0A
220 V
AC
APM30H 1 to 3
APM30s
0,5,6 TCU 8 As a management
cabinet, APM30
manages devices
in multiple
cabinets.
BBU390
0
0
PMU 7
EMU/
EMUA
40 It is configured in
No.0 APM30.
GATM0 50
GATM1 51
RFC 1 to 3
RFCs
1 to 3 RFU 4 None
FMU 11
TMC11H 0 to 1
TMC
7 or 8
(1)
TCU 8
IBBS200
D/
IBBS200
T
0 to 6
BBCs
9 to
14
TCU 8 Devices in BBC
cabinets are
managed by
APM30.
l No.0 APM30
manages No.9
and No.10
BBCs.
l No.5 APM30
manages No.11
and No.12
BBCs.
l No.6 APM30
manages No.13
and No.14
BBCs.
BTS390
0A
-48 V
DC
TMC11H 1 TMC 0 TCU 8 None
BBU390
0
0
SingleRAN
19

Base
Station
Model
Pow
er
Inpu
t
Hardwa
re
Cabinet
Type
Type
and
Quantit
y of the
Cabinet
to Be
Configu
red
Cabi
net
Num
ber
Recom
mende
d
Subrac
k Type
Su
bra
ck
Nu
mb
er
Remarks
RFC 1 to 3
RFCs
1 to 3 RFU 4 None
FMU 11
BTS390
0A
220 V
AC
BTS3012
AE_SRA
N
1 to 2
BTS3012
AE_SRA
Ns
0 to 1 TCU 8 None
RFU 4
BBU390
0
0
PMU 7
FMU 11
EMU/
EMUA
40
IBBS200
D/
IBBS200
T or
IBBS700
D/
IBBS700
T
0 to 4
BBCs
9 to
12
TCU 8 Devices in BBCs
are managed by
BTS3012AE_SR
AN.
l If
BTS3012AE_
SRAN 0
requires two
battery
cabinets, BBCs
9 and 10 are
configured for
it.
l If
BTS3012AE_
SRAN 1
requires two
battery
cabinets, BBCs
11 and 12 are
configured for
it.
DBS390
0
110
V/
Virtual 0 to 1
Virtual
0 BBU390
0
0 None
SingleRAN
20

Base
Station
Model
Pow
er
Inpu
t
Hardwa
re
Cabinet
Type
Type
and
Quantit
y of the
Cabinet
to Be
Configu
red
Cabi
net
Num
ber
Recom
mende
d
Subrac
k Type
Su
bra
ck
Nu
mb
er
Remarks
220 V
AC
APM30/
APM30H
1 to 3
APM30s
0,5,6 TCU 8 As a management
cabinet, APM30
manages devices
in multiple
cabinets.
BBU390
0
0
PMU 7 None
TMC/
TMC11H
0 to 1
TMC
7 or 8
(1)
TCU 8 None
BBU390
0
0 BBU3900 is
optional and needs
to be configured
only when it
resides in a TMC
cabinet.
OMB 0 to 1
OMB
0 TCU 8 OMB cabinets are
configured
independently of
other types of
cabinets.
BBU390
0
0
PMU 7
IBBS200
D/
IBBS200
T
0 to 6
BBCs
9 to
14
TCU 8 Devices in BBC
cabinets are
managed by
APM30.
l No.0 APM30
manages No.9
and No.10
BBCs.
l No.5 APM30
manages No.11
and No.12
BBCs.
l No.6 APM30
manages No.13
and No.14
BBCs.
SingleRAN
21

Base
Station
Model
Pow
er
Inpu
t
Hardwa
re
Cabinet
Type
Type
and
Quantit
y of the
Cabinet
to Be
Configu
red
Cabi
net
Num
ber
Recom
mende
d
Subrac
k Type
Su
bra
ck
Nu
mb
er
Remarks
TP48600
A
0 to 4
TP48600
As
0 PMU 7 None
CCU 15
TCU 8
EMU 40
BBU390
0
0
-48 V
DC
TMC/
TMC11H
1 TMC 0 TCU 8 In a triple-mode
co-cabinet
scenario, two
TMC cabinets are
required to house
two BBU3900s.
BBU390
0
0
OMB 1 OMB 0 TCU 8 None
BBU390
0
0
+24 V
DC
APM30/
APM30H
1 to 2
APM30s
0 TCU 8 In a triple-mode
co-cabinet
scenario, two
APM30 cabinets
are required to
house two
BBU3900s.
BBU390
0
0
BTS390
0AL
220 V
AC
BTS3900
AL
1 to 2
BTS3900
ALs
0 to 1 BBU390
0
0 None
BBU390
0
1
PMU 7
TCU 8
CCU 15
FMU 11
EMU 40
SingleRAN
22

