OptiX OSN 3500 Intelligent Optical TransmissionSystemV100&V200
Installation Guide
Issue 15
Date 2013-06-30
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2013. All rights reserved.No part of this document may be reproduced or transmitted in any form or by any means without prior writtenconsent of Huawei Technologies Co., Ltd. Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.All other trademarks and trade names mentioned in this document are the property of their respective holders. NoticeThe purchased products, services and features are stipulated by the contract made between Huawei and thecustomer. All or part of the products, services and features described in this document may not be within thepurchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information,and recommendations in this document are provided "AS IS" without warranties, guarantees or representationsof any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in thepreparation of this document to ensure accuracy of the contents, but all statements, information, andrecommendations in this document do not constitute a warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.Address: Huawei Industrial Base
Bantian, LonggangShenzhen 518129People's Republic of China
Website: http://www.huawei.com
Email: [email protected]
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About This Document
Related VersionsThe following table lists the product versions related to this document.
Product Name Version
OptiX OSN 3500 V100&V200
Intended AudienceThis document describes the installation procedure of the OptiX OSN 3500, including theinstallation of the cabinet, subrack, components, and cables. This document also provides thegrounding specifications. This documents describes the method and flowchart for installing theOptiX OSN 3500.
The intended audiences of this document are hardware installation engineers and commissioningengineers.
Symbol ConventionsThe symbols that may be found in this document are defined as follows.
Symbol Description
DANGERDANGER indicates a hazard with a high level or mediumlevel of risk which, if not avoided, could result in death orserious injury.
WARNINGWARNING indicates a hazard with a low level of risk which,if not avoided, could result in minor or moderate injury.
CAUTIONCAUTION indicates a potentially hazardous situation that,if not avoided, could result in equipment damage, data loss,performance deterioration, or unanticipated results.
TIP Provides a tip that may help you solve a problem or save time.
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Symbol Description
NOTE Provides additional information to emphasize or supplementimportant points in the main text.
GUI ConventionsThe GUI conventions that may be found in this document are defined as follows.
Convention Description
Boldface Buttons, menus, parameters, tabs, window, and dialog titlesare in boldface. For example, click OK.
> Multi-level menus are in boldface and separated by the ">"signs. For example, choose File > Create > Folder.
Change HistoryUpdates between document issues are cumulative. Therefore, the latest document issue containsall updates made in previous issues.
Updates in Issue 15 (2013-06-30) Based on Product VersionV100&V200
This document of the V100&V200 version is of the fifteenth release. Compared with Issue 14,Issue 15 includes the following updates in V100R010C03SPC208:
"Installing the UPM Power System" is optimized.
"Operating Environment Requirements" is optimized.
Updates in Issue 14 (2012-10-31) Based on Product VersionV100&V200
This document of the V100&V200 version is of the fourteenth release. Compared with thedocument of the twelveth release, this release has the following new or optimized contents:
"Installing the UPM Power System" is optimized.
"Powering on the Equipment" is optimized.
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Updates in Issue 13 (2012-07-31) Based on Product VersionV100&V200
This document of the V100&V200 version is of the thirteenth release. Compared with thedocument of the twelveth release, this release has the following new or optimized contents:
"Installing Parts in the 19-inch Rack" is deleted.
"Installing Cables and Fibers in the 19-inch Rack" is deleted.
Updates in Issue 12 (2012-01-30) Based on Product VersionV100&V200
This document of the V100&V200 version is of the twelfth release. Compared with the documentof the eleventh release, this release has the following new or optimized contents:
The outer view and specifications of the EPS75-4815AF power system are optimized in"Installing the UPM Power System".
The "Installing Batteries" is added in "Installing Batteries and the EPS75-4815AF PowerSystem".
Updates in Issue 11 (2011-06-30) Based on Product VersionV100&V200
This document of the V100&V200 version is of the eleventh release. Compared with thedocument of the tenth release, this release has the following new or optimized contents:
"Cable Connection of the UPM" is optimized in "Installing the UPM Power System".
Updates in Issue 10 (2011-04-15) Based on Product VersionV100&V200
This document of the V100&V200 version is of the tenth release. Compared with the documentof the ninth release, this release has the following new or optimized contents:
"Installing the OptiX OSN Product Series in One Cabinet" is optimized.
Updates in Issue 09 (2011-01-25) Based on Product VersionV100&V200
This document of the V100&V200 version is of the ninth release. Compared with the documentof the eighth release, this release has the following new or optimized contents:
"Installing the OptiX OSN Product Series in One Cabinet" is optimized.
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Updates in Issue 08 (2010-07-20) Based on Product VersionV100&V200
This document of the V100&V200 version is of the eighth release. Compared with the documentof the seventh release, this release has the following new or optimized contents:
"About This Document" is optimized.
Updates in Issue 07 (2009-12-30) Based on Product VersionV100
This document of the V100 version is of the seventh release. Compared with the document ofthe sixth release, this release has the following new or optimized contents:
l "Mapping Policies of Power Consumption" is added.l "Checking Resistance Between the Power Input Terminals of the DC PDU" is added.l "Reinforcement Flow" is optimized.l "Installing the COA and DCM" is optimized.l "Installing the UPM Power System" is optimized.l "Power Jumpers on the GSCC" is optimized.l "Checking Fuse Currents of the Power Supply" is optimized.l "Powering on a Cabinet" is optimized.l "Subrack Position in the Cabinet" is optimized.
Updates in Issue 06 (2009-08-30) Based on Product VersionV100
This document of the V100 version is of the sixth release. Compared with the document of thefifth release, this release has the following new or optimized contents:
l "Affixing the Label to the IF Cables" is added in "Affix Labels".l "Engineering Labels for IF Cables" is added in "Frequently Used Engineering Labels".
Updates in Issue 05 (2009-07-28) Based on Product VersionV100
This document of the V100 version is of the fifth release. Compared with the document of thefourth release, this release has the following new or optimized contents:
A caution about covering the ventilation grid at the top of the subrack to prevent dust or foreignarticles from entering the subrack during the onsite implementation is added in "Unpacking theCabinet and Boards".
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Updates in Issue 04 (2009-06-30) Based on Product VersionV100
This document of the V100 version is of the fourth release. Compared with the document of thethird release, this release has the following new or optimized contents:
Fix several bugs in the manual of the previous version.
Updates in Issue 03 (2009-05-08) Based on Product VersionV100
This document of the V100 version is of the third release. Compared with the document of thesecond release, this release has the following new or optimized contents:
Fix several bugs in the manual of the previous version.
Updates in Issue 02 (2009-03-30) Based on Product VersionV100
This document of the V100 version is of the second release. Compared with the document ofthe first release, this release has the following new or optimized contents:
The figures of this document are optimized.
Fix several bugs in the document of the previous version.
Updates in Issue 01 (2009-01-20) Based on Product VersionV100
This document of the V100 version is of the first release.
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Contents
About This Document.....................................................................................................................ii
1 Safety Precautions.........................................................................................................................11.1 General Safety Precautions.............................................................................................................................................21.2 Warning and Safety Symbols.........................................................................................................................................31.3 Electrical Safety..............................................................................................................................................................41.4 Environment of Flammable Gas.....................................................................................................................................71.5 Storage Batteries.............................................................................................................................................................71.6 Radiation.........................................................................................................................................................................91.6.1 Safe Usage of Optical Fibers.......................................................................................................................................91.6.2 Electromagnetic Exposure.........................................................................................................................................111.6.3 Forbidden Areas........................................................................................................................................................111.6.4 Laser..........................................................................................................................................................................111.6.5 Microwave.................................................................................................................................................................121.7 Working at Heights.......................................................................................................................................................121.7.1 Hoisting Heavy Objects.............................................................................................................................................131.7.2 Using Ladders............................................................................................................................................................141.8 Mechanical Safety........................................................................................................................................................161.9 Other Precautions.........................................................................................................................................................17
2 Before You Start...........................................................................................................................192.1 Equipment Structure.....................................................................................................................................................202.2 Types of Cabinets.........................................................................................................................................................222.3 Mapping Policies of Power Consumption....................................................................................................................292.4 Required Documents and Tools...................................................................................................................................302.4.1 Technical Documents................................................................................................................................................312.4.2 Tools and Instruments...............................................................................................................................................312.5 Checking Installation Conditions.................................................................................................................................352.6 Unpacking the Equipment............................................................................................................................................352.6.1 Unpacking the Cabinet..............................................................................................................................................352.6.2 Unpacking the Subrack..............................................................................................................................................392.6.3 Unpacking Boards.....................................................................................................................................................402.6.4 Requirements of Inspection.......................................................................................................................................422.7 Checking the Equipment..............................................................................................................................................42
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3 Removing Doors of the Cabinet...............................................................................................44
4 Installing the Cabinet on the Antistatic Floor.......................................................................45
5 Installing the Cabinet on the Cement Floor...........................................................................46
6 Reinforcing the Cabinet.............................................................................................................476.1 Combining the Adjacent Cabinets................................................................................................................................486.2 Reinforcing the Cabinet to the Cabling Frame.............................................................................................................496.2.1 Reinforcement Flow..................................................................................................................................................496.2.2 Reinforcing the Cabinet by Method 2.......................................................................................................................506.2.3 Reinforcing the Cabinet by Method 4.......................................................................................................................526.3 Checking the Installation..............................................................................................................................................54
7 Installing the Cable Distribution Plate...................................................................................55
8 Installing the UPM Power System...........................................................................................568.1 Overview of the UPM Power System...........................................................................................................................578.1.1 Power System............................................................................................................................................................578.1.2 Storage Batteries........................................................................................................................................................598.1.3 Installation Position...................................................................................................................................................598.1.4 Power Cables and Management Cables.....................................................................................................................608.2 Installing Batteries and the EPS75-4815AF Power System.........................................................................................618.2.1 Installing Batteries.....................................................................................................................................................618.2.2 Installing the EPS75-4815AF Power System in the ETSI Cabinet...........................................................................628.3 Cable Connection of the UPM......................................................................................................................................63
9 Installing the COA and DCM...................................................................................................669.1 Installing the COA........................................................................................................................................................679.2 Installing the DCM.......................................................................................................................................................679.2.1 Overview of DCM and DCM Frame.........................................................................................................................679.2.2 Installing the DCM and DCM Frame........................................................................................................................679.2.3 Routing Optical Fibers for DCM...............................................................................................................................699.3 Checking the Installation..............................................................................................................................................70
10 Installing the Fiber Spool Box................................................................................................71
11 Installing a RPC Frame.............................................................................................................72
12 Checking the Power Jumpers on the Board..........................................................................7312.1 Checking Power Jumpers on the GSCC.....................................................................................................................7412.1.1 Power Jumpers on the GSCC..................................................................................................................................7412.1.2 Checking Power Jumpers on the GSCC..................................................................................................................8312.2 Checking Jumpers on the AUX..................................................................................................................................8512.2.1 Jumpers on the AUX...............................................................................................................................................8512.2.2 Checking Jumpers on the AUX...............................................................................................................................86
13 Installing and Routing the Cables.........................................................................................89
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13.1 Instructions for Cable Routing...................................................................................................................................9013.2 Checking the Cable Installation..................................................................................................................................93
14 Installing and Routing Fiber Jumpers...................................................................................9514.1 Fiber Jumpers.............................................................................................................................................................9614.2 Instructions for Fiber Jumper Routing........................................................................................................................9714.3 Checking the Fiber Jumper Installation....................................................................................................................100
15 Installing the Orderwire Phone............................................................................................101
16 Installing Doors of the Cabinet............................................................................................10216.1 Affixing the Cabinet Labels.....................................................................................................................................10316.1.1 Cabinet Labels.......................................................................................................................................................10316.1.2 Locating the Cabinet and Affixing the Label........................................................................................................10316.2 Checking the Doors Installation...............................................................................................................................104
17 Hardware Installation Checklist.......................................................................................... 10517.1 Checking the Cabinet................................................................................................................................................10617.2 Checking the Subrack...............................................................................................................................................10717.3 Checking the Board..................................................................................................................................................10717.4 Checking the Cable Routing.....................................................................................................................................10817.5 Checking the Fiber Jumper Installation....................................................................................................................10917.6 Checking the UPM Power System...........................................................................................................................109
18 Powering on the Equipment..................................................................................................11118.1 Checking Fuse Currents of the Power Supply..........................................................................................................11318.2 Checking Resistance Between the Power Input Terminals of the DC PDU............................................................11318.3 Powering on a Cabinet..............................................................................................................................................11918.4 Powering On the Subrack.........................................................................................................................................12018.4.1 Subrack Power Switch...........................................................................................................................................12018.4.2 Powering on a Subrack..........................................................................................................................................12118.5 Observing the Fan Running Status...........................................................................................................................122
19 Checking Fiber Jumper Connection.................................................................................... 12519.1 Using External and Stable Optical Source for the Check.........................................................................................12619.2 Using the Optical Interface Board for the Check.....................................................................................................127
20 Installing the Subrack and the Boards................................................................................13020.1 Installing the Subrack...............................................................................................................................................13120.1.1 Subrack Position in the Cabinet.............................................................................................................................13120.1.2 Installing the Subrack into the Cabinet..................................................................................................................13320.2 Installing the Boards.................................................................................................................................................13420.3 Removing the Boards...............................................................................................................................................13720.4 Checking the Subrack and the Boards Installation...................................................................................................138
21 Operating Environment Requirements...............................................................................13921.1 Equipment Room Environment Requirements.........................................................................................................141
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21.2 Layout of the Equipment Room...............................................................................................................................14221.3 Construction of an Equipment Room.......................................................................................................................14221.4 Cleanliness of an Equipment Room.........................................................................................................................14421.5 Temperature and Humidity.......................................................................................................................................14521.6 Corrosive Gas Control Requirements.......................................................................................................................14621.7 Electromagnetic Requirements.................................................................................................................................14721.8 ESD Protection.........................................................................................................................................................14721.9 Lightening Protection and Grounding Requirements...............................................................................................14821.10 Requirements for the Power Supply.......................................................................................................................15021.11 Lighting in the Equipment Room...........................................................................................................................15321.12 Protection System...................................................................................................................................................154
22 Grounding Specifications......................................................................................................15722.1 General Grounding Specifications............................................................................................................................15822.2 Grounding Specifications for the Building...............................................................................................................15822.3 Equipment Grounding Specifications.......................................................................................................................15822.4 Grounding Specifications for Office Power.............................................................................................................15922.5 Grounding Specifications for Signal Cables............................................................................................................16022.6 Specifications for Managing Ground Cables............................................................................................................160
23 Requirements of Cabling and Bundling.............................................................................16223.1 Requirements of Cabling..........................................................................................................................................16323.2 Requirements for Cable Bundling............................................................................................................................163
24 Engineering Labels..................................................................................................................16524.1 Introduction to Labels...............................................................................................................................................16624.1.1 Material..................................................................................................................................................................16624.1.2 Type and Shape.....................................................................................................................................................16624.2 Information Carried on Labels.................................................................................................................................16724.2.1 Labels for Power Cables........................................................................................................................................16724.2.2 Labels for Signal Cables........................................................................................................................................16724.2.3 Remarks.................................................................................................................................................................16824.3 Filling Information on Labels...................................................................................................................................16824.3.1 Printing Labels.......................................................................................................................................................16824.3.2 Writing Labels.......................................................................................................................................................17124.4 Affixing Labels.........................................................................................................................................................17224.4.1 Affixing the Label to the Signal Cable..................................................................................................................17224.4.2 Affixing the Label to the Power Cable..................................................................................................................17324.4.3 Affixing the Label to the IF Cables.......................................................................................................................17324.5 Frequently Used Engineering Labels.......................................................................................................................17424.5.1 Engineering Labels for Power Cables...................................................................................................................17424.5.2 Engineering Labels for External Cables of Alarm Box.........................................................................................17524.5.3 Engineering Labels for Ethernet Cables................................................................................................................17624.5.4 Engineering Labels of the Fibers Between Two Devices......................................................................................177
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24.5.5 Labels for the Fiber that Connects the Device and the ODF.................................................................................17824.5.6 Engineering Labels for Trunk Cables ...................................................................................................................18024.5.7 Engineering Labels for Subscriber Cables ...........................................................................................................18224.5.8 Engineering Labels for IF Cables..........................................................................................................................183
25 Binding Strap........................................................................................................................... 18525.1 Binding Strap............................................................................................................................................................18625.1.1 Architecture...........................................................................................................................................................18625.1.2 Cutting...................................................................................................................................................................18625.2 Bundling Fibers by Using the Binding Strap............................................................................................................18725.2.1 Procedures for Bundling the Fibers.......................................................................................................................18825.2.2 Expected Result.....................................................................................................................................................18925.2.3 Precautions.............................................................................................................................................................189
26 Making and Testing Cable Connectors...............................................................................19026.1 Making the Connector for the Coaxial Cable...........................................................................................................19126.1.1 Straight BNC Male Connector..............................................................................................................................19126.1.2 L9 Male Connector................................................................................................................................................19526.1.3 Straight SMB Female Connector...........................................................................................................................19926.2 Testing Cable Connectivity......................................................................................................................................203
27 Installing the OptiX OSN Product Series in One Cabinet..............................................20527.1 Subrack Combination in One Cabinet......................................................................................................................20627.2 Desriptions of Cabinet-Sharing Installation.............................................................................................................20727.2.1 Preparations...........................................................................................................................................................20727.2.2 Descriptions of Installation Process......................................................................................................................210
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1 Safety Precautions
About This Chapter
This topic provides the safety guidelines during the equipment commissioning. The safetyguidelines include the personal safety regulations and equipment operating regulations. Ensurethat the regulations are strictly followed to prevent personal injury and damage to the equipmentwhen you operate the equipment.
1.1 General Safety PrecautionsThis topic describes essential safety precautions that instruct you in the selection of measuringand testing instruments when you install, operate, and maintain Huawei devices.
1.2 Warning and Safety SymbolsBefore using the equipment, note the following warning and safety symbols on the equipment.
1.3 Electrical SafetyThis topic describes safety precautions for high voltage, lightning strikes, high leakage current,power cables, fuses, and ESD.
1.4 Environment of Flammable GasThis topic describes safety precautions for the operating environment of a device.
1.5 Storage BatteriesThis topic describes safety precautions for operations of storage batteries.
1.6 RadiationThis topic describes safety precautions for electromagnetic exposure and lasers.
1.7 Working at HeightsThis topic describes safety precautions for working at heights.
1.8 Mechanical SafetyThis topic describes safety precautions for drilling holes, handling sharp objects, operating fans,and carrying heavy objects.
1.9 Other PrecautionsThis topic describes safety precautions for removing and inserting boards, binding signal cables,and routing cables.
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1.1 General Safety PrecautionsThis topic describes essential safety precautions that instruct you in the selection of measuringand testing instruments when you install, operate, and maintain Huawei devices.
All Safety PrecautionsTo ensure the safety of humans and a device, follow the marks on the device and all the safetyprecautions in this document when installing, operating, and maintaining a device.
The "CAUTION", "WARNING", and "DANGER" marks in this document do not cover all thesafety precautions that must be followed. They are supplements to the safety precautions.
Local Laws and RegulationsWhen operating a device, always comply with the local laws and regulations. The safetyprecautions provided in the documents are in addition/supplementary to the local laws andregulations.
Basic Installation RequirementsThe installation and maintenance personnel of Huawei devices must receive strict training andbe familiar with the proper operation methods and safety precautions before any operation.
l Only trained and qualified personnel are permitted to install, operate, and maintain a device.l Only certified professionals are permitted to remove the safety facilities, and to troubleshoot
and maintain the device.l Only the personnel authenticated or authorized by Huawei are permitted to replace or
change the device or parts of the device (including software).l The operating personnel must immediately report the faults or errors that may cause safety
problems to the person in charge.
Grounding RequirementsThe grounding requirements are applicable to the device that needs to be grounded.
l When installing the device, always connect the grounding facilities first. When removingthe device, always disconnect the grounding facilities last.
l Ensure that the grounding conductor is intact.l Do not operate the device in the absence of a suitably installed grounding conductor.l The device must be connected to the PGND permanently. Before operating the device,
check the electrical connections of the device, and ensure that the device is properlygrounded.
Human Safetyl When there is a risk of a lightning strike, do not operate the fixed terminal or touch the
cables.l When there is risk of a lightning strike, unplug the AC power connector. Do not use the
fixed terminal or touch the terminal or antenna connector.
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NOTEThe preceding requirements apply to wireless fixed station terminals.
l To avoid electric shocks, do not connect safety extra-low voltage (SELV) circuits totelephone-network voltage (TNV) circuits.
l Do not look into optical ports without eye protection. Otherwise, human eyes may be hurtby laser beams.
l Before operating the device, wear an ESD protective coat, ESD gloves, and an ESD wriststrap. In addition, you need to get off the conductive objects, such as jewelry and watches,to prevent electric shock and burn.
l In case of fire, escape from the building or site where the device is located and press thefire alarm bell or dial the telephone number for fire alarms. Do not enter the burning buildingagain in any situation.
Device Safetyl Before any operation, install the device firmly on the ground or other rigid objects, such as
on a wall or in a rack.l When the system is working, ensure that the ventilation hole is not blocked.l When installing the front panel, use a tool to tighten the screws firmly, if required.l After installing the device, clean up the packing materials.
1.2 Warning and Safety SymbolsBefore using the equipment, note the following warning and safety symbols on the equipment.
Table 1-1 lists the warning and safety symbols of the OptiX OSN equipment and their meanings.
Table 1-1 Warning and safety symbols of the OptiX OSN equipment
Symbol Indication
This symbol is for anti-static protection.A notice with this symbol indicates that youshould wear an ESD wrist strap or glove whenyou touch a board. Otherwise, you may causedamage to the board.
CLASS 1LASER
PRODUCT
LASERRADIATION
DO NOT VIEW DIRECTLYWITH OPTICALINSTRUMENTS
CLASS 1M LASERPRODUCT
This symbol is for the laser class.A notice with this symbol indicates the classof the laser. Avoid direct exposure to the laserbeams. Otherwise, it may damage you eyes orskin.
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Symbol Indication
A notice with this symbol indicates where thesubrack is grounded.
ATTENTION 警告
CLEAN PERIODICALLY定期清洗
A notice with this symbol indicates that theair filter should be cleaned periodically.
严禁在风扇高速旋转时接触叶片
DON'T TOUCH THEFAN LEAVES BEFORETHEY SLOW DOWN !
This symbol is for fan safety.A notice with this symbol indicates that thefan leaves should not be touched when the fanis rotating.
! APDReceiver
MAX:-9dBm
A notice with the APD symbol indicates thatthe overload value of an optical interface is -9dBm.
1.3 Electrical SafetyThis topic describes safety precautions for high voltage, lightning strikes, high leakage current,power cables, fuses, and ESD.
High Voltage
DANGERl A high-voltage power supply provides power for device operations. Direct human contact
with the high voltage power supply or human contact through damp objects can be fatal.l Unspecified or unauthorized high voltage operations could result in fire or electric shock, or
both.
ThunderstormThe requirements apply only to wireless base stations or devices with antennas and feeders.
DANGERDo not perform operations on high voltage, AC power, towers, or backstays in stormy weatherconditions.
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High Leakage Current
WARNINGBefore powering on a device, ground the device. Otherwise, the safety of humans and the devicecannot be ensured.
If a high leakage current mark is labeled near the power connector of the device, you mustconnect the PGND terminal on the shell to the ground before connecting the device to an A/Cinput power supply. This is to prevent the electric shock caused by leakage current of the device.
Power Cables
DANGERDo not install or remove the power cable with a live line. Transient contact between the core ofthe power cable and the conductor may generate electric arc or spark, which may cause fire oreye injury.
l Before installing or removing power cables, you must power off the device.
l Before connecting a power cable, you must ensure that the label on the power cable iscorrect.
Device with Power On
DANGERInstalling or removing a device is prohibited if the device is on.
Short Circuits
When installing and maintaining devices, place and use the associated tools and instruments inaccordance with regulations to avoid short-circuits caused by metal objects.
CAUTIONTo avoid short-circuits when using a tool (such as a screwdriver), do not place the tool on theventilation plate of the subrack.
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CAUTIONPrevent any screws from dropping into the subrack or chassis to avoid short-circuits.
Fuse
WARNINGIf the fuse on a device blows, replace the fuse with a fuse of the same type and specifications toensure safe operation of the device.
Electrostatic Discharge
CAUTIONThe static electricity generated by the human body may damage the electrostatic sensitivecomponents on the board, such as the large-scale integrated circuit (LSI).
l The human body can generate static electromagnetic fields in the following situations:physical movement, clothing friction, friction between shoes and the ground, plastics inthe hand. Such static electromagnetic effects can remain for an appreciable time.
l Before operating a device, circuit boards, or ASICs, wear an ESD wrist strap that is properlygrounded. The ESD wrist strap can prevent the electrostatic-sensitive components frombeing damaged by the static electricity in the human body.
Figure 1-1 shows the method of wearing an ESD wrist strap.
Figure 1-1 Wearing an ESD wrist strap
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1.4 Environment of Flammable GasThis topic describes safety precautions for the operating environment of a device.
DANGERDo not place or operate devices in an environment of flammable or explosive air or gas.
Operating an electronic device in an environment of flammable gas causes a severe hazard.
1.5 Storage BatteriesThis topic describes safety precautions for operations of storage batteries.
DANGERBefore operating a storage battery, you must read the safety precautions carefully and be familiarwith the method of connecting a storage battery.
l Incorrect operations of storage batteries cause hazards. During operation, prevent any short-circuit, and prevent the electrolyte from overflowing or leakage.
l If the electrolyte overflows, it causes potential hazards to the device. The electrolyte maycorrode metal parts and the circuit boards, and ultimately damage the circuit boards.
l A storage battery contains a great deal of energy. Misoperations may cause a short-circuit,which leads to human injuries.
Basic PrecautionsTo ensure safety, note the following points before installing or maintaining the storage battery:
l Use special insulation tools.l Wear an eye protector and take effective protection measures.l Wear rubber gloves and a protection coat to prevent the hazard caused by the overflowing
electrolyte.l When handling the storage battery, ensure that its electrodes are upward. Leaning or
reversing the storage battery is prohibited.l Before installing or maintaining the storage battery, ensure that the storage battery is
disconnected from the power supply that charges the storage battery.
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Short-Circuit
DANGERA battery short-circuit may cause human injuries. Although the voltage of an ordinary batteryis low, the instantaneous high current caused by a short-circuit emits a great deal of energy.
Avoid any short-circuit of batteries caused by metal objects. If possible, disconnect the workingbattery before performing other operations.
Hazardous Gas
CAUTIONDo not use any unsealed lead-acid storage battery. Lay a storage battery horizontally and fix itproperly to prevent the battery from emitting flammable gas, which may cause fire or deviceerosion.
Working lead-acid storage batteries emit flammable gas. Therefore, ventilation and fireproofingmeasures must be taken at the sites where lead-acid storage batteries are placed.
Battery Temperature
CAUTIONIf a battery overheats, the battery may be deformed or damaged, and the electrolyte mayoverflow.
When the temperature of the battery is higher than 60°C, you need to check whether theelectrolyte overflows. If the electrolyte overflows, take appropriate measures immediately.
Battery Leakage
CAUTIONIn the event of acid overflow or spillage, neutralize the acid and clean it up appropriately.
When handling a leaky battery, protect against the possible damage caused by the acid. Whenyou find the electrolyte leaks, you can use the following substances to counteract and absorb theleaking electrolyte:
l Sodium bicarbonate (NaHCO3)
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l Sodium carbonate (Na2CO3)
In the event of acid overflow or spillage, neutralize the acid and clean it up as recommended bythe battery manufacturer and any local regulations for acid disposal.
If a person contacts battery electrolyte, clean the skin that contacts the battery electrolyteimmediately by using water. In case of a severe situation, the person must be sent to a hospitalimmediately.
1.6 RadiationThis topic describes safety precautions for electromagnetic exposure and lasers.
1.6.1 Safe Usage of Optical FibersThe laser beam can cause damage to your eyes. Hence, you must exercise caution when usingoptical fibers.
DANGERWhen installing or maintaining an optical interface board or optical fibers, avoid direct eyeexposure to the laser beams launched from the optical interface board or fiber connectors. Thelaser beam can cause damage to your eyes.
Cleaning Fiber Connectors and Optical Interfaces
CAUTIONIf fiber connectors or flanges are contaminated, optical power commissioning is seriouslyaffected. Therefore, the two endfaces and flange of every external fiber must be cleaned beforethe fiber is led into the equipment through the ODF for being inserted into an optical interfaceon the equipment.
The fiber connectors and optical interfaces of the lasers must be cleaned with the followingspecial cleaning tools and materials:
l Special cleaning solvent: It is preferred to use isoamylol. Propyl alcohol, however, can alsobe used. It is prohibited that you use alcohol and formalin.
l Non-woven lens tissuel Special compressed gasl Cotton stick (medical cotton or long fiber cotton)l Special cleaning roll, used with the recommended cleaning solventl Special magnifier for fiber connectors
For cleaning steps, see Appendix "Inspecting and Cleaning the Fiber-Optical Connectors" in theOptiX OSN 3500 Intelligent Optical Transmission System Troubleshooting.
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Replacing Optical FibersWhen replacing an optical fiber, cover the fiber connector of the unused optical fiber with aprotective cap.
