Single RAN, Rel. SRAN 16.2, Operating Documentation, Issue 02 SBTS Supported Configurations DN09210918 Issue 01C Approval Date 2016-03-30
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Summary of changes
Changes between document issues are cumulative. Therefore, the latest document issue contains all change Date
Issue
30-03-2016
01C
15-01-2016
01B
17-12-2015
01A
23-11-2015
01A DRAFT
20-08-2015
01
Copyright © 2012 Nokia. All rights reserved.
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nt issue contains all changes made to previous issues. Changes -new SBTS Profiles added -new radio modules added - FHED module added - The tab "Sector configuration types" updated - New profiles added to "SBTS profiles" tab - "HW, SW, and Bands" tab updated with new RFMs and RRHs - New RF capacity IDs added - Support for FBBA Extension Submodule added - New definition of OBSAI ports in the "Definitions" tab - 'AD' and 'AC' configuration types added to "Sector configuration types" tab - "HW, SW, and Bands" tab updated with new RFMs and RRHs -New SBTS Profiles and RF capacity IDs added This is the first issue of this document.
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Definitions
This section is to present the important definitions and concepts.
SW
SRAN16.2 is supported with NetAct16.2 SW version.
How to read the configuration tables
SBTS SM mode Defines which RAT(s) are supported by the configuration
Number of RF units
Supported RF units
The number of needed RF Modules List of RFM variants that support the (RFMs) required for the antenna configuration configuration type of specific band
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System Module HW List of System Modules (SMs) that support the configuration and optional Baseband Extension Modules (FBBA, FBBC) that are possible to be deployed for the root configuration. Note that some configurations do not require the Extension Modules.
LTE/WCDMA/GSM cfg (Cell-sector) The maximum supported cell/sector-configuration Example: If this columns shows a 2+2+2 configuration, then also a 1+1+1 configuration is supported.
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Basic Cell Set (BCS)
Reduced Cell Set (RCS)
Extended Cell Set (ECS) deployed
System module can serve up to three (one per FSMF and each FBBC module) basic cell sets with following cell assignments: - maximum of six cells, up to 10 MHz with 2Tx/2Rx single band in up to six sectors - maximum of three cells, up to 20 MHz with 2Tx/2Rx single band in up to three sectors - maximum of three cells, up to 10 MHz with 2Tx/4Rx single band in up to three sectors - maximum of three cells, up to 10 MHz with 4Tx/4Rx single band in up to three sectors maximum of two 20 MHz and two 10 MHz cells with 2Tx/2Rx dual band
System module can serve one reduced cell sets with following cell assignments: - maximum of three cells, up to 10 MHz with 2Tx/2Rx single band in up to three sectors with CoMP in FSMF - maximum of four cells, up to 10 MHz with 2Tx/2Rx single band in up to three sectors without CoMP in FSMF
System module can serve one extended cell set in the configuration with one basic cell set with following cell assignments:
deployed on FSMF or FBBA/C
deployed on FSMF
on FSMF plus two FBBA/C
- maximum of three cells, up to 20 MHz with 2Tx/4Rx single band in up to three sectors in FSMF and two FBBA/Cs - maximum of three cells, up to 20 MHz with 4Tx/4Rx single band in up to three sectors in FSMF and two FBBA/Cs.
Ports System Module and FBBA/FBBC The table provides an overview of the ports on the System Module and the FBBA/FBBC
Optical ports on the SM EIF2/RF/6 RF/EXT1 RF/EXT2 RF/EXT3
OBSAI ports 1.6 1.1 1.2 1.3
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11 / 82 Optical ports on the FBBC.1 RF/EXT1 RF/EXT2 RF/EXT3 RF/EXT4 Optical ports on the FBBC.2 RF/EXT1 RF/EXT2 RF/EXT3 RF/EXT4 Optical ports on the FBBA.1 RF/EXT Optical ports on the FBBA.2 RF/EXT
OBSAI ports 1.FBB1.1 1.FBB1.2 1.FBB1.3 or 1.FBB1.3X 1.FBB1.4 OBSAI ports 1.FBB2.1 1.FBB2.2 1.FBB2.3 or 1.FBB2.3X 1.FBB2.4 OBSAI ports 1.FBB1.3X OBSAI ports 1.FBB2.3X
The 1.FBB1.3X and 1.FBB2.3X OBSAI ports use a common notation for both FBBA and FBBC. In case of FBBA they describe the only RF/EXT port on the extension card, and for FBBC- the third RF/EXT port (also described as 1.FBB1.3 or 1.FBB2.3).
RF Modules
Optical cables should always be connected to the OPT IF 1 port (left port on the 6Tx Radio Modules and right one on the 3Tx Radio Modules). In case of two connections, always use first (OPT IF 1) and third (OPT IF 3) optical ports. Cables
Each SBTS profile has a unique way of connecting cables to RP3-01 OBSAI ports. The cables need to be connected to FSM and FR ports exactly as presented in the description of a configuration. Otherwise the SBTS does not work.
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Antenna configuration type Antenna cabling variant used in the configuration More details in tabs "Sector configuration types" and "SBTS Cabling" In some cases the antenna cabling variant contains information in brackets, for example: G(n,m) This indicates that both technologies use dedicated power amplifiers, meaning the DL-Tx carriers are transmitted on dedicated Tx-pipes. (n,m) represent Antenna port numbers, as labled on the RF-unit (check also tab "SBTS Cabling")
Tx/Rx The number of Tx- and Rx-paths in the configuration configurations. Examples: 1Tx/2Rx - SIMO 2Tx/2Rx - 2x2 MIMO
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Number of optical interfaces The number of optical interfaces and the maximum RP3 link speed [Gbps]
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System Module configuration types This section is to present the general FSMr3 (FSMF) baseband configurations and RAT deployment on SBTS. The exact and detailed BB deployment is defined in the "SBTS Profiles" tab
1-RAT Configurations
GSM dedicated:
Up to 24 TRX
LTE dedicated:
Up to 3x basic cell set (1/FSP) / extended (2FSPs) + basic (1 FSP)
WCDMA decicated:
Up to 17.5 subunits
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2-RAT Configurations
WCDMA-GSM:
Up to 24 TRX + up to 15.5 WCDMA subunits
LTE-GSM:
Up to 24TRX + LTE reducet cell set + 2x LTE basic cell sets
LTE-WCDMA:
System Module Rel.3
Capacity Extension Submodule
Copyright © 2012 Nokia. All rights reserved.