Base
Station
Model
Pow
er
Inpu
t
Hardwa
re
Cabinet
Type
Type
and
Quantit
y of the
Cabinet
to Be
Configu
red
Cabi
net
Num
ber
Recom
mende
d
Subrac
k Type
Su
bra
ck
Nu
mb
er
Remarks
RFU 4
TMC11H 0 to 1
TMC
0 TCU 8
IBBS700
D/
IBBS700
T
1 to 2
BBCs
9 to
10
CCU 15
TCU 8
BTS390
0C
110
V/
220 V
AC
OMB 1 OMB 0 TCU 8 None
BBU390
0
0
PMU 7
-48 V
DC
OMB 1 OMB 0 BBU390
0
0
TCU 8
NOTE
The recommended cabinet number for a transmission cabinet configured with a BBU is 7. If conditions do
not allow, configure the transmission cabinet as cabinet 8.
SingleRAN
23

3Related Features
N/A
SingleRAN
Subrack) Configuration Feature Parameter Description 3 Related Features
24

4Impact on the Network
N/A
SingleRAN
Subrack) Configuration Feature Parameter Description 4 Impact on the Network
25

5Engineering Guidelines
5.1 Information to Be Collected
Before feature deployment, confirm information about cabinets, subrack, and BBU boards.
5.2 Feature Deployment
5.2.1 Deployment Requirements
Cabinets, subracks, and BBU boards have been installed properly.
5.2.2 Network Planning
N/A
5.2.3 Data Preparation
l Scenario 1: Adding Cabinets
l Scenario 2: Adding Subracks
l Scenario 3: Adding BBU Boards
Scenario 1: Adding Cabinets
Table 5-1 and Table 5-2 describe the parameters for adding cabinets.
SingleRAN
Subrack) Configuration Feature Parameter Description 5 Engineering Guidelines
26

Table 5-1 Parameters for adding cabinets to GBTSs
Parameter Name Parameter ID Setting
Description
Source
Index Type IDTYPE Set this parameter to
BYNAME(By
Name) or BYID(By
Index) based on the
site requirements.
Network plan
BTS Index BTSID This parameter
uniquely identifies a
base station under a
BSC.
Network plan
BTS Name BTSNAME This parameter
BSC.
Network plan
Cabinet No CN GUI Value Range:0
to 62
It is recommended
that the cabinet
number start from 0.
Network plan
Is Support
SingleRAN Mode
SRANMODE This parameter
indicates whether the
SingleRAN base
station supports
normalized data
configuration. Set
this parameter based
on the site
requirements.
Network plan
Cabinet type TYPE l APM30
l TMC
l BBC
l PS4890
l OMB
l RFC-6
l BTS3900
l BTS3900L
l BTS3900AL
l VIRTUAL
l TP48600A
Network plan
SingleRAN
27

Description
Source
Cabinet Description CABINETDESC This parameter gives
the description of the
cabinet, including
functions, location,
and other
information.
Network plan
SingleRAN
28

Description
Source
Is Master TMU
Configured
ISMAINCABINET This parameter can
be specified only
when the base station
supports normalized
data configuration.
This parameter
indicates whether an
added cabinet is a
basic cabinet.
l If this parameter
is set to NO, the
cabinet is an
extension
cabinet.
l If this parameter
is set to YES, the
cabinet to be
added is an
extension
cabinet.
l If the cabinet to
be added is the
first one and this
parameter is set to
DEFAULT, the
cabinet is a basic
cabinet and the
cabinet number
must be 0.
l If there is a basic
cabinet, set this
parameter to
DEFAULT
when adding a
new cabinet. The
newly added
cabinet is an
extension
cabinet.
l If cabinet 0 is not
a basic cabinet,
you must set this
parameter to NO
when adding
cabinet 0 to
ensure that
Network plan
SingleRAN
29

Description
Source
cabinet 0 is an
extension
cabinet.
The default value
is DEFAULT.
NOTE
A cabinet with a BBU
is defined as a basic
cabinet, and a cabinet
without a BBU is
defined as an
extension cabinet.
Master TMU
Subrack No.
MAINCABINETSR
N
This parameter can
be specified only
when the base station
supports normalized
data configuration.
This parameter
specifies the number
of the subrack where
the master TMU
resides.
Network plan
Table 5-2 Parameters for adding cabinets to eGBTSs, NodeBs, eNodeBs, or Co-MPT base
stations
Description
Source
Cabinet No CN The cabinet number
starts from 0.
Network plan
SingleRAN
30

Description
Source
Cabinet type TYPE l APM30
l TMC
l BBC
l PS4890
l OMB
l RFC
l BTS3900
l BTS3900L
l VIRTUAL
l BTS3900AL
l TP48600A
l BTS3012_SRAN
l BTS3012AE_SR
AN
l BTS3012II_SRA
N
Network plan
Cabinet description DESC This parameter gives
cabinet, including
and other
information.
Network plan
Scenario 2: Adding Subracks
Subracks can be added to eGBTSs, NodeBs, eNodeBs, and Co-MPT base stations, but not to
GBTSs. Table 5-3 describes the parameters for adding subracks to eGBTSs, NodeBs, eNodeBs,
or Co-MPT base stations.
SingleRAN
31

