hit_7035_itmn

SURPASS SURPASS hi h i T 7035 7035 4.3 Installatio Install ation n and Test Manu Manual al (ITMN (ITMN)) A42022-L5975-B A 42022-L5975-B052-02-7630 052-02-7630

© Nokia Siemens Networks

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Installation and Test Manual (ITMN)

The information in this document is subject to change without notice and describes only the product defined in the introduction of this documentation. This documentation is intended for the use of Nokia Siemens Networks customers only for the purposes of the agreement under which the document is submitted, and no part of it may be used, reproduced, modified or transmitted in any form or means without the prior written permission of Nokia Siemens Networks. The documentation has been prepared to be used by professional and properly trained personnel, and the customer assumes full responsibility when using it. Nokia Siemens Networks welcomes customer comments as part of the process of continuous development and improvement of the documentation. The information or statements given in this documentation concerning the suitability, capacity, or performance of the mentioned hardware or software products are given “as is” and all liability arising in connection with such hardware or software products shall be defined conclusively and finally in a separate agreement between Nokia Siemens Networks and the customer. However, Nokia Siemens Networks has made all reasonable efforts to ensure that the instructions contained in the document are adequate and free of material errors and omissions. Nokia Siemens Networks will, if deemed necessary by Nokia Siemens Networks, explain issues which may not be covered by the document. Nokia Siemens Networks will correct errors in this documentation as soon as possible. IN NO EVENT WILL NOKIA SIEMENS NETWORKS BE LIABLE FOR ERRORS IN THIS DOCUMENTATION OR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITY OR DATA,THAT MAY ARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATION IN IT. This documentation and the product it describes are considered protected by copyrights and other intellectual property rights according to the applicable laws. The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademark of Nokia Corporation. Siemens is a registered trademark of Siemens AG. Other product names mentioned in this document may be trademarks of their respective owners, and they are mentioned for identification purposes only. Copyright © Nokia Siemens Networks 2009. All rights reserved.

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Important Notice on Produ ct Safety Elevated voltages are inevitably present at specific points in this electrical equipment.Some of the parts may also have elevated operating temperatures. Non-observance Non-observance of these conditions and the safety instructions can result in personal injury or in property damage. Therefore, only trained and qualified personnel may install and maintain the system. The system complies with the standard EN 60950-1 / IEC 60950-1. All equipment connected has to comply with the applicable safety standards. The same text in German: Wichtiger Hinweis zur Produktsicherheit In elektrischen Anlagen stehen zwangsläufig bestimmte Teile der Geräte unter Spannung. Einige Teile können auch eine hohe Betriebstemperatur aufweisen. Eine Nichtbeachtung dieser Situation und der Warnungshinweise kann zu Körperverletzungen Körperverletzungen und Sachschäden führen. Deshalb wird vorausgesetzt, dass nur geschultes und qualifiziertes Personal die Anlagen installiert und wartet. Das System entspricht den Anforderungen der EN 60950-1 / IEC 60950-1. Angeschlossene Geräte müssen die zutreffenden Sicherheitsbestimmungen erfüllen.

A42022-L5975-B052-02-7630 Issue 2 Issue Date June 2009


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The information in this document is subject to change without notice and describes only the product defined in the introduction of this documentation. This documentation is intended for the use of Nokia Siemens Networks customers only for the purposes of the agreement under which the document is submitted, and no part of it may be used, reproduced, modified or transmitted in any form or means without the prior written permission of Nokia Siemens Networks. The documentation has been prepared to be used by professional and properly trained personnel, and the customer assumes full responsibility when using it. Nokia Siemens Networks welcomes customer comments as part of the process of continuous development and improvement of the documentation. The information or statements given in this documentation concerning the suitability, capacity, or performance of the mentioned hardware or software products are given “as is” and all liability arising in connection with such hardware or software products shall be defined conclusively and finally in a separate agreement between Nokia Siemens Networks and the customer. However, Nokia Siemens Networks has made all reasonable efforts to ensure that the instructions contained in the document are adequate and free of material errors and omissions. Nokia Siemens Networks will, if deemed necessary by Nokia Siemens Networks, explain issues which may not be covered by the document. Nokia Siemens Networks will correct errors in this documentation as soon as possible. IN NO EVENT WILL NOKIA SIEMENS NETWORKS BE LIABLE FOR ERRORS IN THIS DOCUMENTATION OR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITY OR DATA,THAT MAY ARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATION IN IT. This documentation and the product it describes are considered protected by copyrights and other intellectual property rights according to the applicable laws. The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademark of Nokia Corporation. Siemens is a registered trademark of Siemens AG. Other product names mentioned in this document may be trademarks of their respective owners, and they are mentioned for identification purposes only. Copyright © Nokia Siemens Networks 2009. All rights reserved.

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Important Notice on Produ ct Safety Elevated voltages are inevitably present at specific points in this electrical equipment.Some of the parts may also have elevated operating temperatures. Non-observance Non-observance of these conditions and the safety instructions can result in personal injury or in property damage. Therefore, only trained and qualified personnel may install and maintain the system. The system complies with the standard EN 60950-1 / IEC 60950-1. All equipment connected has to comply with the applicable safety standards. The same text in German: Wichtiger Hinweis zur Produktsicherheit In elektrischen Anlagen stehen zwangsläufig bestimmte Teile der Geräte unter Spannung. Einige Teile können auch eine hohe Betriebstemperatur aufweisen. Eine Nichtbeachtung dieser Situation und der Warnungshinweise kann zu Körperverletzungen Körperverletzungen und Sachschäden führen. Deshalb wird vorausgesetzt, dass nur geschultes und qualifiziertes Personal die Anlagen installiert und wartet. Das System entspricht den Anforderungen der EN 60950-1 / IEC 60950-1. Angeschlossene Geräte müssen die zutreffenden Sicherheitsbestimmungen erfüllen.



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Stateme Statements nts of compliance CE statement The CE conformity declaration for the product is fulfilled when the system is built and cabled in line with the information given in the manual and the documentation specified within it, such as installation instructions, cable lists or the like. Where necessary project-specific documentation should be taken into consideration. Deviations from the specifications or independent modifications to the l ayout, such as use of cable types with lower screening values for example, can lead to violation of the CE protection requirements. In such cases the conformity declaration is invalidated. The responsibility for any probl ems which subsequently arise rests with the party responsible for deviating from the installation specifications.



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Contents 1 1.1 1.2 1.3 1.3.1 1.3.2 1.3.3 1.4

Notes on this documentation ............................................................... 9 Customer documentation ........................................................................ 9 Complementary documents................................................................... 10 Symbols used in the customer documentation...................................... 10 Symbols for warnings and cautions....................................................... 11 Symbols for notes.................................................................................. 11 Conventions used.................................................................................. 11 Notes on licensed software ................................................................... 12

2

Protective measures and h andling / Schutzmaßnahmen und Handhabung ................................................................................. 13 Basic remarks / Grundsätzliche Hinweise ............................................. 13 Mechanical design / Mechanische Konstruktion.................................... 14 Front door of the device / Geräte-vordertür ........................................... 14 Card shieldings / Schirmungen der Baugruppen................................... 14 Weight / Gewicht ................................................................................... 15 Temperature / Temperatur .................................................................... 15 Device cooling / Gerätekühlung............................................................. 15 Components subject to high operating temperatures / Komponenten mit hoher Betriebstemperatur......................................... 15 Air filter / Luftfilter................................................................................... 16 Grounding and potential balancing / Erdung und Potenzialausgleich................................................................................. 16 Protection against excessive overvoltage on the -48/-60-Volt power supply input / Schutz gegen Überspannungen beim -48/60-Volt-stromversorgungseingang ........................................................ 17 Electrostatic sensitive components (ESD) / Elektrostatisch gefährdete Bauteile (EGB) .................................................................... 18 Fiber-optic cables and connectors / Lichtwellenleiter und Optische Steckverbinder ....................................................................... 19 Laser radiation / Laserstrahlung............................................................ 20 Protection against extraneous laser light and protection of the optical modules concerned / Schutz gegen austretendes Laserlicht und Schutz der betreffenden Optischen Baugruppen........... 20 Laser safety circuit / Lasersicherheitsabschaltung................................ 22 Emergency switching OFF / Notabschaltung ........................................ 22 Handling batteries / Handhabung von batterien .................................... 23 Replacement components / Ersatzteile................................................. 24 Waste Electrical and Electronic Equipment (WEEE) / Entsorgung von elektrischen und elektronischen Geräten .................... 25

2.1 2.2 2.2.1 2.2.2 2.3 2.4 2.4.1 2.4.2 2.5 2.6 2.7 2.8 2.9 2.10 2.10.1 2.10.2 2.11 2.12 2.13 2.14 3 3.1 3.2 3.3

Installation proc edures and preparation ........................................... 26 Declaration of CE conformity................................................................. 26 Personnel requirements ........................................................................ 26 Required tools and accessories ............................................................ 27



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3.4 3.5 3.6 3.7 3.8 3.9

Checking for intactness..........................................................................27 Installation steps.....................................................................................28 Site preparation......................................................................................28 Unpacking shipping box .........................................................................29 Unpacking the individual card shipping cartons .....................................30 Unpacking the software shipping cartons...............................................30

4 4.1 4.1.1 4.1.2 4.1.3 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.3 4.3.1 4.3.2 4.3.3 4.3.4 4.3.5 4.3.6 4.3.7 4.3.8 4.3.9 4.3.10 4.3.11

Installing the hardware........................................................................31 Installing the chassis ..............................................................................31 Standard racks .......................................................................................32 Adjusting the chassis installation position ..............................................34 Connecting the chassis to the grounding cable......................................35 Equipping the chassis ............................................................................39 Installing module cards...........................................................................39 Inserting CF card....................................................................................44 Installing SFP optical modules ...............................................................44 Replacing or adjusting fan unit...............................................................47 Replacing air filter...................................................................................49 Connecting cables..................................................................................50 Cable list ................................................................................................50 Connecting power cables.......................................................................52 Connecting fiber jumpers .......................................................................56 Connecting E1 cables ............................................................................57 Connecting E3/DS3 cables ....................................................................63 Connecting STM-1E cables....................................................................64 Connecting administrative cables...........................................................65 Connecting timing cables .......................................................................67 Connecting Ethernet cables ...................................................................68 Connecting Ethernet splitter cables........................................................69 Complete cable layout............................................................................73

5 5.1 5.2 5.3 5.3.1

Connecting and configuri ng an operation terminal ..........................75 PC requirements for use as an operating terminal.................................75 Connecting the operating terminal .........................................................75 Installing Element Manager Software (EMS) .........................................75 Installing the TNMS CT software package.............................................76

6 6.1 6.1.1 6.1.2 6.1.3 6.2

Startin g up t he SURPASS hiT 7035 ....................................................77 Initial startup of a new system................................................................77 Setting up a HyperTerminal connection .................................................78 Coping CF load/MIB to flash ..................................................................80 NE general configuration........................................................................83 Using the SURPASS hiT 7035 LCT .......................................................89

7 7.1 7.2

Configuring the SURPASS hiT 7035...................................................90 EMS installation .....................................................................................91 NE configuration and management........................................................91



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7.2.1 7.2.2 7.2.3 7.2.4 7.2.5 7.2.6 7.2.7 7.2.8 7.2.9 7.2.10 7.2.11 7.2.12 7.2.13

Starting SURPASS hiT 7035 LCT via TNMS CT................................... 91 Chassis view.......................................................................................... 98 NE synchronization.............................................................................. 100 NE properties configuration................................................................. 101 Shutting down NE................................................................................ 104 FTP settings ........................................................................................ 104 NE software management................................................................... 106 MIB management ................................................................................ 108 NE timing setting ................................................................................. 113 NE trap destination configuration ........................................................ 115 Card configuration and management .................................................. 116 SDH port configuration and management ........................................... 118 Shutting down SUPRASS hiT 7035 LCT............................................. 121

8 8.1 8.2 8.2.1 8.2.2 8.2.3 8.2.4 8.2.5 8.2.6 8.2.7 8.2.8 8.2.9 8.2.10 8.2.11 8.2.12 8.3 8.3.1 8.3.2 8.3.3 8.3.4 8.3.5 8.3.6 8.3.7 8.3.8 8.3.9 8.3.10 8.4 8.4.1 8.4.2 8.4.3 8.4.4 8.4.5