WCDMA BB: No. of Subunits
LTE BB
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FSMF
2xFBBC
5.5
2x BCS
3-RAT Configurations
LTE-WCDMA-GSM:
System Module Rel.3
Capacity Extension Submodule
WCDMA BB: No. of Subunits
LTE BB
GSM BB
FSMF
2xFBBC
3.5
2x BCS
24TRX
System Module Rel.3
Capacity Extension Submodule
WCDMA BB: No. of Subunits
LTE BB
GSM BB
FSMF
2xFBBA/C
5.5
BCS + RCS
24TRX
Note 1: For details check Dimensioning Copyright © 2012 Nokia. All rights SBTS
Note 2: All WCDMA subunit figures are reserved. based on 1 Local Cell
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RAT deployment on SBTS.
extended (2FSPs) + basic (1 FSP) System Module Rel.3
Capacity Extension Submodule
FSMF
-
FSMF
FBBC
FSMF
2xFBBC
BCS: LTE basic cell set ECS: LTE extended cell set
System Module Rel.3
Capacity Extension Submodule
FSMF
-
FSMF
FBBA/C
FSMF
2xFBBA/C
WCDMA: OBSAI required between FSMF+FBBC if more than one dedicated WCDMA RF units connected to FBBC
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WCDMA: OBSAI required between FSMF+FBBC if more than one dedicated WCDMA RF units connected to FBBC
Note 1
Note 2
DMA subunits System Module Rel.3
Capacity Extension Submodule
FSMF
-
FSMF
FBBA/C
FSMF
2xFBBA/C
System Module Rel.3
Capacity Extension Submodule
set + 2x LTE basic cell sets
FSMF
-
FSMF
FBBC
FSMF
2xFBBC
RCS: LTE reduced cell set
System Module Rel.3
Capacity Extension Submodule
WCDMA BB: No. of Subunits
LTE BB
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System Module Rel.3
Capacity Extension Submodule
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FSMF
2xFBBC
11.5
1x BCS
System Module Rel.3
Capacity Extension Submodule
WCDMA BB: No. of Subunits
LTE BB
GSM BB
FSMF
2xFBBC
9.5
1x BCS
24TRX
System Module Rel.3
Capacity Extension Submodule
WCDMA BB: No. of Subunits
LTE BB
GSM BB
2xFSMF
4xFBBA/C
15.5
Up to 3x BCS / ECS + BCS
24TRX
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2xFSMF
2xFBBA/C, 2xFBBC
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LTE BB
1x BCS 2x BCS/ 1xECS 3xBCS/ECS+BCS
Number of Subunits
5.5 11.5 17.5
equired between FSMF+FBBC if edicated WCDMA RF units BC
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WCDMA BB: No. of Subunits
GSM BB
3.5
24TRX
9.5
24TRX
15.5
24TRX
GSM BB
LTE BB
24TRX
RCS
24TRX
RCS + BCS
24TRX
RCS + 2x BCS
WCDMA BB: No. of Subunits
LTE BB
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17.5
Up to 3x BCS / ECS + BCS
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SBTS sector configuration types
Note: - "RFM" stands for "RF Module"; "RRH" stands for "Remote Radio Head". - The number of supported frequencies may vary. Only the basic rule of HW configurations is described, more - The modules' layouts presented below are informative only. The ordered modules' layouts may vary, though t - Primary OBSAI link is connected to FR port1 and capacity link to port3 for all configurations unless otherwise
A Type configuration - for RF Module 2 Way Rx diversity (SIMO) Sector has antenna connections (1 Tx + 2 Rx) from Ant 1 + Ant 2 or Ant 3 + Ant 4 or Ant 5 + Ant 6 Sector2 LCR1: Tx & Rx1
Sector3 LCR1: Tx & Rx1 Sector2 LCR1: Rx2
Sector3 LCR1: Rx2
Sector1 LCR1: Tx & Rx1
Sector1 LCR1: Rx2
B Type configuration - only for RF Module 2 Way Rx diversity (SIMO) Sector has antenna connections (1 Tx + 2 Rx) from Ant 1 + Ant 3 or Ant 3 + Ant 5 Sector1 LCR1: Rx LCR2: Tx & Rx
Sector1 LCR1: Tx & Rx LCR2: Rx
C Type configuration - two RF Modules 2 Way Rx diversity (SIMO) Sector has antenna connections (1 Tx, 2 Rx) from RFM 1 Ant1 + RFM 2 Ant1 or RFM 1 Ant3 + RFM 2 Ant3 or RFM 1 Ant5 + RFM 2 Ant5 in the two RFMs Sector3 LCR5: Tx & Rx LCR6: Rx
Sector2 LCR3: Tx & Rx LCR4: Rx
Sector1 LCR1: Tx & Rx LCR2: Rx
Sector3 LCR5: Tx & Rx LCR6: Rx
Sector2 LCR3: Tx & Rx LCR4: Rx
Sector1 LCR1: Tx & Rx LCR2: Rx
Sector3 LCR5: Rx LCR6: Tx & Rx
Sector2 LCR3: Rx LCR4: Tx & Rx
Sector1 LCR1: Rx LCR2: Tx & Rx