Table 5-3 Parameters for adding subracks to eGBTSs, NodeBs, eNodeBs, or Co-MPT base
stations
Description
Source
Cabinet No. CN This parameter
specifies the number
of the cabinet where
the subrack is
configured. Set this
parameter based on
the cabinet number in
use.
Network plan
Subrack No. SRN This parameter is set
according to the
subrack in use.
Subracks 0 and 1 can
be BBU3900
subracks, and
subracks 4 and 5 can
be RFU subracks.
Network plan
Subrack type TYPE This parameter is set
according to the
subrack in use.
Subrack types are as
follows:
l BBU3900
subrack
l RFU subrack
Network plan
Subrack description DESC This parameter gives
subrack, including
and other
information.
Network plan
Scenario 3: Adding BBU Boards
Table 5-4 and Table 5-5 describe the parameters for adding BBU boards.
SingleRAN
32

Table 5-4 Parameters for adding BBU boards to GBTSs
Description
Source
BYNAME(By
Name) or BYID(By
Index) based on the
site requirements.
Network plan
BSC.
Network plan
BSC.
Network plan
Cabinet No. CN The cabinet number
starts from 0.
Network plan
Subrack No. SRN Value range: 0, 1
Single-mode:
subrack 0
Multi-mode: If
subrack 0 has been
occupied, use
subrack 1.
Otherwise, use
subrack 0.
Network plan
Slot No. SN Value range: 0 to 7,
16, 18, 19
Network plan
Board Type BT This parameter
indicates the type of
the newly added
board. Set this
parameter based on
the site requirements.
Value range: PWC,
UPEU, UEIU,
USCU, UBRI, FAN,
UTRP, UCIU
Network plan
SingleRAN
33

Description
Source
Subboard Type SBT This parameter
indicates the
subboard type.
Value range: UIEB,
UTRPc
Network plan
Table 5-5 Parameters for adding BBU boards to eGBTSs, NodeBs, eNodeBs, or Co-MPT base
stations
Paramet
er Name
Paramet
er ID
Setting Description Sourc
e
Cabinet
No.
CN The cabinet number starts from 0. Netwo
rk plan
Subrack
No.
SRN Value range: 0, 1
Single-mode: subrack 0
Multi-mode: If subrack 0 has been occupied, use subrack
1. Otherwise, use subrack 0.
Netwo
rk plan
Slot No. SN Value range: 0 to 7, 16, 18, 19 Netwo
rk plan
Board
type
BT This parameter indicates the logical board type. Set this
parameter according to the board in use.
Value range: UMPT, WMPT, LMPT, UCIU, GTMU,
UTRP, WBBP, LBBP, UBRI, USCU, UBBP, FAN,
UPEU, UEIU
Netwo
rk plan
SubBoar
d Type
SBT This parameter indicates the subboard type in the UTRP.
Set this parameter according to the subboard used in the
UTRP.
Value range: UAEC, UIEC, UUAS, UQEC, UEOC,
UIEB, UTRPc
Netwo
rk plan
Work
Mode
WM This parameter indicates the working mode of the
baseband processing board. Set this parameter to FDD,
HYBRID, TDD, TDD_ENHANCE, TDD_8T8R,
TDD_TL, or TDD_HIGHWAY based on the site
requirements.
Netwo
rk plan
Hardware
Capacity
Enhance
HCE This parameter determines whether the baseband
processing board provides basic or maximum processing
capability. The recommended value is FULL.
Netwo
rk plan
SingleRAN
34

NOTE
If you want to expand capacity by adding WBBPs or increase downlink CE resources by adding boards to
the downlink resource group, set Resource Allocate Rule to CAPAFIRST(Capacity First Rule).
5.2.4 Feature Activation/Initial Configuration
Adding Cabinets and Subracks
l Configuring a single base station on the GUI
Follow the instructions in the following reference documents and refer to section 6.2.3
"Data Preparation" to complete the initial configuration.
– For details, see 3900 Series Base Station Initial Configuration Guide and navigate in
the following sequence: 3900 Series Base Station Initial Configuration (Base on the
CME) > Creating Base Stations > Creating GBTSs > Creating a Single GBTS >
Configuring GBTS Device Data > Cabinet and BBU3900 data > Procedure.
CME) > Creating Base Stations > Creating a NodeB > Creating a Single NodeB >
Configuring NodeB Device Data > Cabinet and BBU3900 data > Procedure.
CME) > Creating Base Stations > Creating an eNodeB > Creating a Single eNodeB >
Configuring eNodeB Device Data > Cabinet and BBU3900 data > Procedure.
CME) > Creating Base Stations >Creating Co-MPT Base Stations > Creating a Single
Co-MPT Base Station > Configuring Device Data > Cabinet and BBU3900 data >
Procedure.
CME) > Creating Base Stations >Creating Separate-MPT Multimode Base Stations >
Creating a Single Separate-MPT Multimode Base Station > Configuring Device Data
> Cabinet and BBU3900 data > Procedure.
l Configuring base stations in batches
You can save the data of a single base station (including data of the BBU subrack) as a
template. Then, configure multiple base stations in batches by importing this template.
CME) > Creating Base Stations > Creating GBTSs > Creating GBTSs in Batches.
CME) > Creating Base Stations > Creating a NodeB > Creating NodeBs in Batches.
CME) > Creating Base Stations > Creating an eNodeB > Creating eNodeBs in Batches.
SingleRAN
35