Initial measurements and t ests ........................................................ 122 Measurements and tests ..................................................................... 122 Local tests ........................................................................................... 122 Battery voltage test.............................................................................. 123 Management port test.......................................................................... 123 AUX port test ....................................................................................... 124 STM-16 optical interface...................................................................... 125 STM-4 optical interface........................................................................ 129 STM-1 optical interface........................................................................ 132 STM-1E port BER test ......................................................................... 136 PDH port test ....................................................................................... 137 Ethernet port........................................................................................ 139 GE port auto-negotiation test............................................................... 141 OA port test ......................................................................................... 142 Power 1 + 1 protection test.................................................................. 143 Network tests....................................................................................... 144 Bit error test on E1 (12 hours) ............................................................. 144 Bit error test on E3 (12 hours) ............................................................. 145 Bit error test on DS3 (12 hours)........................................................... 146 Bit error test on STM-1 (12 hours)....................................................... 147 Bit error test on STM-1E (12 hours) .................................................... 148 Bit error test on STM-4 (12 hours)....................................................... 149 Bit error test on STM-16 (12 hours)..................................................... 150 Packet loss test on 8 x FE/T Ethernet card (12 hours)........................ 151 Packet loss test on 8 x FE/L2 Ethernet card (12 hours) ...................... 152 Packet loss test on Gigabit Ethernet card (12 hours) .......................... 153 Field check lists and test report........................................................... 154 Certificate of customer acceptance ..................................................... 155 Circuit pack list of SURPASS hiT 7035 ............................................... 156 Load number of SURPASS hiT 7035 and TNMS-CT.......................... 157 Tools and test equipment list............................................................... 157 Test result............................................................................................ 157

9

LED indications ................................................................................. 159



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9.1 9.2 9.3 9.3.1 9.3.2 9.3.3 9.4

Enhanced System Controller card (SCE).............................................159 Cross-connect and timing card with STM-4/1 optical module (CC + 1 x STM-4/1) or with STM-16/4 optical module (CC + 1 x STM-16/4) ............................................................................................160 Traffic interface cards...........................................................................161 PWR and Fault LEDs ...........................................................................161 Link LEDs.............................................................................................161 Fast Ethernet connector LEDs .............................................................162 Power card ...........................................................................................162

10 10.1 10.2 10.3 10.4 10.5 10.6 10.7 10.8 10.9 10.10 10.11

Pin assignments .................................................................................163 DC power supply cable ........................................................................163 E1 cable ...............................................................................................164 SIPAC connector panel........................................................................171 Ethernet cable ......................................................................................174 Management cable...............................................................................176 Timing, STM-1E, and E3/DS3 cables...................................................177 Station alarm cables.............................................................................177 MDI cables ...........................................................................................178 MDO cables..........................................................................................179 EOW cable ...........................................................................................179 Console cable ......................................................................................180

Abbreviati ons......................................................................................................181 Index

............................................................................................................183



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Summary of changes

Summary of changes Issue

Issue date

Remarks

1

September 2008

Initial version

2

June 2009

Minor update on supported racks and a note on inter-working in Chapter 6.1.3



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Notes on this documentation

1

Notes on this documentation This chapter gives an overall introduction of the Nokia Siemens Networks SURPASS hiT 7035 series documentation sets, an overview of important symbols in the document, and notes on licensed software.

1.1

Customer documentation The Customer Documentation of the SURPASS hiT 7035 comprises the following description and manuals: •

SURPASS hiT 7035 Product Descr ipt ion (PD) The Product Description gives an overview of the application, performance features, interfaces, and functions of the SURPASS hiT 7035. It also contains the most important technical data.

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Note The Product Description does not contain any instructions for using the system. •

SURPASS hiT 7035 Inst allation and Test Manual (ITMN) The Installation and Test Manual contains instructions on mounting, connecting, and commissioning the SURPASS hiT 7035, as well as connecting and commissioning the LCT operating terminals.

•

SURPASS hiT 7035 Troublesho oti ng Manual (TSMN) The Troubleshooting Manual provides information about the supported alarm list and troubleshooting procedures for SURPASS hiT 7035.

•

SURPASS hi T 7035 LCT User Manual (LCT UMN) The Local Craft Terminals (LCT) User Manual provides information about the SURPASS hiT 7035 LCT (features, configuration, installation,



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etc.) and how to operate, monitor, and maintain the SURPASS hiT 7035 using the Element Manager software running on the LCT.

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1.2

Note Throughout the document, the term SURPASS hiT 7035 LCT is used to refer to the TNMS CT system configured for LCT mode. Note Besides the LCT User Manual, the Online Help of the SURPASS hiT 7035 software is an extremely useful reference tool for the operator.

Complementary documents In addition to the SURPASS hiT 7035 customer documentation listed in Chapter 1.1, there is further documentation: •

SURPASS hi T 7035 Release Note This document identifies the specific version of the SURPASS hiT 7035 and provides information on hardware, software, LCT components, and the limitations of the release as well as important notes concerning the customer documentation.

•

TNMS CT User Manual This manual provides information about the TNMS CT software, integrating description, installation, operation, and a graphical user interface explanation.

1.3

Symbols used in the customer documentation Following paragraphs describe the symbols used in this document.



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1.3.1

Symbols for warnin gs and cautions !

!

1.3.2

WARNING This warning s ymbol m eans danger. There is a situation that cou ld cause bodily inj ury. Before worki ng on any equipment, be aware of the hazards involv ed with electri cal circuit ry and be familiar wit h standard practices for preventing accidents. CAUTION Means that the reader sho uld be careful. In this situ ation, he might do something t hat could result i n equipment damage or loss of data.

Symbols for notes i

Note Used for notes, tips, or additional information.

Cross reference to other chapters in this manual or reference to other manuals. Help

1.3.3

Reference to the online help system of the Element Manager software.

Convention s used

Representation

Meaning

“Inverted commas”

Window or wizard titles are represented in “inverted commas”. Example: Open the “Help and Support Center” window. The “New Connection” wizard is displayed.

Bold

Any field or text in the GUI is represented in bold type. Example: Click Shutdown and then click OK to turn off the computer.

Italic

Variables and file extensions are represented in italic. Example: Enter 192.168.0.1 in the IP address field. Click OK to produce a .pdf rendition.

Courier

Commands, screen output, file names, and paths are represented in courier. Example:


# ping -t 192.168.0.1

Used for keyboard actions or place holders for concrete names or values are


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Representation

Meaning represented in . If used for a filename the must be used also.

courier

font

Example: The naming convention for the log files is < NEname>.txt, where is the name of the NE sending the messages. Press + to open the task manager. Used for menu sequences.

>

Example: Click File > Print… to print the document.

Tab. 1.1

1.4

List of used conventions

Notes on licensed software This documentation may refer to various third-party software products which are integrated into the product under a license agreement between Nokia Siemens Networks and the software manufacturer. In case of problems with such software, please contact Nokia Siemens Networks .

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Note All IPs, release, build, and other information in the pictures are used as an example only and not to be taken literally unless specified as such.



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Protective measures and handling / Schutzmaßnahmen und Handhabung

2 2.1

Protective measures and handling / Schutzmaßnahmen und Handhabung Basic remarks / Grundsätzliche Hinweise If the following rules are not observed, and if equipment damages or personnel injuries are the result, the manufacturer assumes no liability, and the warranty will expire!

Bei Nichtbeachtung der nachfolgenden Vorschriften und daraus resultieren- den Personen- oder Sachschäden wird keine Haftung seitens des Herstellers übernommen, und die Gewährleistung erlischt!

!

If the user wants to replace any parts of devices or cables, the user must only use original spare parts or parts which are explicitly licensed by the manufacturer.

Falls Sie an den Geräten oder an der Verkabelung irgendwelche Teile ersetzen, dann dürfen Sie nur Original-Ersatzteile oder solche Teile verwenden, die vom Hersteller ausdrücklich zugelassen sind.

!

Changes or modifications not expressly approved by the manufacturer could void the user’s authority to operate the equipment.

Änderungen oder Modifikationen, die vom Hersteller nicht ausdrücklich zugelassen wurden, können zum Erlöschen der allgemeinen Betriebsgenehmigung für das Gerät führen.

If necessary, safety signs and markings according to IEC 61310-1 are fixed to the devices.

Soweit notwendig, sind an den Geräten Sicherheitssymbole und Kennzeichnungen nach IEC 61310-1 angebracht.

Important note:

Wichtiger hinweis:

If no date is specified, the norms mentioned in the following (EN, IEC, UL, etc.) refer to the latest issue of the respective norm in each case.

Wenn kein Datum angegeben ist, beziehen sich die Normen (EN, IEC, UL usw.), die im Folgenden erwähnt werden, auf die jeweils neueste Ausgabe der entsprechenden Norm.

!

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Additional (more specific) safety remarks may also be included in the following main chapters of this.

Zusätzliche (speziellere) Sicherheitshinweise können auch in den nachfolgenden Hauptkapiteln dieses Handbuches enthalten sein.

2.2

Mechanical design / Mechanische Konstruktion

2.2.1

Front door of the device / Geräte-vordertür

!

!

A subrack being fitted with a front door must only be operated with this door closed. There is danger of personal injury, if the door of the subrack is open.

Baugruppenträger, die eine Vordertür haben, dürfen nur betrieben werden, wenn diese Tür geschlossen ist. Bei geöffneter Vordertür des Baugruppenträgers besteht Verletzungsgefahr.

For this reason, before working on the subrack, open the front door, raise it and then remove it.

Öffnen Sie deshalb, bevor Sie am Baugruppenträger arbeiten, dessen Vordertür, heben Sie sie an und nehmen Sie sie ab.

Once the work has been completed, refit the door belonging to this subrack and close it.

Bringen Sie nach Beendigung der Arbeiten die zu diesem Baugruppenträger gehörende Vordertür wieder an und schließen Sie sie.

When the front door is open especially when additional covers have been removed

Bei geöffneter Vordertür insbesondere nach dem Öffnen von zusätzlichen Abdeckungen können auch Teile mit hoher Betriebstemperatur zugänglich sein.

-components with high operating temperatures may also become accessible.

2.2.2

Card shieldi ngs / Schirmungen der Baugruppen Do not touch the contact springs of the card shieldings with the fingers or with the hand.



Berühren Sie die Kontaktfedern der Baugruppen-schirmungen nicht mit den Fingern oder mit der Hand.

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2.3

Weight / Gewicht Warning labels

Warnschilder

at the subrack in case of heavy weight.

am Baugruppenträger bei hohem Gewicht.

The maximum weight to be lifted by one person should not exceed 18 kg!

Das maximale Hebegewicht für eine Person ist auf 18 kg festgelegt!

2.4

Temperature / Temperatur

2.4.1

Device cool ing / Gerätekühlung

!

!

2.4.2

The built-in ventilation installations must not be modified, and there must be sufficient air flow!

Vorhandene Lüftungseinrichtungen dürfen nicht verändert werden, und die ausreichende Luftzirkulation darf nicht behindert sein!

Attention! Air condition devices have rotating items!

Achtung! Lüfterbaugruppen haben rotierende Teile!

Components subj ect to high operating temperatures / Komponenten mit hoher Betriebstemperatur Warning label

Warnschilder

For equipment components (e. g. heat sinks) which may attain high operating temperatures.

für Geräteteile (z. B. Kühlkörper), die hohe Betriebstemperaturen erreichen können.

Touching these components is liable to result in personal injury!



Beim Berühren solcher Teile besteht Verletzungsgefahr!

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2.5 !

Air filter / Luftfilter Each fan unit can be equipped with a dust filter that cleans dust particles from the cooling air.

Jede Lüftereinheit kann mit einem Luftfilter ausgestattet werden, welches die Kühlluft von Staubpartikeln reinigt.

Provided that the environmental conditions (defined in ETS 300 019 class 3.1E) are fulfilled, replace the dust filter every three months.

Vorausgesetzt, dass die Umweltbedingungen (entsprechend ETS 300 019 class 3.1E) erfüllt sind, ist das Staubfilter alle drei Monate auszuwechseln.

In addition, pay attention to possible notes from the filter manufacturer.

!

2.6

!

Außerdem sind gegebenenfalls die Hinweise des Filterherstellers zu beachten.

Risk of fire

Brandrisiko

In case of excessive heat fire could flash over!

Im Falle von Überhitzung könnte Feuer übergreifen!

The air filter is part of the fire enclosure. Therefore it is forbidden to run the network element without this air filter.

Das Luftfilter ist Teil des Feuerschutzes. Daher ist es verboten, das Gerät ohne Luftfilter zu betreiben.

For replacement only original spare parts have to be used or replacement material must be rated HF-1 or better in accordance to IEC 60959-1.

Als Ersatz dürfen nur Originalteile verwendet werden oder Materialien, die gemäß IEC 60950-1 als HF-1 oder besser eingestuft sind.

Grounding and potential balancing / Erdung und Potenzialausgleich Especially when running a combination of different communication equipment, it is important to establish correct grounding and potential balancing between them depending on the local grounding measures.

Insbesondere bei gemeinsamer Verwendung verschiedener Kommunikationsgeräte ist es wichtig, abhängig von den örtlichen Erdungsmaßnahmen auf korrekten Erdungs- und Potenzialausgleich zu achten.

After mounting the system into the rack, before attaching the connecting cables, and before commissioning, first check the grounding and potential balancing connections to agree with EN50310 and ETSI EN 300 253.

Nach dem Einbau der Systeme in das Gestell sind – vor dem Anschluss der Verbindungskabel und vor der Inbetriebnahme – die Erdungs- und Potenzialausgleichsverbindungen gemäß EN50310 und ETSI EN 300 253 zu überprüfen.