D Type configuration - only for RF Module Sector has antenna connections (1 Tx + 4 Rx) from Ant1 + Ant2 + Ant3 + Ant4 Sector1 LCR1: Rx
Sector1 LCR1: Rx
Sector1 LCR1: Rx
Sector1 LCR1: Tx & Rx
E Type configuration - only for two RF Modules Sector has antenna connections (1 Tx + 4 Rx) from RFM1 Ant1 + Ant2 + RFM2 Ant1 + Ant2 or RFM1 Ant3 + Ant4 + RFM2 Ant3 + Ant4 or RFM1 Ant5 + Ant6 + RFM2 Ant5 + Ant6 in the two RFMs Sector1 LCR1: Rx
Sector1 LCR1: Tx & Rx
Sector1 LCR1: Rx
Sector1 LCR1: Rx
G Type configuration - only for RF Module 2TX/2RX (MIMO, VAM, or IDD) Sector has antenna connections (2 Tx, 2 Rx) from Ant 1 + Ant 3
Sector1 LCR1: Tx & Rx
Sector1 LCR1: Tx & Rx
H Type configuration - for two RF Modules 2TX/2RX (MIMO, VAM, or IDD) Sector has antenna connections (2 Tx, 2 Rx) from: RFM 1 Ant 1 + RFM 2 Ant 1 or RFM 1 Ant 3 + RFM 2 Ant 3 or RFM 1 Ant 5 + RFM 2 Ant 5 Sector3 LCR3: Tx & Rx
Sector2 LCR2: Tx & Rx
Sector1 LCR1: Tx & Rx
Sector3 LCR3: Tx & Rx
Sector2 LCR2: Tx & Rx
Sector1 LCR1: Tx & Rx
I Type configuration - for RF Module 2TX/2RX (MIMO) Sector has antenna connections (2 Tx + 2 Rx) from Ant 1 + Ant 2 or Ant 3 + Ant 4 or Ant 5 + Ant 6 Sector3 LCR1: Tx & Rx1 Sector3 LCR1: Tx & Rx2
Sector2 LCR1: Tx & Rx1
Sector2 LCR1: Tx & Rx2
Sector1 LCR1: Tx & Rx1
Sector1 LCR1: Tx & Rx2
J Type configuration - only for RF Module 2TX/4RX (MIMO, VAM, or IDD) Sector has antenna connections (2 Tx, 4 Rx) from Ant 1 + Ant 2 + Ant 3 + Ant 4 Sector1 LCR1: Rx
Sector1 LCR1: Rx Sector1 LCR1: Tx & Rx
Sector1 LCR1: Tx & Rx
K Type configuration - two RF Modules
2TX/4RX (MIMO, VAM, or IDD) Sector has antenna connections (2 Tx, 4 Rx) from RFM 1 Ant 1, Ant2 + RFM 2 Ant 1, A RFM 1 Ant 3 , Ant4 + RFM 2 Ant 3, Ant4 or RFM 1 Ant 5, Ant6 + RFM 2 Ant 5, Ant6 in the
Sector 1 Sector 3
Sector 2
Sector 1 Sector 3
Sector 2 LCR1: Rx
LCR1: Tx & Rx
LCR1: Rx
LCR1: Tx & Rx
N Type configuration - two RF Modules
4TX/4RX (MIMO) Sector has antenna connections (4 Tx, 4 Rx) from RFM 1 Ant 1, Ant2 + RFM 2 Ant 1, A RFM 1 Ant 3 , Ant4 + RFM 2 Ant 3, Ant4 or RFM 1 Ant 5, Ant6 + RFM 2 Ant 5, Ant6 in the
Sector 1 Sector 3
Sector 2 LCR1: Tx & Rx
LCR1: Tx & Rx
LCR1: Tx & Rx
LCR1: Tx & Rx
M Type configuration - for RRH 4TX 4TX/4RX MIMO
Sector has antenna connections (4 Tx + 4 Rx) from Ant 1 + Ant 2 +Ant 3 +Ant 4 Sector1 LCR1: Tx & Rx
Sector1 LCR1: Tx & Rx
Sector1 LCR1: Tx & Rx Sector1 LCR1: Tx & Rx
AD Type configuration - for two FXEE - RX diversity kit (RDSA) used 2TX/2RX (MIMO, VAM, or IDD) Sector has antenna connections (2 Tx, 2 Rx) from: RFM 1 Ant 1, Ant 2 + RFM 2 Ant 1, Ant 2 Sector1 LCR1: Rx
Sector1 LCR1: Rx
Sector1 LCR1: Tx
Sector1 LCR1: Tx
AC Type configuration - two FXEE/F - PIM avoidance 2 Way Rx diversity (SIMO) Sector has antenna connections (1 Tx, 2 Rx) from RFM 1 Ant1 Tx + RFM 1 Ant2 Rx + RFM 2 Ant Rx and vice versa in second RM Sector3 LCR5: Tx
Sector2 LCR3: Tx
Sector1 LCR1: Tx
Sector2 LCR3: Tx
Sector3 LCR5: Tx Sector3 LCR5: Rx div LCR6: Rx
Sector3 LCR5: Rx LCR6: Rx div Sector3 LCR6: Tx
Sector2 LCR3: Rx div LCR4: Rx
Sector2 LCR3: Rx LCR4: Rx div
Sector1 LCR1: Tx Sector1 LCR1: Rx div LCR2: Rx
Sector1 LCR1: Rx LCR2: Rx div Sector2 LCR4: Tx
Sector1 LCR2: Tx
nfigurations is described, more carriers can be supported. ules' layouts may vary, though the connection rules are still the same. onfigurations unless otherwise expressed
A Type configuration - for RRH 4 or Ant 5 + Ant 6
t 3 + Ant 5
2 Ant1 or RFMs
2 Way Rx diversity (SIMO) Sector has antenna connections (1 Tx + 2 Rx) from Ant 1 + Ant 2 Sector1 LCR1: Rx LCR2: Tx & Rx
Sector1 LCR1: Tx & Rx LCR2: Rx
Sector3 LCR6: Rx div
3 + Ant4
2 Ant1 + Ant2 or nt6 in the two RFMs
3
+ RFM 2 Ant 5
G Type configuration - only for RRH 4TX 2TX/2RX (MIMO, VAM, or IDD) Sector has antenna connections (2 Tx, 2 Rx) from Ant 1 + Ant 3
Sector1 LCR1: Tx & Rx
H Type configuration - for two RRHs 2TX/2RX (MIMO, VAM, or IDD) Sector has antenna connections (2 Tx, 2 Rx) from: RFM 1 Ant 1 + RFM 2 Ant 1 Sector1 LCR1: Tx & Rx LCR2: Tx & Rx
