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O2 Project
Nokia BTS 3G FSMF Commissioning
Guide
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This material, including documentation and any related computer programs, is protected by
copyright controlled by Nokia. All rights are reserved. Copying, including reproducing, storing,
adapting or translating, any or all of this material requires the prior written consent of Nokia. This
material also contains confidential information, which may not be disclosed to others without the
prior written consent of Nokia.
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Contents
1
Introduction................................................................................................................ 6
1.1
Scope....................................................................................................................................... 6
2
References ................................................................................................................... 6
3
Setting up the PC & BTS Manager Connection ..................................................... 7
3.1
FSMF Port Detail .................................................................................................................. 7
3.2
PC LAN Setting ..................................................................................................................... 7
3.3
Launching BTS Manager ..................................................................................................... 8
4
SW Upgrade ............................................................................................................... 8
5
Commissioning Overview ......................................................................................... 9
5.1
Commissioning Types ........................................................................................................... 9
5.1.1
Template Commissioning ..................................................................................................... 10
5.1.2
Planned Commissioning ....................................................................................................... 10
5.1.3
Manual Commissioning ........................................................................................................ 10
5.1.4
Reconfiguration Commissioning ......................................................................................... 10
5.2
Commissioning Data ............................................................................................................. 10
5.2.1
Beacon Project ....................................................................................................................... 10
5.2.2
BAU / London ........................................................................................................................ 11
6
Commissioning Wizard TRS .................................................................................... 11
6.1
Introduction ........................................................................................................................... 12
6.2
Site Properties ....................................................................................................................... 12
6.3
Security .................................................................................................................................. 13
6.4
Physical Layer Configuration .............................................................................................. 14
6.5
Ethernet Switching................................................................................................................ 15
6.6
Ethernet Link OAM.............................................................................................................. 16
6.7
Ethernet Service OAM ......................................................................................................... 17
6.8
Rapid Spanning Tree ............................................................................................................ 18
6.9
Quality of Service .................................................................................................................. 19
6.10
IP Interfaces........................................................................................................................... 20
6.10.1
Settings ................................................................................................................................... 20
6.10.2
OSPVv2 .................................................................................................................................. 21
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6.10.3
Transport Ethernet Interface .............................................................................................. 22
6.10.4
New 'VLAN' .......................................................................................................................... 23
6.11
IP IUB .................................................................................................................................... 24
6.12
Timing over Packet ............................................................................................................... 25
6.13
Application Addresses .......................................................................................................... 26
6.14
RTT Measurements .............................................................................................................. 27
6.14.1
TWAMP Light Reflector ...................................................................................................... 27
6.14.2
TWAMP Light sessions ........................................................................................................ 28
6.15
IP Security ............................................................................................................................. 30
6.16
TRS Synchronization ............................................................................................................ 31
6.17
BTS Routing .......................................................................................................................... 32
6.18
IP Filtering ............................................................................................................................. 33
7
Commissioning Wizard BTS .................................................................................... 34
7.1
BTS Settings .......................................................................................................................... 35
7.2
BTS Synchronization Settings.............................................................................................. 35
7.3
Module Settings ..................................................................................................................... 36
7.4
Automatic License Distribution Settings ............................................................................ 37
7.5
Concurrent Mode Settings ................................................................................................... 38
7.6
Local Cell Resources ............................................................................................................. 39
7.6.1
MIMO settings....................................................................................................................... 41
7.7
Local Cell Settings................................................................................................................. 42
7.8
WCDMA Carrier Candidates and Local Cell Group Settings ......................................... 43
7.8.1
Carrier candidates and local cell groups ............................................................................ 43
7.8.2
Baseband (BB) and HSPA license allocations .................................................................... 44
7.8.3
Mapping HSPA local cells to baseband HW and Parallel Interference Cancellation (PIC) 44
7.9
HSDPA Settings..................................................................................................................... 45
7.10
HSDPA Throughput Settings ............................................................................................... 46
7.11
HSUPA Settings..................................................................................................................... 47
7.12
HSPA Quality of Service Settings ........................................................................................ 48
7.13
Antenna Line Management .................................................................................................. 49
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7.14
AISG MHA Settings.............................................................................................................. 50
7.15
Antenna Line Settings ........................................................................................................... 51
7.15.1
Antenna Settings ................................................................................................................... 51
7.15.2
RTT measurements ............................................................................................................... 51
7.15.3
MHA Settings ........................................................................................................................ 51
7.16
Siemens Proprietary AISG1.1 TMARET and RET Settings ............................................ 53
7.17
System Module External Fault and Control Settings ........................................................ 54
7.18
Radio Module External Fault and Control Settings .......................................................... 55
7.19
Send Parameters ................................................................................................................... 56
7.20
Additional Site Settings ........................................................................................................ 57
7.21
Site Testing ............................................................................................................................ 58
7.22
Commissioning Report ......................................................................................................... 59
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1
Introduction
This document is a guideline work instruction and gives a list of tasks that must be carried out
to commission the Nokia WCDMA Base Station.