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i

The grounding must be effective as long as external cables are connected to the equipment.

Wenn die Baugruppenträger bzw. Einsätze nicht in einem Systemgestell montiert werden, müssen Sie auf andere Weise für geeignete Erdung sorgen (gemäß ETSI EN 300 253).

If a subrack is not installed in a system rack, the user must ensure that it is properly grounded in some other way (according to ETSI EN 300 253).

Wenn die Baugruppenträger bzw. Einsätze nicht in einem Systemgestell montiert werden, müssen Sie auf andere Weise für geeignete Erdung sorgen (gemäß ETSI EN 300 253).

Grounding or potential balancing points are normally labelled with one of the signs shown below.

Erdungs- oder Potenzialausgleichspunkte sind normalerweise mit einem der nachfolgend dargestellten Zeichen gekennzezeichnet.

Protective earth (PE)

Schutzerde (PE)

Ground (GND)

Erde (E)

In both rack and wall mounting applications, the subrack Protective Earthing must be assured by connecting a PE cable as depicted in the Cabling Plan document. The PE cable must be connected before each other cable connection, and disconnected last.

2.7

!

Sowohl bei Gestellmontage als auch bei Wandmontage des Baugruppenträgers muss die Schutzerdung dadurch sichergestellt sein, dass ein Schutzerdungskabel entsprechend dem Kabelführungsplan angeschlossen ist. Das Schutzerdungskabel muss als erste Verbindung (vor jeder anderen) angeschlossen und als letzte Verbindung getrennt werden.

Protection against excessive overvoltage on the -48/-60-Volt power supply input / Schutz gegen Überspannungen beim -48/-60-Voltstromversorgungseingang A protection against excessive voltage is built in on the -48/-60 Volts power supply input.



Ein Schutz gegen Überspannung auf der Stromversorgungs-Eingangsseite -48/-60 V ist eingebaut.

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The equipment must only be operated at a -48 /-60 V DC battery-based supply voltage, grounded at its positive pole and corresponding to ETSI EN 300 132-2 and EN60950-1!

Das Gerät darf nur an einer batteriegestützten, mit positivem Pol geerdeten -48/-60 V-VersorgungsGleichspannung entsprechend ETSI EN 300 132-2 und EN60950-1 betrieben werden!

Observe the above note especially before connecting other equipment to the user/customer interfaces!

Beachten Sie den obigen Warnhinweis insbesondere, bevor Sie andere Geräte an die Anwender /Kunden-Schnittstellen anschließen!

The user must observe without failing the protective earthing measures given in Chapter 2.6!

!

2.8

!

The subrack interfaces for alarms and TIF contacts are supplied by external power. The maximum allowable voltage must correspond to the SELV voltage limits ( ≤ |-72| V DC) respectively to the -48 V/-60 V DC battery-based supply voltage according to ETSI EN 300 132-2!

Beachten Sie unbedingt die Schutzerdungsmaßnahmen entsprechend Kapitel 2.6! Die Baugruppenträger-Schnittstellen für Alarme und TIF-Kontakte werden extern versorgt. Die maximal zulässige Spannung muss den SELVSpannungsgrenzen entsprechen ( ≤ 72 V Gleichspannung) bzw. den Spannungsgrenzen der batteriegestützten -48 V/-60 V- VersorgungsGleichspannung gemäß ETSI EN 300 132-2!

Electrostatic sensitive components (ESD) / Elektrostatisch gefährdete Bauteile (EGB) ESD symb ol

EGB/ESD-Symbol

Modules displaying this label contain electrostaticallysensitive components, i.e. they must be handled in accordance with the necessary safety measures.

Baugruppen, die dieses Zeichen tragen, sind mit elektrostatisch gefährdeten Bauteilen bestückt, d.h. beim Umgang damit müssen die erforderlichen Sicherheitsmaßnahmen eingehalten werden.

The user must always wear a grounding bracelet that is connected properly when packing, unpacking, touching, pulling, or inserting modules displaying the ESD symbol. This will ensure these modules not to be damaged by electrostatic discharges.



Jeder, der Baugruppen mit EGB- / ESDSymbol aus- oder einpackt, berührt, zieht oder steckt, muss stets ein vorschriftsmäßig angeschlossenes Erdungsarmband tragen. Dadurch ist sichergestellt, dass diese Baugruppen nicht durch elektrostatische Entladungen beschädigt werden.

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2.9

Every printed circuit board has a grounding outer edge, which is connected to the ground terminal of the module. The board is only allowed to be touched or handled at this grounding edge - even if the user is properly grounded.

Jede Leiterplatte hat einen Erdungsaußenrand, der mit dem Masseanschluss der Baugruppe verbunden ist. Die Leiterplatte darf-auch bei vorschriftsmäßiger Körpererdung-nur am Erdungsaußenrand angefasst werden.

When pulling and inserting modules only use the integral plug and pull aids.

Verwenden Sie beim Ziehen und Stecken von Baugruppen nur die daran angebrachten Zieh- und Steckhilfen.

Modules which are located in a screened, unopened housing are protected at any rate against electrostatic discharges.

Baugruppen, die sich in einem abgeschirmten, ungeöffneten Gehäuse befinden, sind in jedem Fall vor elektrostatischen Entladungen geschützt.

The European Standards EN 61340-5-1 and -2 contain additional instructions on how to handle electrostatically sensitive devices properly.

Die Europa-Normen EN 61340-5-1 und -2 geben zusätzliche Anleitungen zum sachgemäßen Umgang mit elektrostatisch gefährdeten Bauelementen.

Fiber-optic cables and connectors / Lichtwellenleiter und Optische Steckverbinder For laser safety remarks, see Chapter 2.10.

Laser-Sicherheitshinweise siehe Kapitel 2.10.

Optical connectors are precisionmade components and must be handled accordingly. To ensure faultless functioning, the following points must be observed.

Optische Steckverbindungen si nd Präzisionsteile und müssen dementsprechend behandelt werden. Eine einwandfreie Funktion ist nur dann sich ergestellt, w enn nachfolgende Punkte berücksicht igt werden.

The minimum bending radius for optical fibers is 30 mm!

Für LWL-Leitungen darf ein Biegeradius von 30 mm nicht unterschritten werden!

Mechanical damage to the surfaces of optical connectors impairs transmission quality by higher attenuation.

Mechanische Beschädigungen der Stirnflächen von optischen Steckverbindungen erhöhen die Dämpfung und mindern deshalb die Übertragungsqualität.

For this reason, do not expose the connectors to impact.

Vermeiden Sie deshalb Stoßbeanspruchungen der Steckverbinder.



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Always fit optical fiber fiber connectors with protective caps to guard them against mechanical damage and contamination. The protective dust caps should only be removed immediately prior to installation.

Schützen Sie LWL-Steckverbinder LWL-Steckverbinder grundsätzlich mit einer Schutzkappe vor mechanischen Beschädigungen und Verschmutzungen. Verschmutzungen. Die Staubschutzkappe Staubschutzkappe soll erst unmittelbar vor dem Einbau entfernt werden.

Once the protective dust caps have been removed, the user must check the surfaces of the optical fiber connectors to ensure that they are clean, and clean them if necessary.

Prüfen Sie nach Entfernen der Staubschutzkappen Staubschutzkappen die Stirnflächen der LWL- Stecker auf Sauberkeit und reinigen Sie sie gegebenenfalls.

For cleaning, a special optical fiber cleaning tool, or a clean, lint-free cellulose cloth or a chamois leather is suitable. Freon TF, isopropyl alcohol (99%), or white spirit can be used as cleaning fluids.

Zum Reinigen kann ein spezielles LWLReinigungswerkzeug oder ein einwandfrei sauberes, fusselfreies Zellstofftuch oder Fensterleder verwendet werden. Als Reinigungsflüssigkeit Reinigungsflüssigkeit kann Freon TF, Isopropylalkohol (99%) oder Spiritus verwendet werden.

2.10 2.10

Laser radiation radiatio n / Laserstrahlung Laserstr ahlung

2.10 2.10.1 .1

Protectio n against extraneous laser light lig ht and prot ection of the optical modules concerned / Schutz gegen austretendes Laserlicht und Schutz der betreffenden Optischen Baugruppen

!

Depending on the device type, the laser radiation radiation may also b e invisible for the hum an eye!

Je nach Gerätetyp kann die Laserstrahlung Laserstrahlung für das menschli menschli che Auge Au ge auc h uns u nsic ic htbar ht bar sein! sei n!

!

Devices and modules displaying either of the following warning labels contain laser devices.

Geräte und Baugruppen, die eines der folgenden Warnzeichen tragen, enthalten Laser-Einrichtungen.

Warni Warning ng label

Warnschild

according to the

nach

EN 60825-1 / IEC 60825-1.

EN 60825-1 / IEC 60825-1.

Warni Warning ng label

Warnschild

for laser equipment as per EN 60825-1 / IEC 60825-1.


LASER CLASS 1


für Laser-Einrichtungen Laser-Einrichtungen entsprechend EN 60825-1 / IEC 60825-1.

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!

When operated in a closed system, the laser equipment of the device conforms to class 1 safety level.

Bei Betrieb im geschlossenen geschlossenen System entsprechen die Laser-Einrichtungen des Gerätes der Gefährdungsklasse 1.

Nevertheless, in view of possible malfunctions, transmission systems which are fitted with optical fiber amplifier modules are classified as hazard level 1M. This hazard level is also applicable if the device is opened.

Unter Berücksichtigung von vorhersehbaren vorhersehbaren Fehlerfällen sind mit optischen LichtwellenleiterLichtwellenleiterVerstärkerbaugruppen Verstärkerbaugruppen bestückte Übertragungssysteme jedoch der Gefährdungsklasse 1M zugeordnet. Diese Gefährdungsklasse gilt auch bei geöffnetem Gerät.

This hazard level is labelled as follows:

Die Gefährdungsklasse Gefährdungsklasse ist folgendermaßen beschildert:

Warning label

Warnschild

According to

nach

EN 60825-2:2004 /

EN 60825-2:2004 /

IEC 60825-2:2004.

IEC 60825-2:2004.

To ensure safe operation of the entire optical path, the laser safety shutdown must be activated, see Chapter 2.10.2. 2.10.2.

Für den sicheren Betrieb der gesamten optischen Strecke muss die Lasersicherheitsabschaltung aktiviert sein, siehe Kapitel 2.10.2. 2.10.2 .

Commissioning should be performed with fuse protection in the closed system.

Die Inbetriebnahme soll abgesichert abgesichert im geschlossenen System erfolgen.

To avoid damage to health, the user must observe the regulations regulations regarding protection against radiation from laser devices (EN 60825-1/ IEC 60825-1).

Zur Vermeidung gesundheitlicher Schäden müssen Sie die Vorschriften zur Strahlungssicherheit von Lasereinrichtungen Lasereinrichtungen (EN 60825-1 / IEC 60825-1) beachten.

If it cannot be avoided in an exceptional case to apply the hazard level 1 M regulation (see above), the user always must use dedicated laser-protective laser-protective goggles.

Falls die Gefährdungsklasse 1M im Ausnahmefall Ausnahmefall nicht vermieden vermieden werden kann (siehe oben), müssen Sie stets eine Laser-Schutzbrille tragen.



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2.10 2.10.2 .2

!

!

2.11 2.11

Laser safety circuit cir cuit / Lasersicherheitsabschalt Lasersich erheitsabschalt ung Under normal operating conditions, the maximum transmit levels of the optical interface units stay below the limit values defined in EN 60825-1 / IEC 60825-1, Laser Class 1.

Unter normalen Betriebsbedingungen bleiben die maximalen Übertragungspegel der optischen Anschlussbaugruppen unterhalb der Grenzen, die nach EN 60825-1 / IEC 60825-1, Laser-Klasse 1, erlaubt sind.

However, all optical transmitters (except at the Ethernet interfaces) are fitted with automatic laser shutdown circuits to safeguard against any possible hazard. This shutdown circuit can be configured and is active in the basic state. It trips, if no input signal is received by the optical receiver, i.e. if there is a break in the link. This prevents any uncontrolled laser emission if a fiber-optic connector is faulty or not connected.

Als Schutz gegen gegen eventuelle eventuelle Gefährdungen sind alle optischen Sender (außer an den Ethernet-Schnittstellen) Ethernet-Schnittstellen) mit einer automatischen Laserabschaltung ausgestattet. Diese Abschaltung kann konfiguriert werden und ist grundsätzlich aktiv. Sie löst aus, wenn ein Eingangssignal am zugehörigen optischen Empfänger Empfänger fehlt, z. B. bei unterbrochener unterbrochener Verbindung. Verbindung. Dies verhindert jede unkontrollierte Laserabstrahlung, Laserabstrahlung, wenn der optische Steckverbinder Steckverbinder fehlerhaft f ehlerhaft oder nicht angeschlossen angeschlossen ist.

To ensure safe operation of the entire optical path, the laser laser safety shutdow n must be activated. activated.