Sector1 LCR1: Tx & Rx LCR2: Tx & Rx
Sector1 LCR1: Tx & Rx
H.1 Type con
H.1 is pointless S RFM 1 Ant 1 + RFM 2
Sector1 LCR1: Tx & Rx LCR2: Tx & Rx
I Type configuration - only for RRH 4 or Ant 5 + Ant 6
3 + Ant 4
Modules
D) nt 1, Ant2 + RFM 2 Ant 1, Ant2 or + RFM 2 Ant 5, Ant6 in the two RFMs
2TX/2RX (MIMO, VAM, or IDD) Sector has antenna connections (2 Tx + 2 Rx) from Ant 1 + Ant 2 Sector1 LCR1: Tx & Rx
Sector1 LCR1: Tx & Rx
CR1: Tx & Rx
CR1: Tx & Rx
Modules
nt 1, Ant2 + RFM 2 Ant 1, Ant2 or + RFM 2 Ant 5, Ant6 in the two RFMs
CR1: Tx & Rx
CR1: Tx & Rx
3 +Ant 4
A) used
Rx + RFM 2 Ant Rx
A.1 Type configuration - two FXEE/F - RX diversity kit (RDSA) used 2 Way Rx diversity (SIMO) Sector has antenna connections (1 Tx, 2 Rx) from RFM 1 Ant1 + RFM 2 Ant1 FwD, RFM 1 Ant3 + RFM 2 Ant3 FwD or RFM 1 Ant5 + RFM 2 Ant5 FwD and vice versa in 2nd RM Sector3 LCR5: Tx & Rx Sector3 LCR5: Rx div
Sector2 LCR3: Tx & Rx Sector2 LCR3: Rx div
Sector1 LCR1: Tx & Rx Sector1 LCR1: Rx div
Sector3 LCR6: Rx div
Sector3 LCR6: Tx & Rx
Sector2 LCR4: Rx div
Sector2 LCR4: Tx & Rx
Sector1 LCR2: Rx div
Sector1 LCR2: Tx & Rx
4TX
Ant 1 + Ant 3
H.1 Type configuration - for two FXEE - RX diversity kit (RDSA) used 2TX/2RX (MIMO, VAM, or IDD) H.1 is pointless as such, but it is to be used along with RF sharing with A.1 type Sector has antenna connections (2 Tx, 2 Rx) from: RFM 1 Ant 1 + RFM 2 Ant 1 or RFM 1 Ant 3 + RFM 2 Ant 3 or RFM 1 Ant 5 + RFM 2 Ant 5 Sector3 LCR3: Tx & Rx
Sector2 LCR2: Tx & Rx
Sector1 LCR1: Tx & Rx
Sector3 LCR3: Tx & Rx
Sector2 LCR2: Tx & Rx
Sector1 LCR1: Tx & Rx
H
Ant 1 + Ant 2
A) used
Ant1 FwD, versa in 2nd RM
Flexi Multiradio modules
RF Modules and Remote Radio Heads
SW Release
Unit
Band
Band number
SRAN16.2
FXDA
900
VIII
SRAN16.2
FXDJ
900J
VIIIJ
SRAN16.2
900
VIII
SRAN16.2
FHDA FHDB
900
VIII
SRAN16.2
FXDB
900
VIII
SRAN16.2
FXJB
900J
VIIIJ
SRAN16.2
FXEA FXEB
1800
III
1800
III
FHEA FHEB
1800
III
SRAN16.2
1800
III
SRAN16.2
FHEF
1800
III
SRAN16.2
FXED
1800
III
SRAN16.1
FRGP.A
2100
I
SRAN16.2
FRGP.B
2100
I
SRAN16.2
FRGT
2100
I
SRAN16.2
FRGQ
2100
I
SRAN16.2
FRGS
2100
I
SRAN16.2
FRGU
2100
I
SRAN16.2
FRGY
2100
I
SRAN16.2
FRME
800
V
SRAN16.2
FRHD
2600
VII
SRAN16.2
FRHE
2600
VII
SRAN16.2
FRHC
2600
VII
SRAN16.2
FRHF
2600
VII
SRAN16.2
FRMC
800
XX
SRAN16.2
FRPA
700
XXVIII
SRAN16.2
FRPB
700
XXVIII
SRAN16.2
FHEG
1800
III
SRAN16.2
FRLB
730
XII
SRAN16.2
FRMB
800EU
XX
SRAN16.2 SRAN16.2
SRAN16.2
FXEE
1800
III
SRAN16.2
FRHG
2600
VII
SRAN16.2
FRMA
800EU
XX
SRAN16.2
FRHA
2600
VII
SRAN16.2
2600
VII
SRAN16.2
FRHB FRMF
800
V
SRAN16.2
FHDG
900
VIII
SRAN16.2
FXCA
850
V
SRAN16.2
FXCB
850
V
SRAN16.2
FXFA
1900
II
SRAN16.2
FXFC
1900
II
SRAN16.2
FHED
1900
II
SRAN16.2
FXEF
1800
III
SRAN16.2
FHEI
1800
III
SRAN16.2
FHGA
2100
I
RF Units RFM/RRH
Number of optical interfaces
HW Release
Supported power levels [W]
RFM 3x60 W
3x3 Gbps
Flexi HW 2.2
8,15,20,30,40,45,60
RFM 3x60 W
3x3 Gbps
Flexi HW 2.2
20, 40, 60
RRH 2x40W
3x3 Gbps
Flexi HW 2.2
8,20,30,40
RRH 2x60 W
2x6 Gbps
Flexi HW 2.3
8,20,30,40,60
RFM 3x80 W
3x6 Gbps
Flexi HW 2.3
8,15,20,30,40,45,60,80
RFM 3x60 W
3x6 Gbps
Flexi HW 2.3
8, 15, 20, 30, 40, 60, 80
RFM 3x60 W
3x3 Gbps
Flexi HW 2.2
8,20,30,40,60
RFM 3x80 W
3x6 Gbps
Flexi HW 2.3
8, 18, 20, 30, 40, 60, 80
RRH 2x40 W
3x3 Gbps
Flexi HW 2.2
8,20,30,40
RRH 2x60 W
2x6 Gbps
Flexi HW 2.3
8,20,30,40,60
RRH 2x60 W
2x6 Gbps
Flexi HW 2.3
8,20,30,40,60
RFM 6x60 W
3x6 Gbps
Flexi HW 3.2
8,20,30,40,60
RFM 3x60 W
2x3 Gbps
Flexi HW 2.1
8,15,20,30,40,45,60
RFM 3x60 W
2x3 Gbps
Flexi HW 2.2
8,15,20,30,40,45,60
RFM 3x80 W
3x6 Gbps
Flexi HW 2.3
8,15,20,30,40,60,80
RRH 2x40 W
2x3 Gbps
Flexi HW 2.1
8, 20, 30, 40
RFM 3x80 W
3x6 Gbps
Flexi HW 2.3
8,15,20,30,40,45,60,80
RFM 6x60 W
3x6 Gbps
Flexi HW 3.2
8,20,30,40,60
RRH 2x40 W
2x6 Gbps
Flexi HW 4.0
8,15,20,30,40,60
RFM 6x40 W
3x6 Gbps
Flexi HW 3.1
8, 20, 30, 40
RRH 4x30 W
3x6 Gbps
Flexi HW 2.3
8,10,15,20,27,30
RRH 4x30 W
3x6 Gbps
Flexi HW 2.3
8,10,15,20,30
RFM 6x40 W
3x6 Gbps
