BSC Implementation for
ETP/ETP-A in Initial Flexi
BSC
Release Delivery: HW Upgrade
Product Family: Radio Controllers
Product: Flexi BSC
Release: S16 onwards
Approval date: 12-Dec-2013
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Table of Contents
1
2
3
Purpose .................................................................................................................................................. 5
Scope of applications .............................................................................................................................. 6
Using the document ................................................................................................................................ 7
3.1
3.2
4
5
General info....................................................................................................................................................... 7
Upgrade macro .................................................................................................................................................. 8
3.2.1
Structure ...................................................................................................................................... 8
3.2.2
Communication ............................................................................................................................ 8
Introduction ........................................................................................................................................... 10
Pre-requirements .................................................................................................................................. 12
5.1
5.2
5.3
5.4
5.5
6
7
8
9
Pre-requirements & Actions needed prior upgrade ............................................................................................ 12
Restrictions ..................................................................................................................................................... 12
Needed documentation .................................................................................................................................... 13
Needed equipment .......................................................................................................................................... 13
HIT and upgrade macros.................................................................................................................................. 13
5.5.1
System requirements for HIT ...................................................................................................... 13
5.5.2
Installing HIT .............................................................................................................................. 13
5.5.3
Installing HIT upgrading macros.................................................................................................. 14
5.5.4
HIT settings................................................................................................................................ 14
5.5.5
Connection settings .................................................................................................................... 14
5.5.6
Starting the HIT application / macro execution............................................................................. 26
Fallback copying of the current package ................................................................................................ 32
BSC configuration printout (pre-check) .................................................................................................. 33
Licence installation and feature activation.............................................................................................. 34
ETPLAN CONFIGURATION.................................................................................................................. 35
9.1
9.2
9.3
Make SWU units to passive state ..................................................................................................................... 36
Make SWU units to SE-NH state ...................................................................................................................... 36
Cabling changes .............................................................................................................................................. 36
9.3.1
Move and reconnect following cables .......................................................................................... 36
9.3.2
Add new configurations to ESB cards manually. .......................................................................... 36
Change topology ............................................................................................................................................. 37
Configure SWU 6 and 7 to the hw database...................................................................................................... 38
Check internal LAN index with command .......................................................................................................... 38
Add SWUs to the internal LAN ......................................................................................................................... 38
Change all SWUs state to the WO-EX .............................................................................................................. 38
Activate all SWU s back to use ......................................................................................................................... 38
9.4
9.5
9.6
9.7
9.8
9.9
10
11
Create ETPSIG-I IP address to MCMU and BCSU ................................................................................ 39
Packet Abis over Ethernet(ETPE), PIU type ETP................................................................................... 40
11.1
11.2
12
Creation of ETPE unit with transmission/line protection ..................................................................................... 40
11.1.1
Install Plug-in units, terminators and cables ................................................................................. 41
11.1.2
Create HW configuration ............................................................................................................ 52
11.1.3
Check Plug-in unit software ........................................................................................................ 55
11.1.4
Diagnostic .................................................................................................................................. 57
11.1.5
Check PCU configuration ........................................................................................................... 58
Creation of ETPE unit with hardware protection ................................................................................................ 58
11.2.1
Install Plug-in units, terminators and cables ................................................................................. 58
11.2.2
Create HW Configuration............................................................................................................ 76
11.2.3
Check Plug-in unit software ........................................................................................................ 82
11.2.4
Diagnostic .................................................................................................................................. 84
11.2.5
Check PCU configuration ........................................................................................................... 84
Packet Abis over TDM (ETPT), PIU type ETP........................................................................................ 86
12.1
Creation of ETPT unit with transmission/line protection. .................................................................................... 86
12.1.1
Install Plug-in units, terminators and cables ................................................................................. 87
12.1.2
Create HW configuration .......................................................................................................... 100
12.1.3
Check Plug-in unit software ...................................................................................................... 110
12.1.4
Diagnostic ................................................................................................................................ 112
12.1.5
STMU s to WO-EX state ........................................................................................................... 112
12.1.6
Check PCU configuration ......................................................................................................... 113
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12.2
13
A over IP (ETPA), PIU type ETP-A ...................................................................................................... 157
13.1
14
Creation of ETP(A) unit .................................................................................................................................. 168
14.1.1
Check the source configuration for overlapping Plug-in units...................................................... 168
14.1.2
Deleting the interface and unit In case the upgrade is done to swap existing ETP-A with
ETP
168
14.1.3
Install Plug-in units and cables.................................................................................................. 168
14.1.4
Create HW configuration .......................................................................................................... 178
14.1.5
Check Plug-in unit software ...................................................................................................... 181
14.1.6
Diagnostic ................................................................................................................................ 183
Copy the HW equipment database information to the disk (DBC)......................................................... 185
Actions after upgrade & Post conditions .............................................................................................. 186
16.1
16.2
16.3
17
Creation of ETPA unit .................................................................................................................................... 157
13.1.1
Install Plug-in units and cables.................................................................................................. 157
13.1.2
Create HW configuration .......................................................................................................... 163
13.1.3
Check Plug-in unit software ...................................................................................................... 164
13.1.4
Diagnostic ................................................................................................................................ 167
A over IP (ETPA), PIU type ETP.......................................................................................................... 168
14.1
15
16
Creation of ETPT unit with hardware protection .............................................................................................. 113
12.2.1
Install Plug-in units, terminators and cables ............................................................................... 114
12.2.2
Create HW configuration .......................................................................................................... 139
12.2.3
Check Plug-in unit software ...................................................................................................... 153
12.2.4
Diagnostic ................................................................................................................................ 155
12.2.5
STMU s to WO-EX state ........................................................................................................... 155
12.2.6
Check PCU configuration ......................................................................................................... 156
BSS Integration ............................................................................................................................................. 186
BSC configuration printout (post-check) .......................................................................................................... 186
Return to the old HW configuration ................................................................................................................. 186
Appendix : ........................................................................................................................................... 187
17.1
17.2
17.3
17.4
17.5
Appendix 1: SW 256B Dip switch settings....................................................................................................... 187
17.1.1
SW256B jumper settings .......................................................................................................... 187
17.1.2
PCM mode settings (SW1) ....................................................................................................... 187
17.1.3
Interchangeability code settings (SW2) ..................................................................................... 188
17.1.4
Serial Broadband SB1 settings (SW3) ....................................................................................... 188
17.1.5
Serial Broadband SB2 settings (SW4) ....................................................................................... 190
17.1.6
Serial Broadband SB3 settings (SW5) ....................................................................................... 191
17.1.7
Serial Broadband SB4 settings (SW6) ....................................................................................... 191
Appendix 2: GTIC & ETC PCM usage in case of initial delivery Flexi BSC ....................................................... 192
Appendix 3: Update ESBs with latest software ................................................................................................ 198
17.3.1
Update ESB Software............................................................................................................... 198
17.3.2
Enabling or disabling the automatic loading of configuration files ............................................... 198
Appendix 4: ETP/STMU strapping settings. .................................................................................................... 199
17.4.1
ETP-A C111828 ....................................................................................................................... 199
17.4.2
ETP C111826 .......................................................................................................................... 201
17.4.3
ETS2 ....................................................................................................................................... 202
Appendix 5: ETP username & password settings ............................................................................................ 204
Contact:
Contact your local Nokia Solutions and Networks support
Summary of changes:
12-Dec-2012
12-Dec-2012
21-Dec-2012
0.1-0
1.0-0
1.1-0
Creation date
Approval date
Added PIU update for mate STMUs in chapters 12.1.5
and 12.2.5.Updated subchapter titles under chapters
11.1.1 ,11.2.1 ,12.1.1,12.2.1,13.1.1and 14.1.3.
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16-Jan-2013
01-Feb-2013
18-Feb-2013
1.2-0
1.3-0
1.4-0
27-Feb-2013
1.5-0
04-Apr-2013
1.6-0
02-Jul-2013
25-Sep-2013
21-Feb-2013
1.7-0
1.8-0
1.9-0
20-Mar-2014
07-Oct-2014
23-Oct-2014
1.10-0
1.11-0
1.12-0
Removed chapters 9.4 and 9.11 as part of CR1004
implementation.
Added CR75 details
Added connection settings for Linux in chapter 5.5.5.2
Added note regarding COM issue in HIT3.3 in chapter
5.5.5.1.2 and 5.5.5.2.2
Updated chapter 9.4 with topology details.Added note
on IuA messaging configuration for all ETP variants
Removed note regarding COM issue from chapters
5.5.5.1.2 and 5.5.5.2.2.Also updated the hit version as
3.4-0.Updated appendix 5
Updated chapter 10
Template update
Updated chapter 9.4, 11.2 and 12.2 related to pronto
81810ESPE03. Added note “Create the PEP link to
ETPGID 0 first if you want to get the ETP object ID for
the ETPGID to match in NetAct” in chapter 11.1.2,
11.2.2, 12.1.2 and 12.2.2.
Updated note in chapter 5.4
The purpose text in Appendix 5 updated.
Chapter 9.4 updated.
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1
PURPOSE
This document describes the implementation of ETP/ETP-A plug-in unit to the BSC environment. This document
does not support Combined TCSM3i part. That upgrade can be handled with “TCSM implementation for
ETP/ETP-A” procedure.
This document can be used with following environments:
FlexiBSC3000 (initial delivery)
FlexiBSC4200 (initial delivery)
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2
SCOPE OF APPLICATIONS
The BSC implementation for ETP/ETPA in Initial Flexi BSC is available for Initial Flexi BSC 3000/4200 in S16
release onwards.
The procedure cannot be executed without traffic interruption. Traffic must be moved from concerning
ETS2/ET16/ETIP plug-in unit before the actual upgrade.
Procedure must be performed locally at BSC site.
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3
USING THE DOCUMENT
3.1
General info
The BSC implementation for ETP/ETP-A can be done using the HIT (Holistic Integration Tester) software tool.
Optional way is to make the upgrade manually by following this documentation.
The SWU6 and SWU7 upgrade is done manually with the HIT macro. However procedure must be performed
locally at BSC site as there are cabling changes and IP address reallocation.
The HIT software automates most of the tasks necessary for the software or hardware upgrade. The HIT software
and the instructions are included in this manual. It is recommended that the HIT User's Manual is gone through
before starting the program.
When using the HIT for upgrading BSC, these instructions should be followed for a more detailed description of
the different phases, which take place during the upgrade. The upgrade macro menu dialog is designed to follow
closely this document.
NOTE: The commands executed by the HIT macro do not always match exactly with the commands
presented in the manual. This is because sometimes the automated tasks of the HIT macro require more
commands and different command syntaxes, than are presented in the manual.
When using the HIT, the MML commands are executed automatically. It is not necessary to type any commands
until it is specifically requested by HIT.
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3.2
Upgrade macro
3.2.1
Structure
All the SW & HW macros are gathered under one main macro (UPGMAIN.HIT), from which the wanted SW / HW
upgrade can be selected. Regardless of which macro (SW or HW upgrade) is wanted to run, the user always
starts with the same main macro.
Example of macro structure:
UPGMAIN.HIT
Select wanted upgrade:
o SOFTWARE UPGRADES
SW upgrade S15 -> S16
…
o HARDWARE UPGRADES
HW upgrade 1
HW upgrade 2
…
Under each upgrade / tool there is a upgrade specific menu which describes the steps which can be executed
individually:
SW upgrade S15 -> S16 (selected from main menu)
Select wanted step
o Make fallback
o Check Firmware
o Make pre-check
o Copy SW
o …
o
When a step is completed successfully, the user is brought back to upgrade menu and a “Done.” -sign will appear
at beginning of the name of the step. If step execution fails for some reason, macro stops and user can correct
the error manually and then continue macro execution normally.
If macro or computer freezes totally during step execution and macro needs to be restarted, user cannot re-run
the incomplete step from the menu. In this case, the user must complete that certain step manually, using this
documentation as guide. When the step has been completed manually, user can continue the macro execution
from next available step. Note, that in the upgrade menu, there will be “Man.” –sign instead of “Done.” –sign at
beginning of name of the manually executed step.
Note!
Once, user enters from main menu to upgrade menu, only way to get back to the main menu is to restart
whole macro.
3.2.2
Communication
The macro communicates with user by using the HIT Pop-up windows.
Asking the user to give information (e.g. paths, file names, etc.) & other user selections.
Error situations
Manual execution steps (i.e. when macro expects user to do some actions manually (e.g. copy some
files, install new HW /cabling etc.)
Macro completion
3.2.2.1
Log files
The upgrade macro provides different log files, from where the user can verify the executed steps in macro and
the success of the different steps & commands executed in the macro. There are three different kind of
information / log files:
Log file from HIT Response window (<BSC_C-NUMBER>.log)
o This log contains all the information of the macro execution (each MML command and the
whole output of the macro execution)
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o
User can accept the default log-file name or specify a new one. Macro gives following pop-up
window for selection:
Macro writes separate log files for following steps:
o Configuration printout (PRE)
o Firmware
o Plug-in unit software upgrade
o Safecopy
o Transfer software to BSC
o Configuration printout (PRE)
The same information can be found from both from a “main” log file and from these specified smaller log
files.
o Log file from HIT Message window (Messages.log)
The contents of the message window are saved after macro execution.
Information about errors in macro execution
o “Log print” of HIT (TimeTable.log) This is a shorter description of the execution of the macro,
and the log contains information about:
Starting an execution step in macro
Execution status (Done).
Completion of execution step in macro
If macro execution is stopped for some reason, the log files still remain in the folder the user has specified. When
macro execution is started again, the log writing is continued from the end of existing log files. All previously
written log information remains intact and nothing is overwritten.
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4
INTRODUCTION
The BSC implementation for ETP/ETP-A in Initial Flexi BSC procedure consists of the following tasks:
-
Fallback copying of the current software
-
BSC configuration printout (pre-check)
-
Licence installation and feature activation
-
BSC implementation for ETPE in case of transmission/line redundancy or HW
redundancy
-
BSC implementation for ETPT in case of transmission/line redundancy or HW
redundancy
-
BSC implementation for ETPA in case of Pool redundancy
-
MCMU diagnostic
-
Actions after upgrade and post conditions
o
BSS Integration
o
BSC configuration printout (post-check)
Fallback copying, BSC configuration printout tasks can be executed during daytime.
Actual upgrade is recommended to be executed during night-time. This procedure can be done for Initial Flexi
BSC.
In case when old configuration needs to be removed, the traffic must be moved, interface(s) removed because
the plug-in unit needs to be deleted from equipment database. After successful upgrade and interfaces has been
created back, the traffic can be moved back.
Note: The ETPLAN configuration will affect BSCs IP related connectivity and existing traffic in Gb over IP,
Sigtran, DFCA.
The estimated time for HW upgrade depends on the configuration of the BSC.
The upgrade cannot be executed with traffic and traffic needs to be re-hosted. During upgrade effected unit(s) will
be blocked and state changed to TE-EX or SE-NH.
There is a choice of several options how the GTIC and ETC cartridges has been equipped before upgrade. The
choices depend on the PIU types and configurations, like following:
use ETP (either for ETPE or ETPT) plug-in unit with line or hardware redundancy.
use ETPA Plug-in unit with Pool redundancy.
Background Picture below describes the functioning of ETP plugin units:
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BSC
Dynamic Abis
BTS
ET
TCSM2i,
TDMAter
ET
IP-BTS
E1/
T1
Packet Abis
over TDM
Sn+pair
Sn+pair
SET
ETP
ETS2
Sn+pair
Sn+pair
SET
SB
ETP-A
A over IP
TCin BSS
MUX
ETPC
GigE
ETPT
TR3s
TCSM3i
Sn+pair
GigE
MGW
ETP
STMU
Packet Abis
over Ethernet
PacketPacketswitched
sw itched
netw ork
netw ork
GSWB
ETPT
(STM-1/ OC-3)
IP-BTS
TCSM3i
or MGW
ETP
TDM
ETPE
Ater
ET
Sn+pair
ETP-A
ETPC
*) PCU2-E uses internal
LAN for ETP
connectivity.
PCU2-D
A over IP
TCin BSS
GigE
MGW
TCSM3i
PCU2-E * )
Sn+group
BCSUs
m/c plane
to ETPs
ESB24s
ETP-A
ETPA
A over IP
TCin MGW
MGW
GigE
Packet Abis and AoIP implementations are needed in BSC3i. These features require new ETP PIUs. In practise
the HW will be a couple of ETP variants (e.g. ETP and ETP-A), because of the variety of requirements concerning
interfaces and functions. Packet Abis makes possible to use a packet switched based transmission of signaling
and traffic (payload) between BTS and BSC.
This allows cellular network operators to migrate from traditional static TDM to PSN, and the low-cost transport of
IP and Ethernet, in a more efficient and cost effective way than with the already available solution adopting PWE3
CESoPSN.
The concept is anyway valid regardless of the underlying Layer 1 solution being TDM based or Ethernet based.
As a matter of fact, most of the gains provided by Packet Abis will also be capitalized in case legacy TDM
networks have still to be supported (e.g. smooth migration path); especially the bandwidth saving achieved by
only transferring packets that contain data, compared with the previous technology that required empty packets to
maintain a constant bit rate.
ETP terminates Packet Abis in the BSC
AoIP provides A-interface u-plane and c-plane connections between BSS and CN over IP. SIGTRAN signalling is
used for the c-plane. RTP payload formats for different speech codec’s and CS data/fax are used in the u-plane.
A over IP is standardized in 3GPP.
There are two architecture options:
1. The Transcoder function is located in the BSS (that is, the standard GSM architecture). The Transcoder is the
A over IP termination point.
2. The Transcoder function is located in the Core Network (that is, the 3G network architecture). The BSC is the A
over IP termination point. At the same time, the BSC hides the mobility from the Core Network
In both cases the ETP terminates the A over IP u-plane.
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5
PRE-REQUIREMENTS
5.1
Pre-requirements & Actions needed prior upgrade
The procedure can be implemented for S16 release software onwards. It is recommended to install all available
change deliveries prior to the upgrade.
Note!
1.
2.
3.
4.
5.
6.
7.
8.
L3 configuration in BSC is mandatory when ETPA,ETPE and/or ETPT are used.
SW licence and licence for L3 functionality for SWU unit is needed to be installed before actual
upgrade can be started.
T5 topology should be active in Initial Flexi delivery BSC before starting upgrade.
Following configurations should be ready before starting upgrade to minimise downtime.
1. IP Address Plan.
2. SWU configurations from SWU-0 to SWU-7. Which includes Vlan, MSTP, OSPF/Static route; VRRP
and interface configurations to equip ETPs as well as other IP based applications.
3. Site Switch configuration.
4. All required upgrade cable kits.
IMPORTANT!
Re-direct traffic from STMU/ETIP/ET16 cards in GTIC and ETC cat ridges before actual upgrade. Each ETP
unit must be handled case by case and PCM areas which are affected during upgrade may vary. In case
upgrade causes disturbances to some other unit, the traffic needs to be re-directed, interfaces removed
and unit needs to be deleted (PCM areas released to new ETP unit usage) from hardware database before
new configuration is created.
BSS Split tool offers automated process to support BSC renewal. This is extremely useful, when older BSC(s) are
modernised to BSC3i(s). This process includes the automation of labor-intensive re-hosting of BTS to new BSC(s)
including data and parameter updates to name a few. The downtime of operational BTS(s) is this way minimised
during re-homing. If re-homing speed is the key driver, more than 100 sites can be moved to the new BSC during
one night by using .XML files for data transfer between the BSC(s) assisted by CM tools (CM Plan Manager, CM
Editor and CM Analyser). Further information about BSS Split tools is available from Nokia OSS / Net Act
representatives.
5.2
Restrictions
During upgrade, the unit will be blocked, meaning that the interfaces which controlling unit is upgraded will be
affected. Macro informs user about affected PCM areas (and units handling that area) which are needed to be
deleted. After the upgrade has been finished successfully for one ETP unit the traffic can be re-directed back.
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5.3
Needed documentation
To perform the upgrade successfully, the following documentation is required:
BSC implementation for ETP/ETP-A in Initial Flexi BSC (this document).
L3 BSC IP Site Connectivity upgrade
Plug-in unit software upgrade procedure
Creating and managing BSC hardware (NED)
Cabling Instructions for Flexi BSC(NED)
Equipment list for Flexi BSC (NED)
Pre-Processor Program Information
Fallback copying instructions of DX200 BSC for S16 (NED)
Technical Support Note: ‘Minimum HW Requirements for BSC S1xx Release’
HIT User’s manual
BSC Site IP Connectivity Guidelines and BSC Site IP Configuration Examples (NED documents).
Firmware change and memory upgrade document
5.4
Needed equipment
To perform the upgrade successfully, the following HW are required:
PC with installed HIT and upgrading macros
Upgrade Set for upgrading transmission redundancy to HW redundancy for ETP plug in units in
BSC installation
Set required to implement either transmission redundancy or HW redundancy for ETP plug in units
in BSC installation for the first time
Note: ETP card is used as ETPE ( Packet Abis over ETH) and
ETPT (Packet Abis over ETH)
Needed amount of ETP/ETP-A plug in units
Note: Interchangeability E of ETS2 unit brings support for Packet Abis over TDMfunctionality.
5.5
HIT and upgrade macros
5.5.1
System requirements for HIT
HIT 3.4-0 swup is designed to operate on Windows and Linux.
The HIT installation requires approximately 20MB disk space, of which the documentation occupies approximately
5MB.
5.5.2
Installing HIT
It is necessary to go through this section only if the HIT release 3.4-0 swup has not been installed. If the software
has already been installed, proceed to the next section: Installing HIT upgrading macros.
HIT release 3.4-0 swup is delivered in SW Release Binder found from NOLS (Nokia Online Services). The
installation of the software is done by executing the SETUP.EXE -program and following the instructions of the
installation program.
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5.5.3
Installing HIT upgrading macros
After the HIT program has been installed, it is necessary to install the upgrading macros. The upgrading macros
are included in the SW Release Binder which can be found from NOLS (Nokia Online Services). Release binder
contains all the macros used in different upgrades related to the SW Release.
To install the macros into PC, specify the folder to which the macros will be installed, press Unzip and the macros
will be installed.
This zipped executable file includes the whole upgrade macro and the needed directory structure. The only user
executable file, “UPGMAIN.HIT”, is extracted to root directory of macro folder HIT settings
5.5.4
HIT settings
Before running HIT, it is recommended that the 'use of FIFO buffers' be turned off from the used communications
port. This needs to be done, because some PCs communications port handling is unreliable with this setting
active.
It is recommended that you contact your local PC support for instructions on how to turn off the use of FIFO
buffers.
If you are familiar with the settings of the PC, here's an example of how to turn the use of FIFO buffers off. In
Windows 2000, the use of FIFO buffers is turned off in the following way:
1.
Start Control Panel
2.
From Control Panel select System
3.
In the System Properties –dialog select Hardware/Device Manager
4.
In Device Manager select desired communications port (usually COM1) and double-click it
5.
In Communications Port (COMx) Properties –dialog select Port Settings
6.
In Port Settings select Advanced
7.
In Advanced Port Settings –dialog deactivate the 'Use FIFO buffers' and press OK
8.
Close all the opened dialogs by pressing OK
When opening the HIT program the first time, remember to check/create the used device (ref. Hitguide.doc). It is
recommended to use the network element name for the devices.
5.5.5
Connection settings
When opening the HIT program the first time, remember to check/create the used devices (ref. Hitguide.doc).
When the macro is started, the available devices are listed to select device to be connected.
Following connection types are supported:
Local connection (COM)
Telnet
SSH
Via Netact (SSH)
Note: in S16 level, via Netact (SSH) is only allowed.
5.5.5.1
Connection settings for Windows
5.5.5.1.1
Configuration example for creating Telnet / SSH / NetAct connection
Select Device > Set Configuration… from menu.
Following window appears
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Select New …
Give name for connection and IP address of OMU or NetAct server.
Note!
“DX_TELNET” is selected for telnet connection and “SSH” is selected for SSH connection in
“Type/Protocol:” field. Default port for telnet is 23 and for SSH is 22.
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In case of Telnet or SSH connection option, select Login,Q/A sheet and define the username and password of
BSC MML session.
Note!
In case of NetAct via SSH connection option, select Login sheet and define the username and password of
NetAct communication server and BSC MML session.
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Select Terminal sheet and define the MML log file.
If connection type is Telnet, press OK.
In SSH connection, define also settings of SSH sheet. Define security level to medium or low level.
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After defining SSH related parameters, Press OK.
5.5.5.1.2
Configuration example for creating COM connection
Select Device > Set Configuration… from menu.
Following window appears
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Note! “COM connection” is selected
Select “Login,Q/A” sheet and define the username and password of BSC MML session.
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Select Terminal sheet and define the MML log file.
Press OK.
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5.5.5.2
Connection settings for Linux
5.5.5.2.1
Configuration example for creating Telnet / SSH / NetAct connection
Select Edit> Devices > … from menu
Following window appears
Select New …
Give name for connection and IP address of OMU or Net Act server.
Note! “DX_TELNET” is selected for telnet connection and “SSH” is selected for SSH connection in
“Type/Protocol:” field. Default port for telnet is 23 and for SSH is 22.
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In case of Telnet or SSH connection option, select Login,Q/A sheet and define the username and password of
BSC MML session.
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In case of NetAct via SSH connection option, select Login sheet and define the username and password of
NetAct communication server and BSC MML session.
Select Terminal sheet and define the MML log file.
If connection type is Telnet, press OK.
In SSH connection, define also settings of SSH sheet. Define security level to medium or low level.
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After defining SSH related parameters, Press OK.
5.5.5.2.2
Configuration example for creating COM connection
Select Edit> Devices > … from menu
Following window appears
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Note! “COM connection” is selected
Select “Login,Q/A” sheet and define the username and password of BSC MML session.
Select Terminal sheet and define the MML log file.
Press OK.
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5.5.6
Starting the HIT application / macro execution
First of all, close List and Macro windows, as those are not needed. In Response window all MML commands are
printed out. It is recommended to keep Messages window as big as possible to able to follow up the macro
execution. The important information is printed out to the messages window.
Open file UPGMAIN.HIT from the location it was extracted and press Green Arrow to start the execution.
At the beginning, the main menu is shown and macro prompts user to choose which upgrade to execute. Clicking
“CANCEL” in main menu aborts the macro execution.
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The macro informs user about the chosen procedure with following pop-up window:
Select ini file from the list.
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Select target network element from the list.
Note!
If NetAct connection has been chosen, choose the correct device which contains IP address definition to
NetAct server.
User may choose the location where the macro log files should be saved.
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Also, user can define whether to use default log file name or define own.
The status of the current BSC software package is checked. Note that the current software package must be with
status BU before the actual upgrade can be started. The software status is to be checked with command:
ZWQO:RUN;
Check from the output that all the computer units which are currently in use are running on correct software
package with the status BU. If the software package status is FB or NW, find out the cause for the setting.
If the status of the package is something else than BU, macro gives following pop-up window:
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The status can be changed to BU with command:
ZWSC:STAT=NW:STAT=BU;
The active and blocked alarms (DX200 and BTS alarms) can be printed out with following commands:
ZAHO;
ZABO;
ZEOL;
ZEOE;
Alarm printings can be skipped and macro asks user about the wanted action with following pop-up:
Some environment information (status) is checked with following commands:
ZQRI;
ZIWQ:,OMU:WS=0,;
ZDCD;
ZUSI:ALL;
ZWTI:P:OMU;
ZUSI:BCSU;
ZWTI:P:GSW,0;
ZYE?
This information is gathered for BSC type analysis.
IMPORTANT!
If MML session is needed during upgrade, open another MML connection than specified for the upgrade
execution. The same MML connection usage for interrogate or modification purposes may confuse the macro
execution.
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The procedure dialog is divided in main chapters, which may also contain sub-chapters. Chapters and their subchapters correspond directly to the document. Select the chapter to run and press OK.
Note!
In order to complete upgrade successfully, the chapters and steps must be executed in ascending order.
Select a step to run and press OK.
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6
FALLBACK COPYING OF THE CURRENT PACKAGE
A fallback copying of the running software package must be made before the upgrade.
A fallback copying from the old SW can be made by running macro step ‘Fallback copying of the current
package’.
Manually, the fallback copying can be made following the document: Fallback copying in BSC. The document
can be found from NED.
Take running configurations from each SWU units seperately. Refer BSC Site IP Connectivity Guidelines for this.
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7
BSC CONFIGURATION PRINTOUT (PRE-CHECK)
The information about the BSC configurations and conditions are collected.
Precondition checking is recommended to do during the daytime before the actual upgrade will be started. The
checking can be made by using the macro (UPGMAIN.HIT) or manually following the instructions from “BSC
configuration printout”-document delivered in S1xx Release Binder.
For macro execution, choose the BSC configuration printout (pre) step in BSC implementation for ETP/ETP-A in
Initial Flexi BSC procedure. Follow then the macro execution according the BSC configuration printout –
document.
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8
LICENCE INSTALLATION AND FEATURE ACTIVATION
SW licence is needed to be installed before actual upgrade can be started.
Macro checks the licence status and if licence is not installed properly the licence needs to be installed manually
according to following instructions.
ZW7M: FEA=1533:ON; (PA over Ethernet)
ZW7M: FEA=1535:ON; (PA over TDM)
ZW7M: FEA=899:ON;( L-NWP – IUA)
ZW7M: FEA=1234:ON;(L3 functionality for ESB switch)
ZW7M: FEA=1753:CONF; (Ao IP, TC in MGW)
Note: - The feature 1753 should be put in CONF state.The feature can be turned ON once the installation of
ETPA/ETP(A) and MSS/MGW configurations are completed.
Licence state can be printed with following command:
ZW7I:FEA,FULL:FEA=1533;
ZW7I:FEA,FULL:FEA=1533;
FlexiBSC LION
12345
2010-09-13 14:50:48
FEATURE INFORMATION:
---------------------------------------------FEATURE CODE:..............1533
FEATURE NAME:..............Packet Abis over IP/Ethernet
FEATURE STATE:.............ON
COMMAND EXECUTED
If licence state is OFF, change the state to ON with following command:
ZW7I:FEA=1533:ON;
If licence is not installed, install the new licence file with the command:
ZW7L:<licence_file_name>:ON;
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9
ETPLAN CONFIGURATION
This step introduces how to install SWU-6 and SWU-7 if not installed.
Install ESB24-D cards to the LANU-0 and LANU-1 cartridges to track
for ini Flexi BSC.
Install ESB24-D cards to LANU-0 and LANU-1:
Initial flexi BSC
Cartridge
position
Unit
6
1A4-3
LANU-0
15
7
1A5-3
LANU-1
15
SWU index
Cartridge
/ Slots
Note: The traffic will be impacted during ESB configuration and cabling changes. IP plan for each SWU units
should be ready before proceeding next step. All SWU units needs to be configured when making ETPLAN
cabling changes.
Following applications will not be available during upgrade. Please plan the traffic accordingly.
1.
2.
3.
4.
5.
6.
7.
8.
9.
LDI
Sigtran
GBoverIP
BBI(DFCA)
Lb
VNP
OSI(Q3)
Telnet & FTP
Traffic will be resumed after completion of chapter 9.This activity will take approximately 6 hours to complete.
The following topology is required for BSC type.
1. Initial flexi BSC - T5 to T9 topology
Note:
Make sure that the SWUs are updated with latest software. Refer Appendix 3 for more details.
Also restore automatic configuration download settings if software upgrade is done for ESB cards manually. Do
not do “restore factory defaults” when doing new configuration to ESB cards manually. This again will disable the
already enabled L3 license on the ESBs. If you wish to start doing new configurations by doing “restore factory
defaults” first, then you need to enable the L3 license.
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9.1
Make SWU units to passive state
ZW6E:SWU,0:P;
ZW6E:SWU,1:P;
ZW6E:SWU,2:P;
ZW6E:SWU,3:P;
ZW6E:SWU,4:P;
ZW6E:SWU,5:P;
9.2
Make SWU units to SE-NH state
ZUSC:SWU,<unit index>:TE-EX;
ZUSC:SWU,<unit index>:SE-OU;
ZUSC:SWU,<unit index>:SE-NH;
9.3
Cabling changes
Mark outgoing uplink cables in top of CPRJ45-A and take those out from connectors.
Install needed cables (management, redundant etc) to new ESB24-D cards.
9.3.1
Move and reconnect following cables
Equipping
CABLE FROM
No
FU
BSCC_116
LANU 0
BSCC_146
LANU 1
BSCC_450
LANU 0
BSCC_451
LANU 1
BSCC_460
LANU 0
BSCC_461
LANU 0
9.3.2
CABLE TO
New
Position
FU
4.0B 12.1A
4.0B 13.1C
LANU 0
4.0B 13.1A
4.0B 15.2V
CHES007 LAN
LDI
5.0B 12.1A
5.0B 13.1A
LANU 1
5.0B 13.1A
5.0B 15.2T
CHES007 LAN
LDI
-
LANU 0
LAN
LDI
LANU 1
4.0F
14.ETH1
5.0F
14.ETH1
5.0F
14.ETH23
CNIX006
-
4.0F
14.ETH2
5.0F
14.ETH2
5.0F
12.ETH24
CNIX006
LAN
LDI
CLC017
LAN
Redund.
5.0F
13.ETH24
5.0F
14.ETH24
CLC017
LAN
Redund.
Old Position
4.0F
13.ETH2
5.0F
13.ETH2
4.0F
12.ETH24
4.0F
14.ETH23
LANU 1
4.0F
13.ETH24
4.0F
14.ETH24
LANU 1
Old Position New
Position
Type
Use
Note
Add new configurations to ESB cards manually.
Refer BSC Site IP Connectivity Guidelines and BSC Site IP Configuration Examples document for this.
Add following cables
Equipping
No
CABLE FROM
FU
BSCC_3480 LANU 0
Position
4.0B 12.1A
CABLE TO
FU
LANU 0
Position
4.0B 15.1A
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CHES008
Use
LAN
Note
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BSCC_3481 LANU 0
4.0B 13.1A
LANU 0
4.0B 15.2T
CHES006
LAN
LDI
BSCC_3483 LANU 1
5.0B 12.1A
LANU 1
5.0B 15.1A
CHES008
LAN
LDI
BSCC_3485 LANU 1
5.0B 13.1C
LANU 1
5.0B 15.2V
CHES006
LAN
LDI
BSCC_3486 LANU 0
4.0B 12.1E
LANU 1
5.0B 12.1E
CHES017
LAN
Redund.
BSCC_3488 LANU 0
4.0B 13.1E
LANU 1
5.0B 13.1E
CHES017
LAN
Redund.
BSCC_3489 LANU 0
4.0B 13.1G
LANU 1
5.0B 13.1G
CHES017
LAN
Redund.
BSCC_3491 LANU 0
4.0F 13.ETH LANU 0
24
4.0F 14.ETH CNIX006
2
LAN
LDI
2)
BSCC_3493 LANU 1
5.0F 13.ETH LANU 1
24
5.0F 14.ETH CNIX006
2
LAN
LDI
2)
BSCC_3496 LANU 0
4.0F 15.ETH LANU 1
1
5.0 F15.ETH CLC017
1
LAN
Redund.
2)
BSCC_3497 LANU 0
4.0F 15.ETH LANU 1
2
5.0 F15.ETH CLC017
2
LAN
Redund.
2)
BSCC_3498 LANU 0
4.0F 15.ETH LANU 1
23
5.0 F15.ETH CLC017
23
LAN
Redund.
2)
BSCC_3499 LANU 0
4.0F 15.ETH LANU 1
24
5.0 F15.ETH CLC017
24
LAN
Redund.
2)
Reconnect outgoing uplink cables back to top of CPRJ45-A.
9.4
Change topology
If the topology is not T9 in Initial Flexi BSC, change it with following command
ZW6G:T9;
There has been a recommendation that when ETPLAN is configured the O&M IP address of OMU is reconfigured
on VLAN-10 interface. Note that if host port VLAN tagging is used in OMU Ethernet interface then also the switch
side port has to be configured as tagged. O&M IP address reconfiguration on VLAN interface when configuring
ETPLAN is not recommended anymore in the BSC site IP connectivity guidelines. O&M IP address on OMU can
keep on using the physical EL0 and EL1 interfaces.
In case of O&M traffic separation:
Enable OMU separation from O&M LAN using following command
ZW6K:ENA;
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9.5
Configure SWU 6 and 7 to the hw database
ZWTU:SWU,6:1A4-3;
ZWTP:SWU,6:ESB24_D,3,15;
ZWTU:SWU,7:1A5-3;
ZWTP:SWU,7:ESB24_D,3,15;
9.6
Check internal LAN index with command
ZWYI:L;
9.7
Add SWUs to the internal LAN
ZWYC:<internal_LAN_index>:SWU,6:MCMU,<active_unit_index>;
ZWYC:<internal_LAN_index>:SWU,7:MCMU,<active_unit_index>;
9.8
Change all SWUs state to the WO-EX
ZUSC:SWU,<unit index>:SE;
ZUSC:SWU,<unit index>:TE;
ZUSC:SWU,<unit index>:WO;
9.9
Activate all SWU s back to use
ZW6E:SWU,<Unit index>:A:;
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10
CREATE ETPSIG-I IP ADDRESS TO MCMU AND BCSU
ETPE, ETPT and ETPA cards provide an untagged interface for ETP management (ETPSIG-m) and control
(ETPSIG-c) traffic.
MCMU will be DCHP server and mainitains FTP server connection.
Create ETPSIG-I in MCMUs.
ZQRA:MCMU,<index>::EL0;
ZQRA:MCMU,<index>::EL1;
ZQRA:MCMU,<index>::<Vlan name>,<Vlan id>,EL0,,::;
ZQRA:MCMU,<index>::<Vlan name>,<Vlan id>,EL1,,::;
ZQRN:MCMU,<index>::<Vlan name>,<Vlan name(back up)>:"<ip address>",<subnet mask>,L,IM;
Example,
ZQRA:MCMU,0::EL0;
ZQRA:MCMU,0::EL1;
ZQRA:MCMU,0::VLAN20,20,EL0,,::;
ZQRA:MCMU,0::VLAN21,20,EL1,,::;
ZQRN:MCMU,0::VLAN20,VLAN21:"10.0.1.11",26,L,IM;
Configure ETPSIG-M&C IP address to BCSU(s) / EL0 & EL1 interfaces
ZQRN:BCSU,<unit_index>::EL0,EL1:"<ip_address>",<net_mask_length>,L,IMC::
Configure ETPSIG-M&C IP address to BCSU(s)/VLAN interfaces
ZQRA:BCSU,<unit_index>::<VLAN Name>,<VLAN ID>,EL0,::;
ZQRA:BCSU,<unit_index>:: <VLAN Name>,<VLAN ID>,EL1,::;
ZQRN:BCSU,<unit_index>::<VLAN Name>,:"<ip_address>",<net_mask_length>,L,IMC::
Example,
ZQRA:BCSU,0::VLAN20,20,EL0,:::;
ZQRA:BCSU,0::VLAN21,20,EL1,:::;
ZQRN:BCSU,0::VLAN20,VLAN21:"10.0.1.1",26,L,IMC:;
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11
PACKET ABIS OVER ETHERNET(ETPE), PIU TYPE ETP
The following pop up will be displayed by macro for each BSC variants.
Select the required application and tracks to proceed further.
11.1
Creation of ETPE unit with transmission/line protection
Check the source configuration for overlapping PCM areas and Plug-in units.
Note!
Macro ask in this point redundancy type and Plug-in Unit location. After that macro check possible
unit/PCM overlapping.
If there is overlapping PCM areas move or remove resources from them. Macro will remove unit and Plug-in Units
automatically after needed recourses are moved or removed.
Note:- Refer Appendix 2 to check overlapping PCMs used by existing units in BSCs. Please note to shift existing
traffic from the plug in unit. Once traffic is shifted remove the units and cables and then insert ETP cards to
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required tracks. Please note to turn off jumper settings in GSW units if PCMs are not used. Refer Appendix 1 to
check jumpers settings used for existing ETP cards.
Note:-There are two options for Installing ETPE in Initial flexi BSC-Normal and Flexible.
Normal option: Configurations supported before S15 EP 2.1 releases.
Flexible option: New flexible ETP layout in Flexi BSC.The implementation of flexible
initial flexi BSC will be supported only from software S15 EP2.1.
11.1.1
option in
Install Plug-in units, terminators and cables
11.1.1.1
Terminators and setting modules
Remove PCMC8A connectors
Normal option.
Position
ID
Name
FU
Use
Note
1.0B 22.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 23.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 25.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 26.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
2.0B 22.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 23.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 25.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 26.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
ETPE
INDEX
ETPE 11-0
ETPE 11-0
ETPE 12-0
ETPE 12-0
ETPE 3-0
ETPE 3-0
Notes:
1)
ETPE 4-0
ETPE 4-0
When ETP PIU is used in this slot.
Flexible option.
Position
1.0B 19.2M
ID
C111523
Name
PCMC8A
FU
ETC 0
Use
PCM connector module
Note
1)
1.0B 20.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 22.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 23.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 25.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 26.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
2.0B 19.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 20.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 22.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 23.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 25.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 26.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
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ETPE
INDEX
ETPE 11-0
ETPE 11-0
ETPE 12-0
ETPE 12-0
ETPE 13-0
ETPE 13-0
ETPE 3-0
ETPE 3-0
ETPE 4-0
ETPE 4-0
ETPE 5-0
ETPE 5-0
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Notes:
1)
When ETP PIU is used in this slot.
Add Terminators and setting modules
Normal option.
ID
Name
FU
Use
Note
ETPE
INDEX
C108719
ADMOD00
ETC 0
For ETPE
1)
ETPE 11-0
C108719
ADMOD00
ETC 0
For ETPE
1)
ETPE 12-0
C108719
ADMOD00
ETC 1
For ETPE
1)
ETPE 13-0
C108719
ADMOD00
ETC 2
For ETPE
1)
ETPE 3-0
C108719
ADMOD00
ETC 2
For ETPE
1)
ETPE 4-0
C108719
ADMOD00
ETC 3
1)
ETPE 5-0
1.0B 18
1A
C101501
CABID1A
ETC 0
1.0B 27
3D
C101501
CABID1A
ETC 1
1.0B 18
1C
C101530
CARID11
ETC 0
1.0B 27
1A
C101530
CARID11
ETC 1
2.0B 18
1A
C101501
CABID1A
ETC 2
2.0B 27
3D
C101501
CABID1A
ETC 3
2.0B 18
1C
C101536
CARID21
ETC 2
2.0B 27
1A
C101536
CARID21
ETC 3
For ETPE
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
Position
1.0B 22
4E
1.0B 25
4E
1.0B 29
4E
2.0B 22
4E
2.0B 25
4E
2.0B 29
4E
ETPE11-0/
ETPE12-0
ETPE 13-0
ETPE 11-0/
ETPE 12-0
ETPE 13-0
ETPE 3-0/
ETPE 4-0
ETPE 5-0
ETPE 3-0 /
ETPE 4-0
ETPE 5-0
Notes:
1)
When ETP PIU is used as ETPE in this slot.
Flexible option.
Position
ID
1.0B 19
4E
1.0B 22
4E
1.0B 25
4E
2.0B 19
4E
C108719
Name
FU
Use
Note
ETC 0
For
ETPE
For
ETPE
For
ETPE
For
ETPE
1)
ADMOD00
C108719
ETC 0
ADMOD00
C108719
ETC 0
ADMOD00
C108719
ETC 2
ADMOD00
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
ETPE
Index
ETPE 11-0
1)
ETPE 12-0
1)
ETPE 13-0
1)
ETPE 3-0
42 (207)
2.0B 22
4E
2.0B 25
4E
1.0B 18
1A
C108719
ETC 2
C101501
ADMOD00
CABID1A
ETC 0
1.0B 18
1C
C101530
CARID11
ETC 0
2.0B 18
1A
C101501
CABID1A
ETC 2
2.0B 18
1C
C101536
CARID21
ETC 2
For
ETPE
For
ETPE
CABID
for ETP /
ETP-A
ADMOD00
C108719
ETC 2
CARID
for ETP /
ETP-A
CABID
for ETP /
ETP-A
CARID
for ETP /
ETP-A
1)
ETPE 4-0
1)
ETPE 5-0
ETPE11-0/
ETPE12-0/
ETPE 13-0
ETPE11-0/
ETPE12-0/
ETPE 13-0
ETPE 3-0/
ETPE 4-0/
ETPE 5-0
ETPE 3-0/
ETPE 4-0/
ETPE 5-0
Notes:
1)
11.1.1.2
When ETP PIU is used as ETPE in this slot.
Plug-in unit installation
Normal option.
Cartridge SGC1C
position
Unit
Cartridge /
Slots
1.3
ETC-0
22&23
ETPE
group
index
11-0
2.3
ETC-2
22&23
3-0
1.3
ETC-0
25&26
12-0
2.3
ETC-2
25&26
4-0
1.3
ETC-1
29&30
13-0
2.3
ETC-3
29&30
5-0
Note: Check Appendix 4 for ETP strappings.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
43 (207)
Flexible option.
Cartridge
SGC1C
position
1.3
Unit
Cartridge /
Slots
ETPE group
index
ETC-0
19&20
11-0
2.3
ETC-2
19&20
3-0
1.3
ETC-0
22&23
12-0
2.3
ETC-2
22&23
4-0
1.3
ETC-0
25&26
13-0
2.3
ETC-2
25&26
5-0
Note: Check Appendix 4 for ETP strappings.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
44 (207)
11.1.1.3
11.1.1.3.1
Cabling
Change MCMU-0, SWU-0, SWU-2, SWU-4 and SWU-6 SE-NH state
ZUSC:MCMU,0:SP; If needed
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:SE;
ZUSC:EMB,0:SP; If needed
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:SE;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
45 (207)
ZUSC:SWU,6:TE;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:SE;
11.1.1.3.1.1
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or Add following cables if needed.
