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Cabling Flexi Multiradio 10 Base Station Operating Documentation

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Nokia Networks
LTE Radio Access, Rel. RL60,
Operating Documentation,
Issue 04
Cabling Flexi Multiradio 10
Base Station
DN09107822
Issue 12
Approval Date 2014-08-29
Cabling Flexi Multiradio 10 Base Station
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Important Notice on Product Safety
This product may present safety risks due to laser, electricity, heat, and other sources of danger.
Only trained and qualified personnel may install, operate, maintain or otherwise handle this
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The safety information is provided in the Safety Information section in the “Legal, Safety and
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If you should have questions regarding our Environmental Policy or any of the environmental services we
offer, please contact us at Nokia Solutions and Networks for any additional information.
2
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Table of Contents
This document has 65 pages
Summary of changes..................................................................... 7
1
1.1
1.2
1.3
1.3.1
1.3.2
1.3.3
1.4
1.4.1
1.4.2
1.4.3
1.4.4
Connecting System Module (FSMx) core cabling.......................... 9
Connecting external power feed.................................................... 9
Connecting internal optical cables............................................... 16
Connecting transmission cables.................................................. 21
Overview of connecting transmission cabling.............................. 21
Connecting RJ45 transmission cable...........................................21
Connecting SFP transmission cable............................................ 23
Connecting FSMx core optional cabling.......................................27
Connecting Sync Out cable..........................................................27
Connecting Sync In cable............................................................ 28
Connecting External Alarms and Controls (EAC) cable...............29
Connecting external IP devices....................................................30
2
Connecting Flexi Multiradio 10 BTS Power Distribution SubModule (FPFD) cabling................................................................ 32
FPFD v. 103 cabling..................................................................... 32
FPFD v. 204 Efore cabling........................................................... 37
FPFD v. 204 Artesyn cabling........................................................42
2.1
2.2
2.3
3
Connecting Flexi Multiradio 10 BTS optional Transmission SubModule (FTIF) cabling.................................................................. 48
4
Connecting Flexi Multiradio 10 BTS Capacity Extension SubModule (FBBA) cabling................................................................ 50
5
Connecting Flexi Multiradio 10 BTS Capacity Extension SubModule (FBBC) cabling................................................................ 54
6
Checklist for cabling Flexi Multiradio 10 BTS...............................58
7
7.1
7.2
Appendices.................................................................................. 59
Contents of the Flexi Multiradio 10 BTS optical cable deliveries. 59
Contents of the Flexi Multiradio 10 BTS optical transceiver
deliveries...................................................................................... 60
Contents of the Flexi Multiradio 10 BTS transmission cable
deliveries...................................................................................... 60
Contents of the Flexi Multiradio 10 BTS synchronization cable
deliveries...................................................................................... 61
EAC cable (FTSI 472578A) wiring............................................... 62
Flexi Multiradio 10 BTS Power Distribution Sub-Module (FPFD)
control panel.................................................................................63
7.3
7.4
7.5
7.6
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List of Figures
4
Figure 1
Routing DC power cable through cable entry.......................................9
Figure 2
Loosen screw terminals......................................................................10
Figure 3
Stripping DC power cable...................................................................10
Figure 4
Inserting DC power cable to IP boot................................................... 11
Figure 5
Removing narrow end of IP boot........................................................ 12
Figure 6
Removing tape................................................................................... 12
Figure 7
Insert DC power cable wires...............................................................13
Figure 8
Tighten screw terminals......................................................................14
Figure 9
Fixing IP boot......................................................................................15
Figure 10
Install cable entries.............................................................................16
Figure 11
Installing optical transceiver............................................................... 18
Figure 12
Pulling back cable connector seal...................................................... 19
Figure 13
Connecting optical cable.................................................................... 19
Figure 14
Installing optical cable connector seal................................................ 19
Figure 15
Routing optical cable.......................................................................... 20
Figure 16
Connecting RJ45 transmission cable................................................. 22
Figure 17
Inserting optical transceiver................................................................24
Figure 18
Pulling back the connector seal..........................................................25
Figure 19
Connecting optical cable.................................................................... 25
Figure 20
Connecting optical cable.................................................................... 26
Figure 21
Pushing the connector seal in place...................................................26
Figure 22
Connecting Sync Out cable................................................................ 27
Figure 23
Connecting Sync In cable...................................................................28
Figure 24
Connecting EAC cable....................................................................... 29
Figure 25
Connecting RJ45 cable to LMP port...................................................31
Figure 26
Pulling FSMx core out........................................................................ 33
Figure 27
Loosening FPFD screw terminals.......................................................33
Figure 28
Wrapping tape around wires...............................................................34
Figure 29
Inserting cable to IP boot....................................................................34
Figure 30
Removing tape................................................................................... 35
Figure 31
Connecting FPFD DC output cable wires...........................................35
Figure 32
Tightening FPFD screw terminals.......................................................35
Figure 33
Fixing IP boot......................................................................................36
Figure 34
Loosening FPFD screw terminals.......................................................38
Figure 35
Wrapping tape around wires...............................................................38
Figure 36
Inserting cable to IP boot....................................................................39
Figure 37
Removing tape................................................................................... 39
Figure 38
Connecting FPFD DC output cable wires...........................................40
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Issue: 12
Figure 39
Tightening FPFD screw terminals.......................................................40
Figure 40
Fixing IP boot......................................................................................41
Figure 41
FPFD with IP boots installed.............................................................. 42
Figure 42
Loosening FPFD screw terminals.......................................................43
Figure 43
Wrapping tape around wires...............................................................43
Figure 44
Inserting cable to IP boot....................................................................44
Figure 45
Removing tape................................................................................... 44
Figure 46
Connecting FPFD DC output cable wires...........................................45
Figure 47
Tightening FPFD screw terminals.......................................................45
Figure 48
Fixing IP boot......................................................................................46
Figure 49
FPFD with IP boots installed.............................................................. 47
Figure 50
Connecting FTIF cabling.................................................................... 48
Figure 51
Removing FBBA IP seals................................................................... 50
Figure 52
Connecting power cable..................................................................... 50
Figure 53
Chaining power cable......................................................................... 51
Figure 54
Connecting QSFP cable..................................................................... 51
Figure 55
Connecting second QSPF cable........................................................ 52
Figure 56
Bending the QSFP cables (1).............................................................53
Figure 57
Bending the QSFP cables (2).............................................................53
Figure 58
Removing FBBC IP seals................................................................... 54
Figure 59
Connecting power cable..................................................................... 54
Figure 60
Connecting QSFP cable..................................................................... 55
Figure 61
Connecting second QSFP cable........................................................ 56
Figure 62
Bending the QSFP cables (1).............................................................57
Figure 63
Bending the QSFP cables (2).............................................................57
Figure 64
FPFD control panel.............................................................................63
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List of Tables
6
Table 1
RAT releases covered by the document...............................................7
Table 2
Optical cable deliveries.......................................................................59
Table 3
Optical transceiver deliveries..............................................................60
Table 4
Transmission cable deliveries.............................................................60
Table 5
Sync cable deliveries..........................................................................61
Table 6
EAC cable (FTSI) wiring..................................................................... 62
Table 7
FPFD LED indications........................................................................ 64
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Summary of changes
Summary of changes
Changes between document issues are cumulative. Therefore, the latest document
issue contains all changes made to previous issues.