Connecting Optical Fibersl Use an attenuator if the optical power is excessively high. A high received optical power
damages the optical interface.l Directly connect an attenuator to a slanting optical interface. Install the attenuator on the
IN port instead of the OUT port.l Do not directly connect an attenuator to the level optical interface. Use the optical
distribution frame (ODF) to connect an attenuator to a level optical interface.
Figure 1-2 shows a slanting optical interface, and Figure 1-3 shows a level optical interface.
Figure 1-2 Slanting optical interface
Slanting opticalinterface
Figure 1-3 Level optical interface
Level opticalinterface
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1.6.2 Electromagnetic ExposureThis topic describes safety precautions for electromagnetic exposure.
WARNINGHigh-intensity RF signals are harmful to the human body.
If multiple transmit antennas are installed on a tower or backstay, you must request the relevantpersonnel to shut down the transmit antenna before they install or maintain the antenna locally.
During the operation, the base transceiver station (BTS) may generate electromagnetic radiation(namely, radiation harm). Before installing and operating the BTS equipment, read the guidelinesto ensure safe operations. When installing the BTS equipment, obey the local rules andregulations.
1.6.3 Forbidden AreasThe topic describes requirements for a forbidden area.
l The site of the antenna must be far away from the area where the electromagnetic radiationis beyond the specified range and the public cannot reach.
l Before entering the area where the electromagnetic radiation is beyond the specified range,the associated personnel must learn about the area and shut down the electromagneticradiator. The area where the electromagnetic radiation is beyond the specified range, if any,should be within 10 meters away from the antenna.
l A physical barrier and an eye-catching warning flag must be available in each forbiddenarea.
1.6.4 LaserThis topic describes safety precautions for lasers.
WARNINGWhen handling optical fibers, do not stand close to, or look into the optical fiber outlet directlywithout eye protection.
Laser transceivers are used in the optical transmission system and associated test tools. The lasertransmitted through the bare optical fiber produces a small beam of light, and thus it has veryhigh power density and is invisible to human eyes. When a beam of light enters eyes, the eyesmay be damaged.
In normal cases, viewing an un-terminated optical fiber or a damaged optical fiber without eyeprotection at a distance greater than 150 mm does not cause eye injury. Eye injury may occur,however, if an optical tool such as a microscope, magnifying glass, or eye loupe is used to viewan un-terminated optical fiber.
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Safety Instructions Regarding LasersTo avoid laser radiation, obey the following instructions:
l All operations should be performed by authorized personnel who have completed therequired training courses.
l Wear a pair of eye-protective glasses when you are handling lasers or fibers.l Ensure that the optical source is switched off before disconnecting optical fiber connectors.l Do not look into the end of an exposed fiber or an open connector when you are not sure
whether the optical source is switched off.l Use an optical power meter to measure the optical power and ensure that the optical source
is switched off.l Before opening the front door of an optical transmission device, ensure that you are not
exposed to laser radiation.l Do not use an optical tool such as a microscope, a magnifying glass, or an eye loupe to
view the optical connector or fiber that is transmitting optical signals.
Instructions Regarding Fiber HandlingRead and abide by the following instructions before handling fibers:
l Only trained personnel are permitted to cut and splice fibers.l Before cutting or splicing a fiber, ensure that the fiber is disconnected from the optical
source. After disconnecting the fiber, cap to the fiber connectors.
1.6.5 MicrowaveWhen installing and maintaining the equipment of Huawei, follow the safety precautions ofmicrowave to ensure the safety of the human body and the equipment.
WARNINGStrong radio frequency can harm the human body.
When installing or maintaining an aerial on the tower or mast that is installed with multipleaerials, switch off the transmitter in advance.
1.7 Working at HeightsThis topic describes safety precautions for working at heights.
WARNINGWhen working at heights, be cautious to prevent objects from falling down.
The requirements for working at heights are as follows:
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l The personnel who work at heights must be trained.l Carry and handle the operating machines and tools with caution to prevent them from falling
down.l Safety measures, such as wearing a helmet and a safety belt, must be taken.l Wear cold-proof clothes when working at heights in cold areas.l Check all lifting appliances thoroughly before starting the work, and ensure that they are
intact.
1.7.1 Hoisting Heavy ObjectsThis topic describes the safety precautions for hoisting heavy objects that you must follow wheninstalling, operating, and maintaining Huawei devices.
WARNINGWhen heavy objects are being hoisted, do not walk below the cantilever or hoisted objects.
l Only trained and qualified personnel can perform hoisting operations.l Before hoisting heavy objects, check that the hoisting tools are complete and in good
condition.l Before hoisting heavy objects, ensure that the hoisting tools are fixed to a secure object or
wall with good weight-bearing capacity.l Issue orders with short and explicit words to ensure correct operations.l Ensure that the angle between the two cables is less than or equal to 90 degrees during the
lifting, as shown in Figure 1-4.
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Figure 1-4 Hoisting heavy objects
1.7.2 Using LaddersThis topic describes safety precautions for using ladders.
Checking Laddersl Before using a ladder, check whether the ladder is damaged. After checking that the ladder
is in good condition, you can use the ladder.l Before using a ladder, you should know the maximum weight capacity of the ladder. Avoid
overweighing the ladder.
Placing LaddersThe proper slant angle of the ladder is 75 degrees. You can measure the slant angle of the ladderwith an angle square or your arms, as shown in Figure 1-5. When using a ladder, to prevent theladder from sliding, ensure that the wider feet of the ladder are downward, or take protectionmeasures for the ladder feet. Ensure that the ladder is placed securely.
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Figure 1-5 Slanting a ladder
Climbing Up a Ladder
When climbing up a ladder, pay attention to the following points:
l Ensure that the center of gravity of your body does not deviate from the edges of the twolong sides.
l Before operations, ensure that your body is stable to reduce risks.l Do not climb higher than the fourth rung of the ladder (counted from up to down).
If you want to climb up a roof, ensure that the ladder top is at least one meter higher than theroof, as shown in Figure 1-6.
Figure 1-6 Ladder top being one meter higher than the roof
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1.8 Mechanical SafetyThis topic describes safety precautions for drilling holes, handling sharp objects, operating fans,and carrying heavy objects.
Drilling Holes
WARNINGDo not drill holes on the cabinet without prior permission. Drilling holes without complyingwith the requirements affects the electromagnetic shielding performance of the cabinet anddamages the cables inside the cabinet. In addition, if the scraps caused by drilling enter thecabinet, the printed circuit boards (PCBs) may be short-circuited.
l Before drilling a hole on the cabinet, remove the cables inside the cabinet.
l Wear an eye protector when drilling holes. This is to prevent eyes from being injured bythe splashing metal scraps.
l Wear protection gloves when drilling holes.
l Take measures to prevent the metallic scraps from falling into the cabinet. After the drilling,clean up the metallic scraps.
Sharp Objects
WARNINGWear protection gloves when carrying the device. This is to prevent hands from being injuredby the sharp edges of the device.
Fansl When replacing parts, place the objects such as the parts, screws, and tools properly. This
is to prevent them from falling into the operating fans, which damages the fans or device.
l When replacing the parts near fans, keep your fingers or boards from touching operatingfans before the fans are powered off and stop running. Otherwise, the hands or the boardsare damaged.
Carrying Heavy Objects
Wear protection gloves when carrying heavy objects. This is to prevent hands from being hurt.
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WARNINGl The carrier must be prepared for load bearing before carrying heavy objects. This is to prevent
the carrier from being strained or pressed by the heavy objects.l When you pull a chassis out of the cabinet, pay attention to the unstable or heavy objects on
the cabinet. This is to prevent the heavy objects on the cabinet top from falling down, whichmay hurt you.
l Generally, two persons are needed to carry a chassis. It is prohibited that only one personcarries a heavy chassis. When carrying a chassis, the carriers should stretch their backs andmove stably to avoid being strained.
l When moving or lifting a chassis, hold the handles or bottom of the chassis. Do not holdthe handles of the modules installed in the chassis, such as the power modules, fan modules,and boards.
1.9 Other PrecautionsThis topic describes safety precautions for removing and inserting boards, binding signal cables,and routing cables.
Removing and Inserting a Board
CAUTIONWhen inserting a board, wear an ESD wrist strap or ESD gloves, and handle the board gently toavoid distorting pins on the backplane.
l Slide the board along the guide rails.l Do not contact one board with another to avoid short-circuits or damage.l When holding a board in hand, do not touch the board circuits, components, connectors,
or connection slots of the board to prevent damage caused by ESD of the human body tothe electrostatic-sensitive components.
Binding Signal Cables
CAUTIONBind the signal cables separately from the high-current or high-voltage cables.
Routing CablesIn the case of extremely low temperature, heavy shock or vibration may damage the plastic skinof the cables. To ensure the construction safety, comply with the following requirements:
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l When installing cables, ensure that the environment temperature is above 0°C.l If the cables are stored in a place where the ambient temperature is below 0°C, transfer
them to a place at room temperature and store the cables for more than 24 hours beforeinstallation.
l Handle the cables gently, especially in a low-temperature environment. Do not performany improper operations, for example, pushing the cables down directly from a truck.
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2 Before You Start
About This Chapter
Before you start the installation, you need to know the installation flow. In addition, you needto ensure that the required tools, materials, and relevant documents are available.
2.1 Equipment StructureThe OptiX OSN 3500 equipment consists of the cabinet, cabinet doors, DC power distributionunit (PDU), subracks, orderwire phone fixing frame, boards, and cables. The OptiX OSN 3500subrack can be installed in a 300 mm or 600 mm ETSI cabinet.
2.2 Types of CabinetsThe OptiX OSN 3500 subrack can be installed in the 300 mm or 600 mm ETSI cabinet.2600mm high T63 cabinets are discontinued. For details, see the released product change notice.
2.3 Mapping Policies of Power ConsumptionThe increasing features supported by the equipment cause higher power consumption. To ensurethe normal operation of the equipment, the internal power supply system provides differentmapping policies of power consumption according to different power consumptionrequirements.
2.4 Required Documents and ToolsThis topic describes the necessary documents, tools, and instruments available for the operationto ensure the smooth installation of the equipment.
2.5 Checking Installation ConditionsBefore starting installation, make sure that the equipment room, power supply, ground wire,optical cables, and other materials are ready. When these installation conditions are confirmed,the installation may start according to the pre-designed layouts.
2.6 Unpacking the EquipmentThis topic describes how to unpack cabinets and boards. You can unpack integrated subrack andcases in the same manner.
2.7 Checking the EquipmentCheck the cabinet, subrack, boards, network management computer and internal cables beforethe equipment installation.
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2.1 Equipment StructureThe OptiX OSN 3500 equipment consists of the cabinet, cabinet doors, DC power distributionunit (PDU), subracks, orderwire phone fixing frame, boards, and cables. The OptiX OSN 3500subrack can be installed in a 300 mm or 600 mm ETSI cabinet.
Figure 2-1 shows the appearance of the OptiX OSN 3500 that is installed in the 300 mm ETSIcabinet.
Figure 2-1 Appearance of the OptiX OSN 3500 that is installed in the 300 mm ETSI cabinet
7
7
W
H
D
1
2
3
4
5
6
87
1. DC PDU 2. Side panel 3. Cable distribution plate 4. Orderwire phone fixing frame5. Subrack 6. Cabinet 7. Fiber management tray 8. Front door
Figure 2-2 shows the appearance of the general OptiX OSN 3500 subrack and enhanced OptiXOSN 3500 subrack (1100 W).
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Figure 2-2 Appearance of the general OptiX OSN 3500 subrack and enhanced OptiX OSN 3500subrack (1100 w)
1
2
3
4
1. Interface board area 2. Fan area 3. Processing board area 4. Cable routing area
Figure 2-3 shows the appearance of the OptiX OSN 3500 type III subrack (2300 W).
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Figure 2-3 Appearance of the OptiX OSN 3500 type III subrack (2300 W)
1
2
3
4
1. Interface board area 2. Fan area 3. Processing board area 4. Cable routing area
NOTE
The difference between a general subrack, an enhanced subrack, and a type III subrack (2300 W) is with regardto applicable power boards. With different power boards, the two types of subracks support different maximumpower consumption values.
2.2 Types of CabinetsThe OptiX OSN 3500 subrack can be installed in the 300 mm or 600 mm ETSI cabinet.2600mm high T63 cabinets are discontinued. For details, see the released product change notice.
NOTEThe cabinets described in this topic are provided by Huawei.
The 300 mm ETSI cabinet is available in two types, namely, T63 cabinet and N63E cabinet.Figure 2-4 shows the appearances of the T63 cabinet and N63E cabinet.
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Figure 2-4 Appearances of the T63 cabinet and N63E cabinet
T63 Cabinet N63E Cabinet
Comparison Between the Specifications of the T63 Cabinet and the Specificationsof the N63E Cabinet
Table 2-1 describes the comparison between the specifications of the T63 cabinet and thespecifications of the N63E cabinet.
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Table 2-1 Comparison between the specifications of the T63 cabinet and the specifications ofthe N63E cabinet
Cabinet Dimensions (mm) Weight (kg)
300 mm ETSI cabinet (T63) 600 (W) x 300 (D) x 2000 (H) 58
600 (W) x 300 (D) x 2200 (H) 63
600 (W) x 300 (D) x 2600 (H) 73
300 mm ETSI cabinet (N63E) 600 (W) x 300 (D) x 2000 (H) 41
600 (W) x 300 (D) x 2200 (H) 45
T63 CabinetThe specifications of the T63 cabinet comply with the ETSI standard. The T63 cabinet is 600mm wide and 300 mm deep.
There are two ground bolts on the frame at the top of the T63 cabinet. Figure 2-5 shows thelocations of the cable holes at the top of the T63 cabinet. Figure 2-6 shows the locations of thecable holes at the bottom of the T63 cabinet.
Figure 2-5 Locations of the cable holes at the top of the T63 cabinet
110mm 110mm
15m
m
Cabling hole
Cabniet grounding terminalPower cable hole
295m
m
160m
m
200m
m
600mm
106mm 106mm200mm
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Figure 2-6 Locations of the cable holes at the bottom of the T63 cabinet
295m
m
160m
m
200m
m
110mm
15m
m
600mm
106mm 106mm200mm
Power cable hole
Cabling hole
Cabniet installtion hole
N63E Cabinet
The specifications of the N63E cabinet comply with the ETSI standard. The N63E cabinet is600 mm wide and 300 mm deep.
There are two ground bolts on the frame at the top of the N63E cabinet. Figure 2-7 shows thelocations of the cable holes at the top of the N63E cabinet. Figure 2-8 shows the locations ofthe cable holes at the bottom of the N63E cabinet.
Figure 2-7 Locations of the cable holes at the top of the N63E cabinet
600mm
251mm
62mm
300mm81mm
143mm 155mm
188mm
66mm
Power cable hole
Cable hole
Fiber hole Fiber holeGrounding bolt
Cable hole Cable holeCable hole
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Figure 2-8 Locations of the cable holes at the bottom of the N63E cabinet
360mm
184mm
Fiber hole
Cable hole Cable hole
Fiber hole
CAUTIONThe difference between the cable routing in the case of the T63 cabinet and the cable routing inthe case of the N63E cabinet is with regard to the cable routing at the top and bottom cable holes.The cable routing in the T63 cabinet is the same as the cable routing in the N63E cabinet.The T63 cabinet is approximately 16 mm deeper than the N63E cabinet. When you install themounting ears of the components, select proper mounting holes according to the type of cabineton site.
Enclosure FrameOnly the 2000 mm and 2200 mm high N63E cabinets are available. If the 2600 mm high N63Ecabinet is required, you need to place a 400 mm high enclosure frame on the top of the 2200mm high N63E cabinet.
Figure 2-9 shows the picture and dimensions of the enclosure frame.
Figure 2-9 Picture and dimensions of the enclosure frame
400m
m
300mm 600mm
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N66T CabinetThe 600 mm ETSI cabinet is called the N66T cabinet. The N66T cabinet uses both the front andrear columns, and it has a single front door and a single rear door. Figure 2-10 shows theappearance of the N66T cabinet.
NOTE
The N66T cabinet supports back-to-back installation of one ordinary OptiX OSN 3500 subrack and oneenhanced OptiX OSN 3500 subrack (1,100 W).
Figure 2-10 Appearance of the N66T cabinet
Table 2-2 lists the specifications of the N66T cabinet.
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Table 2-2 Specifications of the N66T cabinet
Cabinet Dimensions (mm) Weight (kg)
N66T cabinet 600 (W) x 600 (D) x 2000 (H) 71
600 (W) x 600 (D) x 2200 (H) 76
There are two ground bolts on the frame at the top of the N66T cabinet. Figure 2-11 shows thelocations of the cable holes at the top of the N66T cabinet. Figure 2-12 shows the locations ofthe cable holes at the bottom of the N66T cabinet.
Figure 2-11 Locations of the cable holes at the top of the N66T cabinet
Cabniet grounding terminal
224 mm
95 mm 95 mm 95 mm 95 mm
224 mm
17.8
mm
17.8
mm
215
mm
600
mm
600 mm
Power cable hole
Cabling hole
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Figure 2-12 Locations of the cable holes at the bottom of the N66T cabinet
Cabling hole
2.3 Mapping Policies of Power ConsumptionThe increasing features supported by the equipment cause higher power consumption. To ensurethe normal operation of the equipment, the internal power supply system provides differentmapping policies of power consumption according to different power consumptionrequirements.
The internal power supply system consists of PDU and PIU. Table 2-3 shows different mappingpolicies of power consumption.
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Table 2-3 Mapping policies of power consumption on the OptiX OSN 3500
Type ofSubrack
Label of Subrack Mapping PDU
Mapping PIU
Mapping UPM
MaximumPowerConsumption
FuseCapacity ofCircuitBreakers in aDCPDU
StandardOptiXOSN3500subrack
- N1PDU,DPD100-2-8PDU
N1PIU,N1PIUA
EPS75-4815AF,ETP4890
720 W 20 A
Enhanced OptiXOSN3500subrack(1100W)
N1PDU,DPD100-2-8PDU
N1PIUA
EPS75-4815AF,ETP4890
1100 W 32 A
OptiXOSN3500type IIIsubrack(2300W)
TN51PDU,DPD63-8-8 PDU
N1PIUB EPS75-4815AF,ETP4890
2300 W 63 A
CAUTIONWhen the type III subrack (2300 W) is configured with N1PDU/DPD100-2-8 PDU, themaximum power consumption of the equipment is 1100 W. Therefore, it is recommended thatthe type III subrack (2300 W) be configured with 51PDU/DPD63-8-8 PDU.The service boards supported by various subracks are the same. However, for a specific type ofservice board, the maximum number of boards that can be configured per subrack is related tothe power consumption of the subrack.
2.4 Required Documents and ToolsThis topic describes the necessary documents, tools, and instruments available for the operationto ensure the smooth installation of the equipment.
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2.4.1 Technical DocumentsThe relevant technical documentation must be available before you install the equipment.
l Written contracts, agreements and complete equipment configuration tables, provided bythe user.
l Design specifications of equipment room, detailed engineering drawings and sketches,provided by the user.
l The installation guide and quick installation guideprovided by Huawei.
2.4.2 Tools and InstrumentsThe required tools and instruments include the general tools, special tools, general instruments,and special instruments.
Table 2-4 and Table 2-5 list the tools and instruments used in installation.
Table 2-4 Installation tools
Name and Function Appearance Name and Function Appearance
Steel tape:Used to measure thelength less than 5 m.
Measuring tape:Used to measure thelength greater than 5m.
Ruler (1 m):Used to measure thelength less than 1 m.
Spirit level:Used to check thelevelness.
Marker pen:Used to make markswhen you draw lines.
Pencil:Used to take notes.
Powder marker:Used to make marks.
Hand-held electricdrill:Used to drill holes.
Percussion drill:Used to drill holesbefore you install acabinet.
Vacuum cleaner:Used to suck dust ordrill chips.
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Name and Function Appearance Name and Function Appearance
Flathead screwdriver(M3 - M6):Used to fasten smallscrews and bolts. Theflathead screwdriverhas a line-shapedblade.
Philips screwdriver(M3-M6):Used to fasten smallscrews and bolts. ThePhilips screwdriverhas a cross-shapedblade.
Socket spanner (M8-M12):Used to fasten bolts ornuts. The socket endsare of differentspecifications.
Adjustable spanner:Used to fasten orloosen hexagonal orsquare bolts or nuts.The width of the openend is adjustable.
Ring spanner:Used to fasten bolts ornuts in a smallenclosure.
Double ring spanner:Used to fasten bolts ornuts, especially in asmall enclosure. Bothends of the spannercan be used.
Torque wrench:Used to fasten bolts ornuts. The spannerhandle can be used torestrict the range of thefastening forcemoment. The socketends can be ofdifferentspecifications.
Inner hexagonspanner:Used to fasten bolts ornuts. The innerhexagon spanners areof two types: one witha ball end and onewithout a ball end.
Sharp-nose pliers:Used to hold smallfittings and twist finewires in a smallenclosure.
Diagonal pliers:Used to cut insulationtubes and cable ties.
Cord end pliers:Used to crimp the cordend terminal adaptedto a power cable witha small cross section.
Pliers:Used to fold, bend, orcut wires.
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Name and Function Appearance Name and Function Appearance
Wire stripper:Used to remove theinsulation layer andjacket from acommunication cablewith a small crosssection.
Crimping pliers:Used to crimp themetal jacket at the endof a coaxial cableassembly.
RJ-45 connectorcrimping pliers:Used to crimp theRJ-45 connectors oftelephone lines andnetwork cables.
Wire punchdown tool:Used to installsubscriber lines andtrunk lines onto thecable distributionframe. This tool is alsoused to connect cablesand modules to thecable distributionframe.
Handsaw:Used to cut feeders.
File:Used to smoothen thecut edge of a feeder.
Ladder:Used for working atheights.
Rubber hammer:Used to knock orshape a workpiece.
Brush:Used to clean sundriessuch as dust andscraps.
Tweezers:Used to pick up lightand small objects.
Label:Used to markequipment and cables.This facilitatesequipment installationand maintenance.
- Tape
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Name and Function Appearance Name and Function Appearance
Solder wire:Used together with anelectric soldering ironfor soldering.
Electric solderingiron:Used to solder aconductor with a smallcross section to aconnector.
Antistatic wrist strap:Used to prevent theelectrostatic discharge(ESD) when you touchor operate a device orcomponent.
Antistatic gloves:
Used to prevent theESD from damaging aboard or otherelectrostatic sensitivedevices (ESSDs).
Fiber cleaning tools:Used to clean fibers.
Table 2-5 Meters
Name and Function AppearanceName andFunction Appearance
Optical attenuator:Used to adjust thepower level of anoptical signal byadjusting theattenuation.
Optical power meter:Used to test theoptical power.
Spectrum analyzer:Used to identify,analyze, and monitorthe signals of opticalwaveform.
Multimeter:Used to measure theinsulation of acabinet, connectionof a cable, andelectric performanceindexes of a device,such as voltage,current, andresistance.
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Name and Function AppearanceName andFunction Appearance
SDH analyzer:Used to test all theindexes of the SDHnetwork.
2 Mbit/s bit errortester:Used to measure thebit error rate (BER)of 2-Mbit/s signalsduring transmission.
Ground resistancemeter:Used to measure theground resistance.
500 VM ohmmeter:Used to measure theinsulation resistance.
NOTE
The special tools and instruments are supplied by the party specified in the contract. The general tools andinstruments are provided by the installer. All the instruments should be tested and calibrated before use.
2.5 Checking Installation ConditionsBefore starting installation, make sure that the equipment room, power supply, ground wire,optical cables, and other materials are ready. When these installation conditions are confirmed,the installation may start according to the pre-designed layouts.
For detailed requirements and related items, see 21 Operating Environment Requirementsand 22 Grounding Specifications.
2.6 Unpacking the EquipmentThis topic describes how to unpack cabinets and boards. You can unpack integrated subrack andcases in the same manner.
2.6.1 Unpacking the CabinetThis procedure describes how to unpack the cabinet so that you can proceed to the nextinstallation procedure.
PrerequisitesNone
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Tools, Equipment and MaterialsCommon tools
Precautions
WARNINGSince the cabinet is rather heavy, erecting the cabinet improperly may cause personal injuries.
CAUTIONl The wooden case is direction-oriented and should not be placed upside down. Otherwise,
fatal damages would be caused to the product.l During the transportation and handling of products, spare parts or components, make sure to
avoid the collision of such things against doors, walls or shelves.l To avoid equipment damage in the course of moving, move the packing box to the equipment
room or a place near the equipment room before unpacking.l In the process of transporting, handling and installing the equipment, it is forbidden to reach
the uncoated metal surface of equipment parts or components with sweaty or dirty gloves.
CAUTIONl When handling the cabinet, both hands should hold on the solid places such as the base, the
upper cable rack or bone frame, do not apply too much force on such places with poor rigidityas cable support, cable fixing beam, so as to avoid any damage to the cabinet or any accident.
l Remove the lining board of the rack at the place where the cabinet is to be installed.Otherwise, the signal lines and boards may be damaged during transportation or handling.
Procedure
Step 1 Move the packing box to the equipment room or a place nearby before unpacking it.
Step 2 Check the outer package. Stop unpacking immediately, if there isl Serious damage to the outer package.l Water on the outside packaging boxl rust/water on the equipment.Find the cause. Then, feed back the information to the local representative office.
Step 3 Insert one end of the ejector lever into the hold for the tongue of the wooden case cover.
Step 4 Turn the ejector lever to straighten the tongue, as shown in Figure 2-13. Or use a screwdriveror a hammer to operate the tongue.
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Figure 2-13 Straighten the tongues
SpannerTongue
WoodenboardSteeledge
Step 5 After straightening all the tongues on the cover, remove the cover, as shown in Figure 2-14.
Figure 2-14 Remove the cover
Step 6 Straighten all the tongues that join the wooden boards around the wooden case.
Step 7 Remove the wooden boards, as shown in Figure 2-15.
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Figure 2-15 Remove the surrounded wooden board
Step 8 Take the cabinet out of the packing box.
Step 9 Remove the plastic packing of the cabinet and erect the cabinet.
WARNINGEnough persons are required to erect the cabinet.
Step 10 Check whether any items inside correspond to the packing list. If any component is missing ordamaged, contact the local office of Huawei.
Table 2-6 Items and requirements to be checked in the cabinet
Check Item Requirement
Appearance The cabinet is neat, clean, and intact. It is free of scratchesand has no loose component.
Interior No foreign substance or water stain exists inside the cabinet.
Cables The cables are bundled neatly. No cables are loafed, loose,or broken. No fiber connector is disengaged from the flange.
Silkscreened symbols They must be legible.
Connectors They must be intact and neat. No pins are bent or deformed.
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NOTE
To protect the equipment, place the equipment that is already unpacked indoor. Take photos of the sitestorage environment, the rusted or corroded equipment/packing box/packaging materials. Keep thesephotos properly and store the packing box/packing materials.
----End
2.6.2 Unpacking the SubrackThis procedure describes how to unpack the subrack so that you can proceed to the nextinstallation procedure.
PrerequisitesNone
Tools, Equipment and MaterialsCommon tools
Precautions
CAUTIONWhen you transport, move or place the subrack, use your hands to hold the rigid parts such asthe support of the subrack. Do not apply force to the nonrigid parts of the subrack; otherwise,the subrack may be damaged.
Procedure
Step 1 Place the packing box of the subrack horizontally.
Step 2 Pry up the top cover of the packing box.
Step 3 Unpack the plastic bag and place the subrack in a vertical position.
Step 4 Check whether the items in the subrack correspond to the packing list. Table 2-7 lists the checkitems. If any component is missing or damaged, contact the local office of Huawei.
Table 2-7 Items and requirements to be checked in the subrack
Check Item Requirement
Appearance The subrack is neat, clean, and intact. It is freeof scratches and has no loose component.
Interior No foreign substance or water stain existsinside the subrack.
Cables The cables are bundled neatly. No cables areloafed, loose, or broken. No fiber connectoris disengages from the flange.
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Check Item Requirement
Silkscreened symbols They must be legible.
Connectors They must be intact and neat. No pins are bentor deformed.
CAUTIONAfter unpacking the subrack, you need to cover the ventilation grid at the top of the subrack toprevent dust or foreign articles from entering the subrack during the onsite implementation.
After the installation, you need to remove the cover from the eventilation grid before poweringon the equipment.
----End
2.6.3 Unpacking BoardsIf the board is delivered separately, unpack the board before you install it.
PrerequisitesNone
Tools, Equipment and Materials
Common tools
Background Information
Generally, the board is installed in the subrack properly before delivery and is shipped togetherwith the subrack. A carton is used to pack boards for shipping, unpacking and checking whenthe boards arrive at the destination. (Generally, a carton is used when boards are required forcapacity expansion.) The boards are placed into shielding bags for transportation. Take ESDprotection measures when you unpack the boards to prevent damage to the boards.
Precautions
CAUTIONElectronic circuits and components are extremely sensitive to electrostatic discharge (ESD).When handling circuit boards, make sure that you wear a securely grounded ESD wrist strap orESD gloves, and only hold the edge of boards during operation.
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Procedure
Step 1 Wear a securely grounded ESD wrist strap (or ESD gloves).
Step 2 Cut the straps with diagonal pliers and use a paper knife to split the tape along the seam betweenthe cover and the body of the box. See Figure 2-16.
CAUTIONDo not cut too deep into the carton with the paper knife. Otherwise, the knife can scratch theitems inside.