Equipping
CABLE FROM
No
FU
BSCC_416
ETC 0
CABLE TO
Old
Position
New
Position
FU
1.0F
14.SB1-0
1.0F
23.SB2-0
GSW2KBA0
Old
Position
New
Position
1.0F
02.SB1-0
1.0F
8.SB4-0
Type
Use
Note
ETPE
INDEX
CSB007
Hotlink
ETPE
11-0
Add needed ETPLAN and Hotlink cables from GSW-0 and LANU-0 to required tracks
Equipping
CABLE FROM
No
FU
BSCC_3301
CABLE TO
Position
FU
LANU
0
4.0B 15.1E
ETC 0
BSCC_3302
LANU
0
4.0B 15.1G
BSCC_3303
LANU
0
BSCC_3307
Position
Note
ETPE
INDEX
ETPE
11-0
Type
Use
1.0B
22.4G
CHES025
ETPLAN
ETC 0
1.0B
25.4G
CHES025
ETPLAN
ETPE
12-0
4.0B 15.1J
ETC 1
1.0B
29.4G
CHES024
ETPLAN
ETPE
13-0
LANU
0
4.0B 15.2A
ETC 2
2.0B
22.4G
CHES021
ETPLAN
ETPE
3-0
BSCC_3308
LANU
0
4.0B 15.2C
ETC 2
2.0B
25.4G
CHES020
ETPLAN
ETPE
4-0
BSCC_3309
LANU
0
4.0B 15.2E
ETC 3
2.0B
29.4G
CHES019
ETPLAN
ETPE
5-0
BSCC_3400
ETC
2
2.0F26.SB20
GSW2KB
0
CSB016
Hotlink
1)
ETPE
4-0
BSCC_3402
ETC
3
2.0F30.SB20
GSW2KB
0
CSB015
Hotlink
1)
ETPE
5-0
BSCC_3404
ETC
2
2.0F23.SB20
GSW2KB
0
CSB013
Hotlink
1)
ETPE
3-0
BSCC_3406
ETC
0
1.0F26.SB20
GSW2KB
0
CSB009
Hotlink
1)
ETPE
12-0
BSCC_3408
ETC
1
1.0F30.SB20
GSW2KB
0
1.0F
01.SB20
1.0F
04.SB10
1.0F
05.SB10
1.0F
03.SB10
1.0F
02.SB10
CSB010
Hotlink
1)
ETPE
13-0
Notes:
1)
These cables are installed and tied with soft cable ties to the front side of the cabinet to be ready for connecting
plug in units
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
46 (207)
Check SW256B dips switching. See appendix 1
11.1.1.3.1.2
For Flexible option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Remove cables if needed.
Equipping
CABLE FROM
CABLE TO
No
FU
Position
FU
Position
Type
Use
Note
BSCC_417
GTIC 0
1.0F
14.SB2-0
GSW2KBA0
1.0F
02.SB2-0
CSB012
Hotlink
1)
BSCC_432
GTIC 1
2.0F
13.SB1-0
GSW2KBA0
1.0F
03.SB1-0
CSB011
Hotlink
2)
BSCC_433
GTIC 1
2.0F
13.SB2-0
GSW2KBA0
1.0F
03.SB2-0
CSB012
Hotlink
3)
BSCC_412
GTIC 0
1.0F
13.SB1-0
GSW2KBA0
1.0F
06.SB1-0
CSB005
Hotlink
4)
BSCC_413
GTIC 0
1.0F
13.SB2-0
GSW2KBA0
1.0F
06.SB2-0
CSB005
Hotlink
5)
Notes:
1)
2)
3)
4)
5)
These cables
These cables
These cables
These cables
These cables
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
taken in use in ETC 2 slot 19 (ETPT/E)
taken in use in ETC 0 slot 22 (ETPT/E)
taken in use in ETC 2 slot 22 (ETPT/E)
taken in use in ETC 0 slot 25 (ETPT/E)
taken in use in ETC 2 slot 25 (ETPT/E)
Move and reconnect or Add following cables if needed.
Equipping
No
CABLE FROM
old FU
Old
Position
CABLE TO
New
Position
new FU
BSCC_416
GTIC 0
old FU
ETPE
Index
Old
Position
New
Position
Type
Use
1.0F
02.SB1-0
1.0F
03.SB1-0
CSB007
Hotlink
Note
new FU
1.0F
14.SB1-0
1.0F
23.SB2-0
GSW2KB
0
1)
ETPE
12-0
ETC 0
Note:
1)
These cables shall only be moved and re-connected, if an ETP PIU is taken in use in this slot(s).
Add needed ETPLAN and Hotlink cables from GSW-0 and LANU-0 to required tracks
Equipping
CABLE FROM
Position
CABLE TO
No
FU
FU
BSCC_3300
LANU 0
4.0B
15.1C
ETC 0
BSCC_3301
LANU 0
4.0B
15.1E
BSCC_3302
LANU 0
4.0B
15.1G
Position
ETPE
Index
Type
Use
1.0B
19.4G
CHES026
ETPLAN
ETPE
11-0
ETC 0
1.0B
22.4G
CHES025
ETPLAN
ETPE
12-0
ETC 0
1.0B
25.4G
CHES025
ETPLAN
ETPE
13-0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Note
47 (207)
BSCC_3306
LANU 0
4.0B
15.1P
ETC 2
2.0B
19.4G
CHES023
ETPLAN
ETPE
3-0
BSCC_3307
LANU 0
4.0B
15.2A
ETC 2
2.0B
22.4G
CHES021
ETPLAN
ETPE
4-0
BSCC_3308
LANU 0
4.0B
15.2C
ETC 2
2.0B
25.4G
CHES020
ETPLAN
ETPE
5-0
BSCC_5040
ETC 0
1.0F
20.SB2-0
GSW2KB
0
1.0F
02.SB1-0
CSB010
Hotlink
1)
ETPE
11-0
BSCC_5046
ETC 0
1.0F
26.SB2-0
GSW2KB
0
1.0F
06.SB1-0
CSB009
Hotlink
4)
ETPE
13-0
BSCC_5042
ETC 2
2.0F
20.SB2-0
GSW2KB
0
1.0F
02.SB2-0
CSB015
Hotlink
2)
ETPE
3-0
BSCC_5044
ETC 2
2.0F
23.SB2-0
GSW2KB
0
1.0F
03.SB2-0
CSB013
Hotlink
3)
ETPE
4-0
BSCC_5048
ETC 2
2.0F
26.SB2-0
GSW2KB
0
1.0F
06.SB2-0
CSB016
Hotlink
5)
ETPE
5-0
Note:
1)
2)
3)
4)
5)
These cables
19/20.
These cables
19/20.
These cables
22/23.
These cables
25/26.
These cables
25/26.
are included in partlist but shall only be connected in case an ETPE is taken in use in ETC 0 slot
are included in partlist but shall only be connected in case an ETPE is taken in use in ETC 2 slot
are included in partlist but shall only be connected in case an ETPE is taken in use in ETC 2 slot
are included in partlist but shall only be connected in case an ETPE is taken in use in ETC 0 slot
are included in partlist but shall only be connected in case an ETPE is taken in use in ETC 2 slot
Check SW256B dip switching. See appendix 1
11.1.1.3.2
Change MCMU-0, SWU-0, SWU-2, SWU-4 and SWU-6 to WO-EX state.
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SP;
ZUSC:MCMU,0:WO;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SP;
ZUSC:EMB,0:WO;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:WO;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:WO;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:WO;
ZUSC:SWU,6:SE;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
48 (207)
ZUSC:SWU,6:TE;
ZUSC:SWU,6:WO;
11.1.1.3.3
Change MCMU-1, SWU-1, SWU-3, SWU-5 and SWU-7 SE-NH state
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:SE;
ZUSC:EMB,1:TE;
ZUSC:EMB,1:SE;
ZUSC:EMB,1:SE;
ZUSC:SWU,1:TE;
ZUSC:SWU,1:SE;
ZUSC:SWU,1:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:SE;
11.1.1.3.3.1
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or add following cable if needed.
Equipping
No
BSCC_418
CABLE FROM
CABLE TO
FU
Old
Position
New
Position
FU
Old
Position
New
Position
Type
ETC 0
1.0F
14.SB1-1
1.0F
23.SB2-1
GSW2KBA1
2.0F
02.SB1-0
2.0F
8.SB4-0
CSB011
Use
Note
Hotlink
ETPE
11-0
Add needed ETPLAN, Hotlink cables from GSW-1 and LANU-1 side to required tracks.
Equipping
No
CABLE FROM
FU
CABLE TO
Position
FU
Position
ETPE
INDEX
Type
Use
Note
BSCC_3321
LANU 1
5.0B 15.1E
ETC 0
1.0B
22.4J
CHES026
ETPLAN
ETPE
11-0
BSCC_3322
LANU 1
5.0B 15.1G
ETC 0
1.0B
25.4J
CHES026
ETPLAN
ETPE
12-0
BSCC_3323
LANU 1
5.0B 15.1J
ETC 1
1.0B
29.4J
CHES025
ETPLAN
ETPE
13-0
BSCC_3327
LANU 1
5.0B 15.2A
ETC 2
2.0B
22.4J
CHES022
ETPLAN
ETPE
3-0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
ETPE
INDEX
49 (207)
BSCC_3328
LANU 1
5.0B 15.2C
ETC 2
2.0B
25.4J
CHES021
ETPLAN
ETPE
4-0
BSCC_3329
LANU 1
5.0B 15.2E
ETC 3
2.0B
29.4J
CHES020
ETPLAN
ETPE
5-0
BSCC_3401
ETC 2
2.0F26.SB21
GSW2KB
1
2.0F
01.SB2-0
CSB011
Hotlink
1)
ETPE
4-0
BSCC_3403
ETC 3
2.0F30.SB21
GSW2KB
1
2.0F
04.SB1-0
CSB011
Hotlink
1)
ETPE
5-0
BSCC_3405
ETC 2
2.0F23.SB21
GSW2KB
1
2.0F
05.SB1-0
CSB009
Hotlink
1)
ETPE
3-0
BSCC_3407
ETC 0
1.0F26.SB21
GSW2KB
1
2.0F
03.SB1-0
CSB013
Hotlink
1)
ETPE
12-0
BSCC_3409
ETC 1
1.0F30.SB21
GSW2KB
1
2.0F
02.SB1-0
CSB014
Hotlink
1)
ETPE
13-0
Notes:
1)
These cables are installed and tied with soft cable ties to the front side of the cabinet to be ready for connecting plugin unit
Check SW256B dips switching. See appendix 1
11.1.1.3.3.2
For Flexible option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Remove following cables if needed.
Equipping
CABLE FROM
CABLE TO
No
FU
Position
FU
Position
Type
Use
Note
BSCC_419
GTIC 0
1.0F
14.SB2-1
GSW2KBA1
2.0F
02.SB2-0
CSB012
Hotlink
1)
BSCC_434
GTIC 1
2.0F
13.SB1-1
GSW2KBA1
2.0F
03.SB1-0
CSB007
Hotlink
2)
BSCC_435
GTIC 1
2.0F
13.SB2-1
GSW2KBA1
2.0F
03.SB2-0
CSB007
Hotlink
3)
BSCC_414
GTIC 0
1.0F
13.SB1-1
GSW2KBA1
2.0F
06.SB1-0
CSB011
Hotlink
4)
BSCC_415
GTIC 0
1.0F
13.SB2-1
GSW2KBA1
2.0F
06.SB2-0
CSB011
Hotlink
5)
Notes:
1)
2)
3)
4)
5)
These cables
These cables
These cables
These cables
These cables
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
taken in use in ETC 2 slot 19 (ETPT/E)
taken in use in ETC 0 slot 22 (ETPT/E)
taken in use in ETC 2 slot 22 (ETPT/E)
taken in use in ETC 0 slot 25 (ETPT/E)
taken in use in ETC 2 slot 25 (ETPT/E)
Move and reconnect or add following cable if needed.
Equipping
No
CABLE FROM
old FU
new FU
Old
Position
CABLE TO
New
Position
old FU
new FU
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Old
Position
New
Position
Type
Use
Note
50 (207)
ETPE
Index
BSCC_418
GTIC 0
ETC 0
1.0F
14.SB1-1
1.0F
23.SB2-1
GSW2KB
1
2.0F
03.SB1-0
CSB0011
Hotlink
1)
ETPE
12-0
Note:
1) These cables, shall only be moved and re-connected, if an ETP PIU is taken in use in this slot(s).
Add needed ETPLAN, Hotlink cables from GSW-1 and LANU-1 side to required tracks.
Equipping
No
CABLE FROM
FU
CABLE TO
Position
FU
Position
ETPE Index
Type
Use
Note
BSCC_3320
LANU 1
5.0B 15.1C
ETC 0
1.0B 19.4J
CHES027
ETPLAN
BSCC_3321
LANU 1
5.0B 15.1E
ETC 0
1.0B 22.4J
CHES026
ETPLAN
BSCC_3322
LANU 1
5.0B 15.1G
ETC 0
1.0B 25.4J
CHES026
ETPLAN
BSCC_3326
LANU 1
5.0B 15.1P
ETC 2
2.0B 19.4J
CHES024
ETPLAN
BSCC_3327
LANU 1
5.0B 15.2A
ETC 2
2.0B 22.4J
CHES022
ETPLAN
BSCC_3328
LANU 1
5.0B 15.2C
ETC 2
2.0B 25.4J
CHES021
ETPLAN
BSCC_5041
ETC 0
1.0F
20.SB2-1
GSW2KB
1
2.0F
02.SB1-0
CSB014
Hotlink
1)
BSCC_5047
ETC 0
1.0F
26.SB2-1
GSW2KB
1
2.0F
06.SB1-0
CSB013
Hotlink
4)
BSCC_5043
ETC 2
2.0F
20.SB2-1
GSW2KB
1
2.0F
02.SB2-0
CSB011
Hotlink
2)
BSCC_5045
ETC 2
2.0F
23.SB2-1
GSW2KB
1
2.0F
03.SB2-0
CSB009
Hotlink
3)
BSCC_5049
ETC 2
2.0F
26.SB2-1
GSW2KB
1
2.0F
06.SB2-0
CSB011
Hotlink
5)
ETPE 11-0
ETPE 12-0
ETPE 13-0
ETPE 3-0
ETPE 4-0
ETPE 5-0
ETPE 11-0
ETPE 13-0
ETPE 3-0
ETPE 4-0
ETPE 5-0
Note:
1)
2)
3)
4)
5)
These cables
19/20.
These cables
19/20.
These cables
22/23.
These cables
25/26.
These cables
25/26.
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 0 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 2 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 2 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 0 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 2 slot
Check SW256B dips switching. See appendix 1
11.1.1.3.4
Change MCMU-1 to SP-EX, SWU-1, SWU-3, SWU-5 and SWU-7 to WO-EX state.
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SP;
ZUSC:EMB,1:SE;
ZUSC;EMB,1:TE;
ZUSC:EMB,1:SP;
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ZUSC:SWU,1:SE;
ZUSC:SWU,1:TE;
ZUSC:SWU,1:WO;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:WO;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:WO;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:WO;
11.1.2
Create HW configuration
Create cartridges if not exist
GTIC-0, ETC-0 and ETC-1 cartridge:
ZWTC:SGC1C_A,1A1-3,,:AL=1A1-11-12;
GTIC-1, ETC-2 and ETC-3 cartridge:
ZWTC:SGC1C_A,1A2-3,,:AL=1A1-11-13;
Create ETPE functional unit
Normal option.
ZWTU:ETPE,11,0:1A1-3;
ZWTU:ETPE,12,0:1A1-3;
ZWTU:ETPE,13,0:1A1-3;
ZWTU:ETPE,3,0:1A2-3;
ZWTU:ETPE,4,0:1A2-3;
ZWTU:ETPE,5,0:1A2-3;
Flexible option.
ZWTU:ETPE,11,0:1A1-3;
ZWTU:ETPE,12,0:1A1-3;
ZWTU:ETPE,13,0:1A1-3;
ZWTU:ETPE,3,0:1A2-3;
ZWTU:ETPE,4,0:1A2-3;
ZWTU:ETPE,5,0:1A2-3;
Create ETPE plug-in unit
Normal option.
ZWTP:ETPE,11,0:ETP,0,22::ETPCS,8,1984&&2047,TSL,0&&31;
ZWTP:ETPE,12,0:ETP,0,25::ETPCS,8,512&&575,TSL,0&&31;
ZWTP:ETPE,13,0:ETP,0,29::ETPCS,8,256&&319,TSL,0&&31;
ZWTP:ETPE,3,0:ETP,0,22::ETPCS,8,1024&&1087,TSL,0&&31;
ZWTP:ETPE,4,0:ETP,0,25::ETPCS,8,64&&127,TSL,0&&31;
ZWTP:ETPE,5,0:ETP,0,29::ETPCS,8,768&&831,TSL,0&&31;
Flexible option.
ZWTP:ETPE,11,0:ETP,0,19::ETPCS,8,256&&319,TSL,0&&31;
ZWTP:ETPE,12,0:ETP,0,22::ETPCS,8,512&&575,TSL,0&&31;
ZWTP:ETPE,13,0:ETP,0,25::ETPCS,8,1280&&1343,TSL,0&&31;
ZWTP:ETPE,3,0:ETP,0,19::ETPCS,8,320&&383,TSL,0&&31;
ZWTP:ETPE,4,0:ETP,0,22::ETPCS,8,576&639,TSL,0&&31;
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ZWTP:ETPE,5,0:ETP,0,25::ETPCS,8,1344&&1407,TSL,0&&31;
Note:
For legacy A-interface: Hotlinks are connected from port 0&1 to GSWs. ETPCS functionality is created in plug
in unit to support legacy A interface.
For A over IP: Traffic will be routed though EEP interface created (via ETPA card).
For PS via PCU2_E cards: No separate PCMs are required. This will use PEPeth link created in ETP cards to
communicate with PCU2_E cards in BCSU.
This will support CS calls in (A over IP,A over TDM) and PS calls if PCU2_E cards are used in BSCs.
Connect functional units
ZWUC:ETPE,<pair_number>,<unit_index>:ETP,0:IF=ABIS:;
Note: This command is required only if PCMs are created in ETP plug in units
Connect hotlink ports
ZWTA:GSW,0:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPE,<unit_pair>,<unit_index>:ETP,<PI
U_ind ex>:HOTLINK,<port_index>:;
ZWTA:GSW,1:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPE,<unit_pair>,<unit_index>:ETP,<PI
U_index>:HOTLINK,<port_index>:;
Normal option.
ETPE 11-0
ZWTA:GSW,0:SW256B,7:HOTLINK,6:ETPE,11,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,7:HOTLINK,6:ETPE,11,0:ETP,0:HOTLINK,1:;
ETPE 3-0
ZWTA:GSW,0:SW256B,4:HOTLINK,0:ETPE,3,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,0:ETPE,3,0:ETP,0:HOTLINK,1:;
ETPE 12-0
ZWTA:GSW,0:SW256B,2:HOTLINK,0:ETPE,12,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,0:ETPE,12,0:ETP,0:HOTLINK,1:;
ETPE 4-0
ZWTA:GSW,0:SW256B,0:HOTLINK,2:ETPE,4,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,0:HOTLINK,2:ETPE,4,0:ETP,0:HOTLINK,1:;
ETPE 13-0
ZWTA:GSW,0:SW256B,1:HOTLINK,0:ETPE,13,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,0:ETPE,13,0:ETP,0:HOTLINK,1:;
ETPE 5-0
ZWTA:GSW,0:SW256B,3:HOTLINK,0:ETPE,5,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,3:HOTLINK,0:ETPE,5,0:ETP,0:HOTLINK,1:;
Flexible option.
ETPE 11-0
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ZWTA:GSW,0:SW256B,1:HOTLINK,0:ETPE,11,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,0:ETPE,11,0:ETP,0:HOTLINK,1:;
ETPE 3-0
ZWTA:GSW,0:SW256B,1:HOTLINK,2:ETPE,3,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,2:ETPE,3,0:ETP,0:HOTLINK,1:;
ETPE 12-0
ZWTA:GSW,0:SW256B,2:HOTLINK,0:ETPE,12,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,0:ETPE,12,0:ETP,0:HOTLINK,1:;
ETPE 4-0
ZWTA:GSW,0:SW256B,2:HOTLINK,2:ETPE,4,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,2:ETPE,4,0:ETP,0:HOTLINK,1:;
ETPE 13-0
ZWTA:GSW,0:SW256B,5:HOTLINK,0:ETPE,13,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,5:HOTLINK,0:ETPE,13,0:ETP,0:HOTLINK,1:;
ETPE 5-0
ZWTA:GSW,0:SW256B,5:HOTLINK,2:ETPE,5,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,5:HOTLINK,2:ETPE,5,0:ETP,0:HOTLINK,1:;
Configure ETPSIG-M TCP/IP stack configuration for ETPE (SE-NH).
ZQRA:ETPE, <pair_number>,<unit_index>::IL0::UP;
ZQRA:ETPE, <pair_number>,<unit_index>::IL1::UP;
ZQRA:ETPE, <pair_number>,<unit_index>::BOND0,IL0,IL1,::UP:;
Configure ETPSIG-M IP address with parameters PDM to BOND0 interface.
ZQRN:ETPE,<pair_number>,<unit_index>::BOND0:"<ip_address>",<network_mask_length>,P,IDM:;
Create ETPSIG-C IP address
ZQRN:ETPE,<pair_number>,>unit_index>::BOND0:"<IP_address>",<network_mask_length>,L,ICV::;
Create IuA messaging configuration for ETPSIG-M and ETPSIG-C
ZD2C:M:BCSU,<unit_index>::ETPE,<pair_number>,<unit_index>:::;
ZD2C:C,NOR:BCSU,<unit_index>::ETPE,<pair_umber>,<unit_index>:::;
Note!
ETPSIG-M is created only to Gateway BCSU and ETPSIG-C must be created to all BCSU’s for all ETP/ETP-A
units
Create EL0 IP address to ETPE
ZQRA:ETPE,<pair_number>,<unit_index>::EL0::UP;
ZQRN:ETPE,<pair_number>,<unit_index>::EL0,:"<ip_address>",<network_mask_length>,P,:;
Create EEP interface for traffic between ETPE and ETPA
ZQRA:ETPE,<pair_number>,<unit_index>::<EEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPE,<pair_number>,<unit_index>::<EEP_VLAN>,:"<ip_address>",<network_mask_length>,L
,VI:;
ZQRP:ETPE,<pair_number>,<unit_index>::<EEP_VLAN>:"<ip_address>":TAG,"EEP":;
Note: EEP interface creation is required only if A over IP is used.
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Note: Create the PEP link to ETPGID 0 first if you want to get the ETP object ID for the ETPGID to match in
NetAct.
Create PEP interface if PCU2-E’s are in use
ZQRA:ETPE, <pair_number>,<unit_index>::<PEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPE,
<pair_number>,<unit_index>::<PEP_VLAN>,:"<ip_address>",<network_mask_length>,L,VI:;
ZQRP:ETPE, <pair_number>,<unit_index>::<PEP_VLAN>:"<ip_address>":TAG,"PEP":;
Create IN0 interface( Internal Octeon-DSP interface)
ZQRA:ETPE,<pair number>,<unit index>:IN0::UP;
ZQRN:ETPE,<pair number>,<unit index>::IN0”<ip address>”,<NETWORK_MASK_LENGTH>,P,I::;
Create static route
ZQKC:ETPE, <pair_number>,<unit_index>:::"<Gateway ip address>":PHY:;
Change state of ETPE to TE-EX
ZUSC:ETPE,<pair_number>,<unit_index>:SE;
ZUSC:ETPE,<pair_number>,<unit_index>:TE;
11.1.3 Check Plug-in unit software
Note: The flashing does not succeed if the username and password in the ETP card does not match the BSC’s
username & password. Refer Appendix 5 to see an example how to update the username & password via ETP
service terminal.
Check the flash software of ETP cards:ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Check the CBUHAN version in BSC package.
ZDDE::"ZMXP:W0-MMDIRE/CBU*.*";
Macro will choose a valid option (option1 or option2 or option3) based on the output of above interrogation
commands.
Option 1:- When existing ETP version is same or older than the versions mentioned below and ETP
software in OMU DISK is newer than PAC versions mentioned below. If CBUHAN version is older than the
version mentioned below, then option 1 needs to be selected.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0-LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
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Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Upgrade the ETP software on the Standby flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Option 2:- When existing ETP version is newer than PAC versions mentioned below and also if CBUHAN
version is newer than the version mentioned.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card. This will verify
if flash upgrade was successful.
ZUSU:UT=<ETP type>,UI=<index>;
Upgrade the ETP software on the new STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card from the
original flash.
ZUSU:UT=<ETP type>,UI=<index>;
Option 3:- When existing ETP version is same or older than the versions mentioned below and ETP
software in OMU DISKis also same or older than PAC versions mentioned below.
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Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0-LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
After card restart, log-in to the card using following MML commands ZDDS;
ZRS:<physical address>
switch_flash ctot
After the card comes up, upgrade the ETP software on the this new flash of the ETP card using following MML
command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0- LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
To restore to the original default flash, we need to switch flash again. So as the ETP card comes up, log-in to the
card using following MML commands ZDDS
ZRS:<physical address>
Switch to other flash using below command ST command switch_flash ctot
NOTE: This command will switch flash and restart the ETP card as well. After the card comes up, open a
new MML session.
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
11.1.4
Diagnostic
Run diagnostic to the ETPE
ZUDU:ETPE,<pair number>,<unit index>;
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Note: The diagnostic part will be run on both MCMUs.
Change working state of ETPE to WO-EX
ZUSC:ETPE,<pair number>,<unit index>:WO;
11.1.5
Check PCU configuration
If Packet Abis interface is also used in PS traffic check PCU configuration. PCU2-D or PCU2-E must be created to
the PCUPAB function that it can carry Packet Abis PS data.
For PCU2_E cards PEP interface creation is required to support PEP Eth link. These creations are mentioned in
the below document.
PCU configuration can be checked with following command:
ZWTI:BCSU,<unit_index>;
Use “BSCPCU HW implementation for PS traffic” procedure if PCU configurations need to change.
ETP- PCU connection.
ZESK:ETPE,<pair number>:BCSU,<index>:PCU,<index>:;
Note :This is required for both PCU2_E and PCU2_D cards.
11.2
Creation of ETPE unit with hardware protection
Note!
Macro asks in this point Plug-in redundancy type and Unit location. After that macro check possible
unit/PCM overlapping.
If there is overlapping PCM areas move or remove resources from them. Macro will remove unit and Plugin Units automatically after needed resources are install Plug-in units, terminators and cables
Note: - Refer Appendix 2 to check overlapping PCMs used by existing units in BSCs. Please note to shift existing
traffic from the plug in unit. Once traffic is shifted remove the units and cables and then insert ETP cards to
required tracks. Please note to turn off jumper settings in GSW units if PCMs are not used. Refer Appendix 1 to
check jumpers settings used for existing ETP cards.
Note:-There are two options for Installing ETPE in Initial flexi BSC-Normal option and Flexible option.
Normal option: Configurations supported before S15 EP 2.1 releases.
Flexible option: New flexible ETP layout in Flexi BSC. The implementation of flexible option in initial flexi BSC will
be supported only from software S15 EP2.1. If flexible option is taken to use, the supported topology is T29.
Change it with following command: ZW6G:T29;
11.2.1
11.2.1.1
Install Plug-in units, terminators and cables
Terminators and setting modules
Remove PCMC8A connectors
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11.2.1.1.1
Position
1.0B
14.2M
1.0B
15.2M
1.0B
16.2M
1.0B
17.2M
1.0B
19.2M
1.0B
20.2M
1.0B
22.2M
1.0B
23.2M
1.0B
25.2M
1.0B
26.2M
2.0B
14.2M
2.0B
15.2M
2.0B
16.2M
2.0B
17.2M
2.0B
19.2M
2.0B
20.2M
2.0B
22.2M
2.0B
23.2M
2.0B
25.2M
2.0B
26.2M
Normal option
ID
C111523
Name
PCMC8A
FU
GTIC 0
Use
PCM connector module
Note
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
ETPE
INDEX
ETPE 0,0
ETPE 0,0
ETPE 1,0
ETPE 1,0
ETPE 2,0
ETPE 2,0
ETPE 3,0
ETPE 3,0
ETPE 4,0
ETPE 4,0
ETPE 0,1
ETPE 0,1
ETPE 1,1
ETPE 1,1
ETPE 2,1
ETPE 2,1
ETPE 3,1
ETPE 3,1
ETPE 4,1
ETPE 4,1
Notes:
1)
11.2.1.1.2
When ETP PIU is used in this slot.
Flexible option.
Position
1.0B
15.2M
ID
C111523
Name
PCMC8A
FU
GTIC 0
Use
PCM connector module
Note
1)
1.0B
16.2M
C111523
PCMC8A
GTIC 0
PCM connector module
1)
1.0B
19.2M
1.0B
20.2M
1.0B
22.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
ETPE INDEX
ETPE 50(Alternative
2)
ETPE 50(Alternative
2)
ETPE 0-0
ETPE 0-0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
ETPE 1-0
59 (207)
1.0B
23.2M
1.0B
25.2M
1.0B
26.2M
2.0B
15.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
2.0B
16.2M
C111523
PCMC8A
GTIC 1
PCM connector module
1)
2.0B
19.2M
2.0B
20.2M
2.0B
22.2M
2.0B
23.2M
2.0B
25.2M
2.0B
26.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
ETPE 1-0
ETPE 2-0
ETPE 2-0
ETPE 51(Alternative
2)
ETPE 51(Alternative
2)
ETPE 0-1
ETPE 0-1
ETPE 1-1
ETPE 1-1
ETPE 2-1
ETPE 2-1
Notes:
1)
11.2.1.2
11.2.1.2.1
When ETP PIU is used in this slot.
Add Terminators and setting modules
Normal option
Position
ID
1.0B 14
4E
1.0B 16
4E
1.0B 19
4E
1.0B 22
4E
1.0B 25
4E
1.0B 29
4E
2.0B 14
4E
2.0B 16
4E
2.0B 19
4E
2.0B 22
4E
2.0B 25
4E
2.0B 29
4E
1.0B 9
1A
C108719
Name
FU
Use
Note
GTIC 0
For ETPE
1)
GTIC 0
For ETPE
1)
ETC 0
For ETPE
1)
ETC 0
For ETPE
1)
ETC 0
For ETPE
1)
ETC 1
For ETPE
1)
GTIC 1
For ETPE
1)
GTIC 1
For ETPE
1)
ETC 2
For ETPE
1)
ETC 2
For ETPE
1)
ETC 2
For ETPE
1)
ETC 3
For ETPE
1)
GTIC 0
CABID for
ETP /
ETP-A
ADMOD00
C108719
ETPE 0-0
ADMOD00
C108719
ETPE 1-0
ADMOD00
C108719
ETPE 2-0
ADMOD00
C108719
ETPE 3-1
ADMOD00
C108719
ETPE 4-1
ADMOD00
C108719
ETPE 5-1
ADMOD00
C108719
ETPE 0-1
ADMOD00
C108719
ETPE 1-1
ADMOD00
C108719
ETPE 2-1
ADMOD00
C108719
ETPE 3-0
ADMOD00
C108719
C101501
ADMOD00
CABID1A
ETPE
index
ETPE 4-0
ETPE 5-0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
ETPE 0-0/
ETPE 1-0
60 (207)
1.0B 18
1A
C101501
1.0B 27
3D
C101501
CABID1A
ETC 1
1.0B 9
1C
C101530
CARID11
GTIC 0
1.0B 18
1C
C101530
1.0B 27
1A
C101530
CARID11
ETC 1
2.0B 9
1A
C101501
CABID1A
GTIC 1
2.0B 18
1A
C101501
2.0B 27
3D
C101501
CABID1A
ETC 3
2.0B 9
1C
C101536
CARID21
GTIC 1
2.0B 18
1C
C101536
CARID21
ETC 2
2.0B 27
1A
C101536
CARID21
ETC 3
Notes:
2)
11.2.1.2.2
CABID1A
CARID11
CABID1A
ETC 0
ETC 0
ETC 2
CABID for
ETP /
ETP-A
ETPE 2-0/
ETPE 3-1/
ETPE 4-1
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
ETPE 5-1
ETPE 0-0/
ETPE 1-0
ETPE 2-0/
ETPE 3-1/
ETPE 4-1
CARID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
ETPE 5-1
ETPE 0-1/
ETPE 1-1
ETPE 2-1/
ETPE 3-0/
ETPE 4-0
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
ETPE 5-0
ETPE 0-1/
ETPE 1-1
ETPE 2-1/
ETPE 3-0/
ETPE 4-0
CARID for
ETP /
ETP-A
ETPE 5-0
When ETP PIU is used as ETPE in this slot.
Flexible option.
Position
ID
1.0B 19
4E
1.0B 22
4E
1.0B 25
4E
1.0B 28
4E
1.0B 30
4E
2.0B 19
4E
2.0B 22
4E
2.0B 25
4E
2.0B 28
4E
C108719
Name
FU
Use
Note
ETPE Index
ETC 0
For ETPE
1)
ETPE 0-0
ETC 0
For ETPE
1)
ETPE 1-0
ETC 0
For ETPE
1)
ETPE 2-0
ETC 1
For ETPE
1)
ETPE 3-0
ETC 1
For ETPE
1)
ETPE 4-0
ETC 2
For ETPE
1)
ETPE 0-1
ETC 2
For ETPE
1)
ETPE 1-1
ETC 2
For ETPE
1)
ETPE 2-1
ETC 3
For ETPE
1)
ETPE 3-1
ADMOD00
C108719
ADMOD00
C108719
ADMOD00
C108719
ADMOD00
C108719
ADMOD00
C108719
ADMOD00
C108719
ADMOD00
C108719
ADMOD00
C108719
ADMOD00
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
61 (207)
2.0B 30
C108719
ETC 3
For ETPE
1)
ETPE 4-1
4E
ADMOD00
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
1.0B 33
4E
2.0B 33
4E
C108719
ETC 1
For ETPE
1)
ETPE 5-0
ETC 3
For ETPE
1)
ETPE 5-1
ADMOD00
C108719
ADMOD00
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
1.0B 15
C108719
GTIC 0
For ETPE
1)
4E
ADMOD00
1.0B 15
C108719
GTIC 1
For ETPE
1)
4E
ADMOD00
ETPE 5-0
ETPE 5-1
1.0B 9
1A
C101501
CABID1A
GTIC 0
CABID for
ETP /
ETP-A
ETPE 5-0
(Alternative
2)
1.0B 18
1A
C101501
CABID1A
ETC 0
1.0B 27
3D
C101501
CABID1A
ETC 1
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
1.0B 9
1C
C101530
CARID11
GTIC 0
1.0B 18
1C
C101530
CARID11
ETC 0
1.0B 27
1A
C101530
CARID11
ETC 1
2.0B 9
1A
C101501
CABID1A
GTIC 1
2.0B 18
1A
C101501
CABID1A
ETC 2
2.0B 27
3D
C101501
CABID1A
ETC 3
2.0B 9
1C
C101536
CARID21
GTIC 1
2.0B 18
1C
C101536
CARID21
ETC 2
2.0B 27
1A
C101536
CARID21
ETC 3
ETPE 0-0/
ETPE 1-0/
ETPE 2-0
ETPE 3-0/
ETPE 4-0/
ETPE 5-0(
Alternative 1)
ETPE 5-0
(Alternative
2)
ETPE 0-0/
ETPE 1-0/
ETPE 2-0
ETPE 3-0/
ETPE 4-0/
ETPE 5-0 (
Alternative 1)
ETPE 51(Alternative
2)
ETPE 0-1/
ETPE 1-1/
ETPE 2-1
ETPE 3-1/
ETPE 4-1/
ETPE 5-1(
Alternative 1)
ETPE 51(Alternative
2)
ETPE 0-1/
ETPE 1-1/
ETPE 2-1
ETPE 3-1/
ETPE 4-1/
ETPE 5-1(
Alternative 1)
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
Notes:
1)
11.2.1.3
11.2.1.3.1
When ETP PIU is used as ETPE in this slot.
Plug-in unit installation
Normal option.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
62 (207)
Cartridge SGC1C
position
Unit
Cartridge / Slots
ETPE group index
1.3
2.3
1.3
GTIC-0
GTIC-1
GTIC-0
14&15
14&15
16&17
0-0
0-1
1-0
2.3
1.3
GTIC-1
ETC-0
16&17
19&20
1-1
2-0
2.3
ETC-2
19&20
2-1
2.3
1.3
2.3
ETC-2
ETC-0
ETC-2
22&23
22&23
25&26
3-0
3-1
4-0
1.3
2.3
1.3
ETC-0
ETC-3
ETC-1
25&26
29&30
29&30
4-1
5-0
5-1
Note: Check Appendix 4 for ETP strappings.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
63 (207)
11.2.1.3.2
Cartridge
SGC1C
position
Flexible option.
Cartridge / Slots
ETPE group index
1.3
ETC-0/19
0-0
2.3
ETC-2/19
0-1
1.3
ETC-0/22
1-0'
2.3
ETC-2/22
1-1'
1.3
ETC-0/25
2-0'
2.3
ETC-2/25
2-1'
1.3
ETC-1/28
3-0'
2.3
ETC-3/28
3-1'
1.3
ETC-1/30
4-0'
2.3
ETC-3/30
4-1'
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33
1.3
ETC-1/33
5-0'
2.3
ETC-3/33
5-1'
Alternative 2 : 6th ETPT/E equipped in GTIC 0 /1 slot 15
1.3
GTIC-0/15
5-0'
2.3
GTIC-1/15
5-1'
Note: Check Appendix 4 for ETP strappings.
.
11.2.1.4
11.2.1.4.1
Cabling
Change MCMU,0,SWU-0,SWU-2,SWU-4,SWU-6 SE-NH state.
ZUSC:MCMU,0:SP; If needed
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:SE;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
64 (207)
ZUSC:EMB,0:SP; If needed
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:SE;
ZUSC:SWU,6:TE;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:SE;
11.2.1.4.1.1
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Remove following cables if needed.
Remove following cables if ETP Plug-in unit is taken use in GTIC slot 14 or 16.
Equipping
CABLE FROM
CABLE TO
No
FU
Position
FU
BSCC_479
GTIC 0
1.0B 14.4G
GTIC 1
BSCC_483
GTIC 0
1.0B 16.4G
GTIC 1
Position
2.0B
14.4G
2.0B
16.4G
Type
Use
Note
CHES017
2N
1)
CHES017
2N
2)
Notes:
1)
2)
This cable has to be removed if ETP PIU in slot 14 of GTIC x is taken in use.
This cable has to be removed if ETP PIU in slot 16 of GTIC x is taken in use
Move and reconnect or add following cables if needed.
Equipping
No
Cable from
Cable to
Old
FU/
Old
Position/
Old FU/
Old
Position/
New
FU
New
Position
New FU
New
Position
Type
Use
Note
ETPE
index
CSB007
Hotlink
1)
ETPE
0-0
CSB009
Hotlink
1.0F
08.SB4-0
1.0F
23.SB2-0
BSCC_416
ETC 0
1.0F
15.SB2-0
GSW2KBA0
BSCC_3406
ETC 0
1.0F
26.SB2-0
GSW2KBA0
1.0F
03.SB1-0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
ETPE
1-0
65 (207)
1.0F
17.SB2-0
1.0F
02.SB1-0
1.0F
30.SB2-0
BSCC_3408
ETC 0
1.0F
20.SB2-0
2)
GSW2KBA0
-
CSB010
Hotlink
ETPE
2-0
3)
Notes:
1)
2)
3)
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair GTIC 0 & 1 slot 14/15
is taken in use.
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair GTIC 0 & 1 slot 16/17
is taken in use.
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 19/20 is
taken in use.
Add needed ETPLAN and Hotlink cables from GSW-0 and LANU-0 to required tracks
Equipping
CABLE FROM
No
FU
BSCC_3300
CABLE TO
Position
FU
LANU
0
4.0B 15.1C
ETC 0
BSCC_3301
LANU
0
4.0B 15.1E
BSCC_3302
LANU
0
BSCC_3303
Position
Use
1.0B
19.4G
CHES026
ETPLAN
ETPE
2-0
ETC 0
1.0B
22.4G
CHES025
ETPLAN
ETPE
3-1
4.0B 15.1G
ETC 0
1.0B
25.4G
CHES025
ETPLAN
ETPE
4-1
LANU
0
4.0B 15.1J
ETC 1
1.0B
29.4G
CHES024
ETPLAN
ETPE
5-1
BSCC_3306
LANU
0
4.0B 15.1P
ETC 2
2.0B
19.4G
CHES023
ETPLAN
ETPE
2-1
BSCC_3307
LANU
0
4.0B 15.2A
ETC 2
2.0B
22.4G
CHES021
ETPLAN
ETPE
3-0
BSCC_3308
LANU
0
4.0B 15.2C
ETC 2
2.0B
25.4G
CHES020
ETPLAN
ETPE
4-0
BSCC_3309
LANU
0
4.0B 15.2E
ETC 3
2.0B
29.4G
CHES019
ETPLAN
ETPE
5-0
BSCC_3312
LANU
0
4.0B 15.2L
GTIC 0
1.0B
14.4G
CHES026
ETPLAN
1)
ETPE
0-0
BSCC_3313
LANU
0
4.0B 15.2N
GTIC 0
1.0B
16.4G
CHES025
ETPLAN
1)
ETPE
1-0
BSCC_3314
LANU
0
4.0B 15.2P
GTIC 1
2.0B
14.4G
CHES022
ETPLAN
1)
ETPE
0-1
BSCC_3315
LANU
0
4.0B 15.2R
GTIC 1
CHES021
ETPLAN
1)
ETPE
1-1
BSCC_3430
GTIC
1
2.0F
15.SB2-0
GSW2KBA0
CSB018
Hotlink
2), 3)
ETPE
0-1
BSCC_3432
GTIC
1
2.0F
17.SB2-0
GSW2KBA0
CSB018
Hotlink
2), 4)
ETPE
1-1
2.0B
16.4G
1.0F
08.SB41
1.0F
03.SB11
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Note
ETPE
index
Type
66 (207)
BSCC_3434
ETC
2
2.0F
20.SB2-0
GSW2KBA0
BSCC_3438
ETC
0
1.0F
26.SB2-0
GSW2KBA0
BSCC_3400
ETC
2
2.0F26.SB20
GSW2KBA0
BSCC_3402
ETC
3
2.0F30.SB20
GSW2KBA0
BSCC_3404
ETC
2
2.0F23.SB20
GSW2KBA0
BSCC_3440
ETC
0
1.0F
23.SB2-0
GSW2KBA0
BSCC_3442
ETC
1
1.0F
30.SB2-0
GSW2KBA0
1.0F
02.SB11
1.0F
01.SB21
1.0F
01.SB20
1.0F
04.SB10
1.0F
05.SB10
1.0F
05.SB11
1.0F
04.SB11
CSB018
Hotlink
Default,
5)
ETPE
2-1
CSB013
Hotlink
2), 6)
ETPE
4-1
CSB016
Hotlink
10)
ETPE
4-0
CSB015
Hotlink
10)
ETPE
5-0
CSB013
Hotlink
10)
ETPE
3-0
CSB013
Hotlink
7), 9)
ETPE
3-1
CSB013
Hotlink
7), 8)
ETPE
5-1
Notes:
1) These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s).
2) These cables are not included in part list.
3) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0 & 1 slot 14/15
is taken in use.
4) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0 & 1 slot 16/17
is taken in use.
5) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 19/20 is
taken in use.
6) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 25/26 is
taken in use.
7) These cables are not included in part list.
8) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 1 & 3 slot 29/30 is
taken in use.
9) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 22/23 is
taken in us
10) These cables are installed and tied with soft cable ties to the front side of the cabinet to be ready for connecting
plug-in units
Check SW256B dip switching. See appendix 1
11.2.1.4.1.2
For Flexible Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or add following cables if needed.
Equipping
Cable from
Cable to
No
Old
FU/
Old
Position/
Old FU/
Old
Position/
New
FU
New
Position
New FU
New
Position
Type
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Use
Note
ETPE
Index
67 (207)
BSCC_416
CSB007
Hotlink
4)
ETPE
1-0
CSB009
Hotlink
3)
ETPE
2-0
CSB013
Hotlink
2)
ETPE
3-1
CSB015
Hotlink
1)
ETPE
4-1
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
BSCC_5048 ETC
2.0F
GSW2KB
1.0F
CSB016
Hotlink
2
26.SB2-0 0
06.SB2-0
5)
ETPE
5-1
5)
ETPE
5-1
BSCC_5046
BSCC_5044
BSCC_5042
ETC
0
1.0F
23.SB2-0
ETC
0
1.0F
26.SB2-0
ETC
2
2.0F
23.SB2-0
ETC
3
2.0F
29.SB2-0
ETC
2
2.0F
20.SB2-0
ETC
3
2.0F 31.
SB2-0
GSW2KB
0
1.0F
03.SB1-0
GSW2KB
0
1.0F
02.SB20
1.0F
06.SB1-0
GSW2KB
0
1.0F
03.SB10
1.0F
03.SB2-0
GSW2KB
0
1.0F
03.SB21
1.0F
02.SB2-0
2.0F
34.SB2-0
ETC
3
1.0F
05.SB11
1. 0F
05.SB21
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
BSCC_5048 ETC
2.0F
GSW2KB
1.0F
CSB016
2
26.SB2-0 0
06.SB2-0
2.0F
16.SB2-0
GTIC
1
Hotlink
1. 0F
05.SB21
Notes:
1)These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 30/31 is takenin
use.
2) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 28/29 is taken in
use.
3) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 25/26 is taken in
use.
4) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 22/23 is taken in
use.
5) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 33/34 or
alternatively GTIC 0/1 slot 15/16 is taken in use.