Für den sicheren Betrieb der gesamten optischen Strecke muss die LaserSicherheitsabschaltung Sicherheitsabschaltung aktiviert sein.

Even with this safeguard, fiber-optic cables which are open at one end should always be considered to be “live”.

Auch unter Beachtung Beachtung dieser dieser Vorsichtsmaßnahmen sollen Glasfaserkabel, die an einem Ende offen sind, immer so behandelt werden, als würden sie ständig Laserlicht führen.

Never look into open fiber-optic cable ends, as this may damage human eyes.

Nie direkt in die Enden sehen, da sonst die Augen geschädigt werden können!

In case of doubt always use dedicated laser-protective goggles!

Tragen Sie im Zweifelsfall stets eine Laserschutzbrille!

Emergency Emergency switch swi tching ing OFF OFF / Notabschaltung Notabschaltu ng Especially if smoke or fire escapes from the device (or in other emergency situations), switch OFF the device immediately – by all relevant circuit breakers in the connector panel of the rack.



Insbesondere falls Rauch oder Feuer aus dem Gerät austritt (oder in anderen Notsituationen), Notsituationen), schalten Sie das Gerät sofort aus – mit allen zugehörigen Sicherungsautomaten Sicherungsautomaten im Gestell Anschlussfeld. Anschlussfeld.

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!

2.12 !

If possible, first switch OFF the protection power supply and then the working power supply.

Schalten Sie möglichst zuerst die ErsatzStromversorgung aus, dann die BetriebsStromversorgung.

However, consider that such an emergency shut-down can disconnect important communication lines which may be required just in the case of emergency.

Bedenken Sie jedoch, dass durch solch eine Notabschaltung wichtige Kommunikationsleitungen unterbrochen werden können, die gerade im Notfall eventuell dringend benötigt werden.

For this reason, shut down the device only if it is inevitable. Otherwise perform the normal switch-off procedure.

Nehmen Sie deshalb nur dann eine Notabschaltung vor, wenn es unumgänglich ist. Verfahren Sie sonst entsprechend der normalen Abschaltprozedur.

After the emergency shut-down, and if it does not pose any personal danger, check if the device is dead - either by using a measuring device or by the LED display of the device, if applicable.

Falls dies ohne Gefahr möglich ist, überprüfen Sie nach dem Notabschalten, ob das Gerät spannungsfrei ist - entweder mit einem Messgerät oder gegebenenfalls durch eine LED-Anzeige am Gerät.

Handling batteries / Handhabung von batterien Some equipment may contain accumulators or batteries of different technologies, e.g. lithium batteries or others. Observe the following international standards, if applicable:

Beachten Sie gegebenenfalls auch folgende internationale Normen:

IEC 60130-17 (device interconnections)

IEC 60130-17 (Geräteverbindungen)

IEC 61429 (recycling symbol)

IEC 61429 (Recyclingsymbol)

IEC 61438 (safety and health hazards)

IEC 61438 (Sicherheits- und Gesundheitsrisiken)

IEC 60086-4 (handling lithium batteries)

IEC 60086-4 (Umgang mit Lithium-Batterien)

Pay attention to error messages referring to the accumulator or the battery.


Bestimmte Geräte können Akkumulatoren oder Batterien verschiedener z. B. Lithium-Batterien oder andere. Technologien enthalten.


Achten Sie auf Fehlermeldungen, die sich auf den Akkumulator bzw. die Batterie beziehen.

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! !

2.13

Accumulators or batteries which are integrated in the device should only be replaced by the equipment manufacturer.

Ins Gerät eingebaute Akkumulatoren oder Batterien sollen nur beim Gerätehersteller ausgetauscht werden.

If replacement is necessary, do not remove the accumulator or the battery from the device, but send in the complete device / the module (card) or the removable battery pack.

Wenn ein Austausch erforderlich ist, dann bauen Sie nicht den Akkumulator oder die Batterie aus dem Gerät aus, sondern schicken Sie das komplette Gerät / die Baugruppe oder das herausnehmbare Batteriepack ein.

In order to prevent loss of data, the battery should only be replaced by the equipment manufacturer.

Zur Vermeidung von Datenverlust soll die Batterie nur durch den Gerätehersteller ausgetauscht werden.

There is risk of explosion if the battery is not replaced correctly!

Wenn die Batterie nicht ordnungsgemäß ausgetauscht wird, besteht Explosionsgefahr!

Never short circuit batteries directly without using a discharging resistor! Without a resistor very high current will flow causing a risk of explosion!

Schließen Sie niemals Batterien direkt ohne Entladewiderstand kurz! Ohne Widerstand können so hohe Ströme fließen, dass Explosionsgefahr besteht.

If the user depollutes batteries, must observe the local regulations applicable to hazardous waste.

Beim Entsorgen von Batterien müssen die örtlichen Vorschriften über Beseitigung von Sondermüll eingehalten werden.

Replacement components / Ersatzteile When replacing any component, including ancillary parts such as electrical cables, fuses, fiber cables, conduit, mounting hardware, etc, use only original spare parts as provided by Nokia Siemens Networks or parts that are explicitly approved by Nokia Siemens Networks for use with SURPASS hiT 70xx series equipment.



Falls Sie an den Geräten oder an der Verkabelung irgendwelche Teile ersetzen, so dürfen Sie nur Original-Ersatzteile oder solche Teile verwenden, die vom Hersteller ausdrücklich zugelassen sind.

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2.14

Waste Electrical and Electronic Equipment (WEEE) / Entsorgung von elektrischen und elektronischen Geräten WEEE symbol

WEEE-Symbol

All waste electrical and electronic products must be disposed of separately from the municipal waste stream via designated collection facilities appointed by the government or the local authorities. The label shown is applied to all such devices.

Alle Elektro- und Elektronikgeräte sind getrennt vom allgemeinen Hausmüll über dafür staatlich vorgesehene Stellen zu entsorgen.

The correct disposal and separate collection of waste equipment will help prevent potential negative consequences for the environment and human health. It is a precondition for reuse and recycling of used electrical and electronic equipment. For more detailed information about disposal of such equipment, please contact Nokia Siemens Networks.

The above statements are fully valid only for equipment installed in the countries of the European Union and is covered by the directive 2002/96/EC. Countries outside the European Union may have other regulations regarding the disposal of electrical and electronic equipment.



Die sachgemäße Entsorgung und die getrennte Sammlung von Altgeräten dient der Vorbeugung von potentiellen Umweltund Gesundheitsschäden. Sie sind eine Voraussetzung für die Wiederverwendung und das Recycling gebrauchter Elektround Elektronikgeräte. Ausführliche Informationen zur Entsorgung Ihrer Altgeräte erhalten Sie bei ihrem Nokia Siemens Networks Partner. Diese Aussagen sind nur gültig für Geräte, die in den Ländern der Europäischen Union installiert und verkauft werden und die der Europäischen Richtlinie 2002/96/EC unterliegen. In Ländern außerhalb der Europäischen Union können davon abweichende Bestimmungen für die Entsorgung von Elektro- und Elektronikgeräten gelten.

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Installation procedures and preparation

3

Installation procedures and preparation This chapter provides the overall installation guide and describes the detailed preparation before installation. The preparation includes personnel requirements, required tools and accessories, site preparation, and unpacking and verifying contents.

3.1

Declaration of CE conformity !

CAUTION The CE declaration of c onfor mity for t he product will b e fulf illed if the const ructi on and cabling is undertaken in accordance with the manual and the documents listed therein, e.g., mounting inst ructions, cable lists. Where necessary account s hould b e taken of proj ect-specifi c documents. Deviations from the specifications or unstipulated changes during const ructi on, e.g., the use of cable types with l ower screening values, can lead to violation of t he CE requirements. In suc h cases the confo rmit y declaration is in validated and the responsibil ity passes to those who have caused the deviations.

3.2

Personnel requirements The personnel responsible for the installation of the equipment must meet the following requirements: •

•

Training as service technician or equivalent training in telecommunications; Sound basic knowledge of transmission technology and the construction of exchanges;



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•

•

•

•

•

•

3.3 3.3

Relevant, practical training by the equipment manufacturer, including knowledge acquisition acquisition of the equipment and systems required for the planned activity; PC knowledge, basic familiarity with the operation of MS-Windows; Basic knowledge of test engineering, familiarity with the operation of test equipment; Familiarity with handling electrostatic-sensitive electrostatic-sensitive components; Familiarity with handling optical fibers and laser sources; Familiarity with handling high temperature electronic modules having heat-sinks and components conducting heat above 45 degrees Celsius (113 degrees Fahrenheit).

Requi Required red tools too ls and accessori es •

•

•

•

3.4 3.4

ESD grounding bracelet Isopropanol 99% and lint-free cloth for cleaning optical connectors Cleaning device for SFP modules (e.g., CLETOP stick from ExceLight Communications, Communications, Inc.) Special cotton gloves for touching high temperature equipment between 45 and 85 degrees Celsius (113 to 185 degrees Fahrenheit)

Checki Checking ng for intactness int actness Prior to commissioning and starting up the SURPASS hiT 7035, it is advisable to check the t he delivered equipment, including provided accessories, to ensure that: •

•

•

The correct items have been delivered with assembled customized customized hardware; The delivered items correspond to the information on the delivery documents; and None of the items are visibly damaged.

CAUTION !

Partic Partic ular attention shoul d be paid paid to th e connector pins at the cards, to ensure that they are not damaged damaged or bent.



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3.5 3.5

Installation Installatio n steps Tab. 3.1 lists the major steps in the SURPASS hiT 7035 system installation process. Step 1

Site preparation

Step 2

Installing the chassis

Step 3

Installing Install ing power supply module, and connecting to the power supply

Step 4

Installing cards, SFP lasers, and connecting fibers and cables

Step 5

Connecting system management management interfaces

Tab. 3.1

3.6 3.6

SURPASS hiT 7035 installation installati on process

Site preparatio pr eparation n This section provides instructions for preparing the location where the SURPASS hiT 7035 system and components are to be installed. Before choosing a set-up location for the SURPASS hiT 7035, read and consider the safety precautions provided in Chapter 2 Chapter 2. Upon arrival of the equipment, equipment, inspect the condition of the received cartons and compare all items to the packing list attached to the carton. Select the installation location carefully based on the overall specifications. The primary considerations for selecting an installation site include: •

•

•

•

•

Proximity of associated equipment such as optical multiplexers Reach of DC power supply Adequate rack space space Proper ventilation Adequate space space for cable routing routing

In addition to the items provided in the accessory kits, the recommended tools and equipment for the successful installation, operation, operation, and maintenance maintenance of the system and optical fibers are: •

•

•

#1 Phillips screwdrivers (5 inch) Straight blade screwdriver (4 mm) Nut driver (10 mm) or deep socket wrench



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Additionally, Additionally, it may be helpful to use the following following optional tools or accessories: accessories: •

•

•

•

•

•

i

3.7 3.7

Optical power meter SONET/SDH transmission analyzer Fiber optic cleaning kit and absolute alcohol Absorbent cotton or lens cleaning cleaning tissue Pressurized dry-air duster Fiber inspection scope

Note Be careful not to over-tighten any thumbscrews on the SURPASS hiT 7035 chassis and applicable components. To properly tighten a thumbscrew, torque the thumbscrew to 0.68 N.M using a torque screwdriver fitted with a #1 Phillips bit, or an equivalent torque wrench. If a torque screwdriver/wrench screwdriver/wrench is not available, hand-tighten the thumbscrew, and then use a #1 Phillips screwdriver to gently tighten it further until it is snug.

Unpackin Unpacking g shipping ship ping box SURPASS hiT 7035 shipment includes: •

•

•

•

One chassis enclosed in a protective shipping carton, which can be reused if the unit requires future shipment. A chassis accessory accessory kit, as applicable. applicable. (See Tab. 3.2) 3.2) The shipping chassis will contain SURPASS hiT 7035 cards ordered as part of this installation. The shipping chassis will also contain power modules.

Follow the procedures in the following sections to verify the shipment and unpack the shipping cartons.

!

WARNING Check Check the contents of the accessory accessory k its th at are are included in the shipm ent against against the items list ed on the packing packing l ists . Verify Verify that the shipm ent is complete. A fully conf igured syst em can can weigh up to 50 Kg. To minimize the risk of personal or mechanical injury, exercise caution.



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Items

Quantity

Anti-static strap

1

DC power 48 V cable assembly, 3 m

2

Grounding cable assembly, 2.5 m

1

Screw, PHMS M5 0.8 x 8 LG (POZI), SST

1

Installation bolts and nuts, 8

2

Serial line for CLI interface, 2 M, 9 pin, F-F (1 to 1)

1

GB/T 859-1987 9.2 OD x 5.4 ID x 1.2 THK, SST (lock washer for M5 screw)

1

GB/T97 1-2002 10.0 OD x 5.3 ID x 1.0 THK, SST (washer for M5 screw)

1

6 mm2 ring terminal

4

Tab. 3.2

!