Figure 2-16 Board carton
Strap Carton label
Pressure-sensitiveadhesive tape
Foam plate Label on theboard box
Shielding bagBoard
Board box
Board box
Cushion foam
NOTE
l Each board is packed in both a cushion foam and a shielding bag. Keep the bags properly. They canbe used later for keeping the boards or packing the damaged boards returned for repair.
l The ambient temperature and humidity can affect the boards. In each shielding bag, there is a smallbag of desiccant, which should not be thrown away.
l Wait for at least 30 minutes before unpacking if the board has just been moved from a cold and dryplace to a warm and damp place. Otherwise, moisture will condense on the board surface and damagethe components.
Step 3 Open the carton and check whether the number and type of boards is the same as the informationprovided on the carton label.
Step 4 Ensure that there is no damage on the board package.
Step 5 Open the box that contains the board and take the board out of the shielding bag.l Hold the bottom of the shielding bag with the left hand.
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l Take the board out of the bag gently by its front panel with the right hand.l Do not touch any electronic component on the board surface to avoid damage.l Keep the bags properly.
Step 6 Check whether the boards are damaged or correspond to the packing list. For the check items,see Table 2-8. If any board is damaged, contact the local office of Huawei immediately.
Table 2-8 Items and requirements to be checked in the boards
Check Item Requirement
Name and quantity They must be consistent with the name andquantity specified in the contract or thepacking list.
Appearance The board is neat, clean, and intact. It is freeof scratches and has no loose component.
Connectors They must be intact and neat. No pins are bentor deformed.
Step 7 If no problem is found, put the board back into the board box and put it in the place specifiedby the customer.l If you are going to install the board immediately after unpacking, place the board on an
antistatic surface to discharge the static electricity.l If you are going to install the board at a later time, pack the board using the original materials
and place them at a cool and dry place without direct sunshine or strong electromagneticradiation.
----End
2.6.4 Requirements of InspectionThe received goods must be inspected against the Packing List item by item.
l After the goods are inspected, both the engineering supervisor and the customer must signthe Packing List. Then, the customer takes over the goods.
l When inspecting the goods, if some equipment is stated undelivered in the Packing List,directly report the situation to the order management engineer of the local office of Huaweifor subsequent handling. Both the engineering supervisor and the customer shall sign thePacking List to confirm the situation.
l If any extra or damaged equipment is found during the inspection, both parties should signthe Unpacking Memo and the Packing List. The project supervisor shall fill in theEquipment Problem Report and send it to the order management engineer of the local officeof Huawei within three days.
2.7 Checking the EquipmentCheck the cabinet, subrack, boards, network management computer and internal cables beforethe equipment installation.
Table 2-9 lists the check items.
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CAUTIONThe internal cables including subrack power cables and cabinet indicator cables have beeninstalled properly before delivery.If any item in the following table fails to meet the requirement, contact Huawei in time.
Table 2-9 Check items
Item Sub-item Requirements
Cabinet andsubrack
Appearance Neat, no scratch or disrepair, no loosened components.
Inside part No foreign matter or water stain.
Internal cables Neatly bundled. No cable is scattered, loosened, ordamaged.
Silkscreen Clear
Boards Appearance Neat, no scratch or disrepair, no loosened components.
Quantity Consistent with that on the delivery list.
Software Corresponding configuration software is complete.
Internal cables Appearance Wiring is complete, reasonable and neat.
Connectors Firm, correct, and no float insertion.
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3 Removing Doors of the Cabinet
Before you remove the doors of the cabinet, you need to see the corresponding cabinetinstallation guide.
NOTE
For the method of removing doors of the N63E cabinet, see the N63E Cabinet Installation Guide.
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4 Installing the Cabinet on the Antistatic Floor
Before you install the cabinet on the antistatic floor, you need to see the corresponding cabinetinstallation guide.
NOTE
For the method of installing the cabinet on the antistatic floor, see the N63E Cabinet Installation Guide.
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5 Installing the Cabinet on the Cement Floor
Before you install the cabinet on the cement floor, you need to see the corresponding cabinetinstallation guide.
NOTE
For the method of installing the cabinet on the cement floor, see the N63E Cabinet Installation Guide.
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6 Reinforcing the Cabinet
About This Chapter
You can reinforce a cabinet by using two methods: reinforcing cabinets in parallel arrangement,and reinforcing cabinets through the aerial cabling frame.
6.1 Combining the Adjacent CabinetsThe adjacent cabinets must be combined with four joint plates. After installing the cabinets, youneed to combine and fix the adjacent cabinets by using joint plates.
6.2 Reinforcing the Cabinet to the Cabling FrameIf a cabling frame is provided in the equipment room, you can reinforce the cabinet to the cablingframe.
6.3 Checking the InstallationAfter reinforcing a cabinet, you need to check the necessary items.
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6.1 Combining the Adjacent CabinetsThe adjacent cabinets must be combined with four joint plates. After installing the cabinets, youneed to combine and fix the adjacent cabinets by using joint plates.
PrerequisitesThe installation of cabinets must be complete.
Tools, Equipment and MaterialsJoint plate, M5 x 10 tapping screws, Common tools
Procedure
Step 1 Remove the joint plate from the top of the cabinet. Before delivery, the joint plates must beattached to the cabinet. See Figure 6-1.
Figure 6-1 Position of joint plates
Step 2 Insert the M5 x 10 tapping screws into the joint plate and further into the screw holes on the topof the two adjacent cabinets. Screw them tightly to fix the joint plate. See Figure 6-2.
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Figure 6-2 Combining the adjacent cabinets
----End
6.2 Reinforcing the Cabinet to the Cabling FrameIf a cabling frame is provided in the equipment room, you can reinforce the cabinet to the cablingframe.
6.2.1 Reinforcement FlowYou need to select the reinforcement flow according to the cabinet height and the side cablingtrough.
Figure 6-3 shows the selection of installation flow.
Figure 6-3 Installation flow
Reinforcing a2200mm-high or
2000mm-highcabinet
Start
Any trough atcabling frame
side?
Yes
No
End
(Method 2)
Reinforcing a2200mm-high or
2000mm-highcabinet
(Method 4)
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6.2.2 Reinforcing the Cabinet by Method 2This topic describes how to reinforce a 2.2m or 2.0m high cabinet under a cabling frame withside troughs.
Prerequisitesl The cabinets must be installed.l The cabling frame must be installed.l The cabinet must be 2.2m or 2.0m high.l The cabling frame must have side troughs.
Tools, Equipment and MaterialsFixing bracket, Adjustable bracket, Insulation plate, Diamond-shaped nut, Bolt M8 x 20, BoltM8 x 25, Common tools
Procedure
Step 1 Determine where to install the fixing part according to positions of the installed cabinet and thecabling frame.
Step 2 Adjust the height of the adjustable bracket according to the distance between the cabinet and thecabling frame.
Step 3 Place the diamond-shaped nut into the marked position in the trough of the cabling frame.
Step 4 Place a spring washer and a flat washer onto the bolt M8 x 20.
Step 5 Insert assembly through the adjustable bracket, and into the diamond-shaped nut in the troughof the cabling frame. See Figure 6-4.
Step 6 Insert another bolt M8 x 20 assembly through the fixing bracket and the adjustable plate, andinto the corresponding nut with moderate force. See Figure 6-4.
NOTE
Do not fasten the bolt very tightly. Fasten it so that the bolt does not become loose.
Step 7 Place an insulation plate between the cabinet and the fixing bracket.
Step 8 Place a spring washer, a big flat washer and an insulation washer onto the bolt M8 x 25.
Step 9 Insert the bolt M8 x 25 assembly through the fixing bracket and the insulation plate, and intothe nut on the cabinet with moderate force. See Figure 6-4.
NOTE
Do not fasten the bolt very tightly. Fasten it so that the bolt does not become loose.
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Figure 6-4 Reinforcing the cabinet by method 2
5
4
3
6
1
2
5
7
8
910
9
10
1. Cabinet 2. Cabling frame 3. Diamond-shaped nut 4. Adjustable bracket5. Bolt M8 x 20 6. Fixing bracket 7. Bolt M8 x 25 8. Insulation plate9. Spring washer 10. Flat washer
Step 10 Repeat Steps 2-9 to install other fixing parts, and adjust their relative positions according to theon-site engineering situation. Then, fasten all the bolts tightly. See Figure 6-5.
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Figure 6-5 Expected result
----End
6.2.3 Reinforcing the Cabinet by Method 4This topic describes how to reinforce a 2.2m or 2.0m high cabinet under a cabling frame withoutside troughs.
Prerequisitesl The cabinet must be installed.
l The cabling frame must be installed.
l The cabinet must be 2.2 m or 2.0 m high.
l The cabling frame must not have side troughs.
Tools, Equipment and Materials
Fixing bracket, Adjustable bracket, Insulation plate, Bolt M8 x 50, Bolt M8 x 20, Bolt M8 x 25,Clamp, Common tools
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Procedure
Step 1 Determine where to install the fixing part according to the positions of the installed cabinet andthe cabling frame.
Step 2 Adjust the height of the adjustable bracket according to the distance between the cabinet and thecabling frame.
Step 3 Place a spring washer and a flat washer onto the bolt M8 x 50.
Step 4 Insert the bolt M8 x 50 assembly through the adjustable bracket and the clamp, and fasten it withmoderate force. See Figure 6-6.
NOTE
Do not fasten the bolt very tightly. Fasten it so that the bolt does not become loose.
Step 5 Insert the bolt M8 x 20 assembly through the fixing bracket and the adjustable plate, and intothe nut with moderate force. See Figure 6-6.
Step 6 Place a spring washer, a big flat washer and an insulation washer onto the bolt M8 x 25.
Step 7 Insert the bolt M8 x 25 assembly through the fixing bracket and the insulation plate, and intothe nut on the cabinet with moderate force. See Figure 6-6.
Figure 6-6 Reinforcing the cabinet by method 4
1
2
6
7
8
9
5
4
3
1011
1. Cabinet 2. Cabling frame 3. Clamp 4. Bolt M8 x 505. Adjustable bracket 6. Fixing bracket 7. Bolt M8 x 20 8. Bolt M8 x 259. Insulation plate 10. Spring washer 11. Flat washer
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Step 8 Install other fixing parts, and adjust their relative positions according to the on-site engineeringsituation. Then, fasten all the bolts tightly. See Figure 6-7.
Figure 6-7 Expected result
----End
6.3 Checking the InstallationAfter reinforcing a cabinet, you need to check the necessary items.
The following requirements should be met when the cabinet is reinforced properly.
l The joint plates for combining cabinets are installed correctly and properly, with all screwstightened.
l The cabinet is stable with the fixing parts installed. If not, check whether the bolts arescrewed tightly and whether the correct installation mode is adopted.
l The reinforced cabinets should be erect and comply with the installation requirements.
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7 Installing the Cable Distribution Plate
If a subrack needs to be installed with a cable distribution plate, you need to install the cabledistribution plate at the upper part of the subrack. Before you install the cable distribution plate,you need to see the corresponding installation guide.
NOTE
For the method of installing the cable distribution plate, see the OptiX OSN 3500 Quick InstallationGuide.
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8 Installing the UPM Power System
About This Chapter
The UPM power system converts the 110 V or 220 V AC voltage into the -48 V DC voltage tosupply power to the subrack.
NOTE
For the method of installing the ETP4890 UPM Power System, see the ETP4890 User Manual.
8.1 Overview of the UPM Power SystemThe UPM power system consists of the rectifier module, the monitoring module, and the ACpower distribution frame.
8.2 Installing Batteries and the EPS75-4815AF Power SystemThis section describes how to install batteries and the EPS75-4815AF power system. TheEPS75-4815AF power system can be installed in an N63E cabinet or a T63 cabinet.
8.3 Cable Connection of the UPMThe cable connection of the UPM includes the connection of the power cable and the connectionof the serial port cable.
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8.1 Overview of the UPM Power SystemThe UPM power system consists of the rectifier module, the monitoring module, and the ACpower distribution frame.
NOTE
The UPM power system should be used according to the situation where no DC power is available in theequipment room.
8.1.1 Power SystemThe output power of one EPS75-4815AF power system is 1700 W. One OptiX OSN 3500subrack requires one EPS75-4815AF power system.
Exterior of the EPS75-4815AF Power System
The dimensions (H x W x D) of the EPS75-4815AF power system are 133 mm x 436 mm x 255mm. The front view is shown in Figure 8-1.
Figure 8-1 Front view of the EPS75-4815AF power system
1 2 3 4 5 6
97 8 1110 12 13 15
14
1. AC/DC power distribution frame (Rack-EPS75-4815AF-VB)
2. Monitoring module (PMU 02B) 3. PSU (GERM4815T)
NOTE
To provide an output power of 1700 W, the EPS75-4815AF power system requires:
l Three or more PSUs when 220 V AC power is input.
l Five PSUs when 110 V AC power is input.
Indicators
Indicators of the EPS75-4815AF power system are described in Table 8-1.
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Table 8-1 Indicators of the EPS75-4815AF power system
Module
Indicator
Description
Color NormalState
AbnormalState
Fault
PSU ALARM
Alarmindication
Yellow Off On l The indicator is steadyyellow when the powermodule is underprotection due to acorrectable fault, suchas over-temperature,high input voltage, lowinput voltage, and highoutput current.
l The indicator blinks(yellow) ifcommunicationbetween the monitoringmodule and itsmanagement device isinterrupted.
l The power systementers the hibernationstate.
RUN Running stateindication
Green On Off This indicator turns offwhen the FAULT indicatorturns on.
FAULT Faultindication
Red Off On Uncorrectable faults occurinside the module.
Monitoringmodule
RUN Running stateindication
Green Blinking(on for 1sand offfor 1s)
Blinking (onfor0.25sand offfor0.25s)
Communication betweenthe monitoring module andits management device isabnormal. If the abnormalstate lasts for 60s,communication fails.
ALM Alarmindication
Red Off On Major alarms are reported.
Management Port of the GIE4805S Power System
The management port of the EPS75-4815AF power system is located on the monitoring modulepanel. The port can be a COM port to support FE communication or an RS485/232 port to supportRS485/232 communication.
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l The pins on a COM port are described in Table 8-2.
Table 8-2 Pins on a COM port
Pin Definition Function
1 TX+ Transmitting data
2 TX- Transmitting data
3 RX+ Receiving data
4 CMT_TX -
5 CMT_TX -
6 RX- Receiving data
7 CMT_RX -
8 CMT_RX -
l The pins on an RS485/232 port are described in Table 8-3.
Table 8-3 Pins on an RS485/232 port
Pin Definition Function
1 TX+ Transmitting data through RS485
2 TX- Transmitting data through RS485
3 RX232 Receiving data through RS232
4 RX+ Receiving data through RS485
5 RX- Receiving data through RS485
6 GND Grounding
7 TX232 Transmitting data through RS232
8 - -
8.1.2 Storage BatteriesA battery assembly consists of eight 12V-40Ah batteries.
Each battery measures 197 mm x 165 mm x 170 mm. If the AC fails, the storage battery cansupply power for four hours.
8.1.3 Installation PositionThis topic describes the installation position of the UPM power system.
The installation position of the subrack and EPS75-4815AF power system, storage battery isshown in Figure 8-2.
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NOTE
To facilitate heat dissipation, generally, leave a space of not less than 50 mm between the subrack and thepower system.
Figure 8-2 Installation Position
Subrack
Power system (EPS75-4815AF)
≥50 mm
8.1.4 Power Cables and Management CablesThe power cables of a UPM system are delivered with the system.
The power cable for on a standard subrack or an enhanced subrack (1100 W) uses a DB terminalat one end and a cord end terminal at the other end, as shown in Figure 8-3. The power cablefor a Type-III subrack (2300 W) uses OT terminals at both ends, as shown in Figure 8-4. Ethernetcables are used as management cables.
Figure 8-3 Power cables for a standard subrack or an enhanced subrack (1100 W)
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Figure 8-4 Power cables for a Type-III subrack (2300 W)
8.2 Installing Batteries and the EPS75-4815AF Power SystemThis section describes how to install batteries and the EPS75-4815AF power system. TheEPS75-4815AF power system can be installed in an N63E cabinet or a T63 cabinet.
8.2.1 Installing BatteriesThis section describes how to install batteries in a battery cabinet.
Prerequisites
The equipment cabinet, subracks, and the battery cabinet are installed.
Tools, Equipment, and Materials
Batteries, trays, and general tools
Procedure
Step 1 Install the lower-layer tray.
Step 2 Connect four batteries in series and fix them on the lower-layer tray.
Step 3 Install the upper-layer tray.
Step 4 Connect four batteries in series and fix them on the upper-layer tray.
Step 5 Connect the battery series in parallel, as shown in Figure 8-5.
Figure 8-5 Battery connections
Lower-layer tray
Upper-layer tray
To BAT+To BAT-
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----End
8.2.2 Installing the EPS75-4815AF Power System in the ETSICabinet
The EPS75-4815AF power system can be installed in the ETSI cabinet.
PrerequisitesThe cabinet must be installed.
Tools, Equipment and MaterialsPower system, Panel screw, Common tools
Procedure
Step 1 Fix the two mounting ears on the power system by using six M3 screws.
Figure 8-6 Installing the mounting ears
Top
Bottom
Top
BottomInstallation holes of the mounting ears
of the subrack in the T63 cabinetInstallation holes of the mounting ears
of the subrack in the N63E cabinet
Step 2 Determine the position of installing the power system on the mount bar of the cabinet. Then,install the captive nuts in the corresponding holes.
Step 3 Fix the power system in the cabinet by using four screws. SeeFigure 8-7.
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Figure 8-7 Installing the power system
----End
8.3 Cable Connection of the UPMThe cable connection of the UPM includes the connection of the power cable and the connectionof the serial port cable.
Prerequisitesl The UPM system must be installed.l The equipment is properly grounded.
Tools, Equipment, and MaterialsPower cables, Network cable, Common tools
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Precautions
CAUTIONTurn off the AC power and ensure that the battery loop is in the off state. Do not perform theoperations when the power is on.Cover the unused terminal in the power system with an insulating cap.If the subrack is configured with the UPM, use the UPM to supply power to the subrack.If the subrack is delivered together with the cabinet, the power cables of the subrack areconnected to the power distribution box. In this case, remove the power cables from the powerdistribution box, and then connect the power cables to the power output terminals of the UPMpower system.
Procedurel If the OSN equipment uses EPS75-4815AF power system as UPM power system, please
follow the following steps.1. Connect the power inputs of the left PIU board of the subrack to the power outputs
"LOAD3(+)" and "LOAD3 (-)" of the lower power system by using a power cable.See Figure 8-8.
2. Connect the power inputs of the right PIU board of the subrack to the power outputs"LOAD4(+)" and "LOAD4 (-)" of the lower power system by using a power cable.See Figure 8-8.
3. Connect the lower power system to the AC power system by using an AC power cable.
a. Lead the AC power cable to the inside of the cabinet through the power cablehole of the cabinet.
b. Route the cable along the side of the cabinet to the UPM power system.c. Connect the "GND" to the earth wire by using a ground cable. Then, connect the
"AC-N" of the power system to the 220 V or 110 V neutral wire, the "AC-L" ofthe power system to the 220 V or 110 V live wire by using power cables. SeeFigure 8-8.
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Figure 8-8 Cable connection of the UPM system
AC-LAC-N
GND
To the 110 V/220 V live wire
To the 110 V/220 V neutral wireTo the grounding
LOAD3 (-)LOAD4 (-)
LOAD3 (+)LOAD4 (+)
To the storage battery (-)
A B
AB To the storage battery (+)
4. Connect the upper power system to the 110 V or 220 V AC power system by using
an AC power cable.
----End
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9 Installing the COA and DCM
About This Chapter
The COA stands for the case-shaped optical amplifier, and the DCM stands for the dispersioncompensation module.
9.1 Installing the COAN1COA and 61COA are installed into the cabinet after being installed on the tray. 62COA isinstalled into the cabinet by using mounting ears.
9.2 Installing the DCMThe DCM needs to be installed in the DCM frame, which is installed in the cabinet.
9.3 Checking the InstallationAfter installation, you need to check the necessary items.
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9.1 Installing the COAN1COA and 61COA are installed into the cabinet after being installed on the tray. 62COA isinstalled into the cabinet by using mounting ears.
NOTE
For the method of installing the COA, see the OptiX OSN 3500 Quick Installation Guide.
9.2 Installing the DCMThe DCM needs to be installed in the DCM frame, which is installed in the cabinet.
9.2.1 Overview of DCM and DCM FrameThe DCM needs to be installed in the DCM frame.
DCM
The DCM is used to compensate dispersion for optical signals. Each DCM has two fiberconnectors to receive and send optical signals, which are connected to the optical interface ofthe corresponding board through optical fibers.
DCM Frame
The DCM frame is used to hold the dispersion compensation module (DCM), and one DCMframe can hold up to two DCMs. Before installing the DCM frame, you need to fix the DCM tothe frame.
To install the DCM inside the cabinet, you need to provide a space with 50 mm in height. Bydefault, the DCM is installed at the bottom of the cabinet. The DCM can also be installed in theother position of the cabinet which is not fully configured. The capacity expansion will be,however, affected in the future because the space is occupied.
The DCM frame weighs 3.5 kg, and measures 48.4 mm (height) x 484 mm (width) x 281 mm(depth).
9.2.2 Installing the DCM and DCM FrameThis procedure describes how to fix the DCM on the frame and install the frame in the cabinet.
Prerequisites
The cabinet and the subrack are installed.
You need to provide a space with 50 mm in height.
Tools/Instruments
Common tools
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PrecautionsNOTE
By default, the DCM is installed at the bottom of the cabinet. The DCM can also be installed in the otherposition of the cabinet which is not fully configured. The capacity expansion will be, however, affected inthe future because the space is occupied.
Procedure
Step 1 Fix the mounting ears on the DCM frame. Figure 9-1 shows the installation holes of themounting ears on the DCM frame for different types of cabinets.
Figure 9-1 Installation holes of the mounting ears on the DCM frame
Installation holes of the mounting ears of the subrack in the N63E cabinet
Installation holes of the mounting ears of the subrack
in the T63 cabinet
Step 2 Put DCMs on the frame and fix them with screws from below. Each DCM needs four screws.See Figure 9-2.
Figure 9-2 Installing DCM on the DCM frame
DCM
DCM frame
Mounting bracketScrew
NOTE
If only one DCM is to be installed in the cabinet, it is fixed on the left of the DCM frame to help thedistribution of optical fibers on the left.
Step 3 Fix the DCM frame on the columns of the cabinet with panel fastener. See Figure 9-3.
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Figure 9-3 Installing the DCM frame in the cabinet
----End
9.2.3 Routing Optical Fibers for DCMThis procedure describes how to route optical fibers for DCM.
PrerequisitesThe DCM, DCM frame and the subrack are installed.
Tools, Equipment and MaterialsCommon tools, Binding strap
Procedure
Step 1 Lead the optical fibers out from the subrack.
Step 2 Run the optical fibers downward along the fiber trough at the cabinet side to the cabinet bottom.
Step 3 Pass the optical fibers through the inlet at the side of the DCM frame.
Step 4 Connect the optical fibers to the fiber connector of the corresponding DCM. Figure 9-4 showsthe expected result of routing the optical fibers.
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Figure 9-4 Expected result of routing the optical fibers for the DCM
----End
9.3 Checking the InstallationAfter installation, you need to check the necessary items.
Check the following items:
l The cables and fibers are properly connected.l The components are installed at the correct position in the cabinet.l The panel screws are tightened.
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10 Installing the Fiber Spool Box
If there are excessive fibers in the cabinet, a fiber spool box is required to spool the fibers.
NOTE
For the method of installing the fiber spool box, see the OptiX OSN 3500 Quick Installation Guide.
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11 Installing a RPC Frame
This chapter describes the procedure for installing the RPC frame.
NOTE
For the method of installing the RPC Frame, see the OptiX OSN 3500 Quick Installation Guide.
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12 Checking the Power Jumpers on theBoard
About This Chapter
When different types of power supplies or subracks are connected to the equipment, the jumpersetting is different. Incorrect jumper setting may cause damage to the equipment. This chapterdescribes how to set the jumpers.
12.1 Checking Power Jumpers on the GSCCThe OptiX OSN device supports -48 V or -60 V input power, which can be selected by settingthe jumpers on the GSCC board. By default, the input power is -48 V.
12.2 Checking Jumpers on the AUXThe jumper on the AUX board distinguishes a main subrack from the extended subrack. If thesubrack type is already known, you need to check whether the jumper setting on the AUX boardis according to type of the subrack.
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12.1 Checking Power Jumpers on the GSCCThe OptiX OSN device supports -48 V or -60 V input power, which can be selected by settingthe jumpers on the GSCC board. By default, the input power is -48 V.
12.1.1 Power Jumpers on the GSCCThere are two sets of power jumpers on the GSCC board. To prevent damage to the equipment,make sure that the settings of the power jumpers are according to the power supply requirements.
CAUTIONThe jumpers are used for test and maintenance. Do not change the setting of jumpers at random.Otherwise, the board may become faulty.
N1GSCC
The jumpers on the N1GSCC are available in two layouts, as shown in Figure 12-1 and Figure12-2.
Figure 12-1 Position of the jumpers of the N1GSCC
Table 12-1 lists the jumpers of the N1GSCC and their functions (layout 1).
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Table 12-1 Jumpers of the N1GSCC (layout 1)
Jumper
Function Description
J2 To enable the battery 1–2: If jumper bits (positions) 1 and 2 are capped, thebattery is enabled.2–3: If jumper bits (positions) 2 and 3 are capped, thedatabase and clock are cleared.
J3 To enable the writing to theBIOS
When the jumper is not capped, data cannot bewritten to the BIOS.When the jumper is capped, data can be written tothe BIOS.
J12 andJ11
To set the running state ofthe board
If a jumper bit is not capped, the value is 0.If a jumper bit is capped, the value is 1.The jumper bit values are queued in the descendingorder of the jumper bit numbers, and form a four-bitbinary number. The leftmost bit of this binarynumber is the most significant bit. For details, referto Table 12-2.
J17 andJ16
To set the input voltage ofthe equipment
When the jumpers are not capped, the equipment issupplied with the –60 V power.When the jumpers are capped, the equipment issupplied with the –48 V power.
CAUTIONSet J17 and J16 correctly based on the power voltage provided in the telecommunications room.If J17 and J16 are set incorrectly, the POWER_ABNORMAL alarm is generated.
Table 12-2 Jumpers J11 and J12 (layout 1)
Value Description
0b0000 Indicates the running state when the watchdog is started. It is the defaultstate.
0b0011 Indicates the commissioning state.
0b0100 Indicates the running state when the watchdog is stopped.
0b0101 The software is in the BIOS state. The SCC does not work even thoughthe NE software exists. The IP address of the parameter area, however,is not changed, which is for querying.
0b0110 The software enters the exhibition mode.
0b1011 Erases the database.
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Value Description
0b1100 Erases the NE software, including the patches.
0b1101 Erases the database and NE software, including the patches.
0b1110 Erases the database, NE software, and NE.ini file.
0b1111 Erases the file system, extended BIOS in the flash, and system parameterarea.
Figure 12-2 Position of the jumpers of the N1GSCC (layout 2)
Powermodule
CPU
J13
J8
J12
J9J10J11
CFcard
J18
3 2 1
Table 12-3 lists the jumpers of the N1GSCC and their functions (layout 2).
Table 12-3 Jumpers of the N1GSCC (layout 2)
Jumper Function Description
J18 To enable thebattery
OFF: If jumper bits (positions) 1 and 2 are capped, thedatabase and clock are cleared.ON: If jumper bits (positions) 2 and 3 are capped, thebattery is enabled.
J19 To select the N1working mode orN3 working mode
Short-circuited on the N1 side: The board works as thesubstitute of the N1GSCC.Short-circuited on the N3 side: The board works as thesubstitute of the N3GSCC.
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Jumper Function Description
J11, J10, J9,and J8
To set the runningstate of the board
If a jumper bit is not capped, the value is 0.If a jumper bit is capped, the value is 1.The jumper bit values are queued in the descendingorder of the jumper bit numbers, and form a four-bitbinary number. The leftmost bit of this binary numberis the most significant bit. For details, refer to Table12-4.
J12 and J13 To set the inputvoltage of theequipment
When the jumpers are not capped, the equipment issupplied with the –60 V power.When the jumpers are capped, the equipment issupplied with the –48 V power.
Table 12-4 Jumpers J11, J10, J9, and J8 (layout 2)
Value Description
0b0000 Indicates the normal running state of the software.
0b0001 Indicates the commissioning state when the watchdog is stopped.
0b0010 Indicates the commissioning state when the watchdog is stopped.
0b0011 Indicates the commissioning state when the watchdog is stopped.
0b0100 Indicates the running state when the watchdog is started.
0b0101 The software is in the BIOS state. The SCC does not work even thoughthe NE software exists. The IP address of the parameter area, however,is not changed, which is for querying.
0b0110 The software enters the exhibition mode.
0b1011 Erases the database.
0b1100 Erases the NE software, including the patches.
0b1101 Erases the database and NE software, including the patches.
0b1110 Formats the file system, that is, erases all the data in the file system.
0b1111 Erases the file system, extended BIOS in the flash, and system parameterarea.
N3GSCCThe jumpers on the N3GSCC are available in two layouts, as shown in Figure 12-3 and Figure12-4.
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Figure 12-3 Position of the jumpers of the N3GSCC (layout 1)
Powermodule
CPU
J31
J11
J5
123
J30
J12J13J14
CFcard
Table 12-5 lists the jumpers of the N3GSCC and their functions (layout 1).