CME) > Creating Base Stations > Creating Co-MPT Base Stations >Creating Co-MPT
Base Stations in Batches.
CME) > Creating Base Stations > Creating Separate-MPT Multimode Base Stations >
Creating Separate-MPT Multimode Base Stations in Batches.
l Configuring a single base station using MML commands
– Run the ADD BTSCABINET command to add a GBTS cabinet.
– Run the ADD CABINET command to add an eGBTS, NodeB, or eNodeB cabinet. Run
the ADD SUBRACK command to add an eGBTS, NodeB, or eNodeB subrack.
Adding BBU Boards
l Configuring a single base station on the GUI
CME) > Creating Base Stations > Creating GBTSs > Creating a Single GBTS >
Configuring GBTS Device Data > Cabinet and BBU3900 data > Procedure.
CME) > Creating Base Stations > Creating a NodeB > Creating a Single NodeB >
Configuring NodeB Device Data > Cabinet and BBU3900 data > Procedure.
CME) > Creating Base Stations > Creating an eNodeB > Creating a Single eNodeB >
Configuring eNodeB Device Data > Cabinet and BBU3900 data > Procedure.
CME) > Creating Base Stations >Creating Co-MPT Base Stations > Creating a Single
Co-MPT Base Station > Configuring Device Data > Cabinet and BBU3900 data >
Procedure.
CME) > Creating Base Stations >Creating Separate-MPT Multimode Base Stations >
Creating a Single Separate-MPT Multimode Base Station > Configuring Device Data
> Cabinet and BBU3900 data > Procedure.
l Configuring base stations in batches
You can save the data of a single base station (including data of the BBU subrack) as a
template. Then, configure multiple base stations in batches by importing this template.
SingleRAN
36

CME) > Creating Base Stations > Creating GBTSs > Creating GBTSs in Batches.
CME) > Creating Base Stations > Creating a NodeB > Creating NodeBs in Batches.
CME) > Creating Base Stations > Creating an eNodeB > Creating eNodeBs in Batches.
CME) > Creating Base Stations > Creating Co-MPT Base Stations >Creating Co-MPT
Base Stations in Batches.
CME) > Creating Base Stations > Creating Separate-MPT Multimode Base Stations >
Creating Separate-MPT Multimode Base Stations in Batches.
l Configuring a single base station using MML commands
– Run the ADD BTSBRD command to add boards to a GBTS cabinet.
– Run the ADD BRD command to add boards to an eGBTS, NodeB, or eNodeB cabinet.
5.2.5 Activation Observation
Checking GBTS Cabinets, Subracks, and BBU Boards
Run the DSP BTSBRD command to check whether the boards are available.
Checking Cabinets, Subracks, and BBU Boards in eGBTSs, NodeBs, eNodeBs, or
Co-MPT Base Stations
Run the DSP BRD command to check whether the boards are available.
5.3 Feature Reconfiguration
5.3.1 Modifying Cabinet Configuration
For GBTS cabinets, you can only modify the cabinet description. For eGBTS, NodeB, eNodeB,
and Co-MPT base station cabinets, you can modify the cabinet description and change the cabinet
type in specific scenarios.
Modifying GBTS Cabinet Configuration
Run the MOD BTSCABINET command to modify the parameters described in Table 5-6.
SingleRAN
37

Table 5-6 Parameters to be modified
Description
Source
Index Type IDTYPE This parameter
cannot be modified.
Network plan
cannot be modified.
Network plan
cannot be modified.
Network plan
Cabinet No CN This parameter
cannot be modified.
Network plan
Cabinet Description CABINETDESC This parameter gives
cabinet.
Network plan
Modifying Cabinet Configuration for eGBTSs, NodeBs, eNodeBs, or Co-MPT Base
Stations
Run the MOD CABINET command to modify the parameters described in Table 5-7.
NOTE
l You can only change the virtual cabinet to other types of cabinets.
l If a cabinet to be modified contains non-BBU subracks, you cannot change the cabinet type.
l If a cabinet to be modified contains only BBU subracks and can house additional BBU subracks, you
can change the cabinet type. Otherwise, you cannot change the cabinet type.
l If a cabinet to be modified contains no subracks, you can change the cabinet type to any type.
Description
Source
Cabinet No CN This parameter
cannot be modified.
Network plan
Cabinet description DESC This parameter gives
cabinet, including
and other
information.
Network plan
SingleRAN
38