This document is common for all Radio Access Technologies (RAT). You may find here
information about solutions that are not available or supported in a specific SW release
or RAT. Table RAT releases covered by the document lists all SW releases covered by
the content of this document. For features supported in your SW release, see respective
feature documentation chapter in the system library.
Table 1
RAT releases covered by the document
Radio Access Technology (RAT)
Product release
GSM
RG20, RG30
LTE
RL25TD, RL35TD, RL45TD
RL40, RL50, RL60
WCDMA
RU40
Changes between issues 11 (2014-06-24) and 12 (2014-08-27)
FPFD v. 103 cabling
•
Cables size range has been corrected.
FPFD v. 204 Efore cabling
•
•
•
•
Note with figure about installing IP boots has been added.
Note about not cutting the IP gaskets has been added.
Cable size range has been corrected.
Label number has been corrected in the note.
FPFD v. 204 Artesyn cabling
•
•
•
•
Note with figure about installing IP boots has been added.
Note about not cutting the IP gaskets has been added.
Cable size range has been corrected.
Label number has been corrected in the note.
Changes between issues 10 (2014-06-04) and 11 (2014-06-24)
Connecting Sync In cable
•
GPS cable assembly 300 m has been added to the list.
FPFD v. 204 Efore cabling
•
New chapter.
FPFD v. 204 Artesyn cabling
•
Issue: 12
New chapter.
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Summary of changes
Cabling Flexi Multiradio 10 Base Station
Changes between issues 09 (2014-03-25) and 10 (2014-06-04)
Flexi Multiradio 10 BTS Power Distribution Sub-Module (FPFD) control panel
•
Over tempreture removed from the red LED fault case in Table 7: FPFD LED
indications.
FPFD v. 103 cabling
•
Information about required tool has been added to Step 2.
Connecting SFP transmission cable
•
Information about using reel-type connection cleaner has been added to Step 5.
Connecting internal optical cables
•
•
Step 4 has been updated.
Note has been updated.
Changes between issues 08 (2014-03-07) and 09 (2014-03-25)
Connecting Flexi Multiradio 10 BTS Capacity Extension Sub-Module (FBBC)
cabling
•
8
New chapter.
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Connecting System Module (FSMx) core cabling
1 Connecting System Module (FSMx) core
cabling
1.1 Connecting external power feed
Before you start
g
g
The FSMx core DC input is only used when there is no Flexi Multiradio 10 BTS
Power Distribution Sub-Module (FPFD) in the configuration.
External surge protection is always needed in outdoor installations with FSMF
DC input (with or without FPFD) if the input power feeder length exceeds 10 m.
(Installed close to FSMF DC input port).
Shielded power feeder is always needed in outdoor installations when the
power feeder length exceeds 4 m. The power feeder cable needs to be
grounded at both ends.
Make sure that the module is grounded.
Choose a DC power cable between outer diameters with a sealing of 6 mm to 20 mm
(0.24-0.79 in.).
f
w
WARNING! Risk of short circuit.
Make sure the main site switch is in the OFF position before you connect the
DC power cable.
NOTICE: Incorrect cables and seals may not provide appropriate ingress
protection. Use only tested IP65 class outdoor cables with seals provided by
NSN. This is required for both indoor and outdoor installations, including the
outdoor cabinet.
The power cable must be connected before power is applied to the system.
1
Route the DC power cable through the cable entry.
Figure 1
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Routing DC power cable through cable entry
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Connecting System Module (FSMx) core cabling
2
Cabling Flexi Multiradio 10 Base Station
Loosen the screw terminals of the DC in port on the FSMx front panel.
Figure 2
Loosen screw terminals
DCin
+ -
3
Strip the DC power cable and wrap tape around the exposed wires in order not
to break the IP boot.
Figure 3
10
Stripping DC power cable
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4
Connecting System Module (FSMx) core cabling
Insert the taped end of the DC power cable to the IP boot.
Figure 4
Inserting DC power cable to IP boot
When using a thick cable, the narrow end of the IP boot can be removed using
scissors. Cut in one go so that you get a clean cut surface. See Figure 5: Removing
narrow end of IP boot for details. Note that you can insert only one DC cable with a
diameter of max. 20 mm (0.79 in.) to the IP boot. Minimum cable diameter is 6 mm
(0.24 in.).
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Figure 5
Cabling Flexi Multiradio 10 Base Station
Removing narrow end of IP boot
Cablediameter17.1 -20.0 mm
cutwithscissorsinonego
Cablediameter10.1 - 17.0 mm
cutwithscissorsinonego
Cablediameter 6.0 - 10.0 mm
(nocuttingneed)
5
Remove the tape.
Figure 6
6
Removing tape
Insert the DC power cable to the screw terminal and make sure that the polarity
of the wires is correct.
Connect the wires to the V48N- and V48RTN+ connectors according to the markings
on the cable.
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f
Connecting System Module (FSMx) core cabling
WARNING! Risk of power supply failure and, in rare cases, of short
circuit.
Check that the polarity is correct according to the markings on the cable.
Figure 7
7
Insert DC power cable wires
Tighten the screw terminals to 5.0 Nm (3.69 ft-lb).
Make sure that the DC power cable is not bent to the left or right in order to avoid
tension to the DC input terminals.
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Figure 8
14
Cabling Flexi Multiradio 10 Base Station
Tighten screw terminals
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8
Connecting System Module (FSMx) core cabling
Fix the IP boot in place and fix the screw. Tighten to max. 2.0 Nm (1.48 ft-lb).
Figure 9
Fixing IP boot
1
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15
Connecting System Module (FSMx) core cabling
9
Cabling Flexi Multiradio 10 Base Station
Install the cable entries.
Figure 10
Install cable entries
10 Fix the cable entry screws.
11 Fix the DC power cable to the side of the module casing with cable ties.
1.2 Connecting internal optical cables
Purpose
The optical cables connected between the System Module and each of the RF Modules
or Remote Radio Heads (or the system extension module) are used for transmitting
signals between modules.