Table 12-5 Jumpers of the N3GSCC (layout 1)
Jumper Function Description
J5 To enable the battery 1–2: If jumper bits (positions) 1 and 2 arecapped, the battery is not enabled.2–3: If jumper bits (positions) 2 and 3 arecapped, the battery is enabled.
J14, J13, J12,and J11
To set the running state ofthe board
If a jumper bit is not capped, the value is 0.If a jumper bit is capped, the value is 1.The jumper bit values are queued in thedescending order of the jumper bit numbers,and form a four-bit binary number. The leftmostbit of this binary number is the most significantbit. For details, refer to Table 12-6.
J31 and J30 To set the input voltage ofthe equipment
When the jumpers are not capped, theequipment is supplied with the –60 V power.When the jumpers are capped, the equipment issupplied with the –48 V power.
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CAUTIONSet J31 and J30 correctly based on the power voltage provided in the telecommunications room.If J31 and J30 are set incorrectly, the POWER_ABNORMAL alarm is generated.
Table 12-6 Jumpers J14, J13, J12, and J11 (layout 1)
Value Description
0b0000 Indicates the normal running state of the software. It is the default state.
0b0001 Indicates the self-check state of SDRAM burst.
0b0011 Indicates the commissioning state.
0b0100 Indicates the running state when the watchdog is stopped.
0b0101 The software is in the BIOS state. The SCC does not work even though theNE software exists. The IP address of the parameter area, however, is notchanged, which is for querying.
0b0110 The software enters the exhibition mode.
0b1001 Indicates the running state when the watchdog is started.
0b1011 Erases the database.
0b1100 Erases the NE software, including the patches.
0b1101 Erases the database and NE software, including the patches.
0b1110 Formats the file system (including the database, NE software, and NE.inifile), that is, erases all the data in the file system.
0b1111 Erases the file system, extended BIOS in the flash, and system parameterzone.
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Figure 12-4 Position of the jumpers of the N3GSCC (layout 2)
Powermodule
CPU
J13
J8
J12
J9J10J11
CFcard
J18
3 2 1
Table 12-7 lists the jumpers of the N3GSCC and their functions (layout 2).
Table 12-7 Jumpers of the N3GSCC (layout 2)
Jumper Function Description
J18 To enable thebattery
OFF: If jumper bits (positions) 1 and 2 are capped, thedatabase and clock are cleared.ON: If jumper bits (positions) 2 and 3 are capped, thebattery is enabled.
J11, J10, J9,and J8
To set the runningstate of the board
If a jumper bit is not capped, the value is 0.If a jumper bit is capped, the value is 1.The jumper bit values are queued in the descendingorder of the jumper bit numbers, and form a four-bitbinary number. The leftmost bit of this binary numberis the most significant bit. For details, refer to Table12-8.
J12 and J13 To set the inputvoltage of theequipment
When the jumpers are not capped, the equipment issupplied with the –60 V power.When the jumpers are capped, the equipment issupplied with the –48 V power.
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CAUTIONSet J12 and J13 correctly based on the local area. If J12 and J13 are set incorrectly, thePOWER_ABNORMAL alarm is generated.
Table 12-8 Jumpers J11, J10, J9, and J8 (layout 2)
Value Description
0b0000 Indicates the normal running state of the software. It is the default state.
0b0001 Indicates the commissioning state when the watchdog is stopped.
0b0010 Indicates the commissioning state when the watchdog is stopped.
0b0011 Indicates the commissioning state when the watchdog is stopped.
0b0100 Indicates the running state when the watchdog is started.
0b0101 The software is in the BIOS state. The SCC does not work even thoughthe NE software exists. The IP address of the parameter area, however,is not changed, which is for querying.
0b0110 The software enters the exhibition mode.
0b1011 Erases the database.
0b1100 Erases the NE software, including the patches.
0b1101 Erases the database and NE software, including the patches.
0b1110 Formats the file system (including the database, NE software, andNE.ini file), that is, erases all the data in the file system.
0b1111 Erases the file system, extended BIOS in the flash, and system parameterarea.
N4GSCCFigure 12-5 shows the layout of the J2101, J7100, J3201, and J3202 jumpers on the N4GSCC.
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Figure 12-5 Position of the jumpers of the N4GSCC
Powermodule
CPU
J3202
J7100
J2101123
J3201
Table 12-9 lists the jumpers of the N4GSCC.
Table 12-9 Jumpers of the N4GSCC
Jumper Function Description
J2101 To enable thebattery
1–2: If jumper bits (positions) 1 and 2 are capped, thedatabase and clock are cleared.2–3: If jumper bits (positions) 2 and 3 are capped, thebattery is enabled. It is the default state.
J3202 andJ3201
To set the inputvoltage of theequipment
When the jumpers are not capped, the equipment issupplied with the –60 V power.When the jumpers are capped, the equipment issupplied with the –48 V power. It is the default state.
CAUTIONSet J3202 and J3201 correctly based on the power voltage provided in the telecommunicationsroom. If J3202 and J3201 are set incorrectly, the POWER_ABNORMAL alarm is generated.
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Table 12-10 Jumper J7100
Value Description
0b0000 Indicates the running state when the watchdog is started. It is the defaultstate.
0b0001 Changes to the self-test state of the SDRAM Burst.
0b0011 Indicates the commissioning state.
0b0100 Indicates the running state when the watchdog is stopped.
0b0101 The software is in the BIOS state. The SCC does not work even thoughthe NE software exists. The IP address of the parameter area, however,is not changed, which is for querying.
0b0110 The software enters the exhibition mode.
0b1001 Indicates the running state when the watchdog is started.
0b1011 Erases the database.
0b1100 Erases the NE software, including the patches.
0b1101 Erases the database and NE software, including the patches.
0b1110 Erases the database, NE software, and NE.ini file.
0b1111 Erases the extended BIOS and system parameter area in the file systemand flash memory.
12.1.2 Checking Power Jumpers on the GSCCThis topic describes how to check the power jumpers on the GSCC board.
Prerequisites
The commissioning personnel should know the actual output voltage of the power supply.
Tools, Equipment and Materials
None
Precautions
CAUTIONWear an anti-static wrist strap or a pair of gloves when performing the operation.
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ProcedureStep 1 Unlock the ejector lever on the front panel of the GSCC board. Remove the GSCC board from
slot 17. Figure 12-6 shows how to remove the GSCC board.
Figure 12-6 Illustration of removing a board
1 2
Step 2 Check the power jumper settings and modify the settings as required. By default, the powerjumpers are capped.
NOTEFor the methods and rules of setting the jumpers on the GSCC board under different voltages, see 12.1.1Power Jumpers on the GSCC.
Step 3 Insert the GSCC board back into slot 17. Figure 12-7 shows how to insert the GSCC board.
Figure 12-7 Illustration of inserting a board
1 2
3
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Step 4 Repeat steps 1-3 to check the settings on the jumpers of the GSCC board in slot 18.
----End
12.2 Checking Jumpers on the AUXThe jumper on the AUX board distinguishes a main subrack from the extended subrack. If thesubrack type is already known, you need to check whether the jumper setting on the AUX boardis according to type of the subrack.
12.2.1 Jumpers on the AUXThe jumper switch of the AUX is on the lower right side of the board.
Figure 12-8 and Figure 12-9 show the position of the jumper J9 on the AUX.
Figure 12-8 Position of the jumper J9 on the AUX(version B)
PowerModule
J9
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Figure 12-9 Position of the jumper J9 on the AUX(version C)
NOTEThe AUX is available in two versions: version B and version C. For the AUX of version C, jumper J9 isunder the daughter board. You can find it only after the daughter board is removed.
Set the jumper J9 as follows:
l To enable the subrack to work as the main subrack, cap the jumper J9.
l To enable the subrack to work as the extended subrack, do not cap the jumper J9.
12.2.2 Checking Jumpers on the AUXThis topic describes how to check the jumper setting of the AUX board.
Prerequisites
The subrack type of the equipment is known.
Tools, Equipment and Materials
None
Precautions
CAUTIONWear an anti-static wrist strap or a pair of gloves when performing the operation.
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Procedure
Step 1 Pull the top and bottom ejector levers away from the front panel of the AUX board. Figure12-10 shows how to remove the AUX board.
Figure 12-10 Illustration of removing a board
1 2
Step 2 Check the setting of the jumper J9. Modify the setting if required.By default, the jumper J9 is being capped.
Step 3 Insert the AUX board back into the original slot. Figure 12-11 shows how to insert the AUXboard.
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Figure 12-11 Illustration of inserting a board
1 2
3
----End
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13 Installing and Routing the Cables
About This Chapter
Cables are classified into external cables and internal cables. The internal cables are installed inthe equipment before delivery, but the external cables need to be installed on site.
NOTE
For the method of installing and routing the cables, see the OptiX OSN 3500 Quick Installation Guide.
NOTE
The method of installing the cables is same as the method of installing the network cables. For details, seethe description of installing network cables.
13.1 Instructions for Cable RoutingThis topic describes the general instructions for cable routing inside the cabinet.
13.2 Checking the Cable InstallationAfter installation, you need to check the necessary items.
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13.1 Instructions for Cable RoutingThis topic describes the general instructions for cable routing inside the cabinet.
Cable-Routing Holes of the Cabinetl Figure 13-1 shows the cable outlets on the top of the N63E cabinet. Figure 13-2 shows
the cable outlets at the bottom of the N63E cabinet.l Figure 13-3 shows the cable outlets on the top of the T63 cabinet. Figure 13-4 shows the
cable outlets at the bottom of the T63 cabinet.l Figure 13-5 shows the cable outlets on the top of the N66T cabinet. Figure 13-6 shows
the cable outlets at the bottom of the N66T cabinet.NOTE
The number of grounding terminals is based on the actual cabinet.
Figure 13-1 Cable outlets on the top of the N63E cabinet
Cable hole
600mm
251mm
62mm
300mm
Fiber hole Fiber holePower cable hole
M8 grounding
81mm
143mm 155mm
188mm
66mm
Cable hole Cable hole Cable hole
Figure 13-2 Cable outlets at the bottom of the N63E
360mm
184mm
Fiber hole Fiber hole
Cable hole Cable hole
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Figure 13-3 Cable outlets on the top of the T63 cabinet
110mm 110mm
15m
m
Cabling hole
Cabniet grounding terminalPower cable hole
295m
m
160m
m
200m
m
600mm
106mm 106mm200mm
Figure 13-4 Cable outlets at the bottom of the T63
295m
m
160m
m
200m
m
110mm
15m
m600mm
106mm 106mm200mm
Power cable hole
Cabling hole
Cabniet installtion hole
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Figure 13-5 Cable outlets on the top of the N66T cabinet
Power cable hole
Power cable hole Cabling hole
Figure 13-6 Cable outlets at the bottom of the N66T cabinet
Cabling hole
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Area for the Cable-Routing ChannelAn isolating plate is available in the cable-routing channel to divide the cable-routing channelinto the upper and lower layers. In this case, fiber jumpers can be protected, and route powercables and signal cables can be routed separately.
To route cables, comply with the following rules:
l If no power cables are routed in the cable-routing channel, route fiber jumpers at the upperlayer, and route network cables at the lower layer.
l If certain power cables are routed in the cable-routing channel, route fiber jumpers andnetwork cables at the upper layer, and route power cables at the lower layer.
l If certain E1 cables are routed in the cable-routing channel, route fiber jumpers at the upperlayer, and route network cables at the lower layer.
General Instructions for Cable RoutingThe cables of the equipment are routed as follows:l The external power cables, grounding cables, and signal cables of the cabinet are routed
separately with the spacing of more than three centimeters.l After the power cables of the subrack are bound on to the cable distribution frame, they are
routed to the rear part of the two side panels of the cabinet, and then routed to the powerbox along the rear part of the side panels.
l The power cables of the IF board connect the IF power board to the IF board. If the IFpower cable is redundant in the cable-routing channel, bundle the remaining part of the IFpower cable on the vertical column or at the cable-routing area on the side of the cabinet.
l The method of routing the IF cables is the same as the method of routing the signal cables.l In the case of upward cabling, the signal cables of the upper subrack are led out from the
cable-through holes in the top middle of the cabinet, and the signal cables of the lowersubrack are led out from the cable-through holes on the two sides of the top of the cabinet.
l In the case of upward cabling, the signal cables of the upper and lower subracks are led outfrom the cable-through holes on the two sides of the bottom of the cabinet.
13.2 Checking the Cable InstallationAfter installation, you need to check the necessary items.
The following requirements should be met when the cable installation is completed.
l All cables are bound with proper tightness. The spacing between the cable ties is even, andthe remaining parts of the cable ties are cut off neatly. All cable ties face the same direction,thus keeping the overall appearance nice.
l All cables are arranged smoothly, with no roundabout twists and turns.l When a trough is used for cabling outside the cabinet, do not make the cables overflow the
trough.l Cables shall be secured on the beam of the cabling frame, if such a cabling frame is used
for cabling. They shall be bound neatly in rectangle shape (or in circular shape when thecables are single-cored).
l If need, bend the cables in a radius as large as possible. The cables cannot be bound wherethey are bent.
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l The -48 V/-60 V cable shall be blue, 0 V cable be black, and PGND cable be yellow/greenor yellow.
l The power cables are connected correctly and firmly.l The diameter of the power cables meets the power distribution requirements.l The external power cables are arranged separately from signal cables, with a space of more
than 3 cm.l The power cables are bent smoothly.l The power cables must be made of an entire piece of copper core, without any joint in the
middle.l Labels for the power cables are filled in and affixed to the cables as required. All labels are
neat and face the same direction.
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14 Installing and Routing Fiber Jumpers
About This Chapter
The fiber jumpers are divided into internal fiber jumpers and external fiber jumpers. Internalfiber jumpers are used for connecting optical interfaces within a cabinet. The external fiberjumpers are used for connecting the optical interfaces of a cabinet to the optical interfaces ofother cabinets or peripherals. While external fiber jumpers are used for connecting opticalinterfaces of a cabinet with those of other cabinets or peripherals.
NOTE
For the method of installing and routing fiber jumpers, see the OptiX OSN 3500 Quick InstallationGuide.
14.1 Fiber JumpersThe fiber jumpers are used to connect the optical boards on one subrack with those in othercabinets or other equipment. All fiber jumpers can be transferred by an external opticaldistribution frame (ODF).
14.2 Instructions for Fiber Jumper RoutingThis topic describes the general instructions for routing fiber jumpers inside the cabinet.
14.3 Checking the Fiber Jumper InstallationYou need to check the fiber jumper after it is installed.
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14.1 Fiber JumpersThe fiber jumpers are used to connect the optical boards on one subrack with those in othercabinets or other equipment. All fiber jumpers can be transferred by an external opticaldistribution frame (ODF).
Fiber connectors are of different types. See Figure 14-1.
Figure 14-1 Fiber connectors
Protective cap
FC/PC connector
LC/PC connector
SC/PC connector
Protective cap
Protective cap
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CAUTIONl Use an attenuator if the optical power is too high. A high receiver optical power causes
damage to the optical interface.l Connect an attenuator to a slanting optical interface. Insert the attenuator in the IN port, not
the OUT port.l Do not connect any attenuator to the level optical interface. Use the optical distribution frame
to connect an attenuator to a level optical interface.
14.2 Instructions for Fiber Jumper RoutingThis topic describes the general instructions for routing fiber jumpers inside the cabinet.
Cable-Routing Holes of the CabinetFigure 14-2 shows the cable-through holes on the top of the N63E cabinet.Figure 14-3 showsthe cable-through holes at the bottom of the N63E cabinet. Figure 14-4 shows the cable-throughholes on the top of the T6E3 cabinet. Figure 14-5 shows the cable-through holes at the bottomof the T63 cabinet.
NOTE
The number of grounding terminals is based on the actual cabinet.
Figure 14-2 Cable-through holes on the top of the N63E cabinet
Cable hole
600mm
251mm
62mm
300mm
Fiber hole Fiber holePower cable hole
M8 grounding
81mm
143mm 155mm
188mm
66mm
Cable hole Cable hole Cable hole
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Figure 14-3 Cable-through holes at the bottom of the N63E cabinet
360mm
184mm
Fiber hole Fiber hole
Cable hole Cable hole
Figure 14-4 Cable-through holes on the top of the T63 cabinet
110mm 110mm
15m
m
Cabling hole
Cabniet grounding terminalPower cable hole
295m
m
160m
m
200m
m
600mm
106mm 106mm200mm
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Figure 14-5 Cable-through holes at the bottom of the T63 cabinet
295m
m
160m
m
200m
m
110mm
15m
m
600mm
106mm 106mm200mm
Power cable hole
Cabling hole
Cabniet installtion hole
Area for the Cable-Routing Channel
An isolating plate that is available in the cable-routing channel divides the cable-routing channelinto the upper and lower layers. In this case, fiber jumpers can be protected, and power cablesand signal cables can be routed separately.
To route cables, comply with the following rules:
l If no power cables are routed in the cable-routing channel, route fiber jumpers at the upperlayer, and route network cables at the lower layer.
l If certain power cables are routed in the cable-routing channel, route fiber jumpers andnetwork cables at the upper layer, and route power cables at the lower layer.
l If certain signal cables are routed in the cable-routing channel, route fiber jumpers at theupper layer, and route network cables and signal cables at the lower layer.
General Instructions for Fiber Jumper Routing
The fiber jumpers of the equipment are routed as follows:
l The fiber jumpers are routed on to the front vertical columns on the two sides of the cabinet.
l The fiber jumpers of the equipment are led out through the cable-through holes of thecabinet.
l When the fiber jumpers are led from the cabinet to the ODF, you must add an opencorrugated pipe whose two ends are led into the cabinet and the ODF for 10 cm.
l The fiber jumpers should be fixed neatly on the ODF and should be interconnected to therelevant terminals properly. The remaining fiber jumpers should be spooled in order.
l When you route the internal fiber jumpers, the remaining fiber jumpers should be spooledin the fiber spool box in order.
l The layout and connection of the fiber jumpers should comply with the layout andconnection specified in the design documents. Certain attenuators need to be addedaccording to the requirements of the engineering design.
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l The bend radius of the fiber jumper must be greater than its minimum curvature radius.Specifically, the minimum curvature radius for the 2 mm fiber jumper is 40 mm, and thatfor the 3 mm fiber jumper is 60 mm.
14.3 Checking the Fiber Jumper InstallationYou need to check the fiber jumper after it is installed.
When checking the installation, ensure that the following requirements are met:
l The labels are attached neatly at both the ends of the fiber jumper, and face the samedirection. The contents on the labels are correct and legible.
l The connection between the fiber jumper and the optical interface board or the flange isfirm.
l The connecting point for the fiber jumper is clean.l All fiber jumpers are bundled neatly with even spacing and proper tightness.l Fiber jumpers can be moved freely in the cable tie.l Apply proper force when routing the fiber jumpers. Do not bend or pull the fiber jumpers
forcibly.l Fiber jumpers are routed in such a manner that they facilitate maintenance and capacity
expansion.l The fiber jumpers are secured smoothly and interconnected reliably in the ODF. The
redundant fiber jumpers are coiled neatly.l There are no other cables or articles on the fiber jumpers.
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15 Installing the Orderwire Phone
One orderwire phone is delivered with one cabinet.
NOTE
For the method of installing the orderwire phone, see the OptiX OSN 3500 Quick Installation Guide.
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16 Installing Doors of the Cabinet
About This Chapter
Install the side panels first, and then install the front door.
NOTE
For the method of installing doors of the cabinet, see the N63E Cabinet Installation Guide.
16.1 Affixing the Cabinet LabelsIf there is only one cabinet in the equipment room, the cabinet label can be omitted. If there aremultiple cabinets in the equipment room, it is need to affix a label on each cabinet.
16.2 Checking the Doors InstallationAfter installing the doors, you need to check the necessary items.
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16.1 Affixing the Cabinet LabelsIf there is only one cabinet in the equipment room, the cabinet label can be omitted. If there aremultiple cabinets in the equipment room, it is need to affix a label on each cabinet.
16.1.1 Cabinet LabelsIt is required to Affix the Cabinet Labels after the cabinet has been installed.
Table 16-1 shows the content of the cabinet labels.
Table 16-1 Content of the cabinet labels
Content Meaning Remarks
MNO M: row numberN: columnnumberO: direction ofthe cabinet
The cabinet rows in the equipment room are numbered A-Z (row number). The cabinets in each row are numbered00-99 (column number) from left to right. For example:A01, as shown in Figure 16-1.When the cabinets are installed back to back, "O" is usedto indicate the front facing direction of the cabinet,represented by A or B. For example, A01A.
Figure 16-1 Position numbers of the equipment
00 01 02
00 01 02
00 01 02
A
B
.
.
.
.
.
.
G
16.1.2 Locating the Cabinet and Affixing the LabelThis procedure guides you to affix the cabinet label.
PrerequisitesThe cabinet has been installed.
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Tools, Equipment and MaterialsCabinet labels
Procedure
Step 1 Confirm the content of the cabinet label according to Table 16-1 and the position of the cabinet.
Step 2 Affix the corresponding row label and column label to the upper left corner of the cabinet lintel.
----End
16.2 Checking the Doors InstallationAfter installing the doors, you need to check the necessary items.
Check the following items:
l The front door and the side doors have been installed correctly.l The front door of the cabinet is easily open and closed.
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17 Hardware Installation Checklist
About This Chapter
This chapter describes check items for the OptiX OSN device hardware installation. To ensuresecure and stable operation of the system, check whether the equipment is installed accordingto the following items after the installation is complete.
17.1 Checking the CabinetThis section describes the check items for the cabinet installation.
17.2 Checking the SubrackThis section describes the check items for the subrack installation.
17.3 Checking the BoardThis section describes the check items for board installation.
17.4 Checking the Cable RoutingThis section describes the check items for the cable routing.
17.5 Checking the Fiber Jumper InstallationThis topic describes the check items for the fiber jumper installation.
17.6 Checking the UPM Power SystemThis topic describes the check items for the UPM power system installation.
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17.1 Checking the CabinetThis section describes the check items for the cabinet installation.
Table 17-1 lists the check items for the cabinet installation.
Table 17-1 Check items for the cabinet installation
No Item
1 The installation position of the cabinet must be correct, and meet therequirements in the engineering design drawing.
2 The grounding cables should be correctly installed.
3 No other objects are in the cabinet.
4 The egress hole on the top of the cabinet for cables must face against the cablerouting trough in the equipment room.
5 The cabinet reinforce must be properly installed. Check whether the screws aretightened.
6 After installing the cabinet fixing parts, screw tight the fastening bolts.
7 The anti-static wrist strap is still exclusively available.
8 The circuit boards must be able to be inserted and removed smoothly.
9 Insulation pads and plates must be installed.
10 Doors and locks must be closed and opened smoothly.
11 Cabinets must be labeled.
12 Blank front panels and cover plates must be installed.
13 There should be no distorted parts in the equipment.
14 The surfaces of each row of cabinets should be co-planed. The cabinets shouldbe tightly and orderly arranged without irregularity
15 The closed side doors along the walkway should be lined up with a deviationless than 5 mm after all cabinet doors along the main walkway are installed.
16 The screws between the bracket and the ground, the bracket and the cabinet,must be installed in a correct manner. Verify that all required screws areinstalled firmly. The flat washer and the spring washer must be installed in thecorrect order.
17 There should be no paint falling or dirt that affects the equipment appearance.If there is any, clear the dirt or patch the paint.
18 Take an overall observation of the cabinets. The cabinets should be alignedneatly and tightly with a vertical deviation less than 3 mm. The front of all thecabinets in a row should be aligned in a straight line. So is the rear.
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No Item
19 If Huawei delivers supports and cabinets with insulating accessories, insulationshould be guaranteed between the cabinets and supports. For self-made bases,insulation with the floor or with the cabinet are recommended.
NOTE
Focusing on the installation regulations, firmness, grounding and others, which includes side panel.
17.2 Checking the SubrackThis section describes the check items for the subrack installation.
Table 17-2 lists the check items for the subrack installation.
Table 17-2 Check items for the subrack installation
No Item
1 The subrack is properly grounded.
2 No objects must be in the idle slot. And the front panel should be installed to coverthe empty slot.
3 The cable routing trough should not be damaged. And it should be connected firmlywith the subrack.
NOTE
Focusing on the pin of the mother board, whether there are foreign matters in the subrack and whether theboards are well inserted.
17.3 Checking the BoardThis section describes the check items for board installation.
Table 17-3 lists the check items for board installation.
Table 17-3 Check items for board installation
No Item
1 All the boards should be completely inserted into the slot. And the front panels arewell locked.
2 The identifiers on the front panels of the boards are correct and clear.
3 The unused optical interfaces on the board must be covered with the fiber caps.
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17.4 Checking the Cable RoutingThis section describes the check items for the cable routing.
Table 17-4 lists the check items for the cable routing.
Table 17-4 Check items for the cable routing
No. Item
1 The labels of the cables are properly pasted.
2 All cables are arranged smoothly, with no roundabout twists and turns.
3 Cables shall be secured on the beam of the cabling ladder.
4 The trough is needed for cabling outside the cabinet. Do not make the cables overflowthe trough.
5 The power cable and PGND cable are bent smoothly.
6 The power cable and PGND cable are connected correctly and firmly.
7 The grounding cable of the cabinet door should be connected correctly and reliably.
8 The diameter of the power cable and PGND cable meets the power distributionrequirements.
9 The external power cable and PGND cable are arranged separately from signal cables,with a space of more than 30 mm.
10 If there are many cables, they shall be bound neatly in rectangle shape (or in circularshape when the cables are single-cored).
11 Bend the cables in a radius (more than three times the diameter of the cables) as largeas possible. The cables cannot be bound where they are bent.
12 The fiber should not be routed by force or bent unnaturally. The fibers should not becompressed by other cables after fiber routing.
13 When the power cable or grounding cable is connected to a lug on site, solder or firmit.
14 Use protection tubes or insulating adhesive plasters to wrap power cables, nakedcables and lug stems. There should be no bare copper wires in lugs or terminals.Spring washers and flat washers should be installed properly.
14 Properly and reliably ground all cabinets and subracks that have or partly have metalshells.
16 All fibers are bound with proper tightness. The space between the cable ties is even,and the remaining parts of the cable ties are cut off neatly. All cable ties face the samedirection. The overall appearance is then kept nice.
17 The -48V power cable should be blue. The grounding cable should be black. ThePGND is yellow and green or completely yellow.
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No. Item
18 Power cables and grounding cables should be integrated copper cable with no joint.
19 Power cables and grounding cables should be labeled neatly toward the samedirection for convenient view.
17.5 Checking the Fiber Jumper InstallationThis topic describes the check items for the fiber jumper installation.
Table 17-5 lists the check items for the fiber jumper installation.
Table 17-5 Check items for the fiber jumper installation
No. Item
1 The labels are attached neatly at two ends of the fiber jumper, facing the samedirection. The contents on them are correct and clear.
2 The connection between the fiber jumper and the optical interface board or the flangeis firm.
3 The connecting point for the fiber jumper is clean.
4 All fiber jumpers are nicely bundled in even spacing with proper tightness.
5 Fiber jumpers can be moved freely in the cable tie.
6 The radius of the routed cables must be equal to or more than 40 mm.
7 Fiber jumpers routed from the equipment to the ODF must be covered with aprotective pipe, whose two ends must be led to the inside of the equipment for 10cm.
8 In routing, the fiber jumpers shall not be pulled or dragged with great force or bentforcibly.
9 Fiber jumpers are routed in a way convenient for maintenance and capacityexpansion.
10 Routing of the fiber jumpers complies with the engineering design.
11 The fiber jumpers are secured smoothly and interconnected reliably in the ODF. Theredundant fiber jumpers are coiled tidily.
12 There shall be no other cable or article on the fiber jumpers.
17.6 Checking the UPM Power SystemThis topic describes the check items for the UPM power system installation.
Table 17-6 lists the check items for the UPM power system installation.
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Table 17-6 Check items for the standard UPM installation
No. Item
1 Only qualified personnel should replace the rectifier.
2 Ensure that the frame and the assembly unit are installed stably.
3 Check the AC cable routing according to the design document.
4 Ensure that the colors of the AC cables meet the specified requirements, the originalcables in the subrack are not loose, and the safety identification marks of the ACpower distribution unit are complete.
5 Check the connection point between the D.C. power output and the battery, thenumber, the wire sequence, and the wire polarities. Ensure that the connection pointsof the cables are fixed.
6 Ensure that the bus bar is connected correctly and firmly.
7 Ensure that the air switch on the panel of the power distribution unit is in the offposition (that is, the air switch is turned downward). Ensure that the power is usedsafely.
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18 Powering on the Equipment
About This Chapter
This topic describes how to power on the equipment.
DANGERDo not touch the equipment power supply directly or indirectly through a damp object to preventpersonal injury.
To power on the equipment, perform the following operations.
18.1 Checking Fuse Currents of the Power SupplyThis task is performed to check the supply current of the power supply device and to ensure thefuse current meets the requirements of the OptiX OSN equipment.
18.2 Checking Resistance Between the Power Input Terminals of the DC PDUTest the resistance between the power supply input terminals when the power switch is turnedto the ON side and OFF side. According to the test result, you can check whether the DC PDUworks normally, and whether the cabinet power cable, cabinet PGND cable and DC PDU PGNDcable are connected correctly. This section describes how to test the resistance between the powerinput terminals of the DC PDU and the check criteria.