On completion of the tasks contained in this document the BTS will be fully commissioned and
ready for integration into the O2 UK network.
1.1 Scope
This document applies to the commissioning of Nokia WCDMA base stations into the O2 UK
network.
2
References
Tef_O2_WBTS_Complete_Base_Band_Designs_V19a_Flexi_3_added_S1_D921
DN0900cc8c88a70145_3G_U9_U21_FSMF_commission_procedure_v1.0
DN0900cc8c88a9cfc5_Field_Guide__RF_Sharing_Installation_and_Commissioning_(3G_2G_FSMF)_v3....
DN0900cc8c8764ac71_Beacon_External_Alarm_Tables_v6
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3
Setting up the PC & BTS Manager Connection
3.1 FSMF Port Detail
To establish a connection to the BTS site locally, connect the PC to the LMP ports (highlighted in
red) on the System Module using 10baseT Ethernet cable with RJ-45 connector.
3.2 PC LAN Setting
Specify your PC's network settings as per below
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3.3 Launching BTS Manager
Start the BTS Site Manager, by double clicking on the item on the desktop. Select Tools and ensure
the correct build has been installed into the BTS Manager. You should now be ready to launch the
BTS Manager using the credentials below.
Username: Nemuadmin
Password: nemuuser
Select Connect.
4
SW Upgrade
Before any commissioning can be started you need to ensure all the HW is at the current SW Level
and sat in an uncommissioned state.
To help with the Software Upgrade please refer to
DN0900cc8c88a70145_3G_U9_U21_FSMF_commission_procedure_v1.0, this will give you
specific details on how to complete the SW upgrade process for a Main and Extension FSMF
configuration.
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Below is an example screen shot of a 'un-commissioned site’ ready to start you manual commission.
5
Commissioning Overview
5.1 Commissioning Types
Below is an overview of the BTS site commissioning. There are four different commissioning types:
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5.1.1
Template Commissioning
Template commissioning provides an option to commission network elements using a predefined
template file. Since the same configurations are commonly used in several network elements, a
commissioning file can be stored and used as a template file when commissioning elements for
example with a similar hardware configuration. This significantly reduces the number of parameters
that need to be configured as generally only site specific parameters need to be changed - BTS name,
id and IP address, for example. For the Beacon Project templates have been created for varying site
configurations but must still be stepped through and checked against the site data supplied.
5.1.2
Planned Commissioning
Planned commissioning provides an option to commission network elements by loading a
commissioning file, specifically made for the BTS site onto the Flexi BTS and/or Flexi Transport
sub-module.
The commissioning file can be prepared with the Plan Editor tool in NetAct Radio
Access Configurator.
.
5.1.3
Manual Commissioning
If no commissioning file is available, Flexi BTS site requires manual commissioning.
5.1.4
Reconfiguration Commissioning
Reconfiguration commissioning provides an option to commission already commissioned network
elements. The reconfiguration can be used when a new configuration possibly solves a problem or
releases HW resources for another site and/or makes an element function more efficiently. During
the reconfiguration, the site remains operational up until the mandatory site reset in completion of the
commissioning.
5.2 Commissioning Data
All parameters needed to configure the BTS site are determined at the network planning stage. It is essential
that the input values match the expected values in the network plan. Depending on the Project you
are working on depends on how this data is supplied.
5.2.1
Beacon Project
If you are working on the Beacon Project then you will be supplied with a 3G Flexi Multi Radio
Packet Transport Interface Configuration excel spreadsheet, typical naming example below:
CSR071150_NR_U4_WN9_1_FSMF_1xNodeB_v8.4.1
This is data supplied to help configure the TRS element.
Typically on Beacon a template file is supplied (TRS and BTS) based on the Beacon Configuration
type (High/Medium/Small etc).
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This can be used to complete a 'Template Commission' type commission for BTS Site (TRS and
BTS) and edit the site specific parameters using the 3G Flexi Multi Radio Packet Transport
Interface Configuration excel spreadsheet and the TEF O2 Complete Baseband Design
document.
5.2.2
BAU / London
Any non-Beacon Projects which are supported by GNIC you should receive a site Specific TRS file
and the BTS configuration code only. The BTS configuration code can be found in the latest TEF
O2 Complete Baseband Design document. This would mean you would have to commission the
TRS only (Planned Commission) and then the BTS (Manual Commission). You could create a BTS
file offline then commission as a 'Template Commission using the target BTS Site (TRS and BTS)
and selecting the Site Specific TRS file supplied and BTS file created to complete one full site
commission.
6
Commissioning Wizard TRS
Now you have all the data supplied and the BTS modules are in view with no alarms you are ready to
complete the commission of the BTS and TRS. This process will show step by step instruction on
how to configure the 3G TRS using a manual commission. Approved template files can be used and
site specific details amended.