The System Module supports optical cables in three length ranges:
1. 0 - 13 km (depending on the RF HW version, the values might vary as follows: 0 - 10
... 13 km)
2. 13 - 26 km (depending on the RF HW version, the values might vary as follows: 10 ...
13 km or 20 ... 26 km)
3. 26 - 39 km (depending on the RF HW version, the values might vary as follows: 20 ...
26 km or 30 ... 39 km)
The RF Modules must be connected to the System Module with a fiber from the same
length range.
Note that in case of RF chaining, the optical cable length from the System Module to any
RF Module in chain must remain in the same length range. In case of RF Modules
chaining, the length range is the total optical path length between the System Module
and the last RF Module in chain.
See Contents of the Flexi Multiradio 10 BTS optical cable deliveries and Contents of the
Flexi Multiradio 10 BTS optical transceiver deliveries for supported cables and optical
transceivers.
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Connecting System Module (FSMx) core cabling
Before you start
f
f
w
w
w
w
w
WARNING! Risk of eye damage caused by invisible laser beam.
Make sure that the laser beam is switched off when optical cables are installed.
CAUTION! Risk of personal injury.
Always stop transmission before detaching the optical fiber from an optical fiber
connector marked with a warning triangle.
NOTICE: Incorrect cables and seals may not provide appropriate ingress
protection. Use only tested IP65 class outdoor cables with seals provided by
NSN. This is required for both indoor and outdoor installations, including the
outdoor cabinet.
NOTICE: Overbending the optical fiber cables damages the cables and can
detach or damage the connectors. Do not bend optical fibre cables to a radius
smaller than the minimum radius of 70 mm (2.76 inches) for cables with
diameter 7 mm (0.28 inches) or 50 mm (1.97 inches) for cables with diameter 5
mm (0.20 inches).
NOTICE: The optical fiber connector is fragile. Handle it with care.
NOTICE: Optical cables are fragile. Always route the optical cable to the
direction it is bended.
NOTICE: Optical fibers are sensitive. The presence of contaminants lowers the
mechanical strength of the optical fiber and may dampen the transmission of
light in the fibers. Clean all optical fiber connectors before installation using an
optical fibers connector cleaning kit.
g
When using two or three parallel optical fibers per RF Module, the difference in
lengths between the cables must not exceed 30 m.
w
NOTICE: If the SFP module is hot swapped, a site reset is required.
1
Remove the IP seals from the relevant optical cable connectors in both System
and RF Modules.
When pulling out the IP seal, bending it to any direction is only allowed for a
maximum length of 2 mm (0.08 in.). When the IP seal has come out 2 mm out of its
slot, only use axial force to complete the IP seal removal.
Store the seals for later use.
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Figure 11
Cabling Flexi Multiradio 10 Base Station
Installing optical transceiver
m
2m
1
Bendingonlyallowedformax.2mm.
When2mmout,onlyuseaxialforce.
2
w
Remove the protective cap from the optical transceiver and push it in the
System Module.
NOTICE: Always connect RF Modules using their OPT1 port to the
consecutive master System Module ports, starting from RF/EXT1 port.
Make sure you insert the optical transceiver as shown in Figure 11: Installing optical
transceiver.
Once the optical transceiver is inserted, flip the latch up.
18
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3
Pull back the optical cable connector seal to uncover the connector.
Figure 12
4
Connecting System Module (FSMx) core cabling
Pulling back cable connector seal
Remove the protective plug and clean the connectors using a reel type optical
fiber connector cleaner or follow the instructions below.
a) Moisten a lint-free swab or one section of a lint-free wipe with one drop of 99%
alcohol.
b) Lightly wipe the connector with alcohol moistened swab or wipe.
c) Dry any remaining alcohol with a dry swab or the dry section of the wipe.
d) Properly dispose of the swab or wipe. Do not reuse.
5
Connect the cable to the System Module.
Make sure it clicks into place.
Figure 13
6
Push the connector seal firmly in place.
Figure 14
Issue: 12
Connecting optical cable
Installing optical cable connector seal
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Connecting System Module (FSMx) core cabling
7
Cabling Flexi Multiradio 10 Base Station
Route the cable between the System and RF Modules.
Figure 15
Routing optical cable
Leftside
8
Coil up the excess cable and fix it with cable ties.
You should store an excessive cable material in a cable coil. Follow the steps below.
a) Coil the cables according to the specified bending radius.
g
Do not exceed the minimum bending radius value.
b) Support the coil so that the cable own weight does not cause coil to
change its form.
c) Store the coil outside in secured location so the weather conditions have
no impact.
9
Remove the protective cap from the optical transceiver and push it in the RF
Module.
10 Pull back the optical cable connector seal to uncover the connector.
11 Remove the protective plug and clean the connector according to the
instructions given in step 4.
12 Connect the optical cable to the RF Module.
Make sure it clicks into place.
20
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13 Push the connector seal firmly in place.
14 Repeat for each RF Module in the configuration.
15 Make sure that all the connector seals are properly installed.
1.3 Connecting transmission cables
1.3.1 Overview of connecting transmission cabling
With Flexi Multiradio 10 BTS System Module, there are three options for transmission:
two integrated interfaces on the FSMx core and an optional transmission sub-module.
1) EIF1 interface (RJ45)
This integrated transmission interface is marked "EIF1" on the FSMx core front panel. If
you are using this transmission option, see Connecting RJ45 transmission cable.
2) EIF2 interface (SFP/SFP+)
This integrated transmission interface is marked "EIF2/RF/6" on the FSMx front panel.
The interface can be software-configured to either GE Ethernet interface for transport
purposes (SFP) or RP3-01/CPRI interface (SFP+). Note that it is only available for
transport if an optional transmission sub-module is not deployed. If you are using this
transmission option, see Connecting SFP transmission cable.
3) Flexi Multiradio 10 BTS optional Transmission Sub-Module
If more or other Ethernet interfaces are required then a Flexi Multiradio 10 BTS optional
Transmission Sub-Module is needed. For installation instructions, see Installing Flexi
Multiradio 10 BTS optional Transmission Sub-Module (FTIF). For cabling instructions,
see Connecting Flexi Multiradio 10 BTS optional Transmission Sub-Module (FTIF)
cabling.
See Contents of the Flexi Multiradio 10 BTS transmission cable deliveries for a list of
cables available.
1.3.2 Connecting RJ45 transmission cable
Before you start
w
NOTICE:
Incorrect cables and seals may not provide appropriate ingress protection. Use
only tested IP65 class outdoor cables with seals provided by NSN. This is
required for both indoor and outdoor installations, including the outdoor cabinet.