18.3 Powering on a CabinetIf the cabinet power voltage is abnormal, the OptiX OSN equipment operates in an abnormalmanner or fails to operate. This section describes how to power on the cabinet and test the powervoltage. Perform this task to ensure the voltage of the power supply meets the requirements ofthe OptiX OSN equipment.
18.4 Powering On the SubrackTo power on the subrack is the last step to power on the equipment. To prevent effect caused bymis-installation to powering on the equipment, check the installation and the routing of powercables before powering on the subrack. This section describes how to check the hardwareinstallation.
18.5 Observing the Fan Running Status
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After a subrack is switched on, fans start to operate. The fan indicators indicate the working stateof the fans. If the indicator indicates that the fan is faulty, replace the faulty fan in time. Thissection describes how to determine the state of the fan hardware by observing the fan indicators.
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18.1 Checking Fuse Currents of the Power SupplyThis task is performed to check the supply current of the power supply device and to ensure thefuse current meets the requirements of the OptiX OSN equipment.
PrerequisitesThe power supply device must have been installed and tested.
Tools, Equipment and MaterialsNone
Background InformationThe internal power supply system consists of the PDU and PIU. For details on the mapping rules,see 2.3 Mapping Policies of Power Consumption of the Hardware Description.
If you need to choose a fuse according to the actual configuration, calculate the fuse capacityby using the following formulas:
l -48 V power system: Fuse capacity = (Total power consumption x 1.5)/42l -60 V power system: Fuse capacity = (Total power consumption x 1.5)/52.5
The specifications of fuse capacity in the market are limited. Hence, select the minimum fusecapacity that is higher than the value obtained after the calculation.
Procedure
Step 1 Check the maximum power consumption and fuse current of the OptiX OSN equipment.
Step 2 Compute the fuse current of the power supply device with a joint consideration of the equipmentconfiguration in the equipment room.
NOTE
When considering the fuse current in the equipment room, in addition to the power consumption of theequipment, you need to compute the power consumption of the ODU. That is, the fuse current in theequipment room is not less than the total power consumption of the equipment and ODU.
Step 3 Check if fuse current of the power supply device meets the requirement.
----End
18.2 Checking Resistance Between the Power InputTerminals of the DC PDU
Test the resistance between the power supply input terminals when the power switch is turnedto the ON side and OFF side. According to the test result, you can check whether the DC PDUworks normally, and whether the cabinet power cable, cabinet PGND cable and DC PDU PGNDcable are connected correctly. This section describes how to test the resistance between the powerinput terminals of the DC PDU and the check criteria.
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PrerequisitesThe cabinet power cable, cabinet PGND cable and PDU PGND cable must be installed androuted
Tools, Equipment and MaterialsMultimeter
Background InformationPresent at the top of the cabinet, the DC PDU accesses -48 V DC or -60 V DC power and suppliespower to each subrack housed in the cabinet. Figure 18-1, Figure 18-3 and Figure 18-2 showthe positions of power terminals of the DC PDU.
Figure 18-1 Positions of power terminals of the N1PDU
NEG2(-)
INPUT
RTN2(+)RTN1(+) NEG1(-)
SW3/20A
SW1/32A
SW2/32A
SW4/20A
ON
OFFSW3/20A
SW1/32A
SW2/32A
SW4/20A
ON
OFF
1 2 3 4 1 2 3 4
PGND
Power cable polesNEG(-)
Subrack power switchesPower cable polesRTN(+)
Subrack power switches
Table 18-1 Power input terminal pairs for the test of N1PDU
Power Input Terminal 1 Power Input Terminal 2
NEG1(-) RTN1(+)
NEG1(-) RTN2(+)
NEG1(-)PGND
NEG2(-) RTN1(+)
NEG2(-) RTN2(+)
NEG2(-)PGND
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Figure 18-2 Positions of power terminals of the TN51PDU
Part B power output terminals
NEG (-)
PGND terminal
1 2 3 4
INPUT A
1 2 3 4
OUTPUT A
1 2 3 4
INPUT B
RTN(+) RTN(+) RTN(+) RTN(+)NEG(-) NEG(-) NEG(-) NEG(-)
1 2 3 4
RTN(+) RTN(+) RTN(+) RTN(+)NEG(-) NEG(-) NEG(-) NEG(-)
1 2 3 4
- - - -+ + + +1 2 3 4
- - - -+ + + +1 2 3 4
SW1 SW2 SW3 SW4SW1 SW2 SW3 SW41 2 3 4
OUTPUT B
Part A power output terminals
NEG (-)
Part A power intput terminals
RTN (+)
Part B power intput terminals
RTN (+)
Part A power output
terminals RTN (+)
Part B power output
terminals RTN (+)
Part B power intput
terminals NEG (-)
Part A power intput
terminals NEG (-)
Part A subrack power
switches
Part B subrack power
switches
NOTE
The power input terminal pairs for the test of part B are the same as those of part A.
Table 18-2 Power input terminal pairs for the test of TN51PDU part A
Power Input Terminal 1 Power Input Terminal 2
NEG1(-) RTN1(+)
NEG1(-) RTN2(+)
NEG1(-) RTN3(+)
NEG1(-) RTN4(+)
NEG1(-)PGND
NEG2(-) RTN1(+)
NEG2(-) RTN2(+)
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Power Input Terminal 1 Power Input Terminal 2
NEG2(-) RTN3(+)
NEG2(-) RTN4(+)
NEG2(-)PGND
NEG3(-) RTN1(+)
NEG3(-) RTN2(+)
NEG3(-) RTN3(+)
NEG3(-) RTN4(+)
NEG3(-)PGND
NEG4(-) RTN1(+)
NEG4(-) RTN2(+)
NEG4(-) RTN3(+)
NEG4(-) RTN4(+)
NEG4(-)PGND
Figure 18-3 Positions of power terminals of the DPD63-8-8, DPD100-2-8
Part A power input terminals NEG (-)
Part A power input terminals RTN(+)
Part B power input
terminals RTN(+)
Part A power input terminals NEG(-)
PGND terminal
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NOTE
The power input terminal pairs for the test of part B are the same as those of part A.
Table 18-3 Power input terminal pairs for the test of DPD63-8-8 part A
Power Input Terminal 1 Power Input Terminal 2
NEG1(-) RTN1(+)
NEG1(-) RTN2(+)
NEG1(-) RTN3(+)
NEG1(-) RTN4(+)
NEG1(-)PGND
NEG2(-) RTN1(+)
NEG2(-) RTN2(+)
NEG2(-) RTN3(+)
NEG2(-) RTN4(+)
NEG2(-)PGND
NEG3(-) RTN1(+)
NEG3(-) RTN2(+)
NEG3(-) RTN3(+)
NEG3(-) RTN4(+)
NEG3(-)PGND
NEG4(-) RTN1(+)
NEG4(-) RTN2(+)
NEG4(-) RTN3(+)
NEG4(-) RTN4(+)
NEG4(-)PGND
Table 18-4 Power input terminal pairs for the test of DPD100-2-8 part A
Power Input Terminal 1 Power Input Terminal 2
NEG1-4(-) RTN1-4(+)
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Power Input Terminal 1 Power Input Terminal 2
NEG1-4(-)PGND
Precautions
WARNINGBefore measuring the resistance between the power input terminals of the DC PDU, make surethat the switch of the external power supply device is turned to the OFF side.
CAUTIONIf a power monitor device is installed on the power supply device, disconnect the power supplydevice and the power monitor device before the test. Otherwise, the test result may be affected.
Procedure
Step 1 Turn all the subrack power switches on the DC PDU to the OFF side.
Step 2 Use a multimeter to test the resistance between the power input terminals of the DC PDU. Thetested resistance should be infinite.l N1PDU: Figure 18-1 shows the positions of power input terminals. Table 18-1 lists the
power input terminal pairs for the test.l TN51PDU: Use a multimeter to test the resistance between the power input terminals of part
A and part B of the DC PDU separately. Figure 18-2 shows the positions of power inputterminals. Table 18-2 lists the power input terminal pairs for the test.
l DPD100-2-8: Use a multimeter to test the resistance between the power input terminals ofpart A and part B of the DC PDU separately. Figure 18-3 shows the positions of power inputterminals. Table 18-4 lists the power input terminal pairs for the test.
l DPD63-8-8: Use a multimeter to test the resistance between the power input terminals ofpart A and part B of the DC PDU separately. Figure 18-3 shows the positions of power inputterminals. Table 18-3 lists the power input terminal pairs for the test.
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CAUTIONIf the tested resistance of a pair of power terminal is not infinite, it indicates that a fault occursbetween these power terminals. In this case, you need to rectify the fault and then proceed withthe test in Step 2.
Step 3 Turn all the subrack power switches on the DC PDU to the ON side.
Step 4 Use the multimeter to test the resistance between each power input terminal pair listed in Step2. The tested resistance should be larger than 20k ohms.
CAUTIONIf the tested resistance is less than 20k ohms, it indicates that the power supply is faulty. In thiscase, find the cause and rectify the fault.
Step 5 Turn all the subrack switches to the OFF side.
----End
18.3 Powering on a CabinetIf the cabinet power voltage is abnormal, the OptiX OSN equipment operates in an abnormalmanner or fails to operate. This section describes how to power on the cabinet and test the powervoltage. Perform this task to ensure the voltage of the power supply meets the requirements ofthe OptiX OSN equipment.
Prerequisites
The following tasks must have been performed:
l Checking the fuse currents of the power supply.
l Testing the resistance between the power cable poles of the cabinet.
Tools, Equipment and Materials
Multimeter
Precautions
CAUTIONIf the output voltage of the power supply device is not within this working range, reconstructionshould be made and power-on is forbidden.
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Procedure
Step 1 Make sure the switch of the OptiX OSN subrack is off.
Step 2 Switch on the power supply device.
Step 3 Connect the positive pole of the multimeter to NEG(-) and the negative pole to RTN(+). Thepower cable poles are on the DC PDU. Test the voltage between RTN(+) and NEG(-).l The voltage should range from -38.4 V to -57.6 V, if the standard input voltage is -48 V.l The voltage should range from -48.0 V to -72.0 V, if the standard input voltage is -60 V.
NOTE
Test the input and output voltages of the PDU to check whether cables inside the PDU are properlyconnected. Generally, the difference between the input and output voltages is about 0.1 V, and does notexceed 0.2 V in normal state.
----End
18.4 Powering On the SubrackTo power on the subrack is the last step to power on the equipment. To prevent effect caused bymis-installation to powering on the equipment, check the installation and the routing of powercables before powering on the subrack. This section describes how to check the hardwareinstallation.
18.4.1 Subrack Power SwitchThis section describes the mapping relations between the subrack power switches and the PIUboard.
Figure 18-4 shows the mapping relations between the subrack power switches and the PIUboards of the OptiX OSN 3500.
NOTE
The OptiX OSN 3500 has a high power consumption, so the power switches 1 and 2 should be used.
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Figure 18-4 Mapping relation between the subrack power switches and the PIU boards
NIPIU NIPIU
28 PIUSlotSlot 27 PIU
Note: Subrack power switch No. 1 is used for the lower subrack.Sburack power switch No. 2 is used for the upper subrack.
Power module A
ONOFF
ONOFF
Power module B
sw1sw2 sw3sw4
1 2 3 4
sw1sw2 sw3sw4
1 2 3 4
Subrack powerswitchs(left)
Subrack powerswitchs(right)
18.4.2 Powering on a SubrackThis task is performed to make sure the equipment can be normally powered on.
Prerequisites
The cabinet must have been powered on.
Tools, Equipment and Materials
Screwdriver
Caution
DANGERDirect contact with the high-voltage power supply or contact through damp objects may resultin serious injury or death.
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WARNINGDo not remove the power cable from the subrack and do not reseat the power board (PIU) of thesubrack when the power is on.
ProcedureStep 1 Check whether the subrack power cables are connected to PIU board of the subrack in a correct
manner.l The subrack power cables at the power module A must be connected to the PIU board in slot
27.l The subrack power cables at the power module B must be connected to the PIU board in slot
28.NOTE
l The difference between the two PIU input voltages cannot exceed 0.2 V.l The two PIU input currents must be equalized.
Step 2 Check if all power connectors are connected tightly. If not, use the screw driver to tighten thecaptive screws on the connectors of power cables.
Step 3 Turn the subrack power switch to the ON side. The switch is on the DC PDU and is connectedto the PIU board.
Step 4 Observe the PROG indicator of the boards.l If the PROG indicator starts to flash, it indicates that the board software is being initialized
and loaded.l When the software is successfully loaded, the PROG indicator stays green.
Step 5 Observe the PWRA and PWRB indicators on the GSCC board.l PWRA/PWRB (green): The power supply is normal.l PWRA/PWRB (red or off): The power supply is faulty. Check and clear the fault.
NOTE
l If the equipment is equipped with two PIU boards but only one of them is supplied with external power,only the PWRA or PWRB indicator stays green.
l If the equipment is equipped with only one PIU board, both the PWRA and PWRB indicators staygreen.
Step 6 Check the cabinet power indicator on the top of the cabinet. The green indicator stays on.NOTEThe indicator on the top is driven by the AUX board. Hence, the indicators on the top of the cabinet canbe lit only when the subrack is powered on and correctly connected to the AUX board.
----End
18.5 Observing the Fan Running StatusAfter a subrack is switched on, fans start to operate. The fan indicators indicate the working stateof the fans. If the indicator indicates that the fan is faulty, replace the faulty fan in time. Thissection describes how to determine the state of the fan hardware by observing the fan indicators.
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Prerequisites
The equipment must be powered on.
Tools, Equipment and Materials
None
Procedure
Step 1 Check the ventilation holes of the subrack. In normal cases, The subrack exhales weak airflow.
Step 2 Check the STATE indicator of the fan.
l If the STATE indicator is green, it indicates that the fan operates normally.
l If the STATE indicator is red, it indicates that the fan is faulty. In this case, replace the faultyfan.
l If the STATE indicator is off, it indicates that the fan is shut down automatically in case oflow temperature.
NOTEIf the fan generates abnormal sound after the equipment is powered on, power off the subrack. Removethe fan to check for objects as bundling tape. Clear the objects immediately to prevent damage to the fan.
Figure 18-5 shows the fan position.
Figure 18-5 Fan location on the OptiX OSN 3500
Subrack
Fan tray assembly
Air filter
Remove
Insert
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Step 3 If it is required to replace the fan, refer to "Replacing Fans" in the Part Replacement.
----End
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19 Checking Fiber Jumper Connection
About This Chapter
During the fiber installation, the fiber jumper may be connected incorrectly, or the attenuationmay be very high. As a result, services may fail to run normally. To prevent this, check the fiberconnection when the fiber is routed from the optical interface to the ODF.
ContextCheck the fiber jumper connection as follows:
l Use the external and stable optical source to perform the check.l Use the optical interface board to perform the check.
To check the external fiber, use the similar method of checking the internal fiber. This chapterconsiders the external fiber as an example.
NOTE
Use external and stable optical source with priority to perform the check. If no stable optical source isavailable on the test site, use the optical interface board to perform the check.
19.1 Using External and Stable Optical Source for the CheckUse the external and stable optical source for the check.
19.2 Using the Optical Interface Board for the CheckUse the optical interface board for the check.
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19.1 Using External and Stable Optical Source for the CheckUse the external and stable optical source for the check.
PrerequisitesThe fiber jumper should be installed and routed from the optical interface to the ODF.
Tools, Equipment and MaterialsOptical power meter, Stable optical source, Short fiber jumper
Precautions
DANGERWhen checking the fiber jumper connection, avoid direct eye exposure to the laser.
CAUTIONIf the difference between A and B is less than 2 dBm when the flange is used to connect the fiberjumper during the check, it indicates that the fiber jumper is correctly connected and the fiberattenuation is within the normal range.
Procedure
Step 1 Use a short fiber to connect the optical power meter to the stable optical source.
Step 2 Power on the stable optical source and the optical power meter. Set the working wavelengths asthe same for them. The launched optical power of the stable optical source is measured A.
Step 3 At the subrack side, connect the fiber connected to the OUT port of an optical interface boardto stable optical source.
Step 4 At the ODF frame side, connect the other end of the fiber jumper to the optical power meter.The optical power of the optical power meter is measured B.
Step 5 Compare A with B.l If the difference is less than 1 dBm, the fiber connection is proper and the fiber attenuation
is within the normal range.l If the difference is more than 1 dBm, make sure the fiber jumper is fine, and is correctly
routed, and then check whether the fiber header is clean.
Step 6 Check the fiber jumper connected to the IN port by the similar means.
Step 7 Recover the fiber jumper connection at the subrack side and the ODF side.
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Step 8 Perform the Steps 1-7 to check other optical interfaces.
----End
Connection Diagram for the CheckTo check the fiber connection by using the external and stable optical source, connect the fiberjumper to the optical power meter at the ODF side, and connect the fiber jumper to the opticalsource at the subrack side. Figure 19-1 shows the connection diagram.
Figure 19-1 Connection diagram for the check by using external and stable optical source
ODF
Optical powermeter
Fiber jumperfor the check
Stable opticalsource
External cable
ODF side Subrack side
19.2 Using the Optical Interface Board for the CheckUse the optical interface board for the check.
PrerequisitesThe fiber jumper should be installed and routed from the optical interface to the ODF.
At the power supply side, the corresponding switch must be turned on.
Tools, Equipment and MaterialsOptical power meter, short fiber jumper
Precautions
DANGERWhen checking the fiber jumper connection, avoid direct eye exposure to the laser.
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CAUTIONIf the difference between A and B is less than 2 dBm when the flange is used to connect the fiberjumper during the check, it indicates that the fiber jumper is correctly connected and the fiberattenuation is within the normal range.
Procedure
Step 1 Remove the fiber jumper connected to the OUT port of an optical interface borad at the subrackside.
Step 2 Use the fiber jumper to connect the optical power meter to the OUT port of an optical interfaceboard.
Step 3 Power on the optical power meter. Set the working wavelength of the optical power meteraccording to the type of the optical interface. The launched optical power of the optical interfaceboard is measured A.
Step 4 Insert the fiber jumper back to the original OUT port.
Step 5 At the ODF side, connect the fiber jumper connected to the OUT port to the optical power meter.The optical power is measured B.
Step 6 Remove the fiber jumper connected to the OUT port of the corrsponding optical interface board.The optical power meter reads LO. No optical signals are received.
Step 7 Compare A with B.l If the difference is less than 1 dBm, the fiber connection is proper and the fiber attenuation
is within the normal range.l If the difference is more than 1 dBm, make sure the fiber jumper is fine, and is correctly
routed, and then check whether the fiber header is clean.
Step 8 Insert the fiber jumper connected to the IN port to the OUT port. Check the fiber jumperconnected to the IN port by the similar means.
Step 9 Recover the fiber jumper connection at the subrack side and the ODF side.
Step 10 Perform the Steps 1-9 to check other optical interfaces.
----End
Connection Diagram for the CheckTo check the fiber jumper connection by using the external and stable optical source, connectthe fiber jumper to the optical power meter at the ODF side, and connect the fiber jumper to theoptical source at the subrack side. Figure 19-2 shows the connection diagram.
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Figure 19-2 Connection diagram for the check by using the optical interface board
Fiber jumperconnected to the
OUT port
Optical power meter
ODF
External cable
ODF side Subrack side
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20 Installing the Subrack and the Boards
About This Chapter
Generally, the subracks are installed in the cabinet. If the subracks are not installed in the cabinet,follow the relevant procedure to install the subracks on site.
20.1 Installing the SubrackThis topic describes how to install the subrack into the cabinet. To remove the subrack from thecabinet, follow the process for installing the cabinet in the reverse order.
20.2 Installing the BoardsThis procedure guides you to install the boards into the subrack.
20.3 Removing the BoardsThis procedure guides you to remove the boards from the subrack.
20.4 Checking the Subrack and the Boards InstallationAfter installation, you need to check the necessary items.
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20.1 Installing the SubrackThis topic describes how to install the subrack into the cabinet. To remove the subrack from thecabinet, follow the process for installing the cabinet in the reverse order.
Background Information
20.1.1 Subrack Position in the CabinetThis topic describes the installation position of the subrack in the cabinet.
The subrack is installed on the cabinet by using the mounting ears. Generally, floating nuts areinstalled in a correct position for the mounting ears at delivery. If the floating nuts are notinstalled, install the nuts. See Figure 20-2.
Before installing the subrack, see Figure 20-1 to ensure that the installation position of themounting ears of the subrack matches the cabinet to be installed.
Figure 20-1 Installation position for the mounting ears
Installation holes of the mounting ears of the
subrack in the T63 cabinet
Installation holes of the mounting ears of the
subrack in the N63E cabinet
NOTE
By default, the mounting ears of the subrack are installed in the holes for the mounting ears of the N63Ecabinet.
Install the subrack in the lower part of the cabinet, and then install the subrack in the upper part.If only one subrack is required, install it in the lower part of the cabinet.
Figure 20-3 shows the position of the subrack in the 2200mm-high cabinet.
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Figure 20-2 Installing floating nuts
Floating nut
Installation hole
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Figure 20-3 Position for the subrack in the cabinet
Structural component
Installation holes on one column
Lower subrack 11, 13, 20, 22
46, 48, 55, 57
Power distribution unit 78, 82
Upper subrack
20.1.2 Installing the Subrack into the CabinetThis procedure describes how to install the subrack into the cabinet by using the screws.
Prerequisites
The subrack must be transported to the site.
Tools, Equipment and Materials
Common tools, panel screws
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Procedure
Step 1 Place the subrack along the guide rail and insert it in slowly. See Figure 20-4.
Step 2 Use panel screws to fix the subrack to the front column of the cabinet through the holes on themounting ears.
NOTE
If multiple subracks share one cabinet, it is recommended that you install the lower subrack before installingthe upper subrack.
Figure 20-4 Installing a subrack
----End
20.2 Installing the BoardsThis procedure guides you to install the boards into the subrack.
PrerequisitesThe subrack must be installed in the cabinet.
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Tools, Equipment and MaterialsCommon tools
Precautions
CAUTIONThe PGND cable must be installed before the installation of boards and other cables.Ensure that the names of the boards to be installed and the slots meet the specified requirements.
Procedure
Step 1 Wear the ESD wrist strap as shown in Figure 20-5.
Figure 20-5 Wearing the ESD wrist strap
Step 2 If a blank filler panel is installed on the slot, open its ejector levers to draw it out, as shown inFigure 20-6.
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Figure 20-6 Removing the filler panel
1 2
Step 3 Open the ejector levers of the board with two hands. See Figure 20-7 (1).
Figure 20-7 Inserting a board
1 2
3
Step 4 Slide the board along the guide rail into the slot until it cannot move forward. See Figure20-7 (2). Push the board slowly.
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CAUTIONWhen inserting the board, check and insert the board again if the resistance is heavy. Do notapply great force to insert the board into the slot.
Step 5 Close the ejector levers. See Figure 20-7 (3).
----End
20.3 Removing the BoardsThis procedure guides you to remove the boards from the subrack.
PrerequisitesNone.
Tools, Equipment and MaterialsCommon tools
Precautions
CAUTIONIf there are any cables or fiber jumpers connected to a board, remove them first.
Procedure
Step 1 Wear the wrist strap as shown in Figure 20-5.
Step 2 Open the ejector levers with two hands. When you obviously feel that the board is away fromthe backplane (about 1 cm), draw the board gently. See Figure 20-8.
Figure 20-8 Removing a board
1 2
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Step 3 Put the board in an ESD bag. If this slot is no longer seated with a board, install a blank fillerpanel.
----End
20.4 Checking the Subrack and the Boards InstallationAfter installation, you need to check the necessary items.
Check the following items:
l The subrack is installed at the correct position.l Close the front door of the cabinet and ensure that the subrack does not contact the front
door.l The upper and lower ejector levels of the board are firmly fastened.l Blank panels are inserted in the idle slots of the subrack.l The removed boards are put in antistatic boxes or antistatic bags.
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21 Operating Environment Requirements
About This Chapter
This topic describes the required environment in which the equipment is installed.
21.1 Equipment Room Environment RequirementsThis topic describes requirements for the environment of equipment rooms housing OptiXtransmission equipment. The equipment room environment must meet ETSI EN 300 019-1-3class 3.2 standards.
21.2 Layout of the Equipment RoomThis topic describes the principle of the overall layout of the equipment room.
21.3 Construction of an Equipment RoomThis topic describes the requirements for the construction of an equipment room.
21.4 Cleanliness of an Equipment RoomDust on equipment may lead to electrostatic adherence, and consequently result in poorconnection between the metallic connectors or connecting points. This reduces the service lifeof the equipment and even makes the equipment faulty. The dust concentration in an equipmentroom must be minimized to ensure that equipment provides stable performance in long term.
21.5 Temperature and HumidityThis topic describes the requirements for the humidity and temperature in the equipment room.
21.6 Corrosive Gas Control RequirementsIn addition to the dust-proof efforts, take measures to prevent the equipment room from beingcorroded by harmful gases such as SO2, H2S, and NH3. This topic describes the requirementsfor the corrosive gases in the equipment room.
21.7 Electromagnetic RequirementsThis topic describes the electromagnetic conditions and the measures for suppressingelectromagnetic interferences.
21.8 ESD ProtectionThis topic describes the requirements for the ESD protection and the preventive measures forthe equipment room.
21.9 Lightening Protection and Grounding RequirementsThis topic describes the requirements for lightning protection and grounding.
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21.10 Requirements for the Power SupplyThe working power voltage of the OptiX transmission equipment ranges from -38.4 V to -57.6V when the -40 V DC power supply is used or from -48 V to -72 V when the -60 V DC powersupply is used.
21.11 Lighting in the Equipment RoomThe equipment room of the OptiX optical transmission equipment is equipped with three lightingsystems:
21.12 Protection SystemThis topic describes the requirements for the protection system.
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21.1 Equipment Room Environment RequirementsThis topic describes requirements for the environment of equipment rooms housing OptiXtransmission equipment. The equipment room environment must meet ETSI EN 300 019-1-3class 3.2 standards.
A good operation environment ensures the safe operation of the OptiX transmission equipment.Therefore, an equipment room cannot be located in areas with any of the following factors: hightemperature, heavy dust, poisonous gas, dangerous explosives, low pressure, serious vibration,and loud noises. When designing a project, take hydrographic, geological, seismic and trafficfactors into consideration according to the communication network planning and communicationtechnology and thus choose a proper place that meets the environment design requirement.
The construction, structure, heating, ventilation, power supply, lighting, and fire fighting of anequipment room should be designed by specialized construction designers. The engineeringdesign in terms of construction, structure, heating, ventilation, power supply, lighting, and firefighting must comply with the regulations and requirements for constructing and designingbuildings.
Site requirements are as follows:
l A site must be located at an altitude ranging from -60 meters to 4000 meters.
l For sources of heavy pollution such as a smeltery and coal mine, keep a distance of 5 km.For sources of medium pollution such as chemical, rubber and galvanization industries,keep a distance of 3.7 km. For sources of light pollution such as food and tanner industries,keep a distance of 2 km. If these sources of pollution cannot be avoided, the equipmentroom must be in the perennial upwind direction of the pollution sources. In addition, high-quality equipment room or protection product must be used.
l The ventilation port for air exchange of the equipment room must be kept away from theexhaust of city waste pipes, big cesspools and sewage treatment tanks. The equipment roommust be kept in the positive pressure state lest corrosive gases enter the equipment roomand erode components and circuit boards.
l An equipment room must be kept away from industrial and heating boilers.
l Locate the equipment room on or above the second floor if possible. Otherwise, the groundfor equipment installation in the equipment room must be at least 600 mm above themaximum flood level in the local record.
l Keep the equipment room away from livestock farms. If this requirement cannot be met,build the equipment room in the perennial upwind direction of the livestock farms.
l An equipment room must be kept 3.7 km away from the seaside or salt lake. If thisrequirement cannot be satisfied, the equipment room must be airtight with cooling facilities.In addition, the alkalized soil cannot be used as the construction material. Otherwise, theequipment applicable in atrocious environment must be used.
l An old livestock room or the chemical fertilizer warehouse cannot be used as the equipmentroom.
l An equipment room must be solid enough to withstand wind and downpour.
l An equipment room must be kept away from the road or sand field with dusts flying around.If this requirement cannot be met, the windows and doors of the equipment room must bekept back against the sources of pollution.
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l An equipment room must be kept away from residential communities as far as possible.An equipment room near residential communities must be constructed in compliance withrelated standards to minimize the impact of noises.
l Doors and windows of an equipment room must be closed. Steel doors are recommendedfor better sound insulation.
l Walls of an equipment room must be smooth, flat, abrasion resistant, dust-proofing, fire-resistant, soundproofing, heat absorbing, and electromagnetic shielding. In addition, cracksor holes must be avoided on walls and grounds. Cable holes in walls or windows must besealed.
21.2 Layout of the Equipment RoomThis topic describes the principle of the overall layout of the equipment room.
The communication equipment room houses a complete set of communication transmissionequipment, SPC switching equipment, and power supply. To facilitate maintenance andmanagement, arrange the equipment compactly. Figure 21-1 shows a typical layout of theequipment room.
Figure 21-1 Layout of the equipment room
Service console
Control room
Diesel room
Main distribution frame (MDF) room
SPC switching room
Power distribution
roomBattery room
Transformer room
Transmission roon
Power cable
Communication cable
Principles for layout of the equipment room are as follows:
l Meet the requirements for wiring and maintaining the communication cable and powercable.
l Avoid line roundabout for convenient maintenance. This helps lower the cable expenditure,reduce communication failures, and improve the work efficiency.
l Install the transmission equipment in a separate room close to the MDF room, or near theswitch.