3.8

List of accessories

CAUTION Do not attempt to repair or modify t he fan unit assemblies. Althoug h the fan uni t assemblies are field r eplaceable, there are no user-serviceable parts insi de the fan unit assemblies.

Unpacking the individual card shipping cartons Carefully remove each card from its individual shipping carton, but do not remove it from its ESD-protective packaging until ready to insert it into the chassis.

3.9

Unpacking the software shipping cartons The CF card goes with the software files. Check the software load version as P42022-P5143-D1. Now that the user has completed the installation-preparation steps and has verified the factory-installed hardware components. The next step is to install the chassis into the equipment rack and then connect it to a frame ground.



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Installing the hardware

4

Installing the hardware Please read this whole chapter carefully before starting the installation process. This chapter describes the detailed procedures for installing and initializing the SURPASS hiT 7035 including installation of the chassis, connecting cables, connecting administrative links, and powering the system.

!

4.1

CAUTION The equipment s hould b e used within restri cted access areas.

Installing the chassis This chapter guides the user to successfully install the SURPASS hiT 7035 chassis on a standard rack.

i

!

!

Note For ease of installation and to ensure safe lifting and handling of equipment, it is recommended that two people work together on the mounting installation. WARNING Before installing modul es or connecting power to the system, connect the syst em to a dedicated Frame Ground (earth gro und) and ensure that the groundi ng cable is connected to an external earth or bu ilding ground . Failure to do so before connectin g power may damage the equipment. WARNING Static electricit y can damage the equipment. Wear a properly gr ounded antistatic st rap when handling any of t he hardware components.



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Follow these guidelines to prevent Electrostatic Discharge (ESD): •

•

•

Before installing the chassis into the equipment rack, make sure the equipment rack is properly grounded. When handling any of the hardware components, be sure to wear the antistatic wrist strap (provided in the accessory kit). Insert the antistatic strap cable pin into the ESD grounding jack on the chassis.

Fig. 4.1

4.1.1

ESD grounding jack

Standard racks SURPASS hiT 7035 chassis dimensions are 400 mm (width) × 468 mm (height) × 300 mm (depth). The chassis can be front mounted in the following two racks: •

•

•

i

EIA 310 19” rack (see Fig. 4.2) ETSI 21” rack (see Fig. 4.3) Nokia Siemens Networks 7300 rack (see Fig. 4.4)

Note Nokia Siemens Networks 7300 rack is also termed Nokia Siemens Networks ETSI rack S42022-L5020-A11.



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Procedures in this manual assume the SURPASS hiT 7035 chassis is mounted in Nokia Siemens Networks 7300 rack. If installing the SURPASS hiT 7035 chassis in other type of racks, different mounting kits are needed.

Fig. 4.2

Mounting bracket for 19” rack

Fig. 4.3

Mounting bracket for ETSI 21” rack



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Fig. 4.4

4.1.2

Mounting bracket for Nokia Siemens Networks 7300 rack

Adjusti ng the chassis installation positio n Before mounting the chassis in a rack, please do arrange the position of equipment and accessories (such as chassis, Ethernet splitter panel) in the whole rack. Otherwise, the user may not be able to finish the mounting and cabling. A maximum of three (3) sets of SURPASS hiT 7035 chassis can be mounted in a rack. 3 U (about 133 mm) space is required for heat dissipations. If the SURPASS hiT 7035 is fully mounted with E1 cables, a maximum of two (2) sets of SURPASS hiT 7035 chassis can be mounted in a rack.

i

Note If two (2) sets of SURPASS hiT 7035 chassis are mounted in a rack, E1 cables can be routed towards the top or bottom of the rack. If three (3) sets of SURPASS hiT 7035 chassis are mounted in a rack, E1 cables should be routed towards the bottom of the rack. The position of the channel mounting in the rack is shown in Fig. 4.5.



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Fig. 4.5

4.1.3

Channel mounting position

Connecting the chassis to the groundi ng cable The earth grounding cable should be the same gauge as the power feed cable (minimum requirement). Connect the grounding cable to the grounding point on the right side of the chassis, as shown in Fig. 4.6.



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Fig. 4.6

!

i

Grounding point

CAUTION Before mounti ng the chassis, place the cage nuts i n the designed posit ions on t he channel mount ing vertic al frame, and the recommended chassis po siti ons in t he rack. (See to Fig. 4.7 and Fig. 4.8) Note The chassis positions on an ETSI 21” rack and an Nokia Siemens Networks 7300 rack are the same.



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Fig. 4.7


Recommended chassis position in Nokia Siemens Networks 7300 rack (2 sets)


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Fig. 4.8


Recommended chassis position in Nokia Siemens Networks 7300 rack (3 sets)


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4.2 4.2

Equipping Equipp ing the chassis chassi s Required tools: •

•

•

•

•

4.2. 4.2.1 1

Anti-static strap #1 Phillips screwdrivers (5 inch) Straight blade screwdriver (4 mm) Nut driver (10 mm) or deep socket wrench Cross screwdriver ( Φ 5 x 150 mm)

Installing Installi ng modu le cards The SURPASS hiT 7035 includes one subrack and twenty-five (25) slots that can be configured with different modules as follows: •

•

•

•

•

•

•

1 Enhanced System Controller (SCE) slot 2 power slots 1 fan unit slot 2 Cross-Connect (CC) slots (long card slots) 1 SI slot 11 traffic slots 7 I/O slots (which can be flexibly configured for interface cards.)

The slots designation is shown in Fig. 4.9. 4.9.



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28 – (SI)

16 – (IO5)

17 – (IO6)

18 – (IO7)

6 (LC6)

1– (LC1) 12 – (IO1)

13 – (IO2)

14 – (IO3)

7– (LC7)

2– (LC2)

8– (LC8)

3– (LC3)

9– (LC9)

4– (LC4)

10 – (LC10)

11 – (LC11)

22 – 23 – (PWR1) (PWR2)

5– (LC5)

19 – (CC1) / 30 – (CC1 – LC)

20 – (CC2) / 31 – (CC2 – LC)

15 – (IO4)

21 – (SCE)

29 – (FAN) (FAN)

Fig. 4.9

Arrangement Arrangement of chassis slots and slots designation

In each slot of SURPASS hiT 7035 chassis, the allowable cards are described in Tab. 4.1. 4.1.



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Slot name 1

SCE

Interface

CC1

LC1

and CC2

LC5

LC6

LC10

IO1

IO2

IO5

IO6

SI

PWR1

to

to

to

and

and

and

to

LC4

LC9

LC11

IO3

IO4

IO7

PWR2

FAN

of cards

√

SCE

Max. #

1 √

PWR

2 √

FAN

1

CC + 1 x STM-16/4

√

2

CC + 1 x STM-4/1

√

2 √

ST-CLK

1

1 x STM-4

√

4

2 x STM-1

√

4

4 x STM-1

√

4

1 x GE/T

√

4

8 x FE/T

√

4

8 x FE/L2

√

4

√

IMA (W/P) 2 2 x STM-1 ATM IO

4 (1 + 1) √

3

√

63 x E1 (W/P)

2

√

5 (1 : N, N <= 4) √

63 x E1 IO

√

4

√

3 x E3/DS3(W/P)

4 (1 : N, N <= 3) √

3 × E3/DS3 IO

√

√

2 × STM-1E(W/P)

4 (1 + 1) √

2 × STM-1E IO √

OA

Tab. 4.1

3

√

2 6

Subrack slot arrangement arrangement and card options

1 For complete slot naming please refer to Fig. 4.9. 2 The IMA cards are only available when NE is equipped with CC + 1 x STM-16/4 cards. 3 The 2 x STM-1 ATM IO cards are only available when NE is equipped with CC + 1 x STM-16/4 cards.



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!

i

!

CAUTION Only the Enhanced System Controll er (SCE) card is suppor ted in SCE slot . If a predecessor System Controller (SC) card is ins talled with hi T 7035 R4.3 soft ware load, the soft ware program w ill halt. Note Optical and electrical interfaces are both accessed from the front of the shelf. Card faceplates are provided for each card and contain information on card type, LED description, and a label with the unique serial number for that card. Dummy cards are available for empty slots. CAUTION A d ummy faceplate must b e inst alled if an y slot i s unequipped wit h a card. Inserting modul e cards To install a module card, identify the correct slot location in the shelf and then follow the steps below: 1.

Open the latches on both ends of the card. (See Fig. 4.10)

2.

Carefully slide-in the module card, and make sure the card mates properly with its backplane connector.

3.

Carefully close both latches at the same time, and ensure that the latches are secure.

4.

To fix the card position mechanically and to ensure ESD shielding, use the appropriate cross-tip screwdriver to tighten the captive crosshead screws on the upper and lower end of the faceplate.



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Fig. 4.10

i

!

!

i

Inserting a module card

Note To remove a module card, reverse the steps of inserting a module card. CAUTION If SCE latch state is changed to open, Ethernet traffic using MSTP, GVRP, LACP, and/or IGMP-Snoopin g prot ocols will be disrupt ed until the SCE card is warm rebooted or r emoved and re-inserted into the slot . CAUTION Do not remove any card durin g its init ialization pro cess. Note If the NE is equipped with several cards and at least one 8 x FE/L2 card, insert or remove cards one by one quickly from LC1 to LC8, because the port mode on 8 x FE/L2 may change from “auto” to “monitor”.



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4.2.2

Insert ing CF card The CF card should be inserted in the SCE card before the SCE card is inserted in the chassis.

!

CAUTION CF cards s hould be validated and prov ided by Nokia Siemens Networks. Any CF card fr om other su pply channels is forbidden and might c ause system failure. CAUTION

!

Make sur e the release latch b eside the CF slot is depress ed. (See Fig. 4.11)

Fig. 4.11

4.2.3

Inserting CF card

Installing SFP opti cal modu les

!

CAUTION Before installing 2.5 Gbps DWDM SFP into a CC + 1 x STM-16/4 card, make sure th e heat sink has been install ed in th e SFP cage (see Fig. 4.12 and Fig. 4.13).



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Fig. 4.12

SFP cage without heat sink

Fig. 4.13

SFP cage with heat sink installed

To install the heat sink, place the heat sink onto the SFP cage and secure the cage assembly with a clip. After the heat sink and clip are installed, the following requirements must be applied (see Fig. 4.14). •

•

The perimeter of the heat sink must be flush with the top of the frame of the cage assembly. The raised boss must be centered in the cavity of the cage assembly.



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•

The clip locking windows must be fully latched onto the attachment latches of the cage assembly.

Any heat sink used must be flush with and securely attached to the cage assembly.

Fig. 4.14

Heat sink installation

SFP laser plug-in modules can be installed in the card either before or after the card is inserted in the chassis. However, inserting SFP modules after t he card has been placed in the chassis is recommended. SFP laser modules must be gently inserted into the SFP slots on the faceplate of the card. They seat with a slight click.

i

Note To remove an SFP laser module, first lift it upward a bit, and then pull it out gently.



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Fig. 4.15

i

4.2.4

SFP optical module

Note When inserting or removing an SFP, a one second interval is required before continuing to the next operation. The system is designed using a POLLING mechanism to detect the SFP insertion or removal. If an SFP insertion is followed immediately by the SFP removal or vice versa, the system may not be able to detect the operation.

Replacing or adjusting fan unit To replace or adjust the fan unit located at the bottom of t he chassis, follow the procedure below: 1.

Removing the fan unit (see Fig. 4.16) First open the paddle latch by hand until the faceplate of fan unit assembly has been pulled away from the chassis frame, and then remove the fan unit smoothly.



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Fig. 4.16

2.

Removing the fan unit

Inserting t he fan unit smoothly (see Fig. 4.17) First open the paddle latch, and then smoothly push the faceplate of the fan unit assembly until it mates with the chassis frame. An improperly mated fan unit will extend out the front of the chassis about 1 mm or 2 mm.

Fig. 4.17


Inserting the fan unit


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4.2.5

Replacing air fil ter Due to high air flow rate, air filter is required to protect the main shelf from environmental dust and other contaminants.

!

i

!

!

CAUTION An excessively dirty air f ilter will reduce cooling airflow. Note The user should clear the filter and fan regularly as routine work for maintenance. It is recommended that the air filter should be replaced every 3 months or more frequently if environmental conditions warrant. The action of the air replacement must be finished within 10 minutes. CAUTION For replacement on ly or iginal spare parts have to be used or replacement material m ust be rated HF-1 or better in accordance to IEC/EN 60950-1. CAUTION The air fi lter is part of the fire enclosure. Therefore It is forbi dden to run the network element wit hout th e air fil ter. To remove the air filter, grab the two handles on its faceplate, and then pull it out smoothly. (See Fig. 4.18)



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Fig. 4.18

4.3

Removing the air filter (top view)

Connecting cables This section describes the categories of cables used in the system and the proper cable connection procedures.

4.3.1

Cable list Fig. 4.19 below identifies the location of the different kinds of cables. The description of each cable is provided in Tab. 4.2.