Summary
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Connecting System Module (FSMx) core cabling
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Cabling Flexi Multiradio 10 Base Station
NOTICE:
Risk of damage to equipment. Flexi BTS transmission cables with weatherresistant boots must be used in outdoor installations.
Figure 16
Connecting RJ45 transmission cable
2
4
1
3
5
6
1
Remove the IP seal from the EIF1 port on the FSMx core front panel.
Store the seal for later use.
2
Route the transmission cable through the cable entry.
3
Pull back the connector seal to uncover the connector.
4
Connect the cable to the EIF1 port.
Make sure it clicks into place.
22
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Connecting System Module (FSMx) core cabling
5
Push the cable connector seal firmly in place.
6
Coil up the excess cable and fix it on the module casing with cable ties.
7
Make sure that the connector seal is properly installed.
1.3.3 Connecting SFP transmission cable
Before you start
f
w
w
w
WARNING! Danger of eye damage caused by invisible laser beam.
Make sure that the laser beam is switched off during optical fiber installation.
NOTICE: Only NSN proprietary SFPs (see chapter
Small Form-factor Pluggable transceivers (SFPs) in
Flexi Multiradio Base Station Optional Items Description and
Flexi Multiradio 10 Base Station Optional Items Description) must be used for all
optical connections (both single mode and multimode) to connect System
Module and Radio Module. Any exception to this rule requires a written product
management approval.
NOTICE: Incorrect cables and seals may not provide appropriate ingress
protection. Use only tested IP65 class outdoor cables with seals provided by
NSN. This is required for both indoor and outdoor installations, including the
outdoor cabinet.
NOTICE: Risk of damage to equipment. Flexi BTS transmission cables with
weather-resistant boots must be used in outdoor installations.
1
Remove the IP seal from the EIF2/RF/6 port on the FSMx core front panel.
Store the seal for later use.
Issue: 12
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Connecting System Module (FSMx) core cabling
Figure 17
Cabling Flexi Multiradio 10 Base Station
Inserting optical transceiver
m
2m
1
Bendingonlyallowedformax.2mm.
When2mmout,onlyuseaxialforce.
2
Remove the protective cap from the optical transceiver and push it in the
EIF2/RF/6 port.
Make sure you insert the optical transceiver as shown in .
Once the optical transceiver is inserted, flip the latch up.
24
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Connecting System Module (FSMx) core cabling
3
Route the transmission cable through the cable entry.
4
Pull back the connector seal to uncover the connector.
Figure 18
5
Pulling back the connector seal
Remove the protective plug from the optical cable and clean the connector
using a reel-type optical connector cleaner or according to the instructions
below:
a) Moisten a lint-free swab or one section of a lint-free wipe with one drop of 99%
alcohol.
b) Lightly wipe the connector with alcohol moistened swab or wipe.
c) Dry any remaining alcohol with a dry swab or the dry section of the wipe.
d) Properly dispose of the swab or wipe. Do not reuse.
6
Connect the cable to the EIF2/RF/6 port.
Make sure it clicks into place.
Figure 19
Issue: 12
Connecting optical cable
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Connecting System Module (FSMx) core cabling
Figure 20
7
Connecting optical cable
Push the cable connector seal firmly in place.
Figure 21
26
Cabling Flexi Multiradio 10 Base Station
Pushing the connector seal in place
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Connecting System Module (FSMx) core cabling
8
Coil up the excess cable and fix it on the module casing with cable ties.
9
Make sure that the connector seal is properly installed.
1.4 Connecting FSMx core optional cabling
1.4.1 Connecting Sync Out cable
Purpose
Figure 22
Connecting Sync Out cable
1
1
2
3
Remove the IP seal from the Sync Out port on the FSMx core.
Store the seal for later use.
2
Connect a Sync cable (for example FTSF 472509A) to the Sync Out port.
The correct end of the cable is marked with the label "Sync Out".
Issue: 12
DN09107822
27
Connecting System Module (FSMx) core cabling
Cabling Flexi Multiradio 10 Base Station
3
Push the connector seal firmly in place.
4
Connect the other end of the Sync cable to the Sync In port of the second
FSMx in your configuration.
5
Fix the excess cable with cable ties.
1.4.2 Connecting Sync In cable
Purpose
Figure 23
Connecting Sync In cable
1
2
3
Before you start
The example cables that can be used are listed below:
External synchronization input:
•
•
Sync Cable F (FTSF 472509A)
Sync Cable G (FTSG 472576A)
Powering and controlling GPS equipment:
•
•
•
28
GPS cable assembly 30 m (FTSE 472510A)
GPS cable assembly 100 m (FTSH 472577A)
GPS cable assembly 300 m (FTSM 472870A)
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
1
Connecting System Module (FSMx) core cabling
Remove the IP seal from the Sync In port on the FSMx core.
Store the seal for later use.
2
Connect the cable to the Sync In port.
The correct end of the cable is marked with the label "Sync In".
3
Push the connector seal firmly in place.
4
Connect the other end of the cable as follows:
•
•
•
5
If your cable is a FTSF, connect it to the Sync Out port of the second FSMF in
your configuration.
If your cable is a FTSG, connect it to the Sync Out port of FSMC/D/E.
If your cable is a FTSE/H, connect it to the GPS antenna.
Fix the excess cable with cable ties.
1.4.3 Connecting External Alarms and Controls (EAC) cable
Purpose
Figure 24
Connecting EAC cable
1
Issue: 12
2
DN09107822
3
29
Connecting System Module (FSMx) core cabling
1
Cabling Flexi Multiradio 10 Base Station
Remove the IP seal from the EAC port on the FSMx core.
Store the seal for later use.
2
Connect an EAC cable (FTSI 472578A) to the EAC port.
The correct end of the cable is marked with the label "EAC".
3
Push the connector seal firmly in place.
4
Connect the other end of the cable to the Flexi System External Alarm module
(FSEB).
Alternatively, you can cut off the D connector and connect the other end of the cable
to, for example, your patch panel based on the color coding of the cable. See
appendix EAC cable (FTSI 472578A) wiring for details.
5
Fix the excess cable with cable ties.
1.4.4 Connecting external IP devices
Purpose
External IP devices can be connected to FSMF through the LMP port.
Before you start
w
NOTICE:
w
NOTICE:
Incorrect cables and seals may not provide appropriate ingress protection. Use
only tested IP65 class outdoor cables with seals provided by NSN. This is
required for both indoor and outdoor installations, including the outdoor cabinet.
If you connect RCUA to the FSMF, connect the device through 10/100 Mbit
switch/hub. RCUA works with 10 Mbit/s speed with no auto negotiation support.
Summary
30
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
Figure 25
Connecting System Module (FSMx) core cabling
Connecting RJ45 cable to LMP port
2
4
1
3
5
1
6
Remove the IP seal from the LMP port on the FSMx core front panel.