21.3 Construction of an Equipment RoomThis topic describes the requirements for the construction of an equipment room.
Table 21-1 lists the construction requirements for an equipment room.
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Table 21-1 Requirements for construction of an equipment room
Item Requirement
Area The equipment room can house at least all the devices of the terminal office.
Net height The minimum indoor height refers to the net height under the roof beam orunder the ventilation pipe. It should not be less than 3 m.
Indoor floor The floor of the equipment room must be semi-conductive and dust-proof.In most cases, antistatic-preventive raised floor is required. The floor boardsmust be laid tightly and firmly. For each square meter of floor space, thehorizontal tolerance cannot be greater than 2 mm. If no raised floor isavailable, electrostatic conductive floor material (with a volume resistivityranging 1.0 x 107 ohm - 1.0 x 1010 ohm) must be laid. The electrostaticconductive floor material or the antistatic-preventive raised floor must begrounded well. It can be connected to the grounding device through a currentlimiting resistor and a connection wire. Resistance of the current limitingresistor must be 1 megaohm.
Load-bearingcapacity offloor
> 450 kg/m2.
Doors andwindows
Doors must be single-leaf, 2 m high and 1 m wide. All doors and windowsmust be sealed with dust-proof rubber strips. Double-layer glass isrecommended for windows.
Wall The wall can be covered with wallpaper or lusterless paint, but not the paintthat is apt to get pulverized or peeled.
Indoor ducts Indoor ducts are used for cabling. The inside of the ducts must be smoothand clean. The reserved length and width (margins) as well as the number,position and size of the holes must comply with the relevant requirementsfor placing the optical synchronous transmission equipment.
Water supplyand drainage
The service pipes, drain pipes and rain pipes cannot pass through theequipment room. Fire hydrants cannot be placed in the equipment room,but in corridors or the place near the staircase where they can be easily seenand accessed to.
Waterproof l Equipment must be installed in a position away from water drips(outdoor units and water pipes of air conditioners, sewer pipes, and soon).
l Equipment must not be mounted on a wall that is near to windows.l Equipment must be installed in a position not exposed to rain.l Being installed in a basement, a network box must be installed in a
position that will not be flooded.l Equipment must not be installed in light-current wells or directly on the
corridor ground on the first floor.l Cables/Fibers must be routed into network boxes only from the bottom
sides. In addition, connections between cables/fibers and network boxesmust be waterproofed to prevent rain from entering network boxes alongcables/fibers.
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Item Requirement
Internalpartition wall
The place where the equipment is installed is separated from the equipmentroom door. The partition wall can hold back some dusts. See Figure 21-2.
Position of theair conditioner
The air conditioner must be installed in the place where the discharged airfrom the air conditioner cannot be directed to the equipment.
Others l Rodent-proof measures (for example, measures against mice) andmeasures against proliferation of fungi and mildew must be taken in theequipment room.
l Organic materials, such as sulfur-containing or chlorine-containinginsulation cotton or rubber pads, must not be used. Polyethylene foamed(PEF) cotton is recommended for heat insulation.
Figure 21-2 Internal partition wall of an equipment room
Equipment
Air conditioner
Partition wall
21.4 Cleanliness of an Equipment RoomDust on equipment may lead to electrostatic adherence, and consequently result in poorconnection between the metallic connectors or connecting points. This reduces the service lifeof the equipment and even makes the equipment faulty. The dust concentration in an equipmentroom must be minimized to ensure that equipment provides stable performance in long term.
Table 21-2 lists the requirements for concentrations and diameters of the dust particles in anequipment room.
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Table 21-2 Requirements for concentrations of dust particles in an equipment room
Mechanically Active Substance Concentration
Suspending dust ≤ 0.4 mg/m3
Precipitable dust ≤ 15 mg/(m2 h)
Sand particles ≤ 300 mg/m3
To ensure that the preceding requirements are met:
l Keep an equipment room far away from pollution sources and do not smoke in an equipmentroom.
l Seal doors and windows.l Apply dustproof materials to grounds, walls, and ceilings.l Use screens on doors and windows facing outside. Outer windows must be dustproof.l Clean an equipment room and dust filters on equipment every two months.l Wear clean shoe covers and ESD clothes before entering an equipment room.l Cover walls and ceilings of an equipment room with wallpapers or lusterless paint rather
than pulverized paint to prevent dust flake-off.
21.5 Temperature and HumidityThis topic describes the requirements for the humidity and temperature in the equipment room.
Proper temperature and humidity must be maintained inside the equipment room for thetransmission equipment to work in good condition. Table 21-3 lists the requirements fortemperature and humidity.
Table 21-3 Requirements for equipment working temperature and humidity
Ambient Temperature Relative Humidity
Long-term operatingcondition
Short-term operatingcondition
Long-term operatingcondition
Short-termoperating condition
0°C-45°C -5°C-55°C 5%-85% 5%-95%
NOTEThe temperature and humidity are measured 1.5 m above the floor and 0.4 m ahead of subrack when itworks under normal environment conditions (without any protection plate in front of the cabinet).
The short-term operating conditions indicate that the continuous working time of the equipment does notexceed 96 hours, and the accumulated working time every year does not exceed 15 days.
To improve the reliability of equipment, an equipment room must be equipped with dedicatedair conditioners to control the temperature and humidity within the following ranges:
l Temperature: 15°C to 30°C
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l Humidity: 40% to 75%
CAUTIONAir conditioners must not be installed above equipment and must not blow directly towardsequipment. Air conditioners must be installed away from windows as far as possible to preventblowing damp and cold air to equipment.
21.6 Corrosive Gas Control RequirementsIn addition to the dust-proof efforts, take measures to prevent the equipment room from beingcorroded by harmful gases such as SO2, H2S, and NH3. This topic describes the requirementsfor the corrosive gases in the equipment room.
Table 21-4 lists the requirements for corrosive gas concentrations.
Table 21-4 Requirements for corrosive gas concentrations
Gas Concentration
SO2 ≤ 0.30 mg/m3
H2S ≤ 0.10 mg/m3
NO X ≤ 0.50 mg/m3
NH3 ≤ 1.00 mg/m3
Cl2 ≤ 0.10 mg/m3
HCl ≤ 0.10 mg/m3
HF ≤ 0.01 mg/m3
O3 ≤ 0.05 mg/m3
To ensure that the preceding requirements are met:
l Avoid constructing an equipment room in an area where corrosive gas concentrations arehigh, such as a chemical plant.
l If pollution sources cannot be avoided, ensure that the air intake vent of an equipment roomis located in the perennial upwind direction of the pollution sources.
l Place storage batteries separately from other devices. It is recommended that you placestorage batteries in a separate room.
l Invite a professional service company to monitor corrosive gas conditions regularly.
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21.7 Electromagnetic RequirementsThis topic describes the electromagnetic conditions and the measures for suppressingelectromagnetic interferences.
Table 21-5 lists the requirements for the electromagnetic environment.
Table 21-5 Electromagnetic requirements
Item Value
Low frequency magneticfield
Frequency (Hz) 50-20 000
Ampl. (A/m rms) 10-0.025
Amplitude modulation RFelectric field
Frequency (MHz) 0.009-1000
Ampl. V/m (rms) 3
Pulse modulation RF electricfield
Frequency (GHz) 1-20
Ampl. (V/m (peak)) 3
Take the following measures to suppress interferences.
l Build the equipment room away from electric transformers, high-voltage power lines andother equipment or devices with high current. For example, build it 20 meters or furtheraway from the transformer, or more than 50 meters from high-voltage power lines.
l Build the equipment room away from high-power radio transmitters. For example, build itat a place where no high-power radio transmitter exists within 500 meters.
l If a mobile communication transmitter is installed in the comprehensive building, makesure that its interference level complies with the corresponding standard. Take propershielding and isolation measures if required.
l Do not use wireless handy communication devices close to the equipment in the equipmentroom.
21.8 ESD ProtectionThis topic describes the requirements for the ESD protection and the preventive measures forthe equipment room.
ESD stands for electrostatic discharge.
The absolute static voltage value must be less than 1000 V.
Do as follows to ensure that the requirements are met.
l Train operators on antistatic prevention.l Control the humidity in the equipment room to minimize the impact of static electricity.l Install antistatic floor in the room.
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l Wear antistatic shoes and uniforms before entering the equipment room.l Use antistatic tools such as antistatic wrist straps, antistatic tweezers, and extraction tools
when handling the equipment.l Ground all conducting materials in the room, including computer terminals. Set up antistatic
worktables.l Keep non-antistatic materials (such as common bags, foams, and rubbers) at least 30 cm
away from boards and antistatic-sensitive components.
21.9 Lightening Protection and Grounding RequirementsThis topic describes the requirements for lightning protection and grounding.
Table 21-6 lists the requirements for lightning protection and grounding.
Table 21-6 Requirements for lightning protection and grounding
Item Description
Structure of theequipment room
Build the equipment room with steel and concrete. The equipment roommust be equipped with facilities such as lightening arrester to protect itagainst direct lightening strokes. Make sure the lightening protectiongrounding of the equipment room, or that of devices such as thelightening arrester, shares the same grounding body with the protectiongrounding of the building where the equipment room is located.
Using TN-S ACpower supply
Equip the communication office with dedicated electric transformers andmetal-jacketed or insulation-jacketed power cables. The power cablespass through a steel pipe and are buried in the earth before entering theoffice. The two ends of the metallic jacket and steel pipe must begrounded locally. Make sure that the length of the buried cables is notless than 15 meters. Each of the three live cables on the low-voltage sideof the AC transformer must be respectively equipped with a gapless zincoxide arrester. The chassis, the AC neutral cable on the low-voltage side,and the metallic jacket of the cable connected to the chassis must beproperly grounded.
Equipping theincoming powercable with alightening arrester
Do not aerially lead in/out AC/DC power cables to or from thecommunication office. Equip the indoor low-voltage power cables witha lightening arrester in the voltage regulator or in the AC powerdistribution panel. The arrester must be grounded properly. If the officeis located in a city, use an arrester that has the nominal discharge currentnot less than 20 kA. If the office is located in a suburban area ofintermediate lightening danger level or higher, use a power supplyarrester that has a surge current more than 60 kA. If the office is locatedin an isolated huge building in the city or in a mountain area where alightening stroke occurs frequently, use a power supply arrester that hasa surge current more than 100 kA. The grounding cable of the lightningarrester must be less than one meter in length.
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Item Description
DC power supplygrounding
The working ground of the communication office, that is, the positivepole of the -48 V DC power supply or the negative pole of the +24 Vpower supply, must be led from the local indoor grounding bus. Thegrounding cable must meet the requirement of the maximum load of theequipment. The power supply facilities for the equipment room mustpossess a DC working neutral line, which is introduced from the generalgrounding bus or protection grounding bar of the equipment room.
Equipotentialconnection
All the communication equipment and auxiliary equipment in the roomsuch as the base station, transmission equipment, switching equipment,power supply equipment, and distribution frame must be connected tothe protection ground. The protection grounding of all the equipment inthe communication office must share the same general grounding bar,whereas the protection grounding of the same equipment room must beconnected to the same protection grounding bar. The working groundand protection ground of the communication equipment in the room mustadopt the joint grounding mode. That is, they share the same groundingnetwork. Protection grounding efforts must also be made to the indoorcabling frames, suspended iron supports, equipment rack or chassis,metallic ventilation pipes, and metallic doors and windows.
Generalrequirements forgrounding
The AC neutral line cannot be connected to the protection ground of anycommunication equipment in the equipment room. Make sure that nofusees, switches or other equipment are connected to the groundingcables. All the grounding cables must be as short and straightforward aspossible to prevent the grounding cables from winding.
Groundingresistance
The grounding resistance must be less than 10 ohms. The upper end ofthe grounding body must be 0.7 meter or more underground. In coldareas, the grounding body must be buried in the frozen layer or lower.Monitor the grounding resistance periodically to ensure that thegrounding is always effective.
Routing of signalcables
Signal cables must be led into the communication office fromunderground. Do not route aerial signal cables. The accesscommunication cable must be metal-jacketed. Otherwise, they shouldbe routed in metallic pipes. The grounding cable of the arrester must beas short as possible. The empty pairs in the cable must be connected tothe protection ground in the equipment room.
Grounding bus The general grounding bus can be a grounding loop or a grounding bar.The grounding cable cannot be made of aluminum material. If differentmetallic connectors are interconnected with each other, take measuresto prevent electrochemical corrosion. Normally, the general groundingbus is a copper bar whose cross-sectional area is not less than 120mm2 or a zinc-plated flat steel that has the same resistance. Thegrounding bus must be insulated from the steel in the building.
Ground lead-inwire
The grounding lead-in wire cannot be longer than 30 meters, and it mustbe made from a zinc plated flat steel whose cross-sectional area is 40mm x 4 mm or 50 mm x 5 mm.
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21.10 Requirements for the Power SupplyThe working power voltage of the OptiX transmission equipment ranges from -38.4 V to -57.6V when the -40 V DC power supply is used or from -48 V to -72 V when the -60 V DC powersupply is used.
The transmission equipment provides a transmission path for communication networks. Hence,its interruption can cause a wide influence. Therefore, the DC power distribution system mustbe protected against power failure and configured with storage batteries. To deal with a long-term power outage, a diesel generator must be equipped as the standby AC power supply for thebackbone transmission equipment. The DC power supply system consists of a storage battery,a primary power supply (rectifier), and a DC power distribution and control panel. This topicdescribes the requirements for the power supply of the equipment.
Storage BatteryA storage battery is an essential component of the DC power distribution system of the OptiXoptical transmission equipment. A storage battery performs the following functions:
l Stabilizes the voltage so that the transmission equipment can work reliably.l Stores the energy. In the case of mains outage, the storage battery can feed power for a
period of time, according to its capacity. Thus, the communication is not interruptedimmediately.
l Filters large capacitors. The storage battery can be used to absorb surge voltage from therectifier and to prevent noise and power frequency interference from getting into thecommunication equipment.
l Shuts down the storage battery automatically. When the voltage of the storage battery dropsto lower than -43 V, the control circuit can automatically shut down the output.
The storage battery of the OptiX optical transmission equipment is charged and discharges undera low and constant voltage. Table 21-7 lists the relevant requirements.
Table 21-7 Requirements for the DC charge/discharge state and voltage
PowerSupplyCategory
MainsSupplyState
BatteryCharge /Discharge
DC VoltageValue
TerminalVoltageof EachStorageBattery
Number ofStorageBatteriesin EachGroup
-48 V DC Normal Floating chargeby the rectifier
The floatingcharge voltagereaches 53.5 V.
2.23 V 24
Failed Discharge The dischargevoltage reaches43.2 V.
1.8 V
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PowerSupplyCategory
MainsSupplyState
BatteryCharge /Discharge
DC VoltageValue
TerminalVoltageof EachStorageBattery
Number ofStorageBatteriesin EachGroup
Resumed Under loadingconditions, thestorage battery isautomaticallycharged with thecurrent 0.1 to0.15 times thebattery capacity.
When the chargevoltage reaches56.4 V, thestorage batteryautomaticallychanges to theconstant voltagemode. That is, thestorage batterychanges from thecharging state tothe floatingcharge state.
2.35 V
Primary Power Supply (Rectifier)The requirements for the primary power supply are as follows:
l The primary power supplies can operate in parallel, and a current equalizer must existbetween them.
l The primary power supply should be equipped with a current limiter.l The output voltage of the primary power supply should meet the requirement for initial
charging of the storage battery, that is, 2.35 x 24 = 56.4 V DC (when the power supply is-48 V DC).
l A DC voltmeter and an ammeter should be installed for the primary power supply.l The efficiency of the primary power supply should be more than 85% and its power factor
must be more than 0.8.l The primary power supply is cooled in a natural manner. It can work continuously with
full load at a ambient temperature of 0°C to 40°C.l The output noise voltage (measured with a psophometer, plus the weighing factor) of the
primary power supply must meet the requirements listed in Table 21-8.l The primary power supply can automatically shut down the output at a low voltage.
Table 21-8 Specifications for the DC power voltage
Item DC Power Supply for Transmission Equipment
Nominal value (V) -48
Voltage fluctuation range (V) -38.4 to -57.6
Noisevoltage
0 Hz-300 Hz ≤ 400 mV (peak value)
300 Hz-3400 Hz ≤ 2 mV (weighted noise of the psophometer)
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Item DC Power Supply for Transmission Equipment
3.4 kHz-150 kHz Single frequency: ≤ 5 mVeffective value
Broadband: ≤ 100 mVeffective value
150 kHz-200 kHz Single frequency: ≤ 3 mVeffective value
Broadband: 150 kHz-30MHz ≤ 30 mV effectivevalue
200 kHz-500 kHz Single frequency: ≤ 2 mVeffective value
500 kHz-30 MHz Single frequency: ≤ 1 mVeffective value
DC Power Distribution and Control PanelThe requirements for the DC distribution and control panel are as follows:
l The capacity of the primary power supply must be designed according to the powerconsumption of the transmission equipment of the terminal office. A certain margin mustbe reserved. Normally, use a high frequency switching power supply that has highconversion efficiency and that works in N+1 hot standby mode. An output current equalizermust be provided for each power module. The failure of a single power module does notaffect the normal operation of the entire DC power distribution system.
l Each control panel can access a minimum of two groups of storage batteries. When onegroup of storage battery fails, the other can supply power.
l Each control panel can access a minimum of five primary power supplies.l The power supply equipment must perform the automatic function to meet the non-
attendant requirement.l When the primary power supply charges the storage batteries in floating charge mode, the
number of primary power supplies in operation depends on the load. When one primarypower supply becomes faulty, it drops out automatically, and the standby primary powersupply automatically starts to operate.
l In the case of mains outage, the storage battery must discharge. When the mains resumes,it automatically recharges the discharged storage battery with a current 0.1 to 0.15 timesthe battery capacity. When the charge voltage reaches 56.4 V, it must automatically changeto the constant-voltage charge state.
l When the storage battery is fully charged, it automatically changes to the floating chargestate.
l When the power supply equipment fails or works abnormally, visual and audible alarmsare generated. The alarm information is transmitted to the operation and maintenancecenter.
l If a short circuit occurs in a tributary path of the power supply system, the entire powerdistribution system should not be affected by the sharp voltage reduction. The peak strikingvoltage should not cause any fault to the transmission equipment.
The OptiX optical transmission equipment also has strict restrictions on random transient noises,including the external magnetic interference and the interference from the equipment and thegrounding cables. The shorter the duration of the transient pulse is, the higher value the allowabletransient noises is. For the allowable values, see Figure 21-3.
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Figure 21-3 Transient noise diagram
Requirements for the Basic DC Power Supply
The requirements for the basic DC power supply are as follows:
l Provide power supply in decentralized mode. That is, use multiple DC power supplysystems and set power supply devices on multiple sites.
l Use a DC power supply system that complies with the relevant standard. Set the outputvoltage value of the communication power supply to the range specified in the standard.
l Enhance the reliability of the AC power supply system and decrease the capacity of thestorage battery to a proper extent. When the reliability of the AC power supply system ata small communication station fails to be enhanced, increase the capacity of the storagebattery accordingly.
l Ensure that the total capacity of the high frequency switch rectifiers meet the requirementsof the communication payload power and the power of the storage battery charge. Configurethe rectifier modules in redundant mode. When less than 10 main rectifier modules areavailable, configure one standby rectifier module. When more than 10 main rectifiermodules are available, configure one standby module for each 10 rectifiers.
l Install two or more groups of storage batteries. The total capacity of one group of storagebattery depends on the time the power supply of the battery group can last. In mostcommunication offices, one group of storage battery must provide power supply for at leastone hour.
21.11 Lighting in the Equipment RoomThe equipment room of the OptiX optical transmission equipment is equipped with three lightingsystems:
l Active lighting system, which is powered by the mains supply.
l Backup lighting system, which is powered by the backup power supply (diesel electricgenerator) of the office.
l Emergency lighting system, which is powered by storage batteries when the mains supplyis interrupted but the backup power supply does not start to supply power.
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21.12 Protection SystemThis topic describes the requirements for the protection system.
Antistatic ProtectionThe equipment-affecting electrostatic induction might derive from the two sources: externalelectric field such as outdoor high voltage transmission line or lightning; internal system suchas indoor environment, floor materials, and equipment structure.
Static electricity might damage the chips on integrated circuit boards and cause faults in softwareand electronic switch. Statistics shows that 60% of the damaged circuit boards are caused bystatic electricity. Therefore, it is important to take antistatic protection measures in the equipmentroom.
The following measures are recommended:l Ground the equipment well. Although the antistatic floor covered with semiconductive
materials is installed, copper foil must be used for grounding at certain points on the floor.The copper foil must be placed between the cement ground and the semiconductive floorand be connected with the grounding cable.
l Take dust-proof measures. Dust might cause severe harm to the optical synchronoustransmission equipment. Dust or other particles might cause poor connection betweenconnectors or metallic connecting points. In case of high humidity, dust can cause electricalleakage. In normal cases, equipment failures are caused by accumulated dusts, which isfound in maintenance. Electrostatic adherence is likely to occur, especially when thehumidity in the room is very low.
l Keep proper temperature and humidity. Too high humidity might make the metalcomponents rusty while too low humidity might induce static electricity.
l Wear an antistatic wrist strap and lab coat when touching a circuit board to preventelectrostatic damage to the equipment.
Interference PreventionAs the technologies and social economy develop, more and more electromagnetic signals aretransmitted in the air. These signals might affect the communication quality by causing cross-talk and stray noise, and even result in communication interruption. The electromagneticinterference (EMI) sources include the following:l Corona discharge of the electric transmission linel Transformerl Switchesl Waveform distortion of the power supply network caused during the operation of large
equipmentl Radio frequency (RF) interferencel Natural interference sources such as terrestrial magnetic field and external radiation.The interference, from either inside or outside the equipment or the application system, affectsthe equipment through conductive modes such as capacitance coupling, inductance coupling,electromagnetic wave radiation, common impedance (including grounding system), and cable(power and signal cables). In terms of external relations of the equipment, interference derives
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from the signal cable, power cable, grounding system and spatial electromagnetic wave.Integrated circuits (ICs) have a certain interference resistance capability. Signal corruption andeven system malfunction, however, might occur when the external noises go beyond their anti-interference tolerance. It is impossible to eliminate or shield all the interference sources, but thefollowing measures can be taken to suppress the interference signals.l High frequency interference in the power supply network is generated when the primary
coil of the power supply transformer is coupled to the secondary coil through distributedcapacitors. To suppress such interference, use an appropriate transformer, and install a low-pass filter at the inlet of the power supply cable.
l The interference of the transient voltage in the power supply network can be reduced byinputting power directly from the primary transformer and adding a filter capacitor for theoptical synchronous transmission equipment.
l When the optical synchronous transmission equipment works in the 50 Hz mains powersupply network with the above interference, the surge voltage caused by the power supplynetwork and the over-voltage generated by lightening are passed to the power supply ofthe optical synchronous transmission equipment. This leads to computing errors of theprocessors. Therefore, before directly using the mains supply, take effective measuresagainst interference from power supply network.
l The key to eliminating the interference from the grounding system is to avoid loops amongvarious grounds, such as the signal ground (including analog and digital grounds), BGND,PGND and shield ground, or loops formed by large distributed capacitors. Otherwise, thecommon impedance interference from the grounding system might affect the operation ofthe equipment. In buildings other than high-rises, the working ground of the opticaltransmission equipment must be separated as far as possible from the ground for electricityequipment and lightning protection device.
l Prevent electromagnetic radiation interference from the surroundings to the equipment. Ifa high frequency transmitter exists in certain integrated communication buildings, itsinfluence on the optical transmission equipment must meet the relevant requirements.Independent power supplies are recommended for them.
l EMI from the telecommunications line must be restrained. Influenced by high frequencyelectromagnetic field (external interference), the core and sheath of the communicationcable bear high longitudinal voltage. Because of the asymmetry of cores in the cables, thelongitudinal voltage generates a horizontal noise voltage at the ends of the cores. Whenboth ends of the cable sheath are grounded, the sheath functions as a shielding layer, whichgreatly reduces the longitudinal voltage and reduces the interference voltage. Othereffective methods include: (1) reduce the voltage or current of the interference source; (2)minimize the line length and the spacing of the conducting wires to reduce the area of theaffected loop; (3) directly place the insulated conducting wires on the grounded floor; (4)use a dedicated grounding feedback cable to prevent co-impedance; (5) twist the signalcable and the feedback cable together to offset partial peripheral electromagneticinterference.
Fire ProtectionIn small equipment rooms, a certain number of portable fire extinguishers must be equipped foran initial fire control. In large equipment rooms, fixed fire extinguishing facilities must beequipped. An automatic fire alarm system must also be equipped in the equipment room. Alltelecom buildings with the fire alarm system must have fire emergency lighting system andevacuation instruction marks at important places, paths and gateways.
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Anti-Earthquake RequirementsThe designed anti-earthquake intensity of the telecom equipment room must be one degree(Richter scale) higher than that for the common buildings. The equipment room building thatcannot meet the requirement must be reinforced. When installing the OptiX transmissionequipment, take the following anti-earthquake measures:
l Use a steel framework for the cabinet of the OptiX transmission equipment. Lockingdevices must be used to fix the boards in the cabinet.
l Ensure that the cabinet is reinforced with slide rail on the top and supports at the bottom.
Lightning ProtectionChimneys, antennae or other things that are over 15 m tall on the top of the equipment roombuilding must be designed according to the lightning protection requirements for civil buildings.Measures must be taken against direct flash and intrusion of lightning current. In the main high-rise transmission building, protective measures must be taken to prevent side lightning strokes,especially in frequent lightning areas. Therefore, designers must take appropriate measuresaccording to the actual situation. For example, connect the metallic external window frame tothe lightning protection wire; along the height of the building, place the metallic lightningprotection bands at a definite spacing on the outside wall. The main equipment-room buildingmust be provided with the following lightning protection measures:l Equip the building with lightning arrester nets or bands at the positions susceptible to
lightning strokes. Install lightning prevention wires or lightning rods on the top of chimneysand antennas that are protruding from the building. The cross-sectional area of thegrounding wire of the lightning protection device cannot be smaller than 2 mm2. Thespacing between the wires cannot be larger than 30 m.
l Ensure that the earth resistance of the earthing/grounding system is must be less than 10ohm.
l Ground the external cables and metallic pipes before they enter the building. The outdooroverhead cables must be equipped with lightening protection devices at the entrance of thebuilding.
l Use roof plates, beams and pillars made of reinforced concrete and the reinforcement baras the ground wires of lightening arresters.
In the past, lightning protection grounding of the building was separate from the grounding fortelecom system and power supply system, and a large distance was required between thegrounding objects. The distance requirement, however, is not met due to a small space of thebuilding. In fact, they cannot be separated in most cases, so joint grounding system isrecommended for the lightening protection grounding of the building The joint grounding systemshould connect the telecom BGND, PGND, lightning protection grounding of the building, andgrounding of the power frequency AC power supply system. A high earth resistance of the jointgrounding system is required. The earth resistance required by telecommunication is far lowerthan 10 ohms, and the grounding requirements for different telecom devices vary. Therefore,the resistance of the joint grounding system must be determined according to the minimumresistance required for the grounding device. Use steel bars in the walls and pillars of the buildingas ground wires for lightening protection. These wires must be electrically connected to equalizethe electric potential in the building.
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22 Grounding Specifications
About This Chapter
Suitable grounding helps to prevent accidental personal injury and ensure the safe running ofthe equipment, and provides EMC shielding to improve the quality of service (QoS).
22.1 General Grounding SpecificationsThis topic describes the general grounding specifications.
22.2 Grounding Specifications for the BuildingThis topic describes the grounding specifications for the building.
22.3 Equipment Grounding SpecificationsThis topic describes the equipment grounding specifications.
22.4 Grounding Specifications for Office PowerThis topic describes the grounding specifications for the office power.
22.5 Grounding Specifications for Signal CablesThis topic describes the grounding specifications for signal cables.
22.6 Specifications for Managing Ground CablesThis topic describes the Specifications for managing ground cables.
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22.1 General Grounding SpecificationsThis topic describes the general grounding specifications.
Table 22-1 lists the general grounding specifications.
Table 22-1 General grounding specifications
No. Description
1 Working ground, protection ground (including shielding ground and lightning ground)should be bonded to the same grounding electrode.
2 Cable racks, equipment frames and enclosures, metallic air ducts and doors andwindows in the equipment room should be grounded.
3 All the metallic equipment units that are normally neutral should be grounded.
4 The ground cables should firmly contact with the grounding bar in the equipment.
5 Connection to the already grounded equipment for grounding purpose is not allowed.
22.2 Grounding Specifications for the BuildingThis topic describes the grounding specifications for the building.
Table 22-2 lists the grounding specifications for the building.
Table 22-2 Grounding specifications for the building
No. Description
1 Usually, the earth resistance of the telecommunication site where the base stationequipment is located is recommended to be less than 10 ohms. It also should complywith the relative stipulation of the country.
22.3 Equipment Grounding SpecificationsThis topic describes the equipment grounding specifications.
Table 22-3 lists the equipment grounding specifications.