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6.1 Introduction
Select the commissioning icon down the left hand side and select the target you required and the
commissioning type you are going to use:
NB: select as appropriate the files you have received. If no files then select manual commission.
Click 'Next' to continue
6.2 Site Properties
Site Properties page you can define identification information, IP addresses and common
configuration options for the BTS site.
Using the TEF 3G Flexi Multi Radio Packet Transport Interface Configuration excel
spreadsheet complete the following information (used for all Section 6)
•
Name Enter the name for the BTS site in the Name field
•
Location Enter the location of the element in the Location field
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•
Description Enter the description of the element in the Description field
•
BTS ID Enter the BTS identifier in the BTS ID field
•
TRS IP Enter the TRS IP address/subnet in the TRS field
•
RNC Enter the RNC IP address in the RNC field
•
NTP Server Enter the IP address of the NTP server in the NTP server field
•
NTP Servers Click NTP Servers to open the NTP Servers dialog box, where you can
configure additional NTP servers to be used if required.
Click 'Next' to continue
6.3 Security
Security page you can define security options and automatic certificate management.
Currently there are no changes required and default settings can be used, but check against data
supplied.
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Click 'Next' to continue
6.4 Physical Layer Configuration
Physical Layer Configuration pages you can configure physical interfaces. Currently no transport sub
- module is used.
'Check' Enable FSM EIF 2 as RP3-01 interface if you are using an extension FSMF configuration or
part of a RF sharing configuration
Note: this may already have been completed as per DN0900cc8c88a70145_3G_U9_U21
_FSMF_commission_procedure_v1.0 for SW upgrade process.
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•
•
Ethernet Interfaces - select the check box 'in use' for the correct interface required
Speed and Duplex - select the correct option from the dropdown list using the data sheet
provided.
Click 'Next' to continue
6.5 Ethernet Switching
Ethernet switching page you can define the Ethernet switching configuration.
Currently there are no changes required and default settings can be used but check against data
supplied.
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Click 'Next' to continue
6.6 Ethernet Link OAM
Ethernet Link OAM pages you can configure the settings for Ethernet link OAM.
Currently there are no changes required and default settings can be used but check against data
supplied.
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Click 'Next' to continue
6.7 Ethernet Service OAM
Ethernet Service OAM page you can define Ethernet Service OAM settings.
Currently there are no changes required and default settings can be used but check against data
supplied.
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Click 'Next' to continue
6.8 Rapid Spanning Tree
Rapid Spanning Tree pages you can manage the rapid spanning tree parameters.
Currently there are no changes required and default settings can be used but check against data
supplied
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Click 'Next' to continue
6.9 Quality of Service
Quality of Service pages you can configure Quality of Service settings for the Ethernet interface.
Queue weights
•
•
Per hop behavior: The per hop behavior shows the different queues and can't be changed.
.
Weight: Enter the weight for each queue in the Weight column from the data supplied. The
value range is from 1 to 10000. The bigger the Weight value is, the more data can be
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transported through the corresponding queue. The weight for Expedited Forwarding cannot
be changed.
Traffic Type Settings
•
Traffic type: This is a default setting list, the Traffic type column lists the traffic types.
•
Per Hop Behavior: Select the per hop behavior (Queue) for each traffic type from the list in
the per hop behavior column using the data supplied.
VLAN Priority: select the priority for each traffic type from the list in the VLAN priority
column using the data supplied.
DSCP: Enter the value for Differentiated Services Code Point for each traffic type in the
DSCP column using the data supplied.
•
•
•
Click 'Next' to continue
6.10 IP Interfaces.
IP Interfaces pages you can define Transport Ethernet, VLAN, PPP interfaces and OSPF settings.
Click on Settings
6.10.1 Settings
In the Settings tree item you can configure global IP interface settings.
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Currently there are no changes required and default settings can be used but check against data
supplied.
Click on OSPVv2
6.10.2 OSPVv2
With the OSPFv2 tree item you can configure OSPFv2 parameters.
Currently there are no changes required and default settings can be used but check against data
supplied (OSPFv2 not in use)
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Click on Transport Ethernet Interface
6.10.3 Transport Ethernet Interface
With the Transport Ethernet interface tree item you can configure transport Ethernet interface
parameters.
Currently the only change is to ‘check’ Include Ethernet Overhead option, all other parameters are
left as default but check against data supplied.
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Click on 'New VLAN' so you can create and modify VLAN parameters.
6.10.4 New 'VLAN'
In the VLAN ID tree item you can create and modify VLAN parameters.
There may be instances were 2 VLANS are created, again use supplied data sheet for correct
parameters, once one is created re-select 'New VLAN' option for 2nd VLAN.
•
•
•
•
VLAN ID: Enter the VLAN ID in the VLAN ID field.
Address: Enter the VLAN IP address in the Address field. Enter also the netmask bits.
Shaper information rate: Normally default
Shape Burster Size: Normally default
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•
•
•
Committed Information rate: Enter the committed information rate value in the Committed
Information rate field in Mbit/s. The Committed Information Rate (CIR) defines the
guaranteed bit rate transport capacity for this VLAN.