Store the seal for later use.
2
Route the transmission cable through the cable entry.
3
Pull back the connector seal to uncover the connector.
4
Connect the cable to the LMP port.
Make sure it clicks into place.
g
Issue: 12
5
Push the cable connector seal firmly in place.
6
Coil up the excess cable and fix it on the module casing with cable ties.
7
Make sure that the connector seal is properly installed.
Always close the IP cap after disconnecting the cable.
DN09107822
31
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Cabling Flexi Multiradio 10 Base Station
2 Connecting Flexi Multiradio 10 BTS Power
Distribution Sub-Module (FPFD) cabling
2.1 FPFD v. 103 cabling
Before you start
w
f
g
NOTICE: Incorrect cables and seals may not provide appropriate ingress
protection. Use only tested IP65 class outdoor cables with seals provided by
NSN. This is required for both indoor and outdoor installations, including the
outdoor cabinet.
WARNING! Risk of short circuit.
When the FPFD is in use, it feeds 48 V to the FSMx core DC In port.
Make sure that the port is covered with the IP seal and not used. Do not also
use the DC In port for feeding other modules.
External surge protection is always needed in outdoor installations with FPFD
output if the output power feeder length exceeds 10 m (installed at FSMF end
only).
Shielded power feeder is always needed in outdoor installations when the
power feeder length exceeds 4 m. The power feeder cable needs to be
grounded at both ends.
If the DC input cable is not connected yet, see Installing Flexi Multiradio 10 BTS Power
Distribution Sub-Module (FPFD) for details.
If cable entries are installed, remove them.
If you need to connect DC output cables to the FPFD front panel while it is running, turn
the power off from the control panel. See Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) control panel for details.
32
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
1
Undo the screws holding the FSMx core in place and pull it out slightly.
Figure 26
2
Pulling FSMx core out
Loosen the screw terminals on the FPFD front panel with a 2.5mm allen key.
Figure 27
Issue: 12
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Loosening FPFD screw terminals
DN09107822
33
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
3
Cabling Flexi Multiradio 10 Base Station
Strip the DC output cable and wrap tape around the exposed wires in order not
to break the IP boot.
The cable size is range is 6 to 16 mm2 (9 to 6 AWG).
Figure 28
4
Insert the taped end of the cable to the IP boot.
Figure 29
34
Wrapping tape around wires
Inserting cable to IP boot
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
5
Remove the tape.
Figure 30
6
f
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Removing tape
Insert the cable to the screw terminal and make sure that the polarity of the
wires is correct.
WARNING! Risk of power supply failure and, in rare cases, of short
circuit.
Check that the polarity is correct according to the markings on the cable.
Figure 31
Connecting FPFD DC output cable wires
_ +
7
Tighten the screw terminals to 3.0 Nm (2.21 ft-lb).
Make sure that the DC cable is not bent to the left or right in order to avoid tension to
the DC output terminals.
Figure 32
Issue: 12
Tightening FPFD screw terminals
DN09107822
35
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
8
Fix the IP boot in place.
Figure 33
36
Cabling Flexi Multiradio 10 Base Station
Fixing IP boot
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
9
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Repeat steps 2 to 8 as many times as necessary.
10 Reinsert the FSMx core and fix the screws.
2.2 FPFD v. 204 Efore cabling
Before you start
w
w
f
g
NOTICE: Incorrect cables and seals may not provide appropriate ingress
protection. Use only tested IP65 class outdoor cables with seals provided by
NSN. This is required for both indoor and outdoor installations, including the
outdoor cabinet.
Separate the input cable to positive and negative wires (according to their
electrical polarity) . Output wires have to be placed inside round jacket.
WARNING! Risk of short circuit.
When the FPFD is in use, it feeds 48 V to the FSMx core DC In port.
Make sure that the port is covered with the IP seal and not used. Do not also
use the DC In port for feeding other modules.
External surge protection is always needed for outdoor installations with FPFD
output if the output power feeder length exceeds 10 m (installed at the FSMF
end only).
Shielded power feeder is always needed for outdoor installations when the
power feeder length exceeds 4 m. The power feeder cable needs to be
grounded at both ends.
w
Conductor wire diameter of DC cable needs to be selected based on the PDU
Fuse rating. OVP DC ampacity shall not be lower than the PDU Fuse rating. For
newer FPFD PDU version A.204 with 40A label, a single DC cable is sufficient
and dual DC cable FPCA must not be used.
If the DC input cable is not connected yet, see Installing Flexi Multiradio 10 BTS Power
Distribution Sub-Module (FPFD) for details.
If cable entries are installed, remove them.
If you need to connect DC output cables to the FPFD front panel while it is running, turn
the power off from the control panel. See Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) control panel for details.
Issue: 12
DN09107822
37
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
1
Loosen the screw terminals on the FPFD front panel with a TX25 tool.
Figure 34
2
Cabling Flexi Multiradio 10 Base Station
Loosening FPFD screw terminals
Strip 10 mm of insulation off the DC output cable and wrap exposed wires with
tape in order not to break the IP boot.
The cable size range is 6 to 16 mm2 (10 to 6 AWG).
Figure 35
38
Wrapping tape around wires
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
3
Cut the tip of the IP boot with scissors according to your cable diameter.
4
Insert the taped end of the cable to the IP boot.
Figure 36
5
6
Issue: 12
Inserting cable to IP boot
Remove the tape.
Figure 37
f
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Removing tape
Insert the cable to the screw terminal and make sure that the polarity of the
wires is correct.
WARNING! Risk of power supply failure and, in rare cases, of short
circuit.
Make sure that the polarity is correct according to the markings on the cable.
DN09107822
39
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Figure 38
Cabling Flexi Multiradio 10 Base Station
Connecting FPFD DC output cable wires
- +
7
Tighten the screw terminals to 3.0 Nm (2.21 ft-lb).
Make sure that the DC cable is not bent to the left or right in order to avoid tension to
the DC output terminals.
w
NOTICE: The maximum torque is 4.0 Nm (2.95 ft-lb). Do not overtighten.
Figure 39
40
Tightening FPFD screw terminals
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
8
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Fix the IP boot in place.
Figure 40
Fixing IP boot
- +
9
Issue: 12
Repeat steps 2 to 8 as many times as necessary.
w
All the DC ports should be covered with IP boots, even when unused, as
shown in Figure 41: FPFD with IP boots installed
w
Do not cut the IP gaskets even when no cable is connected.