Flexi HW 3.1
8,20,30,40
RFM 6x40 W
3x6 Gbps
Flexi HW 3.1
8, 20, 30, 40
RFM 6x40 W
3x6 Gbps
Flexi HW 3.1
8,20,30,40
RFM 6x40 W
3x6 Gbps
Flexi HW 3.1
8, 20, 30, 40
RFM 6x40 W
3x6 Gbps
Flexi HW 3.1
8,15,20,30,40
RRH 2x60 W
2x6 Gbps
Flexi HW 2.3
8,20,30,40,60
RRH 2x30 W
2x3 Gbps
Flexi HW 2.1
8,10,15,20,30
RRH 2x40 W
2x3 Gbps
Flexi HW 2.1
8, 20, 30, 40
4) 5)
RFM 3x80 W
3x6 Gbps
Flexi HW 3.3
8,15,20,30,40
RRH 4x40 W
3x6 Gbps
Flexi HW 4.0
8, 20, 30, 40
RFM 3x60 W
3x3 Gbps
Flexi HW 3.1
8,20,30,40
RFM 3x60 W
3x3 Gbps
Flexi HW 2.1
8,20,30,40,60
RRH 2x40 W
3x3 Gbps
Flexi HW 2.1
8,20,30,40
RFM 6x60 W
3x6 Gbps
Flexi HW 3.2
8,20,30,40,60
RRH 2x5 W
2x6 Gbps
Flexi HW 4.1
50 mW - 5W, with 1dB step
RFM 3x60 W
3x6 Gbps
Flexi HW 2.2
8,20,30,40,60
RFM 3x80 W
3x6 Gbps
Flexi HW 2.3
8,20,30,40,60,80
RFM 3x60 W
3x3 Gbps
Flexi HW 2.2
8,20,30,40,60
RFM 3x80 W
3x6 Gbps
Flexi HW 2.3
8,20,30,40,60,80
RRH 4x40 W
3x6 Gbps
Flexi HW 4.0
8,20,30,40
RFM 3x80 W
6xX Gbps
Flexi HW 3.3
RRH 2x5 W
6xX Gbps
Flexi HW 4.0a
RRH 2x5 W
6xX Gbps
Flexi HW 4.0a
RX Band
TX Band
HW TX / RX capability:
880 - 915 MHz
925 - 960 MHz
TX: 25 MHz RX: 35 MHz
890-915 MHz
935-960 MHz
TX / RX: 25 MHz
880 - 915 MHz
925 - 960 MHz
TX: 25 MHz RX: 35 MHz
880 - 915 MHz
925 - 960 MHz
TX: 35 MHz RX: 35 MHz
880 - 915 MHz
925 - 960 MHz
TX / RX: 35 MHz
890-915 MHz
935-960 MHz
TX / RX: 25 MHz
1710 - 1785 MHz
1805 - 1880 MHz
TX: 25 MHz RX: 30 MHz
1710 - 1785 MHz
1805 - 1880 MHz
TX: 50 MHz RX: 60 MHz
1710 - 1785 MHz
1805 - 1880 MHz
TX: 25 MHz RX: 40 MHz
1710 - 1785 MHz
1805 - 1880 MHz
TX: 40 MHz RX: 60 MHz
1710 - 1765 MHz
1805 - 1860 MHz
TX: 35 MHz RX: 55 MHz
1710 - 1785 MHz
1805 - 1880 MHz
TX / RX: 75 MHz
1920 - 1980 MHz
2110 -2170 MHz
TX / RX: 20 MHz
1920 - 1980 MHz
2110 -2170 MHz
TX / RX: 20 MHz
1920 - 1980 MHz
2110 -2170 MHz
TX / RX: 60 MHz
1920 - 1980 MHz
2110 -2170 MHz
TX / RX: 60 MHz
1940 - 1980 MHz
2130 -2170 MHz
TX / RX: 40 MHz
1920 - 1980 MHz
2110 -2170 MHz
TX: 60 MHz RX: 60 MHz
1920 - 1980 MHz
2110 -2170 MHz
TX: 40 MHz RX: 40 MHz
832 - 862 MHz
791 -811 MHz
TX: 20 MHz RX: 30MHz
2520 - 2570 MHz
2640 - 2690 MHz
TX: 50 MHz RX: 50 MHz
2500 - 2555 MHz
2620 - 2675 MHz
TX: 55 MHz RX: 55 MHz
2500 - 2555 MHz
2620 - 2675 MHz
TX / RX: 40 MHz
2520 - 2570 MHz
2640 - 2690 MHz
TX / RX: 40 MHz (for module/6pipes Rx due to common SAW filter)
842 - 862 MHz
801 -821 MHz
TX / RX: 40 MHz
703 - 738 MHz
758 -793 MHz
TX / RX: 35 MHz
718 - 748 MHz
773 -803 MHz
TX / RX: 30 MHz
1755 - 1785 MHz
1850 - 1880 MHz
TX: 30 MHz RX: 30 MHz
699 - 715 MHz
729 - 745 MHz
TX / RX: 16 MHz
832 - 862 MHz
791 -821 MHz
TX / RX: 30 MHz
Support for RFS in SBTS
yes yes yes yes yes yes yes yes yes yes yes yes yes yes yes yes yes yes yes no no no no no no no no no no no
1710 - 1785 MHz
1805 - 1880 MHz
TX: 75 MHz RX: 60 MHz (75MHz with RDSA)
2500 - 2570 MHz
2620 - 2690 MHz
TX / RX: 65 MHz
842 - 862 MHz
801 -821 MHz
TX / RX: 40 MHz
2500 - 2570 MHz
2620 - 2690 MHz
TX / RX: 20 MHz
2500 - 2570 MHz
2620 - 2690 MHz
TX / RX: 70 MHz
832 - 862 MHz
791 -821 MHz
TX: 30 MHz, RX: 30MHz
900 - 915 MHz
945 - 960 MHz
TX: 15 MHz RX: 15 MHz
824 - 849 MHz
869 - 894 MHz
TX/RX: 15 MHz
824 - 849 MHz
869 - 894 MHz
TX/RX: 25 MHz
1850 - 1910 MHz
1930 - 1990 MHz
TX / RX: 20 MHz
1850 - 1910 MHz
1930 - 1990 MHz
TX: 50 MHz RX: 60 MHz
1710 - 1785 MHz
1805 - 1880 MHz
TX: 60 MHz RX: 60 MHz
1710-1785 MHz
1805-1880 MHz
TX / RX: 75 MHz
1710 - 1770 MHz
1805 - 1865 MHz
TX / RX: 60 MHz
1920 - 1980 MHz
2110 - 2170 MHz
TX / RX: 60 MHz
yes no no no no no no yes yes yes yes no yes no no
Support for Support for GSM Support for LTE WCDMA dedicated dedicated mode dedicated mode mode
yes yes yes yes yes yes yes yes yes yes yes yes no no no no no no no no no no no
yes yes yes yes yes yes no no no no no no yes yes yes yes yes yes yes no no no no
yes no yes yes yes no yes yes yes yes yes yes yes yes yes yes yes yes yes yes yes yes yes
no no no no no no no
no no no no no no no
yes yes yes yes yes yes yes
yes no no no no no no yes yes yes yes no yes no no