Enable QOS: select usage based on data supplied
OSPFv2 Parameters: This is normally disabled so all details left as default value
Example screen shot shows 2 VLANS configured.
Click 'Next' to continue
6.11 IP IUB
Iub IP pages you can configure Iub IP settings.
•
•
•
Far end SCTP address: Enter the subnet of the far end SCTP in the Far end SCTP subnet
field from data sheet supplied.
Backup RNC configuration: Currently there are no changes required and default settings
can be used but check against data supplied
Minimum SCTP port: Enter SCTP port number from data sheet, this is normally site
specific
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•
•
•
•
•
Minimum UDP Port Enter: the UDP Port number from the data sheet provided, normally
set to a default value of 49152
CAC committed bit rate: Enter transport capacity in MBit/s from data sheet provided,
Signaling bit rate: Enter guaranteed transport capacity for the signaling links towards the
RNC in kbit/s from data sheet provided.
DCN bit rate: Enter guaranteed transport capacity for the DCN link towards the RNC in
kbit/s from the data sheet provided
Frame protocol multiplexing: Currently there are no changes required and default settings
can be used but check against data supplied
Click 'Next' to continue
6.12 Timing over Packet
Timing over Packet pages you can configure the settings for Timing over Packet.
Currently there are no changes required and default settings can be used (Frequency Synchronization
not in use) but check against data supplied.
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Click 'Next' to continue
6.13 Application Addresses
Application Addresses pages you can configure application addresses for different planes.
•
•
User plane 1: Enter the IP address of the user plane in the User plane 1 field. Alternatively
you can select the IP interface from the Select IP interface drop-down list.
User plane 2: Currently left blank but check data sheet provided for any changes.
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•
•
•
Control plane: Enter the IP address of the control plane in the Control plane field.
Alternatively you can select the IP interface from the Select IP interface drop-down list.
Management plane: Enter the IP address for the management plane in the Management
plane field. Alternatively you can select the IP interface from the Select IP interface dropdown list.
Synchronization plane: Enter the IP address for the synchronization plane in the
Synchronization plane field. Alternatively you can select the IP interface from the Select IP
interface drop-down list.
Click 'Next' to continue
6.14 RTT Measurements
RTT Measurement pages you can configure RTT measurement settings. RTT (Round Trip Time)
Click on Reflector
6.14.1
TWAMP Light Reflector
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Currently there are no changes required and default settings can be used but check against data
supplied.
Click on 'Sessions'
6.14.2 TWAMP Light sessions
Select the message rate from the Message rate drop-down list, normally set to 1 but check the
data sheet provided.
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Select Session <n> to modify the settings for the session. Currently there are 3 sessions in
use, below is an example of Session 1 being configured as per the data supplied.
•
•
•
•
•
•
•
In use: Select the In use check box to enable this particular session.
Source IP address: Select a pre-defined address from the Select IP Address dropdown list.
Destination IP address: Enter the destination IP address in the Destination IP
address field.
DSCP: Enter the DSCP value in the DSCP field.
Message size: Enter the message size value in the Message size field.
15 min packet loss ratio fault threshold: Enter the packet loss ratio fault threshold
in the 15 min packet loss ratio fault threshold field.
1 min round trip time fault threshold: Enter the round trip time fault threshold
value in the 1 min round trip time fault threshold field.
Example of TWAMP Light Session 1 configured
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Click 'Next' to continue
6.15 IP Security
IP Security pages you can define IP security options.
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Currently there are no changes required and default settings can be used as IP Sec is not in use, but
check against data supplied
Click 'Next' to continue
6.16 TRS Synchronization
TRS Synchronization pages you can configure the synchronization settings.
•
Priority: The Priority column shows the priority order of the synchronization timing sources.
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•
•
Timing Source: Select the synchronization timing source from the list in the Timing source
column using the data provided, this is normally Synchronous Ethernet FSM EIF 1 for
priority 1.
SSM enabled: SSM is normally not ticked, check data sheet provided.
NB:The third timing source is always the internal clock of the BTS and should be shown on the data
sheet provided.
Click 'Next' to continue
6.17 BTS Routing
BTS routing pages you can configure BTS routes. These pages are available if an Ethernet interface
has been configured to be in use
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Static routes
Enter the Static routes as provided within the data sheet.
•
•
•
•
•
•
Destination: Enter the destination IP address of the route in the Destination column.
Netmask: Enter the netmask of the destination IP address in the Netmask column, this can
normally be calculated by the BTS Manager once 'Bits' has been defined
Bits: Enter the netmask length (bits) of the destination IP address in the Bits column.
Gateway: Enter the gateway IP address in the Gateway column.
Preference: Enter the preference value in the Preference column (usually 1)
BFD session: Select the BFD session from the BFD session drop-down list. This will
normally be left blank as no BFD sessions are required.