DN09107822
41
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Figure 41
Cabling Flexi Multiradio 10 Base Station
FPFD with IP boots installed
2.3 FPFD v. 204 Artesyn cabling
Before you start
w
w
f
g
NOTICE: Incorrect cables and seals may not provide appropriate ingress
protection. Use only tested IP65 class outdoor cables with seals provided by
NSN. This is required for both indoor and outdoor installations, including the
outdoor cabinet.
Separate the input cable to positive and negative wires (according to their
electrical polarity) . Output wires have to be placed inside round jacket.
WARNING! Risk of short circuit.
When the FPFD is in use, it feeds 48 V to the FSMx core DC In port.
Make sure that the port is covered with the IP seal and not used. Do not also
use the DC In port for feeding other modules.
External surge protection is always needed for outdoor installations with FPFD
output if the output power feeder length exceeds 10 m (installed at FSMF end
only).
Shielded power feeder is always needed for outdoor installations when the
power feeder length exceeds 4 m. The power feeder cable needs to be
grounded at both ends.
w
Conductor wire diameter of DC cable needs to be selected based on the PDU
Fuse rating. OVP DC ampacity shall not be lower than the PDU Fuse rating. For
newer FPFD PDU version A.204 with 40A label, a single DC cable is sufficient
and dual DC cable FPCA must not be used.
If the DC input cable is not connected yet, see Installing Flexi Multiradio 10 BTS Power
Distribution Sub-Module (FPFD) for details.
If cable entries are installed, remove them.
If you need to connect DC output cables to the FPFD front panel while it is running, turn
the power off from the control panel. See Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) control panel for details.
42
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
1
Loosen the screw terminals on the FPFD front panel with a TX25 tool.
Figure 42
2
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Loosening FPFD screw terminals
Strip 10 mm of insulation off the DC output cable and wrap the exposed wires
with tape in order not to break the IP boot.
The cable size is range is 6 to 16 mm2 (10 to 6 AWG).
Figure 43
Issue: 12
Wrapping tape around wires
DN09107822
43
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
3
Cut the tip of the IP boot with scissors according to your cable size.
4
Insert the taped end of the cable to the IP boot.
Figure 44
5
6
44
Inserting cable to IP boot
Remove the tape.
Figure 45
f
Cabling Flexi Multiradio 10 Base Station
Removing tape
Insert the cable to the screw terminal and make sure that the polarity of the
wires is correct.
WARNING! Risk of power supply failure and, in rare cases, of short
circuit.
Make sure that the polarity is correct according to the markings on the cable.
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
Figure 46
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
Connecting FPFD DC output cable wires
- +
7
Tighten the screw terminals to 3.0 Nm (2.21 ft-lb).
Make sure that the DC cable is not bent to the left or right in order to avoid tension to
the DC output terminals.
Figure 47
Issue: 12
Tightening FPFD screw terminals
DN09107822
45
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
8
Cabling Flexi Multiradio 10 Base Station
Fix the IP boot in place.
Figure 48
Fixing IP boot
- +
9
w
w
46
Repeat steps 2 to 8 as many times as necessary.
Do not cut the IP gaskets even when no cable is connected.
All the DC ports should be covered with IP boots, even when unused, as
shown in Figure 49: FPFD with IP boots installed.
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
Figure 49
Issue: 12
Connecting Flexi Multiradio 10 BTS Power Distribution
Sub-Module (FPFD) cabling
FPFD with IP boots installed
DN09107822
47
Connecting Flexi Multiradio 10 BTS optional
Transmission Sub-Module (FTIF) cabling
Cabling Flexi Multiradio 10 Base Station
3 Connecting Flexi Multiradio 10 BTS optional
Transmission Sub-Module (FTIF) cabling
Before you start
w
w
NOTICE: Incorrect cables and seals may not provide appropriate ingress
protection. Use only tested IP65 class outdoor cables with seals provided by
NSN. This is required for both indoor and outdoor installations, including the
outdoor cabinet.
NOTICE: If the SFP module is hot swapped a site reset is required.
Summary
Figure 50
Connecting FTIF cabling
IfusingOPT Ifs:
2
1
7
6
4
3
8
48
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
1
Connecting Flexi Multiradio 10 BTS optional
Transmission Sub-Module (FTIF) cabling
Remove IP seals from the relevant transmission sub-module ports.
Store the seals for later use.
2
If using the optical interfaces, insert SFP modules to the EIF1 and EIF2 ports.
Use only recommended SFP modules.
w
NOTICE: If the SFP module is hot swapped a site reset is required.
3
Route a transmission cable through the cable entry.
4
Pull back the connector seal covering the transmission cable connector.
5
If using the optical interfaces, clean the optical cables before connecting them.
See Connecting internal optical cables for instructions.
6
Connect the cable to the transmission sub-module.
7
Push the cable connector seal firmly in place.
8
Coil up the excess cable and fix it on the module casing with cable ties.
9
Repeat steps 3-8 for all the transmission cables required for your
configuration.
10 Make sure that all the connector seals are properly installed.
Issue: 12
DN09107822
49
Connecting Flexi Multiradio 10 BTS Capacity Extension
Sub-Module (FBBA) cabling
Cabling Flexi Multiradio 10 Base Station
4 Connecting Flexi Multiradio 10 BTS Capacity
Extension Sub-Module (FBBA) cabling
Before you start
w
NOTICE: Incorrect cables and seals may not provide appropriate ingress
protection. Use only tested IP65 class outdoor cables with seals provided by
NSN. This is required for both indoor and outdoor installations, including the
outdoor cabinet.
1
Remove IP seals from the FBBA ports that you are going to use.
Store the seals for later use.
Figure 51
2
Removing FBBA IP seals
Connect the power cable (995297) from the DC out port on the FSMx core to
the DC in port on the FBBA front panel.
Make sure it clicks into place.
Figure 52
50
Connecting power cable
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
3
Push the connector seals firmly in place.
4
If using two FBBA sub-modules, chain the power cable from the DC out port of
the first FBBA to the DC in port of the second FBBA.
Figure 53
w
Connecting Flexi Multiradio 10 BTS Capacity Extension
Sub-Module (FBBA) cabling
Chaining power cable
5
Push the connector seals firmly in place.
6
Connect a QSFP cable (995298) from the BB EXT1 port on the FSMx core to the
BB EXT port on the FBBA front panel.
NOTICE: Make sure the power cable is connected before connecting the
QSFP cable.
Make sure it clicks into place.
Figure 54
Issue: 12
Connecting QSFP cable
DN09107822
51
Connecting Flexi Multiradio 10 BTS Capacity Extension
Sub-Module (FBBA) cabling
7
Push the connector seals firmly in place.
8
If using two FBBA sub-modules, connect a QSFP cable (995298) from the BB
EXT2 port on the FSMx core to the BB EXT port of the second FBBA.