Description
Source
Cabinet type TYPE Set this parameter
according to the
onsite cabinet type. If
a cabinet type is not
included in the
defined cabinet
types, set this
parameter to
VIRTUAL. Cabinet
types are as follows:
l APM30
l TMC
l BBC
l PS4890
l OMB
l RFC
l BTS3900
l BTS3900L
l BTS3900AL
l TP48600A
l BTS3012_SRAN
l BTS3012AE_SR
AN
l BTS3012II_SRA
N
l VIRTUAL
Network plan
5.3.2 Modifying Subrack Configuration
You can modify the subrack configuration of eGBTSs, NodeBs, eNodeBs, or Co-MPT base
stations but cannot modify the subrack configuration of GBTSs.
Run the MOD SUBRACK command to modify the parameters related to eGBTSs, NodeBs,
eNodeBs, or Co-MPT base stations, as described in Table 5-8.
Description
Source
cannot be modified.
Network plan
SingleRAN
39

Description
Source
Subrack No. SRN This parameter
cannot be modified.
Network plan
Subrack description DESC This parameter gives
subrack, including
and other
information.
Network plan
5.3.3 Modifying BBU Board Configuration
You can modify the baseband board and UTRP configurations of eGBTSs, NodeBs, eNodeBs,
and co-MPT base stations but cannot modify BBU board configuration of GBTSs.
Modifying the Baseband Board Configuration
Run the MOD BBP command to modify the baseband board configuration.
Pay attention to the following when modifying the LBBP configuration:
l Before modifying the working mode of the LBBP for the existing activated cell, ensure
that the eNodeB supports the modified working mode and that there are sufficient idle
resources (see the cell specifications of the LBBP). Otherwise, the cell cannot be activated.
l LBBPs in FDD mode support 1T1R, 1T2R, 2T2R, 2T4R, and 4T4R FDD cells.
l LBBPs in TDD mode support 1T1R, 2T2R, 4T4R, and 8T8R TDD cells.
l If an RRU chain/ring in load sharing mode is configured on LBBPs and the chain head and
tail belong to different LBBPs, the working mode of the LBBP cannot be modified.
l If the RRU/RFU cannot set up links or work at the maximum line rate after the LBBP is
blocked/unblocked, run the STR CPRILBRNEG command to manually initiate
negotiation.
l To block or unblock the LBBP, change the value of the ADMSTATE parameter in the
BLK BRD or UBL BRD command, respectively. After the board is blocked, ALM-26210
Board Blocked will be reported and the board will not provide services. After the board is
unblocked, the alarm will be cleared.
Table 5-9 describes the parameters to be modified.
Description
Source
setting cannot be
modified.
Network plan
SingleRAN
40

Description
Source
Subrack No. SRN This parameter
setting cannot be
modified.
Network plan
Slot No. SN This parameter
setting cannot be
modified.
Network plan
Work Mode WM This parameter
indicates the working
mode of the
baseband board. Set
this parameter to
FDD, HYBRID,
TDD,
TDD_ENHANCE,
TDD_8T8R,
TDD_TL, or
TDD_HIGHWAY
based on the site
requirements.
Network plan
Hardware Capacity
Enhance
HCE This parameter
determines whether
the baseband board
provides basic or
maximum
processing
capability. The
recommended value
is FULL.
Network plan
CPRI Extension CPRIEX This parameter
indicates the CPRI
extension switch of a
baseband board. The
transmission
capability of a fiber
optic cable is
improved when this
parameter is set to
ON. Only LBBPd
supports this
parameter.
Network plan
Modifying the Work Mode or Hardware Capacity Enhance parameter interrupts services on
the WBBP/LBBP. After the WBBP/LBBP resets, services on this board return to normal. If an
SingleRAN
41

RRU chain is configured on any of optical ports 3 through 5 of an LBBP, the CPRIEX parameter
cannot be set to ON.
Modifying UTRP Configuration of eGBTSs, NodeBs, eNodeBs, or Co-MPT Base
Stations
Run the MOD UTRP command to modify the UTRP configuration of eGBTSs, NodeBs,
eNodeBs, or co-MPT base stations. Table 5-10 describes the related parameters.
Description
Source
Cabinet No. CN The setting of this
parameter cannot be
modified.
Network plan
Subrack No. SRN The setting of this
parameter cannot be
modified.
Network plan
Slot No. SN The setting of this
parameter cannot be
modified.
Network plan
SubType SUBTYPE This parameter
indicates the
subboard type in the
UTRP. Set this
parameter based on
the site requirements.
Value range: UAEC,
UIEC, UUAS,
UQEC, UEOC,
UIEB, UTRPc
Network plan
5.3.4 Deleting BBU Boards
When a board or module is not required, you can delete it. Only the configured board or module
cannot be deleted.
Deleting GBTS BBU Boards
Run the RMV BTSBRD command to delete a BBU board from a BTS. Table 5-11 describes
the related parameters.
SingleRAN
42

Table 5-11 Parameters for deleting GBTS BBU boards
Description
Source
BYNAME(By
Name) or BYID(By
Index) based on the
site requirements.
Network plan
BSC.
Network plan
BSC.
Network plan
Cabinet No. CN It is recommended
that the cabinet
Network plan
Single-mode:
subrack 0
Multi-mode: If
subrack 0 has been
occupied, use
subrack 1.
Otherwise, use
subrack 0.
Network plan
16, 18, 19
Network plan
Deleting BBU Boards from eGBTSs, NodeBs, eNodeBs, or Co-MPT Base Stations
Run the RMV BRD command to delete a BBU board from eGBTSs, NodeBs, eNodeBs, or Co-
MPT base stations. Table 5-12 describes the related parameters.
l Deleting a board causes a board reset.
l After a board is deleted, services on the board are interrupted.
l If a WBBP/LBBP has been configured with an RRU chain, it cannot be deleted. If you
want to delete the WBBP/LBBP, delete the RRU chain configuration first and then delete
the WBBP/LBBP.
l If a board has been configured with a subboard, the subboard is deleted when the board is
deleted.
SingleRAN
43