Note:
Default gateways are defined by setting the destination and netmask address values to 0.0.0.0
in static routes table. This should be shown in the data provided.
Once all routes have been entered as per data sheet provided click 'Next' to continue
6.18 IP Filtering
IP filtering pages you can view and modify exception rules for the restricted mode, and activate or
deactivate the restricted mode.
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Currently there are no changes required and default settings can be used, but check against data
supplied.
Click 'Next' to continue
NB: If TRS selected only then the next step is 'Send Parameters', otherwise continue to BTS Settings.
7
Commissioning Wizard BTS
To complete the BTS section you need to refer to the latest TEF O2 BTS Base Band Design
document. From the hardware installed (number of FSMF/Sectors/Cells etc.) on site you can
determine the BTS Config code required for all your baseband setting or you will be supplied this as
part of your data.
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You will also need know if there are any Antenna Line Devices (MHAs/RETs) and the external
alarms you are to report depending on your site deployment type (Indoor/outdoor etc.)
BTS Settings
7.1
BTS Settings pages you can define identification information for the BTS under commissioning.
•
•
•
BTS ID: Enter the BTS ID in numerical value
BTS name: Enter BTS name in format of W(6 Digit CSR)_Site Name
Configuration name: Enter the BTS Config code from the Baseband Design Sheet
All other values are left as default.
Click 'Next' to continue
7.2 BTS Synchronization Settings
BTS Synchronization Settings pages you can configure the synchronization settings.
NB: Please refer to DN0900cc8c88a9cfc5_Field_Guide__RF_Sharing_Installation_and_Commissioning_3G_2G_FSMF_v3....for 2g/3g RF sharing sites.
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•
Network synchronization mode: Select Frequency synchronization from the drop down list.
Synchronization input settings
•
•
•
1PPS synchronization input source in use: Leave as default (blank)
External 2.048 MHz synchronization in use: Not selected
Transmission synchronization (TDM/SyncE/ToP) in use: Selected
Synchronization output settings
•
•
•
Forward synchronization in co-siting: This is normally selected only for 2g/3g RF sharing
sites.
External 2.048 MHz synchronization output in use in HO mode: Leave as default (blank)
PPS synchronization output in use in HO mode: This is normally selected only for 2g/3g
RF sharing sites.
Example screenshot is for non 2G/3G RF Sharing
Click 'Next' to continue
7.3 Module Settings
Module Settings page you can set climate control profiling settings.
Currently there are no changes required and default settings can be used.
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Climate Control Profiling
Click 'Next' to continue
7.4
Automatic License Distribution Settings
Automatic License Distribution Settings page you can set automatic license distribution settings.
You can deploy automatic licensing feature for BTS in commissioning, which means that after a
feature is activated in commissioning (by an activation parameter, by a configuration parameter or by
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presence of an object instance), the needed licenses for license based applications are loaded from
NetAct's license pool to BTS and if free licenses are not available then license missing- fault is
raised.
•
Enable SW monitoring: Leave as default setting - not selected.
•
Automatic licensing in use: Select the automatic licensing in use check box to enable
automatic licensing.
Activate distributed site 15km: Leave as default setting - not selected.
•
•
R99 Channel Elements: Input value from O2 Baseband document - R99 LKs/CE for correct
BTS Site Code - Flexi_BB3_ tab
•
CCCH processing set: Input value from O2 Baseband document - Additional CCCH PS
Licenses Required for correct BTS Site Code - Flexi_BB3_ tab
Click 'Next' to continue
7.5 Concurrent Mode Settings
Concurrent Mode Settings pages you can set concurrent mode setting for MultiRadio BTS. This page
is shown when the HW configuration contains at least one Radio Module supporting concurrent
technology 2G in 3G-2G sharing or LTE in 3G-LTE sharing.
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•
RF sharing enabled: Select RF sharing enabled check box to enable RF sharing if
applicable. This parameter enables the RF sharing and it is used for automatic license
activation. Enabling this parameter means that MultiRadio RF module can be used for
GSM/EDGE and WCDMA or EUTRA and WCDMA carriers at the same 3GPP frequency
band. When operating in RF sharing mode, a single RF Module is connected to both
technology System Modules simultaneously.
NB: Please also refer to DN0900cc8c88a9cfc5_Field_Guide__RF_Sharing_Installation_and_Commissioning_3G_2G_FSMF_v3....for 2g/3g RF sharing sites.
If RF sharing is not required no more data is required and you can continue to the next page. For RF
sharing site the below need setting.
•
•
•
•
•
Shared technologies: Select 3G/2G from the dropdown menu
2G System Module product code: Enter details required
2G System Module serial number: Enter details required
Synchronization master: Select synchronization hub from dropdown menu. If no dropdown
option available (set to FSMF) check Synchronization output settings in section 7.2 and
check this is correct.
Radio Module connections: Select both Radio Modules to Share with 2G, leave Dedicated
Pipe Mode for RF sharing Disabled
Example RF sharing configuration
Click 'Next' to continue
7.6 Local Cell Resources
Local Cell Resources page you can define local cells and assign antennas of radio modules to the
local cells.