Figure 55
52
Cabling Flexi Multiradio 10 Base Station
Connecting second QSPF cable
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
9
Connecting Flexi Multiradio 10 BTS Capacity Extension
Sub-Module (FBBA) cabling
Push the connector seals firmly in place.
10 Make sure that all the connector seals are properly installed.
11 If applicable, install a front cover on the FSMx.
w
Issue: 12
NOTICE: Do not break the maximum bending radius of 40 mm (1.57 in.) for
the QSFP cables. Bend the cables upwards as shown in
Figure 56: Bending the QSFP cables (1) and
Figure 57: Bending the QSFP cables (2), ensuring that the outer edges of
the cables are within the front cover inner dimensions.
Figure 56
Bending the QSFP cables (1)
Figure 57
Bending the QSFP cables (2)
DN09107822
53
Connecting Flexi Multiradio 10 BTS Capacity Extension
Sub-Module (FBBC) cabling
Cabling Flexi Multiradio 10 Base Station
5 Connecting Flexi Multiradio 10 BTS Capacity
Extension Sub-Module (FBBC) cabling
Before you start
w
NOTICE: Incorrect cables and seals may not provide appropriate ingress
protection. Use only tested IP65 class outdoor cables with seals provided by
NSN. This is required for both indoor and outdoor installations, including the
outdoor cabinet.
1
Remove IP seals from the DC power cable and FBBC ports that you are going
to use.
Store the seals for later use.
Figure 58
2
Removing FBBC IP seals
Follow steps below to connect the DC power cable:
Figure 59
Connecting power cable
A
C
B
a) Connect the cable to the DC out port on the FSMx core.
w
54
Install the DC cable so that text "This side up" is facing upwards.
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
Connecting Flexi Multiradio 10 BTS Capacity Extension
Sub-Module (FBBC) cabling
b) If using two FBBC sub-modules, connect the cable to the DC IN port of the
right FBBC sub-module.
w
If using only one FBBC sub-module, leave the protective cap on the
unused power connector of the DC power cable.
c) Connect the cable to the DC IN port of the left FBBC sub-module.
w
3
Push the connector seals firmly in place.
4
Connect a QSFP cable (995298) from the BB EXT1 port on the FSMx core to the
BB EXT port on the FBBC front panel.
NOTICE: Make sure the power cable is connected before connecting the
QSFP cable.
Make sure it clicks into place.
Figure 60
Issue: 12
Connecting QSFP cable
DN09107822
55
Connecting Flexi Multiradio 10 BTS Capacity Extension
Sub-Module (FBBC) cabling
5
Push the connector seals firmly in place.
6
If using two FBBC sub-modules, connect a QSFP cable (995298) from the BB
EXT2 port on the FSMx core to the BB EXT port of the second FBBC.
Figure 61
56
Cabling Flexi Multiradio 10 Base Station
Connecting second QSFP cable
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
w
Issue: 12
Connecting Flexi Multiradio 10 BTS Capacity Extension
Sub-Module (FBBC) cabling
7
Push the connector seals firmly in place.
8
Make sure that all the connector seals are properly installed.
9
If applicable, install a front cover on the FSMx.
NOTICE: Do not break the maximum bending radius of 40 mm (1.57 in.) for
the QSFP cables. Bend the cables upwards as shown in
Figure 62: Bending the QSFP cables (1) and
Figure 63: Bending the QSFP cables (2), ensuring that the outer edges of
the cables are within the front cover inner dimensions.
Figure 62
Bending the QSFP cables (1)
Figure 63
Bending the QSFP cables (2)
DN09107822
57
Checklist for cabling Flexi Multiradio 10 BTS
Cabling Flexi Multiradio 10 Base Station
6 Checklist for cabling Flexi Multiradio 10 BTS
Work phase
Checked
Grounding cable is connected.
Internal power cables are connected.
Optical cables are cleaned and connected.
Transmission cables are connected.
Optional cables are connected.
All cable connector seals are firmly in place.
Unused connectors are covered with IP seals.
Only NSN provided cables are used.
Module front panel covers are installed.
58
DN09107822
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Cabling Flexi Multiradio 10 Base Station
Appendices
7 Appendices
7.1 Contents of the Flexi Multiradio 10 BTS optical
cable deliveries
The Flexi Multiradio 10 BTS exemplary optical cables are listed in Table 2: Optical cable
deliveries.
Table 2
Issue: 12
Optical cable deliveries
Cable type
Product code
Description
FSFO Flexi System Fibre
HF 2 m
471851A
Halogen free, 2 LC
connectors and 2 rubber
gaskets
FSFD Flexi System Fibre D 471743A
4m
2 LC connectors and 2
rubber gaskets
FSFF Flexi System Fibre F
10 m
471707A
2 LC connectors and 2
rubber gaskets
FSFG Flexi System Fibre G 471708A
20 m
2 LC connectors and 2
rubber gaskets
FSFH Flexi System Fibre H 471709A
30 m
2 LC connectors and 2
rubber gaskets
FSFI Flexi System Fibre I
40 m
471710A
2 LC connectors and 2
rubber gaskets
FSFB Flexi System Fibre B 471395A
50 m
2 LC connectors and 2
rubber gaskets
FSFQ Flexi System Fibre
HF 50 m
Halogen free, 2 LC
connectors and 2 rubber
gaskets
471852A
FSFK Flexi System Fibre K 471711A
75 m
2 LC connectors and 2
rubber gaskets
FSFC Flexi System Fibre C 471396A
100 m
2 LC connectors and 2
rubber gaskets
FSFP Flexi System Fibre P 471712A
200 m
2 LC connectors and 2
rubber gaskets
DN09107822
59
Appendices
Cabling Flexi Multiradio 10 Base Station
7.2 Contents of the Flexi Multiradio 10 BTS optical
transceiver deliveries
The Flexi Multiradio 10 BTS exemplary optical transceivers are listed in Table 3: Optical
transceiver deliveries.
Table 3
Optical transceiver deliveries
Cable type
Product code
Description
FOSD Flexi Optical
Telecom SFP GbE 850nm
MM
471881A
SFP Transceiver
1000Base-SX Ethernet,
wave-length 850nm, short
haul
FOSC Flexi Optical
471880A
Telecom SFP GbE 1310nm
SFP Transceiver
1000Base-LX Ethernet,
Wavelength 1310nm,
suitable e.g. for FTCH, long
haul
7.3 Contents of the Flexi Multiradio 10 BTS
transmission cable deliveries
The Flexi Multiradio 10 BTS exemplary transmission cables are listed in Table 4:
Transmission cable deliveries.