Add needed ETPLAN and Hotlink cables from GSW-0 and LANU-0 to required tracks
Equipping
No
CABLE FROM
FU
CABLE TO
Position
FU
Position
Type
Use
Note
ETPE
Index
BSCC_3300
LANU 0
4.0B 15.1C
ETC 0
1.0B 19.4G
CHES026
ETPLAN
ETPE 00
BSCC_3301
LANU 0
4.0B 15.1E
ETC 0
1.0B 22.4G
CHES025
ETPLAN
ETPE 10
BSCC_3302
LANU 0
4.0B 15.1G
ETC 0
1.0B 25.4G
CHES025
ETPLAN
ETPE 20
BSCC_5020
LANU 0
4.0B 15.1J
ETC 1
1.0B 28.4G
CHES024
ETPLAN
ETPE 30
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
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APPROVED 1.12
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BSCC_5021
LANU 0
4.0B 15.2L
ETC 1
1.0B 30.4G
CHES026
ETPLAN
ETPE 40
BSCC_3306
LANU 0
4.0B 15.1P
ETC 2
2.0B 19.4G
CHES023
ETPLAN
ETPE 01
BSCC_3307
LANU 0
4.0B 15.2A
ETC 2
2.0B 22.4G
CHES021
ETPLAN
ETPE 11
BSCC_3308
LANU 0
4.0B 15.2C
ETC 2
2.0B 25.4G
CHES020
ETPLAN
ETPE 21
BSCC_5023
LANU 0
4.0B 15.2E
ETC 3
2.0B 28.4G
CHES019
ETPLAN
ETPE 31
BSCC_5024
LANU 0
4.0B 15.2P
ETC 3
2.0B 30.4G
CHES022
ETPLAN
ETPE 41
BSCC_5080
ETC 2
ETC 0
GSW2KB
0
GSW2KB
0
1.0F
02.SB1-1
1.0F
02.SB1-0
CSB018
BSCC_5040
2.0F
20.SB2-0
1.0F
20.SB2-0
BSCC_5082
ETC 2
CSB018
5)
BSCC_5086
ETC 1
CSB013
6)
BSCC_5088
ETC 1
1.0F
02.SB2-1
1.0F
03.SB1-1
1.0F
03.SB2-0
1.0F
05.SB1-0
4)
ETC 2
GSW2KB
0
GSW2KB
0
GSW2KB
0
GSW2KB
0
CSB018
BSCC_5084
2.0F
23.SB2-0
2.0F
26.SB2-0
1.0F
29.SB2-0
1.0F
31.SB2-0
CSB013
7)
CSB010
3)
Hotlink
2)
ETPE 01
ETPE 00
ETPE
1
ETPE
1
ETPE
0
ETPE
0
1234-
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
BSCC_5022 LANU 0
4.0B 15.1L
ETC 1
1.0B 33.4G
CHES024
ETPLAN
ETPE 50
BSCC_5025
LANU 0
4.0B 15.2G
ETC 3
2.0B 33.4G
CHES019
ETPLAN
ETPE 51
BSCC_5090
ETC 1
1.0F
34.SB2-0
GSW2KB
0
1.0F
05.SB2-0
CSB013
Hotlink
8)
ETPE 50
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
BSCC_5026 LANU 0
4.0B 15.2N
GTIC 0
1.0B 15.4G
CHES025
ETPLAN
1)
ETPE 50
BSCC_5027
LANU 0
4.0B 15.2R
GTIC 1
2.0B 15.4G
CHES021
ETPLAN
1)
ETPE 51
BSCC_5090
GTIC 0
1.0F
16.SB2-0
GSW2KB
0
1.0F
05.SB2-0
CSB013
Hotlink
9)
ETPE 50
Notes:
1)
2)
3)
4)
5)
6)
7)
8)
9)
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s).
These cables are included in part list but shall only be connected in case an ETPT/E is taken in use in ETC 0 slot
19/20.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 19/20 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 22/23 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 25/26 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 1/3 slot 28/29 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 30/31 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 33/34 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0/1 slot 15/16 is taken
in use in alternative to ETC 1/3 slot 33/34
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
69 (207)
Check SW256B dip switching. See appendix 1
11.2.1.4.2
Change MCMU-0, SWU-0, SWU-2, SWU-4 and SWU-6 to WO-EX state.
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SP;
ZUSC:MCMU,0:WO;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SP;
ZUSC:EMB,0:WO;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:WO;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:WO;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:WO;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:TE;
ZUSC:SWU,6:WO;
11.2.1.4.3
Change MCMU-1, SWU-1, SWU-3, SWU-5 and SWU-7 SE-NH state
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:SE;
ZUSC:EMB,1:TE;
ZUSC:EMB,1:SE;
ZUSC:EMB,1:SE;
ZUSC:SWU,1:TE;
ZUSC:SWU,1:SE;
ZUSC:SWU,1:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:SE;
11.2.1.4.3.1
For Normal Option
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
70 (207)
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or add following cables if needed.
Equipping
Cable from
Cable to
No
Old
FU/
Old
Position/
Old FU/
Old
Position/
New
FU
New
Position
New FU
New
Position
ETC 0
1.0F
23.SB2-1
GSW2KBA1
2.0F
08.SB4-0
BSCC_418
1.0F
15.SB2-1
BSCC_3407
ETC 0
1.0F
26.SB2-1
ETC 0
1.0F
30.SB2-1
Use
Note
CSB011
Hotlink
GSW2KBA1
1.0F
17.SB2-1
BSCC_3409
Type
2.0F
03.SB1-0
2.0F
02.SB1-0
CSB013
Hotlink
ETPE
1-0
2)
CSB014
Hotlink
-
1.0F
20.SB2-1
ETPE
0-0
1)
GSW2KBA1
ETPE
Index
ETPE
2-0
3)
Notes:
1) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair GTIC 0 & 1 slot 14/15 is taken in
use.
2) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair GTIC 0 & 1 slot 16/17 is taken in
use.
3) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 19/20 is taken in
use.
Add needed 2N, ETPLAN, Hotlink cables from GSW-1 and LANU-1 side to required tracks.
Equipping
No
CABLE FROM
CABLE TO
FU
Position
FU
BSCC_3320
LANU
1
5.0B 15.1C
ETC 0
BSCC_3321
LANU
1
5.0B 15.1E
BSCC_3322
LANU
1
BSCC_3323
Position
ETPE
Index
Type
Use
1.0B
19.4J
CHES027
ETPLAN
ETPE 2-0
ETC 0
1.0B
22.4J
CHES026
ETPLAN
ETPE 3-1
5.0B 15.1G
ETC 0
1.0B
25.4J
CHES026
ETPLAN
ETPE 4-1
LANU
1
5.0B 15.1J
ETC 1
1.0B
29.4J
CHES025
ETPLAN
ETPE 5-1
BSCC_3326
LANU
1
5.0B 15.1P
ETC 2
2.0B
19.4J
CHES024
ETPLAN
ETPE 2-1
BSCC_3327
LANU
1
5.0B 15.2A
ETC 2
2.0B
22.4J
CHES022
ETPLAN
ETPE 3-0
BSCC_3328
LANU
1
5.0B 15.2C
ETC 2
2.0B
25.4J
CHES021
ETPLAN
ETPE 4-0
BSCC_3329
LANU
1
5.0B 15.2E
ETC 3
2.0B
29.4J
CHES020
ETPLAN
ETPE 5-0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Note
71 (207)
BSCC_3332
LANU
1
5.0B 15.2L
GTIC 0
1.0B
14.4J
CHES027
ETPLAN
ETPE 0-0
BSCC_3333
LANU
1
5.0B 15.2N
GTIC 0
1.0B
16.4J
CHES026
ETPLAN
ETPE 1-0
BSCC_3334
LANU
1
5.0B 15.2P
GTIC 1
2.0B
14.4J
CHES023
ETPLAN
ETPE 0-1
BSCC_3335
LANU
1
5.0B 15.2R
GTIC 1
2.0B
16.4J
CHES022
ETPLAN
ETPE 1-1
BSCC_3431
GTIC 1
2.0F
15.SB2-1
GSW2KBA1
CSB013
Hotlink
1), 2)
ETPE 0-1
BSCC_3433
GTIC 1
2.0F
17.SB2-1
GSW2KBA1
CSB013
Hotlink
1), 3)
ETPE 1-1
BSCC_3435
ETC 2
2.0F
20.SB2-1
GSW2KBA1
CSB013
Hotlink
Default,
4)
ETPE 2-1
BSCC_3439
ETC 0
1.0F
26.SB2-1
GSW2KBA1
CSB018
Hotlink
1), 6)
ETPE 4-1
BSCC_3441
ETC 0
1.0F
23.SB2-1
GSW2KBA1
CSB018
Hotlink
1), 5)
ETPE 3-1
BSCC_3443
ETC 1
1.0F
30.SB2-1
GSW2KBA1
CSB018
Hotlink
1), 7)
ETPE 5-1
BSCC_3401
ETC 2
2.0F26.SB21
GSW2KB
1
CSB011
Hotlink
8)
ETPE 4-0
BSCC_3403
ETC 3
2.0F30.SB21
GSW2KB
1
CSB011
Hotlink
8)
ETPE 5-0
BSCC_3405
ETC 2
2.0F23.SB21
GSW2KB
1
CSB009
Hotlink
8)
ETPE 3-0
BSCC_3350
ETC 0
1.0B 20.4A
ETC 2
2.0F
08.SB41
2.0F
03.SB11
2.0F
02.SB11
2.0F
01.SB21
2.0F
05.SB11
2.0F
04.SB11
2.0F
01.SB20
2.0F
04.SB10
2.0F
05.SB10
2.0B
20.4A
CHFX016
2N
9)
ETPE 2-0/
ETPE 2-1
BSCC_3351
ETC 0
1.0B 23.4A
ETC 2
2.0B
23.4A
CHFX015
2N
9)
ETPE 3-1/
ETPE 3-0
BSCC_3352
ETC 0
1.0B 26.4A
ETC 2
2.0B
26.4A
CHFX014
2N
9)
ETPE 4-1/
ETPE 4-0
BSCC_3353
ETC 1
1.0B 30.4A
ETC 3
2.0B
30.4A
CHFX013
2N
9)
ETPE 5-1/
ETPE 5-0
BSCC_480
GTIC 0
1.0B 15.4A
GTIC 1
2.0B
15.4A
CHFX017
2N
10)
ETPE 0-0/
ETPE 0-1
BSCC_484
GTIC0
1.0B 17.4A
GTIC 1
2.0B
17.4A
CHFX017
2N
10)
ETPE 1-0/
ETPE 1-1
Notes:
1) These cables are not included in part list.
2) These cables have been delivered with Cabinet Type, BSCC-F03 (C112176). Slot by slot i.e. redundancy pair by redundancy
pair the GTIC 1, ETC 2 or ETC 3 ends of these cables (redundancy pair specific 1 pcs CHFX) have to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPE or ETPT.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
72 (207)
3) These cables have been delivered with Cabinet Type, BSCC-F. Slot by slot i.e. redundancy pair by redundancy pair the GTIC
1, ends of these cables (redundancy pair specific 1 pcs CHFX and 1 pcs CHES for mate ETS2s) are to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPT.
4) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0 & 1 slot 14/15 is taken in
use.
5) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0 & 1 slot 16/17 is taken in
use.
6) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 19/20 is taken in
use.
7) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 22/23 is taken in
use.
8) These cables are installed and tied with soft cable ties to the front side of the cabinet to be ready for connecting plug-in units
9) These cables have been delivered with Cabinet Type, BSCC-F03 (C112176). Slot by slot i.e. redundancy pair by redundancy
pair the GTIC 1, ETC 2 or ETC 3 ends of these cables (redundancy pair specific 1 pcs CHFX) have to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPE or ETPT.
10) These cables have been delivered with Cabinet Type, BSCC-F. Slot by slot i.e. redundancy pair by redundancy pair the
GTIC 1, ends of these cables (redundancy pair specific 1 pcs CHFX and 1 pcs CHES for mate ETS2s) are to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPT.
11) These cables have been delivered with Cabinet Type, BSCC-F. Slot by slot i.e. redundancy pair by redundancy pair the
GTIC 1, ends of these cables (redundancy pair specific 1 pcs CHFX and 1 pcs CHES for mate ETS2s) are to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPT
Check SW256B dip switching. See appendix 1
11.2.1.4.3.2
For Flexible Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or add following cables if needed.
Equipping
Cable from
No
Old FU/
Old
Position/
Old FU/
Old
Position/
New FU
New
Position
New FU
New
Position
GTIC 0
1.0B
15.4A
1.0B
31.4A
1.0F
23.SB2-1
GTIC 1
2.0B
15.4A
2.0B
31.4A
2.0F
03.SB1-0
BSCC_480
ETC 1
BSCC_418
ETC 0
Cable to
ETC 3
GSW2KB
1
Type
Use
Note
ETPE
Index
CHFX017
2N
6)
ETPE 40/ETPE
4-1
CSB011
Hotlink
4)
ETPE 1-0
CSB013
Hotlink
3)
ETPE 2-0
CSB011
Hotlink
2)
ETPE 3-1
CSB009
Hotlink
1)
ETPE 4-1
2.0F
02.SB2-0
BSCC_5047
ETC 0
1.0F
26.SB2-1
GSW2KB
1
2.0F
06.SB1-0
2.0F
03.SB1-0
BSCC_5043
BSCC_5045
ETC 2
2.0F
20.SB2-1
ETC 3
2.0F 29.
SB2-1
ETC 2
2.0F
23.SB2-1
ETC 3
2.0F
31.SB2-1
GSW2KB
1
2.0F
02.SB2-0
2.0F
03.SB2-1
GSW2KB
1
2.0F
03.SB2-0
2. 0F
05.SB1-1
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
73 (207)
BSCC_5049
ETC 2
2.0F
26.SB2-1
ETC 3
2.0F
34.SB2-1
GSW2KB
1
2.0F
06.SB2-0
CSB011
Hotlink
5)
ETPE 5-1
CSB011
Hotlink
5)
ETPE 5-1
2. 0F
05.SB2-1
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
BSCC_5049
Notes:
1)
ETC 2
2.0F
26.SB2-1
GTIC 1
2.0F
16.SB2-1
GSW2KB
1
2.0F
06.SB2-0
2. 0F
05.SB2-1
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 30/31 is
taken in use.
2)
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 28/29 is
taken in use.
3)
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 25/26 is
taken in use.
4)
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 22/23 is
taken in use.
5)
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 33/34 or
alternatively GTIC 0/1 slot 15/16 is taken in use.
6)
These 2N cables must be moved in a situation where at least ETPT/E redundancy pair ETC 1& 3 slot 30/31 is taken
in use .
Add needed 2N, ETPLAN, Hotlink cables from GSW-1 and LANU-1 side to required tracks.
Equipping
No
CABLE FROM
FU
CABLE TO
Position
FU
Position
Type
Use
Note
ETPE
Index
BSCC_3320
LANU 1
5.0B 15.1C
ETC 0
1.0B 19.4J
CHES027
ETPLAN
ETPE 0-0
BSCC_3321
LANU 1
5.0B 15.1E
ETC 0
1.0B 22.4J
CHES026
ETPLAN
ETPE 1-0
BSCC_3322
LANU 1
5.0B 15.1G
ETC 0
1.0B 25.4J
CHES026
ETPLAN
ETPE 2-0
BSCC_5028
LANU 1
5.0B 15.1J
ETC 1
1.0B 28.4J
CHES025
ETPLAN
ETPE 3-0
BSCC_5029
LANU 1
5.0B 15.2L
ETC 1
1.0B 30.4J
CHES027
ETPLAN
ETPE 4-0
BSCC_3326
LANU 1
5.0B 15.1P
ETC 2
2.0B 19.4J
CHES024
ETPLAN
ETPE 0-1
BSCC_3327
LANU 1
5.0B 15.2A
ETC 2
2.0B 22.4J
CHES022
ETPLAN
ETPE 1-1
BSCC_3328
LANU 1
5.0B 15.2C
ETC 2
2.0B 25.4J
CHES021
ETPLAN
ETPE 2-1
BSCC_5031
LANU 1
5.0B 15.2E
ETC 3
2.0B 28.4J
CHES020
ETPLAN
ETPE 3-1
BSCC_5032
LANU 1
5.0B 15.2P
ETC 3
2.0B 30.4J
CHES023
ETPLAN
ETPE 4-1
BSCC_3350
ETC 0
1.0B 20.4A
ETC 2
2.0B 20.4A
CHFX016
2N
BSCC_3351
ETC 0
1.0B 23.4A
ETC 2
2.0B 23.4A
CHFX015
2N
ETPE
0/ETPE
1
ETPE
0/ETPE
1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
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APPROVED 1.12
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BSCC_3352
ETC 0
1.0B 26.4A
ETC 2
2.0B 26.4A
CHFX014
2N
3)
ETPE 20/ETPE 21
ETPE 30/ETPE 31
ETPE 0-1
BSCC_5036
ETC 1
1.0B 29.4A
ETC 3
2.0B 29.4A
CHFX013
2N
BSCC_5081
ETC 2
ETC 0
GSW2KB
1
GSW2KB
1
2.0F 02.SB11
2.0F 02.SB10
CSB013
BSCC_5041
2.0F
20.SB2-1
1.0F
20.SB2-1
2)
ETPE 0-0
BSCC_5083
ETC 2
BSCC_5085
ETC 2
BSCC_5087
ETC 1
BSCC_5089
ETC 1
2.0F
23.SB2-1
2.0F
26.SB2-1
1.0F
29.SB2-1
1.0F
31.SB2-1
GSW2KB
1
GSW2KB
1
GSW2KB
1
GSW2KB
1
2.0F 02.SB21
2.0F 03.SB11
2.0F 03.SB20
2.0F 05.SB10
CSB013
4)
ETPE 1-1
CSB013
5)
ETPE 2-1
CSB018
6)
ETPE 3-0
CSB018
7)
ETPE 4-0
CSB014
Hotlink
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
BSCC_5030 LANU 1
5.0B 15.1L
ETC 1
1.0B 33.4J
CHES025
ETPLAN
ETPE 5-0
BSCC_5033
LANU 1
5.0B 15.2G
ETC 3
2.0B 33.4J
CHES020
ETPLAN
ETPE 5-1
BSCC_5091
ETC 1
2.0F 05.SB20
2.0B 34.4A
Hotlink
8)
ETPE 5-0
ETC 1
GSW2KB
1
ETC 3
CSB018
BSCC_5037
1.0F
34.SB2-1
1.0B 34.4A
CHFX012
2N
11)
ETPE 50/ETPE 51
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
BSCC_5034 LANU 1
5.0B 15.2N
GTIC 0
1.0B 15.4J
CHES026
ETPLAN
1)
ETPE 5-0
BSCC_5035
LANU 1
5.0B 15.2R
GTIC 1
2.0B 15.4J
CHES022
ETPLAN
1)
ETPE 5-1
BSCC_5091
GTIC 0
2.0F 05.SB20
2.0B 16.4A
Hotlink
9)
ETPE 5-0
GTIC 0
GSW2KB
1
GTIC 1
CSB018
BSCC_482
1.0F
16.SB2-1
1.0B 16.4A
CHFX017
2N
10)
ETPE 50/ETPE 51
Notes:
1)
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s).
2)
These cables are included in partlist but shall only be connected in case an ETPT/E is taken in use in ETC 0 slot
19/20.
3)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 19/20 is taken
in use.
4)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 22/23 is taken
in use.
5)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 25/26 is taken
in use.
6)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 1/3 slot 28/29 is taken
in use.
7)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 30/31 is taken
in use.
8)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 33/34 is taken
in use.
9)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0/1 slot 15/16 is taken
in use in alternative to ETC 1/3 slot 33/34 .
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
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10)
This cable has been delivered with Cabinet Type BSCC-F.
11) These cables have been delivered with Cabinet Upgrade Set, BSCC-F08 (C112854). Slot by slot i.e. redundancy pair
by redundancy pair the, ETC 0 or ETC 1 ends of these cables (redundancy pair specific 1 pcs CHFX) have to be
connected if transmission redundancy is upgraded to HW redundancy in case of ETPE or ETPT
Check SW256B dip switching. See appendix 1
11.2.1.4.4
Change MCMU-1 to SP-EX, SWU-1, SWU-3, SWU-5 and SWU-7 to WO-EX state.
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SP;
ZUSC:EMB,1:SE;
ZUSC;EMB,1:TE;
ZUSC:EMB,1:SP;
ZUSC:SWU,1:SE;
ZUSC:SWU,1:TE;
ZUSC:SWU,1:WO;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:WO;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:WO;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:WO;
11.2.2
Create HW Configuration
Create cartridges if not exist
GTIC-0, ETC-0 and ETC-1 cartridges:
ZWTC:SGC1C_A,1A1-3,,:AL=1A1-11-12;
GTIC-1, ETC-2 and ETC-3 cartridges:
ZWTC:SGC1C_A,1A2-3,,:AL=1A1-11-13;
11.2.2.1
Create ETPE functional unit
11.2.2.1.1
Normal option
ZWTU:ETPE,0,0:1A1-3;
ZWTU:ETPE,0,1:1A2-3;
ZWTU:ETPE,1,0:1A1-3;
ZWTU:ETPE,1,1:1A2-3;
ZWTU:ETPE,2,0:1A1-3;
ZWTU:ETPE,2,1:1A2-3;
ZWTU:ETPE,3,0:1A2-3;
ZWTU:ETPE,3,1:1A1-3;
ZWTU:ETPE,4,0:1A2-3;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZWTU:ETPE,4,1:1A1-3;
ZWTU:ETPE,5,0:1A2-3;
ZWTU:ETPE,5,1:1A1-3;
11.2.2.1.2
Flexible option.
ZWTU:ETPE,0,0:1A1-3;
ZWTU:ETPE,0,1:1A2-3;
ZWTU:ETPE,1,0:1A1-3;
ZWTU:ETPE,1,1:1A2-3;
ZWTU:ETPE,2,0:1A1-3;
ZWTU:ETPE,2,1:1A2-3;
ZWTU:ETPE,3,0:1A1-3;
ZWTU:ETPE,3,1:1A2-3;
ZWTU:ETPE,4,0:1A1-3;
ZWTU:ETPE,4,1:1A2-3;
Note: In flexible option two alternative solutions are available for ETPE 5-0/5-1 Implementation.
1.
Alternative 1. 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33
ZWTU:ETPE,5,0:1A1-3;
ZWTU:ETPE,5,1:1A2-3;
2.
Alternative 2. 6th ETPT/E equipped in GTIC 0 /1 slot 15
ZWTU:ETPE,5,0:1A1-3;
ZWTU:ETPE,5,1:1A2-3;
11.2.2.2
Create ETPE plug-in unit
11.2.2.2.1
Normal option
ZWTP:ETPE,0,0:ETP,0,14::ETPCS,8,1984&&2047,TSL,0&&31;
ZWTP:ETPE,0,1:ETP,0,14;
ZWTP:ETPE,1,0:ETP,0,16::ETPCS,8,512&&575,TSL,0&&31;
ZWTP:ETPE,1,1:ETP,0,16;
ZWTP:ETPE,2,0:ETP,0,19::ETPCS,8,256&&319,TSL,0&&31;
ZWTP:ETPE,2,1:ETP,0,19;
ZWTP:ETPE,3,0:ETP,0,22::ETPCS,8,1024&&1087,TSL,0&&31;
ZWTP:ETPE,3,1:ETP,0,22;
ZWTP:ETPE,4,0:ETP,0,25::ETPCS,8,64&&127,TSL,0&&31;
ZWTP:ETPE,4,1:ETP,0,25;
ZWTP:ETPE,5,0:ETP,0,29::ETPCS,8,768&&831,TSL,0&&31;
ZWTP:ETPE,5,1:ETP,0,29;
11.2.2.2.2
Flexible Option.
ZWTP:ETPE,0,0:ETP,0,19::ETPCS,8,256&&319,TSL,0&&31;
ZWTP:ETPE,0,1:ETP,0,19;
ZWTP:ETPE,1,0:ETP,0,22::ETPCS,8,320&&383,TSL,0&&31;
ZWTP:ETPE,1,1:ETP,0,22;
ZWTP:ETPE,2,0:ETP,0,25::ETPCS,8,512&&575,TSL,0&&31;
ZWTP:ETPE,2,1:ETP,0,25;
ZWTP:ETPE,3,0:ETP,0,28::ETPCS,8,576&&639,TSL,0&&31;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZWTP:ETPE,3,1:ETP,0,28;
ZWTP:ETPE,4,0:ETP,0,30::ETPCS,8,1024&&1087,TSL,0&&31;
ZWTP:ETPE,4,1:ETP,0,30;
Note:In flexible option two alternative solutions are available for ETPE 5-0/5-1 Implementation.
1.
Alternative 1. 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33
ZWTP:ETPE,5,0:ETP,0,33::ETPCS,8,1088&&1151,TSL,0&&31;
ZWTP:ETPE,5,1:ETP,0,33;
2.
Alternative 2. 6th ETPT/E equipped in GTIC 0 /1 slot 15
ZWTP:ETPE,5,0:ETP,0,15::ETPCS,8,1088&&1151,TSL,0&&31;
ZWTP:ETPE,5,1:ETP,0,15;
Note:
For legacy A-interface: Hotlinks are connected from port 0&1 to GSWs. ETPCS functionality is created in plug
in unit to support legacy A interface.
For A over IP: Traffic will be routed though EEP interface created (via ETPA card).
For PS via PCU2_E cards: No separate PCMs are required. This will use PEPeth link created in ETP cards to
communicate with PCU2_E cards in BCSU. This will support CS calls in (A over IP,A over TDM) and PS calls if
PCU2_E cards are used in BSCs.
Connect functional units
ZWUC: ETPE,<pair_number>,<unit_index>:ETP,0:IF=ABIS:;
Note: This command is not needed for redundant unit as there is no PCM configured to it.
Connect hotlink ports
ZWTA:GSW,0:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPE,<unit_pair>,<unit_index>:ETP,
<PIU_index>:HOTLINK,<port_index>:;
ZWTA:GSW,1:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPE,<unit_pair>,<unit_index>:ETP,
<PIU_index>:HOTLINK,<port_index>:;
Notes:
Hotlinks 0 and 1 from ETPs will be used only when PCU2_E is used. These connections will be created
only if legacy A interface is used.
Normal option.
ETPE 0-0
ZWTA:GSW,0:SW256B,7:HOTLINK,6:ETPE,0,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,7:HOTLINK,6:ETPE,0,0:ETP,0:HOTLINK,1:;
ETPE 0-1
ZWTA:GSW,0:SW256B,7:HOTLINK,7:ETPE,0,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,7:HOTLINK,7:ETPE,0,1:ETP,0:HOTLINK,1:;
ETPE 1-0
ZWTA:GSW,0:SW256B,2:HOTLINK,0:ETPE,1,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,0:ETPE,1,0:ETP,0:HOTLINK,1:;
ETPE 1-1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZWTA:GSW,0:SW256B,2:HOTLINK,1:ETPE,1,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,1:ETPE,1,1:ETP,0:HOTLINK,1:;
ETPE 2-0
ZWTA:GSW,0:SW256B,1:HOTLINK,0:ETPE,2,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,0:ETPE,2,0:ETP,0:HOTLINK,1:;
ETPE 2-1
ZWTA:GSW,0:SW256B,1:HOTLINK,1:ETPE,2,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,1:ETPE,2,1:ETP,0:HOTLINK,1:;
ETPE 3-0
ZWTA:GSW,0:SW256B,4:HOTLINK,0:ETPE,3,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,0:ETPE,3,0:ETP,0:HOTLINK,1:;
ETPE 3-1
ZWTA:GSW,0:SW256B,4:HOTLINK,1:ETPE,3,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,1:ETPE,3,1:ETP,0:HOTLINK,1:;
ETPE 4-0
ZWTA:GSW,0:SW256B,0:HOTLINK,2:ETPE,4,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,0:HOTLINK,2:ETPE,4,0:ETP,0:HOTLINK,1:;
ETPE 4-1
ZWTA:GSW,0:SW256B,0:HOTLINK,3:ETPE,4,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,0:HOTLINK,3:ETPE,4,1:ETP,0:HOTLINK,1:;
ETPE 5-0
ZWTA:GSW,0:SW256B,3:HOTLINK,0:ETPE,5,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,3:HOTLINK,0:ETPE,5,0:ETP,0:HOTLINK,1:;
ETPE 5-1
ZWTA:GSW,0:SW256B,3:HOTLINK,1:ETPE,5,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,3:HOTLINK,1:ETPE,5,1:ETP,0:HOTLINK,1:;
Flexible Option.
ETPE 0-0
ZWTA:GSW,0:SW256B,1:HOTLINK,0:ETPE,0,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,0:ETPE,0,0:ETP,0:HOTLINK,1:;
ETPE 0-1
ZWTA:GSW,0:SW256B,1:HOTLINK,1:ETPE,0,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,1:ETPE,0,1:ETP,0:HOTLINK,1:;
ETPE 1-0
ZWTA:GSW,0:SW256B,1:HOTLINK,2:ETPE,1,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,2:ETPE,1,0:ETP,0:HOTLINK,1:;
ETPE 1-1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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CONFIDENTIAL
APPROVED 1.12
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ZWTA:GSW,0:SW256B,1:HOTLINK,3:ETPE,1,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,3:ETPE,1,1:ETP,0:HOTLINK,1:;
ETPE 2-0
ZWTA:GSW,0:SW256B,2:HOTLINK,0:ETPE,2,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,0:ETPE,2,0:ETP,0:HOTLINK,1:;
ETPE 2-1
ZWTA:GSW,0:SW256B,2:HOTLINK,1:ETPE,2,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,1:ETPE,2,1:ETP,0:HOTLINK,1:;
ETPE 3-0
ZWTA:GSW,0:SW256B,2:HOTLINK,2:ETPE,3,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,2:ETPE,3,0:ETP,0:HOTLINK,1:;
ETPE 3-1
ZWTA:GSW,0:SW256B,2:HOTLINK,3:ETPE,3,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,3:ETPE,3,1:ETP,0:HOTLINK,1:;
ETPE 4-0
ZWTA:GSW,0:SW256B,4:HOTLINK,0:ETPE,4,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,0:ETPE,4,0:ETP,0:HOTLINK,1:;
ETPE 4-1
ZWTA:GSW,0:SW256B,4:HOTLINK,1:ETPE,4,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,1:ETPE,4,1:ETP,0:HOTLINK,1:;
Note: In flexible option two alternative solutions are available for ETPE 5-0/5-1 Implementation.
1.
Alternative 1. 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33
ETPE 5-0
ZWTA:GSW,0:SW256B,4:HOTLINK,2:ETPE,5,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,2:ETPE,5,0:ETP,0:HOTLINK,1:;
ETPE 5-1
ZWTA:GSW,0:SW256B,4:HOTLINK,3:ETPE,5,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,3:ETPE,5,1:ETP,0:HOTLINK,1:;
2.
Alternative 2. 6th ETPT/E equipped in GTIC 0 /1 slot 15
ETPE 5-0
ZWTA:GSW,0:SW256B,4:HOTLINK,2:ETPE,5,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,2:ETPE,5,0:ETP,0:HOTLINK,1:;
ETPE 5-1
ZWTA:GSW,0:SW256B,4:HOTLINK,3:ETPE,5,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,3:ETPE,5,1:ETP,0:HOTLINK,1:;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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Configure ETPSIG-M TCP/IP stack configuration for active ETPE(SE-NH).(For example ETPE 0-0)
ZQRA:ETPE, <pair_number>,<unit_index>::IL0::UP;
ZQRA:ETPE, <pair_number>,<unit_index>::IL1::UP;
ZQRA:ETPE, <pair_number>,<unit_index>::BOND0,IL0,IL1,::UP:;
Configure ETPSIG-M TCP/IP stack configuration for redundant ETPE(SE-NH).(For example ETPE 0-1)
ZQRA:ETPE, <pair_number>,<unit_index>::IL0::UP;
ZQRA:ETPE, <pair_number>,<unit_index>::IL1::UP;
ZQRA:ETPE, <pair_number>,<unit_index>::BOND0,IL0,IL1,::UP:;
Configure ETPSIG-M IP address with parameters PDM to active ETPE BOND0 interface.(For example ETPE 0-0)
ZQRN:ETPE,<pair_number>,<unit_index>::BOND0:"<ip_address>",<network_mask_length>,P,ID
M:;
Configure ETPSIG-M IP address with parameters PDM to redundant ETPE BOND0 interface.(For example ETPE 0-1)
ZQRN:ETPE,<pair_number>,<unit_index>::BOND0:"<ip_address>",<network_mask_length>,P,ID
M:;
Create ETPSIG-C IP address for active ETPE (SE-NH).(For example ETPE 0-0)
ZQRN:ETPE,<pair_number>,>unit_index>::BOND0:"<IP_address>",<network_mask_length>,L,IC
V::;
Create IuA messaging configuration for ETPSIG-M and ETPSIG-C
ZD2C:M:BCSU,<unit_index>::ETPE,<pair_number>,<unit_index>:::;
ZD2C:C,NOR:BCSU,<unit_index>::ETPE,<pair_umber>,<unit_index>:::;
Note!
ETPSIG-M is created only to Gateway BCSU and ETPSIG-C must be created to all BCSU’s for all ETP/ETP-A units.
For redundant card (For example ETPE 0-1) IUA messaging for ETPSIG-M will be created with same BCSU already
selected for Active card (ETPE 0-0).
Create EL0 IP address to ETPE
ZQRA:ETPE,<pair_number>,<unit_index>::EL0::UP;
ZQRN:ETPE,<pair_number>,<unit_index>::EL0,:"<ip_address>",<network_mask_length>,L,:;
Create EEP interface for traffic between ETPE and ETPA
ZQRA:ETPE,<pair_number>,<unit_index>::<EEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPE,<pair_number>,<unit_index>::<EEP_VLAN>,:"<ip_address>",<network_mask_length
>,L,VI:;
ZQRP:ETPE,<pair_number>,<unit_index>::<EEP_VLAN>:"<ip_address>":TAG,"EEP":;
Note: Create the PEP link to ETPGID 0 first if you want to get the ETP object ID for the ETPGID to match in NetAct.
Create PEP interface if PCU2-E’s are in use
ZQRA:ETPE, <pair_number>,<unit_index>::<PEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPE,<pair_number>,<unit_index>::<PEP_VLAN>,:”<ip_address>",<network_mask_length
>,L,VI:;
ZQRP:ETPE, <pair_number>,<unit_index>::<PEP_VLAN>:"<ip_address>":TAG,"PEP":;
Create IM0 IP address to ETPE
ZQRA:ETPE,<pair_number>,<unit_index>::IM0::UP;
ZQRN:ETPE,<pair_number>,<unit_index>::IM0:"<ip_address>",<network_mask_length>,P,I::;
Create IN0 IP address to ETPE
ZQRA:ETPE,<pair_number>,<unit_index>::IN0::UP;
ZQRN:ETPE,<pair_number>,<unit_index>::IN0:"<ip_address>",<network_mask_length>,P,I::;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
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Create static route
ZQKC:ETPE, <pair_number>,<unit_index>:::"<Gateway ip address>":LOG:;
Change state of ETPE to TE-EX
ZUSC:ETPE,<pair_number>,<unit_index>:SE;
ZUSC:ETPE,<pair_number>,<unit_index>:TE;
11.2.3 Check Plug-in unit software
Note: The flashing does not succeed if the username and password in the ETP card does not match the BSC’s
username & password. Refer Appendix 5 to see an example how to update the username & password via ETP service
terminal
Check the flash software of ETP cards:ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Check the CBUHAN version in BSC package.
ZDDE::"ZMXP:W0-MMDIRE/CBU*.*";
Macro will choose a valid option (option1 or option2 or option3) based on the output of above interrogation commands.
Option 1:- When existing ETP version is same or older than the versions mentioned below and ETP software in
OMU DISK is newer than PAC versions mentioned below. If CBUHAN version is older than the version
mentioned below, then option 1 needs to be selected.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Upgrade the ETP software on the Standby flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Option 2:- When existing ETP version is newer than PAC versions mentioned below and also if CBUHAN
version is newer than the version mentioned.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card. This will verify
if flash upgrade was successful.
ZUSU:UT=<ETP type>,UI=<index>;
Upgrade the ETP software on the new STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card from the
original flash.
ZUSU:UT=<ETP type>,UI=<index>;
Option 3:- When existing ETP version is same or older than the versions mentioned below and ETP
software in OMU DISKis also same or older than PAC versions mentioned below.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
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Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
After card restart, log-in to the card using following MML commands ZDDS;
ZRS:<physical address>
switch_flash ctot
After the card comes up, upgrade the ETP software on the this new flash of the ETP card using following MML
command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPE.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
To restore to the original default flash, we need to switch flash again. So as the ETP card comes up, log-in to the
card using following MML commands ZDDS
ZRS:<physical address>
Switch to other flash using below command ST command switch_flash ctot
NOTE: This command will switch flash and restart the ETP card as well. After the card comes up, open a
new MML session.
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
The redundant card eSW update will be done in similar way.
11.2.4
Diagnostic
Run diagnostic to the ETPE
ZUDU:ETPE,<pair number>,<unit index>;
Note: The diagnostic part will be run on both MCMUs.
Change working state of ETPE to WO-EX
ZUSC:ETPE,<pair number>,<unit index>:WO;
11.2.5
Check PCU configuration
If Packet Abis interface is also used in PS traffic check PCU configuration. PCU2-D or PCU2-E must be created to
the PCUPAB function that it can carry Packet Abis PS data.
For PCU2_E cards PEP interface creation is required to support PEP Eth link. These creations are mentioned in
the below document.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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PCU configuration can be checked with following command:
ZWTI:P:BCSU,<unit_index>;
Use “BSCPCU HW implementation for PS traffic” procedure if PCU configurations need to change.
ETP- PCU connection.
ZESK:ETPE,<pair number>:BCSU,<index>:PCU,<index>:;
Note: This is required for both PCU2_E and PCU2_D cards.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
85 (207)
12
PACKET ABIS OVER TDM (ETPT), PIU TYPE ETP
The following pop up will be displayed by macro for each BSC variants.
Select the required application and tracks to proceed further.
12.1
Creation of ETPT unit with transmission/line protection.
Note!
Macro asks in this point redundancy type and Plug-in Unit location. After that macro check possible
unit/PCM overlapping.
If there is overlapping PCM areas move or remove resources from them. Macro will remove unit and Plug-in Units
automatically after needed recourses are moved or removed.
Note:- Refer Appendix 2 to check overlapping PCMs used by existing units in BSCs. Please note to shift existing
traffic from the plug in unit. Once traffic is shifted remove the units and cables and then insert ETP cards to
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
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required tracks. Please note to turn off jumper settings in GSW units if PCMs are not used. Refer Appendix 1 to
check jumpers settings used for existing ETP cards.
Note:-There are two options for installing ETPT in Initial flexi BSC-Flexible and Normal.
Normal option: Configurations supported before S15 EP 2.1 releases.
Flexible option: New flexible ETP layout in Flexi BSC.The implementation of flexible option in initial flexi BSC will
be supported only from software S15 EP2.1.
12.1.1
Install Plug-in units, terminators and cables
12.1.1.1
Terminators and setting modules
Remove PCMC8A connectors
Normal option.
Position
ID
Name
FU
Use
Note
1.0B 10.2M
C111523
PCMC8A
GTIC 0
PCM connector module
1)
1.0B 11.2M
C111523
PCMC8A
GTIC 0
PCM connector module
1)
1.0B 22.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 23.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 25.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 26.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
2.0B 10.2M
C111523
PCMC8A
GTIC 1
PCM connector module
1)
2.0B 22.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 23.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 25.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 26.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
ETPT/STMU
INDEX
STMU 0
STMU 2
ETPT 11-0
ETPT 11-0
ETPT 12-0
ETPT 12-0
STMU 16
ETPT 3-0
ETPT 3-0
ETPT 4-0
ETPT 4-0
Notes:
1) When ETP PIU/STMU is used in this slot
Flexible option.
Position
1.0B 19.2M
ID
C111523
Name
PCMC8A
FU
ETC 0
Use
PCM connector module
Note
1)
1.0B 20.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 22.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 23.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 25.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 26.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
2.0B 19.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 20.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 22.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 23.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
2.0B 25.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
ETPT/STMU
INDEX
ETPT 11-0
ETPT 11-0
ETPT 12-0
ETPT 12-0
ETPT 13-0
ETPT 13-0
ETPT 3-0
ETPT 3-0
ETPT 4-0
ETPT 4-0
ETPT 5-0
87 (207)
2.0B 26.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
1.0B 17.2M
C111523
PCMC8A
GTIC 0
PCM connector module
1)
1.0B 21.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
1.0B 24.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
ETPT 5-0
STMU 28
STMU 24
STMU 30
Notes:
1) When ETP PIU/STMU is used in this slot
Terminators and setting modules
Normal option.
Position
ID
Name
FU
Use
Note
ETPT
INDEX
1.0B 22
4E
C108585
ADMOD01
ETC 0
For ETPT
ETSI
1)
ETPT 11-0
1.0B 22
4E
C108704
ADMOD17
ETC 0
For ETPT
ANSI
2)
ETPT 11-0
1.0B 25
4E
C108585
ADMOD01
ETC 0
For ETPT
ETSI
1)
ETPT 12-0
1.0B 25
4E
C108704
ADMOD17
ETC 0
For ETPT
ANSI
2)
ETPT 12-0
1.0B 29
4E
C108585
ADMOD01
ETC 1
For ETPT
ETSI
1)
ETPT 13-0
1.0B 29
4E
C108704
ADMOD17
ETC 1
For ETPT
ANSI
2)
ETPT 13-0
2.0B 22
4E
C108585
ADMOD01
ETC 2
For ETPT
ETSI
1)
ETPT 3-0
ETC 2
For ETPT
ANSI
2)
ETPT 3-0
ETC 2
For ETPT
ETSI
1)
ETPT 4-0
ETC 2
For ETPT
ANSI
2)
ETPT 4-0
ETC 3
For ETPT
ETSI
1)
ETPT 5-0
2)
ETPT 5-0
2.0B 22
4E
2.0B 25
4E
2.0B 25
4E
2.0B 29
4E
C108704
C108585
C108704
C108585
ADMOD17
ADMOD01
ADMOD17
ADMOD01
2.0B 29
4E
C108704
ADMOD17
ETC 3
1.0B 9
1A
C101501
CABID1A
GTIC 0
1.0B 18
1A
C101501
CABID1A
ETC 0
1.0B 27
3D
C101501
CABID1A
ETC 1
1.0B 9
1C
C101530
CARID11
GTIC 0
1.0B 18
1C
C101530
CARID11
ETC 0
For ETPT
ANSI
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
ETPT 11-0/
ETPT 12-0
ETPT 13-0
ETPT 11-0/
ETPT 12-0
88 (207)
1.0B 27
1A
C101530
CARID11
ETC 1
2.0B 9
1A
C101501
CABID1A
GTIC 1
2.0B 18
1A
C101501
CABID1A
ETC 2
2.0B 27
3D
C101501
CABID1A
ETC 3
2.0B 9
1C
C101536
CARID21
GTIC 1
2.0B 18
1C
C101536
CARID21
ETC 2
2.0B 27
1A
C101536
CARID21
ETC 3
CARID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
ETPT 13-0
ETPT3-0/
ETPT 4-0
ETPT 5-0
ETPT3-0/
ETPT 4-0
ETPT 5-0
Notes:
1) When ETP PIU is used ETPT ETSI in this slot
2) When ETP PIU is used ETPT ANSI in this slot
Flexible option.
Position
ID
Name
FU
Use
Note
1.0B 19
4E
C108585
ADMOD01
ETC 0
For ETPT
ETSI
1)
1.0B 19
4E
C108704
ADMOD17
ETC 0
For ETPT
ANSI
2)
1.0B 22
4E
C108585
ADMOD01
ETC 0
For ETPT
ETSI
1)
1.0B 22
4E
C108704
ADMOD17
ETC 0
For ETPT
ANSI
2)
1.0B 25
4E
C108585
ADMOD01
ETC 0
For ETPT
ETSI
1)
1.0B 25
4E
C108704
ADMOD17
ETC 0
For ETPT
ANSI
2)
2.0B 19
4E
C108585
ADMOD01
ETC 2
For ETPT
ETSI
1)
2.0B 19
4E
C108704
ADMOD17
ETC 2
For ETPT
ANSI
2)
2.0B 22
4E
C108585
ADMOD01
ETC 2
For ETPT
ETSI
1)
2.0B 22
4E
C108704
ADMOD17
ETC 2
For ETPT
ANSI
2)
2.0B 25
4E
C108585
ADMOD01
ETC 2
For ETPT
ETSI
1)
2.0B 25
4E
C108704
ADMOD17
ETC 2
For ETPT
ANSI
2)
1.0B 18
1A
C101501
CABID1A
ETC 0
1.0B 18
1C
C101530
CARID11
ETC 0
CABID for
ETP /
ETP-A
CARID for
ETP /
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
ETPT
INDEX
ETPT 11-0
ETPT 11-0
ETPT 12-0
ETPT 12-0
ETPT 13-0
ETPT 13-0
ETPT 3-0
ETPT 3-0
ETPT 4-0
ETPT 4-0
ETPT 5-0
ETPT 5-0
ETPT 11-0/
ETPT 12-0/
ETPT 13-0
ETPT 11-0/
ETPT 12-0/
89 (207)
2.0B 18
1A
C101501
CABID1A
ETC 2
2.0B 18
1C
C101536
CARID21
ETC 2
ETP-A
ETPT 13-0
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
ETPT 3-0/
ETPT 4-0/
ETPT 5-0
ETPT 3-0/
ETPT 4-0/
ETPT 5-0
Notes: 1) When ETP PIU is used as ETPT ETSI in this slot.