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Local Cell Ids are determined at the network planning stage. It is essential that the value input
matches the expected value in the radio network plan.
Local Cell Identification Format is as follow;
5 digit CSR XXXXX
0 digit
X = Sector Number
X = Frequency Number
EG: 01234022 is CSR 01234, 0 then S2 Frequency 2
Frequency number as below:
1
2
3
4
5
6
7
8
9
=
=
=
=
=
=
=
=
=
•
•
•
•
TEF U2100 F1
TEF U2100 F2
TEF U900 F1
TEF U900 F2
VF U2100 F1
VF U2100 F2
TBC
TBC
VF U900 F1
Activate Support for RF Chaining: Select if RF chaining is in use.
Single cell solution in use: Leave as default setting - not selected.
20W incremental power for flexi licenses in use: Leave as default setting - not selected.
Extended BTS site capacity enabled: This parameter must be enabled in order to support
more than 12 cells.
Click New Cell to create a new local cell.
Enter new Cell ID required (see format above) and assign the antennas to the local cell by selecting
the appropriate check boxes. The check boxes are disabled if the maximum number of antennas is
assigned to the local cell. Antennas have fixed Tx/Rx usage: Tx/Rx for ANT 1, ANT 3 and ANT 5,
and Rx for ANT 2, ANT 4 and ANT 6. (This may change with new RFMs).
Create all required cells as defined in the TEF O2 BTS Base Band Design document.
Example screen shot for CSR 71125 Sector 1 Freq 3 (U900 first carrier).
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•
7.6.1
Maximum RX signal level difference: Set level to 7dbm
MIMO settings
Select the MIMO (Multiple Input Multiple Output) type from the MIMO type drop-down list. Value
Single Tx means that MIMO is not in use. Value 2xDL MIMO means that MIMO is in use with
2xDL MIMO type. The list is shown only for sector configuration types where two TX capable
antennas are selected to local cell. When shown this list is automatically enabled.
•
•
•
MIMO Type: Currently set to Single TX but this may change on future deployments.
Virtual antenna mapping in use: Leave as default setting - not selected.
Carrier power: Set to 20w
Click next when all Local cells are created to continue.
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7.7 Local Cell Settings
Local Cell Settings pages you can define the RNC (Radio Network Controller) settings and the
Intelligent Shutdown parameters for the local cells.
•
RNC type: Select NSN
•
Intelligent shutdown: this is only selected in use if a FPMA (Nokia Flexi Power Module) is
used on site.
If Intelligent Shutdown is selected in use the complete the following, otherwise click 'Next'
•
Mains fault indication: Select Flexi Power Module (reserves 2 EAC lines)
Click on each Local Cell ID and change the following:
•
Intelligent shutdown timeout: Set to 9999
Example screenshot showing Intelligent Shutdown in use:
Click 'Next' to continue
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7.8 WCDMA Carrier Candidates and Local Cell Group Settings
WCDMA Carrier Candidates and Local Cell Group Settings page you can define WCDMA carrier
candidates for local cells and assign local cells and baseband allocation for local cell groups.
All information is to be taken from the latest TEF O2 BTS Base Band Design document.
•
•
•
7.8.1
Local cell groups in use: Select as required.
Flexible BB allocation: Select in use
Fixed BB allocation: Leave as default setting - not selected.
Carrier candidates and local cell groups
For each Local Cell you need to assign the UARFCN and Local Cell Group Number.
•
UARFCN (UTRAN Absolute Radio Frequency Channel Number). The UARFCN are as
below:
UARFCN
UARFCN
1. TEF U2100 F1
10637
5. VF U2100 F1
10712
2. TEF U2100 F2
10661
6. VF U2100 F2
10736
3. TEF U900 F1
02963
9. VF U900 F1
02938
4. TEF U900 F2
03087
Local cell group: Select as applicable from dropdown list.
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7.8.2
Baseband (BB) and HSPA license allocations
For each Local Cell Group you now need to specify the following values
•
Min. licensed BB capacity: Input value from O2 Baseband document - NEED TO SPEAK
WITH SP
•
Max. HW BB capacity: Input value from O2 Baseband document - NEED TO SPEAK
WITH SP
•
Licensed HSDPA users: Input value from O2 Baseband document - HSDPA User Share for
correct BTS Site Code - Flexi_BB3_ tab
•
HSUPA licenses: Input value from O2 Baseband document - Share of HSUPA Licences for
correct BTS Site Code - Flexi_BB3_ tab
7.8.3
Mapping HSPA local cells to baseband HW and Parallel Interference Cancellation
(PIC)
Leave as default setting - not selected.
Click 'Next' to continue
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7.9 HSDPA Settings
HSDPA Settings pages you can set the baseband pooling resource allocation for HSDPA users
(High-Speed Downlink Packet Access (HSDPA).