Table 5-12 Parameters for deleting BBU boards from eGBTSs, NodeBs, eNodeBs, or Co-MPT
base stations
Description
Source
Cabinet No. CN It is recommended
that the cabinet
Network plan
Single-mode:
subrack 0
Multi-mode: If
subrack 0 has been
occupied, use
subrack 1.
Otherwise, use
subrack 0.
Network plan
16, 18, 19
Network plan
5.4 BBU Board Maintenance
5.4.1 Resetting BBU Boards
When resetting BBU boards, pay attention to the following points:
l In dual-mode scenarios, you can reset common devices at the peer end. Resetting common
devices at the peer end interrupts services on the common devices.
l In multi-mode base stations, resetting the GTMU, UMPT, WMPT, LMPT, and UTRP may
interrupt services on base stations of other modes.
Resetting GBTS BBU Boards
Run the RST BTSBRD command to reset a specified BTS BBU board.
Reset using this command consists of soft reset and power-off reset, which are specified by
corresponding parameters. If power-off reset is selected for a multi-mode base station, boards
in the BBUs of other modes are reset.
The boards that support soft reset are as follows: Ordinary boards
The boards that support power-off reset are as follows:
l GTMU
l UBRI
SingleRAN
44

Resetting BBU Boards in Soft Reset Mode in GBTSs, NodeBs, eNodeBs, or Co-MPT
Base Stations
If a board has a fault that cannot be rectified, soft reset is required. Soft reset takes a relatively
short time.
Run the RST BRD command to perform a soft reset.
NOTE
USCU, FAN, UPEU, and UEIU do not support soft reset.
After the RST BRD command is executed, the BBU Board Maintenance Link Failure alarm and
the Board Startup event alarm are generated. Run the DSP BRD command to check the values
of AvailabilityStatus and OpState. If the value of AvailabilityStatus is Normal and the value
of OpState is Enabled, the board has started up properly and the fault has been rectified.
Resetting NodeB/eNodeB BBU Boards in Power-off Reset Mode
If soft reset fails, power-off reset is required. Power-off reset takes a relatively long time.
Run the RST BRDPWROFF command to perform a power-off reset.
NOTE
USCU, FAN, UPEU, and UEIU do not support power-off reset.
After the RST BRDPWROFF command is executed, the BBU Board Maintenance Link Failure
alarm and the Board Startup event alarm are generated. Run the DSP BRD command to check
the values of AvailabilityStatus and OpState. If the value of AvailabilityStatus is Normal and
the value of OpState is Enabled, the board has started up properly and the fault has been rectified.
5.4.2 Querying BBU Board Information
Querying GBTS Board Information
Run the DSP BTSBRD command to query the running status of a GBTS board.
Querying Board Information in eGBTSs, NodeBs, eNodeBs, or Co-MPT Base
Stations
Step 1 Run the DSP BRD command to query the running status of a board in eGBTSs, NodeBs,
eNodeBs, or Co-MPT base stations.
Step 2 Run the DSP BRDMFRINFO command to query the manufacturing information about a board
in eGBTSs, NodeBs, eNodeBs, or Co-MPT base stations.
----End
SingleRAN
45

6Parameters
Table 6-1 UMTS: Parameter description
Parameter ID NE MML
Command
Feature ID Feature Name Description
CN BTS3900 ADD
CABINET
DSP
CABMFRINFO
LST CABINET
MOD
CABINET
RMV
CABINET
None None Meaning:Indi-
cates the cabinet
number.
GUI Value
Range:0~62
Unit:None
Actual Value
Range:0~62
Default
Value:None
SingleRAN
Subrack) Configuration Feature Parameter Description 6 Parameters
46

Parameter ID NE MML
Command
TYPE BTS3900 ADD
CABINET
MOD
CABINET
LST CABINET
None None Meaning:Type
of a cabinet.
This parameter
is set to
VIRTUAL
when the type of
a cabinet is not
within the value
range of this
parameter.
GUI Value
Range:APM30
(APM30), TMC
(TMC), BBC
(BBC),
APM100
(APM100),
APM200
(APM200),
PS4890
(PS4890), OMB
(OMB), RFC
(RFC),
BTS3900
(BTS3900),
BTS3900L
(BTS3900L),
BTS3900AL
(BTS3900AL),
VIRTUAL
(Virtual
Cabinet),
BTS3900D
(BTS3900D),
BTS3012_SRA
N
(BTS3012_SRA
N),
BTS3012AE_S
RAN
(BTS3012AE_S
RAN),
BTS3012II_SR
AN
(BTS3012II_SR
AN), TP48300A
(TP48300A),
SingleRAN
47