no no no no no no no yes yes yes yes no no no no
yes yes yes yes yes yes yes yes yes yes yes yes yes yes yes
Supported carrier configurations from single band point of view <
RF carrier capacity No. of RF RF mode ID units. RF_G1
GSM
1
RF_G1_1
GSM
1
RF_G4
GSM
2
RF_G5
GSM
3
RF_G5_1
GSM
3
RF_G6
GSM
1
RF_W1
WCDMA
1
RF_W3
WCDMA
3
RF_W4
WCDMA
1
RF_W4
WCDMA
1
RF_W5
WCDMA
3
RF_W6
WCDMA
2
RF_W7
WCDMA
1
RF_W8
WCDMA
1
RF_W9
WCDMA
1
RF_W10
WCDMA
1
RF_FL1
FDD-LTE
1
RF_FL2
FDD-LTE
3
RF_FL2_2
FDD-LTE
3
RF_FL3
FDD-LTE
2
RF_FL4
FDD-LTE
3
RF_FL4_1
FDD-LTE
3
RF_FL5
FDD-LTE
1
RF_FL6
FDD-LTE
3
RF_FL8
FDD-LTE
3
RF_FL8_1
FDD-LTE
3
RF_FL11
FDD-LTE
3
RF_FL13_high_BW
FDD-LTE
2
RF_FL14
FDD-LTE
1
RF_WG1
WG
1
RF_WG1
WCDMA
1
RF_WG1
GSM
1
RF_WG2
GSM
3
RF_WG2
WCDMA
3
RF_WG2
WG
3
RF_WG3
WG
2
RF_WG3
WCDMA
2
RF_WG3
GSM
2
RF_WG4
WG
1
RF_WG4
GSM
1
RF_WG5
WG
1
RF_WG5
GSM
1
RF_WG6
WG
5
RF_WG8
WG
3
RF_WG9
WG
2
RF_WG9
WG
2
RF_LG1_low_BW
LG
1
RF_LG1_low_BW
GSM
1
RF_LG1_low_BW
FDD-LTE
1
RF_LG1_1_low_BW
GSM
1
RF_LG1_1_low_BW
FDD-LTE
1
RF_LG1_1_low_BW
LG
1
RF_LG1_2_low_BW
LG
1
RF_LG1_2_low_BW
GSM
1
RF_LG1_2_low_BW
FDD-LTE
1
RF_LG1_high_BW
FDD-LTE
1
RF_LG1_high_BW
LG
1
RF_LG1_high_BW
LG
1
RF_LG1_3_high_BW
FDD-LTE
1
RF_LG1_3_high_BW
LG
1
RF_LG1_3_high_BW
LG
1
RF_LG2_low_BW
LG
2
RF_LG2_low_BW
GSM
2
RF_LG2_low_BW
FDD-LTE
2
RF_LG2_high_BW
GSM
2
RF_LG2_high_BW
FDD-LTE
2
RF_LG2_high_BW
LG
2
RF_LG2_high_BW
LG
2
RF_LG4_low_BW
LG
3
RF_LG4_high_BW
LG
3
RF_LG4_high_BW
LG
3
RF_LG14
LG
4
RF_LG15
LG
1
RF_LG15_1
LG
1
RF_LG17
LG
3
RF_LG18
LG
2
RF_LG19
LG
2
RF_LW1
FDD-LTE
2
RF_LW1
LW
2
RF_LW1
LW
2
RF_LW1
LW
2
RF_LW1_2
FDD-LTE
2
RF_LW1_2
LW
2
RF_LW1_2
LW
2
RF_LW2_1
LW
3
RF_LW2_1
LW
3
RF_LW2
LW
3
RF_LW2
LW
3
RF_LW2_2
LW
3
RF_LW2_2
LW
3
RF_LW3_1
LW
3
RF_LW3_1
LW
3
RF_LW3
LW
3
RF_LW3
WCDMA
3
RF_LW5
LW
2
RF_LW5
LW
2
RF_LW5
WCDMA
2
RF_LW5_1
LW
2
RF_LW6
LW
1
RF_LW8
LW
1
RF_LW9
LW
3
RF_LW10
LW
3
RF_LG5_high_BW
LG
2
RF_LG5_high_BW
LG
2
RF_LG6_high_BW
LG
2
RF_LG6_high_BW
LG
2
RF_LG6_high_BW
LG
2
RF_LG7
LG
2
RF_LG8
LG
1
RF_LG9
LG
3
RF_LG9
LG
3
RF_LG9
LG
3
RF_LG10_low_BW
LG
2
RF_LG11_low_BW
LG
3
* In case applied 3MHz or 1.4MHz LTE carrier BW, place it on LCRs 1.1, 2.1, 3.1 so that t
ons from single band point of view
LTE carrier confi Supported RF units
# OBSAI RF type fibers/RF unit
Ant. Type
LTE cfg (Cellsector)
FXDB/FXJB/FXCB/FXEB/FXFC
3T6R
1
A
FXDB/FXJB/FXCB/FXEB/FXFC
3T6R
1
A
FXDB/FXJB/FXCB/FXEB/FXFC
3T6R
1
C
FHDB/FHEB/FHEF/FHEG
2T2R
1
A
FHDB/FHEB/FHEF/FHEG
2T2R
1
A
FXEE/FXEF
3T6R
1
A
FXDB/FXJB/FXCB/FXFC/FRGT/FRGS
3T6R
1
A
FRGY
2T2R
1
A
FRGU
6T6R
1
A
FRGU
6T6R
1
A
FRGQ/FHDA
2T2R
1
A
FXDB/FXJB/FXCB/FXFC/FRGT/FRGS
3T6R
1
C
FXDB/FXJB/FXCB/FXFC/FRGT/FRGS/ FRGP
3T6R
1
A
FRGP.A/B
3T6R
1
A
FXDB/FXJB/FXCB/FXFC/FRGT/FRGS
3T6R
1
A
FRGU
6T6R
1
A
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
2
I
1+1+1
FHED/FRHG
4T4R
1
G
1+1+1
FRHD/FRHE
4T4R
1
G
1+1+1
FXDB/FXJB/FXCB/FXEB/FXFC/FRGT/ FRGS
3T6R
1
H
1+1+1
FHDB/FHEB/FHEF/FHEG
2T2R
1
I
1+1+1
FHEI/FHGA/FHDG
2T2R
1
I
1+1+1
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
1
I
1+1+1
FHED/FRHG
4T4R
1
I
1+1+1
FHED/FRHG
4T4R
2
M
1+1+1
FRHD/FRHE
4T4R
2
M
1+1+1
FRMB/FRLB/FRGQ/FRHB
2T2R
1
I
1+1+1
FRMA/FRHA
3T6R
2
H
1+1+1
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
3T6R
3
I
2+2+2
FXDB/FXJB/FXEB/FXCB/FXFC/FRGT/ FRGS
3T6R
1
A
FXDB/FXJB/FXCB/FXFC/FRGT/FRGS
3T6R
1
A
FXDB/FXJB/FXCB/FXEB/FXFC
3T6R
1
A
FHDB/FHEB/FHEF/FHEG
2T2R
1
A
FHDB
2T2R
1
A
FHDB
2T2R
1
A
FXDB/FXJB/FXEB/FRGT/FRGS/FXCB/ FXFC
3T6R
1
C
FXDB/FXJB/FRGT/FRGS/FXCB/FXFC
3T6R
1
C
FXDB/FXJB/FXEB/FXCB/FXFC
3T6R
1
C
FXDA/FXDJ/FXCA/FXFA/FXFB/
3T6R
1
A
FXDA/FXDJ/FXEA/FXCA/FXFA/FXFB/
3T6R
1
A
3T6R
1
A
3T6R
1
A
2T2R
1
A
FXDA/FXEA/FXDJ/FXFA/FXFB/FXCA/F XDB/FXEB/FXCB/FXFC/FRGT/FRGS/F XJB/FRGP FXDA/FXEA/FXDJ/FXFA/FXFB/FXCA/F XDB/FXEB/FXCB/FXFC/FXJB FHDB/FHEB/FHEF/FHEG
FXDA/FXEA/FXDJ/FXFA/FXFB/FXCA/F XDB/FXEB/FXCB/FXFC/FRGT/FRGS/F XJB/FRGP FXDA/FXEA/FXDJ/FXFA/FXFB/FXCA/F
3T6R
1
B+A