2) When ETP PIU is used as ETPT ANSI in this slot.
12.1.1.2
Plug-in unit installation
Normal option.
Cartridge SGC1C
position
Unit
Cartridge /
Slots
ETPT
group
index
Cartridge / slot / Interface
of mate ETS2
STMU
index
1.3
ETC-0
22&23
11-0
GTIC 1 / 10 / SB1
16
2.3
ETC-2
22&23
3-0
GTIC 1 / 10 / SB2
16
1.3
ETC-0
25&26
12-0
GTIC 0 / 10 / SB1
0
2.3
ETC-2
25&26
4-0
GTIC 0 / 10 / SB2
0
1.3
ETC-1
29&30
13-0
GTIC 0 / 11 / SB1
2
2.3
ETC-3
29&30
5-0
GTIC 0 / 11 / SB2
2
Note:Check Appendix 4 for ETP strappings and STMU stappings.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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Flexible option.
Cartridge
SGC1C
position
Unit
Cartridge
/ Slots
ETPT
group
index
Cartridge / slot /
Interface of mate
ETS2
STMU
index
1.3
ETC0
ETC2
ETC0
ETC2
ETC0
ETC2
19&20
11-0'
ETC 0 / 21 / SB1
24
19&20
3-0'
ETC 0 / 21 / SB2
2.3
1.3
2.3
1.3
2.3
24
22&23
12-0'
ETC 0 / 24 / SB1
30
4-0'
ETC 0 / 24 / SB2
30
13-0'
GTIC 0 / 17 / SB1
28
5-0'
GTIC 0 / 17 / SB2
28
22&23
25&26
25&26
Note: Check Appendix 4 for ETP strapping’s and STMU strapping’s.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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12.1.1.3
12.1.1.3.1
Cabling
Change MCMU-0, SWU-0, SWU-2, SWU-4 and SWU-6 SE-NH state
ZUSC:MCMU,0:SP; If needed
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:SE;
ZUSC:EMB,0:SP;if needed
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:SE;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
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ZUSC:SWU,6:TE;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:SE;
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect following cable if needed
Equipping
CABLE FROM
No
FU
BSCC_416
Old
Position
ETC
0
1.0F
14.SB1-0
CABLE TO
New
Position
1.0F
23.SB2-0
FU
GSW2KBA0
Old
Position
1.0F
02.SB1-0
New
Position
Type
1.0F
8.SB4-0
CSB007
Use
Note
ETPT
INDEX
Hotlink
ETPT
11-0
Add needed ETPLAN and Hotlink cables from GSW-0 and LANU-0 side to required tracks.
Equipping
CABLE FROM
No
FU
BSCC_3301
CABLE TO
Position
FU
LANU 0
4.0B 15.1E
ETC 0
BSCC_3302
LANU 0
4.0B 15.1G
BSCC_3303
LANU 0
BSCC_3307
Position
Type
Use
Note
1.0B
22.4G
CHES025
ETPLAN
ETC 0
1.0B
25.4G
CHES025
ETPLAN
4.0B 15.1J
ETC 1
1.0B
29.4G
CHES024
ETPLAN
LANU 0
4.0B 15.2A
ETC 2
2.0B
22.4G
CHES021
ETPLAN
BSCC_3308
LANU 0
4.0B 15.2C
ETC 2
2.0B
25.4G
CHES020
ETPLAN
BSCC_3309
LANU 0
4.0B 15.2E
ETC 3
2.0B
29.4G
CHES019
ETPLAN
BSCC_3400
ETC 2
2.0F26.SB20
GSW2KB
0
1.0F
01.SB2-0
CSB016
Hotlink
1)
BSCC_3402
ETC 3
2.0F30.SB20
GSW2KB
0
1.0F
04.SB1-0
CSB015
Hotlink
1)
BSCC_3404
ETC 2
2.0F23.SB20
GSW2KB
0
1.0F
05.SB1-0
CSB013
Hotlink
1)
BSCC_3406
ETC 0
1.0F26.SB20
GSW2KB
0
1.0F
03.SB1-0
CSB009
Hotlink
1)
BSCC_3408
ETC 1
1.0F30.SB20
GSW2KB
0
1.0F
02.SB1-0
CSB010
Hotlink
1)
ETPT
INDEX
ETPT 11-0
ETPT 12-0
ETPT 13-0
ETPT 3-0
ETPT 4-0
ETPT 5-0
ETPT 4-0
ETPT 5-0
ETPT 3-0
ETPT 12-0
ETPE 13-0
Notes:
1)
These cables are installed and tied with soft cable ties to the front side of the cabinet to be ready for connecting
plug-in units
Check SW256B dips switching. See appendix1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
93 (207)
For Flexible option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Remove following cables if required.
Equipping
CABLE FROM
CABLE TO
No
FU
Position
FU
Position
Type
Use
Note
BSCC_417
GTIC 0
1.0F
14.SB2-0
GSW2KBA0
1.0F
02.SB2-0
CSB012
Hotlink
1)
BSCC_432
GTIC 1
2.0F
13.SB1-0
GSW2KBA0
1.0F
03.SB1-0
CSB011
Hotlink
2)
BSCC_433
GTIC 1
2.0F
13.SB2-0
GSW2KBA0
1.0F
03.SB2-0
CSB012
Hotlink
3)
BSCC_412
GTIC 0
1.0F
13.SB1-0
GSW2KBA0
1.0F
06.SB1-0
CSB005
Hotlink
4)
BSCC_413
GTIC 0
1.0F
13.SB2-0
GSW2KBA0
1.0F
06.SB2-0
CSB005
Hotlink
5)
Notes:
1)
2)
3)
4)
5)
These cables
These cables
These cables
These cables
These cables
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
taken in use in ETC 2 slot 19 (ETPT/E)
taken in use in ETC 0 slot 22 (ETPT/E)
taken in use in ETC 2 slot 22 (ETPT/E)
taken in use in ETC 0 slot 25 (ETPT/E)
taken in use in ETC 2 slot 25 (ETPT/
Move and reconnect following cable if needed
Equipping
No
CABLE FROM
old FU
new FU
BSCC_416
GTIC 0
ETC 0
CABLE TO
Old
Position
New
Position
1.0F
14.SB1-0
1.0F
23.SB2-0
old FU
new FU
GSW2KB
0
Old
Position
New
Position
Type
Use
1.0F
02.SB1-0
1.0F
03.SB1-0
CSB007
Hotlink
Note
1)
ETPT
Index
ETPT
12-0
Notes:
1)
These cables, shall only be moved and re-connected, if an ETP PIU is taken in use in this slot(s)
Add needed ETPLAN and Hotlink cables from GSW-0 and LANU-0 side to required tracks.
Equipping
No
CABLE FROM
FU
Position
CABLE TO
FU
Position
Type
Use
Note
ETPT
Index
BSCC_3300
LANU 0
4.0B
15.1C
ETC 0
1.0B
19.4G
CHES026
ETPLAN
ETPT 11-0
BSCC_3301
LANU 0
4.0B
15.1E
ETC 0
1.0B
22.4G
CHES025
ETPLAN
ETPT 12-0
BSCC_3302
LANU 0
4.0B
15.1G
ETC 0
1.0B
25.4G
CHES025
ETPLAN
ETPT 13-0
BSCC_3306
LANU 0
4.0B
15.1P
ETC 2
2.0B
19.4G
CHES023
ETPLAN
ETPT 3-0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
94 (207)
BSCC_3307
LANU 0
4.0B
15.2A
ETC 2
2.0B
22.4G
CHES021
ETPLAN
ETPT 4-0
BSCC_3308
LANU 0
4.0B
15.2C
ETC 2
2.0B
25.4G
CHES020
ETPLAN
ETPT 5-0
BSCC_5040
ETC 0
1.0F
20.SB2-0
GSW2KB
0
1.0F
02.SB1-0
CSB010
Hotlink
1)
ETPT 11-0
BSCC_5046
ETC 0
1.0F
26.SB2-0
GSW2KB
0
1.0F
06.SB1-0
CSB009
Hotlink
4)
ETPT 13-0
BSCC_5042
ETC 2
2.0F
20.SB2-0
GSW2KB
0
1.0F
02.SB2-0
CSB015
Hotlink
2)
ETPT 3-0
BSCC_5044
ETC 2
2.0F
23.SB2-0
GSW2KB
0
1.0F
03.SB2-0
CSB013
Hotlink
3)
ETPT 4-0
BSCC_5048
ETC 2
2.0F
26.SB2-0
GSW2KB
0
1.0F
06.SB2-0
CSB016
Hotlink
5)
ETPT 5-0
Notes:
1)
2)
3)
4)
5)
These cables
19/20.
These cables
19/20.
These cables
22/23.
These cables
25/26.
These cables
25/26
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 0 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 2 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 2 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 0 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 2 slot
Check SW256B dips switching. See appendix1
12.1.1.3.2
Change MCMU-0, SWU-0, SWU-2, SWU-4 and SWU-6 to WO-EX state.
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SP;
ZUSC:MCMU,0:WO;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SP;
ZUSC:EMB,0:WO;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:WO;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:WO;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:WO;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:TE;
ZUSC:SWU,6:WO;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
95 (207)
12.1.1.3.3
Change MCMU-1, SWU-1, SWU-3, and SWU-5 and SWU-7 SE-NH state
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:SE;
ZUSC:EMB,1:TE;
ZUSC:EMB,1:SE;
ZUSC:EMB,1:SE;
ZUSC:SWU,1:TE;
ZUSC:SWU,1:SE;
ZUSC:SWU,1:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:SE;
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495)
are present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX
and CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or add following cables if needed.
Equipping
No
BSCC_418
CABLE FROM
CABLE TO
FU
Old
Position
New
Position
FU
Old
Position
New
Position
Type
ETC 0
1.0F
14.SB1-1
1.0F
23.SB2-1
GSW2KBA1
2.0F
02.SB10
2.0F
8.SB4-0
CSB011
Use
Note
Hotlink
ETPT 11-0
Add needed ETPLAN and Hotlink cables from GSW-1 and LANU-1 to the required tracks
Equipping
CABLE FROM
No
FU
BSCC_3321
CABLE TO
Position
FU
LANU 1
5.0B 15.1E
ETC 0
BSCC_3322
LANU 1
5.0B 15.1G
BSCC_3323
LANU 1
5.0B 15.1J
Position
ETPT
INDEX
Type
Use
1.0B
22.4J
CHES026
ETPLAN
ETPT 110
ETC 0
1.0B
25.4J
CHES026
ETPLAN
ETPT 120
ETC 1
1.0B
29.4J
CHES025
ETPLAN
ETPT 130
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
ETPT
INDEX
Note
96 (207)
BSCC_3327
LANU 1
5.0B 15.2A
ETC 2
2.0B
22.4J
CHES022
ETPLAN
ETPT 3-0
BSCC_3328
LANU 1
5.0B 15.2C
ETC 2
2.0B
25.4J
CHES021
ETPLAN
ETPT 4-0
BSCC_3329
LANU 1
5.0B 15.2E
ETC 3
2.0B
29.4J
CHES020
ETPLAN
ETPT 5-0
BSCC_3401
ETC 2
2.0F26.SB21
GSW2KB
1
2.0F
01.SB2-0
CSB011
Hotlink
1)
ETPT 4-0
BSCC_3403
ETC 3
2.0F30.SB21
GSW2KB
1
2.0F
04.SB1-0
CSB011
Hotlink
1)
ETPT 5-0
BSCC_3405
ETC 2
2.0F23.SB21
GSW2KB
1
2.0F
05.SB1-0
CSB009
Hotlink
1)
ETPT 3-0
BSCC_3407
ETC 0
1.0F26.SB21
GSW2KB
1
2.0F
03.SB1-0
CSB013
Hotlink
1)
ETPT 120
BSCC_3409
ETC 1
1.0F30.SB21
GSW2KB
1
2.0F
02.SB1-0
CSB014
Hotlink
1)
ETPT 130
Notes:
1)
These cables are installed and tied with soft cable ties to the front side of the cabinet to be ready for connecting
plug-in units
Check SW256B dip switching. See appendix 1
For Flexible option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Remove following cables if needed.
Equipping
CABLE FROM
CABLE TO
No
FU
Position
FU
Position
Type
Use
Note
BSCC_419
GTIC 0
1.0F
14.SB2-1
GSW2KBA1
2.0F
02.SB2-0
CSB012
Hotlink
1)
BSCC_434
GTIC 1
2.0F
13.SB1-1
GSW2KBA1
2.0F
03.SB1-0
CSB007
Hotlink
2)
BSCC_435
GTIC 1
2.0F
13.SB2-1
GSW2KBA1
2.0F
03.SB2-0
CSB007
Hotlink
3)
BSCC_414
GTIC 0
1.0F
13.SB1-1
GSW2KBA1
2.0F
06.SB1-0
CSB011
Hotlink
4)
BSCC_415
GTIC 0
1.0F
13.SB2-1
GSW2KBA1
2.0F
06.SB2-0
CSB011
Hotlink
5)
Notes:
1)
2)
3)
4)
5)
These cables
These cables
These cables
These cables
These cables
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
have to be removed only in case an ETP is
taken in use in ETC 2 slot 19 (ETPT/E)
taken in use in ETC 0 slot 22 (ETPT/E)
taken in use in ETC 2 slot 22 (ETPT/E)
taken in use in ETC 0 slot 25 (ETPT/E)
taken in use in ETC 2 slot 25 (ETPT/E)
Move and reconnect or add following cables if needed.
Equipping
No
CABLE FROM
old FU
Old
CABLE TO
New
old FU
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Old
New
Type
Use
Note
97 (207)
ETPT
Index
BSCC_418
new FU
Position
Position
GTIC 0
1.0F
14.SB1-1
1.0F
23.SB2-1
ETC 0
new FU
Position
GSW2KB
1
Position
2.0F
03.SB1-0
CSB0011
Hotlink
1)
Notes:
1)
These cables, shall only be moved and re-connected, if an ETP PIU is taken in use in this slot(s)
Add needed ETPLAN and Hotlink cables from GSW-1 and LANU-1 to the required tracks
Equipping
No
CABLE FROM
FU
BSCC_3320
LANU 1
BSCC_3321
LANU 1
BSCC_3322
Position
CABLE TO
FU
5.0B
15.1C
5.0B
15.1E
ETC 0
LANU 1
5.0B
15.1G
BSCC_3326
LANU 1
BSCC_3327
Position
Type
Use
Note
ETPT
Index
1.0B
19.4J
1.0B
22.4J
CHES027
ETPLAN
ETPT 11-0
CHES026
ETPLAN
ETPT 12-0
ETC 0
1.0B
25.4J
CHES026
ETPLAN
ETPT 13-0
5.0B
15.1P
ETC 2
2.0B
19.4J
CHES024
ETPLAN
ETPT 3-0
LANU 1
5.0B
15.2A
ETC 2
2.0B
22.4J
CHES022
ETPLAN
ETPT 4-0
BSCC_3328
LANU 1
5.0B
15.2C
ETC 2
2.0B
25.4J
CHES021
ETPLAN
ETPT 5-0
BSCC_5041
ETC 0
1.0F
20.SB2-1
GSW2KB
1
2.0F
02.SB1-0
CSB014
Hotlink
1)
ETPT 11-0
BSCC_5047
ETC 0
1.0F
26.SB2-1
GSW2KB
1
2.0F
06.SB1-0
CSB013
Hotlink
4)
ETPT 13-0
BSCC_5043
ETC 2
2.0F
20.SB2-1
GSW2KB
1
2.0F
02.SB2-0
CSB011
Hotlink
2)
ETPT 3-0
BSCC_5045
ETC 2
2.0F
23.SB2-1
GSW2KB
1
2.0F
03.SB2-0
CSB009
Hotlink
3)
ETPT 4-0
BSCC_5049
ETC 2
2.0F
26.SB2-1
GSW2KB
1
2.0F
06.SB2-0
CSB011
Hotlink
5)
ETPT 5-0
ETC 0
Notes:
1)
2)
3)
4)
5)
These cables
19/20.
These cables
19/20.
These cables
22/23.
These cables
25/26.
These cables
25/26.
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 0 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 2 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 2 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 0 slot
are included in partlist but shall only be connected in case an ETPT is taken in use in ETC 2 slot
Check SW256B dip switching. See appendix 1
12.1.1.3.4
Change MCMU-1 to SP-EX, SWU-1, SWU-3, SWU-5 and SWU-7 to WO-EX state.
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SP;
ZUSC:EMB,1:SE;
ZUSC:EMB,1:TE;
ZUSC:EMB,1:SP;
ZUSC:SWU,1:SE;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
98 (207)
ETPT
12-0
ZUSC:SWU,1:TE;
ZUSC:SWU,1:WO;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:WO;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:WO;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:WO;
12.1.1.3.5
Cablings from ETPT card to STMU card
12.1.1.3.5.1 For Normal option
Add needed Hotlink cables between STMU cards and ETPT cards in GTIC-0/1 and ETCs cartridges
Equipping
No
CABLE FROM
FU
BSCC_3414
GTIC 0
BSCC_3415
GTIC 0
BSCC_3416
GTIC 0
BSCC_3417
GTIC 0
BSCC_3418
GTIC 1
BSCC_3419
GTIC1
BSCC_3412
GTIC1
BSCC_3413
GTIC1
BSCC_4910
GTIC 0
BSCC_4911
GTIC 0
BSCC_3420
GTIC 0
BSCC_3421
GTIC 0
Position
CABLE TO
ETPT
INDEX
FU
Position
Type
Use
Note
1.0F11.SB10
ETC 1
1.0F
29.SB1-0
CSB007
Hotlink
1)
ETPT 13-0
1.0F11.SB11
ETC 1
1.0F
29.SB1-1
CSB007
Hotlink
1)
ETPT 13-0
1.0F11.SB20
ETC 3
2.0F
29.SB1-0
CSB018
Hotlink
1)
ETPT 5-0
1.0F11.SB21
ETC 3
2.0F
29.SB1-1
CSB019
Hotlink
1)
ETPT 5-0
2.0F10.SB20
ETC 2
2.0F
22.SB1-0
CSB007
Hotlink
1)
ETPT 3-0
2.0F10.SB21
ETC 2
2.0F
22.SB1-1
CSB007
Hotlink
1)
ETPT 3-0
2.0F10.SB10
ETC 0
1.0F
22.SB1-0
CSB014
Hotlink
1)
ETPT 11-0
2.0F10.SB11
ETC 0
1.0F
22.SB1-1
CSB014
Hotlink
1)
ETPT 11-0
1.0F
10.SB1-0
ETC 0
1.0F
25.SB1-0
CSB007
Hotlink
1)
ETPT 12-0
1.0F
10.SB1-1
ETC 0
1.0F
25.SB1-1
CSB007
Hotlink
1)
ETPT 12-0
1.0F
10.SB2-0
ETC 2
2.0F
25.SB1-0
CSB014
Hotlink
ETPT 4-0
1.0F
10.SB2-1
ETC 2
2.0F
25.SB1-1
CSB014
Hotlink
ETPT 4-0
Notes:
1) These cables are installed and tied with soft cable ties to the front side of the cabinet to be ready for connecting plugin units
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
99 (207)
12.1.1.3.5.2 For Flexible option
Add needed Hotlink cables between STMU cards and ETPT cards in GTIC-0/1 and ETCs cartridges
Equipping
No
CABLE FROM
FU
BSCC_5006
ETC 0
BSCC_5007
ETC 0
BSCC_5000
ETC 0
BSCC_5001
ETC 0
BSCC_5002
ETC 0
BSCC_5003
ETC 0
BSCC_5008
ETC 0
BSCC_5009
ETC 0
BSCC_5010
GTIC 0
BSCC_5011
GTIC0
BSCC_5004
GTIC 0
BSCC_5005
GTIC 0
Position
CABLE TO
ETPT Index
FU
Position
Type
Use
Note
1.0F21.SB10
ETC 0
1.0F
19.SB1-0
CSB007
Hotlink
11)
ETPT 11-0
1.0F21.SB11
ETC 0
1.0F
19.SB1-1
CSB007
Hotlink
11)
ETPT 11-0
1.0F21.SB20
ETC 2
2.0F
19.SB1-0
CSB016
Hotlink
11)
ETPT 3-0
1.0F21.SB21
ETC 2
2.0F
19.SB1-1
CSB017
Hotlink
11)
ETPT 3-0
1.0F24.SB21
ETC 2
2.0F
22.SB1-1
CSB0019
Hotlink
11)
ETPT 4-0
1.0F24.SB20
ETC 2
2.0F
22.SB1-0
CSB0017
Hotlink
11)
ETPT 4-0
1.0F24.SB10
ETC 0
1.0F
22.SB1-0
CSB007
Hotlink
11)
ETPT 12-0
1.0F24.SB11
ETC 0
1.0F
22.SB1-1
CSB007
Hotlink
7)
ETPT 12-0
1.0F17.SB10
ETC 0
1.0F
25.SB1-0
CSB007
Hotlink
7)
ETPT 13-0
1.0F17.SB11
ETC 0
1.0F
25.SB1-1
CSB007
Hotlink
7)
ETPT 13-0
1.0F17.SB20
ETC 2
2.0F
25.SB1-0
CSB016
Hotlink
7)
ETPT 5-0
1.0F17.SB21
ETC 2
2.0F
25.SB1-1
CSB018
Hotlink
7)
ETPT 5-0
Notes:
1)
12.1.2
These cables are included in parts list, but shall only be connected in case an ETPT is taken in use in this slot(s)
Create HW configuration
Create cartridges if not exist
GTIC-0, ETC-0 and ETC-1 cartridge:
ZWTC:SGC1C_A,1A1-3,,:AL=1A1-11-12;
GTIC-1, ETC-2 and ETC-3 cartridge:
ZWTC:SGC1C_A,1A2-3,,:AL=1A1-11-13;
Create ETPT functional unit
Normal option.
ZWTU:ETPT,11,0:1A1-3;
ZWTU:ETPT,12,0:1A1-3;
ZWTU:ETPT,13,0:1A1-3;
ZWTU:ETPT,3,0:1A2-3;
ZWTU:ETPT,4,0:1A2-3;
ZWTU:ETPT,5,0:1A2-3;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
100 (207)
Flexible option.
ZWTU:ETPT,11,0:1A1-3;
ZWTU:ETPT,12,0:1A1-3;
ZWTU:ETPT,13,0:1A1-3;
ZWTU:ETPT,3,0:1A2-3;
ZWTU:ETPT,4,0:1A2-3;
ZWTU:ETPT,5,0:1A2-3;
Create ETPT plug-in unit
Normal option.
ZWTP:ETPT,11,0:ETP,0,22::ETPCS,8,1984&&2047,TSL,0&&31;
ZWTP:ETPT,12,0:ETP,0,25::ETPCS,8,512&&575,TSL,0&&31;
ZWTP:ETPT,13,0:ETP,0,29::ETPCS,8,256&&319,TSL,0&&31;
ZWTP:ETPT,3,0:ETP,0,22::ETPCS,8,1024&&1087,TSL,0&&31;
ZWTP:ETPT,4,0:ETP,0,25::ETPCS,8,64&&127,TSL,0&&31;
ZWTP:ETPT,5,0:ETP,0,29::ETPCS,8,768&&831,TSL,0&&31;
Flexible option.
ZWTP:ETPT,11,0:ETP,0,19::ETPCS,8,256&&319,TSL,0&&31;
ZWTP:ETPT,12,0:ETP,0,22::ETPCS,8,512&&575,TSL,0&&31;
ZWTP:ETPT,13,0:ETP,0,25::ETPCS,81280&&1343,TSL,0&&31;
ZWTP:ETPT,3,0:ETP,0,19::ETPCS,8,320&&383,TSL,0&&31;
ZWTP:ETPT,4,0:ETP,0,22::ETPCS,8,576&639,TSL,0&&31;
ZWTP:ETPT,5,0:ETP,0,25::ETPCS,8,1344&&1407,TSL,0&&31;
Note:
For legacy A-interface: Hotlinks are connected from port 0&1 to GSWs. ETPCS functionality is created in plug
in unit to support legacy A interface.
For A over IP: Traffic will be routed though EEP interface created (via ETPA card).
For PS via PCU2_E cards: No separate PCMs are required.This will use PEPeth link created in ETP cards to
communicate with PCU2_E cards in BCSU. This will support CS calls in (A over IP,A over TDM) and PS calls if
PCU2_E cards are used in BSCs.
Connect functional units
ZWUC:ETPT,<pair_number>,<unit_index>:ETP,0:IF=ABIS:;
Create ETS2 functional unit
Normal option.
STMU-0 for ETPT 12-0 and ETPT 4-0
ZWTU:STMU,0:1A1-3;
STMU-16 for ETPT 11-0 AND ETPT 3-0
ZWTU:STMU,16:1A2-3;
STMU-2 for ETPT 13-0 AND ETPT 5-0
ZWTU:STMU,2:1A1-3;
Flexible option.
STMU-24 for ETPT 11-0 and ETPT 3-0
ZWTU:STMU,24:1A1-3;
STMU-30 for ETPT 12-0 and ETPT 4-0
ZWTU:STMU,30:1A1-3;
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STMU-28 for ETPT 13-0 and ETPT 5-0
ZWTU:STMU,28:1A1-3;
Create ETS2 plug-in unit
Normal option
STMU-0 for ETPT 12-0 and ETPT 4-0
ZWTP:STMU,0:ETS2,0,10::LAPD,8,392,TSL,0&&15:;
STMU-16 for ETPT 11-0 AND ETPT 3-0
ZWTP:STMU,16:ETS2,0,10::LAPD,8,384,TSL,0&&15:;
STMU-2 for ETPT 13-0 AND ETPT 5-0
ZWTP:STMU,2:ETS2,0,11::LAPD,8,392,TSL16&&31:;
Flexible option.
STMU-24 for ETPT 11-0 and ETPT 3-0
ZWTP: STMU,24:ETS2,0,21::LAPD,8,397,TSL,0&&15:;
STMU-30 for ETPT 12-0 and ETPT 4-0
ZWTP: STMU,30:ETS2,0,24::LAPD,8,398,TSL,16&&31:;
STMU-28 for ETPT 13-0 and ETPT 5-0
ZWTP: STMU,28:ETS2,0,17::LAPD,8,395,TSL,16&&31:;
Create ETs functional units in ETS2, If ETSI
Normal option.
For ETPT 11-0 (ET creation for STMU-16,IF=0)
ZWTU:ET,1984&&2046:1A2-3:UNIT=STMU,IND=16,IF=0:;
For ETPT 3-0 (ET creation for STMU-16,IF=1)
ZWTU:ET,1024&&1086:1A2-3:UNIT=STMU,IND=16,IF=1:;
For ETPT 12-0 (ET creation for STMU-0,IF=0)
ZWTU:ET,512&&574:1A1-3:UNIT=STMU,IND=0,IF=0;
For ETPT 4-0 (ET creation for STMU-0,IF=1)
ZWTU:ET,64&&126:1A1-3:UNIT=STMU,IND=0,IF=1;
For ETPT 13-0 (ET creation for STMU-2,IF=0)
ZWTU:ET,256&&318:1A1-3:UNIT=STMU,IND=2,IF=0;
For ETPT 5-0 (ET creation for STMU-2,IF=1)
ZWTU:ET,768&&830:1A1-3:UNIT=STMU,IND=2,IF=1;
Flexible option.
For ETPT 11-0 (ET creation for STMU-24,IF=0)
ZWTU:ET,256&318:1A1-3:UNIT=STMU,IND=24,IF=0:;
For ETPT 3-0 (ET creation for STMU-24,IF=1)
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ZWTU:ET,320&&382:1A1-3:UNIT=STMU,IND=24,IF=1:;
For ETPT 12-0 (ET creation for STMU-30,IF=0)
ZWTU:ET,512&&574:1A1-3:UNIT=STMU,IND=30,IF=0;
For ETPT 4-0 (ET creation for STMU-30,IF=1)
ZWTU:ET,576&638:1A1-3:UNIT=STMU,IND=30,IF=1:;
For ETPT 13-0 (ET creation for STMU-28,IF=0)
ZWTU:ET,1280&&1342:1A1-3:UNIT=STMU,IND=28,IF=0;
For ETPT 5-0 (ET creation for STMU-28,IF=1)
ZWTU:ET,1344&&1406:1A1-3:UNIT=STMU,IND=28,IF=1;
Create ETs functional units in ETS2, If ANSI
Normal option.
For ETPT 11-0 (ET creation for STMU-16,IF=0)
ZWTU:ET,2804&&2887:1A2-3:UNIT=STMU,IND=16,IF=0:;
For ETPT 3-0 (ET creation for STMU-16,IF=1)
ZWTU:ET,3056&&3139:1A2-3:UNIT=STMU,IND=16,IF=1:;
For ETPT 12-0 (ET creation for STMU-0,IF=0)
ZWTU:ET,3224&&3307:1A1-3:UNIT=STMU,IND=0,IF=0;
For ETPT 4-0 (ET creation for STMU-0,IF=1)
ZWTU:ET,2048&&2131:1A1-3:UNIT=STMU,IND=0,IF=1;
For ETPT 13-0 (ET creation for STMU-2,IF=0)
ZWTU:ET,3392&& 3475:1A1-3:UNIT=STMU,IND=2,IF=0;
For ETPT 5-0 (ET creation for STMU-2,IF=1)
ZWTU:ET,2888&&2971:1A1-3:UNIT=STMU,IND=2,IF=1;
Flexible option.
For ETPT 11-0 (ET creation for STMU-24,IF=0)
ZWTU:ET,3392&3475:1A1-3:UNIT=STMU,IND=24,IF=0:;
For ETPT 3-0 (ET creation for STMU-24,IF=1)
ZWTU:ET,3476&&3559:1A1-3:UNIT=STMU,IND=24,IF=1:;
For ETPT 12-0 (ET creation for STMU-30,IF=0)
ZWTU:ET,3224&&3307:1A1-3:UNIT=STMU,IND=30,IF=0;
For ETPT 4-0 (ET creation for STMU-30,IF=1)
ZWTU:ET,3308&3391:1A1-3:UNIT=STMU,IND=30,IF=1;
For ETPT 13-0 (ET creation for STMU-28,IF=0)
ZWTU:ET,2552&&2635:1A1-3:UNIT=STMU,IND=28,IF=0;
For ETPT 5-0 (ET creation for STMU-28,IF=1)
ZWTU:ET,2636&&2719:1A1-3:UNIT=STMU,IND=28,IF=1;
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Create ETs Plug in units in ETS2, If ETSI
Normal option.
For ETPT 11-0 (ET creation for STMU-16,IF=0)
ZWTP:ET,1984&&2046:ETS2,0,10::GENERAL,8,1984&&2046,NO:;
For ETPT 3-0 (ET creation for STMU-16,IF=1)
ZWTP:ET,1024&&1086:ETS2,0,10:GENERAL,8,1024&&1086,NO:;
For ETPT 12-0 (ET creation for STMU-0,IF=0)
ZWTP:ET,512&&574:ETS2,0,10:GENERAL,8,512&&574,NO:;
For ETPT 4-0 (ET creation for STMU-0,IF=1)
ZWTP:ET,64&&126:ETS2,0,10::GENERAL,8,64&&126,NO:;
For ETPT 13-0 (ET creation for STMU-2,IF=0)
ZWTP:ET,256&&318:ETS2,0,11:GENERAL,8,256&&318,NO:;
For ETPT 5-0 (ET creation for STMU-2,IF=1)
ZWTP:ET,768&&830:ETS2,0,11::GENERAL,8,768&&830,NO:;
Flexible option.
For ETPT 11-0 (ET creation for STMU-24,IF=0)
ZWTP:ET,256&&318:ETS2,0,21::GENERAL,8,256&&318,NO:;
For ETPT 3-0 (ET creation for STMU-24,IF=1)
ZWTP:ET,320&&382:ETS2,0,21::GENERAL,8,320&&382,NO:;
For ETPT 12-0 (ET creation for STMU-30,IF=0)
ZWTP:ET,512&&574:ETS2,0,24::GENERAL,8,512&&574,NO:;
For ETPT 4-0 (ET creation for STMU-30,IF=1)
ZWTP:ET,576&&638:ETS2,0,24::GENERAL,8,576&&638,NO:;
For ETPT 13-0 (ET creation for STMU-28,IF=0)
ZWTP:ET,1280&&1342:ETS2,0,17::GENERAL,8,1280&&1342,NO:;
For ETPT 5-0 (ET creation for STMU-28,IF=1)
ZWTP:ET,1344&&1406:ETS2,0,17::GENERAL,8,1344&&1406,NO:;
Create ETs Plug in units in ETS2, If ANSI
Normal option
For ETPT 11-0 (ET creation for STMU-16,IF=0)
ZWTP:ET,2804&&2887:ETS2,0,10::GENERAL,8,1984&&2046,NO:;
For ETPT 3-0 (ET creation for STMU-16,IF=1)
ZWTP:ET,3056&&3139:ETS2,0,10::GENERAL,8,1024&&1086,NO:;
For ETPT 12-0 (ET creation for STMU-0,IF=0)
ZWTP:ET,3224&&3307:ETS2,0,10::GENERAL,8,512&&574,NO:;
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For ETPT 4-0 (ET creation for STMU-0,IF=1)
ZWTP:ET,2048&&2131:ETS2,0,10::GENERAL,8,64&&126,NO:;
For ETPT 13-0 (ET creation for STMU-2,IF=0)
ZWTP:ET, 3392&& 3475:ETS2,0,11::GENERAL,8,256&&318,NO:;
For ETPT 5-0 (ET creation for STMU-2,IF=1)
ZWTP:ET,2888&&2971:ETS2,0,11::GENERAL,8,768&&830,NO:;
Flexible option.
For ETPT 11-0 (ET creation for STMU-24,IF=0)
ZWTP:ET,3392&&3475:ETS2,0,21::GENERAL,8,3392&&3475,NO:;
For ETPT 3-0 (ET creation for STMU-24,IF=1)
ZWTP:ET,3476&&3559:ETS2,0,21::GENERAL,8,3476&&3559,NO:;
For ETPT 12-0 (ET creation for STMU-30,IF=0)
ZWTP:ET,3224&&3307:ETS2,0,24::GENERAL,8,3224&&3307,NO:;
For ETPT 4-0 (ET creation for STMU-30,IF=1)
ZWTP:ET,3308&&3391:ETS2,0,24::GENERAL,8,3308&&3391,NO:;
For ETPT 13-0 (ET creation for STMU-28,IF=0)
ZWTP:ET,2552&&2635:ETS2,0,17::GENERAL,8,2552&&2635,NO:;
For ETPT 5-0 (ET creation for STMU-28,IF=1)
ZWTP:ET,2636&&2719:ETS2,0,17::GENERAL,8,2636&&2719,NO:;
Connect STMUs
Normal option.
ZWUC:STMU,0:ETS2,0::BCSU,<Index>:;
ZWUC:STMU,16:ETS2,0::BCSU,<Index>:;
ZWUC:STMU,2:ETS2,0::BCSU,<Index>:;
Flexible option.
ZWUC:STMU,24:ETS2,0::BCSU,<Index>:;
ZWUC:STMU,30:ETS2,0::BCSU,<Index>:;
ZWUC:STMU,28:ETS2,0::BCSU,<Index>:;
Connect ETs, IF ETSI
Normal option.
ZWUC:ET,1984&&2046:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,1024&&1086:ETS2,0:IF=ABIS:BCSU<index>;
ZWUC:ET,512&&574:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,64&&126:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,256&&318:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,768&&830:ETS2,0:IF=ABIS:BCSU,<index>;
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Flexible option.
ZWUC:ET,256&&318:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,320&&382:ETS2,0:IF=ABIS:BCSU<index>;
ZWUC:ET,512&&574:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,576&&638:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,1280&&1342:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,1344&&1406:ETS2,0:IF=ABIS:BCSU,<index>;
Connect ETs, IF ANSI
Normal option.
ZWUC:ET,2804&&2887:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,3056&&3139:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,3224&&3307:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,2048&&2131:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET, 3392&& 3475:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,2888&&2971:ETS2,0:IF=ABIS:BCSU,<index>;
Flexible option.
ZWUC:ET,3392&&3475:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,3476&&3559:ETS2,0:IF=ABIS:BCSU<index>;
ZWUC:ET,3224&&3307:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,3308&&3391:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,2552&&2635:ETS2,0:IF=ABIS:BCSU,<index>;
ZWUC:ET,2636&&2719:ETS2,0:IF=ABIS:BCSU,<index>;
Create protection groups
Normal option.
For ETPT 3-0
ZYWC:,,<BI/UNI>,<APS or MSP>:66,67;
For ETPT 4-0
ZYWC:,,<BI/UNI>,<APS or MSP>:2,3;
For ETPT 5-0
ZYWC:,,<BI/UNI>,<APS or MSP>:10,11;
For ETPT 11-0
ZYWC:,,<BI/UNI>,<APS or MSP>:64,65;
For ETPT 12-0
ZYWC:,,<BI/UNI>,<APS or MSP>:0,1:;
For ETPT 13-0
ZYWC:,,<BI/UNI>,<APS or MSP>:8,9;
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For ANSI-APS and ETSI-MSP.
Flexible option.
For ETPT 3-0
ZYWC:,,<BI/UNI>,<APS or MSP>:98,99;
For ETPT 4-0
ZYWC:,,<BI/UNI>,<APS or MSP>:122,123;
For ETPT 5-0
ZYWC:,,<BI/UNI>,<APS or MSP>:114,115;
For ETPT 11-0
ZYWC:,,<BI/UNI>,<APS or MSP>:96,97;
For ETPT 12-0
ZYWC:,,<BI/UNI>,<APS or MSP>120,121;
For ETPT 13-0
ZYWC:,,<BI/UNI>,<APS or MSP>:112,113;
For ANSI-APS and ETSI-MSP.
Note: This command is required only if PCMs are created in ETP plug in units.
Connect hotlink ports
ZWTA:GSW,0:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPT,<unit_pair>,<unit_index>:ETP,
<PIU_index>:HOTLINK,<port_index>:;
ZWTA:GSW,1:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPT,<unit_pair>,<unit_index>:ETP,
<PIU_index>:HOTLINK,<port_index>:;
ZWTA:STMU,<Unit_index>:ETS2,<PIU_Index>:HOTLINK,<Port_
Index>:ETPT,<unit_pair>,<unit_index>:ETP,<PIU_index>:HOTLINK,<port_index>:;
Normal option.
ETPT 11-0
ZWTA:GSW,0:SW256B,7:HOTLINK,6:ETPT,11,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,7:HOTLINK,6:ETPT,11,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,16:ETS2,0:HOTLINK,0:ETPT,11,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,16:ETS2,0:HOTLINK,1:ETPT,11,0:ETP,0:HOTLINK,5:;
ETPT 3-0
ZWTA:GSW,0:SW256B,4:HOTLINK,0:ETPT,3,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,0:ETPT,3,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,16:ETS2,0:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,16:ETS2,0:HOTLINK,3:ETPT,3,0:ETP,0:HOTLINK,5:;
ETPT 12-0
ZWTA:GSW,0:SW256B,2:HOTLINK,0:ETPT,12,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,0:ETPT,12,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,0:ETS2,0:HOTLINK,0:ETPT,12,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,0:ETS2,0:HOTLINK,1:ETPT,12,0:ETP,0:HOTLINK,5:;
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ETPT 4-0
ZWTA:GSW,0:SW256B,0:HOTLINK,2:ETPT,4,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,0:HOTLINK,2:ETPT,4,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,0:ETS2,0:HOTLINK,2:ETPT,4,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,0:ETS2,0:HOTLINK,3:ETPT,4,0:ETP,0:HOTLINK,5:;
ETPT 13-0
ZWTA:GSW,0:SW256B,1:HOTLINK,0:ETPT,13,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,0:ETPT,13,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,2:ETS2,0:HOTLINK,0:ETPT,13,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,2:ETS2,0:HOTLINK,1:ETPT,13,0:ETP,0:HOTLINK,5:;
ETPT 5-0
ZWTA:GSW,0:SW256B,3:HOTLINK,0:ETPT,5,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,3:HOTLINK,0:ETPT,5,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,2:ETS2,0:HOTLINK,2:ETPT,5,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,2:ETS2,0:HOTLINK,3:ETPT,5,0:ETP,0:HOTLINK,5:;
Flexible option.
ETPT 11-0
ZWTA:GSW,0:SW256B,1:HOTLINK,0:ETPT,11,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,0:ETPT,11,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,24:ETS2,0:HOTLINK,0:ETPT,11,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,24:ETS2,0:HOTLINK,1:ETPT,11,0:ETP,0:HOTLINK,5:;
ETPT 3-0
ZWTA:GSW,0:SW256B,1:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,24:ETS2,0:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,24:ETS2,0:HOTLINK,3:ETPT,3,0:ETP,0:HOTLINK,5:;
ETPT 12-0
ZWTA:GSW,0:SW256B,2:HOTLINK,0:ETPT,12,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,0:ETPT,12,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,30:ETS2,0:HOTLINK,0:ETPT,12,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,30:ETS2,0:HOTLINK,1:ETPT,12,0:ETP,0:HOTLINK,5:;
ETPT 4-0
ZWTA:GSW,0:SW256B,2:HOTLINK,2:ETPT,4,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,2:ETPT,4,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,30:ETS2,0:HOTLINK,2:ETPT,4,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,30:ETS2,0:HOTLINK,3:ETPT,4,0:ETP,0:HOTLINK,5:;
ETPT 13-0
ZWTA:GSW,0:SW256B,5:HOTLINK,0:ETPT,13,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,5:HOTLINK,0:ETPT,13,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,28:ETS2,0:HOTLINK,0:ETPT,13,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,28:ETS2,0:HOTLINK,1:ETPT,13,0:ETP,0:HOTLINK,5:;
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ETPT 5-0
ZWTA:GSW,0:SW256B,5:HOTLINK,2:ETPT,5,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,5:HOTLINK,2:ETPT,5,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,28:ETS2,0:HOTLINK,2:ETPT,5,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,28:ETS2,0:HOTLINK,3:ETPT,5,0:ETP,0:HOTLINK,5:;
Configure ETPSIG-M TCP/IP stack configuration for ETPT (SE-NH).
ZQRA:ETPT, <pair_number>,<unit_index>::IL0::UP;
ZQRA:ETPT, <pair_number>,<unit_index>::IL1::UP;
ZQRA:ETPT, <pair_number>,<unit_index>::BOND0,IL0,IL1,::UP:;
Configure ETPSIG-M IP address with parameters PDM to ETPT BOND0 interface.
ZQRN:ETPT,<pair_number>,<unit_index>::BOND0:"<ip_address>",<network_mask_length>,P,ID
M:;
Create ETPSIG-C IP address
ZQRN:ETPT,<pair_number>,>unit_index>::BOND0:"<IP_address>",<network_mask_length>,L,ICV
::;
Create IuA messaging configuration for ETPSIG-M and ETPSG-C
ZD2C:M:BCSU,<unit_index>:ETPT<pair_number>,<unit_index>:;
ZD2C:C,NOR:BCSU,<unit_index>:ETPT,<pair_umber>,<unit_index>:;
Note!
ETPSIG-M is created only to Gateway BCSU and ETPSIG-C must be created to all BCSU’s for all ETP/ETP-A
units
Create EL0 IP address to ETPT
ZQRA:ETPT,<pair_number>,<unit_index>::EL0::UP;
ZQRN:ETPT,<pair_number>,<unit_index>::EL0,:"<ip_address>",<network_mask_length>,P,:;
Create EEP interface for traffic between ETPT and ETPA
ZQRA:ETPT,<pair_number>,<unit_index>::<EEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPT,<pair_number>,<unit_index>::<EEP_VLAN>,:"<ip_address>",<network_mask_length
>,L,VI:;
ZQRP:ETPT,<pair_number>,<unit_index>::<EEP_VLAN>:"<ip_address>":TAG,"EEP":;
Note: EEP interface creation is required only if A over IP is used.
Note: Create the PEP link to ETPGID 0 first if you want to get the ETP object ID for the ETPGID to match in NetAct.
Create PEP interface if PCU2-E’s are in use
ZQRA:ETPT,<pair_number>,<unit_index>::<PEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPT,<pair_number>,<unit_index>::<PEP_VLAN>,:”<ip_address>",<network_mask_length
>,L,VI:;
ZQRP:ETPT, <pair_number>,<unit_index>::<PEP_VLAN>:"<ip_address>":TAG,"PEP":;
Create IN0 interface (Internal Octeon-DSP interface)
ZQRA:ETPT,<pair number>,<unit index>:IN0::UP;
ZQRN:ETPT,<pair number>,<unitindex>::IN0”<ipaddress>”,<NETWORK_MASK_LENGTH>,P,I::;
Create route from BCSUs to ETPT.
Route is for OMU/TRXSIG from BCSUs to BTSs.ETPT is the GW towards BTS.
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ZQKC:BCSU,<Index>::"< Network IP address >",<Sub net mask> :"<ETPT (IL0/IL1) IP address for
C-Plane>":LOG:;
Change state of ETPT to TE-EX
ZUSC:ETPT,<pair_number>,<unit_index>:SE;
ZUSC:ETPT,<pair_number>,<unit_index>:TE;
12.1.3
Check Plug-in unit software
Note: The flashing does not succeed if the username and password in the ETP card does not match the BSC’s
username & password. Refer Appendix 5 to see an example how to update the username & password via ETP
service terminal.
Check the flash software of ETP cards:ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Check the CBUHAN version in BSC package.
ZDDE::"ZMXP:W0-MMDIRE/CBU*.*";
Macro will choose a valid option (option1 or option2 or option3) based on the output of above interrogation
commands.
Option 1:- When existing ETP version is same or older than the versions mentioned below and ETP software
in OMU DISK is newer than PAC versions mentioned below. If CBUHAN version is older than the version
mentioned below, then option 1 needs to be selected.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for ETPT.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Upgrade the ETP software on the Standby flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for ETPT.