Table 4
60
Transmission cable deliveries
Cable type
Product code
Description
FTCY OD Cable RJ48C
CAT7 15 m
472427A
Dual twisted pair cable for
2xE1, one end with RJ48C
and rubber gasket
FTCB OD Cable RJ48C
120ohm 15 m
470309A
Twisted pair cable for 1xE1,
one end with RJ48C and
rubber gasket
FTCV OD Cable RJ48C
120ohm 30 m
471713A
Twisted pair cable for 1xE1,
one end with RJ48C and
rubber gasket
FTCX OD Cable RJ48C
120ohm 50 m
471714A
Twisted pair cable for 1xE1,
one end with RJ48C and
rubber gasket
DN09107822
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Cabling Flexi Multiradio 10 Base Station
Table 4
Appendices
Transmission cable deliveries (Cont.)
Cable type
Product code
Description
FTCH OD Cable LC SM
1310 15 m
470311A
Optical fiber with 2xLC
connector and one rubber
gasket
FTCR OD Cable RJ45
CAT5E 15 m
471408A
Twisted pair cable for GE,
one end with RJ45 and
rubber gasket
FTCS OD Cable RJ45
CAT5E 30 m
471717A
Twisted pair cable for GE,
one end with RJ45 and
rubber gasket
FTCT OD Cable RJ45
CAT5E 50 m
471718A
Twisted pair cable for GE,
one end with RJ45 and
rubber gasket
FTCL OD Cable RJ48CRJ48C 120ohm 4 m
472348A
Twisted pair cable for 1xE1,
both ends with RJ48C and
rubber gaskets
FTCW OD Cable RJ45RJ45 CAT5E 4 m
472347A
Twisted pair cable for GE,
both ends with RJ45 and
rubber gaskets
FTCA OD Cable RJ48C TQ-M/0 120ohm 5 m
470312A
Pre-fabricated co-location
cable for UltraSite, RJ48C
to TQ connector, for 1xE1
with one rubber gasket
7.4 Contents of the Flexi Multiradio 10 BTS
synchronization cable deliveries
The Flexi Multiradio 10 BTS exemplary synchronization cables are listed in Table 5: Sync
cable deliveries.
Table 5
Issue: 12
Sync cable deliveries
Cable type
Product code
Description
FTSF Sync Cable F
472509A
2 x HDMI connector with
rubber gaskets to connect
Sync In/Out ports of
collocated FSMF
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Appendices
Cabling Flexi Multiradio 10 Base Station
Table 5
Sync cable deliveries (Cont.)
Cable type
Product code
Description
FTSG Sync Cable G
472576A
S1 x HDMI and one
MDR14 connector with
rubber gaskets to connect
FSMF Sync In to e.g.
FSME Sync Out port
7.5 EAC cable (FTSI 472578A) wiring
Table 6
EAC cable (FTSI) wiring
Conn. 1 (HDMI) Conn. 2 (D37)
62
Pair: wire color
Description
Pin no.
Pin no.
1
7
1: Black
EXT_AL0_H
2
8
2: Brown
EXT_AL1_H
3
9
1: White/Black
EXT_AL2_H
4
10
2: White/ Brown
EXT_AL3_H
5
11
3: Red
EXT_AL4_H
6
12
4: Orange
EXT_AL5_H
7
1 + 13
3: White/Red
EXT_CTRL0_EXT_AL
6_H
8
2 + 14
4: White/Orange
EXT_CTRL1_EXT_AL
7_H
9
3 + 15
5: Yellow
EXT_CTRL2_EXT_AL
8_H
10
4 + 16
6: Green
EXT_CTRL3_EXT_AL
9_H
11
5 + 17
5: White/Yellow
EXT_CTRL4_EXT_AL
10_H
12
6 + 18
6: White/Green
EXT_CTRL5_EXT_AL
11_H
13
19
7: Blue
P5V0_EAC
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
Table 6
Appendices
EAC cable (FTSI) wiring (Cont.)
Conn. 1 (HDMI) Conn. 2 (D37)
Pair: wire color
Description
Pin no.
Pin no.
14
20
7: White/Blue
P5V0_EAC
15
23
8: Violet
PROT_CAN_H_P5V_
EAC
16
27
9: Grey
GND
17
24
8: White/Violet
PROT_CAN_L_P5V_
EAC
18
25
10: Pink
GND
19
28
9: White/Grey
GND
7.6 Flexi Multiradio 10 BTS Power Distribution SubModule (FPFD) control panel
The control panel is located on the front panel of the Flexi Multiradio 10 BTS Power
Distribution Sub-Module (FPFD). There are five LEDs for the corresponding output ports,
and two push buttons for the ON/OFF functionality of the the outputs.
Figure 64
FPFD control panel
RF1 RF2 RF3 RF4 SYS
SELECT
Issue: 12
SET
DN09107822
63
Appendices
Cabling Flexi Multiradio 10 Base Station
Table 7
FPFD LED indications
LED color
Function of the
output
Fault caused by
No color
Output is disabled
-
Yellow
Stand-by, output
disabled
Overload, over
temperature or short
circuit > Automatic
restart
Waiting for retry
Green
Normal operation,
output enabled
-
Red
Fault, output disabled
Overload or short
circuit > Remains
OFF after fault
Blinking red
Fuse #1 will remain
disabled. Fuse #2 to
fuse #5 only signaling
function.
Reverse polarity or
“feed-in” into output
All blinking red
All outputs disabled
after power on
Internal hardware
failure indication
Blinking yellow
Remote controlled,
output disabled
-
Blinking blue
Selection phase
active
-
No function (neutral):
Pushing the SET button outside the selection phase does not do anything.
Entering selection phase (neutral):
Pushing the SELECT button enters or resumes the selection phase. Starting at the
leftmost position (RF1) the LED starts blinking in blue color (blue color is not used for
any other kind of signaling). With each additional push on the SELECT button the
blinking position moves forward from the left to right position in a circular way. The
selection phase ends automatically after three seconds when no button has been
pushed within this time frame.
Changing output state:
Pushing the SET button during the selection phase toggles the selected (blinking blue)
output state. As long as the selection phase is active you can toggle the output state with
each push on the SET button. When toggling the output state to ON the selection phase
is extended to five seconds to give the user enough time to toggle to OFF again (in case
of target device malfunction).
64
DN09107822
Issue: 12
Cabling Flexi Multiradio 10 Base Station
Appendices
Restrictions:
The SET push button can be re-routed to the System Module. This allows the System
Module to judge over the ON/OFF functionality via the push button. Default setup is “no
re-routing”.
Via priority controlling in FPFD it can be prohibited to alter an output state via the push
button when a higher priority “access line” has taken over the control for a specific
output. Default setup is “all access lines have the same priority level”.
Only implemented or detected outputs can be selected via the SELECT button.
Issue: 12
DN09107822
65
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