XDB/FXEB/FXCB/FXFC/FRGT/FRGS/F XJB/FRGP FXDA/FXEA/FXDJ/FXFA/FXFB/FXCA/F
3T6R
1
C
XDB/FXEB/FXCB/FXFC/FRGT/FRGS/F XJB/FRGP FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
3T6R
1
C
6T6R
1
A/I
FXED
6T6R
1
A
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
1
I
FXED
6T6R
1
A
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
1
I
1+1+1
FXED
6T6R
1
A/I
2+2+2
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
1
A/I
2+2+2
FXED
6T6R
1
A
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
1
I
1+1+1
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
2
I
1+1+1
FXED
6T6R
2
A/I
1+1+1
FXED
6T6R
2
A/I
1+1+1
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
2
I
1+1+1
FXED
6T6R
2
A/I
1+1+1
FXED
6T6R
2
A/I
1+1+1
FXDB/FXEB/FXJB/FXCB/FXFC/FRGT/ FRGS
3T6R
1
C/H
1+1+1
FXDB/FXEB/FXJB/FXCB/FXFC
3T6R
1
C
FXDB/FXEB/FXJB/FXCB/FXFC/FRGT/ FRGS
3T6R
1
H
FXDB/FXJB/FXEB/FRGT/FRGS/FXCB/ FXFC
3T6R
2
C
FXDB/FXJB/FXEB/FRGT/FRGS/FXCB/ FXFC
3T6R
2
C/H
1+1+1
FXDB/FXJB/FXEB/FRGT/FRGS/FXCB/ FXFC
3T6R
2
C/H
1+1+1
1+1+1
1+1+1
1+1+1
FXDB/FXJB/FXEB/FRGT/FRGS/FXCB/ FXFC
3T6R
2
C/H
1+1+1
FHDB/FHEB/FHEF/FHEG
2T2R
1
A/I
1+1+1
FHDB/FHEB/FHEF/FHEG
2T2R
1
A/I
1+1+1
FHDB/FHEB/FHEF/FHEG
2T2R
1
A/I
1+1+1
FHDB/FHEB/FHEF/FHEG
2T2R
1
A/I
1+1+1+1
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
2
A/I
1+1+1
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
1
A/I
1+1+1
FHDB/FHEB/FHEF/FHEG
2T2R
1
A/I
1+1+1
FXDB/FXJB/FXEB/FRGT/FRGS/FXCB/ FXFC
3T6R
1
C/H
1+1+1
FXDB/FXJB/FXEB/FRGT/FRGS/FXCB/ FXFC
3T6R
2
C/H
1+1+1
FXDB/FXJB/FXEB/FRGT/FRGS/FXCB/ FXFC
3T6R
2
C/H
1+1+1
FXDB/FXJB/FXCB/FXFC
3T6R
2
C/H
1+1+1
FRGT
3T6R
2
C/H
1+1+1
FRGT
3T6R
2
C/H
1+1+1
FXDB/FXJB/FXEB/FRGT/FRGS/FXCB/ FXFC
3T6R
1
C/H
1+1+1
FXDB/FXJB
3T6R
1
C/H
1+1+1
FRGT
3T6R
1
C/H
1+1+1
FRGY
2T2R
1
A/I
1+1+1
FRGY
2T2R
1
A/I
1+1+1
FRGY
2T2R
1
A/I
1+1+1
FRGY
2T2R
1
A/I
1+1+1
FRGY
2T2R
1
A/I
1+1+1
FRGY
2T2R
1
A/I
1+1+1
FRGQ
2T2R
1
A/I
1+1+1
FRGQ
2T2R
1
A/I
1+1+1
FRGQ
2T2R
1
A/I
1+1+1
FRGQ
2T2R
1
A
FRGP.A/B (both are same)
3T6R
2
C/H
1+1+1
FRGP.A/B (both are same)
3T6R
2
C/H
1+1+1
FRGP.A/B (both are same)
3T6R
2
C
FRGP.A/B (both are same)
3T6R
2
C/H
1+1+1
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
2
A/I
1+1+1
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
2
A/I
1+1+1
FRGQ
2T2R
1
A/I
1+1+1
FXDB/FXEB/FXJB/FXCB/FXFC/FRGT/ FRGS
3T6R
1
B/G
1+1+1
FXEE/FXEF
3T6R
1
AC/AD
1+1+1
FXEE/FXEF
3T6R
1
AC/AD
1+1+1
FXEE/FXEF
3T6R
1
AC/AD
1+1+1
FXEE/FXEF
3T6R
1
AC/AD
2+2+2
FXEE/FXEF
3T6R
1
AC/AD
2+2+2
FXEE/FXEF
3T6R
1
AC/AD
2+2+2
FXED/FRPA/FRPB/FRMC/FRME/FRMF /FRGU/FRHC/FRHF
6T6R
1
A/I
2+2+2
FXDB/FXEB/FXJB/FXCB/FXFC
3T6R
1
B/G+A
2+2+2
FXDB/FXEB/FXJB/FXCB/FXFC
3T6R
1
B/G+A
2+2+2
FXDB/FXEB/FXJB/FXCB/FXFC
3T6R
1
B/G+A
1+1+1
3T6R
1
C/H
1+1+1
3T6R
1
B/G
1+1+1
FXDA/FXDJ/FXEA/FXCA/FXFA/FXFB FXDA/FXDJ/FXEA/FXCA/FXFA/FXFB
LTE carrier BW, place it on LCRs 1.1, 2.1, 3.1 so that they go onto FBBC1. Note that LCRs 1.2, 1.4, 1.6 can on
LTE carrier configuration Number Tx/Rx
Ant Cfg type
WCDMA carrier configuration
LTE Bandwidth (5,10,20)
2T/2R
I
20
2T/2R
G
20
2T/2R
G
20
WCDMA cfg (cell-sector)
Tx/Rx
Ant Cfg type
4+4+4
1T/2R
A
4+4+4
1T/2R
A
2+2+2
1T/2R
A
4+4+4
1T/2R
A
4+4+4
1T/2R
A
4+4+4
1T/2R
C
2+2+2
1T/2R
A
2+2+2
1T/2R
A
3+3+3
1T/2R
A
3+3+3
1T/2R
A
2T/2R
H
20
2T/2R
I
20
2T/2R
I
20
2T/2R
I
10
2T/2R
I
20
4T/4R
M
20
4T/4R
M
20
2T/2R
I
20
2T/2R
H
20
2T/2R
I
20+10 2+2+2
1T/2R
A
2+2+2
1T/2R
A
2+2+2
1T/2R
A
2+2+2
1T/2R
A
3+3+3
1T/2R
C
3+3+3
1T/2R
C
2+2+2
1T/2R
A
1+1+1
1T/2R
A
1+1+1+1+1
1T/2R
A
2T/2R
I
10
2T/2R
I
10
2T/2R
I
5
2T/2R
I
5
2T/2R
I
5
2T/2R
I
5
2T/2R
I
20
2T/2R
I
10
2T/2R
I
20
2T/2R
I
20
2T/2R
I
10
2T/2R
I
20
2T/2R
H
10
2T/2R
H
10
2T/2R
H
20
2T/2R
H
20
4+4+4
1T/2R
B(1,3)
3+3+3
1T/2R
C
2+2+2
1T/2R
C
2T/2R
H
10
2T/2R
I
10
2T/2R
I
10
2T/2R
I
20
2T/2R
I
10
2T/2R
I
20
2T/2R
I
10
2T/2R
I
20
2T/2R
H
10
2T/2R
H
20
2T/2R
H
20
2T/2R
H
10
2+2+2
1T/2R
C
2T/2R
H
20
2+2+2
1T/2R
C
2T/2R
H
10
2+2+2
1T/2R
C
2T/2R
H
10
2T/2R
H
10
2+2+2
1T/2R
C
2T/2R
H
10
4+4+4
1T/2R
C
2T/2R
I
20
1+1+1+1+1+1
1T/1R
F