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
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Option 2:- When existing ETP version is newer than PAC versions mentioned below and also if CBUHAN
version is newer than the version mentioned.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for ETPT.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card. This will verify if
flash upgrade was successful.
ZUSU:UT=<ETP type>,UI=<index>;
Upgrade the ETP software on the new STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for ETPT.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card from the original
flash.
ZUSU:UT=<ETP type>,UI=<index>;
Option 3:- When existing ETP version is same or older than the versions mentioned below and ETP software
in OMU DISK is also same or older than PAC versions mentioned below.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for ETPT.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
After card restart, log-in to the card using following MML commands ZDDS;
ZRS:<physical address>
switch_flash ctot
After the card comes up, upgrade the ETP software on the this new flash of the ETP card using following MML
command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for ETPT.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
To restore to the original default flash, we need to switch flash again. So as the ETP card comes up, log-in to the
card using following MML commands ZDDS
ZRS:<physical address>
Switch to other flash using below command ST command switch_flash ctot
NOTE: This command will switch flash and restart the ETP card as well. After the card comes up, open a new
MML session.
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
12.1.4
Diagnostic
Run diagnostic to the ETPT
ZUDU:ETPT,<pair number>,<unit index>;
Note: The diagnostic part will be run on both MCMUs.
Change working state of ETPT to WO-EX
ZUSC:ETPT,<pair number>,<unit index>:WO;
12.1.5
STMU s to WO-EX state
ZUSC:STMU,<STMU index>,SE;
ZUSC:STMU,<STMU index>,TE;
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Check current boot SW version in STMU and compare it to version that is found from the active SW package
ZWDI:UT=STMU,UI=<STMU_index>;
If boot SW versions do not match, these must be upgraded.
Update can be done with following command:
ZWDR:UT=STMU,UI=<STMU_index>;
Note! This can take from one unit 40-60 minutes. Do not remove the cards or cause power restart while
updating the boot SW, because the SW can corrupt and only way to recover is to send the PIU to HWS.
During updating flash memory of ETS2 all connections will be prevented through that Plug-in unit.
Run diagnostic to STMU
ZUDU:STMU,<STMU index>::;
Change STMU to WO-EX
ZUSC:STMU,<STMU index>,WO;
12.1.6
Check PCU configuration
If Packet Abis interface is also used in PS traffic check PCU configuration. PCU2-D or PCU2-E must be created to
the PCUPAB function that it can carry Packet Abis PS data.
For PCU2_E cards PEP interface creation is required to support PEP Eth link. These creations are mentioned in
the below document.
PCU configuration can be checked with following command:
ZWTI:BCSU,<unit_index>;
Use “ BSC PCU HW implementation for PS traffic” procedure if PCU configurations need to change.
ETP- PCU connection.
ZESK:ETPT,<pair number>:BCSU,<index>:PCU,<index>:;
Note: This is required for both PCU2_E and PCU2_D cards.
12.2
Creation of ETPT unit with hardware protection
Check the source configuration for overlapping PCM areas.
Note!
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Macro asks in this point redundancy type and Plug-in Unit location. After that macro check possible
unit/PCM overlapping.
If there is overlapping PCM areas move or remove resources from them. Macro will remove unit and Plug-in Units
automatically after needed recourses are moved or removed.
Note: - Refer Appendix 2 to check overlapping PCMs used by existing units in BSCs. Please note to shift existing
traffic from the plug in unit. Once traffic is shifted remove the units and cables and then insert ETP cards to
required tracks. Please note to turn off jumper settings in GSW units if PCMs are not used. Refer Appendix 1 to
check jumpers settings used for existing ETP cards.
Note: - There are two options for installing ETPT in Initial flexi BSC-Normal and Flexible.
Normal option: Configurations supported before S15 EP 2.1 releases.
Flexible option: New flexible ETP layout in Flexi BSC. The implementation of flexible option in initial flexi BSC will
be supported only from software S15 EP2.1. If flexible option is taken to use, the supported topology is T29.
Change it with following command: ZW6G:T29;
12.2.1
Install Plug-in units, terminators and cables
12.2.1.1
Terminators and setting modules
Remove PCMC8A connectors
Normal option
Position
1.0B
14.2M
1.0B
15.2M
1.0B
16.2M
1.0B
17.2M
1.0B
19.2M
1.0B
20.2M
1.0B
22.2M
1.0B
23.2M
1.0B
25.2M
1.0B
26.2M
2.0B
14.2M
2.0B
15.2M
2.0B
16.2M
2.0B
17.2M
2.0B
19.2M
2.0B
20.2M
2.0B
22.2M
2.0B
ID
C111523
Name
PCMC8A
FU
GTIC 0
Use
PCM connector module
Note
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
ETPT/STMU
INDEX
ETPT 0,0
ETPT 0,0
ETPT 1,0
ETPT 1,0
ETPT 2,0
ETPT 2,0
ETPT 3,1
ETPT 3,1
ETPT 4,1
ETPT 4,1
ETPT 0,1
ETPT 0,1
ETPT 1,1
ETPT 1,1
ETPT 2,1
ETPT 2,1
ETPT 3,0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
ETPT 3,0
114 (207)
23.2M
2.0B
25.2M
2.0B
26.2M
1.0B
10.2M
1.0B
11.2M
1.0B
12.2M
2.0B
10.2M
2.0B
11.2M
2.0B
12.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
ETPT 4,0
ETPT 4,0
STMU 0
STMU 2
STMU 4
STMU 1
STMU 3
STMU 5
Notes.
1) When ETP PIU/STMU is used in this slot
Flexible option.
Position
1.0B
19.2M
1.0B
20.2M
1.0B
22.2M
1.0B
23.2M
1.0B
25.2M
1.0B
26.2M
1.0B
15.2M
ID
C111523
Name
PCMC8A
FU
ETC 0
Use
PCM connector module
Note
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
GTIC 0
PCM connector module
1)
1.0B
16.2M
C111523
PCMC8A
GTIC 0
PCM connector module
1)
2.0B
19.2M
2.0B
20.2M
2.0B
22.2M
2.0B
23.2M
2.0B
25.2M
2.0B
26.2M
2.0B
15.2M
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
GTIC 1
PCM connector module
1)
2.0B
16.2M
C111523
PCMC8A
GTIC 1
PCM connector module
1)
1.0B
17.2M
C111523
PCMC8A
GTIC 0
PCM connector module
1)
ETPT/STMU
INDEX
ETPT 0,0
ETPT 0,0
ETPT 1,0
ETPT 1,0
ETPT 2,0
ETPT 2,0
ETPT
5,0(Alternative
2
ETPT
5,0(Alternative
2
ETPT 0,1
ETPT 0,1
ETPT 1,1
ETPT 1,1
ETPT 2,1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
ETPT 2,1
ETPT
5,1(Alternative
2
ETPT
5,1(Alternative
2
STMU 15
115 (207)
1.0B
21.2M
1.0B
24.2M
2.0B
17.2M
2.0B
21.2M
2.0B
24.2M
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 0
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
C111523
PCMC8A
ETC 2
PCM connector module
1)
STMU 24
STMU 30
STMU 14
STMU 25
STMU 31
Notes.
1) When ETP PIU/STMU is used in this slot
Add Terminators and setting modules
Normal option
Position
ID
Name
FU
Use
Note
1.0B 14
4E
C108585
ADMOD01
GTIC 0
For ETPT
ETSI
1)
1.0B 14
4E
C108704
ADMOD17
GTIC 0
For ETPT
ANSI
2)
1.0B 16
4E
C108585
ADMOD01
GTIC 0
For ETPT
ETSI
1)
1.0B 16
4E
C108704
ADMOD17
GTIC 0
For ETPT
ANSI
2)
1.0B 19
4E
C108585
ADMOD01
ETC 0
For ETPT
ETSI
1)
1.0B 19
4E
C108704
ADMOD17
ETC 0
For ETPT
ANSI
2)
1.0B 22
4E
C108585
ADMOD01
ETC 0
For ETPT
ETSI
1)
1.0B 22
4E
C108704
ADMOD17
ETC 0
For ETPT
ANSI
2)
1.0B 25
4E
C108585
ADMOD01
ETC 0
For ETPT
ETSI
1)
1.0B 25
4E
C108704
ADMOD17
ETC 0
For ETPT
ANSI
2)
1.0B 29
4E
C108585
ADMOD01
ETC 1
For ETPT
ETSI
1)
1.0B 29
4E
C108704
ADMOD17
ETC 1
For ETPT
ANSI
2)
2.0B 14
4E
C108585
ADMOD01
GTIC 1
For ETPT
ETSI
1)
2.0B 14
4E
C108704
ADMOD17
GTIC 1
For ETPT
ANSI
2)
2.0B 16
4E
C108585
ADMOD01
GTIC 1
For ETPT
ETSI
1)
2.0B 16
4E
C108704
ADMOD17
GTIC 1
For ETPT
ANSI
2)
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
ETPT
INDEX
ETPT 0-0
ETPT 0-0
ETPT 1-0
ETPT 1-0
ETPT 2-0
ETPT 2-0
ETPT 3-1
ETPT 3-1
ETPT 4-1
ETPT 4-1
ETPT 5-1
ETPT 5-1
ETPT 0-1
ETPT 0-1
ETPT 1-1
ETPT 1-1
116 (207)
2.0B 19
4E
C108585
ADMOD01
ETC 2
For ETPT
ETSI
1)
2.0B 19
4E
C108704
ADMOD17
ETC 2
For ETPT
ANSI
2)
2.0B 22
4E
C108585
ADMOD01
ETC 2
For ETPT
ETSI
1)
2.0B 22
4E
C108704
ADMOD17
ETC 2
For ETPT
ANSI
2)
2.0B 25
4E
C108585
ADMOD01
ETC 2
For ETPT
ETSI
1)
2.0B 25
4E
C108704
ADMOD17
ETC 2
For ETPT
ANSI
2)
2.0B 29
4E
C108585
ADMOD01
ETC 3
For ETPT
ETSI
1)
2.0B 29
4E
C108704
ADMOD17
ETC 3
For ETPT
ANSI
2)
1.0B 9
1A
C101501
CABID1A
GTIC 0
1.0B 18
1A
C101501
CABID1A
ETC 0
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
1.0B 27
3D
C101501
CABID1A
ETC 1
1.0B 9
1C
C101530
CARID11
GTIC 0
1.0B 18
1C
C101530
CARID11
ETC 0
1.0B 27
1A
C101530
CARID11
ETC 1
2.0B 9
1A
C101501
CABID1A
GTIC 1
2.0B 18
1A
C101501
CABID1A
ETC 2
2.0B 27
3D
C101501
CABID1A
ETC 3
2.0B 9
1C
C101536
CARID21
GTIC 1
2.0B 18
1C
C101536
CARID21
ETC 2
2.0B 27
1A
C101536
CARID21
ETC 3
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
ETPT 2-1
ETPT 2-1
ETPT 3-0
ETPT 3-0
ETPT 4-0
ETPT 4-0
ETPT 5-0
ETPT 5-0
ETPT 0-0/
ETPT 1-0
ETPT 2-0/
ETPT 3-1/
ETPT 4-1
ETPT 5-1
ETPT 0-0/
ETPT 1-0
ETPT 2-0/
ETPT 3-1/
ETPT 4-1
ETPT 5-1
ETPT 0-1/
ETPT 1-1
ETPT 2-1/
ETPT 3-0/
ETPT 4-0
ETPT 5-0
ETPT 0-1/
ETPT 1-1
ETPT 2-1/
ETPT 3-0/
ETPT 4-0
ETPT 5-0
Notes.
1) When ETP PIU is used ETPT ETSI in this slot
2) When ETP PIU is used ETPT ANSI in this slot
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
117 (207)
Flexible option.
Position
ID
Name
FU
Use
Note
ETPT Index
1.0B 19
4E
C108585
ADMOD01
ETC 0
1)
ETPT 0-0
1.0B 19
4E
C108704
ADMOD17
ETC 0
2)
ETPT 0-0
1.0B 22
4E
C108585
ADMOD01
ETC 0
1)
ETPT 1-0
1.0B 22
4E
C108704
ADMOD17
ETC 0
2)
ETPT 1-0
1.0B 25
4E
C108585
ADMOD01
ETC 0
1)
ETPT 2-0
1.0B 25
4E
C108704
ADMOD17
ETC 0
2)
ETPT 2-0
1.0B 28
4E
C108585
ADMOD01
ETC 1
1)
ETPT 3-0
1.0B 28
4E
C108704
ADMOD17
ETC 1
2)
ETPT 3-0
1.0B 30
4E
C108585
ADMOD01
ETC 1
1)
ETPT 4-0
1.0B 30
4E
C108704
ADMOD17
ETC 1
2)
ETPT 4-0
2.0B 19
4E
C108585
ADMOD01
ETC 2
1)
ETPT 0-1
2.0B 19
4E
C108704
ADMOD17
ETC 2
2)
ETPT 0-1
2.0B 22
4E
C108585
ADMOD01
ETC 2
1)
ETPT 1-1
2.0B 22
4E
C108704
ADMOD17
ETC 2
2)
ETPT 1-1
2.0B 25
4E
C108585
ADMOD01
ETC 2
1)
ETPT 2-1
2.0B 25
4E
C108704
ADMOD17
ETC 2
2)
ETPT 2-1
2.0B 28
4E
C108585
ADMOD01
ETC 3
1)
ETPT 3-1
2.0B 28
4E
C108704
ADMOD17
ETC 3
2)
ETPT 3-1
2.0B 30
4E
C108585
ADMOD01
ETC 3
1)
ETPT 4-1
2.0B 30
4E
C108704
ADMOD17
ETC 3
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
2)
ETPT 4-1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
118 (207)
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
1.0B 33
4E
C108585
ADMOD01
ETC 1
1.0B 33
4E
C108704
ADMOD17
ETC 1
2.0B 33
4E
C108585
ADMOD01
ETC 3
2.0B 33
4E
C108704
ADMOD17
ETC 3
For
ETPT
ETSI
For
ETPT
ANSI
For
ETPT
ETSI
For
ETPT
ANSI
1)
ETPT 5-0
2)
ETPT 5-0
1)
ETPT 5-1
2)
ETPT 5-1
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
1)
1.0B 15
C108585
ADMOD01 GTIC 0
For
4E
ETPT
ETSI
2)
1.0B 15
C108704
ADMOD17 GTIC 0
For
4E
ETPT
ANSI
1)
2.0B 15
C108585
ADMOD01 GTIC 1
For
4E
ETPT
ETSI
2)
C108704
ADMOD17 GTIC 1
For
2.0B 15
4E
ETPT
ANSI
1.0B 9
C101501
CABID1A
GTIC 0
CABID
1A
for ETP /
ETP-A
C101501
CABID1A
ETC 0
CABID
1.0B 18
1A
for ETP /
ETP-A
C101501
CABID1A
ETC 1
CABID
1.0B 27
3D
for ETP /
ETP-A
ETPT 5-0
ETPT 5-0
ETPT 5-1
ETPE 5-1
1.0B 9
1C
C101530
CARID11
GTIC 0
1.0B 18
1C
C101530
CARID11
ETC 0
1.0B 27
1A
C101530
CARID11
ETC 1
2.0B 9
1A
C101501
CABID1A
GTIC 1
CABID
for ETP /
ETP-A
ETPT 5-0
(Alternative
2)
ETPT 0-0/
ETPT 1-0/
ETPT 2-0
ETPT 3-0/
ETPT 4-0/
ETPT 5-0(
Alternative
1)
ETPT 5-0
(Alternative
2)
ETPT 0-0/
ETPT 1-0/
ETPT 2-0
ETPT 3-0/
ETPT 4-0/
ETPT 5-0 (
Alternative
1)
ETPT 51(Alternative
2)
2.0B 18
1A
C101501
CABID1A
ETC 2
CABID
for ETP /
ETP-A
ETPT 0-1/
ETPT 1-1/
ETPT 2-1
2.0B 27
3D
C101501
CABID1A
ETC 3
CABID
for ETP /
ETP-A
2.0B 9
1C
C101536
CARID21
GTIC 1
CARID
for ETP /
ETP-A
ETPT 3-1/
ETPT 4-1/
ETPT 5-1(
Alternative
1)
ETPT 51(Alternative
2)
CARID
for ETP /
ETP-A
CARID
for ETP /
ETP-A
CARID
for ETP /
ETP-A
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
119 (207)
2.0B 18
1C
C101536
CARID21
ETC 2
2.0B 27
1A
C101536
CARID21
ETC 3
CARID
for ETP /
ETP-A
CARID
for ETP /
ETP-A
ETPT 0-1/
ETPT 1-1/
ETPT 2-1
ETPT 3-1/
ETPT 4-1/
ETPT 5-1(
Alternative
1)
Notes.
1) When ETP PIU is used ETPT ETSI in this slot
2) When ETP PIU is used ETPT ANSI in this slot
12.2.1.2
Plug-in unit installation
Normal option.
Cartridge
SGC1C
position
Unit
Cartridge /
Slots
ETPT group
index
Mate ETS2/SET
Cartridge / slot /
Interface
of mate ETS2
1.3
GTIC-0
14&15
0-0
STMU 4/ SET 18
GTIC 0 / 12 / SB2
2.3
GTIC-1
14&15
0-1
STMU 5; SET 22
GTIC 1 / 12 / SB2
1.3
GTIC-0
16&17
1-0
STMU 4; SET 16
GTIC 0 / 12 / SB1
2.3
GTIC-1
16&17
1-1
STMU 5; SET 20
GTIC 1 / 12 / SB1
1.3
ETC-0
19&20
2-0
STMU 0; SET 0
GTIC 0 / 10 / SB1
2.3
ETC-2
19&20
2-1
STMU 1; SET 4
GTIC 1 / 10 / SB1
2.3
ETC-2
22&23
3-0
STMU 0; SET 2
GTIC 0 / 10 / SB2
1.3
ETC-0
22&23
3-1
STMU 1; SET 6
GTIC 1 / 10 / SB2
2.3
ETC-2
25&26
4-0
STMU 2; SET 8
GTIC 0 / 11 / SB1
1.3
ETC-0
25&26
4-1
STMU 3; SET 12
GTIC 1 / 11 / SB1
2.3
ETC-3
29&30
5-0
STMU 2; SET 10
GTIC 0 / 11 / SB2
1.3
ETC-1
29&30
5-1
STMU 3; SET 14
GTIC 1 / 11 / SB2
Note: Check Appendix 4 for ETP strapping’s and STMU strapping’s
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
120 (207)
Flexible option
Cartridge
SGC1C
position
1.3
2.3
1.3
2.3
1.3
2.3
1.3
2.3
1.3
2.3
Cartridge
/ Slots
ETC 0 /
19
ETC 2 /
19
ETC 0 /
22
ETC 2 /
22
ETC 0 /
25
ETC 2 /
25
ETC 1 /
28
ETC 3 /
28
ETC 1 /
30
ETC 3 /
30
ETPT
group
index
Mate ETS2/SET
Cartridge / slot /
Interface
ETPT 0-0
STMU 24; SET 96
ETC 0 / 21 / SB1
ETPT 0-1
STMU 25; SET 100
ETC 2 / 21 / SB1
ETPT 1-0
STMU 24; SET 98
ETC 0 / 21 / SB2
ETPT 1-1
STMU 25; SET 102
ETC 2 / 21 / SB2
ETPT 2-0
STMU 14; SET 56
GTIC 1 / 17 / SB1
ETPT 2-1
STMU 15; SET 60
GTIC 0 / 17 / SB1
ETPT 3-0
STMU 14; SET 58
GTIC 1 / 17 / SB2
ETPT 3-1
STMU 15; SET 62
GTIC 0 / 17 / SB2
ETPT 4-0
STMU 30; SET 120
ETC 0/ 24 / SB1
ETPT 4-1
STMU 31; SET 124
ETC 2 / 24 / SB1
of mate ETS2
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
121 (207)
ETC 1 /
33
ETC 3 /
33
1.3
ETPT 5-0
STMU 30; SET 122
ETC 0/ 24 / SB2
ETPT 5-1
STMU 31; SET 126
ETC 2 / 24 / SB2
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15
GTIC 0 /
1.3
15
ETPT 5-0
STMU 30; SET 122
GTIC 1 /
2.3
15
ETPT 5-1
STMU 31; SET 126
ETC 0 / 24 / SB2
2.3
ETC 2 / 24 / SB2
Note: Check Appendix 4 for ETP strapping’s and STMU strapping’s
12.2.1.3
Cabling
12.2.1.3.1
Change MCMU-0, SWU-0, SWU-2, SWU-4 and SWU-6 SE-NH state
ZUSC:MCMU,0:SP; If needed
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:SE;
ZUSC:EMB,0:SP;if needed
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:SE;
ZUSC:SWU,6:TE;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
122 (207)
ZUSC:SWU,6:SE;
ZUSC:SWU,6:SE;
12.2.1.3.1.1
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Remove following cables if needed.
Remove following cables if ETP Plug-in unit is taken use in GTIC slot 14 or 16.
Equipping
CABLE FROM
CABLE TO
No
FU
Position
FU
BSCC_479
GTIC 0
1.0B 14.4G
GTIC 1
BSCC_483
GTIC 0
1.0B 16.4G
GTIC 1
Position
2.0B
14.4G
2.0B
16.4G
Type
Use
Note
CHES017
2N
1)
CHES017
2N
2)
Notes:
1) This cable has to be removed if ETP PIU in slot 14 of GTIC x is taken in use.
2) This cable has to be removed if ETP PIU in slot 16 of GTIC x is taken in use
Move and reconnect or add following cable if needed.
Equipping
Cable from
No
Cable to
Old
FU/
Old
Position/
Old FU/
Old
Position/
New
FU
New
Position
New FU
New
Position
ETC
0
1.0F
15.SB2-0
GSW2KBA0
ETC
0
1.0F
17.SB2-0
GSW2KBA0
ETC
0
Notes:
1)
2)
3)
1.0F
20.SB2-0
ETPT
index
-
CSB007
Hotlink
1)
ETPT
0-0
-
CSB009
Hotlink
2)
ETPT
1-0
CSB010
Hotlink
3)
ETPT
2-0
1.0F
02.SB1-0
1.0F
30.SB2-0
BSCC_3408
Note
1.0F
03.SB1-0
1.0F
26.SB2-0
BSCC_3406
Use
1.0F
08.SB4-0
1.0F
23.SB2-0
BSCC_416
Type
GSW2KBA0
-
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair GTIC 0 & 1 slot
14/15 is taken in use.
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair GTIC 0 & 1 slot
16/17 is taken in use.
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot
19/20 is taken in use.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
123 (207)
Add needed ETPLAN and Hotlink cables from GSW-0 and LANU-0 to required tracks
Equipping
CABLE FROM
No
FU
BSCC_3300
ETPT
index
CABLE TO
Position
FU
LANU
0
4.0B 15.1C
ETC 0
BSCC_3301
LANU
0
4.0B 15.1E
BSCC_3302
LANU
0
BSCC_3303
Position
Type
Use
1.0B
19.4G
CHES026
ETPLAN
ETPT
2-0
ETC 0
1.0B
22.4G
CHES025
ETPLAN
ETPT
3-1
4.0B 15.1G
ETC 0
1.0B
25.4G
CHES025
ETPLAN
ETPT
4-1
LANU
0
4.0B 15.1J
ETC 1
1.0B
29.4G
CHES024
ETPLAN
ETPT
5-1
BSCC_3306
LANU
0
4.0B 15.1P
ETC 2
2.0B
19.4G
CHES023
ETPLAN
ETPT
2-1
BSCC_3307
LANU
0
4.0B 15.2A
ETC 2
2.0B
22.4G
CHES021
ETPLAN
ETPT
3-0
BSCC_3308
LANU
0
4.0B 15.2C
ETC 2
2.0B
25.4G
CHES020
ETPLAN
ETPT
4-0
BSCC_3309
LANU
0
4.0B 15.2E
ETC 3
2.0B
29.4G
CHES019
ETPLAN
ETPT
5-0
BSCC_3312
LANU
0
4.0B 15.2L
GTIC 0
1.0B
14.4G
CHES026
ETPLAN
1)
ETPT
0-0
BSCC_3313
LANU
0
4.0B 15.2N
GTIC 0
1.0B
16.4G
CHES025
ETPLAN
1)
ETPT
1-0
BSCC_3314
LANU
0
4.0B 15.2P
GTIC 1
2.0B
14.4G
CHES022
ETPLAN
1)
ETPT
0-1
BSCC_3315
LANU
0
4.0B 15.2R
GTIC 1
CHES021
ETPLAN
1)
ETPT
1-1
BSCC_3430
GTIC
1
2.0F
15.SB2-0
GSW2KBA0
CSB018
Hotlink
2), 3)
ETPT
0-1
BSCC_3432
GTIC
1
2.0F
17.SB2-0
GSW2KBA0
CSB018
Hotlink
2), 4)
ETPT
1-1
BSCC_3434
ETC
2
2.0F
20.SB2-0
GSW2KBA0
CSB018
Hotlink
Default,
5)
ETPT
2-1
BSCC_3438
ETC
0
1.0F
26.SB2-0
GSW2KBA0
CSB013
Hotlink
2), 6)
ETPT
4-1
BSCC_3400
ETC
2
2.0F26.SB20
GSW2KBA0
CSB016
Hotlink
10)
ETPT
4-0
BSCC_3402
ETC
3
2.0F30.SB20
GSW2KBA0
CSB015
Hotlink
10)
ETPT
5-0
BSCC_3404
ETC
2
2.0F23.SB20
GSW2KBA0
CSB013
Hotlink
10)
ETPT
3-0
BSCC_3440
ETC
0
1.0F
23.SB2-0
GSW2KBA0
CSB013
Hotlink
7), 9)
ETPT
3-1
2.0B
16.4G
1.0F
08.SB41
1.0F
03.SB11
1.0F
02.SB11
1.0F
01.SB21
1.0F
01.SB20
1.0F
04.SB10
1.0F
05.SB10
1.0F
05.SB11
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Note
124 (207)
BSCC_3442
ETC
1
1.0F
30.SB2-0
GSW2KBA0
1.0F
04.SB11
CSB013
Hotlink
7), 8)
ETPT
5-1
Notes:
1) These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s).
2) These cables are not included in part list.
3) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0 & 1 slot 14/15 is taken in
use.
4) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0 & 1 slot 16/17 is taken in
use.
5) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 19/20 is taken in
use.
6) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 25/26 is taken in
use.
7) These cables are not included in part list.
8) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 1 & 3 slot 29/30 is taken in
use.
9) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 22/23 is taken in us
10) These cables are installed and tied with soft cable ties to the front side of the cabinet to be ready for connecting plug-in units
Check SW256B dips switching. See appendix1
12.2.1.3.1.2
For Flexible Option.
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or add following cables if needed.
Equipping
Cable from
Cable to
No
Old
FU/
Old
Position/
Old FU/
Old
Position/
New
FU
New
Position
New FU
New
Position
BSCC_416
ETC
0
1.0F
23.SB20
GSW2KB
0
BSCC_5046
ETC
0
1.0F
26.SB20
GSW2KB
0
BSCC_5044
ETC
2
2.0F
23.SB20
2.0F
29.SB20
2.0F
20.SB20
GSW2KB
0
1.0F
03.SB10
1.0F
02.SB20
1.0F
06.SB10
1.0F
03.SB10
1.0F
03.SB20
1.0F
03.SB21
1.0F
02.SB20
ETC
3
BSCC_5042
ETC
2
GSW2KB
0
Type
Use
Note
ETPTIndex
CSB007
Hotlink
4)
ETPT 1-0
CSB009
Hotlink
3)
ETPT 2-0
CSB013
Hotlink
2)
ETPT 3-1
CSB015
Hotlink
1)
ETPT 4-1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
125 (207)
ETC
3
2.0F 31.
SB2-0
1.0F
05.SB11
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
CSB016 Hotlink 5)
GSW2KB 1.0F
BSCC_5048 ETC
2.0F
0
06.SB22
26.SB20
0
1. 0F
ETC
2.0F
05.SB23
34.SB21
0
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
CSB016
GSW2KB 1.0F
BSCC_5048 ETC
2.0F
0
06.SB22
26.SB20
0
1. 0F
GTIC 2.0F
05.SB21
16.SB21
0
Hotlink
5)
ETPT 5-1
ETPT 5-1
Notes:
1)These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 30/31 is takenin
use.
2) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 28/29 is taken in
use.
3) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 25/26 is taken in
use.
4) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 22/23 is taken in
use.
5) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 33/34 or
alternatively GTIC 0/1 slot 15/16 is taken in use.
Add needed ETPLAN and Hotlink cables from GSW-0 and LANU-0 to required tracks
Equipping
No
CABLE FROM
FU
CABLE TO
Position
FU
Position
Type
Use
Note
ETPE
Index
BSCC_3300
LANU 0
4.0B 15.1C
ETC 0
1.0B 19.4G
CHES026
ETPLAN
ETPT 00
BSCC_3301
LANU 0
4.0B 15.1E
ETC 0
1.0B 22.4G
CHES025
ETPLAN
ETPT 10
BSCC_3302
LANU 0
4.0B 15.1G
ETC 0
1.0B 25.4G
CHES025
ETPLAN
ETPT 20
BSCC_5020
LANU 0
4.0B 15.1J
ETC 1
1.0B 28.4G
CHES024
ETPLAN
ETPT 30
BSCC_5021
LANU 0
4.0B 15.2L
ETC 1
1.0B 30.4G
CHES026
ETPLAN
ETPT 40
BSCC_3306
LANU 0
4.0B 15.1P
ETC 2
2.0B 19.4G
CHES023
ETPLAN
ETPT 01
BSCC_3307
LANU 0
4.0B 15.2A
ETC 2
2.0B 22.4G
CHES021
ETPLAN
ETPT 11
BSCC_3308
LANU 0
4.0B 15.2C
ETC 2
2.0B 25.4G
CHES020
ETPLAN
ETPT 21
BSCC_5023
LANU 0
4.0B 15.2E
ETC 3
2.0B 28.4G
CHES019
ETPLAN
ETPT 31
BSCC_5024
LANU 0
4.0B 15.2P
ETC 3
2.0B 30.4G
CHES022
ETPLAN
ETPT 41
BSCC_5080
ETC 2
2.0F
20.SB2-0
GSW2KB
0
1.0F
02.SB1-1
CSB018
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
3)
ETPT 01
126 (207)
BSCC_5040
ETC 0
1.0F
20.SB2-0
GSW2KB
0
1.0F
02.SB1-0
CSB010
BSCC_5082
ETC 2
BSCC_5084
ETC 2
BSCC_5086
ETC 1
BSCC_5088
ETC 1
2.0F
23.SB2-0
2.0F
26.SB2-0
1.0F
29.SB2-0
1.0F
31.SB2-0
GSW2KB
0
GSW2KB
0
GSW2KB
0
GSW2KB
0
1.0F
02.SB2-1
1.0F
03.SB1-1
1.0F
03.SB2-0
1.0F
05.SB1-0
Hotlink
2)
ETPT 00
CSB018
4)
CSB018
5)
CSB013
6)
CSB013
7)
ETPT
1
ETPT
1
ETPT
0
ETPT
0
1234-
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
BSCC_5022 LANU 0
4.0B 15.1L
ETC 1
1.0B 33.4G
CHES024
ETPLAN
ETPT 50
BSCC_5025
LANU 0
4.0B 15.2G
ETC 3
2.0B 33.4G
CHES019
ETPLAN
ETPT 51
BSCC_5090
ETC 1
1.0F
34.SB2-0
GSW2KB
0
1.0F
05.SB2-0
CSB013
Hotlink
8)
ETPT 50
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
BSCC_5026 LANU 0
4.0B 15.2N
GTIC 0
1.0B 15.4G
CHES025
ETPLAN
1)
ETPT 50
BSCC_5027
LANU 0
4.0B 15.2R
GTIC 1
2.0B 15.4G
CHES021
ETPLAN
1)
ETPT 51
BSCC_5090
GTIC 0
1.0F
16.SB2-0
GSW2KB
0
1.0F
05.SB2-0
CSB013
Hotlink
9)
ETPT 50
Notes:
1)
2)
3)
4)
5)
6)
7)
8)
9)
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s).
These cables are included in part list but shall only be connected in case an ETPT/E is taken in use in ETC 0 slot
19/20.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 19/20 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 22/23 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 25/26 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 1/3 slot 28/29 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 30/31 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 33/34 is taken
in use.
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0/1 slot 15/16 is taken
in use in alternative to ETC 1/3 slot 33/34
Check SW256B dip switching. See appendix 1
12.2.1.3.2
Change MCMU-0, SWU-0, SWU-2, SWU-4 and SWU-6 to WO-EX state.
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SP;
ZUSC:MCMU,0:WO;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SP;
ZUSC:EMB,0:WO;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
127 (207)
ZUSC:SWU,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:WO;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:WO;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:WO;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:TE;
ZUSC:SWU,6:WO;
12.2.1.3.3
Change MCMU-1, SWU-1, SWU-3, and SWU-5 and SWU-7 SE-NH state
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:SE;
ZUSC:EMB,1:TE;
ZUSC:EMB,1:SE;
ZUSC:EMB,1:SE;
ZUSC:SWU,1:TE;
ZUSC:SWU,1:SE;
ZUSC:SWU,1:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:SE;
12.2.1.3.3.1
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or add following cables if needed.
Equipping
Cable from
Cable to
No
Old
FU/
Old
Position/
Old FU/
Old
Position/
New
FU
New
Position
New FU
New
Position
ETC
0
1.0F
23.SB2-1
GSW2KBA1
2.0F
08.SB4-0
BSCC_418
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Type
Use
CSB011
Hotlink
Note
ETPT
Index
ETPT
0-0
128 (207)
1.0F
15.SB2-1
BSCC_3407
ETC
0
1.0F
26.SB2-1
GSW2KBA1
2.0F
03.SB1-0
1.0F
17.SB2-1
BSCC_3409
ETC
0
1.0F
30.SB2-1
1)
CSB013
Hotlink
GSW2KBA1
2.0F
02.SB1-0
1.0F
20.SB2-1
ETPT
1-0
2)
CSB014
Hotlink
-
ETPT
2-0
3)
Notes:
1) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair GTIC 0 & 1 slot 14/15 is taken in
use.
2) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair GTIC 0 & 1 slot 16/17 is taken in
use.
3) These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 19/20 is taken in
use.
Add needed 2N, ETPLAN, Hotlink cables from GSW-1 and LANU-1 side to required tracks
Equipping
CABLE FROM
No
FU
BSCC_3320
CABLE TO
Position
FU
LANU
1
5.0B 15.1C
ETC 0
BSCC_3321
LANU
1
5.0B 15.1E
BSCC_3322
LANU
1
BSCC_3323
Position
ETPT
Index
Type
Use
1.0B
19.4J
CHES027
ETPLAN
ETPT 2-0
ETC 0
1.0B
22.4J
CHES026
ETPLAN
ETPT 3-1
5.0B 15.1G
ETC 0
1.0B
25.4J
CHES026
ETPLAN
ETPT 4-1
LANU
1
5.0B 15.1J
ETC 1
1.0B
29.4J
CHES025
ETPLAN
ETPT 5-1
BSCC_3326
LANU
1
5.0B 15.1P
ETC 2
2.0B
19.4J
CHES024
ETPLAN
ETPT 2-1
BSCC_3327
LANU
1
5.0B 15.2A
ETC 2
2.0B
22.4J
CHES022
ETPLAN
ETPT 3-0
BSCC_3328
LANU
1
5.0B 15.2C
ETC 2
2.0B
25.4J
CHES021
ETPLAN
ETPT 4-0
BSCC_3329
LANU
1
5.0B 15.2E
ETC 3
2.0B
29.4J
CHES020
ETPLAN
ETPT 5-0
BSCC_3332
LANU
1
5.0B 15.2L
GTIC 0
1.0B
14.4J
CHES027
ETPLAN
ETPT 0-0
BSCC_3333
LANU
1
5.0B 15.2N
GTIC 0
1.0B
16.4J
CHES026
ETPLAN
ETPT 1-0
BSCC_3334
LANU
1
5.0B 15.2P
GTIC 1
2.0B
14.4J
CHES023
ETPLAN
ETPT 0-1
BSCC_3335
LANU
1
5.0B 15.2R
GTIC 1
2.0B
16.4J
CHES022
ETPLAN
ETPT 1-1
BSCC_3431
GTIC
1
2.0F
15.SB2-1
GSW2KBA1
CSB013
Hotlink
1), 2)
ETPT 0-1
BSCC_3433
GTIC
1
2.0F
17.SB2-1
GSW2KBA1
2.0F
08.SB41
2.0F
03.SB11
CSB013
Hotlink
1), 3)
ETPT 1-1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Note
129 (207)
2.0F
02.SB11
2.0F
01.SB21
2.0F
05.SB11
2.0F
04.SB11
2.0F
01.SB20
2.0F
04.SB10
2.0F
05.SB10
2.0B
20.4A
CSB013
Hotlink
Default,
4)
ETPT 2-1
CSB018
Hotlink
1), 6)
ETPT 4-1
CSB018
Hotlink
1), 5)
ETPT 3-1
CSB018
Hotlink
1), 7)
ETPT 5-1
CSB011
Hotlink
8)
ETPT 4-0
CSB011
Hotlink
8)
ETPT 5-0
CSB009
Hotlink
8)
ETPT 3-0
CHFX016
2N
9)
ETPT 2-0/
ETPT 2-1
ETC 2
2.0B
23.4A
CHFX015
2N
9)
ETPT 3-1/
ETPT 3-0
1.0B 26.4A
ETC 2
2.0B
26.4A
CHFX014
2N
9)
ETPT 4-1/
ETPT 4-0
ETC 1
1.0B 30.4A
ETC 3
2.0B
30.4A
CHFX013
2N
9)
ETPT 5-1/
ETPT 5-0
BSCC_480
GTIC
0
1.0B 15.4A
GTIC 1
2.0B
15.4A
CHFX017
2N
10)
ETPT 0-0/
ETPT 0-1
BSCC_484
GTIC0
1.0B 17.4A
GTIC 1
2.0B
17.4A
CHFX017
2N
10)
ETPT 1-0/
ETPT 1-1
BSCC_470
GTIC
0
1.0B 10.4A
GTIC 1
2.0B
10.4A
CHFX020
2N
11
STMU 0/
STMU-1
BSCC_471
GTIC
0
1.0B 10.4G
GTIC 1
2.0B
10.4G
CHES020
2N
11
STMU 0/
STMU-1
BSCC_472
GTIC
0
1.0B 11.4A
GTIC 1
2.0B
11.4A
CHFX020
2N
11
STMU-2/
STMU-3
BSCC_473
GTIC
0
1.0B 11.4G
GTIC 1
2.0B
11.4G
CHES020
2N
11
STMU-2/
STMU-3
BSCC_474
GTIC
0
1.0B 12.4A
GTIC 1
2.0B
12.4A
CHFX020
2N
11
STMU-4/
STMU-5
BSCC_475
GTIC
0
1.0B 12.4G
GTIC 1
2.0B
12.4G
CHES020
2N
11
STMU-4/
STMU-5
BSCC_3435
ETC 2
2.0F
20.SB2-1
GSW2KBA1
BSCC_3439
ETC 0
1.0F
26.SB2-1
GSW2KBA1
BSCC_3441
ETC 0
1.0F
23.SB2-1
GSW2KBA1
BSCC_3443
ETC 1
1.0F
30.SB2-1
GSW2KBA1
BSCC_3401
ETC 2
2.0F26.SB21
GSW2KB
1
BSCC_3403
ETC 3
2.0F30.SB21
GSW2KB
1
BSCC_3405
ETC 2
2.0F23.SB21
GSW2KB
1
BSCC_3350
ETC 0
1.0B 20.4A
ETC 2
BSCC_3351
ETC 0
1.0B 23.4A
BSCC_3352
ETC 0
BSCC_3353
Notes:
1) These cables are not included in part list.
2) These cables have been delivered with Cabinet Type, BSCC-F03 (C112176). Slot by slot i.e. redundancy pair by redundancy
pair the GTIC 1, ETC 2 or ETC 3 ends of these cables (redundancy pair specific 1 pcs CHFX) have to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPE or ETPT.
3) These cables have been delivered with Cabinet Type, BSCC-F. Slot by slot i.e. redundancy pair by redundancy pair the GTIC
1, ends of these cables (redundancy pair specific 1 pcs CHFX and 1 pcs CHES for mate ETS2s) are to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPT.
4) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0 & 1 slot 14/15 is taken in
use.
5) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0 & 1 slot 16/17 is taken in
use.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
130 (207)
6) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 19/20 is taken in
use.
7) These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0 & 2 slot 22/23 is taken in
use.
8) These cables are installed and tied with soft cable ties to the front side of the cabinet to be ready for connecting plug-in units
9) These cables have been delivered with Cabinet Type, BSCC-F03 (C112176). Slot by slot i.e. redundancy pair by redundancy
pair the GTIC 1, ETC 2 or ETC 3 ends of these cables (redundancy pair specific 1 pcs CHFX) have to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPE or ETPT.
10) These cables have been delivered with Cabinet Type, BSCC-F. Slot by slot i.e. redundancy pair by redundancy pair the
GTIC 1, ends of these cables (redundancy pair specific 1 pcs CHFX and 1 pcs CHES for mate ETS2s) are to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPT.
11)These cables have been delivered with Cabinet Type, BSCC-F. Slot by slot i.e. redundancy pair by redundancy pair the
GTIC 1, ends of these cables (redundancy pair specific 1 pcs CHFX and 1 pcs CHES for mate ETS2s) are to be connected if
transmission redundancy is upgraded to HW redundancy in case of ETPT.
Check SW256B dips switching. See appendix1
12.2.1.3.3.2
For Flexible Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or add following cables if needed.
Equipping
Cable from
No
Old FU/
Old
Position/
Old FU/
Old
Position/
New FU
New
Position
New FU
New
Position
GTIC 0
1.0B
15.4A
1.0B
31.4A
1.0F
23.SB2-1
GTIC 1
2.0B
15.4A
2.0B
31.4A
2.0F
03.SB1-0
BSCC_480
ETC 1
BSCC_418
ETC 0
Cable to
ETC 3
GSW2KB
1
Type
Use
Note
ETPT
Index
CHFX017
2N
6)
ETPT 4-0/
ETPT 4-1
CSB011
Hotlink
4)
ETPT 1-0
CSB013
Hotlink
3)
ETPT 2-0
CSB011
Hotlink
2)
ETPT 3-1
CSB009
Hotlink
1)
ETPT 4-1
CHFX017
2N
7)
STMU-30/
STMU-31
CHES017
2N
7)
STMU-30/
STMU-31
2.0F
02.SB2-0
BSCC_5047
ETC 0
1.0F
26.SB2-1
GSW2KB
1
2.0F
06.SB1-0
2.0F
03.SB1-0
BSCC_5043
BSCC_5045
BSCC_478
ETC 2
2.0F
20.SB2-1
ETC 3
2.0F 29.
SB2-1
ETC 2
2.0F
23.SB2-1
ETC 3
2.0F
31.SB2-1
GTIC 0
1.0B
14.4A
1.0B
24.4A
1.0B
14.4G
1.0B
24.4G
ETC 0
BSCC_479
GTIC 0
ETC 0
GSW2KB
1
2.0F
02.SB2-0
2.0F
03.SB2-1
GSW2KB
1
2.0F
03.SB2-0
2. 0F
05.SB1-1
GTIC 1
ETC 2
GTIC 1
ETC 2
2.0B
14.4A
2.0B
24.4A
2.0B
14.4G
2.0B
24.4G
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
131 (207)
BSCC_5049
ETC 2
2.0F
26.SB2-1
ETC 3
2.0F
34.SB2-1
GSW2KB
1
2.0F
06.SB2-0
CSB011
Hotlink
5)
ETPT 5-1
CSB011
Hotlink
5)
ETPT 5-1
2. 0F
05.SB2-1
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
BSCC_5049
Notes:
1)
ETC 2
2.0F
26.SB2-1
GTIC 1
2.0F
16.SB2-1
GSW2KB
1
2.0F
06.SB2-0
2. 0F
05.SB2-1
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 30/31 is
taken in use.
2)
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 28/29 is
taken in use.
3)
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 25/26 is
taken in use.
4)
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 0 & 2 slot 22/23 is
taken in use.
5)
These Hotlink Cables must be moved in a situation where ETPE or ETPT redundancy pair ETC 1 & 3 slot 33/34 or
alternatively GTIC 0/1 slot 15/16 is taken in use.
6)
These 2N cables must be moved in a situation where at least ETPT/E redundancy pair ETC 1& 3 slot 30/31 is taken
in use .
7)
These cables must be moved and re-connected in a situation where ETS2 redundancy pair ETC 0&2 slot 24 is taken
in use.
Add needed 2N, ETPLAN, Hotlink cables from GSW-1 and LANU-1 side to required tracks.