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Table 22-3 Equipment grounding specifications
No. Description
1 All the network telecommunications equipment including mobile base station,transmission equipment, switching equipment and office power should be grounded.All the protection grounds (PGNDs) of such equipment should be finally bonded to ageneral grounding bar. The PGNDs in an equipment room should be bonded to thegeneral grounding bar in the same equipment room.
2 The PGND of the equipment should be connected to the nearby grounding bar (user-supplied). Copper-core conducting cable with green-yellow plastic insulation covershould be used. The cross-sectional area of the conductive cable is required to be 25mm2 or wider.
3 The grounding terminals at the front door, back door and side panels of the cabinetshould be separately connected to the grounding post of the cabinet. The cross-sectional area of the cable is required to be 1.6 mm2.
4 The metallic units of the equipment cabinet should have good conductance. Anynonconductive paint should be removed from the metal-to-metal contact.
5 The cabinets contact the adjacent cabinets in a row through the fixing bolts andwashers on the cabinet top. A surface of 30 x 50 mm2 around the bolt holes shouldnot be covered with paint. Rust-proof and rot-proof measures should be taken. Thesurface of the washer and nut should be plated with nickel to ensure good electricalconductance.
6 When the cabinets of the same type are connected, cables not longer than 300 mmshould be used to connect the grounding busbars of adjacent cabinets, if these busbarsexist. The cross-sectional area of the short cables is required to be 6 mm2. Two endsof the short cable should be secured to the terminals of the grounding bar.
22.4 Grounding Specifications for Office PowerThis topic describes the grounding specifications for the office power.
Table 22-4 lists the grounding specifications for the office power.
Table 22-4 Grounding specifications for the office power
No. Description
1 TN-S AC power system should be adopted in the equipment room.
2 A C-level AC lightning protector with rated current not less than 20 KA should beinstalled at the AC power cable inlet of the equipment room.
3 PGNDs of the office power and telecommunications equipment should finally connectto the same grounding electrode. Grounds of telecommunications equipment andoffice power in an equipment room should be bonded to the grounding bar in the sameequipment room.
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No. Description
4 Lightning-proof circuit should be added to AC power interface.
5 The positive electrode of -48V/-60V DC power or the negative electrode of 24 DCpower should be grounded at the DC power outlet.
6 The working ground and PGND of DC power system and the PGND of switchingequipment should finally connect to the same grounding electrode. Grounds oftelecommunications equipment and office power in an equipment room should bebonded to the grounding bar in the same equipment room.
7 Surge-proof circuit should be added to DC power interface.
22.5 Grounding Specifications for Signal CablesThis topic describes the grounding specifications for signal cables.
Table 22-5 lists the grounding specifications for signal cables.
Table 22-5 Grounding specifications for the signal cables
No. Description
1 In the case that the digital trunk line of the transmission equipment connects to thewireless base station, no matter directly or indirectly, then E1 lightning protectorshould be installed in the corresponding interface of the transmission equipment.
2 The outside cable should have metallic protection cover and two ends of the covershould be well grounded. The end in the equipment room can be connected to thegrounding bar in the equipment room. Lightning protector should be installed in theinterface connecting the coming cable. The ground cable of the lightning protectorshould be as short as possible.
3 Both the outer conductor of coaxial cable and the metal shield of shielded cable shouldfirmly contact with the metal surface of the target equipment.
4 Idle wire pair in the signal cable should be grounded in the equipment room.
5 The TDA tone cable should pass through the main distribution frame (MDF) that hasa security unit before it goes out the office. Metal shield of the cable should connectwith the PGND of the MDF. The MDF and the cabinet should share the samegrounding electrode.
6 Overhead signal cables in the telecommunications office or mobile base station areais not allowed.
22.6 Specifications for Managing Ground CablesThis topic describes the Specifications for managing ground cables.
Table 22-6 lists the specifications for managing ground cables.
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Table 22-6 Specifications for managing ground cables
No. Description
1 Ground cables should be routed separately with signal cables.
2 Ground cables should not be routed into the equipment room through overhead cabletrays. They should be routed under ground or inside the room.
3 The PGNG cable must be a jointless copper-core cable. Installing connectors, splicesor breakers to ground cables is not allowed.
4 The PGND cable should use copper-core conducting cable with green-yellow plasticinsulation cover.
5 The neutral wire of the AC power cable should not connect with the PGNDs of thetelecommunications equipment in the equipment room.
6 The PGND cable should be as short as possible (no more than 30 m). Otherwise, theuser should adjust the position of grounding bar.
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23 Requirements of Cabling and Bundling
About This Chapter
This chapter describes the requirements of routing and bundling the cables.
23.1 Requirements of CablingThis topic describes the method and requirements of cable routing.
23.2 Requirements for Cable BundlingThis topic describes the method and requirements for binding the cables.
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23.1 Requirements of CablingThis topic describes the method and requirements of cable routing.
l For equipment room installed with supports and ESD protection floor, cables can bearranged in downward mode. That is, all cables can be routed through the interlayer of thefloor or the cable trough. If the upward cabling mode is adopted, cabling rack is requiredabove the cabinet for holding cables.
l The specifications and cross-sectional area of the cable, and the route and position forcabling should be designed beforehand.
l All cables should be arranged neatly, with their sheaths remaining intact.
l Communication cables, such as alarm cables, network cables and clock cables, should bearranged separately with the power cable and optical fibers.
l Turnings of the cable should be smooth, with the bend radius three times the cable diameteror above.
l Any damage to the insulation layer of the conducting line is not allowed.
l The cable arrangement should take the future maintenance and capacity expansion intoconsideration.
23.2 Requirements for Cable BundlingThis topic describes the method and requirements for binding the cables.
l The cables should be bound in a tidy, clear, and elegant manner. As a general rule, cablesare grouped by types, or grouped as needed when they are in a large number. Bind themwith cable ties and route them in either upward or downward cabling mode in the cablingarea at the two sides of the cabinet.
l Cables must be bundled when arranged in ducts. Bind the cables closely with appropriatetightness. The space between the cable ties should be even and the overall appearance ofthe cabling nice.
l You may not bind the cables when arranged in cable troughs. But they should be placedtidy and straight in the trough with no crossover. Moreover, the cables can not overflowthe trough. At two ends and turnings of the trough, use a plastic clip for the cables.
l Cables both inside and outside the cabinet must be bundled. Keep the cables bundled closelyand neatly.
l Use cable ties of different specifications for cables according to actual circumstances.
l Do not connect two cable ties in bundling. Otherwise, the binding strength will beweakened.
l After the bundling, cut the remaining part of the cable tie smoothly, removing all burrs.
l The space between the cable ties is even and is three or four times the size of the bundlediameter.
l When making turning for the bundled cable, keep the bend radius as big as possible to avoidbreaking the cable cores at the turning.
Figure 23-1 shows the specific operation of bundling.
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Figure 23-1 Cable bundling
1. No cable tie at turning 2. Cable tie 3. Burr 4. Cut smoothly
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24 Engineering Labels
About This Chapter
Engineering labels are affixed to both ends of various cables to identify the physical positionsof cables on different devices. There are two types of engineering labels, specialized for thepower cables and signal cables respectively.
The power cables include -48 V / -60 V power cables, power ground cables (BGND) andprotection ground cables (PGND). The signal cables include external alarm cables, networkcables, clock cables, optical fibers and so on.
Engineering labels for cables ensure the orderly and correct installation of cables of equipmentand facilitate equipment maintenance and inspection.
NOTE
In case there is a special requirement from the user of the equipment about the description method of thelabels, the labels should be printed accordingly. However, this must be stated in the self-check report.
24.1 Introduction to LabelsThis topic describes the labels used in the equipment.
24.2 Information Carried on LabelsThis topic provides the information about on the labels of the signal cables and power cables.
24.3 Filling Information on LabelsThis topic describes how to fill information on labels. The contents can be printed or written onthe labels. Printing is recommended for the sake of high efficiency and eye-pleasant layout.
24.4 Affixing LabelsAfter printing or writing the label, remove the label from the bottom page and affix it to thesignal cable, or the identification plate of the power cable.
24.5 Frequently Used Engineering LabelsThis section describes the frequently used engineering labels. The other labels are omitted here.You can perform the operation as required on site.
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24.1 Introduction to LabelsThis topic describes the labels used in the equipment.
24.1.1 MaterialThis topic describes the requirements for the thickness, color, materials, ambient temperature,and fill-in method of the labels.
l Material: Polyester (PET), with UL and CSA certificationsl Color: chalk whitel Thickness: 0.09 mml Ambient temperature: -29 to 149 degrees Celsiusl Laser printing or handwriting with oiliness markers
24.1.2 Type and ShapeThere are two types of engineering labels for power cables and signal cables respectively.
Label for Signal CablesThe label for signal cables is L-shaped with fixed dimensions, as shown in Figure 24-1.
Figure 24-1 Label for signal cables
TO:
84.07.5
7.0
5.5
5.5
11.0
11.0
37.0
7.57.0
5.55.5
1.5
0.6
1.0
2.0
(2)
(1)
10.0
(1)
(2)
Unit:mm
1. Dividing line 2. Cut dotted line
The dividing lines on the label help to specify more clearly the position of a cable. For example,there is one between the cabinet number and the frame number and another one between the
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frame number and the slot number. The dividing line is 1.5 mm x 0.6 mm in size with the colorof PONTONE 656c (light blue).
The cut dotted line helps to fold the label when affixing it to the cable, and its size is 1.0 mm x2.0 mm.
There is a mark "TO:" (upside down in the figure) at the lower right corner of the label. Themark is used to identify the opposite end of the cable on which the label is affixed.
Label for Power CablesThe label for power cables should be attached to the identification plate on the cable ties thatare bundled to the cable. The identification plate has an embossment of 0.2 mm x 0.6 mm around(symmetric on both sides), and the area in the middle is for affixing the label, as shown in Figure24-2.
Figure 24-2 Label for power cables
(1)
(2)
(3)
26.2
12.2
0.6
11
10
100
R1.0
25
1.5
0.6
TO:
1. Cable tie 2. Label 3. Dividing line on the label
24.2 Information Carried on LabelsThis topic provides the information about on the labels of the signal cables and power cables.
24.2.1 Labels for Power CablesLabels for power cables are only affixed on one side of the identification plates. On the labels,there is information (the part after the mark "TO:") about the location of the device on the otherend of the cable, like the location of control cabinet, distribution box or power socket.
24.2.2 Labels for Signal CablesThe two sides of the label affixed on the signal cable carry information about the location of theports connected to both ends of the cable.
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The information is given like this:
l Area 1 contains the location information of local end of the cable.l Area 2 (with the mark "TO:") contains the location information of the opposite end of the
cable.l Area 3 has been folded up inside the label.
Printed parts on the label for signal cables, as shown in Figure 24-3.
Figure 24-3 Label for signal cables
Area 3Area 1
Area 2 TO:
Seen from the cabling end of the equipment, the text part of the label is on the right side of thecable. The side with "TO:" that is facing outside carries the location information of the oppositeend, and the other side carries the location information of the local end. Therefore, theinformation in Area 1 at one end is the same as the information in Area 2 at the other end of thecable, and vice versa. In other words, the local information at one end is called the oppositeinformation at the other end.
24.2.3 RemarksTo use labels, focus on the following points.
l When printing/writing and affixing labels, pay attention to keep the labels clean.l Since the label paper is made of moistureproof and waterproof material, ink-jet printers
and ink pens are forbidden for printing and writing labels.l Labels should be affixed with good order in alignment.l Cable ties should be bundled in the same position of power cables, with identification plates
on the same side.l The positions of "up", "down", "right" or "left" are all based on the viewpoint of the
engineering person who is working on the label.
24.3 Filling Information on LabelsThis topic describes how to fill information on labels. The contents can be printed or written onthe labels. Printing is recommended for the sake of high efficiency and eye-pleasant layout.
24.3.1 Printing LabelsUse a laser printer to print the label according to the template.
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Template for the Printing
Template is available to print out the label. You can obtain the template by:
l Downloading the template from http://support.huawei.com. The directory of the templateis Documentation > Engineering Service > Engineering Quality > Quality Standard andTemplate.
l Asking for the template from Huawei local office.
The template is written in Microsoft Word, as shown in Figure 24-4.
Figure 24-4 Template of label
1. Cell 2. Cell
Cells Merging on the Template
When using the template, you can directly modify the contents on the template, and the followingshould be observed:
l The settings of centered characters, direction, and fonts should not be changed.
l When there are too many characters to be filled in, zoom out the characters, but make surethe printouts are clear and legible.
To merge the cells, you should first recover the table structure (if gridlines are displayed, youcan start from Step 3 directly).
1. Select Edit > Select All.2. Select Format > Borders and Shading > Borders. Select Box and click OK.3. Drag the mouse to select the cells to be merged and select Table > Merge Cells.
If two merged cells are still not enough to accommodate the characters, use multiple lines.
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Requirements on the Printer
To print the labels, laser jet printer must be used, although there is no restriction on the modelof the printer. Before printing the label, set up the page and try the printing on ordinary blankpaper (both sides are blank):
1. Cover the blank paper onto the whole page of label paper, and check whether the page setupconforms to the requirement.
2. Make sure the printer properties, such as Paper sizeand Direction, have been set correctly.
3. If the warning prompt as shown in Figure 24-5 appears before printing, click Ignore tocontinue the printing.
Figure 24-5 Warning prompt before printing
If the printout conforms to the requirement, print it to label paper. If the printout does notconform, adjust the page setup and try the printing again, until the correct printout is produced.The method of adjusting the page setup is as follows:
1. Select File > Page Setup.
2. Select the Margins tab.
3. Select Left for Gutter Position.
4. Set Header and Footerto 0, and adjust the values of Top, Bottom, Left, and Right.
After the page setup has been made correct, save it for future use. This page setup is onlynecessary the first time you use the template to print the labels.
Requirements on the Printed Label
After you print the labels, check whether they comply with the template specifications:
l All the printouts must be on the label, and nothing should be printed on the bottom pageof the label.
l Contents in the cells should be aligned in the center. In a single-line printout, the dividinglines and the mark "TO:" should not be covered by the printed characters.
l When the cells are merged and the printouts are made in multiple lines, avoid covering themark "TO:" when printing the texts by using the space bar to move the printing contentsto the next line.
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CAUTIONDifferent from the ordinary paper, the label paper is composed of two pages. No matter whatmodel of printer you are using, feed in the labels one after another by hand. Never use the auto-feed mode in order to avoid jamming the labels. Different models of printers may have differentfeeding modes, make sure to feed in the labels correctly.
24.3.2 Writing LabelsUse the black oiliness markers delivered together with the equipment to write the labels. Foreasy recognition and good-looking, the font in handwriting should be close to the standardtypeface as much as possible.
Writing PenUse the black oiliness markers delivered together with the device to write the labels.
In special cases, black ball-pens are allowed, although not recommended. When writing withthe ball-pen, take care not to leave the oil on the label, which may contaminate the label and blurthe words.
NOTE
The delivered marker has two nibs. Make sure to use the smaller nib to write the labels.
HandwritingFor the sake of easy recognition and good looking, the font in handwriting should be close tothe standard typeface as much as possible.Table 24-1 shows the standard typeface.
Table 24-1 Standard typeface for handwriting
0 1 2 3 4 5 6 7 8
9 A B C D E F G H
I J K L M N O P Q
R S T U V W X Y Z
The font size depends on the number of figures and letters. The words must be medium-sized,legible, tidy and good-looking.
Writing DirectionWrite the characters in proper size, and the direction is shown in Figure 24-6.
Figure 24-6 Writing direction of the label
TO:
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24.4 Affixing LabelsAfter printing or writing the label, remove the label from the bottom page and affix it to thesignal cable, or the identification plate of the power cable.
24.4.1 Affixing the Label to the Signal CableThis topic describes the positions where the labels should be affixed on the signal cables andthe means by which the labels are folded.
The steps to affix the label to the cable are shown in Figure 24-7 The finished labels should beon the right or top of the cables, according to different cabling methods. The left part of thefigures shows the method to affix the label when the cable is laid vertically, while the right partof the figures shows the method to affix the label when the cable is laid horizontally.
It is recommended to paste a label at a point 2 cm from the connector.
NOTE
In special cases, for example, to avoid cable bent or affecting other cables, other positions are allowed toaffix the labels.
l Stick the label to the proper position on the cable, fold the narrow part of the label accordingto the directions shown in Figure 24-7.
Figure 24-7 Sticking the label onto proper position of the signal cable
TO:A03 33 33 33
1
233
(1) (2) (3)(1) (2) (3)
1. Cable 2. Label
The length of the narrow part is based on an external cable diameter of 2.6 mm, after this parthas been stuck to the back of the label, it may not overlap the entire printed part.
l Fold the printed part along the dotted line according to the directions shown in Figure24-7.
l After the printed part of the label has been folded, the narrow part of the label should becovered completely, as shown in Figure 24-7.
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Fold the LabelFold the label upwards along the dashed line, and affix it. After being affixed, the label is shapedas (3) of Figure 24-7.
24.4.2 Affixing the Label to the Power CableThis topic describes the positions where the labels should be affixed on the power cables andthe means by which the cable ties are bound to the power cables.
Remove the label from the bottom page, then affix it to the identification plate on the cable tie.The label should be stuck to the rectangular flute, and should be stuck to only one side of theidentification plate. Make sure to affix the labels on the same side of the identification plates.The cable ties are bundled 2 cm from the connectors, and other positions are allowed in specialcircumstances.
Cable ties should be bundled on both ends of a cable. After the bundling, the finishedidentification plate should be on top of the cable in horizontal cabling, or on the right side of thecable in vertical cabling. Make sure the label is facing out, as shown in Figure 24-8.
Figure 24-8 Appearance of affixed labels on power cables
Cable
TO:B03 -48V2
Cable
TO:
B03 -48V
2
24.4.3 Affixing the Label to the IF CablesThis topic describes the positions where the labels should be affixed on the IF cables and themeans by which the cable ties are bound to the IF cables.
ContextDetermine the place where the label for the IF cable is to be bound. Generally, bind the label 20cm away from the connector of the IF cable. Then use outdoor cable ties to bind the label withthe IF cable. The label surface with letters should face outwards. All the cable ties should facethe same direction, as shown in Figure 24-9.
Figure 24-9 Appearance of the label after it is bound with the IF cable
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24.5 Frequently Used Engineering LabelsThis section describes the frequently used engineering labels. The other labels are omitted here.You can perform the operation as required on site.
24.5.1 Engineering Labels for Power CablesThe labels are affixed to the DC cables that provide power for the cabinets, and the protectiongrounding cables, including the -48 V, PGND, and BGND cables. The labels for DC powercables are affixed to one side of the identification plates on cable ties.
Table 24-2 shows the information carried on the labels for the DC power cables.
Table 24-2 Information on labels affixed to the DC power cables
Content Meaning
MN(BC) - -1 MN (BC): BC is written right under MN. On the loaded cabinetside, MN identifies the row and column number of the powerdistribution equipment like the control cabinet and distributionbox, BC identifies the row and column number of the -48 Vconnector (if there is no row number or column number, or theconnector can be identified without them, BC can be omitted).BGND and PGND have no row and column number foridentification. On the power cabinet side, only MN is used toidentify the cabinet.
MN(BC) - -2
MN(BC) - BGND
MN(BC) - PGND
The label only carries location information about the opposite equipment, the control cabinet orthe distribution box, while information of the local end is not necessary. Table 24-2 lists theinformation of two -48 V power supplies on the label. The information for other DC voltages(such as 24 V, 60 V) should be given in similar methods. Make sure that labels are affixed incorrect direction. That is, after the cable ties are bundled onto the cable, the identification plateswith the labels should face up, and the text on the labels in the same cabinet should be in thesame direction, as shown in Figure 24-10.
Figure 24-10 Example of the labels on the DC power cable
TO: A01 -48V2 B08
TO: B03 -48V2
The label on the loaded cabinetside, which carries the informationabout the position of the cable on
the power distribution unit.
The label on the distribution unitside, which carries the informationabout the position of the cable on
the loaded cabinet side.
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On the loaded cabinet side, the label marked with "A01/B08--2" on the cable indicates that thecable is -2 DC supply, which is from the eighth connector on the second row of -48V bus bar inthe cabinet on Row A, and Column 1 in the equipment room.
On the distribution unit side, the label marked with "B03--2" indicates that the cable is -2 DCsupply, which is from the loaded cabinet on Row B, Column 03 in the equipment room.
NOTE
l In the power distribution unit (or the first power cabinet of a row in the transmission equipment room),every terminal block on the - connector bar has a numeric identification. For example, in the abovelabel of "A01/B08--48V2", "08" (or sometimes "8") is the numeric identification of the terminal block.
l PGND and BGND are two copper bars, on which the terminal blocks are connected, therefore whichterminal is connected makes no difference. It is only necessary to give the row and column of the powerdistribution unit, instead of giving the specific serial number of the terminal block on the copper bar.For example, if the label on the loaded cabinet side is "A01-BGND", it means that the power cable isa BGND that connects BGND copper bar in the power distribution unit on Row A, Column 01 in theequipment room. Information on the labels for PGND cables should be given in the similar way.
24.5.2 Engineering Labels for External Cables of Alarm BoxThe external cables of alarm box are connected with the first subscriber cabinet of each row(used for power distribution). Labels posted on the first cabinet of each row should indicatewhich equipment is using the access terminal.
Labels are not needed on the equipment side unless there is special requirement. In this case,only Area 2 of the label should be filled in.
Table 24-3 shows the information on the labels of alarm box external cables.
Table 24-3 Information on labels affixed to the external cables of alarm box
Content Meaning Example
MN MN: serialnumber of thecabinet in theequipment room
M: The cabinets going from front to back (in a row) in theequipment room are numbered from A to Z.N: The cabinets going from left to right (in a column) arenumbered from 01 to 99.For example, A01 is the cabinet in Row A and Column01.
The label on the alarm cable carries simple information, and only part of the text area needs tobe filled in. It is recommended to keep the whole length of the label instead of cutting out theblank area.
Figure 24-11 shows a label on the alarm cable, on which "A01" indicates that the alarm cableconnects the first cabinet and the cabinet on Row A, Column 01 in the equipment room.
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Figure 24-11 Example of the label on the alarm cable
24.5.3 Engineering Labels for Ethernet CablesThese labels are affixed to the Ethernet cables that connect the boards in the frames, or on thecables that connect hubs and servers or agents of the Value Added Service (VAS) products.
Meaning of the Label
Table 24-4 shows the information on both sides of the labels affixed to the Ethernet cables thatconnect the boards in the frames.
Table 24-4 Information on labels affixed to the Ethernet cables
Content Meaning Example
MN-B-C-D MN: Cabinetnumber
For example, A01
B: Framenumber
Numbered in top-down order with two digits, forexample, 01
C: Physical slotnumber
Numbered in top-down and left-right order with twodigits, for example, 01
D: Ethernet portnumber
Numbered in top-down and left-right order with twodigits, for example, 01
MN-Z MN: Cabinetnumber
For example, B02
Z: Locationnumber
Valid location number of the terminal device onsite. Ifthe cable is connected to a router in a cabinet, the serialnumbers of the cabinet, the frame and the Ethernetinterface of the router should be specified, for example,B02-03-12. If the cable is connected to the networkmanagement station (NMS), specific location of theNMS should be given.
Example of the Label
Figure 24-12 shows the label on the Etherent cable:
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Figure 24-12 Example of the label on the Ethernet cable
"A01-03-10-05" indicates that on the local end of the Ethernet cable is connected with EthernetPort 05, Slot 10, Frame 03 of the cabinet on Row A, Column 01 in the equipment room.
"B02-03-12" indicates that the opposite end of the Ethernet cable is connected with EthernetPort 12, Frame 03 of the cabinet on Row B, Column 02 in the equipment room.
24.5.4 Engineering Labels of the Fibers Between Two DevicesThese labels are affixed to the fiber jumpers that connect the optical interfaces on the boards ina frame, or on the device boxes. There are two types of labels for fiber jumpers: one is for thefiber that connects the optical interfaces on two devices, the other is for the fiber that connectsthe device and the optical distribution frame (ODF).
Meaning of the Label
Table 24-5 shows the information on both sides of the labels affixed to the fiber jumper thatconnects two devices.
Table 24-5 Information on labels affixed to the fiber between two devices
Content Meaning Example
MN-B-C-D-R/T MN: cabinet number For example, A01
B: frame number Numbered in top-down order with twodigits, for example, 01
C: physical slot number Numbered in top-down and left-rightorder with two digits, for example, 01
D: optical interface number Numbered in top-down and left-rightorder with two digits, for example, 05
R: optical receiving interfaceT: optical transmittinginterface
-
MN-B-C-D-R/T MN: cabinet number The meanings are the same as above.When the local device and the oppositeend device are not in the sameequipment room, MN can be the nameof the equipment room.
B: frame number
C: physical slot number
D: optical interface number
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Content Meaning Example
R: optical receiving interfaceT: optical transmittinginterface
-
Example of the LabelFigure 24-13 shows the label on the fiber jumper between two devices:
Figure 24-13 Example of the label on the fiber jumper between two devices
"A01-01-05-05-R" indicates that the local end of the fiber jumper is connected with OpticalReceiving Interface 05 on Slot 5, Frame 01 in the cabinet on Row A, Column 01 in the equipmentroom.
"G01-01-01-01-T" indicates that the opposite end of the fiber jumper is connected with opticaltransmitting interface 01 on Slot 01, Frame 01 in the cabinet on Row G, Column 01 in theequipment room.
24.5.5 Labels for the Fiber that Connects the Device and the ODFThe label stuck on the fiber from the equipment to the ODF contains all necessary informationon the cabinet and the ODF.
Meaning of the LabelTable 24-6 shows the information on both sides of the labels affixed to the fiber jumper thatconnects the device and the ODF.
Table 24-6 Information on labels affixed to the fiber between the device and the ODF
Content Meaning Example
MN-B-C-D-R/T MN: cabinet number For example, A01
B: frame number Numbered in bottom-uporder with two digits, forexample, 01
C: physical slot number Numbered in top-down andleft-right order with twodigits, for example, 01
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Content Meaning Example
D: optical interface number Numbered in top-down andleft-right order with twodigits, for example, 05
MN-B-C-D-R/T R: optical receiving interfaceT: optical transmitting interface
-
ODF-MN-B-C-R/T MN: row number and columnnumber of ODF
M indicates a row that isnumbered A to Z from frontto back ordinally.N indicates a column that isnumbered 01 to 99 from leftto right ordinally, forexample, G01 is the ODF ofRow G and Column 01.
B: row number of the terminaldevice
Range from 01 to 99, forexample, 01-01
C: column number of the terminaldevice
R: optical receiving interfaceT: optical transmitting interface
-
Example of the LabelFigure 24-14 shows the label on the fiber jumper between the device and the ODF.
Figure 24-14 Example of the label on the fiber jumper between the device and the ODF
"ODF-G01-01-01-R" indicates that the local end of the fiber jumper is connected with the opticalreceiving terminal on Row 01, Column 01 of the ODF in Row G Column 01 in the equipmentroom.
"A01-01-05-05-R" indicates that the opposite end of the fiber jumper is connected with OpticalReceiving Interface 5 on Slot 05, frame 01 in the cabinet on Row A, Column 01 in the equipmentroom.
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24.5.6 Engineering Labels for Trunk CablesThe trunk cables include 75-ohm/120-ohm E1 cables, 120-ohm T1 cables, 34 Mbit/s, 45 Mbit/s, 140 Mbit/s, 155 Mbit/s cables and 120-ohm to 75-ohm trunk cables, as well as clock cables.
Meaning of the LabelThere are two types of labels for trunk cables. One type is used for the trunk cable connectingtwo devices, such as the trunk board and built-in transmission unit. The labels are stuck at bothends of one cable and indicate the positions of the two ends at the equipment side or at the twotrunk boards in equipment. The other type is used for the cable connecting the device and thedigital distribution frame (DDF). The labels are stuck at both ends of one cable and indicate theposition of the two ends at the equipment and the DDF.
Table 24-7 shows the information on both sides of the labels affixed to the trunk cable thatconnects two devices.
Table 24-7 Information on labels affixed to the trunk cable between two devices
Content Meaning Example
MN-B-C-D-R/T MN: cabinet number For example, A01
B: frame number Numbered in bottom-up order with twodigits, for example, 01
C: physical slot number Numbered in top-down and left-rightorder with two digits, for example, 01
D: cable number Numbered in top-down and left-rightorder with two digits, for example, 12
R: optical receivinginterfaceT: optical transmittinginterface
-
MN-B-C-D-R/T Same as above Same as above
Table 24-8 shows the information on both sides of the labels affixed to the trunk cable thatconnects the device and the DDF.
Table 24-8 Information on labels affixed to the trunk cable between the device and the DDF
Content Meaning Example
MN-B-C-D-R/T MN: cabinet number For example, A01
B: frame number Numbered in bottom-up orderwith two digits, for example, 01
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C: physical slot number Numbered in top-down and left-right order with two digits, forexample, 01
D: cable number Numbered in top-down and left-right order with two digits, forexample, 05
R: optical receiving interfaceT: optical transmittinginterface
-
DF-MN-B-C-D/R/T MN: row number andcolumn number of the DDF
M indicates a row that isnumbered A to Z from front toback ordinally.N indicates a column that isnumbered 01 to 99 from left toright ordinally, for example, G01is the DDF of Row G and Column01.
B: row number of theterminal
Range from 01 to 99, for example:01-01.