2T/2R
I
10
2+2+2+2+2+2
1T/1R
F
2T/2R
I
20
2+2+2
1T/2R
A
2T/2R
I
10
4+4+4
1T/2R
A
2T/2R
I
20
2+2+2
2T/2R
I
2T/2R
I
10
4+4+4
2T/2R
I
2T/2R
I
10
1+1+1+1+1+1
1T/1R
F
2T/2R
I
5
2+2+2+2+2+2
1T/1R
F
2T/2R
I
5
2+2+2
1T/2R
A
4+4+4
1T/2R
A
2T/2R
H
10
2+2+2
1T/2R
C
2T/2R
H
5
3+3+3
1T/2R
C
4+4+4
1T/2R
C
2T/2R
H
15 only
1+1+1
1T/2R
C
2T/2R
I
20
2+2+2
1T/2R
A
2T/2R
I
10
4+4+4
1T/2R
A
2T/2R
I
15 only
1+1+1
2T/2R
I
2T/2R
G
20
4+4+4
1T/2R
B
2T/2R
AD
20
2T/2R
AD
10
2T/2R
AD
10
2T/2R
AD
10
2T/2R
AD
5
2T/2R
AD
5+3*
2T/2R
I
5+3*
2T/2R
G
10
2T/2R
G
5
2T/2R
G
10
2T/2R
H
10
2T/2R
G
10
Rs 1.2, 1.4, 1.6 can only carry 5MHZ due to 4DSP basic deployment in FSMF (FSM1)
GSM carrier configuration GSM cfg (max. Number cell-sector) Tx/Rx
Ant Cfg type
6+6+6
1T/2R
A
4+4+4
1T/2R
A
8+8+8
1T/2R
C
8+8+8
1T/2R
A
4+4+4
1T/2R
A
8+8+8
1T/2R
A
4+4+4
1T/2R
A
6+6+6
1T/2R
A
8+8+8
1T/2R
A
6+6+6
1T/2R
A
6+6+6
1T/2R
C
6+6+6
1T/2R
A
2+2+2
1T/2R
A
2+2+2
1T/2R
A
4+4+4
1T/2R
A
6+6+6
1T/2R
A
4+4+4+4+4
1T/2R
A
6+6+6
1T/2R
A(5,6)
4+4+4
1T/2R
C
6+6+6
1T/2R
C
6+6+6
1T/2R
A
6+6+6
1T/2R
A
6+6+6
1T/2R
A
6+6+6
1T/2R
A
4+4+4
1T/2R
A
4+4+4
1T/2R
A
6+6+6
1T/2R
A
6+6+6
1T/2R
A
4+4+4
1T/2R
A
4+4+4
1T/2R
A
6+6+6
1T/2R
C
6+6+6
1T/2R
C
6+6+6
1T/2R
C
4+4+4
1T/2R
C
6+6+6
1T/2R
C
8+8+8
1T/2R
A
6+6+6
1T/2R
A
4+4+4
1T/2R
A
4+4+4+4
1T/2R
A
4+4+3
1T/2R
A
4+4+3
1T/2R
A
4+4+3
1T/2R
A
4+4+3
1T/2R
C
4+4+3
1T/2R
C
MF (FSM1)
6+6+6
1T/2R
AC
6+6+6
1T/2R
AC
6+6+6
1T/2R
AC
6+6+6
1T/2R
AC
6+6+6
1T/2R
AC
6+6+6
1T/2R
AC
6+6+6
1T/2R
A
6+6+6(ANT5,6)
1T/2R
A
3x(6 A+ 4 B)
1T/2R
B+A
3x(6 A+ 4 B)
1T/2R
B+A
4+4+4
1T/2R
C
8+8+8
1T/2R
B
SRAN Suppor
Number of RATs
SBTS SM mode
Number of SMs
SW Release
Profile ID
SRAN 16.2 1.0
LWG1_1
3
LWG
1
SRAN 16.2 1.0
LWG4_1
3
LWG
1
SRAN 16.2 1.0
LWG5_1
3
LWG
1
SRAN 16.2 1.0
LWG38_3
3
LWG
1
SRAN 16.2 1.0
LWG42_3
3
LWG
1
SRAN Supported BTS profiles SM root configuration SM1 BB root config deployment
SM2 BB root config deployment
System Module HW FSMF1 FBBx1.1FBBx1.2FSMF2 FSMF+FBBA/C+FBBA/C
LG
WCDMA WCDMA
-
FSMF+FBBC+FBBA/C
LG
LTE
WCDMA
-
FSMF+FBBC+FBBA/C
LG
LTE
WCDMA
-
FSMF+FBBC+FBBA/C
LG
LTE
WCDMA
FSMF+FBBC+FBBA/C
LG
LTE
WCDMA
-
SM2 BB root config deployment
SM/FSP interconnection Number of RF units
FBBx2.1FBBx2.2 -
-
-
-
-
-
2 -
1 1 2
-
-
1
BAND 1
Supported RF units
RF type SM OBSAI Port
FXDB/FXEB/FXJB/FXCB/FXFC/FRGT/FRGS
3T6R
1.1-1.2
FXED/FRPA/FRPB/FRMC/FRME/FRMF/FRG U/FRHC/FRHF
6T6R
1.1
FXED/FRPA/FRPB/FRMC/FRME/FRMF/FRG U/FRHC/FRHF
6T6R
1.1
FXEE/FXEF
3T6R
1.1-2
FXED/FRPA/FRPB/FRMC/FRME/FRMF/FRG U/FRHC/FRHF
6T6R
1.1
1 Antenna configuration type
RF carrier capacity ID
RF mode
Number of RF units
C/H
RF_LG2_low_BW
LG
1
A/I
RF_LG1_low_BW
LG
1
A/I
RF_LG1_low_BW
LG
1
AC/AD
RF_LG7
LG
1
A/I
RF_LG8
LG
1
BAND 2
Supported RF units
Antenna RF type SM OBSAI Port configuration type
FXDB/FXJB/FXEB/FXCB/FXFC/FRGT/ FRGS
3T6R
1.3
A
FXDB/FXJB/FXEB/FXCB/FXFC/FRGT/ FRGS
3T6R
1.2
A
FXDB/FXJB/FXEB/FXCB/FXFC/FRGT/ FRGS
3T6R
1.2
A
FXDB/FXJB/FXEB/FXCB/FXFC/FRGT/ FRGS
3T6R
1.3
A
FXDB/FXJB/FXEB/FXCB/FXFC/FRGT/ FRGS
3T6R
1.2
A
Radio Units root configur BAND RF carrier capacity ID
RF mode
Number of RF units
Supported RF units
RF_WG1
WG
1
FXDB/FXJB/FXCB/FXFC/FRGT/FRGS
RF_WG1
WG
1
FXDB/FXJB/FXCB/FXFC/FRGT/FRGS
RF_WG1
WG
1
FRGU
RF_WG1
WG
1
FXDB/FXJB/FXCB/FXFC/FRGT/FRGS/ FRGP
RF_WG1
WG
1
FXDB/FXJB/FXCB/FXFC/FRGT/FRGS/ FRGP
adio Units root configuration BAND 3 Antenna RF type SM OBSAI Portconfiguration type
RF carrier capacity ID
RF mode
3T6R
1.6
A
RF_W1
WCDMA
3T6R
1.3
A
RF_W1
WCDMA
6T6R
1.3
A
RF_W4
WCDMA
3T6R
1.6
A
RF_W7
WCDMA
3T6R
1.3
A
RF_W7
WCDMA
BAND 4 Number of RF units
Supported RF units
1
FXED/FRPA/FRPB/FRMC/FRM E/FRMF/FRGU/FRHC/FRHF
6T6R
1.FBB1.1-2
1
FXED/FRPA/FRPB/FRMC/FRM E/FRMF/FRGU/FRHC/FRHF
6T6R
1.FBB1.1-2
RF type SM OBSAI Port
ND 4 Antenna configuration type
RF carrier capacity ID
RF mode
I
RF_FL1
FDD-LTE
I
RF_FL1
FDD-LTE
Number of RF units
BAND 5
Supported RF units
Antenna RF type SM OBSAI Portconfiguration type
RF carrier capacity ID
RF mode