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Fig. 4.19


Cable locations


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SURPASS hiT 7035 NE

Number

Cable name

1

Fiber

LC, Fiber

2

E1 cable

7 x E1 2-mm connector, coaxial cable assembly (75 Ohm) /twin-axial cable assembly (120 Ohm)

connector and cable type

21 x E1 2-mm connector, coaxial cable assembly (75 Ohm) /twin-axial cable assembly (120 Ohm) 3

Management cable

RJ 45, CAT 6

4

Auxiliary cable

RJ 45, Ethernet cross-over cable

5

EOW cable

RJ 45, CAT 6

6

Console cable

RS 232, coaxial cable

7

MDI/MDO/Station alarm cable

RJ 45, CAT 6

8

Timing cable

CC 4-1.0, coaxial cable

9

STM-1E cable


10

E3/DS3 cable


11

Ethernet cable

RJ 45, CAT 6

12

Power cable

3-pin D type

13

Grounding cable

10 mm2, both ends with ring terminals

Tab. 4.2

4.3.2

List of SURPASS hiT 7035 required cables

Connecting power cables The SURPASS hiT 7035 chassis has two -48 V DC power module cards (see Fig. 4.20). The SURPASS hiT 7035 chassis requires at least -48 V DC power module, however two DC power modules is recommended. When the system is equipped with two DC power inputs, the two DC power input feeds 1 and 2 share the load. The chassis can run indefinitely off the power from either input. The power input with the higher voltage will carry substantially the entire system load. However, Nokia Siemens Networks recommends that two separate -48 V DC power feeds be used at all times.



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Fig. 4.20

!

i

DC power module

CAUTION Each pow er source must b e externally (over-current) fused or circu it breaker pr otected. Note It is highly recommended to remove the power cables before removing the power modules. It is also mandatory to insert the power modules before connecting the power cables. It is recommend to route the two DC power cables on the right side of the chasiss first, and then tie it; thus they can be routed to the power source (fuse panel) conveniently (see Fig. 4.21).

Fig. 4.21


DC power connection and routing


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!

!

i

CAUTION For site planning and preparation, co nsider separate power requirements from thermal/cooling requir ements. Power requirements vary with the system confi guration. Each station cir cuit or po wer feed sourc e should be sized to allow for f uture confi guration changes and for operation at lower input vol tages from batteries during an AC power outage. Actual power usage should be estimated from the operating power for all system elements to be ins talled. These estimates can then be used to plan the cooli ng syst em load and the cost of power used. CAUTION Station circui t size and curr ent rating shoul d be based on the maximum expected power usage, up to the design capacity of the chassis. This ensures that future configurations can be supported without changing the circuit breaker or wiring. Note To compensate for voltage drop in the chassis wiring, lower battery feed voltages, and future configuration changes, consider using a higher rated station circuit breaker. The recommended value for the circuit breaker of the rack is 10 A.

!

CAUTION The appropriate wire gauge requirement f or t he SURPASS hiT 7035 power station circ uit depends on several factors: •

•

!

Distance from the power source Applicable wiring codes, including local electri cal safety and fire prevention codes

•

Other st andards applic able to the installation such as local practices

•

Voltage range at the power source or station panel

•

Station c ircuit breaker rating

CAUTION When estimating wir e resist ance, inclu de the round-tri p distance between the power sourc e panel and the chassis. Also cons ider wire temperature-rise guidelines for th e installation as part of the selection for t he correct wire size. The wiring design must m eet all applicable local and national wir ing codes.



54 (184)


Connecting the DC power suppl y cable The SURPASS hiT 7035 uses 3-pin D power connectors. The power supply cable connection procedure is as follows: 1.

Put on the antistatic strap and connect one end to the ESD grounding jack.

2.

Ensure the chassis is connected to an earth frame ground, if needed follow the instructions in Chapter 4.1.3.

3.

Verify that the power source is either -48 V DC or -60 V DC (nominal).

4.

Disable the power source that will power the chassis by switching the appropriate circuit breaker on the Battery Distribution Fuse Block (BDFB) or power distribution panel to the “Off” position.

5.

Connect the un-connected ends of the power cable to the two -48 V power sources (see Fig. 4.22).

6.

Connect the 3-pin D power connector ends of the power cables to the corresponding power cards inputs.

7.

Turn on the power source used to power the chassis.

Fig. 4.22


-48 V DC power source panel


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4.3.3

Connecting fiber jump ers All optical connectors in the SURPASS hiT 7035 use LC connectors. Before connecting optical fibers, check and clean the fiber connectors first.

i

Note It is suggested to route all optical jumpers straight down the chassis. All fibers should be inserted and collected in the fiber tray (see Fig. 4.23).

Fig. 4.23

i

Fiber jumpers routing

Note Use fiber protection wiring to surround whole fiber routed in the rack (see Fig. 4.24).



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Fiber Protection Wiring

Fig. 4.24

4.3.4

Fiber protection wiring

Connect ing E1 cables SURPASS hiT 7035 provides two types of 63 x E1 IO cards, one is with cable bracket (see Fig. 4.25) on the faceplate and the other is without cable bracket.



57 (184)


Fig. 4.25

E1 cable bracket

Different connectors are used in the two different cards. The card with cable bracket uses a 7 x E1 2-mm connector which supports 7 x E1 signal (see Fig. 4.26), and the other one uses a 21 x E1 2-mm connector which consists of three 7 x E1 2-mm connectors (see Fig. 4.27).

Fig. 4.26


7 x E1 2-mm connector


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Fig. 4.27


Nokia Siemens Networks offers E1 cable with a 7 x E1 2-mm connector or a 21 x E1 2-mm connector at one end, and the other end is free and can be customized to adapter the DDF. For E1 cable with a 7 x E1 2-mm connector, the connection procedure is as follows (see Fig. 4.28): 1.


2.

Connect the 7 x E1 2-mm connector end of E1 cable to the E1 card.

3.

Connect the other end of the E1 cable to the customer equipment.



59 (184)


Fig. 4.28

i

Connecting E1 cable with 7 x E1 2-mm connector

Note There is a triangle label on both E1 card and the connector of E1 cable. When plugging in the E1 cable, make sure the triangle label is on the top side. For the 120 Ohm E1 cable, it is not necessary to use the ferrite ring.



60 (184)


For E1 cable with a 21 x E1 2-mm connector, the connection procedure is as follows (see Fig. 4.29): 1.


2.

Connect the 21 x E1 2-mm connector end of E1 cable to the E1 card.

3.

Connect the other end of the E1 cable to the customer equipment.

Fig. 4.29


Connecting E1 cable with 21 x E1 2-mm connector


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i

Note The E1 cables should be grounded at the user side (DDF).

SIPAC connector panel Nokia Siemens Networks offers a SIPAC connector panel to protect customer investment when the customer upgrades their legacy equipment. The panel is used as an adapter between SCSI 100 connector and SIPAC connector. Up to 126 x E1 can be connected for each panel. The SIPAC connector panel can be installed in the ETSI 21” rack and Nokia Siemens Networks 7300 rack. Fig. 4.30 shows the SIPAC adapter bridges of the 2 Mbps ports. There are two interface blocks in an SIPAC panel. Each block consists of three SIPAC adapter bridges and supports 63 x E1 signal.

Fig. 4.30

SIPAC connector panel

SIPAC connector panel cable connection procedure: 1. Put on the antistatic strap and connect one end to the ESD grounding jack. 2. Connect the 2-mm connector end of an E1 cable to the E1 card.



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3. Connect the other end of the E1 cable (in step 2) to the SCSI 100 connector on the right side of SIPAC panel. 4. Connect another E1 cable with SIPAC connector to the SIPAC connector on the left side of SIPAC Panel. Be sure that the SIPAC slot number is the same as the SISI 100 slot number connected in step 2. 5. Connect the other end of the E1 cable (in step 4) to the customer equipment.

Fore more information on SIPAC slot numbering, please refer to Chapter 10.3.

4.3.5

Connect ing E3/DS3 cables The E3/DS3 interfaces on the SURPASS hiT 7035 3 x E3/DS3 card use CC 41.0 connectors. (See Fig. 4.31) E3/DS3 cable connection procedure: 1. Put on the antistatic strap and connect one end to the ESD grounding jack. 2. Connect the E3/DS3 cable CC 4-1.0 connector end to the E3/DS3 interface on the E3/DS3 card. 3. Connect the other end of the E3/DS3 cable to the customer equipment.



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Fig. 4.31

4.3.6

E3/DS3 cabling

Connect ing STM-1E cables The STM-1E interfaces on the SURPASS hiT 7035 2 x STM-1E card also use CC 4-1.0 connectors (see Fig. 4.32).



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Fig. 4.32

STM-1E cabling

The STM-1E cable connection procedure is the same as the E3/DS3 cable.

4.3.7

Connecting administrative cables The SURPASS hiT 7035 system management interface is located on the Enhanced System Controller (SCE) card. It is shown in Fig. 4.33:

Fig. 4.33

SCE card faceplate

The interfaces from the left to the right are as follows:



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•

•

•

•

•

•

•

MDI interface (1 - 4) (RJ 45 connector) MDO interface (1 - 4) (RJ 45 connector) Alarm interface to the station alarm output (RJ 45 connector) Console interface (RS 232 interface, DB 9 connector) EOW interface (Channel 1 ~ 2, RJ 45 connector) AUX interface (RJ 45 connector) Network management interface (RJ 45 connector)

Administrative cables consist of: •

•

•

•

•

•

•

i

!

Console cable Auxiliary cable (Ethernet cross-over cable) Management cable MDI cable MDO cable Station alarm cable EOW cable

Note Auxiliary interface has a similar function to the console interface. The user can directly connect to the NE to do some local configuration using the AUX port. Pay attention that the Ethernet cross-over cable must be used and the auxiliary interface has a fixed IP address as 192.168.0.2. CAUTION The voltage of MDI is -48 V. The MDI cable only c an be insert ed into the MDI interface. Insertin g MDI cable int o ot her interfaces may c ause the SCE card damage. For more information on MDI/MDO ports specification, please refer to the SURPASS hiT 7035 Product Description. Administrative cables connection procedure is as below: 1.




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4.3.8

2.

Connect the administrative cables to the corresponding connectors on the SCE card.

3.

Connect the other ends of the cables to the corresponding equipment.

Fig. 4.34

Administrative cables layout (console cable)

Fig. 4.35

Administrative cables layout

Connecting timing cables The SURPASS hiT 7035 provides two timing input ports and two timing output ports. The external timing station is connected to the SURPASS hiT 7035 timing ports through timing cables. The SURPASS hiT 7035 timing ports use CC 4-1.0 connectors. Nokia Siemens Networks offers a timing cable with a CC 4-1.0 connector at one end and the other end of the timing cable can be customized to match the external timing source connector.



67 (184)


Fig. 4.36

Timing cable connection

Timing cable connection procedure:

4.3.9

1.


2.

Connect a timing cable to the external timing source output.

3.

Connect the CC 4-1.0 connector end of the timing cable to the SURPASS hiT 7035 timing input port.

4.

Connect another timing cable to the external timing source input.

5.

Connect the CC 4-1.0 connector end of the timing cable to the SURPASS hiT 7035 timing output port.

Connecting Ethernet cables Ethernet cables are made of CAT 6 twisted-pair cables. If the transmission distance is less than 10 meters, any Ethernet cable can be used. If the transmission distance is over 10 meters, use the pin arrangement recommended in Chapter 10.4. Ethernet cables should be routed toward the top of the chassis (see Fig. 4.37).



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Fig. 4.37

Ethernet cabling

Ethernet cable connection procedure:

4.3.10

1.


2.

Insert the Ethernet cables to each FE port.

3.

Connect the other end of the Ethernet cables to the Ethernet splitter panel.

Connecting Ethernet spli tter cables Please install the Ethernet splitter panel assembly strictly following procedure below. 1.

Install the Ethernet splitter into the Ethernet splitter panel. There are up to 16 splitters for each panel (see Fig. 4.38). For each splitter, one side has one port called EQ port which is connected to SURPASS hiT 7035



69 (184)


FE port, and the other side has two ports, i.e., port A and port B, which are connected to customers’ equipment (see Fig. 4.39). EQ port should be put at the back side of the Ethernet splitter panel.

Fig. 4.38


Ethernet splitter panel view


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Up Side View

Left Front View

Right Back View

Fig. 4.39

2.

Connect the RJ 45 interfaces from Ethernet interface card to the Ethernet splitter panel (EQ ports) with the Ethernet cables (see Fig. 4.40).

Fig. 4.40

3.

Ethernet splitter side view

Ethernet splitter panel back view

Connect the RJ 45 interfaces from the client signal connection to the front of the Ethernet splitter panel (A, B ports) with the Ethernet cables (see Fig. 4.41).



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Fig. 4.41

Ethernet splitter panel front view

The complete Ethernet splitter cable layout (front and top view) is shown below (see Fig. 4.42 and Fig. 4.43).

Fig. 4.42

Ethernet splitter cables layout (front view)

Fig. 4.43

Ethernet splitter cables layout (back view)

Ethernet splitter cable connection procedure:



72 (184)


4.3.11

1.


2.