Parameter ID NE MML
Command
TP48600A
(TP48600A),
ILC29(ILC29)
Unit:None
Actual Value
Range:APM30,
TMC, BBC,
APM100,
APM200,
PS4890, OMB,
RFC, BTS3900,
BTS3900L,
BTS3900AL,
VIRTUAL,
BTS3900D,
BTS3012_SRA
N,
BTS3012AE_S
RAN,
BTS3012II_SR
AN, TP48300A,
TP48600A,
ILC29
Default
Value:VIRTUA
L(Virtual
Cabinet)
SingleRAN
48

Parameter ID NE MML
Command
DESC BTS3900 ADD
CABINET
MOD
CABINET
LST CABINET
cates a brief
description of
the cabinet,
which can be the
function,
location, and
some other
information of
the cabinet.
GUI Value
Range:0~79
characters
Unit:None
Actual Value
Range:0~79
characters
Default
Value:NULL
(empty string)
CN BTS3900 ADD
SUBRACK
LST
SUBRACK
MOD
SUBRACK
RMV
SUBRACK
cates the cabinet
number of the
subrack.
GUI Value
Range:0~62
Unit:None
Actual Value
Range:0~62
Default
Value:None
SRN BTS3900 ADD
SUBRACK
LST
SUBRACK
MOD
SUBRACK
RMV
SUBRACK
cates the number
of the subrack.
GUI Value
Range:0~254
Unit:None
Actual Value
Range:0~254
Default
Value:None
SingleRAN
49

Parameter ID NE MML
Command
TYPE BTS3900 ADD
SUBRACK
LST
SUBRACK
cates the type of
the subrack.
GUI Value
Range:BBU390
0(BBU3900
Subrack), RFU
(RFU Subrack),
PMU(PMU
Subrack), TCU
(TCU Subrack),
FMU(FMU
Subrack), RRU
(RRU Subrack),
RHUB(RHUB
Subrack), PRRU
(PRRU
Subrack), EMU
(EMU Subrack),
GRU(GRU
Subrack),
BBU3900-1U
(BBU3900-1U
Subrack),
GATM(GATM
Subrack), PICO
(PICO Subrack),
CCU(CCU
Subrack), AAS
(AAS Subrack),
UNKNOW
(Unknow
Subrack)
Unit:None
Actual Value
Range:BBU390
0, RFU, PMU,
TCU, FMU,
RRU, RHUB,
PRRU, EMU,
GRU,
BBU3900-1U,
GATM, PICO,
CCU, AAS,
UNKNOW
SingleRAN
50

Parameter ID NE MML
Command
Default
Value:None
DESC BTS3900 ADD
SUBRACK
MOD
SUBRACK
LST
SUBRACK
cates a brief
description of
the subrack,
which can be the
function,
location, and
some other
information of
the subrack.
GUI Value
Range:0~79
characters
Unit:None
Actual Value
Range:0~79
characters
Default
Value:NULL
(empty string)
SingleRAN
51

Parameter ID NE MML
Command
WM BTS3900 ADD BRD
MOD BBP
LST BBP
cates the
working mode
of the baseband
processing
board. There are
seven working
modes: FDD,
TDD, HYBRID,
TDD_ENHAN
CE,
TDD_8T8R,
TDD_TL and
FDD_ATG. The
Frequency
Division Duplex
(FDD) mode
carries the
traditional voice
and data
services. TDD is
short for Time
Division
Duplex. The
HYBRID mode
is a combination
of FDD and IMB
modes. In
Integrated
Mobile
Broadcasting
(IMB) mode, the
baseband
processing
board carries the
mobile TV
services. The
value
TDD_ENHAN
CE indicates the
TDD mode
integrated with
the
BeamForming
(BF) function.
The BF function
provides the
data
SingleRAN
52

Parameter ID NE MML
Command
transmission
service in
transmission
modes 7 and 8
defined in
protocols. For
details, see
3GPP TS
36.213. In
TDD_8T8R
mode, the
baseband
processing
board supports
TD-LTE single-
mode 8T8R. In
addition, the
baseband
processing
board supports
the BF function
and CPRI
specifications
are applied
between the
BBU and RRU.
In TDD_TL
mode, the
baseband
processing
board supports
the TD-
LTE&TDS-
CDMA dual
mode and the
TD-LTE single
mode. In
addition, the
baseband
processing
board supports
8T8R BF and
2T2R Multiple-
Input Multiple-
Output (MIMO)
and CMCC TD-
LTE IR
specifications
SingleRAN
53

Parameter ID NE MML
Command
are applied
between the
BBU and RRU.
In FDD_ATG
mode, the
baseband
processing
board supports
communication
between Air and
Ground. The
FDD_ATG
mode applies
only to
communication
between air and
ground.
GUI Value
Range:FDD
(Frequency
Division
Duplex), TDD
(Time Division
Duplex),
HYBRID
(HYBRID),
TDD_ENHAN
CE(Support
TDD BF),
TDD_8T8R
(TDD_8T8R),
TDD_TL
(TDD_TL),
FDD_ATG
(AirToGround)
Unit:None
Actual Value
Range:FDD,
TDD, HYBRID,
TDD_ENHAN
CE,
TDD_8T8R,
TDD_TL,
FDD_ATG
Default
Value:FDD
(Frequency
SingleRAN
54