Equipping
CABLE FROM
Position
CABLE TO
FU
Position
No
FU
BSCC_3320
LANU 1
5.0B
15.1C
ETC 0
1.0B
19.4J
CHES027
ETPLAN
ETPT 0-0
BSCC_3321
LANU 1
5.0B
15.1E
ETC 0
1.0B
22.4J
CHES026
ETPLAN
ETPT 1-0
BSCC_3322
LANU 1
5.0B
15.1G
ETC 0
1.0B
25.4J
CHES026
ETPLAN
ETPT 2-0
BSCC_5028
LANU 1
5.0B
15.1J
ETC 1
1.0B
28.4J
CHES025
ETPLAN
ETPT 3-0
BSCC_5029
LANU 1
5.0B
15.2L
ETC 1
1.0B
30.4J
CHES027
ETPLAN
ETPT 4-0
BSCC_3326
LANU 1
5.0B
15.1P
ETC 2
2.0B
19.4J
CHES024
ETPLAN
ETPT 0-1
BSCC_3327
LANU 1
5.0B
15.2A
ETC 2
2.0B
22.4J
CHES022
ETPLAN
ETPT 1-1
BSCC_3328
LANU 1
5.0B
15.2C
ETC 2
2.0B
25.4J
CHES021
ETPLAN
ETPT 2-1
BSCC_5031
LANU 1
5.0B
15.2E
ETC 3
2.0B
28.4J
CHES020
ETPLAN
ETPT 3-1
BSCC_5032
LANU 1
5.0B
15.2P
ETC 3
2.0B
30.4J
CHES023
ETPLAN
ETPT 4-1
BSCC_3350
ETC 0
1.0B
20.4A
ETC 2
2.0B
20.4A
CHFX016
2N
BSCC_3351
ETC 0
1.0B
23.4A
ETC 2
2.0B
23.4A
CHFX015
2N
ETPT 00/ ETPT
0-1
ETPT 10/ ETPT
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Type
Use
Note
ETPT
Index
132 (207)
1-1
BSCC_3352
ETC 0
1.0B
26.4A
ETC 2
2.0B
26.4A
CHFX014
2N
3)
ETPT 20/ ETPT
2-1
ETPT 30/ ETPT
3-1
ETPT 0-1
BSCC_5036
ETC 1
1.0B
29.4A
ETC 3
2.0B
29.4A
CHFX013
2N
BSCC_5081
ETC 2
2.0F
20.SB2-1
GSW2KB
1
2.0F
02.SB1-1
CSB013
BSCC_5041
ETC 0
1.0F
20.SB2-1
GSW2KB
1
2.0F
02.SB1-0
CSB014
2)
ETPT 0-0
BSCC_5083
ETC 2
2.0F
23.SB2-1
GSW2KB
1
2.0F
02.SB2-1
CSB013
4)
ETPT 1-1
BSCC_5085
ETC 2
2.0F
26.SB2-1
GSW2KB
1
2.0F
03.SB1-1
CSB013
5)
ETPT 2-1
BSCC_5087
ETC 1
1.0F
29.SB2-1
GSW2KB
1
2.0F
03.SB2-0
CSB018
6)
ETPT 3-0
BSCC_5089
ETC 1
1.0F
31.SB2-1
GSW2KB
1
2.0F
05.SB1-0
CSB018
7)
ETPT 4-0
BSCC_484
GTIC 0
1.0B
17.4A
GTIC 1
2.0B
17.4A
CHFX017
2N
12)
BSCC_485
GTIC 0
1.0B
17.4G
GTIC 1
2.0B
17.4G
CHES017
2N
12)
BSCC_486
ETC 0
1.0B
21.4A
ETC 2
2.0B
21.4A
CHFX017
2N
13)
BSCC_487
ETC 0
1.0B
21.4G
ETC 2
2.0B
21.4G
CHES017
2N
13)
STMU14/
STMU-15
STMU14/
STMU-15
STMU24/
STMU-25
STMU24/
STMU-25
Hotlink
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
ETC 1
1.0B
CHES025
ETPLAN
BSCC_5030 LANU 1
5.0B
15.1L
33.4J
ETPT 5-0
BSCC_5033
LANU 1
5.0B
15.2G
ETC 3
2.0B
33.4J
CHES020
ETPLAN
ETPT 5-1
BSCC_5091
ETC 1
1.0F
34.SB2-1
GSW2KB
1
2.0F
05.SB2-0
CSB018
Hotlink
8)
ETPT 5-0
BSCC_5037
ETC 1
1.0B
34.4A
ETC 3
2.0B
34.4A
CHFX012
2N
11)
ETPT5-0/
ETPT 5-1
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red.
BSCC_5034 LANU 1
5.0B
GTIC 0
1.0B
CHES026
15.2N
15.4J
ETPLAN
1)
ETPT 5-0
BSCC_5035
LANU 1
5.0B
15.2R
GTIC 1
2.0B
15.4J
CHES022
ETPLAN
1)
ETPT 5-1
BSCC_5091
GTIC 0
1.0F
16.SB2-1
GSW2KB
1
2.0F
05.SB2-0
CSB018
Hotlink
9)
ETPT 5-0
BSCC_482
GTIC 0
1.0B
16.4A
GTIC 1
2.0B
16.4A
CHFX017
2N
10)
ETPT5-0/
ETPT 5-1
Notes:
1)
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s).
2)
These cables are included in partlist but shall only be connected in case an ETPT/E is taken in use in ETC 0 slot
19/20.
3)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 19/20 is taken
in use.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
133 (207)
4)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 22/23 is taken
in use.
5)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 25/26 is taken
in use.
6)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 1/3 slot 28/29 is taken
in use.
7)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 30/31 is taken
in use.
8)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 0/2 slot 33/34 is taken
in use.
9)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0/1 slot 15/16 is taken
in use in alternative to ETC 1/3 slot 33/34 .
10)
This cable has been delivered with Cabinet Type BSCC-F.
11) These cables have been delivered with Cabinet Upgrade Set, BSCC-F08 (C112854). Slot by slot i.e. redundancy pair
by redundancy pair the, ETC 0 or ETC 1 ends of these cables (redundancy pair specific 1 pcs CHFX) have to be
connected if transmission redundancy is upgraded to HW redundancy in case of ETPE or ETPT.
12) These cables have been delivered with Cabinet Type, BSCC-F. Slot by slot i.e. redundancy pair by redundancy pair
the GTIC 1, ends of these cables (redundancy pair specific 1 pcs CHFX and 1 pcs CHES for mate ETS2s) are to be
connected if transmission redundancy is upgraded to HW redundancy in case of ETPT.
13) These cables have been delivered with Cabinet Type, BSCC-F. Slot by slot i.e. redundancy pair by redundancy pair
the ETC 2, ends of these cables (redundancy pair specific 1 pcs CHFX and 1 pcs CHES for mate ETS2s) are to be
connected if transmission redundancy is upgraded to HW redundancy in case of ETPT.
Check SW256B dip switching. See appendix 1
12.2.1.3.4
Change MCMU-1 to SP-EX, SWU-1, SWU-3, SWU-5 and SWU-7 to WO-EX state.
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SP;
ZUSC:EMB,1:SE;
ZUSC:EMB,1:TE;
ZUSC:EMB,1:SP;
ZUSC:SWU,1:SE;
ZUSC:SWU,1:TE;
ZUSC:SWU,1:WO;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:WO;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:WO;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:WO;
12.2.1.3.5
12.2.1.3.5.1
Cablings from ETPT card to STMU card
For Normal option
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
134 (207)
Add needed Hotlink cables between STMU cards and ETPT cards in GTIC-0/1 and ETCs cartridges
Equipping
No
CABLE FROM
FU
CABLE TO
TYPE
Position
FU
Position
USE
NOTE
ETPT
INDEX
BSCC_3452
GTIC 1
2.0F
10.SB1-0
ETC 0
1.0F
19.SB1-1
CSB018
Hotlink
Default),
4)
BSCC_3453
GTIC 1
2.0F
10.SB1-1
ETC 2
2.0F
19.SB1-1
CSB009
Hotlink
Default),
4)
BSCC_3454
GTIC 1
2.0F
10.SB2-1
ETC 0
1.0F
22.SB1-1
CSB018
Hotlink
1), 5)
BSCC_3455
GTIC 1
2.0F
10.SB2-0
ETC 2
2.0F
22.SB1-1
CSB009
Hotlink
1), 5)
BSCC_3444
GTIC 1
2.0F
11.SB1-1
ETC 0
1.0F
25.SB1-1
CSB018
Hotlink
1), 6)
BSCC_3445
GTIC 1
2.0F
11.SB1-0
ETC 2
2.0F
25.SB1-1
CSB009
Hotlink
1), 6)
BSCC_3446
GTIC 1
2.0F
11.SB2-1
ETC 1
1.0F
29.SB1-1
CSB018
Hotlink
1), 7)
BSCC_3447
GTIC 1
2.0F
11.SB2-0
ETC 3
2.0F
29.SB1-1
CSB009
Hotlink
1), 7)
BSCC_3450
GTIC 0
1.0F
12.SB2-0
GTIC 0
1.0F
14.SB1-0
CSB009
Hotlink
1), 3)
BSCC_3451
GTIC 0
1.0F
12.SB2-1
GTIC 1
2.0F
14.SB1-0
CSB018
Hotlink
1), 3)
BSCC_3448
GTIC 0
1.0F
12.SB1-0
GTIC 0
1.0F
16.SB1-0
CSB009
Hotlink
1), 2)
BSCC_3449
GTIC 0
1.0F
12.SB1-1
GTIC 1
2.0F
16.SB1-0
CSB018
Hotlink
1), 2)
ETPT 2-0
ETPT 2-1
ETPT 3-1
ETPT 3-0
ETPT 4-1
ETPT 4-0
ETPT 5-1
ETPT 5-0
ETPT 0-0
ETPT 0-1
ETPT 1-0
ETPT 1-1
Notes:
1) These cables are not included in part list.
2) These Hotlink Cables are added in a situation
3) These Hotlink Cables are added in a situation
4) These Hotlink Cables are added in a situation
5) These Hotlink Cables are added in a situation
6) These Hotlink Cables are added in a situation
7) These Hotlink Cables are added in a situation
where ETPT
where ETPT
where ETPT
where ETPT
where ETPT
where ETPT
HW
HW
HW
HW
HW
HW
redundancy pair GTIC 0 & 1 slot 14/15 is taken in use.
redundancy pair GTIC 0 & 1 slot 16/17 is taken in use.
redundancy pair ETC 0 & 2 slot 19/20 is taken in use.
redundancy pair ETC 0 & 2 slot 22/23 is taken in use.
redundancy pair ETC 0 & 2 slot 25/26 is taken in use.
redundancy pair ETC 1 & 3 slot 29/30 is taken in us.
Move and reconnect or add following cables if required.
Equipping
Cable from
No
Old FU/
New FU
BSCC_4910
GTIC 0
Cable to
Old
Position/
New
Position
Old FU/
1.0F
10.SB1-0
ETC 0
New FU
BSCC_4911
GTIC 0
1.0F
10.SB1-1
1.0F
10.SB2-1
Old
Position/
New
Position
Type
Use
1.0F
25.SB1-0
CSB007
Hotlink
CSB007
Hotlink
ETPT INDEX
1.0F
19.SB1-0
ETC 0
1.0F
25.SB1-1
1.0F
22.SB1-0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
Note
3)
ETPT 2-0
4)
ETPT 3-1
135 (207)
BSCC_4912
GTIC 0
1.0F
10.SB2-0
ETC 2
1.0F
10.SB1-1
BSCC_4913
GTIC 0
1.0F
10.SB2-1
BSCC_3415
GTIC 0
GTIC 0
ETC 2
BSCC_3417
GTIC 0
GTIC 0
BSCC_3419
BSCC_3420
BSCC_3421
GTIC 1
GTIC 1
GTIC 1
GTIC 1
2.0F
25.SB1-1
1.0F
11.SB1-0
ETC 1
1.0F
29.SB1-0
1.0F
11.SB1-1
ETC 0
1.0F
25.SB1-0
1.0F
11.SB1-1
ETC 1
1.0F
29.SB1-1
CSB017
Hotlink
CSB007
Hotlink
CSB007
Hotlink
CSB018
Hotlink
CSB019
Hotlink
CSB007
Hotlink
CSB007
Hotlink
CSB016
Hotlink
CSB016
Hotlink
1.0F
29.SB1-0
1.0F
11.SB2-0
ETC 3
2.0F
29.SB1-0
1.0F
11.SB1-0
ETC 2
2.0F
25.SB1-0
1.0F
11.SB2-1
ETC 3
2.0F
29.SB1-1
1.0F
11.SB2-0
BSCC_3418
Hotlink
2.0F
22.SB1-0
1.0F
11.SB2-1
BSCC_3416
CSB017
2.0F
19.SB1-0
1.0F
10.SB2-0
BSCC_3414
2.0F
25.SB1-0
2.0F
29.SB1-0
2.0F
10.SB2-0
ETC 2
2.0F
22.SB1-0
2.0F
12.SB1-1
GTIC 1
2.0F
16.SB1-1
2.0F
10.SB2-1
ETC 2
2.0F
22.SB1-1
2.0F
12.SB2-1
GTIC 1
2.0F
14.SB1-1
2.0F
10.SB1-0
ETC 0
1.0F
22.SB1-0
2.0F 12
SB2-0
GTIC 0
1.0F
14.SB1-1
2.0F
10.SB1-1
ETC 0
1.0F
22.SB1-1
2.0F
12.SB1-0
GTIC 0
1.0F
16.SB1-1
3)
ETPT 2-1
4)
ETPT 3-0
5)
ETPT 4-1
6)
ETPT 5-1
5)
ETPT 4-0
6)
ETPT 5-0
2)
ETPT 1-1
1)
ETPT 0-1
1)
ETPT 0-0
2)
ETPT 1-0
Notes:
1)
2)
3)
4)
5)
6)
12.2.1.3.5.2
These Hotlink Cables
use.
These Hotlink Cables
use.
These Hotlink Cables
use.
These Hotlink Cables
use.
These Hotlink Cables
use.
These Hotlink Cables
use.
must be moved in a situation where ETPT redundancy pair GTIC 0 & 1 slot 14/15 is taken in
must be moved in a situation where ETPT redundancy pair GTIC 0 & 1 slot 16/17 is taken in
must be moved in a situation where ETPT redundancy pair ETC 0 & 2 slot 19/20 is taken in
must be moved in a situation where ETPT redundancy pair ETC 0 & 2 slot 22/23 is taken in
must be moved in a situation where ETPT redundancy pair ETC 0 & 2 slot 25/26 is taken in
must be moved in a situation where ETPT redundancy pair ETC 1 & 3 slot 29/30 is taken in
For Flexible Option
Move and reconnect or add following cables if required.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
136 (207)
Equipping
Cable from
Cable to
No
Old FU/
Old
Position/
Old FU/
Old
Position/
New
FU
New
Position
New
FU
New
Position
BSCC_5000
ETC 0
ETC 2
BSCC_5003
ETC 2
1.0F
21.SB2-0
1.0F
21.SB1-1
2.0F
21.SB1-1
ETPT
Index
Type
Use
Note
2.0F
19.SB1-0
CSB016
Hotlink
1)
ETPT
0-1
ETC 0
1.0F
22.SB1-1
CSB017
Hotlink
2)
ETPT
1-0
ETC 2
2.0F
25.SB1-0
CSB016
Hotlink
3)
ETPT
2-1
CSB007
Hotlink
3)
ETPT
2-0
CSB017
Hotlink
4)
ETPT
3-0
CSB007
Hotlink
4)
ETPT
3-1
CSB007
Hotlink
5)
ETPT
4-1
CSB018
Hotlink
5)
ETPT
4-0
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
ETC 2
2.0F
CSB007 Hotlink
BSCC_5008 ETC 2
2.0F
21.SB2-0
22.SB1-0
6)
ETPT
5-1
2.0F
21.SB2-0
BSCC_5004
GTIC 0
1.0F
17.SB2-0
1.0F
17.SB1-1
BSCC_5010
GTIC 0
1.0F
17.SB1-0
2.0F 25
SB1-1
ETC 0
1.0F
25.SB1-0
1.0F
25.SB1-1
BSCC_5001
BSCC_5011
BSCC_5007
BSCC_5005
BSCC_5002
ETC 0
1.0F
21.SB2-1
ETC 2
2.0F
19.SB1-1
GTIC 1
2.0F
17.SB2-0
ETC 1
1.0F
28.SB1-0
GTIC 0
1.0F
17.SB1-1
ETC 0
1.0F
25.SB1-1
GTIC 1
2.0F
17.SB2-1
ETC 3
2.0F
28.SB1-0
ETC 0
1.0F
21.SB1-1
ETC 0
1.0F
19.SB1-1
ETC 2
2.0F
24.SB1-1
ETC 3
2.0F
30.SB1-1
GTIC 0
1.0F
17.SB2-1
ETC 2
2.0F
25.SB1-1
ETC 2
2.0F
24.SB1-0
ETC 1
1.0F
30.SB1-1
ETC 3
2.0F
33.SB1-1
2.0F
21.SB1-0
ETC 0
1.0F
22.SB1-0
2.0F
24.SB2-0
ETC 1
1.0F
33.SB1-1
CSB019
Hotlink
6)
ETPT
5-0
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red
BSCC_5008 ETC 2
2.0F
ETC 2
2.0F
CSB007
21.SB2-0
22.SB1-0
Hotlink
7)
ETPT
5-1
Hotlink
7)
ETPT
5-0
BSCC_5002
ETC 2
2.0F
24.SB2-1
ETC 2
2.0F
24.SB2-1
GTIC 1
2.0F
15.SB1-1
2.0F
21.SB1-0
ETC 0
1.0F
22.SB1-0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
CSB019
137 (207)
2.0F
24.SB2-0
GTIC 0
1.0F
15.SB1-1
Notes:
1)
This Hotlink Cable must be moved in a situation where ETPT redundancy pair ETC 0 & 2 slot 19/20 is taken in use.
2)
This Hotlink Cable must be moved in a situation where ETPT redundancy pair ETC 0 & 2 slot 22/23 is taken in use.
3)
This Hotlink Cable must be moved in a situation where ETPT redundancy pair ETC 0 & 2 slot 25/26 is taken in use.
4)
These Hotlink Cables must be moved in a situation where ETPT redundancy pair ETC 1 & 3 slot 28/29is taken in use.
5)
These Hotlink Cables must be moved in a situation where ETPT redundancy pair ETC 1 & 3 slot 30/31 is taken in
use.
6)
These Hotlink Cables must be moved in a situation where ETPT redundancy pair ETC 1 & 3 slot 33/34 is taken in
use.
7)
These Hotlink Cables must be moved in a situation where ETPT redundancy pair GTIC 0 & 1 slot 15/16 is taken in
use in alternative to slot 33/34.
Add needed Hotlink cables between STMU cards and ETPT cards in GTIC-0/1 and ETCs cartridges
Equipping
No
BSCC_5040
CABLE FROM
CABLE TO
FU
Position
FU
Position
Type
Use
ETC 0
1.0F
20.SB2-0
GSW2KB
0
1.0F
02.SB1-0
CSB010
Hotlink
2)
ETPT 00
2.0F
21.SB1-0
ETC 0
1.0F
19.SB1-1
CSB019
Hotlink
1)
ETPT 00
2.0F
21.SB1-1
ETC 2
2.0F
19.SB1-1
CSB009
Hotlink
1)
ETPT 01
1.0F
21.SB2-0
ETC 0
1.0F
22.SB1-0
CSB009
Hotlink
9)
ETPT 10
1.0F
21.SB2-1
ETC 2
2.0F
22.SB1-0
CSB019
Hotlink
21)
ETPT 11
2.0F
21.SB2-1
ETC 2
2.0F
22.SB1-1
CSB007
Hotlink
7)
ETPT 11
2.0F
17.SB1-0
ETC 0
1.0F
25.SB1-0
CSB019
Hotlink
3)
ETPT 20
2.0F
17.SB1-1
ETC 2
2.0F
25.SB1-0
CSB009
Hotlink
3)
ETPT 21
1.0F
17.SB2-1
ETC 3
2.0F
28.SB1-1
CSB019
Hotlink
4)
ETPT 31
1.0F
17.SB2-0
ETC 1
1.0F
28.SB1-1
CSB009
Hotlink
4)
ETPT 30
1.0F
24.SB1-1
ETC 3
2.0F
30.SB1-0
CSB019
Hotlink
5)
ETPT 41
1.0F
24.SB1-0
ETC 1
1.0F
30.SB1-0
CSB009
Hotlink
5)
ETPT 40
Hotlink
6)
ETPT 51
Hotlink
6)
ETPT 50
Hotlink
8)
ETPT 51
BSCC_5060
ETC 2
BSCC_5061
ETC 2
BSCC_5062
ETC 0
BSCC_5063
ETC 0
BSCC_5009
ETC 2
BSCC_5064
GTIC 1
BSCC_5065
GTIC 1
BSCC_5066
GTIC 0
BSCC_5067
GTIC 0
BSCC_5068
ETC 0
BSCC_5069
ETC 0
Alternative 1 : 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33 in HW Red.
BSCC_5070
1.0F
ETC 3
2.0F
CSB019
24.SB2-1
33.SB1-0
ETC 0
BSCC_5071
1.0F
ETC 1
1.0F
CSB009
24.SB2-0
33.SB1-0
ETC 0
Alternative 2 : 6th ETP/E equipped in GTIC 0 /1 slot 15 in HW Red
BSCC_5070
1.0F
GTIC 1
2.0F
24.SB2-1
15.SB1-0
ETC 0
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
CSB019
Note
ETPT
Index
138 (207)
BSCC_5071
ETC 0
Notes:
1)
1.0F
24.SB2-0
GTIC 0
1.0F
15.SB1-0
CSB009
Hotlink
8)
ETPT 50
These Hotlink Cables are added in a situation where ETPT HW redundancy pair ETC 0/2 slot 19/20 is taken in use.
2)
These cables are included in partlist but shall only be connected in case an ETPT/E is taken in use in ETC 0 slot
19/20.
3)
These Hotlink Cables are added in a situation where ETPT HW redundancy pair ETC 0/2 slot 25/26 is taken in use.
4)
These Hotlink Cables are added in a situation where ETPT HW redundancy pair ETC 1/3 slot 28/29 is taken in use.
5)
These Hotlink Cables are added in a situation where ETPT HW redundancy pair ETC 1/3 slot 30/31 is taken in use.
6)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair ETC 3/ 1 slot 33/34 is
taken in use.
7)
These cables are included in parts list, but shall only be connected in case an ETPTis taken in use in this slot(s).
8)
These Hotlink Cables are added in a situation where ETPE or ETPT HW redundancy pair GTIC 0/1 slot 15/16 in
alternative to ETC 3/ 1 slot 33/34 is taken in use.
9)
These Hotlink Cables are added in a situation where ETPT HW redundancy pair ETC 0/2 slot 22/23 is taken in use
12.2.2
Create HW configuration
Create cartridges if not exist
GTIC-0, ETC-0 and ETC-1 cartridges:
ZWTC:SGC1C_A,1A1-3,,:AL=1A1-11-12;
GTIC-1, ETC-2 and ETC-3 cartridges:
ZWTC:SGC1C_A,1A2-3,,:AL=1A1-11-13;
Create ETPT functional unit
Normal option.
ZWTU:ETPT,0,0:1A1-3;
ZWTU:ETPT,0,1:1A2-3;
ZWTU:ETPT,1,0:1A1-3;
ZWTU:ETPT,1,1:1A2-3;
ZWTU:ETPT,2,0:1A1-3;
ZWTU:ETPT,2,1:1A2-3;
ZWTU:ETPT,3,0:1A2-3;
ZWTU:ETPT,3,1:1A1-3;
ZWTU:ETPT,4,0:1A2-3;
ZWTU:ETPT,4,1:1A1-3;
ZWTU:ETPT,5,0:1A2-3;
ZWTU:ETPT,5,1:1A1-3;
Flexible option.
ZWTU:ETPT,0,0:1A1-3;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZWTU:ETPT,0,1:1A2-3;
ZWTU:ETPT,1,0:1A1-3;
ZWTU:ETPT,1,1:1A2-3;
ZWTU:ETPT,2,0:1A1-3;
ZWTU:ETPT,2,1:1A2-3;
ZWTU:ETPT,3,0:1A1-3;
ZWTU:ETPT,3,1:1A2-3;
ZWTU:ETPT,4,0:1A1-3;
ZWTU:ETPT,4,1:1A2-3;
Note:In flexible option two alternative solutions are available for ETPT 5-0/5-1 Implementation.
Alternative 1. 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33
ZWTU:ETPT,5,0:1A1-3;
ZWTU:ETPT,5,1:1A2-3;
Alternative 2. 6th ETPT/E equipped in GTIC 0 /1 slot 15
ZWTU:ETPT,5,0:1A1-3;
ZWTU:ETPT,5,1:1A2-3;
Create ETPT plug-in unit
Normal option
ZWTP:ETPT,0,0:ETP,0,14::ETPCS,8,1984&&2047,TSL,0&&31;
ZWTP:ETPT,0,1:ETP,0,14;
ZWTP:ETPT,1,0:ETP,0,16::ETPCS,8,512&&575,TSL,0&&31;
ZWTP:ETPT,1,1:ETP,0,16;
ZWTP:ETPT,2,0:ETP,0,19::ETPCS,8,256&&319,TSL,0&&31;
ZWTP:ETPT,2,1:ETP,0,19;
ZWTP:ETPT,3,0:ETP,0,22::ETPCS,8,1024&&1087,TSL,0&&31;
ZWTP:ETPT,3,1:ETP,0,22;
ZWTP:ETPT,4,0:ETP,0,25::ETPCS,8,64&&127,TSL,0&&31;
ZWTP:ETPT,4,1:ETP,0,25;
ZWTP:ETPT,5,0:ETP,0,29::ETPCS,8,768&&831,TSL,0&&31;
ZWTP:ETPT,5,1:ETP,0,29;
Flexible Option.
ZWTP:ETPT,0,0:ETP,0,19::ETPCS,8,256&&319,TSL,0&&31;
ZWTP:ETPT,0,1:ETP,0,19;
ZWTP:ETPT,1,0:ETP,0,22::ETPCS,8,320&&383,TSL,0&&31;
ZWTP:ETPT,1,1:ETP,0,22;
ZWTP:ETPT,2,0:ETP,0,25::ETPCS,8,512&&575,TSL,0&&31;
ZWTP:ETPT,2,1:ETP,0,25;
ZWTP:ETPT,3,0:ETP,0,28::ETPCS,8,576&&639,TSL,0&&31;
ZWTP:ETPT,3,1:ETP,0,28;
ZWTP:ETPT,4,0:ETP,0,30::ETPCS,8,1024&&1087,TSL,0&&31;
ZWTP:ETPT,4,1:ETP,0,30;
Note:In flexible option two alternative solutions are available for ETPE 5-0/5-1 Implementation.
Alternative 1. 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZWTP:ETPT,5,0:ETP,0,33::ETPCS,8,1088&&1151,TSL,0&&31;
ZWTP:ETPT,5,1:ETP,0,33;
Alternative 2. 6th ETPT/E equipped in GTIC 0 /1 slot 15
ZWTP:ETPT,5,0:ETP,0,15::ETPCS,8,1088&&1151,TSL,0&&31;
ZWTP:ETPT,5,1:ETP,0,15;
Note:
For legacy A-interface: Hotlinks are connected from port 0&1 to GSWs. ETPCS functionality is created in plug
in unit to support legacy A interface.
For A over IP: Traffic will be routed though EEP interface created (via ETPA card).
For PS via PCU2_E cards: No separate PCMs are required. This will use PEPeth link created in ETP cards to
communicate with PCU2_E cards in BCSU. This will support CS calls in (A over IP,A over TDM) and PS calls if
PCU2_E cards are used in BSCs
Connect functional units
ZWUC:ETPT,<pair_number>,<unit_index>:ETP,0:IF=ABIS:;
Create ETS2 functional unit
Normal option
STMU-0 for ETPT 2-0 and ETPT 3-0
ZWTU:STMU,0:1A1-3;
STMU-2 for ETPT 4-0 and ETPT 5-0
ZWTU:STMU,2:1A1-3;
STMU-4 for ETPT 0-0 and ETPT 1-0
ZWTU:STMU,4:1A1-3;
STMU-1 for ETPT 2-1 and ETPT 3-1
ZWTU:STMU,1:1A2-3;
STMU-3 for ETPT 4-1 and ETPT 5-1
ZWTU:STMU,3:1A2-3;
STMU-5 for ETPT 0-1 and ETPT 1-1
ZWTU:STMU,5:1A2-3;
Flexible Option
STMU-24 for ETPT 0-0 and ETPT 1-0
ZWTU:STMU,24:1A1-3;
STMU-14 for ETPT 2-0 and ETPT 3-0
ZWTU:STMU,14:1A2-3;
STMU-30 for ETPT 4-0 and ETPT 5-0
ZWTU:STMU,30:1A1-3;
STMU-25 for ETPT 0-1 and ETPT 1-1
ZWTU:STMU,25:1A2-3;
STMU-15 for ETPT 2-1 and ETPT 3-1
ZWTU:STMU,15:1A1-3;
STMU-31 for ETPT 4-1 and ETPT 5-1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZWTU:STMU,31:1A2-3;
Create ETS2 plug-in unit
Normal option
STMU-0 for ETPT 2-0 and ETPT 3-0
ZWTP:STMU,0:ETS2,0,10::LAPD,8,392,TSL,0&&15:;
STMU-2 for ETPT 4-0 and ETPT 5-0
ZWTP:STMU,2:ETS2,0,11::LAPD,8,392,TSL,16&&31:;
STMU-4 for ETPT 0-0 and ETPT 1-0
ZWTP:STMU,4:ETS2,0,12::LAPD,8,393,TSL,0&&15:;
STMU-1 for ETPT 2-1 and ETPT 3-1
ZWTP:STMU,1:ETS2,0,10::LAPD,8,384,TSL,0&&15:;
STMU-3 for ETPT 4-1 and ETPT 5-1
ZWTP:STMU,3:ETS2,0,11::LAPD,8,384,TSL,16&&31:;
STMU-5 for ETPT 0-1 and ETPT 1-1
ZWTP:STMU,5:ETS2,0,12::LAPD,8,385,TSL,0&&15:;
Flexible Option
STMU-24 for ETPT 0-0 and ETPT 1-0
ZWTP:STMU,24:ETS2,0,21::LAPD,8,397,TSL,0&&15:;
STMU-14 for ETPT 2-0 and ETPT 3-0
ZWTP:STMU,14:ETS2,0,17::LAPD,8,387,TSL,16&&31:;
STMU-30 for ETPT 4-0 and ETPT 5-0
ZWTP:STMU,30:ETS2,0,24::LAPD,8,398,TSL,16&&31:;
STMU-25 for ETPT 0-1 and ETPT 1-1
ZWTP:STMU,25:ETS2,0,21::LAPD,8,389,TSL,0&&15:;
STMU-15 for ETPT 2-1 and ETPT 3-1
ZWTP:STMU,15:ETS2,0,17::LAPD,8,395,TSL,16&&31:;
STMU-31 for ETPT 4-1 and ETPT 5-1
ZWTP:STMU,31:ETS2,0,24::LAPD,8,390,TSL,16&&31:;
Create ETs functional units in ETS2, If ETSI
Normal option
For ETPT 2-0, ETPT 2-1(ET creation for STMU-0 IF=0).
ZWTU:ET,256&&318:1A1-3:UNIT=STMU,IND=0,IF=0:;
For ETPT 1-0, ETPT 1-1(ET creation for STMU-4 IF=0)
ZWTU:ET,512&&574:1A1-3:UNIT=STMU,IND=4,IF=0:;
For ETPT 0-0, ETPT 0-1(ET creation for STMU-4 IF=1)
ZWTU:ET,1984&&2046:1A1-3:UNIT=STMU,IND=4,IF=1:;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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For ETPT 3-0, ETPT 3-1(ET creation for STMU-0 IF=1)
ZWTU:ET,1024&&1086:1A1-3:UNIT=STMU,IND=0,IF=1:;
For ETPT 4-0, ETPT 4-1(ET creation for STMU-2 IF=0)
ZWTU:ET,64&&126:1A1-3:UNIT=STMU,IND=2,IF=0:;
For ETPT 5-0, ETPT 5-1(ET creation for STMU-2 IF=1)
ZWTU:ET,768&&830:1A1-3:UNIT=STMU,IND=2,IF=1:;
Flexible Option
For ETPT 0-0, ETPT 0-1(ET creation for STMU-24 IF=0).
ZWTU:ET,256&&318:1A1-3:UNIT=STMU,IND=24,IF=0:;
For ETPT 1-0, ETPT 1-1(ET creation for STMU-24 IF=1)
ZWTU:ET,320&&382:1A1-3:UNIT=STMU,IND=24,IF=1:;
For ETPT 2-0, ETPT 2-1(ET creation for STMU-14 IF=0)
ZWTU:ET,512&&574:1A2-3:UNIT=STMU,IND=14,IF=0:;
For ETPT 3-0, ETPT 3-1(ET creation for STMU-14 IF=1)
ZWTU:ET,576&&638:1A2-3:UNIT=STMU,IND=14,IF=1:;
For ETPT 4-0, ETPT 4-1(ET creation for STMU-30 IF=0)
ZWTU:ET,1024&&1086:1A1-3:UNIT=STMU,IND=30,IF=0:;
For ETPT 5-0, ETPT 5-1(ET creation for STMU-30 IF=1)
ZWTU:ET,1088&&1150:1A1-3:UNIT=STMU,IND=30,IF=1:;
Create ETs functional units in ETS2, If ANSI
Normal option
For ETPT 2-0, ETPT 2-1(ET creation for STMU-0 IF=0).
ZWTU:ET,3392&&3475:1A1-3:UNIT=STMU,IND=0,IF=0:;
For ETPT 1-0, ETPT 1-1(ET creation for STMU-4 IF=0)
ZWTU:ET,3224&&3307:1A1-3:UNIT=STMU,IND=4,IF=0:;
For ETPT 0-0, ETPT 0-1(ET creation for STMU-4 IF=1)
ZWTU:ET,2804&&2887:1A1-3:UNIT=STMU,IND=4,IF=1:;
For ETPT 3-0, ETPT 3-1(ET creation for STMU-0 IF=1)
ZWTU:ET,3056&&3139:1A1-3:UNIT=STMU,IND=0,IF=1:;
For ETPT 4-0, ETPT 4-1(ET creation for STMU-2 IF=0)
ZWTU:ET,2048&&2131:1A1-3:UNIT=STMU,IND=2,IF=0:;
For ETPT 5-0, ETPT 5-1(ET creation for STMU-2 IF=1)
ZWTU:ET,2888&&2971:1A1-3:UNIT=STMU,IND=2,IF=1:;
Flexible Option
For ETPT 0-0, ETPT 0-1(ET creation for STMU-24 IF=0).
ZWTU:ET,3392&&3475:1A1-3:UNIT=STMU,IND=24,IF=0:;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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For ETPT 1-0, ETPT 1-1(ET creation for STMU-24 IF=1)
ZWTU:ET,3476&&3559:1A1-3:UNIT=STMU,IND=24,IF=1:;
For ETPT 2-0, ETPT 2-1(ET creation for STMU-14 IF=0)
ZWTU:ET,3224&&3307:1A2-3:UNIT=STMU,IND=14,IF=0:;
For ETPT 3-0, ETPT 3-1(ET creation for STMU-14 IF=1)
ZWTU:ET,3308&&3391:1A2-3:UNIT=STMU,IND=14,IF=1:;
For ETPT 4-0, ETPT 4-1(ET creation for STMU-30 IF=0)
ZWTU:ET,3056&&3139:1A1-3:UNIT=STMU,IND=30,IF=0:;
For ETPT 5-0, ETPT 5-1(ET creation for STMU-30 IF=1)
ZWTU:ET,3140&&3223:1A1-3:UNIT=STMU,IND=30,IF=1:;
Create ETs Plug in units in ETS2, If ETSI
Normal option.
For ETPT 2-0, ETPT 2-1(ET creation for STMU-0 IF=0).
ZWTP:ET,256&&318:ETS2,0,10::GENERAL,8,256&&318,NO:;
For ETPT 1-0, ETPT 1-1(ET creation for STMU-4 IF=0)
ZWTP:ET,512&&574:ETS2,0,12::GENERAL,8,512&&574,NO:;
For ETPT 0-0, ETPT 0-1(ET creation for STMU-4 IF=1)
ZWTP:ET,1984&&2046:ETS2,0,12::GENERAL,8,1984&&2046,NO:;
For ETPT 3-0, ETPT 3-1(ET creation for STMU-0 IF=1)
ZWTP:ET,1024&&1086:ETS2,0,10::GENERAL,8,1024&&1086,NO:;
For ETPT 4-0, ETPT 4-1(ET creation for STMU-2 IF=0)
ZWTP:ET,64&&126:ETS2,0,11::GENERAL,8,64&&126,NO:;
For ETPT 5-0, ETPT 5-1(ET creation for STMU-2 IF=1)
ZWTP:ET,768&&830:ETS2,0,11::GENERAL,8,768&&830,NO:;
Flexible Option
For ETPT 0-0, ETPT 0-1(ET creation for STMU-24 IF=0).
ZWTP:ET,256&&318:ETS2,0,21::GENERAL,8,256&&318,NO:;
For ETPT 1-0, ETPT 1-1(ET creation for STMU-24 IF=1)
ZWTP:ET,320&&382:ETS2,0,21::GENERAL,8,320&&382,NO:;
For ETPT 2-0, ETPT 2-1(ET creation for STMU-14 IF=0)
ZWTP:ET,512&&574:ETS2,0,17::GENERAL,8,512&&574,NO:;
For ETPT 3-0, ETPT 3-1(ET creation for STMU-14 IF=1)
ZWTP:ET,576&&638:ETS2,0,17::GENERAL,8,576&&638,NO:;
For ETPT 4-0, ETPT 4-1(ET creation for STMU-30 IF=0)
ZWTP:ET,1024&&1086:ETS2,0,24::GENERAL,8,1024&&1086,NO:;
For ETPT 5-0, ETPT 5-1(ET creation for STMU-30 IF=1)
ZWTP:ET,1088&&1150:ETS2,0,24::GENERAL,8,1088&&1150,NO:;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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Create ETs Plug in units in ETS2, If ANSI
Normal option.
For ETPT 2-0, ETPT 2-1(ET creation for STMU-0 IF=0).
ZWTP:ET,3392&&3475:ETS2,0,10::GENERAL,8,3392&&3475,NO:;
For ETPT 1-0, ETPT 1-1(ET creation for STMU-4 IF=0)
ZWTP:ET,3224&&3307:ETS2,0,12::GENERAL,8,3224&&3307,NO:;
For ETPT 0-0, ETPT 0-1(ET creation for STMU-4 IF=1)
ZWTP:ET,2804&&2887:ETS2,0,12::GENERAL,8,2804&&2887,NO:;
For ETPT 3-0, ETPT 3-1(ET creation for STMU-0 IF=1)
ZWTP:ET,3056&&3139:ETS2,0,10::GENERAL,8,1024&&1086,NO:;
For ETPT 4-0, ETPT 4-1(ET creation for STMU-2 IF=0)
ZWTP:ET,2048&&2131:ETS2,0,11::GENERAL,8,2048&&2131,NO:;
For ETPT 5-0, ETPT 5-1(ET creation for STMU-2 IF=1)
ZWTP:ET,2888&&2971:ETS2,0,11::GENERAL,8,2888&&2971,NO:;
Flexible Option
For ETPT 0-0, ETPT 0-1(ET creation for STMU-24 IF=0).
ZWTP:ET,3392&&3475:ETS2,0,21::GENERAL,8,3392&&3475,NO:;
For ETPT 1-0, ETPT 1-1(ET creation for STMU-24 IF=1)
ZWTP:ET,3476&&3559:ETS2,0,21::GENERAL,8,3476&&3559,NO:;
For ETPT 2-0, ETPT 2-1(ET creation for STMU-14 IF=0)
ZWTP:ET,3224&&3307:ETS2,0,17::GENERAL,8,3224&&3307,NO:;
For ETPT 3-0, ETPT 3-1(ET creation for STMU-14 IF=1)
ZWTP:ET,3308&&3391:ETS2,0,17::GENERAL,8,3308&&3391,NO:;
For ETPT 4-0, ETPT 4-1(ET creation for STMU-30 IF=0)
ZWTP:ET,3056&&3139:ETS2,0,24:: GENERAL,8,3056&&3139,NO:;
For ETPT 5-0, ETPT 5-1(ET creation for STMU-30 IF=1)
ZWTP:ET,3140&&3223:ETS2,0,24:: GENERAL,8,3140&&3223,NO:;
Connect STMUs
Normal option.
ZWUC:STMU,0:ETS2,0::BCSU,<index>:;
ZWUC:STMU,2:ETS2,0::BCSU,<index>:;
ZWUC:STMU,4:ETS2,0::BCSU,<index>:;
ZWUC:STMU,1:ETS2,0::BCSU,<index>:;
ZWUC:STMU,3:ETS2,0::BCSU,<index>:;
ZWUC:STMU,5:ETS2,0::BCSU,<index>:;
Flexible Option.
ZWUC:STMU,24:ETS2,0::BCSU,<index>:;
ZWUC:STMU,14:ETS2,0::BCSU,<index>:;
ZWUC:STMU,30:ETS2,0::BCSU,<index>:;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZWUC:STMU,25:ETS2,0::BCSU,<index>:;
ZWUC:STMU,15:ETS2,0::BCSU,<index>:;
ZWUC:STMU,31:ETS2,0::BCSU,<index>:;
Connect ETs, IF ETSI
Normal option.
For ETPT 2-0, ETPT 2-1.
ZWUC:ET,256&&318:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 1-0, ETPT 1-1.
ZWUC:ET,512&&574:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 0-0, ETPT 0-1.
ZWUC:ET,1984&&2046:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 3-0, ETPT 3-1.
ZWUC:ET,1024&&1086:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 4-0, ETPT 4-1.
ZWUC:ET,64&&126:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 5-0, ETPT 5-1.
ZWUC:ET,768&&830:ETS2,0:IF=ABIS:BCSU,<index>;
Flexible Option.
For ETPT 0-0, ETPT 0-1.
ZWUC:ET,256&&318:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 1-0, ETPT 1-1.
ZWUC:ET,320&&382:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 2-0, ETPT 2-1.
ZWUC:ET,512&&574:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 3-0, ETPT 3-1.
ZWUC:ET,576&&638:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 4-0, ETPT 4-1.
ZWUC:ET,1024&&1086:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 5-0, ETPT 5-1.
ZWUC:ET,1088&&1150:ETS2,0:IF=ABIS:BCSU,<index>;
Connect ETs, IF ANSI
Normal option
For ETPT 2-0, ETPT 2-1.
ZWUC:ET, 3392&& 3475:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 1-0, ETPT 1-1.
ZWUC:ET,3224&&3307:ETS2,0:IF=ABIS:BCSU,<index>;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
CONFIDENTIAL
APPROVED 1.12
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For ETPT 0-0, ETPT 0-1.
ZWUC:ET,2804&&2887:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 3-0, ETPT 3-1.
ZWUC:ET,3056&&3139:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 4-0, ETPT 4-1.
ZWUC:ET,2048&&2131:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 5-0, ETPT 5-1.
ZWUC:ET,2888&&2971:ETS2,0:IF=ABIS:BCSU,<index>;
Flexible Option.
For ETPT 0-0, ETPT 0-1.
ZWUC:ET,3392&&3475:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 1-0, ETPT 1-1.
ZWUC:ET,3476&&3559:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 2-0, ETPT 2-1.
ZWUC:ET,3224&&3307:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 3-0, ETPT 3-1.
ZWUC:ET,3308&&3391:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 4-0, ETPT 4-1.
ZWUC:ET,3056&&3139:ETS2,0:IF=ABIS:BCSU,<index>;
For ETPT 5-0, ETPT 5-1.
ZWUC:ET,3140&&3223:ETS2,0:IF=ABIS:BCSU,<index>;
Create protection groups.
Normal option
For ETPT 0-0,ETPT 0-1
ZYWC:,,<BI/UNI>,<APS or MSP>:18,22;
For ETPT 1-0,ETPT 1-1
ZYWC:,,<BI/UNI>,<APS or MSP>:16,20;
For ETPT 2-0,ETPT 2-1
ZYWC:,,<BI/UNI>,<APS or MSP>:0,4;
For ETPT 3-0,ETPT 3-1
ZYWC:,,<BI/UNI>,<APS or MSP>:2,6;
For ETPT 4-0,ETPT 4-1
ZYWC:,,<BI/UNI>,<APS or MSP>:8,12;
For ETPT 5-0,ETPT 5-1
ZYWC:,,<BI/UNI>,<APS or MSP>:10,14;
For ANSI-APS and ETSI-MSP.
Flexible Option.
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For ETPT 0-0,ETPT 0-1
ZYWC:,,<BI/UNI>,<APS or MSP>:96,100;
For ETPT 1-0,ETPT 1-1
ZYWC:,,<BI/UNI>,<APS or MSP>:98,102;
For ETPT 2-0,ETPT 2-1
ZYWC:,,<BI/UNI>,<APS or MSP>:56,60;
For ETPT 3-0,ETPT 3-1
ZYWC:,,<BI/UNI>,<APS or MSP>:58,62;
For ETPT 4-0,ETPT 4-1
ZYWC:,,<BI/UNI>,<APS or MSP>:120,124;
For ETPT 5-0,ETPT 5-1
ZYWC:,,<BI/UNI>,<APS or MSP>:122,126;
For ANSI-APS and ETSI-MSP.