•
HSDPA 16 QAM support in use: Select in use
•
HSDPA Proportional Fair Resource Packet (PFRP) scheduler in use: Select in use
HSDPA capacity sets
With the HSDPA capacity set settings you can define the number of HSDPA licenses to be available
in BTS. Based on that information required amount of HSDPA licenses are downloaded to BTS from
NetAct.
•
BTS processing set 1: Not currently available in Baseband Design Document so leave as
blank.
•
BTS processing set 2: Input value from O2 Baseband document - HSDPA Processing Set 2
for correct BTS Site Code - Flexi_BB3_ tab
•
BTS processing set 3: Input value from O2 Baseband document - HSDPA Processing Set 3
for correct BTS Site Code - Flexi_BB3_ tab
HSDPA Iub delay threshold values Leave as default setting
Click 'Next' to continue
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7.10 HSDPA Throughput Settings
HSDPA Throughput Settings page you can set the throughput settings for High-Speed Downlink
Packet Access (HSDPA).
•
HSPA setting: For each Local Cell Group select correct value from the O2 Baseband
document - LCG-X Configuration for correct BTS Site Code - Flexi_BB3_ tab
•
HSDPA throughput: For each Local Cell Group and scheduler ID select the correct value
from the O2 Baseband document – LCGx SCHx HSDPA Throughput Steps for correct BTS
Site Code - Flexi_BB3_ tab
Click 'Next' to continue
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7.11HSUPA Settings
HSUPA Settings pages you can set the baseband pooling resource allocation for High-Speed Uplink
Packet Access (HSUPA).
•
Frequency domain equalizer in use: Leave as default setting - not selected.
•
HSUPA resource allocation: Select Defaults in use
•
Default CQI value for HS cell FACH state: Leave as default setting 255
•
Number of blind repetition for HS cell FACH state: Leave as default setting 255
•
Small transmission filtering in use: Leave as default setting - selected.
•
User Equipment Power Headroom (UPH) filtering in use: Leave as default setting selected.
•
UPH threshold: Leave as default setting - 10.
•
BTS processing set 1: Input value from O2 Baseband document - HSUPA Processing Set
for correct BTS Site Code - Flexi_BB3_ tab
Click 'Next' to continue
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7.12 HSPA Quality of Service Settings
HSPA Quality of Service Settings pages you can configure the settings for HSPA Quality of Service.
Scheduling Priority Indicator (SPI) class settings
Currently there are no changes required and default settings can be used.
Click 'Next' to continue
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7.13 Antenna Line Management
Antenna Line Management pages you can set antenna line management related settings to all radio
modules’ antennas.
NB: This is normally set to in use as default so any Antenna Line Devices should detected.
•
3GPP/AISG communication: Leave in use if it is known from the supplied data that a 3GPP
capable Antenna Line Device (MHA or RET)is available and de-select all others
•
DC voltage: Leave in use if it is known from the supplied data that a 3GPP capable Antenna
Line Device (MHA or RET) requires a DC voltage and de-select all others.
Antenna line features
•
SW update for antenna line devices in use: Leave as default setting - not selected.
•
Flexi WCDMA BTS 3GPP antenna tilt support in use: Leave as default setting - not
selected.
•
Antenna line supervision in use: Select in use
•
RX signal level monitoring in use: Select in use
Click 'Next' to continue
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7.14 AISG MHA Settings
AISG MHA Settings pages you can define the settings for auto-detected active mode and current
mode AISG Mast Head Amplifiers (MHAs). The MHAs that cannot be auto-detected are
commissioned later.
All info should be automatically populated and show the following:
•
•
•
•
•
•
•
•
•
•
MHA type: WMHD (are any new available 3GPP MHA device if deployed by TEF)
Detected from: Shows the antenna line from which the MHA is auto-detected.
Used in: Typically 'This BTS' NB: If the MHA is not selected to any antenna line, if it is
working on the different frequency than the antenna line’s frequency, or if there are no radio
modules that support MHAs, the MHA is shown to belong to the other BTS.
Antenna:
This shows the Antenna Line the MHA is used one
MHA Gain:
Default 12db
LNA number:
Shows the LNA number
Serial Number:
Reads the MHA serial number
Product Code:
Reads the MHA product code
Mode:
AISG selected
Additional Information: Leave as default
Example screenshot
Click 'Next' to continue
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7.15 Antenna Line Settings
Antenna Line Settings pages you can define non-AISG Mast Head Amplifier (MHA) and antenna
settings. Auto detected AISG MHAs are commissioned in previous section.
Select each Antenna in turn and configure the following;
7.15.1 Antenna Settings
•
•
•
•
•
•
•
Feeder loss: If no MHAs in line set to 'Zero'. If MHA in line set to -3db
PHS filter in use: Leave as default setting - not selected.
MultiRadio combiner in use: Leave as default setting - not selected.