Connect the Ethernet cables from FE card ports to Ethernet splitter panel EQ ports.

3.

Connect the Ethernet cables from Ethernet splitter panel A and B ports to Customer Premise Equipment (CPE).

Complete cable layout The complete cable layout is shown in Fig. 4.44 below.



73 (184)


Fig. 4.44


Complete cable layout


74 (184)

Connecting and configuring an operation terminal

5

Connecting and configuring an operation terminal The SURPASS hiT 7035 LCT (using TMNS CT LCT mode) can be installed and configured on the PC connected to the SURPASS hiT 7035 for commissioning.

5.1

PC requirements for use as an operating terminal The SURPASS hiT 7035 LCT software can run on the Microsoft Windows based operating system on a desktop or laptop PC.

i

5.2

Note For more information on detailed hardware requirements, please refer to the TNMS CT User Manual.

Connecting the operating terminal It is recommended to begin the commissioning of the SURPASS hiT 7035 by connecting the operating terminal to the SURPASS hiT 7035 MGMT (Ethernet) port.

5.3

Installing Element Manager Software (EMS) After selecting the SURPASS hiT 7035 product, technical support technicians from Nokia Siemens Networks will help to complete selecting and installing



75 (184)

Connecting and configuring an operation terminal

hardware and software based on requirements. A SURPASS hiT 7035 TNMS CT installation CD will be provided. Install the software package from the CD provided using the program’s wizard mode on any qualified operating system.

5.3.1

Installing the TNMS CT sof tware package For detailed information on how to install the TNMS CT software, please refer to the TNMS CT User Manual.



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Starting up the SURPASS hiT 7035

6

Starting up the SURPASS hiT 7035 i

6.1

Note Before supplying power to the SURPASS hiT 7035, verify that the following tasks are completed: •

The antistatic procedures are in place.

•

The chassis is securely installed in the equipment rack.

•

The station circuit breaker is off.

•

The user has reviewed the power specifications and warnings outlined in Chapter 2.

•

The power supply source is correctly connected.

•

Use multi-meter to measure the power source voltage. The DC voltage should be -48 V or within the -40 V ~ -72 V range.

•

Running the system without a CC card is an abnormal operation, which should be prohibited. Please make sure that the CC module has been mounted properly before powering on the system.

•

If the CC cards (both working and protection cards) have been removed under the normal status while the system is running, a cold reboot is mandatory to restore the system after the card has been replaced.

•

The CF card has been inserted into the SCE card.

Initial startup of a new system The first time to power on the SURPASS hiT 7035 unit, the user needs to use the HyperTerminal through console interface to provision the unit. This section describes the basic operation procedures to provision the SURPASS hiT 7035 unit.



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i

6.1.1

Note Before the user begins: •

Make sure the hardware has been installed.

•

Make sure the SURPASS hiT 7035 NE is connected to the DC voltage with the power off.

•

Make sure the SURPASS hiT 7035 NE is connected to a local computer using the console port using an RS 232 cable.

Setti ng up a HyperTermi nal connection To initialize the system, the user needs to create a HyperTerminal connection to the console port using an RS 232 cable. Naming the unit In the HyperTerminal window shown below, enter the unit name 7035, and click OK.

Fig. 6.1

HyperTerminal connection description window

Selecting a connection po rt Select COMX in the “Connect To” window and click OK. COMX means the physical COM port which the user uses.



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Fig. 6.2

HyperTerminal COM port selection window

The “COMX Properties” window will be shown (see Fig. 6.3). Port configuration:

Fig. 6.3


HyperTerminal COM port properties window


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Configure the Port Settin gs as follows: •

•

•

•

•

Bits per second: 9600 Data bits: 8 Parity: None Stop bits: 1 Flow control: None

Click OK.

6.1.2

Coping CF load/MIB to flash Turn on the power to the SURPASS hiT 7035. The HyperTerminal window appears. (See Fig. 6.4) Press to stop the boot-up process.

Fig. 6.4

Stopping the boot-up process

“Boot mode” windows appears, press
for CF copy option (see Fig. 6.5 ).



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Fig. 6.5

Boot mode window

The “CF Load/Mib copy to Flash” window appears (see Fig. 6.6).

Fig. 6.6


CF Load/MIB copy to flash window


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Press <1>, and then press to copy load from CF to flash. It takes about 5 minutes. Press <2>, and then press , to copy the MIB to flash. It takes about 1 minute.

i

Note Before updating the boot image, the Boot device in the “IP Configuration” prompt must be set as motfcc. See Fig. 6.7.

Fig. 6.7

Setting boot device in the boot mode of NE

Press <3>, and then press to update the boot image. It takes about 1 minute.

i

Note Before rebooting the NE, make sure to set the Boot device as auto in the “IP Configuration” prompt.



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Fig. 6.8

Setting boot device before rebooting NE

After finishing all the operations, press to return to the boot mode. Press , and then to reboot the NE.

6.1.3

NE general conf igur ation Login After successfully booting the system, the “Login” window appears.

i

Note It takes about four (4) minutes for SURPASS hiT 7035 to complete the boot process.



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Fig. 6.9

Login window

At the Username prompt, enter root as the user name. At the Password prompt, press Enter . The “Main Menu” window appears. (See Fig. 6.10)



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Fig. 6.10

i

HyperTerminal Main Menu window

Note When inter-working with the NE of SURPASS hiT 7070 or SURPASS hiT 7050, the IP address 192.168.0.0 and the mask 255.255.224.0 are preserved so they are forbidden to be used. IP address s ettings Press from main menu to configure the Node IP address, the Management Port IP Address, the Management Port Subnet Mask, and the Default Gateway for Management Port. The user can select options <1> to <4> to configure the IP address as required (see Fig. 6.11).



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Fig. 6.11

i

IP Address Configuration window

Note Every NE should be configured with a Node IP. The Node IP should be unique within a network. Nokia Siemens Networks recommends that all nodes within the same ring share the same sub-network (network segment) for ease of future administration and expansion. If the NE is directly connected to the SURPASS hiT 7035 LCT, this NE needs to set the Management Port IP Address which is the Ethernet address used to communicate with the Network Management System. Press <2> to set the Management Port IP Address of the NE and press <3> to set the Management Port Subnetwork Mask. Click Start > Programs > Accessori es > Command Prompt to open the “Command Prompt” window, and then use the command: route add -p

to enter the static route information. See an example in Fig. 6.12.



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i

Note The user can use the command route/help to get more information about the route command.

Fig. 6.12

adding static IP route

If the Data Communication Network (DCN) uses Data Communications Channel (DCC) for the system management: •

•

•

Make sure that Ethernet address assigned to each NE is in a separate sub-network form each other. The PC with the LCT software installed on it must be assigned an Ethernet IP address that is in the same sub-network of the NE directly connected to it. This NE is the gateway of the DCN, and its Ethernet IP address is the gateway address of the DCN. When adding routes to cover all NE’s IP address, set the added NEs’ gateway IP address equal to the gateway address of the DCN.

Telnet l ogin enable/disable Press from the main menu to enable or disable the Telnet login functionality.



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Fig. 6.13

Telnet Login window

DCC slot infor mation Press from the main menu to view the DCC information.



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Fig. 6.14

6.2

DCC Slot Information window

Using the SURPASS hiT 7035 LCT After the SURPASS hiT 7035 node is initialized, the user needs to use the SURPASS hiT 7035 LCT for system configuration, provisioning, and management. For more information system configuration, please refer to Chapter 7.

For more information on how to use the SURPASS hiT 7035 LCT software, please refer to the SURPASS hiT 7035 LCT User Manual.



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Configuring the SURPASS hiT 7035

7

Configuring the SURPASS hiT 7035 All hardware units are delivered to the customer in a fully configured state (i.e., with assembled customized hardware and installed software). Nevertheless, this chapter deals with the main software configuration for the SURPASS hiT 7035 as a basis for any subsequent customizations or extensions.

Help

!

!

!

For more information on the menu and window structures of the SURPASS hiT 7035 LCT, please refer to the SURPASS hiT 7035 LCT User Manual and the SURPASS hiT 7035 Online Help. WARNING When handling any hardware, the user must observe the protecti ve measures gi ven in Chapter 2. CAUTION As a precondition f or the soft ware configuration procedures descr ibed below, the SURPASS hiT 7035 and the operating terminal mu st have been set up accordi ng to t he preceding ch apters, so that the communication between them is working properly. CAUTION Each NE (suc h as SURPASS hiT 7035) must be co nfi gured and operated separately, since each one has its own commu nication interfaces and its own network address. For configu ration purp oses, the NEs must b e connected in tur n (one after the other) to the SURPASS hiT 7035 LCT.



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7.1

EMS installation For more information, please refer to Chapter 5.3.

7.2

NE configuration and management After the LCT software installation has been completed, the user can start configuring the NE in LCT environment.

7.2.1

Starting SURPASS hi T 7035 LCT via TNMS CT To establish connection for an NE via Telecommunication Network Management System (TNMS) Craft Terminal (CT), complete the following steps: 1.

Starting the TNMS CT For example, from the Windows taskbar select the Start > Programs > TNMS CT menu item to start the TNMS CT. The main “TNMS CT” window and the “Login” window are opened (see Fig. 7.1).



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Fig. 7.1

2.

TNMS CT login window

In the “Login” window, enter the User Name and Password to login the TNMS CT (see Fig. 7.2).



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Fig. 7.2

3.

TNMS CT main window

Click the button on the main tool bar. The “DCN Management” window is opened (see Fig. 7.3).



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Fig. 7.3

4.

DCN Management window

In the list of DCN Objects, select the TNMS-CT Server tree and click on the main tool bar. The “SNMP – Properties” window is opened (see Fig. 7.4). In the General tab, enter an ID Name for a new DCN channel (e.g., SNMP) and click . The new SNMP item representing the DCN channel is displayed under the TNMS-CT Server icon.

Fig. 7.4


SNMP – Properties window


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5.

Select SNMP item and click on the main tool bar, the “Add Network Element” window is opened (see Fig. 7.5).

Fig. 7.5

6.

Add Network Element window

Select Universal Snmpv3 NEC and click OK. The “Universal Snmpv3 NEC – Properties” window is opened (see Fig. 7.6).



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Fig. 7.6

Universal Snmpv3 NEC – Properties window

7.

In the General tab, modify the ID Name if necessary (e.g., SURPASS hiT 7035).

8.

In the SNMP tab and enter the following settings (see Tab. 7.1). Click to confirm the settings and back to the “DCN Management” window. Description

Item IP Address

Enter the Internet Protocol (IP) address of the NE.

User Name

Enter a string as the user name of the LCT. The default user name is Administrator .

Password

Enter a string as the password of the LCT. The default password is NSN!e2eNet4u .

Telegram Timeout [sec]

Enter an integer.

Telegram Retries

Enter an integer.

Polling Interval [min]

Enter an integer to indicate the polling interval.

Tab. 7.1


Login settings


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9.

Select the check boxes for the TNMS CT Server , SNMP channel, and SURPASS hiT 7035 (named in step 7 as an example). Right-click the SURPASS hiT 7035 list item and select the Acti vate/Deactivate menu item from the context menu to activate the newly added NE (see Fig. 7.7).

Fig. 7.7

10.

i

Activate SURPASS hiT 7035 LCT

Make sure that the newly added NE is running properly. Right-click the SURPASS hiT 7035 and select Start Element Manager . The LCT is opened (see Fig. 7.8).

Note •

If there are multiple IP addresses configured on the PC, the IP address used as the LCT trap IP should be different from the one used as TNMS CT server IP. If the same IP address is used and TNMS CT is already running, the LCT program can not be started successfully.

•

The NE will be disconnected from the LCT program when the NE is restarted. The LCT program will re-connect to the NE automatically after the NE is restarted. To connect manually, the user needs to wait at least 40 seconds after the NE is restarted.

•

The date and time of the user’s PC should not be changed when LCT is running.



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Fig. 7.8

7.2.2

SURPASS hiT 7035 LCT main window

Chassis view When the SURPASS hiT 7035 LCT is connected to an NE, the NE chassis view will be displayed, which shows the real-time status of the NE (see Fig. 7.9).



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Fig. 7.9

Chassis view

For example, when the 1 x GE/T card in Fig. 7.9 was inserted, a green Ac ti ve label will be marked on the card. If the card is removed, a red Absent warning label will be marked on the card. In this view, the user can see a total representation of the current node status, including a graphical view of all the slots, the card functions, the card types, the status of individual ports, the power status, and other NE functions. The user can modify node properties in the configuration windows. The configuration windows can be opened from the main menu bar by or the context menu of the chassis view. Right-click the chassis view and select Refresh Chassis from the context menu or select Configuration > Refresh Chassis from the menu bar to refresh the chassis view.



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Fig. 7.10

i

7.2.3

Refreshing chassis

Note The user must click on the Nokia Siemens Networks chassis to select the chassis (see the red circle in Fig. 7.10), otherwise the corresponding card/slot will be selected depending on the location the user clicks.