Connect hotlink ports
ZWTA:GSW,0:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPT,<unit_pair>,<unit_index>:ETP,
<PIU_index>:HOTLINK,<port_index>:;
ZWTA:GSW,1:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPT,<unit_pair>,<unit_index>:ETP,
<PIU_index>:HOTLINK,<port_index>:;
ZWTA:STMU,<Unit index>:ETS2,<PIU_Index>:HOTLINK,<Port
Index>:ETPT,<unit_pair>,<unit_index>:ETP,<PIU_index>:HOTLINK,<port_index>:;
Normal option
ETPT 0-0
ZWTA:GSW,0:SW256B,7:HOTLINK,6:ETPT,0,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,7:HOTLINK,6:ETPT,0,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,4:ETS2,0:HOTLINK,2:ETPT,0,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,5:ETS2,0:HOTLINK,2:ETPT,0,0:ETP,0:HOTLINK,5:;
ETPT 0-1
ZWTA:GSW,0:SW256B,7:HOTLINK,7:ETPT,0,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,7:HOTLINK,7:ETPT,0,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,4:ETS2,0:HOTLINK,3:ETPT,0,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,5:ETS2,0:HOTLINK,3:ETPT,0,1:ETP,0:HOTLINK,5:;
ETPT 1-0
ZWTA:GSW,0:SW256B,2:HOTLINK,0:ETPT,1,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,0:ETPT,1,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,4:ETS2,0:HOTLINK,0:ETPT,1,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,5:ETS2,0:HOTLINK,0:ETPT,1,0:ETP,0:HOTLINK,5:;
ETPT 1-1
ZWTA:GSW,0:SW256B,2:HOTLINK,1:ETPT,1,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,1:ETPT,1,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,4:ETS2,0:HOTLINK,1:ETPT,1,1:ETP,0:HOTLINK,4:;
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ZWTA:STMU,5:ETS2,0:HOTLINK,1:ETPT,1,1:ETP,0:HOTLINK,5:;
ETPT 2-0
ZWTA:GSW,0:SW256B,1:HOTLINK,0:ETPT,2,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,0:ETPT,2,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,0:ETS2,0:HOTLINK,0:ETPT,2,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,1:ETS2,0:HOTLINK,0:ETPT,2,0:ETP,0:HOTLINK,5:;
ETPT 2-1
ZWTA:GSW,0:SW256B,1:HOTLINK,1:ETPT,2,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,1:ETPT,2,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,0:ETS2,0:HOTLINK,1:ETPT,2,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,1:ETS2,0:HOTLINK,1:ETPT,2,1:ETP,0:HOTLINK,5:;
ETPT 3-0
ZWTA:GSW,0:SW256B,4:HOTLINK,0:ETPT,3,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,0:ETPT,3,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,0:ETS2,0:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,1:ETS2,0:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,5:;
ETPT 3-1
ZWTA:GSW,0:SW256B,4:HOTLINK,1:ETPT,3,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,1:ETPT,3,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,0:ETS2,0:HOTLINK,3:ETPT,3,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,1:ETS2,0:HOTLINK,3:ETPT,3,1:ETP,0:HOTLINK,5:;
ETPT 4-0
ZWTA:GSW,0:SW256B,0:HOTLINK,2:ETPT,4,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,0:HOTLINK,2:ETPT,4,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,2:ETS2,0:HOTLINK,0:ETPT,4,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,3:ETS2,0:HOTLINK,0:ETPT,4,0:ETP,0:HOTLINK,5:;
ETPT 4-1
ZWTA:GSW,0:SW256B,0:HOTLINK,3:ETPT,4,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,0:HOTLINK,3:ETPT,4,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,2:ETS2,0:HOTLINK,1:ETPT,4,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,3:ETS2,0:HOTLINK,1:ETPT,4,1:ETP,0:HOTLINK,5:;
ETPT 5-0
ZWTA:GSW,0:SW256B,3:HOTLINK,0:ETPT,5,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,3:HOTLINK,0:ETPT,5,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,2:ETS2,0:HOTLINK,2:ETPT,5,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,3:ETS2,0:HOTLINK,2:ETPT,5,0:ETP,0:HOTLINK,5:;
ETPT 5-1
ZWTA:GSW,0:SW256B,3:HOTLINK,3:ETPT,5,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,3:HOTLINK,3:ETPT,5,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,2:ETS2,0:HOTLINK,3:ETPT,5,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,3:ETS2,0:HOTLINK,3:ETPT,5,1:ETP,0:HOTLINK,5:;
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Flexible Option.
ETPT 0-0
ZWTA:GSW,0:SW256B,1:HOTLINK,0:ETPT,0,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,0:ETPT,0,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,24:ETS2,0:HOTLINK,0:ETPT,0,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,25:ETS2,0:HOTLINK,0:ETPT,0,0:ETP,0:HOTLINK,5:;
ETPT 0-1
ZWTA:GSW,0:SW256B,1:HOTLINK,1:ETPT,0,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,1:ETPT,0,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,24:ETS2,0:HOTLINK,1:ETPT,0,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,25:ETS2,0:HOTLINK,1:ETPT,0,1:ETP,0:HOTLINK,5:;
ETPT 1-0
ZWTA:GSW,0:SW256B,1:HOTLINK,2:ETPT,1,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,2:ETPT,1,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,24:ETS2,0:HOTLINK,2:ETPT,1,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,25:ETS2,0:HOTLINK,2:ETPT,1,0:ETP,0:HOTLINK,5:;
ETPT 1-1
ZWTA:GSW,0:SW256B,1:HOTLINK,3:ETPT,1,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,3:ETPT,1,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,24:ETS2,0:HOTLINK,3:ETPT,1,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,25:ETS2,0:HOTLINK,3:ETPT,1,1:ETP,0:HOTLINK,5:;
ETPT 2-0
ZWTA:GSW,0:SW256B,2:HOTLINK,0:ETPT,2,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,0:ETPT,2,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,14:ETS2,0:HOTLINK,0:ETPT,2,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,15:ETS2,0:HOTLINK,0:ETPT,2,0:ETP,0:HOTLINK,5:;
ETPE 2-1
ZWTA:GSW,0:SW256B,2:HOTLINK,1:ETPE,2,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,1:ETPE,2,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,14:ETS2,0:HOTLINK,1:ETPT,2,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,15:ETS2,0:HOTLINK,1:ETPT,2,1:ETP,0:HOTLINK,5:;
ETPT 3-0
ZWTA:GSW,0:SW256B,2:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,2:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,14:ETS2,0:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,15:ETS2,0:HOTLINK,2:ETPT,3,0:ETP,0:HOTLINK,5:;
ETPT 3-1
ZWTA:GSW,0:SW256B,2:HOTLINK,3:ETPT,3,1:ETP,0:HOTLINK,0:;
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ZWTA:GSW,1:SW256B,2:HOTLINK,3:ETPT,3,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,14:ETS2,0:HOTLINK,3:ETPT,3,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,15:ETS2,0:HOTLINK,3:ETPT,3,1:ETP,0:HOTLINK,5:;
ETPE 4-0
ZWTA:GSW,0:SW256B,4:HOTLINK,0:ETPT,4,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,0:ETPT,4,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,30:ETS2,0:HOTLINK,0:ETPT,4,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,31:ETS2,0:HOTLINK,0:ETPT,4,0:ETP,0:HOTLINK,5:;
ETPE 4-1
ZWTA:GSW,0:SW256B,4:HOTLINK,1:ETPT,4,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,1:ETPT,4,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,30:ETS2,0:HOTLINK,1:ETPT,4,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,31:ETS2,0:HOTLINK,1:ETPT,4,1:ETP,0:HOTLINK,5:;
Note: In flexible option two alternative solutions are available for ETPE 5-0/5-1 Implementation.
Alternative 1. 6th ETPT/E (if no ETPAs) equipped in ETC 1/3 slot 33.
Alternative 2. 6th ETPT/E equipped in GTIC 0 /1 slot 15
ETPT 5-0
ZWTA:GSW,0:SW256B,4:HOTLINK,2:ETPE,5,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,2:ETPE,5,0:ETP,0:HOTLINK,1:;
ZWTA:STMU,30:ETS2,0:HOTLINK,2:ETPT,5,0:ETP,0:HOTLINK,4:;
ZWTA:STMU,31:ETS2,0:HOTLINK,2:ETPT,5,0:ETP,0:HOTLINK,5:;
ETPT 5-1
ZWTA:GSW,0:SW256B,4:HOTLINK,3:ETPE,5,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,4:HOTLINK,3:ETPE,5,1:ETP,0:HOTLINK,1:;
ZWTA:STMU,30:ETS2,0:HOTLINK,3:ETPT,5,1:ETP,0:HOTLINK,4:;
ZWTA:STMU,31:ETS2,0:HOTLINK,3:ETPT,5,1:ETP,0:HOTLINK,5:;
Configure ETPSIG-M TCP/IP stack configuration for active ETPT(SE-NH).(For example ETPT 0-0)
ZQRA:ETPT, <pair_number>,<unit_index>::IL0::UP;
ZQRA:ETPT, <pair_number>,<unit_index>::IL1::UP;
ZQRA:ETPT, <pair_number>,<unit_index>::BOND0,IL0,IL1,::UP:;
Configure ETPSIG-M TCP/IP stack configuration for redundant ETPT(SE-NH).(For example ETPT 0-1)
ZQRA:ETPT, <pair_number>,<unit_index>::IL0::UP;
ZQRA:ETPT, <pair_number>,<unit_index>::IL1::UP;
ZQRA:ETPT, <pair_number>,<unit_index>::BOND0,IL0,IL1,::UP:;
Configure ETPSIG-M IP address with parameters PDM to active ETPT BOND0 interface.(For example ETPT 0-0)
ZQRN:ETPT,<pair_number>,<unit_index>::BOND0:"<ip_address>",<network_mask_length>,P,ID
M:;
Configure ETPSIG-M IP address with parameters PDM to redundant ETPT BOND0 interface.(For example ETPT
0-1)
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ZQRN:ETPT,<pair_number>,<unit_index>::BOND0:"<ip_address>",<network_mask_length>,P,ID
M:;
Create ETPSIG-C IP address for active ETPT (SE-NH).(For example ETPT 0-0)
ZQRN:ETPT,<pair_number>,>unit_index>::BOND0:"<IP_address>",<network_mask_length>,L,ICV
::;
Create IuA messaging configuration for ETPSIG-M and ETPSIG-C
ZD2C:M:BCSU,<unit_index>::ETPT,<pair_number>,<unit_index>:::;
ZD2C:C,NOR:BCSU,<unit_index>::ETPT,<pair_umber>,<unit_index>:::;
Note!
ETPSIG-M is created only to Gateway BCSU and ETPSIG-C must be created to all BCSU’s for all ETP/ETPA units.
For redundant card (For example ETPT 0-1) IUA messaging for ETPSIG-M will be created with same BCSU
already selected for Active card (ETPT 0-0)
Create EL0 IP address to ETPT
ZQRA:ETPT,<pair_number>,<unit_index>::EL0::UP;
ZQRN:ETPT,<pair_number>,<unit_index>::EL0,:"<ip_address>",<network_mask_length>,L,:;
Create EEP interface for traffic between ETPT and ETPA
ZQRA:ETPT,<pair_number>,<unit_index>::<EEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPT,<pair_number>,<unit_index>::<EEP_VLAN>,:"<ip_address>",<network_mask_length
>,L,VI:;
ZQRP:ETPT,<pair_number>,<unit_index>::<EEP_VLAN>:"<ip_address>":TAG,"EEP":;
Note: EEP interface creation is required only if A over IP is used.
Note: Create the PEP link to ETPGID 0 first if you want to get the ETP object ID for the ETPGID to match in
NetAct.
Create PEP interface if PCU2-E’s are in use
ZQRA:ETPT, <pair_number>,<unit_index>::<PEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPT,<pair_number>,<unit_index>::<PEP_VLAN>,:”<ip_address>",<network_mask_length
>,L,VI:;
ZQRP:ETPT, <pair_number>,<unit_index>::<PEP_VLAN>:"<ip_address>":TAG,"PEP":;
Create IM0 IP address to ETPT
ZQRA:ETPT,<pair_number>,<unit_index>::IM0::UP;
ZQRN:ETPT,<pair_number>,<unit_index>::IM0:"<ip_address>",<network_mask_length>,P,I::;
Create IN0 IP address to ETPT
ZQRA:ETPT,<pair_number>,<unit_index>::IN0::UP;
ZQRN:ETPT,<pair_number>,<unit_index>::IN0:"<ip_address>",<network_mask_length>,P,I::;
Create route from BCSUs to ETPT.
Note: Route is for OMU/TRXSIG from BCSUs to BTSs.ETPT is the GW towards BTS.
ZQKC:BCSU,<Index>::"< Network IP address >",<Sub net mask> :"<ETPT (IL0/IL1) IP address
for C-Plane>":LOG:;
Change state of ETPT to TE-EX
ZUSC:ETPT,<pair_number>,<unit_index>:SE;
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ZUSC:ETPT,<pair_number>,<unit_index>:TE;
12.2.3
Check Plug-in unit software
Note: The flashing does not succeed if the username and password in the ETP card does not match the BSC’s
username & password. Refer Appendix 5 to see an example how to update the username & password via ETP
service terminal.
Check the flash software of ETP cards:ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Check the CBUHAN version in BSC package.
ZDDE::"ZMXP:W0-MMDIRE/CBU*.*";
Macro will choose a valid option (option1 or option2 or option3) based on the output of above
interrogation commands.
Option 1:- When existing ETP version is same or older than the versions mentioned below and ETP
software in OMU DISK is newer than PAC versions mentioned below. If CBUHAN version is older than the
version mentioned below, then option 1 needs to be selected.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPT.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Upgrade the ETP software on the Standby flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPT.
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Option 2:- When existing ETP version is newer than PAC versions mentioned below and also if CBUHAN
version is newer than the version mentioned.
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Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPT.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card. This will verify
if flash upgrade was successful.
ZUSU:UT=<ETP type>,UI=<index>;
Upgrade the ETP software on the new STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPT.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card from the
original flash.
ZUSU:UT=<ETP type>,UI=<index>;
Option 3:- When existing ETP version is same or older than the versions mentioned below and ETP
software in OMU DISKis also same or older than PAC versions mentioned below.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPT.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
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ZUSU:UT=<ETP type>,UI=<index>;
After card restart, log-in to the card using following MML commands ZDDS;
ZRS:<physical address>
switch_flash ctot
After the card comes up, upgrade the ETP software on the this new flash of the ETP card using following MML
command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPET.IMG for
ETPT.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
To restore to the original default flash, we need to switch flash again. So as the ETP card comes up, log-in to the
card using following MML commands ZDDS
ZRS:<physical address>
Switch to other flash using below command ST command switch_flash ctot
NOTE: This command will switch flash and restart the ETP card as well. After the card comes up, open a
new MML session.
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
The redundant card will eSW update will be done in similar way.
12.2.4
Diagnostic
Run diagnostic to the ETPT
ZUDU:ETPT,<pair number>,<index>;
Note: The diagnostic part will be run on both MCMUs.
Change working state of ETPT to WO-EX
ZUSC:ETPT,<pair number>,<index>:WO;
12.2.5
STMU s to WO-EX state
ZUSC:STMU,<STMU_index>,SE;
ZUSC:STMU,<STMU_index>,TE;
Check current boot SW version in STMU and compare it to version that is found from the active SW package
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ZWDI:UT=STMU,UI=<STMU_index>;
If boot SW versions do not match, these must be upgraded.
Update can be done with following command:
ZWDR:UT=STMU,UI=<STMU_index>;
Note! This can take from one unit 40-60 minutes. Do not remove the cards or cause power restart while
updating the boot SW, because the SW can corrupt and only way to recover is to send the PIU to HWS.
During updating flash memory of ETS2 all connections will be prevented through that Plug-in unit.
Run diagnostic to STMU
ZUDU:STMU,<STMU_index>::;
Change STMU to WO-EX
ZUSC:STMU,<STMU_index>,WO;
12.2.6
Check PCU configuration
If Packet Abis interface is also used in PS traffic check PCU configuration. PCU2-D or PCU2-E must be created to
the PCUPAB function that it can carry Packet Abis PS data. For PCU2_E cards PEP interface creation is required
to support PEP Eth link. These creations are mentioned in the below document.
PCU configuration can be checked with following command:
ZWTI:BCSU,<unit_index>;
Use “ BSCPCU HW implementation for PS traffic” procedure if PCU configurations need to change.
ETP- PCU connection.
ZESK:ETPT,<pair number>:BCSU,<index>:PCU,<index>:;
Note :This is required for both PCU2_E and PCU2_D cards.
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13
A OVER IP (ETPA), PIU TYPE ETP-A
13.1
Creation of ETPA unit
Check the source configuration for overlapping Plug-in units.
Note!
Macro asks in this point Plug-in Unit location. After that macro check possible unit overlapping.
If there is overlapping plug-in unit’s macro remove them automatically.
Note:- Refer Appendix2 to check overlapping PCMs used by existing units in BSCs. Please note to shift existing
traffic from the plug in unit. Once traffic is shifted remove the units and cables and then insert ETP cards to
required tracks. Please note to turn off jumper settings in GSW units if PCMs are not used. Refer Appendix 1 to
check jumpers settings used for existing ETP cards.
Note:-There are two options for installing ETPA in Initial flexi BSC-Flexible and Normal.
Normal option: Configurations supported before S15 EP 2.1 releases.
Flexible option: New flexible ETP layout in Flexi BSC.The implementation of flexible option in initial flexi
BSC will be supported only from software S15 EP2.1.
13.1.1
Install Plug-in units and cables
13.1.1.1
Terminators and setting modules
Terminators and setting modules
Normal option
Position
ID
Name
FU
Use
ETPA
Index
Note
1.0B 32 4E
C108691
ADMOD04
ETC 1
For ETP-A
ETPA 0
1)
1.0B 35 4E
C108691
ADMOD04
ETC 1
For ETP-A
ETPA 2
1)
2.0B 32 4E
C108691
ADMOD04
ETC 3
For ETP-A
ETPA 1
1)
2.0B 35 4E
C108691
ADMOD04
ETC 3
For ETP-A
ETPA 3
1)
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1.0B 27 3D
C101501
CABID1A
ETC 1
CABID for
ETP / ETP-A
ETPA 0/
ETPA 2
1.0B 27 1A
C101530
CARID11
ETC 1
CARID for
ETP / ETP-A
ETPA 0/
ETPA 2
2.0B 27 3D
C101501
CABID1A
ETC 3
CABID for
ETP / ETP-A
ETPA 1/
ETPA 3
2.0B 27 1A
C101536
CARID21
ETC 3
CARID for
ETP / ETP-A
ETPA 1/
ETPA 3
Notes: 1) When ETP-A PIU is used in this slot
Flexible option
Position
ID
Name
FU
Use
ETPA
Index
Note
1.0B 33 4E
C108691
ADMOD04
ETC 1
For ETP-A
ETPA 2
1)
1.0B 35 4E
C108691
ADMOD04
ETC 1
For ETP-A
ETPA 0
1)
2.0B 33 4E
C108691
ADMOD04
ETC 3
For ETP-A
ETPA 3
1)
2.0B 35 4E
C108691
ADMOD04
ETC 3
For ETP-A
ETPA 1
1)
1.0B 27 3D
C101501
CABID1A
ETC 1
CABID for
ETP / ETP-A
ETPA 0/
ETPA 2
1.0B 27 1A
C101530
CARID11
ETC 1
CARID for
ETP / ETP-A
ETPA 0/
ETPA 2
2.0B 27 3D
C101501
CABID1A
ETC 3
CABID for
ETP / ETP-A
ETPA 1/
ETPA 3
2.0B 27 1A
C101536
CARID21
ETC 3
CARID for
ETP / ETP-A
ETPA 1/
ETPA 3
Notes: 1) When ETP-A PIU is used in this slot
13.1.1.2
Plug-in unit installation
Normal option
Cartridge SGC1C
position
Unit
Cartridge /
Slots
ETPA
group
index
1.0
ETC-1
32
0
1.0
ETC-1
35
2
2.0
ETC-3
32
1
2.0
ETC-3
35
3
Note:Check Appendix 4 for ETP strappings
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Flexible option
Cartridge SGC1C
position
Unit
Cartridge /
Slots
ETPA
group
index
1.0
ETC-1
33
2
1.0
ETC-1
35
0
2.0
ETC-3
33
3
2.0
ETC-3
35
1
Note:Check Appendix 4 for ETP strappings
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13.1.1.3
Cabling
13.1.1.3.1
Change SWU-0, SWU-2, SWU-4 and SWU-6 SE-NH state
ZUSC:SWU,0:TE;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:SE;
ZUSC:SWU,6:TE;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:SE;
13.1.1.3.1.1
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
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CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Add ETPLAN from LANU-0 for the required tracks.
Equipping
CABLE FROM
No
FU
BSCC_3304
LANU 0
BSCC_3305
LANU 0
BSCC_3310
BSCC_3311
Position
CABLE TO
FU
Position
Type
Use
1.0B
32.4G
1.0B
35.4G
CHES024
ETPLAN
CHES022
ETPLAN
4.0B
15.1L
4.0B
15.1N
ETC 1
LANU 0
4.0B
15.2G
ETC 3
2.0B
32.4G
CHES019
ETPLAN
LANU 0
4.0B
15.2J
ETC 3
2.0B
35.4G
CHES018
ETPLAN
ETC 1
Note
ETPA
index
ETPA-0
ETPA-2
ETPA-1
ETPA-3
13.1.1.3.1.2 For Flexible option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Add ETPLAN from LANU-0 for the required tracks.
Equipping
No
CABLE FROM
FU
BSCC_3305
Position
CABLE TO
FU
Position
Type
Use
1.0B
35.4G
2.0B
35.4G
CHES022
ETPLAN
CHES018
ETPLAN
LANU
0
LANU
0
4.0B
15.1N
4.0B
15.2J
ETC 1
BSCC_5022
LANU
0
4.0B
15.1L
ETC 1
1.0B
33.4G
CHES024
ETPLAN
BSCC_5025
LANU
0
4.0B
15.2G
ETC 3
2.0B
33.4G
CHES019
ETPLAN
BSCC_3311
13.1.1.3.2
ETC 3
Note
ETPA
index
ETPA-0
ETPA-1
ETPA-2
ETPA-3
Change SWU-0, SWU-2, SWU-4 and SWU-6 to WO-EX state.
ZUSC:SWU,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:WO;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:WO;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:WO;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:TE;
ZUSC:SWU,6:WO;
13.1.1.3.3
Change SWU-1, SWU-3, SWU-5 and SWU-7 SE-NH state
ZUSC:SWU,1:TE;
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ZUSC:SWU,1:SE;
ZUSC:SWU,1:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:SE;
13.1.1.3.3.1
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Add needed ETPLAN cables LANU-1 to the required tracks
Equipping
No
CABLE FROM
FU
Position
CABLE TO
FU
Position
Type
Use
BSCC_3324
LANU 1
5.0B 15.1L
ETC 1
1.0B 32.4J
CHES025
ETPLAN
BSCC_3325
LANU 1
5.0B 15.1N
ETC 1
1.0B 35.4J
CHES023
ETPLAN
BSCC_3330
LANU 1
5.0B 15.2G
ETC 3
2.0B 32.4J
CHES020
ETPLAN
BSCC_3331
LANU 1
5.0B 15.2J
ETC 3
2.0B 35.4J
CHES019
ETPLAN
13.1.1.3.3.2
Note
ETPA
Index
ETPA-0
ETPA-2
ETPA-1
ETPA-3
For Flexible option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Add needed ETPLAN cables LANU-1 to the required tracks
Equipping
No
CABLE FROM
FU
Position
CABLE TO
FU
BSCC_3325
LANU 1
5.0B 15.1N
ETC 1
BSCC_3331
LANU 1
5.0B 15.2J
ETC 3
BSCC_5030
LANU 1
5.0B 15.1L
ETC 1
BSCC_5033
LANU 1
5.0B 15.2G
ETC 3
13.1.1.3.4
Position
1.0B
35.4J
2.0B
35.4J
1.0B
33.4J
2.0B
33.4J
Type
Use
CHES023
ETPLAN
CHES019
ETPLAN
CHES025
ETPLAN
CHES020
ETPLAN
Note
ETPA
Index
ETPA-0
ETPA-1
ETPA-2
ETPA-3
Change SWU-1, SWU-3, SWU-5 and SWU-7 to WO-EX state.
ZUSC:SWU,1:SE;
ZUSC:SWU,1:TE;
ZUSC:SWU,1:WO;
ZUSC:SWU,3:SE;
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ZUSC:SWU,3:TE;
ZUSC:SWU,3:WO;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:WO;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:WO;
13.1.2
Create HW configuration
Create catridge if not exist
GTIC-0, ETC-0 and ETC-1 cartridge:
ZWTC:SGC1C_A,1A1-3,,:AL=1A1-11-12;
GTIC-1, ETC-2 and ETC-3 cartridge:
ZWTC:SGC1C_A,1A2-3,,:AL=1A1-11-13;
Create ETPA functional unit
Normal Option
ZWTU:ETPA,0:1A1-3:;
ZWTU:ETPA,1:1A2-3:;
ZWTU:ETPA,2:1A1-3:;
ZWTU:ETPA,3:1A2-3:;
Flexible Option
ZWTU:ETPA,0:1A1-3:;
ZWTU:ETPA,1:1A2-3:;
ZWTU:ETPA,2:1A1-3:;
ZWTU:ETPA,3:1A2-3:;
Create ETPA Plug-in unit
Normal option
ZWTP:ETPA,0:ETP_A,0,32;
ZWTP:ETPA,1:ETP_A,0,32;
ZWTP:ETPA,2:ETP_A,0,35;
ZWTP:ETPA,3:ETP_A,0,35;
Flexible option
ZWTP:ETPA,0:ETP_A,0,35;
ZWTP:ETPA,1:ETP_A,0,35;
ZWTP:ETPA,2:ETP_A,0,33;
ZWTP:ETPA,3:ETP_A,0,33;
Create interfaces to ETPA
ZQRA:ETPA,<unit_index>::IL0;
ZQRA:ETPA,<unit_index>::IL1;
ZQRA:ETPA,<unit_index>::BOND0,IL0,IL1,;
Configure ETPSIG-M IP address to BOND0 interface.
ZQRN:ETPA,<unit_index>::BOND0:"<IP_address>",<network_mask_ length>,P,IDM:;
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Create ETPSIG-C IP address to BOND0 interface.
ZQRN:ETPA,<unit_index>::BOND0:"<IP_address>",<network_mask_length>,L,ICV::;
Create IuA messaging configuration for ETPSIG-M and ETPSG-C
ZD2C:M:BCSU,<unit_index>::ETPA,<unit_index>:::;
ZD2C:C,NOR:BCSU,<unit_index>::ETPA,<unit_index>:::;
Example
ZD2C:M:BCSU,0::ETPA,0:::;
ZD2C:C,NOR:BCSU,0::ETPA,0:::;
Note!
ETPSIG-M is created only to Gateway BCSU and ETPSIG-C must be created to all BCSU’s for all ETP/ETPA units
Create EL0 IP address to the ETPA
ZQRA:ETPA,<unit_index>::EL0::UP:;
ZQRN:ETPA,<unit_index>::EL0,:"<ip_address>",<net_mask_ length>,P:;
Create EEP interface for traffic between ETPA and ETPE/T
ZQRA:ETPA,0::<EEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPA,0::<EEP_VLAN>,:"<ip_address>",<network_mask_length>,L,VI:;
ZQRP:ETPA,0::<EEP_VLAN>:"<ip_address>":TAG,"EEP":;
Create static route for ETPA
ZQKC:ETPA,<unit index>:::"<Gateway ip address>":PHY:;
Create route to BTS from ETPA.
ZQKC:ETPA,<Index>::"<IP Adress>",<Subnet mask>:"<GW IP address>":LOG;
Note: IP address should be BCF U-plane IP address. And GW IP address should be
ETPE/ETPT EEP address.
Change state of ETPA to TE-EX
ZUSC:ETPA,<unit_index>:SE,FCD;
ZUSC:ETPA,<unit_index>:TE,FCD;
13.1.3
Check Plug-in unit software
Note: The flashing does not succeed if the username and password in the ETP card does not match the BSC’s
username & password. Refer Appendix 5 to see an example how to update the username & password via ETP
service terminal.
Check the flash software of ETP cards:ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Check the CBUHAN version in BSC package.
ZDDE::"ZMXP:W0-MMDIRE/CBU*.*";
Macro will choose a valid option (option1 or option2 or option3) based on the output of above
interrogation commands.
Option 1:- When existing ETP version is same or older than the versions mentioned below and ETP
software in OMU DISK is newer than PAC versions mentioned below. If CBUHAN version is older than the
version mentioned below, then option 1 needs to be selected.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
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GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAA.IMG for
ETPA.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Upgrade the ETP software on the Standby flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAA.IMG for
ETPA.
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Option 2:- When existing ETP version is newer than PAC versions mentioned below and also if CBUHAN
version is newer than the version mentioned.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAA.IMG for
ETPA.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card. This will verify
if flash upgrade was successful.
ZUSU:UT=<ETP type>,UI=<index>;
Upgrade the ETP software on the new STANDBY flash of the ETP card using following MML command:
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAA.IMG for
ETPA.
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card from the
original flash.
ZUSU:UT=<ETP type>,UI=<index>;
Option 3:- When existing ETP version is same or older than the versions mentioned below and ETP
software in OMU DISKis also same or older than PAC versions mentioned below.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAA.IMG for
ETPA.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
After card restart, log-in to the card using following MML commands ZDDS;
ZRS:<physical address>
switch_flash ctot
After the card comes up, upgrade the ETP software on the this new flash of the ETP card using following MML
command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAA.IMG for
ETPA.
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
To restore to the original default flash, we need to switch flash again. So as the ETP card comes up, log-in to the
card using following MML commands DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZDDS
ZRS:<physical address>
Switch to other flash using below command ST command switch_flash ctot
NOTE: This command will switch flash and restart the ETP card as well. After the card comes up, open a
new MML session.
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
13.1.4
Diagnostic
Run diagnostic to the ETPA
ZUDU:ETPA,<unit_index>;
Note: The diagnostic part will be run on both MCMUs.
Change working state of ETPA to WO-EX
ZUSC:ETPA,<unit index>,:WO;
Note:-Create the MSS/MGW configurations.Feature 1753 can be turned ON with the below command once
MSS/MGW configurations are completed.
ZW7M: FEA=1753:ON; (Ao IP, TC in MGW)
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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14
A OVER IP (ETPA), PIU TYPE ETP
14.1
Creation of ETP(A) unit
Note!
This procedure can be used by adding ETP for Aover IP or by swapping the existing ETP-A with ETP in A over IP.
This implementation of A over IP(ETPA),PIU type ETP will be supported from software S15 EP2.1. !
ETP card used for implementation should be manufactured from week 43/2011 onwards.This can be verified
from serial number placed on ETP card.
Example,
In PIU label if S/N is 4H112063961 then card is manufactured on week 20/2011.
The other option is to recomission the ETP PIU type manufactured before week 43/2011 with S15 EP2.1 or newer
comissioning SW. The SW can be found in LFILES directory and name of the module is GGNCOMAB.IMG. The
recomissioning instructions can be found from S15 Release documentation ZIP file named as Sxx ETP and ETPA Plug-in unit recomissoining instruction..zip
Note:-There are two options for installing ETPA in Initial flexi BSC-Flexible and Normal.
Normal option: Configurations supported from S15 EP2.1 releases onwards.
Flexible option: New flexible ETP layout in Flexi BSC.The implementation of flexible option in initial flexi
BSC will be supported only from software S15 EP2.1.
14.1.1
Check the source configuration for overlapping Plug-in units
Note!
Macro asks in this point Plug-in Unit location. After that macro check possible unit overlapping
If there is overlapping plug-in unit’s macro remove them automatically.
Note:- Refer Appendix2 to check overlapping PCMs used by existing units in BSCs. Please note to shift existing
traffic from the plug in unit. Once traffic is shifted remove the units and cables and then insert ETP cards to
required tracks. Please note to turn off jumper settings in GSW units if PCMs are not used. Refer Appendix 1 to
check jumpers settings used for existing ETP cards.
14.1.2
Deleting the interface and unit In case the upgrade is done to swap existing ETP-A with ETP
Note:- In case the ETP-A is swapped with ETP, ETPLAN cables should be kept back to the track.
Note:- Remove PCMC8A connectors in case of new delivery Flexi and ADMOD23 terminators in case
ETS2/ETIP’s are in use.
In this step traffic needs to be shifted from existing ETP-A card manually.
Macro will delete interfaces, plugin unit and unit of existing ETP-A card which needs to be swapped.
14.1.3
14.1.3.1
Install Plug-in units and cables
Terminators and setting modules
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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Normal option
Remove following terminators and setting modules
Position
ID
Name
FU
Use
1.0B 32.4E
C108691
ADMOD04
ETC 1
For ETPA
1.0B 35.4E
C108691
ADMOD04
ETC 1
For ETPA
2.0B 32.4E
C108691
ADMOD04
ETC 3
For ETPA
2.0B 35.4E
C108691
ADMOD04
ETC 3
For ETPA
Note
Add following Terminators and setting modules
Position
1.0B
32.4E
1.0B
35.4E
2.0B
32.4E
2.0B
35.4E
1.0B 27
3D
ID
Name
FU
C108689
ADMOD02
ETC 1
C108689
ADMOD02
ETC 1
C108689
ADMOD02
ETC 3
C108689
C101501
ADMOD02
CABID1A
ETC 3
ETC 1
1.0B 27
1A
C101530
2.0B 27
3D
C101501
2.0B 27
1A
C101536
CARID11
CABID1A
CARID21
ETC 1
ETC 3
ETC 3
Use
For
ETP(A)
For
ETP(A)
For
ETP(A)
For
ETP(A)
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
CABID for
ETP /
ETP-A
CARID for
ETP /
ETP-A
ETP(A)
Index
Note
ETP(A) 0
1)
ETP(A) 2
1)
ETP(A) 1
1)
ETP(A) 3
1)
ETP(A) 0/
ETP(A)2
ETP(A) 0/
ETP(A)2
ETP(A)1/
ETP(A)3
ETP(A)1/
ETP(A)3
Notes:
1) When ETP-(A) PIU is used in this slot
Flexible option
Remove following terminators and setting modules
Position
ID
Name
FU
Use
1.0B 33.4E
C108691
ADMOD04
ETC 1
For ETPA
1.0B 35.4E
C108691
ADMOD04
ETC 1
For ETPA
2.0B 33.4E
C108691
ADMOD04
ETC 3
For ETPA
2.0B 35.4E
C108691
ADMOD04
ETC 3
For ETPA
Note
Add following Terminators and setting modules
Position
1.0B
33.4E
1.0B
35.4E
2.0B
33.4E
ID
Name
FU
Use
ETP(A)
Index
Note
C108689
ADMOD02
ETC 1
For ETP(A)
ETP(A) 2
1)
C108689
ADMOD02
ETC 1
For ETP(A)
ETP(A) 0
1)
C108689
ADMOD02
ETC 3
For ETP(A)
ETP(A) 3
1)
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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2.0B
35.4E
1.0B 27
3D
C108689
C101501
ADMOD02
CABID1A
ETC 3
ETC 1
For ETP(A)
CABID for ETP
/ ETP-A
1.0B 27
1A
C101530
CARID11
ETC 1
CARID for ETP
/ ETP-A
2.0B 27
3D
C101501
CABID1A
ETC 3
CABID for ETP
/ ETP-A
2.0B 27
1A
C101536
CARID21
ETC 3
CARID for ETP
/ ETP-A
ETP(A) 1
1)
ETP(A) 0/
ETP(A) 2
ETP(A) 0/
ETP(A) 2
ETP(A) 1/
ETP(A) 3
ETP(A)1/
ETP(A)3
Notes:
1) When ETP-(A) PIU is used in this slot
14.1.3.2
Plug-in unit installation
Normal Option
Cartridge SGC1C
position
Unit
Cartridge /
Slots
ETP(A)
group
index
1.0
ETC-1
32
0
1.0
ETC-1
35
2
2.0
ETC-3
32
1
2.0
ETC-3
35
3
Note:Check Appendix 4 for ETP strappings
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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Flexible option
Cartridge SGC1C
position
Unit
Cartridge /
Slots
ETPA
group
index
1.0
ETC-1
33
2
1.0
ETC-1
35
0
2.0
ETC-3
33
3
2.0
ETC-3
35
1
Note:Check Appendix 4 for ETP strappings
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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14.1.3.3
14.1.3.3.1
Cabling
Change MCMU,0 SWU-0, SWU-2, SWU-4 and SWU-6 SE-NH state
ZUSC:MCMU,0:SP; If needed
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:SE;
ZUSC:EMB,0:SP; if needed
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:SE;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZUSC:SWU,6:TE;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:SE;
14.1.3.3.1.1
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Remove following cables if required.
Equipping
No
CABLE FROM
FU
BSCC_3410
BSCC_3411
CABLE TO
Position
FU
Position
Type
Use
Note
GTIC 0
1.0F 10.SB1-0
ETC 0
1.0F 22.SB1-0
CSB006
Hotlink
GTIC 0
1.0F 10.SB1-1
ETC 0
1.0F 22.SB1-1
CSB006
Hotlink
Add needed ETPLAN and Hotlink cables from GSW-0 and LANU-0 to required tracks.
Equipping
No
CABLE FROM
FU
Position
CABLE TO
FU
Position
Type
Use
Note
ETP(A)
Index
Alternative 1: ETP units in TX Redundancy: upgrade path BSCC-F03 ->BSCC-F05
BSCC_4950
ETC 1
1.0F
33.SB2-0
GSW2KB
0
1.0F
07.SB1-0
CSB010
Hotlink
1)
ETP(A) 0
BSCC_4952
ETC 3
2.0F
33.SB2-0
GSW2KB
0
1.0F
07.SB2-0
CSB017
Hotlink
1)
ETP(A) 1
BSCC_4954
ETC 1
1.0F
36.SB2-0
GSW2KB
0
1.0F
02.SB2-0
CSB013
Hotlink
1)
ETP(A) 2
BSCC_4956
ETC 3
2.0F
36.SB2-0
GSW2KB
0
1.0F
01.SB4-0
CSB018
Hotlink
1)
ETP(A) 3
BSCC_3304
LANU 0
4.0B
15.1L
ETC 1
1.0B
32.4G
CHES024
ETPLAN
2)
ETP(A) 0
BSCC_3305
LANU 0
4.0B
15.1N
ETC 1
1.0B
35.4G
CHES022
ETPLAN
2)
ETP(A) 2
BSCC_3310
LANU 0
4.0B
15.2G
ETC 3
2.0B
32.4G
CHES019
ETPLAN
2)
ETP(A) 1
BSCC_3311
LANU 0
4.0B
15.2J
ETC 3
2.0B
35.4G
CHES018
ETPLAN
2)
ETP(A) 3
Alternative 2: ETP units in HW Redundancy: upgrade path BSCC-F03 ->BSCC-F02->BSCC-F05
BSCC_4950
ETC 1
1.0F
33.SB2-0
GSW2KB
0
1.0F
07.SB1-0
CSB010
Hotlink
1)
ETP(A) 0
BSCC_4952
ETC 3
2.0F
33.SB2-0
GSW2KB
0
1.0F
07.SB2-0
CSB017
Hotlink
1)
ETP(A) 1
BSCC_4954
ETC 1
1.0F
36.SB2-0
GSW2KB
0
1.0F
02.SB2-0
CSB013
Hotlink
1)
ETP(A) 2
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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BSCC_4956
ETC 3
2.0F
36.SB2-0
GSW2KB
0
1.0F
01.SB4-0
CSB018
Hotlink
1)
ETP(A) 3
BSCC_3304
LANU 0
4.0B
15.1L
ETC 1
1.0B
32.4G
CHES024
ETPLAN
2)
ETP(A) 0
BSCC_3305
LANU 0
4.0B
15.1N
ETC 1
1.0B
35.4G
CHES022
ETPLAN
2)
ETP(A) 2
BSCC_3310
LANU 0
4.0B
15.2G
ETC 3
2.0B
32.4G
CHES019
ETPLAN
2)
ETP(A) 1
BSCC_3311
LANU 0
4.0B
15.2J
ETC 3
2.0B
35.4G
CHES018
ETPLAN
2)
ETP(A) 3
Notes:
1)
2)
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s)
Those ETPLAN cables are only added if the ETP will be add first time to track which is empty or having ET16 or
having ETS2 or ETIP
Check SW256B dip switching. See appendix1
14.1.3.3.1.2
For Flexible option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect or add following cables if required
Equipping
Cable from
No
Old FU/
Old
Position/
Old FU/
Old
Position/
New FU
New
Position
New FU
New
Position
ETC 1
1.0F
36.SB2-0
GSW2KB
0
1.0F
05.SB1-0
BSCC_5050
Cable to
Type
Use
Note
ETP(A)
INDEX
CSB013
Hotlink
1)
ETP(A)-0
CSB018
Hotlink
1)
ETP(A)-1
CSB010
Hotlink
1)
ETP(A)-2
CSB017
Hotlink
1)
ETP(A)-3
1.0F
04.SB1-0
BSCC_5052
ETC 3
2.0F
36.SB2-0
GSW2KB
0
1.0F
05.SB2-0
1.0F
04.SB2-0
BSCC_5054
ETC 1
1.0F
34.SB2-0
GSW2KB
0
1.0F
08.SB1-0
1.0F
08.SB3-0
BSCC_5056
ETC 3
2.0F
34.SB2-0
GSW2KB
0
1.0F
08.SB2-0
1.0F
08.SB4-0
Notes:
1)
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s)
Add needed ETPLAN from LANU-0 to required tracks.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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Equipping
CABLE TO
CABLE FROM
No
Position
FU
Position
Type
Use
Note
4.0B
15.1N
ETC 1
1.0B
35.4G
CHES022
ETPLAN
1)
4.0B
15.2J
ETC 3
2.0B
35.4G
CHES018
ETPLAN
1)
4.0B
15.1L
ETC 1
1.0B
33.4G
CHES024
ETPLAN
1)
4.0B
15.2G
ETC 3
2.0B
33.4G
CHES019
ETPLAN
1)
FU
BSCC_3305
LANU 0
BSCC_3311
LANU 0
BSCC_5022
LANU 0
BSCC_5025
LANU 0
Notes:
1)
ETP(A)
Index
ETP(A) -0
ETP(A)-1
ETP(A)-2
ETP(A)-3
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s)
Check SW256B dip switching. See appendix1
14.1.3.3.2
Change MCMU-0, SWU-0, SWU-2, SWU-4 and SWU-6 to WO-EX state.
ZUSC:MCMU,0:SE;
ZUSC:MCMU,0:TE;
ZUSC:MCMU,0:SP;
ZUSC:MCMU,0:WO;
ZUSC:EMB,0:SE;
ZUSC:EMB,0:TE;
ZUSC:EMB,0:SP;
ZUSC:EMB:WO;
ZUSC:SWU,0:SE;
ZUSC:SWU,0:TE;
ZUSC:SWU,0:WO;
ZUSC:SWU,2:SE;
ZUSC:SWU,2:TE;
ZUSC:SWU,2:WO;
ZUSC:SWU,4:SE;
ZUSC:SWU,4:TE;
ZUSC:SWU,4:WO;
ZUSC:SWU,6:SE;
ZUSC:SWU,6:TE;
ZUSC:SWU,6:WO;
14.1.3.3.3
Change MCMU-1, SWU-1, SWU-3, SWU-5 and SWU-7 SE-NH state
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:SE;
ZUSC:EMB,1:TE;
ZUSC:EMB,1:SE;
ZUSC:EMB,1:SE;
ZUSC:SWU,1:TE;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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ZUSC:SWU,1:SE;
ZUSC:SWU,1:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:SE;
14.1.3.3.3.1
For Normal Option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Add needed ETPLAN and Hotlink cables from LANU-1 and GSW-1 to required tracks.
Equipping
No
CABLE FROM
FU
Position
CABLE TO
FU
Position
Type
Use
Note
ETP(A)
Index
Alternative 1: ETP units in TX Redundancy: upgrade path BSCC-F03 ->BSCC-F05
BSCC_3324
LANU 1
5.0B
15.1L
ETC 1
1.0B
32.4J
CHES025
ETPLAN
2)
ETP(A) 0
BSCC_3325
LANU 1
5.0B
15.1N
ETC 1
1.0B
35.4J
CHES023
ETPLAN
2)
ETP(A) 2
BSCC_3330
LANU 1
5.0B
15.2G
ETC 3
2.0B
32.4J
CHES020
ETPLAN
2)
ETP(A) 1
BSCC_3331
LANU 1
5.0B
15.2J
ETC 3
CHES019
ETPLAN
2)
ETP(A) 3
BSCC_4951
ETC 1
1.0F
33.SB2-1
GSW2KB
1
CSB017
Hotlink
1)
ETP(A) 0
BSCC_4953
ETC 3
2.0F
33.SB2-1
GSW2KB
1
CSB010
Hotlink
1)
ETP(A) 1
BSCC_4955
ETC 1
1.0F
36.SB2-1
GSW2KB
1
CSB017
Hotlink
1)
ETP(A) 2
BSCC_4957
ETC 3
2.0F36.S
B2-1
GSW2KB
1
CSB013
Hotlink
1)
ETP(A) 3
2.0B
35.4J
2.0F
07.SB10
2.0F
07.SB20
2.0F
02.SB20
2.0F
01.SB40
Alternative 2: ETP units in HW Redundancy: upgrade path BSCC-F03 ->BSCC-F02->BSCC-F05
BSCC_3324
LANU 1
5.0B
15.1L
ETC 1
1.0B
32.4J
CHES025
ETPLAN
2)
ETP(A) 0
BSCC_3325
LANU 1
5.0B
15.1N
ETC 1
1.0B
35.4J
CHES023
ETPLAN
2)
ETP(A) 2
BSCC_3330
LANU 1
5.0B
15.2G
ETC 3
2.0B
32.4J
CHES020
ETPLAN
2)
ETP(A) 1
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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BSCC_3331
LANU 1
5.0B
15.2J
ETC 3
BSCC_4951
ETC 1
1.0F
33.SB2-1
GSW2KB
1
BSCC_4953
ETC 3
2.0F
33.SB2-1
GSW2KB
1
BSCC_4955
ETC 1
1.0F
36.SB2-1
GSW2KB
1
BSCC_4957
ETC 3
2.0F36.S
B2-1
GSW2KB
1
Notes:
1)
2)
2.0B
35.4J
2.0F
07.SB10
2.0F
07.SB20
2.0F
02.SB20
2.0F
01.SB40
CHES019
ETPLAN
2)
ETP(A) 3
CSB017
Hotlink
1)
ETP(A) 0
CSB010
Hotlink
1)
ETP(A) 1
CSB017
Hotlink
1)
ETP(A) 2
CSB013
Hotlink
1)
ETP(A) 3
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s)
Those ETPLAN cables are only added if the ETP will be add first time to track which is empty or having ET16 or
having ETS2 or ETIP
Check SW256B dip switching. See appendix1
14.1.3.3.3.2
For Flexible option
Note:- Please check whether CHFX or CHES cables(Starting from cable numbers BSCC_480 to BSCC_495) are
present in back side of BSC from beginning of upgrade itself. Note to remove this if not required. CHFX and
CHES cables are needed in case of HW redundancy part of ETP as mentioned in cabling part of upgrade
procedure.