Parameter ID NE MML
Command
Division
Duplex)
HCE BTS3900 ADD BRD
MOD BBP
LST BBP
cates the
hardware
capabilities of a
baseband
processing
board. This
parameter is
controlled by a
license control
item and is
customized for a
specific
operator. For
other operators,
this parameter is
invalid and the
hardware
capabilities of a
baseband
processing
board are
consistent with
the hardware
specifications of
this board.
GUI Value
Range:NORMA
L(NORMAL),
FULL(FULL)
Unit:None
Actual Value
Range:NORMA
L, FULL
Default
Value:FULL
(FULL)
SingleRAN
55

Parameter ID NE MML
Command
CN BTS3900 DSP BBPTC
LST BBP
MOD BBP
cates the cabinet
number of the
baseband
processing
board.
GUI Value
Range:0~7
Unit:None
Actual Value
Range:0~7
Default Value:0
SRN BTS3900 DSP BBPTC
LST BBP
MOD BBP
cates the
subrack number
of the baseband
processing
board.
GUI Value
Range:0~1
Unit:None
Actual Value
Range:0~1
Default Value:0
SN BTS3900 DSP BBPTC
LST BBP
MOD BBP
cates the slot
number of the
baseband
processing
board.
GUI Value
Range:0~5
Unit:None
Actual Value
Range:0~5
Default
Value:None
SingleRAN
56

Parameter ID NE MML
Command
CPRIEX BTS3900 MOD BBP
LST BBP
cates the CPRI
extension switch
of a BBP. The
transmission
capability of a
fiber optic cable
is improved
when this
parameter is set
to ON. Only
LBBPd supports
this
parameter.The
BBP is reset
after the
parameter is
modified.
GUI Value
Range:OFF
(Off), ON(On)
Unit:None
Actual Value
Range:OFF, ON
Default
Value:OFF(Off)
CN BTS3900 DSP BRDRAT
LST UTRP
MOD UTRP
SET BRDRAT
cates the cabinet
number of the
extension
transmission
board.
GUI Value
Range:0~7
Unit:None
Actual Value
Range:0~7
Default
Value:None
SingleRAN
57

Parameter ID NE MML
Command
SRN BTS3900 DSP BRDRAT
LST UTRP
MOD UTRP
SET BRDRAT
cates the
subrack number
of the extension
transmission
board.
GUI Value
Range:0~1
Unit:None
Actual Value
Range:0~1
Default
Value:None
SN BTS3900 DSP BRDRAT
LST UTRP
MOD UTRP
SET BRDRAT
cates the slot
number of the
extension
transmission
board.
GUI Value
Range:0~6
Unit:None
Actual Value
Range:0~6
Default
Value:None
SingleRAN
58

Parameter ID NE MML
Command
SUBTYPE BTS3900 MOD UTRP
LST UTRP
cates the type of
the sub-board.
GUI Value
Range:NULL
(NULL), UAEC
(UAEC), UIEC
(UIEC), UUAS
(UUAS), UQEC
(UQEC), UEOC
(UEOC), UIEB
(UIEB), UTRPc
(UTRPc)
Unit:None
Actual Value
Range:NULL,
UAEC, UIEC,
UUAS, UQEC,
UEOC, UIEB,
UTRPc
Default
Value:None
SingleRAN
59

7Counters
There are no specific counters associated with this feature.
SingleRAN
Subrack) Configuration Feature Parameter Description 7 Counters
60

8Reference Documents
1. 3900 Series Base Stations Hardware Description
2. DBS3900 Installation Guide
3. BTS3900 (Ver.B) Installation Guide
4. BTS3900 (Ver.C) Installation Guide
5. BTS3900A (Ver.B) Installation Guide
6. BTS3900A (Ver.C) Installation Guide
7. BTS3900L (Ver.B) Installation Guide
8. BTS3900L (Ver.C) Installation Guide
9. BTS3900AL (Ver.A) Installation Guide
10. BTS3900C WCDMA Installation Guide
11. BTS3900C (Ver.C) Installation Guide
12. BTS3900 (Ver.D) Installation Guide
13. BTS3900A (Ver.D) Installation Guide
14. BTS3900L (Ver.D) Installation Guide
15. BTS3900 Installation Guide for Enhancing Existing Cabinets
16. BTS3900A Installation Guide for Enhancing Existing Cabinets
17. BTS3900L Installation Guide for Enhancing Existing Cabinets
18. DBS3900 Installation Guide for Enhancing Existing Cabinets
19. BTS3012 (Ver.D_Z) Installation Guide
20. BTS3012AE (Ver.D_Z) Installation Guide
SingleRAN
Subrack) Configuration Feature Parameter Description 8 Reference Documents
61

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