Multiplexer usage: Select 'None' from dropdown list
VSWR minor fault: Leave as default setting - 1.9
VSWR major fault: Leave as default setting - 2.6
Additional RX gain: If the site is RF sharing and RSDA cables are used then a setting of 29db is to be set, otherwise leave as blank.
7.15.2 RTT measurements
•
•
•
User-defined Round Trip Time delay: Un tick usage
Antenna cable length: If no MHA in use input 1, if MHA in use input 25
Velocity factor: Input 0.82
7.15.3 MHA Settings
If you have commissioned AISG MHA in the AISG MHA Settings page, the MHA settings only
shows the type of the commissioned MHA and you can continue to the next page.
If a Non AISG MHA is in line then this needs to be configured based on the MHA installed.
•
•
•
•
•
•
•
MHA in use: Select in use
MHA type: Select MHA Type from dropdown list (WMHA,WMHB,WMHC or Other)
WMH port: If the MHA type of the MHA is WMHC, select the WMH port by clicking the
appropriate option: BTS1 (Pass Through) or BTS2 (power) as required.
Feeder voltage: If the selected MHA type of the MHA is WMHC and the WMH port is BTS1,
select the Feeder voltage: 0V. If the selected MHA type of the MHA is other, select the
Feeder voltage for each leg as required (normally 12v but check MHA type set up
instructions). For other MHA types, the Feeder voltage is set to the default value and is
disabled.
Serial number: If know enter details, otherwise leave blank.
Product code: If know enter details, otherwise leave blank.
MHA faults enabled: If the selected MHA type of the MHA is other, select MHA faults
enabled if necessary. If you select this option, enter the threshold value in the Fault threshold
field. Typically for a Nortel MHA, MHA Fault is enabled and the threshold is set to 165.
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Example screenshot showing with WMHD in use.
Typical MHA settings for WHMC
Once all MHA types are configured you are ready to click 'Next' to continue.
NB: When the site is on air if you have RX signal levels of around -110 dB then it is normally due to
the manual MHA settings being configured incorrectly and needs to be checked.
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7.16 Siemens Proprietary AISG1.1 TMARET and RET Settings
Siemens Proprietary AISG1.1 TMARET and RET Settings pages you can define the settings for the
Siemens proprietary AISG1.1 TMARET and RET units.
Currently there are no changes required and default settings can be used.
Click 'Next' to continue
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7.17 System Module External Fault and Control Settings
System/Radio Module External Fault and Control Settings pages you can define external fault and
control lines for external devices.
If the Intelligent shutdown is selected to be used in the Commissioning - Local Cell Settings (see
section 7.7), 1 - 3 external fault lines in the system module are reserved for the mains faults
depending on the BBU type, and two additional lines (13 and 14) are displayed and reserved for
Flexi Power Module (FPM) faults.
Refer to DN0900cc8c8764ac71_Beacon_External_Alarm_Tables_v6 for configuration types and
enter as required.
Typical O2 Hosted site configuration:
Once all external alarms have been configures click 'Next' to continue.
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7.18 Radio Module External Fault and Control Settings
Radio Module External Fault and Control Settings pages you can define external fault and control
lines for external devices.
Currently there are no changes required or alarms to be monitored therfore default settings can be
used.
Click 'Next' to continue
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7.19 Send Parameters
Send Parameters page you can send the parameters entered during the commissioning procedure to
the BTS site. A site reset follows after a successful transmission of the commissioning parameters.
•
Send Parameters - click to send
Once site has reset click Next to continue.
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7.20 Additional Site Settings
Additional Site Settings page you can manage the local user account, certificates and Remote
Electrical Tilt (RET) units.
No changes are required.
Click 'Next' to continue
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7.21 Site Testing
Site Testing page you can run WCDMA loop, EAC functionality on the commissioned BTS site. The
test results and reports are attached to the Commissioning Report. If the BTS cannot be reconnected
after sending the commissioning parameters and resetting the site, the tests cannot be executed.
Click on 'EAC Functionality Test' and complete External Alarm tests as required.
No other site tests are required, click 'Next' to continue.
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7.22 Commissioning Report
Commissioning Report page you can view information defined during the commissioning. The
report is split in the sublevels, which you can expand or collapse by clicking the arrow. You can
expand all levels at the same time by clicking the button
or collapse all levels by clicking the
button. You can view the contents of the report by scrolling down the list. The Commissioning
Report contains the following information:
•
•
•
Report identification: Date, Author, Commissioning Type, Commissioned Elements, NTP
connection and BTS State
<element> commissioning parameters: the parameters entered in the Commissioning pages
for the commissioned elements (BTS and/or TRS)
Additional site settings: details on the RET settings.
Click the
button to open the Save Commissioning Report dialog box, where you can define the
file name and the location for the Commissioning Report.
The default file name is CommissioningReport_<Site name>_<yyyymmdd>.txt.
The default location is the folder where you have saved the previous commissioning reports or your
default working folder (My Documents, for example).
Save report and name as per Project requirements.
Click 'Finish'
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