Move and reconnect following cables if needed
Equipping
Cable from
No
Old FU/
Old
Position/
Old FU/
Old
Position/
New FU
New
Position
New FU
New
Position
ETC 1
1.0F
36.SB2-1
GSW2KB
1
2.0F
05.SB1-0
GSW2KB
1
2.0F
04.SB1-0
2.0F
05.SB2-0
GSW2KB
1
2.0F
04.SB2-0
2.0F
08.SB1-0
GSW2KB
1
2.0F
08.SB3-0
2.0F
08.SB2-0
BSCC_5051
BSCC_5053
BSCC_5055
BSCC_5057
ETC 3
ETC 1
ETC 1
Cable to
2.0F36.SB21
1.0F
34.SB2-1
1.0F
34.SB2-1
Type
Use
Note
ETP(A)
INDEX
CSB017
Hotlink
1)
ETP(A)-0
CSB013
Hotlink
1)
ETP(A)-1
CSB017
Hotlink
1)
ETP(A)-2
CSB010
Hotlink
1)
ETP(A)-3
2.0F
08.SB4-0
Notes:
1)
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s)
Add needed ETPLAN from LANU-1 required tracks.
Equipping
CABLE FROM
CABLE TO
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No
FU
BSCC_5030
LANU 1
BSCC_3325
LANU 1
Position
FU
5.0B 15.1L
5.0B 15.1N
Type
Use
ETC 1
1.0B
33.4J
CHES025
ETPLAN
ETP(A)-2
ETC 1
1.0B
35.4J
CHES023
ETPLAN
ETP(A)-0
CHES020
ETPLAN
ETP(A)-3
CHES019
ETPLAN
ETP(A)-1
BSCC_5033
LANU 1
5.0B 15.2G
ETC 3
2.0B
33.4J
BSCC_3331
LANU 1
5.0B 15.2J
ETC 3
2.0B
35.4J
Notes:
2)
Note
ETP(A)
Index
Position
These cables are included in parts list, but shall only be connected, if an ETP PIU is taken in use in this slot(s)
Check SW256B dip switching. See appendix1
14.1.3.3.4
Change MCMU-1 to SP-EX state SWU-1, SWU-3, SWU-5 and SWU-7 to WO-EX state.
ZUSC:MCMU,1:SE;
ZUSC:MCMU,1:TE;
ZUSC:MCMU,1:SP;
ZUSC:EMB,1:SE;
ZUSC:EMB,1:TE;
ZUSC:EMB,1:SP;
ZUSC:SWU,1:SE;
ZUSC:SWU,1:TE;
ZUSC:SWU,1:WO;
ZUSC:SWU,3:SE;
ZUSC:SWU,3:TE;
ZUSC:SWU,3:WO;
ZUSC:SWU,5:SE;
ZUSC:SWU,5:TE;
ZUSC:SWU,5:WO;
ZUSC:SWU,7:SE;
ZUSC:SWU,7:TE;
ZUSC:SWU,7:WO;
14.1.4
Create HW configuration
Create catridge if not exist
GTIC-0, ETC-0 and ETC-1 cartridge:
ZWTC:SGC1C_A,1A1-3,,:AL=1A1-11-12;
GTIC-1, ETC-2 and ETC-3 cartridge:
ZWTC:SGC1C_A,1A2-3,,:AL=1A1-11-13;
Create ETPA functional unit
Normal option
ZWTU:ETPA,0:1A1-3:;
ZWTU:ETPA,1:1A2-3:;
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ZWTU:ETPA,2:1A1-3:;
ZWTU:ETPA,3:1A2-3:;
Flexible option
ZWTU:ETPA,0:1A1-3:;
ZWTU:ETPA,1:1A2-3:;
ZWTU:ETPA,2:1A1-3:;
ZWTU:ETPA,3:1A2-3:;
Create ETPA Plug-in unit
Normal option
ZWTP:ETPA,0:ETP,0,32,::ETPACS,8,1536&&1599,TSL,0&&31::;
ZWTP:ETPA,1:ETP,0,32,::ETPACS,8,1600&&1663,TSL,0&&31::;
ZWTP:ETPA,2:ETP,0,35,::ETPACS,8,320&&383,TSL,0&&31::;
ZWTP:ETPA,3:ETP,0,35,::ETPACS,8,192&&255,TSL,0&&31::;
Flexible option
ZWTP:ETPA,0:ETP,0,35,::ETPACS,8,768&&831,TSL,0&&31::;
ZWTP:ETPA,1:ETP,0,35,::ETPACS,8,832&&895,TSL,0&&31::;
ZWTP:ETPA,2:ETP,0,33,::ETPACS,8,1920&&1983,TSL,0&&31::;
ZWTP:ETPA,3:ETP,0,33,::ETPACS,8,1984&&2047,TSL,0&&31::;
Connect functional units
ZWUC:ETPA,<unit_index>:ETP,0:IF=A;
Connect hotlink ports
ZWTA:GSW,0:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPA,<unit_index>:ETP,<PIU_ind
ex>:HOTLINK,<port_index>:;
ZWTA:GSW,1:SW256B,<PIU_index>:HOTLINK,<port_index>:ETPA,<unit_index>:ETP,<PIU_index>
:HOTLINK,<port_index>:;
Normal option
ETP(A)-0
ZWTA:GSW,0:SW256B,6:HOTLINK,0:ETPA,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,6:HOTLINK,0:ETPA,0:ETP,0:HOTLINK,1:;
ETP(A)-1
ZWTA:GSW,0:SW256B,6:HOTLINK,2:ETPA,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,6:HOTLINK,2:ETPA,1:ETP,0:HOTLINK,1:;
ETP(A)-2
ZWTA:GSW,0:SW256B,1:HOTLINK,2:ETPA,2:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,1:HOTLINK,2:ETPA,2:ETP,0:HOTLINK,1:;
ETP(A)-3
ZWTA:GSW,0:SW256B,0:HOTLINK,6:ETPA,3:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,0:HOTLINK,6:ETPA,3:ETP,0:HOTLINK,1:;
Flexible option
ETP(A)-0
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ZWTA:GSW,0:SW256B,3:HOTLINK,0:ETPA,0:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,3:HOTLINK,0:ETPA,0:ETP,0:HOTLINK,1:;
ETP(A)-1
ZWTA:GSW,0:SW256B,3:HOTLINK,2:ETPA,1:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,3:HOTLINK,2:ETPA,1:ETP,0:HOTLINK,1:;
ETP(A)-2
ZWTA:GSW,0:SW256B,7:HOTLINK,4:ETPA,2:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,7:HOTLINK,4:ETPA,2:ETP,0:HOTLINK,1:;
ETP(A)-3
ZWTA:GSW,0:SW256B,7:HOTLINK,6:ETPA,3:ETP,0:HOTLINK,0:;
ZWTA:GSW,1:SW256B,7:HOTLINK,6:ETPA,3:ETP,0:HOTLINK,1:;
Create interfaces to ETPA
ZQRA:ETPA,<unit_index>::IL0;
ZQRA:ETPA,<unit_index>::IL1;
ZQRA:ETPA,<unit_index>::BOND0,IL0,IL1,;
Configure ETPSIG-M IP address to BOND0 interface.
ZQRN:ETPA,<unit_index>::BOND0:"<IP_address>",<network_mask_ length>,P,IDM:;
Create ETPSIG-C IP address to BOND0 interface.
ZQRN:ETPA,<unit_index>::BOND0:"<IP_address>",<network_mask_length>,L,ICV::;
Create IuA messaging configuration for ETPSIG-M and ETPSG-C
ZD2C:M:BCSU,<unit_index>::ETPA,<unit_index>:::;
ZD2C:C,NOR:BCSU,<unit_index>::ETPA,<unit_index>:::;
Example
ZD2C:M:BCSU,0::ETPA,0:::;
ZD2C:C,NOR:BCSU,0::ETPA,0:::;
Note!
ETPSIG-M is created only to Gateway BCSU and ETPSIG-C must be created to all BCSU’s for all ETP/ETP-A
units
Create EL0 IP address to the ETPA
ZQRA:ETPA,<unit_index>::EL0::UP:;
ZQRN:ETPA,<unit_index>::EL0,:"<ip_address>",<net_mask_ length>,P:;
Create EEP interface for traffic between ETPA and ETPE/T
ZQRA:ETPA,<Index>::<EEP_VLAN>,<VLAN_id>,BOND0,;
ZQRN:ETPA,<Index>::<EEP_VLAN>,:"<ip_address>",<network_mask_length>,L,VI:;
ZQRP:ETPA,<Index>::<EEP_VLAN>:"<ip_address>":TAG,"EEP":;
Create IN0 IP address to ETPA
ZQRA:ETPA,<unit_index>::IN0::UP;
ZQRN:ETPA,<unit_index>::IN0:"<ip_address>",<network_mask_length>,P,I::;
Create static route for ETPA
ZQKC:ETPA,<unit index>:::"<Gateway ip address>":PHY:;
Create route to BTS from ETPA.
ZQKC:ETPA,<Index>::"<IP Adress>",<Subnet mask>:"<GW IP address>":LOG;
Note: IP address should be BCF U-plane IP address. And GW IP address should be
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ETPE/ETPT EEP address.
This is required only in case if packet abis set up exists.
Change state of ETPA to TE-EX
ZUSC:ETPA,<unit_index>:SE,FCD;
ZUSC:ETPA,<unit_index>:TE,FCD;
14.1.5
Check Plug-in unit software
Note: The flashing does not succeed if the username and password in the ETP card does not match the BSC’s
username & password. Refer Appendix 5 to see an example how to update the username & password via ETP
service terminal.
Check the flash software of ETP cards:ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Check the CBUHAN version in BSC package.
ZDDE::"ZMXP:W0-MMDIRE/CBU*.*";
Macro will choose a valid option (option1 or option2 or option3) based on the output of above
interrogation commands.
Option 1:- When existing ETP version is same or older than the versions mentioned below and ETP
software in OMU DISK is newer than PAC versions mentioned below. If CBUHAN version is older than the
version mentioned below, then option 1 needs to be selected.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAB.IMG for
ETP(A).
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Upgrade the ETP software on the Standby flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAB.IMG for
ETP(A).
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Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
Option 2:- When existing ETP version is newer than PAC versions mentioned below and also if CBUHAN
version is newer than the version mentioned.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAB.IMG for
ETP(A).
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card. This will verify
if flash upgrade was successful.
ZUSU:UT=<ETP type>,UI=<index>;
Upgrade the ETP software on the new STANDBY flash of the ETP card using following MML command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ipaddress>,SW=W0LFILES/<GGNET*_file>,MODE=STANDBY;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAB.IMG for
ETP(A).
Use command ZWDS to switch upgraded flash as ACTIVE flash on the ETP card:
ZWDS:UT=<ETP_type>,UI=<index>,PT=<ETP_type>,PI=<index>:;
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card from the
original flash.
ZUSU:UT=<ETP type>,UI=<index>;
Option 3:- When existing ETP version is same or older than the versions mentioned below and ETP
software in OMU DISKis also same or older than PAC versions mentioned below.
Image Name
PAC Version existing on ETP
GGNCOMAB
2.3-0
GGNETPET
3.30-0
GGNETPAA
3.29-0
GGNETPAB
4.29-0
CBUHAN
12.95-1
Upgrade the ETP software on the Active flash of the ETP card using following MML command:
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ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAB.IMG for
ETP(A).
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
After card restart, log-in to the card using following MML commands ZDDS;
ZRS:<physical address>
switch_flash ctot
After the card comes up, upgrade the ETP software on the this new flash of the ETP card using following MML
command:
ZWDL:UT=<ETP_type>,UI=0,SERVER=<ip address>,SW=W0LFILES/<GGNET*_file>,MODE=ACTIVE;
Note: For FTP server IP address, check MCMU ETPSIG-I IP address. Image file is GGNETPAB.IMG for
ETP(A).
Restart the ETP card. Note that after this point, the upgraded software will be running on ETP card.
ZUSU:UT=<ETP type>,UI=<index>;
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
To restore to the original default flash, we need to switch flash again. So as the ETP card comes up, log-in to the
card using following MML commands ZDDS
ZRS:<physical address>
Switch to other flash using below command ST command switch_flash ctot
NOTE: This command will switch flash and restart the ETP card as well. After the card comes up, open a
new MML session.
Verify that the new software version has been upgraded on active flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=ACTIVE;
Verify that the new software version has been upgraded on standby flash using following command :
ZWDM:UT=<ETP_ type>,UI=<index>,MODE=STANDBY;
14.1.6
Diagnostic
Run diagnostic to the ETPA
ZUDU:ETPA,<unit_index>;
Note: The diagnostic part will be run on both MCMUs.
Change working state of ETPA to WO-EX
ZUSC:ETPA,<unit index>,:WO;
Note:-Create the MSS/MGW configurations. Feature 1753 can be turned ON with the below command once
MSS/MGW configurations are completed.
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ZW7M: FEA=1753:ON; (Ao IP, TC in MGW)
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15
COPY THE HW EQUIPMENT DATABASE INFORMATION TO THE DISK
(DBC)
ZDBC:EQUIPM,0;
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16
ACTIONS AFTER UPGRADE & POST CONDITIONS
16.1
BSS Integration
After ETP/ETPA equipment upgrade in BSCs, make BSC integration for upgraded units according BSS
integration. The document can be found from NED.
16.2
BSC configuration printout (post-check)
The information about the BSC configurations and conditions are collected.
The checking can be made by using the macro (UPGMAIN.HIT) or manually following the instructions from “BSC
configuration printout”-document delivered in Release Binder.
16.3
Return to the old HW configuration
If return to old HW configuration is needed, follow the instructions in this document in the reverse order. Or
activate fallback build taken before HW upgrade and change cablings according the Cablings instructions for
Flexi BSC which can be found from NED.
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17
APPENDIX :
17.1
Appendix 1: SW 256B Dip switch settings
17.1.1
SW256B jumper settings
17.1.2 PCM mode settings (SW1)
The PCM mode set up is made with micro switches:
4M/8M mode for serial buses R0...R31, T0...T31
4M/8M mode for serial buses R32...R63, T32...T63
-
SW1
Switch
Slot
SW256B 0
1
1 (1-8)
OFF
2 (2-7)
OFF
3 (3-6)
OFF
4 (4-5)
OFF
Note!
PCM 0-255 4M mode selected
SW256B 1
2
ON
ON
OFF
OFF
PCM 256-511 8M mode selected
SW256B 2
3
ON
ON
OFF
OFF
PCM 512-767 8M mode selected
SW256B 3
4
ON
ON
OFF
OFF
PCM 768-1023 8M mode
selected
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SW256B 4
5
ON
ON
OFF
OFF
SW256B 5
6
ON
ON
OFF
OFF
SW256B 6
7
ON
ON
OFF
OFF
SW256B 7
8
ON
ON
OFF
OFF
PCM 1024-1279 8M
selected
PCM 1280-1535 8M
selected
PCM 1536-1791 8M
selected
PCM 1792-2047 8M
selected
mode
mode
mode
mode
17.1.3 Interchangeability code settings (SW2)
The setting of the interchangeability code (ICC code) is presented in the table below.
Table: Interchangeability settings on the SW256B (SW2).
Switch Default setting Function
1-8
OFF
Interchangeability code bit 3
2-7
OFF
Interchangeability code bit 2
3-6
OFF
Interchangeability code bit 1
4-5
OFF
Interchangeability code bit 0
The table below presents the setting of the interchangeability code.
Table: Interchangeability code (ICC) settings (SW2).
ICC code
Switch setting
Switch 1 Switch 2 Switch 3 Switch 4
A
OFF
OFF
OFF
OFF
B
OFF
OFF
OFF
ON
C
OFF
OFF
ON
OFF
D
OFF
OFF
ON
ON
E
OFF
ON
OFF
OFF
F
OFF
ON
OFF
ON
G
OFF
ON
ON
OFF
H
OFF
ON
ON
ON
J
ON
OFF
OFF
OFF
K
ON
OFF
OFF
ON
L
ON
OFF
ON
OFF
M
ON
OFF
ON
ON
N
ON
ON
OFF
OFF
P
ON
ON
OFF
ON
R
ON
ON
ON
OFF
The first interchangeability code A corresponds to all switches OFF, after which the settings start to roll for each
interchangeability code change.
17.1.4 Serial Broadband SB1 settings (SW3)
The setting of the Serial Broadband Interface capacity is presented in the table below.
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SW3
Switch
Slot
SW256B 0
1
1 (1-8)
2 (2-7)
3 (3-6)
4 (4-5)
Note!
OFF
OFF
OFF
OFF
SB1 interface is disabled
SB1 interface, PCM circuits 256-319
connected.
A. Selected if SB2 interfaces of ETPE/T in
track 29,30.ETC 1 connected. Selected if
SB2 interfaces of ETPE/T in track 19,20
ETC 0 connected.
B. Selected if SB2 interfaces of ETPE/T in
Track 19,20 ETC 0/Track 19,20 ETC 2
connected.
SW256B 1
2
OFF
OFF
ON*)
OFF
SB1 interface, PCM circuits 512-575
connected.
A. Selected if SB2 interfaces of ETPE/T in
track 25,26.ETC 0 connected.
Selected if SB2 interfaces of ETPE/T in
track 22,23 ETC 0 connected.
B. Selected if SB2 interfaces of ETPE/T in
Track 16,17 GTIC0/Track 16,17 GTIC 1
connected.
Selected if SB2 interfaces of ETPE/T in
Track 25,26 ETC 0/Track 25,26 ETC 1
connected.
SW256B 2
3
OFF
OFF
ON *)
OFF
SB1 interface, PCM circuits 768-831
connected.
A. Selected if SB2 interfaces of ETPE/T in
track 29, 30 ETC-3 connected.
B. Selected if SB2 interfaces of Track 29,
30 ETC-1/Track 29, 30 ETC3 connected .
C) Selected if SB2 interfaces of ETP(A) in
Track 35,36 of ETC1 connected .
SW256B 3
4
OFF
OFF
ON *)
OFF
SW256B 4
5
OFF
OFF
ON *)
OFF
SW256B 5
6
OFF
OFF
ON *)
OFF
SB1 interface, PCM circuits 1024-1087
connected.
A. Selected if SB2 interfaces of ETPE/T in
track 22,23 ETC-2.connected.
B. Selected if SB2 interfaces of ETPE/T in
Track 22,23 ETC-0/Track 22,23 ETC-2
connected.
Selected if SB2 interfaces of ETPE/T in
Track 30, 31 ETC-1/Track 30,31 ETC-3
connected.
SB1 interface, PCM circuits 1280-1343
connected.
A. Selected if SB2 interfaces of ETPE/T
in track 25,26 ETC-0 connected.
SW256B 6
7
OFF
OFF
ON *)
OFF
SB1 interface,PCM circuits 1536-1599
Connected.
C.Selected if SB2 interface of ETP(A) in
track 32,33 ETC-1 connected.
SW256B 7
8
OFF
OFF
OFF
OFF
SB1 interface is disabled
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*) ETP E or ETP T or ETP(A) is not connected in this PCM position, switch must be OFF
A. TXN redundancy is in use.
B. HW redundancy in use.
C. Pool redundancy in use.
17.1.5
Serial Broadband SB2 settings (SW4)
SW4
Switch
Slot
SW256B 0
SW256B 1
1 (1-8)
1
2
OFF
OFF
2 (2-7)
OFF
OFF
3 (3-6)
ON *)
ON*)
4 (4-5)
OFF
OFF
Note!
SB2 interface, PCM circuits 64-127
connected.
A. Selected if SB2 interfaces of ETPE/T in
track 25,26 ETC-2 connected.
B. Selected if SB2 interfaces of ETPE/T in
Track 25,26 ETC0 , in Track 25,26 ETC 2
connected.
SB2 interface, PCM circuits 320-383
connected.
A. Selected if SB2 interfaces of ETPE/T in
track 19, 20 ETC-2 connected.
B. Selected if SB2 interfaces of ETPE/T in
Track 22,23 ETC0, in Track 22,23 ETC 2
connected.
C. Selected if SB2 interface of ETP(A) 2 in
track 35,36 ETC-1 connected(Normal).
SB2 interface, PCM circuits 576-639
connected.
SW256B 2
3
OFF
OFF
ON*)
OFF
SW256B 3
4
OFF
OFF
ON*)
OFF
SW256B 4
5
OFF
OFF
ON*)
OFF
A. Selected if SB2 interfaces of ETPE/T in
track 22,23 ETC-2 connected.
B. Selected if SB2 interfaces of ETPE/T in
Track 28,29 ETC1 ,in Track 28,29 ETC 3
connected.
SB2 interface, PCM circuits 832-895
connected.
C. Selected if SB2 interface of ETP(A) in
track 35,36 ETC-3 connected.
SB2 interface, PCM circuits 1088-1151
connected.
B. Selected if SB2 interfaces of ETPE/T in
Track 33,34 ETC1,in Track 33,34 ETC 3
connected(for ETPT Flexible alternative 1 )
. Selected if SB2 interfaces of ETPE/T in
Track 15,16 GTIC 0, in Track 15,16 GTIC
1 connected(for ETPT Flexible alternative
1) .
SB2 interface, PCM circuits 1344-1407
connected.
SW256B 5
6
OFF
OFF
ON*)
OFF
A. Selected if SB2 interfaces of ETPE/T in
track 25,26 ETC-2 connected.
SB2 interface, PCM circuits 1600-1663
connected.
SW256B 6
7
OFF
OFF
ON*)
OFF
C. Selected if SB2 interface of ETP(A) in
track 32,33 ETC-3 connected.
SW256B 7
8
OFF
OFF
OFF
OFF
SB2 interface is disabled
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
190 (207)
*) ETP E or ETP T or ETP(A) is not connected in this PCM position, switch must be OFF
A. TXN redundancy is in use.
B. HW redundancy in use.
C. Pool redundancy in use.
17.1.6 Serial Broadband SB3 settings (SW5)
The setting of the Serial Broadband Interface capacity is presented in the table below.
SW5
Switch
Slot
SW256B 0
1
1 (1-8)
OFF
2 (2-7)
OFF
3 (3-6)
OFF
4 (4-5)
OFF
Note!
SB3 interface is disabled
SW256B 1
2
OFF
OFF
OFF
OFF
SB3 interface is disabled
SW256B 2
3
OFF
OFF
OFF
OFF
SB3 interface is disabled
SW256B 3
4
OFF
OFF
OFF
OFF
SB3 interface is disabled
SW256B 4
5
OFF
OFF
OFF
OFF
SB3 interface is disabled
SW256B 5
6
OFF
OFF
OFF
OFF
SB3 interface is disabled
SW256B 6
7
OFF
OFF
OFF
OFF
SB3 interface is disabled
SW256B 7
8
OFF
OFF
ON*)
OFF
SB3interface, PCM circuits 19201983 connected.
C. Selected if SB2 interface of
ETP(A) in track 33,34 of ETC1
connected.
17.1.7 Serial Broadband SB4 settings (SW6)
The setting of the Serial Broadband Interface capacity is presented in the table below.
SW6
Slot
Switch
1 (18)
2 (27)
3 (3-6)
4 (45)
SW256B 0
1
OFF
OFF
ON*)
OFF
Note!
SB4 interface, PCM circuits 192-255 connected.
C. Selected if SB2 interface of ETP(A) in track 35,36
of ETC3 connected.
SW256B 1
2
OFF
OFF
OFF
OFF
SB4 interface is disabled
SW256B 2
3
OFF
OFF
OFF
OFF
SB4 interface is disabled
SW256B 3
4
OFF
OFF
OFF
OFF
SB4 interface is disabled
SW256B 4
5
ON
ON
OFF
OFF
SB4 interface is disabled
SW256B 5
6
ON
ON
OFF
OFF
SB4 interface is disabled
SW256B 6
7
ON
ON
OFF
OFF
SW256B 7
8
OFF
OFF
ON *)
OFF
SB4 interface is disabled
SB4 interface, PCM circuits 1984-2047 connected.
A. Selected if SB2 interfaces of ETPE/T in track
22,23 ETC-0 connected.
B.Selected if SB2 interfaces of ETPE/T in track 14,15
GTIC 0/Track 14,15 GTIC 1 connected
C. Selected if SB2 interface of ETP(A) in track 33,34
of ETC3 connected.
*) ETP E or ETP T or ETP(A) is not connected in this PCM position, switch must be OFF
A. TXN redundancy is in use.
B. HW redundancy in use.
C. Pool redundancy in use.
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
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17.2
Appendix 2: GTIC & ETC PCM usage in case of initial delivery Flexi BSC
Note: ETP cards will occupy two tracks. PCMs in table are mentioned with primary track only.
Cartridge
Type
Usage
PIU type
Track
10
Track
11
Track 12
Track
13
Track
14
Track
15
Track
16
Track
17
ET16
13921407
12801295
1296-1311
13121327
13281343
13441359
13601375
13761391
64126
192254
64126
192254
15361598
16001662
15361598
16001662
12801342
13441406
12801342
13441406
19201982
19842046
10241086
10881150
512574
576638
64126
192254
64126
192254
15361598
16001662
15361598
16001662
10241086
10881150
512575
512574
576638
ETSI
GTIC-0
GTIC-0
GTIC-0
GTIC-0
ANSI
&
ETSI
ETSI
ETSI
ETSI
GTIC-0
ETSI
GTIC-0
ETSI
GTIC-0
GTIC-0
ETSI
ETSI
GTIC-0
ETSI
GTIC-1
ANSI
&
ETSI
GTIC-1
GTIC-1
ETSI
ETSI
Transmission
redundancy
HW
redundancy
Transmission
redundancy
ETS2
ETS2
ETIP
HW
redundancy
ETIP
HW
redundancy
(Normal)
ETP-E
HW
redundancy
(Normal)
HW
redundancy
(Flexible)
HW
redundancy
(Flexible)
HW
redundancy
1856-1918
1792-1854
1856-1918
1792-1854
1856-1918
1792-1854
1856-1918
12801342
13441406
12801342
13441406
19201982
19842046
19842047
768-830
832-894
768-830
832-894
19842047
512575
ETP-T
10881151(Alt
2)
ETP-E
10881151(Alt
2)
ETP-T
ET16
Transmission
redundancy
1792-1854
ETS2
ETS2
19201935
19361951
19201982
19842046
64126
192254
768830
832894
15361598
16001662
1952-1967
1024-1086
1088-1150
1792-1854
1856-1918
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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CONFIDENTIAL
APPROVED 1.12
19681983
19841999
512574
576638
12801342
13441406
19201982
19842046
20002015
768-830
832-894
20162031
20322047
10241086
10881150
512574
576638
192 (207)
GTIC-1
ETSI
GTIC-1
ETSI
GTIC-1
ETSI
GTIC-1
GTIC-1
GTIC-1
ETSI
ETSI
ETSI
ETC-0
ANSI
&
ETSI
ETC-0
ETSI
ETC-0
ETC-0
ETC-0
ETC-0
ETC-0
ETC-0
ETSI
ETSI
ETSI
ETSI
ETSI
ETSI
Transmission
redundancy
ETIP
HW
redundancy
ETIP
HW
redundancy
(Normal)
ETP-E
HW
redundancy
(Normal)
HW
redundancy
(Flexible)
HW
redundancy
(Flexible)
Transmission
redundancy
(Flexible)
HW
redundancy
(Normal)
HW
redundancy
(Flexible)
Transmission
redundancy
(Normal)
Transmission
redundancy
(Flexible)
HW
redundancy
(Normal)
768830
832894
15361598
16001662
1024-1086
1088-1150
1792-1854
1856-1918
512574
576638
12801342
13441406
19201982
19842046
19842047
768-830
832-894
19842047
10241086
10881150
512575
512574
576638
512575
ETP-T
10881151(Alt
2)
ETP-E
10881151(Alt
2)
ETP-T
ET16
Transmission
redundancy
(Normal)
19201982
19842046
64126
192254
Track
19
Track
20
Track 21
Track
22
Track
23
Track
24
Track
25
Track
26
368383
256271
272-287
288303
304319
320-335
336351
352367
19842046
512574
256319
512575
12801343
256319
10241087
64127
256319
320383
512575
19842046
512574
256319
512575
12801343
256319
10241087
64127
ETP-E
ETP-E
ETP-E
ETP-E
ETP-T
ETP-T
ETP-T
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ETC-0
ETC-0
ETSI
ANSI
&
ETSI
ETC-2
ANSI
&
ETSI
ANSI
&
ETSI
ETC-2
ETSI
ETC-0
ETC-2
ETC-2
ETC-2
ETC-2
ETSI
ETSI
ETSI
HW
redundancy
(Flexible)
HW
redundancy
HW
redundancy
Transmission
redundancy
(Normal)
Transmission
redundancy
(Flexible)
HW
redundancy
(Normal)
HW
redundancy
(Flexible)
ETC-2
ETC-2
320383
25464…25547
25548…25631/
256-318
320-382
ETS2
25464…25547
25548…25631/
256-318
320-382
ETIP
11361151
10241039
1040-1055
ETSI
ETSI
Transmission
redundancy
(Flexible)
HW
redundancy
(Normal)
HW
redundancy
(Flexible)
10561071
10721087
10881103
11041119
10241087
64126
320383
576639
13441407
256319
10241087
64127
256319
320383
512575
10241086
64126
320383
576639
13441407
256319
10241087
64127
256319
320383
512575
11201135
ETP-E
ETP-E
ETP-E
ETP-E
ETSI
ETSI
512575
ETP-T
ET16
Transmission
redundancy
ETC-2
256319
ETP-T
ETP-T
ETP-T
ETP-T
ETC-2
ANSI
&
ETSI
HW
redundancy
ETS2
ETC-2
ANSI
&
ETSI
HW
redundancy
ETIP
25464…25547
25548…25631/
256-318
320-382
25464…25547
25548…25631/
256-318
320-382
Track
28
Track
29
Track 30
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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APPROVED 1.12
Track
31
Track
32
Track
33
Track
34
Track
35
194 (207)
Track
36
ETC-1
ANSI
&
ETSI
ETC-1
ETSI
ETC-1
ETC-1
ETC-1
ETC-1
ETC-1
ETC-1
ETC-1
ETSI
ETSI
ETSI
ETSI
ETSI
ETSI
ET16
Transmission
redundancy
(Normal)
HW
redundancy
(Normal)
HW
redundancy
(Flexible)
Transmission
redundancy
(Normal)
HW
redundancy
(Normal)
HW
redundancy
(Flexible)
Pool
redundancy
(Normal)
ETC-3
ANSI
&
ETSI
ETC-3
ETSI
ETC-3
ETC-3
ETC-3
ETC-3
624639
512-527
528543
544559
ETSI
ETSI
ETSI
ETSI
ETSI
560-575
576591
768830
ETP-E
576639
1024-1087
10881151(Alt
1)
1024-1087
10881151(Alt
1)
ETP-E
256318
ETP-T
768830
ETP-T
576639
ETP-T
320383
15361599
ETP(A)
HW
redundancy
(Flexible)
Transmission
redundancy
(Normal)
HW
redundancy
(Normal)
HW
redundancy
(Flexible)
768831
ETP(A)
ET16
HW
redundancy
(Normal)
608623
ETP-E
19201983
Transmission
redundancy
(Normal)
592607
256318
ETSI
Pool
redundancy
(Flexible)
ETC-3
640655
896911
880895
768-783
784799
800815
816-831
832847
848863
768830
ETP-E
768830
ETP-E
576639
1024-1087
10881151(Alt
1)
1024-1087
10881151(Alt
1)
ETP-E
768830
ETP-T
768830
ETP-T
ETP-T
576639
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
Copyright 2013 Nokia Solutions and Networks. All rights reserved.
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APPROVED 1.12
195 (207)
864879
ETC-3
ETC-3
ETSI
ETSI
Pool
redundancy
(Normal)
Pool
redundancy
(Flexible)
16001663
192255
ETP(A)
19842047
832895
ETP(A)
ANSI
GTIC0
ANSI
&
ETSI
GTIC0
ANSI
13921407
20482131
21322215
20482131
21322215
20482131
21322215
20482131
21322215
12801295
22162299
23002383
22162299
23002383
22162299
23002383
22162299
23002383
12961311
23842467
24682551
23842467
24682551
23842467
24682551
23842467
24682551
13121327
25522635
26362719
25522635
26362719
25522635
26362719
25522635
26362719
13281343
13441359
13601375
13761391
27202803
28042887
28882971
29723055
30563139
31403223
32243307
33083391
27202803
28042887
28882971
29723055
30563139
31403223
32243307
33083391
19201935
27202803
28042887
20482131
21322215
27202803
28042887
20482131
21322215
Track
19
19361951
28882971
29723055
22162299
23002383
28882971
29723055
22162299
23002383
Track
20
19521967
30563139
31403223
23842467
24682551
30563139
31403223
23842467
24682551
Track
21
19681983
32243307
33083391
25522635
26362719
32243307
33083391
25522635
26362719
Track
22
19841999
20002015
20162031
20322047
27202803
28042887
28882971
29723055
30563139
31403223
32243307
33083391
27202803
28042887
Track
23
28882971
29723055
Track
24
30563139
31403223
Track
25
32243307
33083391
Track
26
ET16
368383
256271
272287
288303
304319
320335
336351
352367
ET16
11361151
10241039
10401055
10561071
10721087
10881103
11041119
11201135
Track
28
Track
29
Track
30
Track
31
Track
32
Track
33
Track
34
Track
35
ET16
Transmissio
redundancy
ETS2
GTIC0
ANSI
HW
redundancy
ETS2
GTIC0
ANSI
Transmissio
redundancy
ETIP
GTIC0
GTIC1
ANSI
ANSI
&
ETSI
GTIC1
ANSI
HW
redundancy
ETIP
ET16
Transmissio
redundancy
ETS2
GTIC1
ANSI
HW
redundancy
ETS2
GTIC1
ANSI
Transmissio
redundancy
ETIP
GTIC1
ETC0
ETC2
ANSI
ANSI
&
ETSI
ANSI
&
ETSI
HW
redundancy
ETIP
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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Track
36
196 (207)
ETC1
ETC2
ANSI
&
ETSI
ANSI
&
ETSI
ET16
640655
624639
512527
528543
544559
560575
576591
592607
608-623
ET16
896911
880895
768783
784799
800815
816831
832847
848863
864-879
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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197 (207)
17.3
17.3.1
Appendix 3: Update ESBs with latest software
Update ESB Software
Make sure that the ESB-26-B/24-D cards has L3 supported software(4.6.7 or above)
If not update the software via telnet or from BSC.
To update the software via BSC:
1. Check for the current version.
ZYFM:ISW:SWU,<Unit index>:;
EXECUTION STARTED
UNIT
UNIT
SOFTWARE
SWITCH
OMU DISK
TYPE
INDEX NAME
VERSION
VERSION
---------------------------------------------------SWU
0
ESB26
4.6.0
4.6-7
2. Update software from BSC
3.
ZYFM:USW:SWU,<Unit Index>:;
Reboot the ESB-26 once software upload is completed.
4.
ZW6T:SWU,<Unit Index>:;
LOADING PROGRAM VERSION 5.15-0
Telnet connection successfully opened to SWU 0 (ESB26), IP=10.0.0.18.
Alma_Swu0>en
Alma_Swu0#reload
Check for Software version after reload
ZW6T:SWU,0:;
Telnet connection successfully opened to SWU 0 (ESB26), IP=10.0.0.18.
Alma_Swu0>en
Alma_Swu0#sh ver
N O K I A
Switch model
: NOKIA ESB26
SW version
: 4.6.7 created Apr 14 2010 - 03:38:45
Primary version
: 4.6.7
Secondary version
: 4.6.5
Java version
: Java image not loaded
Loader version
: 1.1.7 created Oct 28 2004 - 13:38:38
System Loader version : 4.6.7 created Apr 14 2010 - 03:34:16
Up time
: 1 days, 16 hours, 48 min, 7 sec.
17.3.2 Enabling or disabling the automatic loading of configuration files
The parameter that sets whether automatic configuration file loading is allowed for
certain type of LAN switches may have been modified in the old build. This parameter
setting is not updated during the network element upgrade. Therefore, you need to change the parameter
manually after the software update.
1. Check the properties that are specific to the type of the LAN switch in the old build
(YFM).
ZYFM:IST;
2.
Change the properties in the new build as needed (YFM).
Depending on whether you want to enable or disable the automatic loading of the configuration
files, select the relevant option below.
• Enable the automatic loading of the configuration file.
ZYFM:ENA,<LAN switch type>;
• Disable the automatic loading of the configuration file.
ZYFM:DIS,<LAN switch type>;
DN09124902 BSC Implementation for ETP/ETP-A in initial Flexi BSC
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17.4
17.4.1
17.4.1.1
Appendix 4: ETP/STMU strapping settings.
ETP-A C111828
Jumpers
There is following jumper pinheader:
Octeon control 6-pin pinheader (W1):
Place 1-6: Disable Octeon watchdog (jumper in place disables watchdog)
Place 2-5: Baud rate 9600 and 115200 mode (jumper in place selects 115200)
Place 3-6: Force Boot from FLASH 1
17.4.1.2
DIP Switches
Interchangeability code settings
The interchangeability code setting is made with DIP-switch package S1.
Use of this switch package is specified in Error! Reference source not found..
The switch package is located so that pin 1 is in the upper left corner when the
ETP-A unit is in the cartridge. The binary value of the switch is increased by
one in every interchangeability change. The value 0000B (all switches OFF) of
the switches corresponds to interchangeability code A.
OFF ON
1
2
3
4
SWITCH
Default
setting
8
7
6
5
Function
1-8
OFF
Interchangeability code bit 0 (LSB)
2-7
OFF
Interchangeability code bit 1
3-6
OFF
Interchangeability code bit 2
4-5
OFF
Interchangeability code bit 3 (MSB)
Interchangeability code setting with DIP-switch S1
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*) The first interchangeability code A corresponds to all switches OFF, after which the
settings start to roll for each interchangeability code change.
The table below presents the setting of the interchangeability code.
Code
SW1: 4-
SW1: 3-6
5
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
SW1: 27
(MSB)
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
SW1: 18
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
(LSB)
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
Note: The use of letters I, O and Q as interchangeability codes is not allowed
On the rear of the backplane one ADMODxx is used to set the ETP-A usage (to notify where the ETP-A is
used) according to the following table.
17.4.1.3 ADMODxx
On the rear of the backplane one ADMODxx is used to set the ETP-A usage (to notify
where the ETP-A is used) according to the following table.
ETP-A used in
ADMOD used
BSC3i
ADMOD4
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ADMOD5
TCSM3i
Combined
BSC3i/TCSM3i
ADMOD6
17.4.2 ETP C111826
17.4.2.1 Jumpers
There is following jumper pinheader:
Octeon control 6-pin pinheader (W1):
Place 1-6: Disable Octeon watchdog (jumper in place disables watchdog)
Place 2-5: Baud rate 9600 and 115200 mode (jumper in place selects 115200)
Place 3-6: Force Boot from FLASH 1
17.4.2.2
DIP Switches
Interchangeability code settings
The interchangeability code setting is made with DIP-switch package S1.
Use of this switch package is specified in Error! Reference source not found..
The switch package is located so that pin 1 is in the upper left corner when the
ETP unit is in the cartridge. The binary value of the switch is increased by one
in every interchangeability change. The value 0000B (all switches OFF) of the
switches corresponds to interchangeability code A.
OFF ON
1
2
3
4
SWITC
H
Default
setting
8
7
6
5
Function
1-8
OFF
Interchangeability code bit 0 (LSB)
2-7
OFF
Interchangeability code bit 1
3-6
OFF
Interchangeability code bit 2
4-5
OFF
Interchangeability code bit 3 (MSB)
*) The first interchangeability code A corresponds to all switches OFF, after which the settings
start to roll for each interchangeability code change.
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The table below presents the setting of the interchange ability code.
Code
SW1:
4-5
SW1:
3-6
SW1:
2-7
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
(MSB)
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
SW1:
1-8
(LSB)
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
Note: The use of letters I, O and Q as interchangeability codes is not allowed.
17.4.2.3
ADMODxx
On the rear of the backplane one ADMODxx is used to set the ETP type (to notify the ANSI/ETSI
environment and the ETP variant) according to the following table.
ETP used
ETSI
ETPT
ANSI
ETPT
ETPE
ADMOD
used
ADMOD1
ADMOD17
ADMOD0
17.4.3 ETS2
17.4.3.1 DIP Switches settings.
In addition to interchangeability code setting DIP-switch, the unit has another switch package
S2. The use of this switch package is specified in Error! Reference source not found.. The
switch package is located so that the pin 1 is in the upper left corner when the ETS2 unit is in
the cartridge.
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SWITCH
1-8
Default
setting
Function
OFF
Width of the HDLC link:
OFF = 16x64 kbit/s, ON = 8x64 kbit/s
2-7
OFF
Reserved for future use
3-6
OFF
IF#0 ETP mode:
OFF = normal mode, ON = ETP mode
4-5
OFF
IF#1 ETP mode:
OFF = normal mode, ON = ETP mode
Configuration settings with DIP-switch S2 on ETS2
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17.5
Appendix 5: ETP username & password settings
Check ftp_authentication in first Flash
cat /mnt/flash/common/ftp_auth.txt
Switch the flash using below command
switch_flash
Check ftp_authentication in second Flash
cat /mnt/flash/common/ftp_auth.txt
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Switch the flash using below command
switch_flash
Change_ftp_authentication
Syntax
change_ftp_authentication
<newpasswd>
<olduname>
<oldpasswd>
<newuname>
Purpose
It is used to reconfigure username and password of the FTP server remotely at ETP.
FTP authentication changes in ETP card can cause CPU overload and can be performed
if ETP is in TE-EX state only. The current username, current password, new username
and new password values are provided in the command. First the current username and
current password of the FTP server is verified against the value stored in flash memory.
In case the information is correct, the new username and new password is saved in both
the flash devices. In case the information does not match with that present in the flash
unit, it just displays an error message. Even if only one of the two values is to be
changed, both the new username and password values are to be entered.
Note! If the service terminal session is logged to a file, there is a possible security risk because
the passwords are shown in clear text in the log file.
Parameter name
Olduname
Oldpasswd
Newuname
Newpasswd
Description
Current FTP server username
Current FTP server password
New FTP server username
New FTP server password
Change_ftp_authentication parameter description.
Example:
Example Scenario
To reconfigure username and password of FTP server
Command to be Executed
change_ftp_authentication
<olduname>
<oldpasswd> <newuname> <newpasswd>
Sample Output Format:
ETPT/0/(ETPSIG M-PLANE IP ADDRESS)> change_ftp_authentication uname1 pass1
uname2 pass2
-----------------------------------------------------------------------------------------------------------------------> Command change_ftp_authentication executed on [7/8/2008 1:54:35:567605] <---
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-------------------------------------------------------------------------------------------------------------------/*In case information is updated*/
Updation Successful
-------------------------------------------------------------------------------------------------------------------ETPT/0/(ETPSIG M-PLANE IP ADDRESS)>
ETPT/0/(ETPSIG M-PLANE IP ADDRESS)> change_ftp_authentication uname1 pass1
uname2 pass2
-----------------------------------------------------------------------------------------------------------------------> Command change_ftp_authentication executed on [7/8/2008 1:54:35:567605] <---------------------------------------------------------------------------------------------------------------------/*In case information is incorrect*/
ERROR: Information is not valid
-------------------------------------------------------------------------------------------------------------------Verify the ftp_authentication
Check ftp_authentication in first Flash
cat /mnt/flash/common/ftp_auth.txt
Switch the flash using below command
switch_flash
Check ftp_authentication in second Flash
cat /mnt/flash/common/ftp_auth.txt
Switch the flash using below command
switch_flash
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Disclaimer
The information in this document is subject to change without notice and describes only the
product defined in the introduction of this documentation. This documentation is intended for the
use of Nokia Solutions and Networks customers only for the purposes of the agreement under
which the document is submitted, and no part of it may be used, reproduced, modified or
transmitted in any form or means without the prior written permission of Nokia Solutions and
Networks. The documentation has been prepared to be used by professional and properly
trained personnel, and the customer assumes full responsibility when using it. Nokia Solutions
and Networks welcomes customer comments as part of the process of continuous development
and improvement of the documentation.
The information or statements given in this documentation concerning the suitability, capacity,
or performance of the mentioned hardware or software products are given “as is” and all liability
arising in connection with such hardware or software products shall be defined conclusively and
finally in a separate agreement between Nokia Solutions and Networks and the customer.
However, Nokia Solutions and Networks has made all reasonable efforts to ensure that the
instructions contained in the document are adequate and free of material errors and omissions.
Nokia Solutions and Networks will, if deemed necessary by Nokia Solutions and Networks,
explain issues which may not be covered by the document.
Nokia Solutions and Networks will correct errors in this documentation as soon as possible. IN
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NSN is a trademark of Nokia Solutions and Networks. Nokia is a registered trademark of Nokia
Corporation. Other product names mentioned in this document may be trademarks of their
respective owners, and they are mentioned for identification purposes only.
Copyright © 2013 Nokia Solutions and Networks. All rights reserved.
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