C: column number of theterminal
D: direction A or BR: optical receiving interfaceT: optical transmittinginterface
There is such a mark in DDF:A: indicating the DDF terminalsare connected to the opticalnetwork equipmentB: indicating the DDF terminalsare connected to the switchingequipment
Example of the LabelFigure 24-15 shows the label on the trunk cable between two devices:
Figure 24-15 Example of the label on the trunk cable between two devices
"G01-01-05-12-T" indicates that the local end of the trunk cable is connected with thetransmitting terminal of Trunk Cable 12 on Slot 05, Frame 01 in the cabinet on Row G, Column01 in the equipment room.
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"D02-01-01-10-R" indicates that the opposite end of the trunk cable connects with the receivingterminal of Trunk Cable 10 on Slot 01, Frame 01 in cabinet on Row D, Column 02 in theequipment room.
Figure 24-16 shows the label on the trunk cable between the device and the DDF:
Figure 24-16 Example of the label on the trunk cable between the device and the DDF
"A01-03-01-01-R" indicates that local end of the trunk cable connects with the receiving terminalof Trunk Cable 01 in Slot 01, Frame 03 of the cabinet on Row A, Column 01 in the equipmentroom.
"DDF-G01-01-01-AR" indicates that the opposite end of the trunk cable connects the receivingterminal of Direction A (connected to optical network equipment) on Row 01, Column 01 ofthe DDF on Row G and Column 01 in the equipment room.
24.5.7 Engineering Labels for Subscriber CablesThe labels are affixed to both ends of the subscriber cables to identify the position of the cableson the device side and the main distribution frame (MDF) side.
Meaning of the LabelTable 24-9 shows the information on both sides of the labels affixed to the subscriber cables.
Table 24-9 Information on labels affixed to the subscriber cables
Content Meaning Example
MN-B-C-D MN: cabinet number For example, A01
B: frame number Numbered in bottom-up order withtwo digits, for example, 03
C: physical slot number Numbered in top-bottom and left-right order in two digits, for example,01
D: cable number Numbered in top-bottom and left-right order with two digits, forexample, 01
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Content Meaning Example
MDF-MN-B-C MN: row number and columnnumber of MDF
M indicates a row that is numbered Ato Z from front to back ordinally.N indicates a column that isnumbered 01 to 99 from left to rightordinally, for example, G01 is theMDF of Row G and Column 01
B: row number of the terminal Range from 01 to 99, for example:01-01
C: column number of theterminal
Example of the Label
Figure 24-17 shows the label on the subscriber cable.
Figure 24-17 Example of the label on the subscriber cable
TO:
"A01-03-01-01" indicates that the local end of the subscriber cable connects with Terminal 01on Slot 1, Frame 03 of the cabinet on Row A, Column 01 in the equipment room.
"MDF-G01-01-01" indicates that the opposite end of the cable connects with the terminal onRow 01, Column 01 of the MDF on Row G, Column 01 in the equipment room.
24.5.8 Engineering Labels for IF CablesThe engineering labels for IF cables are plastic tags and are bound by using cable ties. The labelcontent has been printed before delivery. Hence, there is no need to write or print the content onsite.
Meaning of the Label
The meaning of the label is shown in Table 24-10.
Table 24-10 Information on the label bound to the IF cable
Content Parameter Example
IF CABLE The type of the cable is IF cable. -
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Content Parameter Example
MAIN/STD BY N
MAIN: IF cable of the main ODUSTD BY: IF cable of the standby ODUN: antenna number, numbered from 1
For example, MAIN 1. The first oneof the main cables.For example, STD BY 1. The first oneof the standby cables.
Example of the LabelAs shown in Figure 24-18, one set of the labels for IF cables has 16 labels, each set consists ofeight groups of labels. Each group indicates the IF cables to which the main ODU and standbyODU of an antenna correspond. If an antenna is configured with only one ODU, use the mainlabel.
Figure 24-18 Example of the label on the IF cable
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25 Binding Strap
About This Chapter
This chapter describes the architecture and usage of the binding strap, and the precautions forbundling the optical fibers.
CAUTIONTo prevent any human-caused accidents, read this chapter carefully before bundling the fiberjumpers.
25.1 Binding StrapThe topic describes the architecture and cutting of the binding strap.
25.2 Bundling Fibers by Using the Binding StrapThis topic describes the process, effect expected, and precautions for bundling fibers.
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25.1 Binding StrapThe topic describes the architecture and cutting of the binding strap.
25.1.1 ArchitectureThe binding strap fulfills its locking function by cooperation of these two sides.
The binding strap for optical fiber is 12.7 mm wide, with one hook side (transparentpolypropylene material) and one mat side (black nylon material).
The architecture of the binding strap, as shown in Figure 25-1.
Figure 25-1 Binding strap
1
2
1. Hook side 2. Mat side
25.1.2 CuttingThis topic describes how to cut the binding strap after you install the fibers.
PrerequisitesNone
Tools, Equipment, and MaterialsCutterbar, Binding strap
PrecautionsNOTE
You can use a pair of scissors if there is no cutterbar on site.
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ProcedureStep 1 Install the binding strap on the plastic axis of the cutterbar, as shown in Figure 25-2.
Figure 25-2 Install binding strap on cutterbar
2
1
3
1. Binding strap 2. Plastic axis 3. Cutterbar
Step 2 Roll the binding strap and allow it to pass through the guiding trough of the cutterbar.
Step 3 Cut the binding strap into appropriate length by slantly hauling the binding strap towards thecutter tooth of the cutterbar, as shown in Figure 25-3.
Figure 25-3 Cut the binding strap
1 2
3
1. Binding strap 2. Guiding trough 3. Cutter tooth
----End
25.2 Bundling Fibers by Using the Binding StrapThis topic describes the process, effect expected, and precautions for bundling fibers.
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25.2.1 Procedures for Bundling the FibersThis topic describes how to bind the fibers.
PrerequisitesNone
Tools, Equipment, and Materials
Optical fiber, Binding strap
PrecautionsNOTE
When you use a binding strap, keep the mat side inside and the hook side outside.
Procedure
Step 1 Arrange the optical fibers into a bundle.
Step 2 Cut off a piece of binding strap of appropriate length according to the size of the bundle.
Step 3 Hold the fiber bundle with one hand and press one end of the binding strap on the bundle withthe thumb.
Step 4 Strain the binding strap by the other end with the other hand, as shown in Figure 25-4.
Figure 25-4 Step 2 of bundling optical fiber
Step 5 Turn the binding strap around the fiber bundle with appropriate strain till the mat side adhibitsthe hook side snugly, as shown in Figure 25-5.
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Figure 25-5 Step 3 of bundling optical fiber
----End
25.2.2 Expected ResultThe topic describes the expected result of the bound fibers.
Figure 25-6 shows the expected result of the bound fibers.
Figure 25-6 Expected result of the bound fibers
25.2.3 PrecautionsThis topic describes the requirements for bundling the fibers.
l It is only the mat side of the binding strap that contacts the optical fiber.
l Arrange the optical fibers tidily into a bundle before bundling.
l Bundle the optical fibers with appropriate tightness. Never bind them too tight.
l The space between two binding straps should not exceed 40 cm.
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26 Making and Testing Cable Connectors
About This Chapter
This topic describes how to connect the BNC, SMB, and L9 connectors to coaxial cables, andhow to test the cable connectivity.
26.1 Making the Connector for the Coaxial CableThis topic describes how to connect the BNC, SMB, and L9 connectors to the coaxial cables.
26.2 Testing Cable ConnectivityThis topic describes how to use a multimeter to test a cable with the cable connector at one endand one group of SMB connectors at the other end.
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26.1 Making the Connector for the Coaxial CableThis topic describes how to connect the BNC, SMB, and L9 connectors to the coaxial cables.
26.1.1 Straight BNC Male ConnectorThis topic describes how to connect the straight BNC mail connector to the coaxial cable.
Prerequisitesl The DDF must be installed in the equipment room, with interfaces reserved.l The interfaces must be straight BNC connectors.
Tools, Equipment, and MaterialsCable strippers, Coaxial cable, BNC connector
ContextFigure 26-1 shows the components of the straight BNC male connector and the coaxial cable.
Figure 26-1 Straight BNC male connector and the coaxial cable
A. Heat shrink tube B. Crimping sleeve C. Connector D. Protection tube of thecoaxial cable
E. External conductor ofthe coaxial cable
F. Insulation layer of thecoaxial cable
G. Inner conductor of thecoaxial cable
Procedure
Step 1 Based on the coaxial cable materials and sizes, strip off the coaxial cable. The external conductor,insulation layer and internal conductor of the coaxial cable are displayed. See Figure 26-2. For
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the length of the reserved external conductor (L1), the length of the reserved insulation layer(L2) and the length of the stripped sleeve (L3), see Table 26-1.
Figure 26-2 Stripping off the coaxial cable
CAUTIONl When stripping off the sleeve of the coaxial cable, do not scratch the external conductor.l Determine the stripping size of the cable based on the size of the connector. See Figure
26-3.
Table 26-1 Stripping size of the common coaxial cables
Cable Type ExternalDiameter ofthe CoaxialCable
L1 (mm) L2 (mm) L3 (mm) Remark
SYFVZ-75-1-1(A) -2.2 V 5-6 7-9 10-12 -
SYV-75-2-2 -5.2 V 5-6 7-9 10-12 National trunk155M-I
SYV-75-4-2 6.7mm 5-6 7-9 10-12 National trunk155M-III
SFYV-75-2-1 3.2mm 5-6 7-9 10-12 National trunk -II
SFYV-75-2-2 4.4 mm 5-6 7-9 10-12 National trunk155M-II
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Figure 26-3 Size of the straight BNC male connector and stripping size of the coaxial cable
Step 2 Lead the heat shrink tube and crimping sleeve along the coaxial cable. See Figure 26-4.
Figure 26-4 Leading the heat shrink tube and crimping sleeve
Step 3 Unfold the external conductor of the coaxial cable to a trumpet shape. See Figure 26-5.
Figure 26-5 Unfolding the external conductor of the coaxial cable
Step 4 Insert the insulation layer and internal conductor into the connector plug of the coaxial cable.The external conductor of the coaxial cable partly wraps the external conductor of the connector.See Figure 26-6.
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Figure 26-6 Inserting the straight BNC male connector into the coaxial cable
Step 5 Use a welding tool to weld the internal conductor of the coaxial cable with that of the coaxialcable connector. See Figure 26-7.
Figure 26-7 Welding the internal conductor
Step 6 Push the crimping sleeve toward the connector. Crimp the external conductor of the coaxialcable tight. Use a crimping tool to tighten the crimping sleeve and the coaxial cable connector.See Figure 26-8.
Figure 26-8 Crimping the external conductor
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Step 7 Use a heat gun to blow the heat shrink tube so that the tube can tightly clad the crimping sleeve,See Figure 26-9.
Figure 26-9 Blowing the heat shrink tube
Step 8 Install the components of the coaxial cable to the equipment.
Figure 26-10 Installing the components of a coaxial cable
----End
26.1.2 L9 Male ConnectorThis topic describes how to assemble the straight L9 male connector to the coaxial cable.
Prerequisitesl The DDF must be properly installed in the equipment room, with interfaces reserved.l The interfaces must be straight L9 male connectors.
Tools, Equipment, and Materials
Cable strippers, Coaxial cable, L9 male connector
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ContextFigure 26-11 shows the components of the straight L9 male connector and the coaxial cable.
Figure 26-11 Straight L9 male connector and the coaxial cable
A. Protection tube of theconnector
B. Crimping sleeve C. Connector D. Protection tube of thecoaxial cable
E. External conductor ofthe coaxial cable
F. Insulation layer of thecoaxial cable
G. Inner conductor of thecoaxial cable
Procedure
Step 1 Based on the coaxial cable materials and sizes, strip off the coaxial cable. The external conductor,insulation layer, and internal conductor of the coaxial cable are exposed. See Figure 26-12. Forthe length of the reserved external conductor (L1), the length of the reserved insulation layer(L2), and the length of the stripped sleeve (L3), see Table 26-1.
Figure 26-12 Stripping off the coaxial cable
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NOTE
l When stripping off the sleeve of the coaxial cable, avoid scratching the external conductor or the insulationlayer of the coaxial cable.
l You can also determine the stripping size of the cable based on the size of the connector. See Figure26-13.
Figure 26-13 Size of the connector and the stripping size of the coaxial cable
Step 2 Lead the protection tube and crimping sleeve through the coaxial cable. See Figure 26-14.
Figure 26-14 Leading the protection tube and crimping sleeve through the coaxial cable
A
B
Step 3 Unfold the external conductor of the coaxial cable into a trumpet shape. See Figure 26-15.
Figure 26-15 Unfolding the external conductor of the coaxial cable
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Step 4 Insert the insulation layer and internal conductor into the connector of the coaxial cable. Theexternal conductor of the coaxial cable partly wraps the external conductor of the connector. SeeFigure 26-16.
Figure 26-16 Inserting the coaxial connector into the coaxial cable
Step 5 Use a welding tool to weld the internal conductor of the coaxial cable with the internal conductorof the coaxial connector. See Figure 26-17.
Figure 26-17 Welding the internal conductor
Welding
Step 6 Push the crimping sleeve toward the connector. Crimp the external conductor of the coaxialcable tight. Use a crimping tool to tighten the crimping sleeve and the coaxial cable connector,See Figure 26-18.
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Figure 26-18 Crimping the external conductor
Step 7 Push the protection tube forward till it is secured to the thread of the connector. See Figure26-19.
Figure 26-19 Rotating the protection tube tight
----End
26.1.3 Straight SMB Female ConnectorThis topic describes how to connect the straight SMB female connector to the coaxial cable.
Prerequisitesl The DDF must be properly installed in the equipment room, with interfaces reserved.
l The interfaces must be straight SMB connectors.
Tools, Equipment, and Materials
Cable strippers, Coaxial cable, SMB female connector
ContextFigure 26-20 shows the components of the straight SMB female connector and the coaxial cable.
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Figure 26-20 Components of the straight SMB female connector and the coaxial cable
A
B
DE
C
F
A. Crimping sleeve B. Connector C. Protection tube of the coaxialcable
D. External conductor of the coaxialcable
E. Insulation layer of the coaxialcable
F. Inner conductor of the coaxialcable
Procedure
Step 1 Based on the coaxial cable materials and sizes, strip off the coaxial cable. The external conductor,insulation layer, and internal conductor of the coaxial cable are exposed. See Figure 26-21. Forthe length of the reserved external conductor (L1), the length of the reserved insulation layer(L2), and the length of the stripped sleeve (L3), see Table 26-1.
Figure 26-21 Stripping off the coaxial cable
DE
C
F
L1
L2
L3
NOTE
l When stripping off the sleeve of the coaxial cable, avoid scratching the external conductor or the insulationlayer of the coaxial cable.
l You can also determine the stripping size of the cable based on the size of the connector. See Figure26-22.
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Figure 26-22 Size of the connector and the stripping size of the coaxial cable
L 3
L 2
L 1
L 3
L 2
L 1
Step 2 Lead the crimping tube through the coaxial cable. See Figure 26-23.
Figure 26-23 Leading the crimping sleeve through the coaxial cable
C
A
Step 3 Unfold the external conductor of the coaxial cable into a trumpet shape. See Figure 26-24.
Figure 26-24 Unfolding the external conductor of the coaxial cable
D
Step 4 Insert the insulation layer and internal conductor into the connector of the coaxial cable. Theexternal conductor of the coaxial cable partly wraps the external conductor of the connector. SeeFigure 26-25.
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Figure 26-25 Inserting the coaxial connector into the coaxial cable
B
Step 5 Use a welding tool to weld the internal conductor (F) of the coaxial cable with the internalconductor (B) of the coaxial connector. See Figure 26-26.
Figure 26-26 Welding the internal conductor
Step 6 Push the crimping sleeve toward the connector. Crimp the external conductor of the coaxialcable tight. Use a crimping tool to tighten the crimping sleeve and the coaxial cable connector,See Figure 26-27.
Figure 26-27 Crimping the external conductor
A
Step 7 After the components of the coaxial cable are processed, install them on the equipment. SeeFigure 26-28.
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Figure 26-28 Installing the components of a coaxial cable
----End
26.2 Testing Cable ConnectivityThis topic describes how to use a multimeter to test a cable with the cable connector at one endand one group of SMB connectors at the other end.
PrerequisitesDuring the process of routing or bundling cables, and installing the connector, the circuit on thecable may become open or broken. Hence, after the preceding procedures are completed, testthe connectivity of cables.
Tools, Equipment, and MaterialsMultimeter
Procedure
Step 1 Set the multimeter to the resistance gear.
Step 2 On the SMB connector side, connect the two probes of the multimeter to the internal and externalconductors respectively.
Step 3 According to the pin sequence table of the cable connector, use a shorting stub to cause a shortcircuit between the two pins corresponding to the SMB connectors. See Figure 26-29.
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Figure 26-29 Testing table connectivity
A
DDF sideSubrack side
Short-circuit the two pinscorresponding to the SMB
connectors
Step 4 Observe the multimeter, which should read 0 ohms.
Step 5 Remove the shorting stub from the cable connector. Observe the multimeter, which should readresistance of infinite ohms.
Step 6 Repeat Steps 2-5 to test the other SMB connectors.
----End
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27 Installing the OptiX OSN Product Seriesin One Cabinet
About This Chapter
Cabinet-sharing installation means that two or more pieces of OSN equipment are installed inone ETSI300 cabinet and share a power distribution box.
27.1 Subrack Combination in One CabinetThe OSN product series encompass the OptiX OSN 7500, OptiX OSN 3500, OptiX OSN 3500II, OptiX OSN 2500, OptiX OSN 2500 REG, and OptiX OSN 1500 (including 1500A and1500B).
27.2 Desriptions of Cabinet-Sharing InstallationAn example is given in this document to demonstrate the requirements for the cabinet-sharinginstallation and its process. In this example, it is assumed that a piece of equipment is alreadyinstalled in the cabinet, to which one more piece of equipment is to be added.
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27.1 Subrack Combination in One CabinetThe OSN product series encompass the OptiX OSN 7500, OptiX OSN 3500, OptiX OSN 3500II, OptiX OSN 2500, OptiX OSN 2500 REG, and OptiX OSN 1500 (including 1500A and1500B).
In a 2.2 meter high cabinet, for example, the typical subrack combination is as follows:
Table 27-1 Combining the OptiX OSN product series in one cabinet
Scenario
Type of the Subrack Combined in OneCabinet
Number of SubracksCombined in OneCabinet
1 OptiX OSN 7500 1
OptiX OSN 3500 1
2 OptiX OSN 7500 1
OptiX OSN 3500 II 1
3 OptiX OSN 7500 1
OptiX OSN 2500 1
4 OptiX OSN 7500 1
OptiX OSN 1500A/OptiX OSN 1500B 1 to 3
5 OptiX OSN 3500 1
OptiX OSN 2500 1
6 OptiX OSN 3500 1
OptiX OSN 1500A/OptiX OSN 1500B 1 to 3
7 OptiX OSN 3500 II 1
OptiX OSN 2500 1
8 OptiX OSN 3500 II 1
OptiX OSN 1500A/OptiX OSN 1500B 1 to 3
9 OptiX OSN 2500 1
OptiX OSN 1500A/OptiX OSN 1500B 1 to 3
10 OptiX OSN 7500 II 1
OptiX OSN 7500 1
11 OptiX OSN 7500 II 1
OptiX OSN 3500 1
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CAUTIONl Only the OptiX OSN 3500 III or OptiX OSN 7500 III can be added to a cabinet where the
OptiX OSN 7500 II is already installed.
l When the OptiX OSN 7500 II and OptiX OSN 3500 III or OptiX OSN 7500 III are installedin one cabinet, the power consumption of the OptiX OSN 3500 Enhanced Subrack or OptiXOSN 7500 Enhanced Subrack must be less than 1100 W to ensure proper operation of theequipment.
NOTE
The OptiX OSN 2500 REG and the OptiX OSN 2500 use the identical subrack, and the installation methodof the two is the same. This document describes only the installation method of the OptiX OSN 2500,which applies to the OptiX OSN 2500 REG as well.
27.2 Desriptions of Cabinet-Sharing InstallationAn example is given in this document to demonstrate the requirements for the cabinet-sharinginstallation and its process. In this example, it is assumed that a piece of equipment is alreadyinstalled in the cabinet, to which one more piece of equipment is to be added.
27.2.1 PreparationsBefore installation, make sure that the cabinet has sufficient space, the materials required forinstallation are available, and the power output terminals are in compliance with the relevantrequirements.
Requirements for Installation Space
Table 27-2 lists the installation space requested by each type of equipment. Before installation,ensure that there is sufficient room available on the cabinet for installing one or more subracks.
Table 27-2 Installation space requested by varied subracks
Name Minimum Height (Space for Cablingand Airing Included) (mm)
Minimum Width xDepth (Space forCabling Included)(mm)
OptiX OSN 7500 II 800 + 125 = 925, 125 for airing 497 x 295
OptiX OSN 7500 760 + 115 = 875, 125 for airing 497 x 295
OptiX OSN 3500 725 + 150 = 875, 150 for airing 497 x 295
OptiX OSN 3500 II 725 + 150 = 875, 150 for airing 447 x 295
OptiX OSN 2500 575 + 50 = 625, 50 for airing, or 14U (1Ufor airing) according to IEC Standard
447 x 295
OptiX OSN 1500B 221 (5U), or 225 in ETS Standard 448 x 295
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Name Minimum Height (Space for Cablingand Airing Included) (mm)
Minimum Width xDepth (Space forCabling Included)(mm)
OptiX OSN 1500A 131 (3U), or 150 in ETS Standard 448 x 295
Requirements for Materials Required for InstallationBefore installation, make well prepared all the necessary materials that are listed in Table27-3.
Table 27-3 Materials necessary for the cabinet-sharing installation
Name Quantity Description
Subrack 1 Used for installation.
Guide rail 1 For the OptiX OSN 7500, OptiX OSN 3500,OptiX OSN 3500 II, and OptiX OSN 7500 II, aguide rail is required. For the OptiX OSN 2500,a guide rail is optional. It is recommended thatyou use a guide rail to more easily install theOptiX OSN 2500.
Cabledistribution plate
1 For the OptiX OSN 7500 ,OptiX OSN 3500 IIor OptiX OSN 3500, a cable distribution plateis required to separate the cables of the boards.
Orderwirephone base
1 For the OptiX OSN 7500, OptiX OSN 3500,OptiX OSN 3500 II, and OptiX OSN 2500, anorderwire phone base is required to secure theorderwire phone.NOTE
An orderwire phone is inapplicable to the OptiX OSN7500 II.
Powercable
2 (For non-OptiX OSN 3500III, OptiX OSN 7500 III, andOptiX OSN 7500 II subrack)
Used to connect the power supply in the powerdistribution box to the two power boards on thesubrack.
4 (For the OptiX OSN 3500III and OptiX OSN 7500 III)
8 (For the OptiX OSN 7500II subrack)
Groundingwire
1 Used to connect a subrack with the ground.
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Name Quantity Description
Alarmconcatenation cable
1 Used to concatenate the alarm interfaces of thesubracks on the shared cabinet. When a criticalor major alarm occurs from any subrack on theshared cabinet, the alarm monitor in theequipment room reports the alarm.
Indicatorconcatenation cable
1 Used to concatenate the indicator interfaces ofthe cabinet, so that the indicator can be lit by anysubrack on the shared cabinet.
CAUTIONThe guide rail for the OptiX OSN 2500 or OptiX OSN 3500 II differs from the guide rail for theOptiX OSN 7500, OptiX OSN 3500, and OptiX OSN 7500 II. When installing the OptiX OSN2500 or OptiX OSN 3500 II and the OptiX OSN 7500, OptiX OSN 3500, or OptiX OSN 7500II, use the guide rail for the OptiX OSN 2500 or OptiX OSN 3500 II.
TIP
Based on the maximum quantity of subracks that a cabinet can hold, sufficient guide rails and cables areprovided.
l For the OptiX OSN 7500, OptiX OSN 3500 II, OptiX OSN 3500 or OptiX OSN 7500 II, the defaultsupplied guide rails and cables are enough for installing two subracks.
l For the OptiX OSN 2500, the default supplied guide rails and cables are sufficient for installing threesubracks.
During the installation, you can use the guide rail (s) and cable (s) which are left unused in the cabinet.
Requirements for Air Circuit BreakThe OSN product series differ in power consumption. To ensure that the equipment receives thenormal power supply or is well protected in case some anomaly occurs, the arrangement of aircircuit break must be in compliance with the requirements listed in Table 27-4.
Table 27-4 Requirements for air circuit break
Name Capacity (A) Requirement for ConnectingTerminal
OptiX OSN 7500 IIsubrack
50 (TN81PDU), 32(DPD63-4-8 PDU)
Uses a separate 50 A or 32 A terminal.
Standard OptiX OSN7500 subrack
32 Uses a separate 32 A terminal.
OptiX OSN 7500 IIIsubrack
63 Uses a separate 63 A terminal.
Standard OptiX OSN3500 subrack
20 Uses a separate 32 A terminal.
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Name Capacity (A) Requirement for ConnectingTerminal
Enhanced OptiXOSN 3500 subrack(1100 W)
32 Uses a separate 32 A terminal.
OptiX OSN 3500 IIIsubrack
63 Uses a separate 63 A terminal.
OptiX OSN 3500 II 32 Uses a separate 32 A terminal.
Standard OptiX OSN2500 subrack
15 Uses a separate 20 A terminal.
Enhanced OptiXOSN 2500 subrack
20 Uses a separate 20 A terminal.
OptiX OSN 2500REG
15 Uses a separate 20 A terminal.
Standard OptiX OSN1500A/1500Bsubrack
10 Shares a 20 A terminal.
Enhanced OptiXOSN 1500A/1500Bsubrack
15 Uses a separate 20 A terminal.
27.2.2 Descriptions of Installation ProcessPerform the installation according to the following sequence: subrack, internal cables (includingpower cables, grounding wire, indicator concatenation cable, and alarm concatenation cable),cable distribution plate, trunk cables or jumper fibers, and orderwire rack.
Install a Subrack
CAUTIONWhen installing the OptiX OSN 2500, OptiX OSN 2500 REG, or OptiX OSN 3500 II with theOptiX OSN 7500, OptiX OSN 3500, or OptiX OSN 7500 II, ensure that the guide rail of theOptiX OSN 2500 or OptiX OSN 3500 II is used.
NOTE
In the case of the OptiX OSN 1500A or OptiX OSN 1500B, no guide rail is needed.
Mount the subrack onto the guide rail and fix it with screws.
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Install a Grounding WireConnect one end of the grounding wire of the subrack to the grounding point on the subrack andthe other end to the nearest fixed grounding connector of the cabinet.
Install Power CablesConnect one end of the cord end terminal or OT terminal of one power cable to the correspondingconnection interface on side A of the power distribution box and the other end to the powerinterface of the power board (PIU) in the left or lower part of the subrack.
Connect one end of the cord end terminal or OT terminal of the other power cable to thecorresponding connection interface on side B of the power distribution box and the other end tothe power interface of the power board (PIU) in the right or upper part of the subrack.
Install an Indicator Concatenation CableNOTE
In the case of the OptiX OSN 1500A or OptiX OSN 1500B, no indictor concatenation cable is needed.
Connect the RJ-45 end of the indicator concatenation cable to the LAMP1 or LAMP2 interfaceof one subrack and the other end to the LAMP1 or LAMP2 interface of the other subrack.
NOTE
l The LAMP1 and LAMP2 interfaces of the OpitX OSN 2500 and OpitX OSN 2500 REG are availablein the upper network interface area of the subrack.
l The LAMP1 and LAMP2 interfaces of the OpitX OSN 3500 II are available on the SEI board.
l The LAMP1 and LAMP2 interfaces of the OpitX OSN 3500 and OpitX OSN 7500 are available onthe AUX board.
l The LAMP1 and LAMP2 interfaces of the OpitX OSN 7500 II are available on the SCA board.
Install an Alarm Concatenation CableNOTE
In the case of the OptiX OSN 1500A or OptiX OSN 1500B, no alarm concatenation cable is needed.
Connect one end of the alarm concatenation cable to the ALMO1 interface of one subrack andthe other end to the ALMO2 interface of the other subrack.
NOTE
l The alarm output interfaces and alarm concatenation interfaces of the OpitX OSN 2500 and OpitXOSN 2500 REG are available in the upper network interface area of the subrack.
l The alarm output interfaces and alarm concatenation interfaces of the OpitX OSN 3500 II are availableon the SEI board.
l The alarm output interfaces and alarm concatenation interfaces of the OpitX OSN 3500 and OpitXOSN 7500 are available on the AUX board.
l The alarm output interfaces and alarm concatenation interfaces of the OpitX OSN 7500 II are availableon the SCA board.
Install a Cable Distribution PlateNOTE
In the case of the OptiX OSN 2500, OptiX OSN 1500A, or OptiX OSN 1500B, no cable distribution plateis needed.
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Mount the cable distribution plate onto the proper position of the subrack.
Cable Trunk Cables and Jumper FibersFor how to cable and bind trunk cables and jumper fibers, as well as how to affix labels properly,refer to13 Installing and Routing the Cables and 14 Installing and Routing FiberJumpers.
Installing the Orderwire Phone BaseNOTE
For the OptiX OSN 1500A, OptiX OSN 1500B, and OptiX OSN 7500 II, do not install the orderwire phonebase.
Install the orderwire phone on to a proper position of the cabinet.
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