NE synch ronization In order to synchronize the LCT database with the NE’s database, the user must follow the steps listed below.



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Right-click the chassis view and select Synchroni ze NE. The “NE Synchronization” window will be shown (see Fig. 7.11).

Fig. 7.11

Synchronizing NE

Select the content to synchronize, and click OK to start the synchronization process. If the synchronization process succeeds, a message box will be shown. Click Close to quit the current window. Click

7.2.4

to launch the Online Help.

NE prop erties conf igur ation To open the “NE Properties Configuration” window, two methods can be used: •

•

Right-click the chassis and select NE Property Configur ation. From the chassis main menu, select Configuration > NE > Property Configuration .

The “NE Properties Configuration” window will be shown (see Fig. 7.12).



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Fig. 7.12

NE Properties Configuration window

Each item in the window is described in the following table (see Tab. 7.2).



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Item

Description

NE type

The type of NE card

NE label

This is used to distinguish different nodes.

Version

The hardware version of this node

Location

The physical position of this node in real-life

IP address

The IP address of this node

Description

Input node’s detailed description.

Gateway

The gateway of this node

Contact

The contact or owner of this node

Serial number

The serial number of this node configured by the manufacturer

Date and Time

The current time on this node

Tab. 7.2

NE properties description

The card list gives the brief information of all the cards on this node. The user can access the card configuration window by double-clicking the corresponding line in the table.

i

Note The user can change properties of an NE, but modifications are only completed after the Apply button been clicked. Click OK to confirm all the modifications and close the window. If some of the properties are changed, click the Refresh button to check the latest status of this node. Click Print to print the information of this node. Click Cancel to quit this window. All unsaved modifications will be lost. Click




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7.2.5

Shutting down NE To shut down the NE, select Configuration > NE > Shut Down from the chassis main menu. A shutdown confirmation window will appear. Click Yes to confirm shutting down of this NE.

i

7.2.6

Note An NE that has been shut down will be offline.

FTP settings The FTP settings can get the latest software and data support from the FTP server. To perform NE software management and MIB management, the user needs to first configure the FTP setting as well as the FTP server. Follow the steps below to apply FTP settings: 1.

From the chassis main menu, select Configuration > FTP Configuration . The “NE FTP Configuration” window will be shown with the current FTP setting (see Fig. 7.13).

Fig. 7.13

2.

NE FTP Configuration window

To modify the current configuration in the FTP server setting section: −

Input the FTP server’s IP address in the FTP server IP address text box.

−

Input the FTP username in the Username text box.



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−

i

Input the FTP user password in the Password text box.

Note Both of username and password are pm by default if the Nokia Siemens Networks FTP server is used which is included in the software package. All the latest software and data of the FTP server are stored in the <%Install_Drive%\ftproot\pm> folder (<%Install_Drive%> specifies the drive letter of the hard disk drive containing the LCT program). For example, if the LCT program is installed in Drive C, the FTP root will be in the folder (see Fig. 7.14).

Fig. 7.14

FTP root directory

The data of the user pm will be stored in the corresponding folders under the <%Install_Drive%\ftproot\pm> folder. For example, the MIB files uploaded from the LCT program will be stored in the <%Install_Drive%\ftproot\pm\MibUpload> folder. Click Refresh to update the current configuration. Click Apply to confirm the modification. Click Close to quit the window. All unsaved modifications will be lost. Click




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i

7.2.7

Note The configuration of the FTP server should be the same as the real FTP server setting. Generally, the LCT server and the FTP server are on the same physical machine. Note that the LCT server and FTP server can also be on different machines.

NE sof tware management Two software images can be stored in the SURPASS hiT 7035 LCT, an active image and a backup image. Using the LCT, the user can download a SURPASS hiT 7035 NE software image to the NE as the backup version from the FTP server or the user may switch software images between active and backup versions. NE software management is done by the steps below: 1.

From the chassis main menu, select Configuration > NE > Software Management . The “NE Software Management” window will be shown (see Fig. 7.15).

Fig. 7.15

NE Software Management window

Each item in the window is described as follows (see Tab. 7.3):



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Item

Description

Active software version

The software version currently running

State of last command

The last command status

Current software information

Location: where the load stored Role: as a backup or active software in the system Name: load version Date time: the time when the load was downloaded

Tab. 7.3

i

Software management window field description

2.

In the “NE Software Management” window, input the software file name on the FTP server in the Software file name field, and click Download Softw are from FTP Server to download the software image as the backup software version from the FTP server.

3.

Click Switch to switch the software images between the active version and the backup version. After the switching process is finished, a result window will appear to prompt the user to cold reboot or warm reboot the NE.

Note •

System cold reboot (system initialization) takes up to 3 minutes to complete. It is suggested that no other operations (such as system power on or power off, card insertion or removal) be performed during the system initialization.

•

System cold reboot will cause traffic hit. The traffic hit time is t ypically 30 seconds, but can last up to 3 minutes.

•

System warm reboot process takes up to 2 minutes. It is suggested that no operations (such as system power on or power off, card insertion or removal) be performed during system reboot.

•

Card reset will impact the traffic passing through this card. The traffic hit time is typically 30 seconds, but can last up to 60 seconds.

Click Close to quit this dialog. All unsaved modifications will be lost. Click Refresh to refresh the information. Click




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i

7.2.8

Note The user must make sure that the FTP server setting and the software image path are correctly configured before the operation is launched. The user can modify the FTP setting by clicking the FTP Settin g tab.

MIB management The SURPASS hiT 7035 MIB consists of the internal databases/files in the NE that store all the NE configurations and runtime status information. There are two versions of MIB files stored in the NE: an active version and a backup version. All the MIB management functions can be performed in LCT environment. Follow the steps below to perform MIB management: 1.

From the chassis main menu, select Configuration > NE > MIB Management . The “MIB Management” window will be shown (see Fig. 7.16).

Fig. 7.16

2.

MIB Management window

To upload the MIB files to the FTP server, click the Upload tab and click the Browse button. A browse window will be shown (see Fig. 7.17).



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Fig. 7.17

3.

Selecting an MIB file for update

Input the file name and click the OK button to confirm the file name or click Cancel to quit. Then the management is ready for upload (see Fig. 7.18).



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Fig. 7.18

Ready for MIB upload

Click Upload From NE to upload the MIB file to FTP server. Click Close to quit this dialog. All unsaved modifications will be lost. Click


Uploading process takes about 30 seconds. A message of “Upload process is finished!” will appear in the status bar. (See Fig. 7.19)



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Fig. 7.19

i

MIB upload completion

Note The Clear NE MIB button is only available after the uploading process has been finished to protect the user from clearing NE MIB accidentally. To download an MIB file from FTP server, follow the steps below: 1.

Click the Download tab and click the Browse button. A browse window will be shown (see Fig. 7.17).

2.

Select the file name and click Open to start downloading the MIB file. Click Cancel to quit. The management window with “ready for download” message will be shown after the Open button has been clicked (see Fig. 7.20).



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Fig. 7.20

Ready for download

Click Download to NE to download the MIB from FTP server. Click Close to quit this dialog. All unsaved modifications will be lost. Click


Downloading process takes about 30 seconds. A message of “Download process is finished!” will appear in the status bar. (See Fig. 7.21)



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Fig. 7.21

MIB download process

After the download is finished, the user can switch the active MIB file and backup MIB file by clicking the Switc h NE MIB button.

i

i

7.2.9

Note The Switc h NE MIB button is only available after the NE download process is finished. Note When MIB switch is executed, the network management system reminds user to warm reboot or cold reboot the system. The user should reboot the system immediately. Before system reboot (after the MIB is switched), any NE operation will not be saved into MIB. Therefore, any operation before system reboot is invalid.

NE timing setting Open the corresponding chassis view. From the main menu, select Configuration > NE > Time Setti ng. An “NE Time Setting” window will be shown (see Fig. 7.22).



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Fig. 7.22

NE Time Settings window

In the drop-down list of Network time protocol, the protocol can be set to either Enabled or Disabled. If the Network time protocol is enabled, input the NTP tim e server IP address in the corresponding text box. In the drop-down list of NTP request periods, set the frequency to send the timing request to the NTP time server. Under Managed NE list (active), select the corresponding NE whose time will be modified. In the drop-down list of Networ k element t ime, the current time can be viewed manually. Click Refresh to check the latest information on setting time. Click Apply to confirm the modifications. Click OK to quite the window, all the modifications will be saved. Click Cancel to quit the window, all the unsaved modifications will be lost.



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Click

7.2.10


NE trap destination configur ation Select Configuration > NE > Trap Destination Config uration from the chassis main menu. A “Trap Destination Configuration” window will be shown (see Fig. 7.23).

Fig. 7.23

Trap Destination window

The function of each button is described as follows: Click Refresh to update the current destination. Click Add to add a new trap destination IP address into the list. Click Delete to remove a trap destination from the list. Click Close to quit the window without saving any modifications. Click




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7.2.11

Card configuration and management There are two methods to open the “Card Properties Configuration” window in the chassis view: •

Right-click the card to be configured, and select Card Property Configuration (see Fig. 7.24); or

Fig. 7.24 •

Selecting the card

In the “NE Properties Configuration” window, double-click the line of card that the user wants to configure in the card list.

A “Card Properties” window will appear. (See Fig. 7.25)



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Fig. 7.25

Card Properties window

In this window, the following card information is listed in Tab. 7.4: Items

Descriptions

Slot number

The location of the card in the system

Card function

The functionality of the card

Card type

This identifies the type of card

Card state

The operation status of the card in the system

Serial number

The serial number provided by the manufacturer

Card label

A label can be set to distinguish different card

Hardware version

The current version of the card

Care description

The statement about the card

Tab. 7.4


Card properties items description


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The port list contains all the present ports information on the card. The user can double-click the entry of port list that the user wants to configure or view the statistics.

7.2.12

SDH port configuration and management There are two ways to open the “SDH Port Configuration” window: •

In the chassis view, select the corresponding SDH port. Right-click and select SDH Port Property Configu ration. The port selected will be framed in blue (see Fig. 7.26); or

Fig. 7.26

•

Port selection

Open the corresponding “Card Properties Configuration” window, which has the port user wants to view or configure, and double-clicking the entry to the port list.

The “SDH Port Properties” window will be shown (see Fig. 7.27).



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Fig. 7.27

SDH Port Properties window

In this window, each property item is described in Tab. 7.5 and each item of port status is described in Tab. 7.6.



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Fields

Descriptions

Port

Port number

Port type

This identifies the type of port.

Port label

A user can change this easily to distinguish different ports. There are three modes: •

Port mode

Auto mode: The system decides the optimum mode for this port.

•

Monitor mode: When an alarm is generated from this port, it will be reported to the alarm management automatically.

•

Non-monitor mode: No matter how many alarms are generated from this card, none of them will be reported.

There are two port admin modes: Port admin mode Auto laser shutdown (ALS)

•

Enable (connected), or

•

Disable (unconnected).

Yes/No means enable or disable the functionality that the laser transmitter will shutdown automatically when the laser receiver detects loss of signal. •

No command: means that no actions.

•

Manual restart mode: means that restart laser once manually.

•

Manual test mode: means that test the port laser having different time gap with manual restart.

Port ALS mode

Tab. 7.5


Port configuration table


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Fields

Descriptions

Operating status

The port status whether it is under operation or not

Laser bias current

Value of the laser bias current

Received laser power

Optical power received through this port (If the power is small, for example smaller than -40 dBm, the sensor will not show its real number but show "-40 dBm".)

Transmitted laser power

Optical power transmitted out through this port (If the power is small, for example smaller than -40 dBm, the sensor will not show its real number but show "-40 dBm".)

Laser temperature

Temperature of the laser

Tab. 7.6

Port status

If any properties of the port are changed, click Apply to confirm them. Only after clicking this button, have the modifications been completed. If the user is changing all the properties at the same time, click Refresh to check the latest status of the port. Click Print to print the information of this port. Click Cancel to quit this window. All the unsaved modifications will be lost. Click OK to close the window. Click

7.2.13


Shutting dow n SUPRASS hiT 7035 LCT There are two ways to shut down the SURPASS hiT 7035 LCT: •

•

Click or

at the top right of the SURPASS hiT 7035 LCT main window;

Click System > Exit from the main window menu.

A confirmation window will appear, click YES to confirm the shutdown request.



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Initial measurements and tests

8

Initial measurements and tests During commissioning of the SURPASS hiT 7035, measurements and function tests are required in order to ensure that no damage has occurred during the transport and assembly, and that the equipment has been correctly installed.

!

WARNING When handling any hardware, the user must observe the protecti ve measures gi ven in Chapter 2. For more information on electrical and optical parameters of the individual card and of the complete system, please refer to the SURPASS hiT 7035 Product Description.

8.1

Measurements and tests This section describes the test target, test setup, connection description, test procedure, and test result of each test case, which is used for field t est. The users can select the relevant test cases according to their needs and the availability of the hardware they have ordered.

8.2

Local tests Local tests include the following tests: •

•

•

Battery voltage test Management port test Auxiliary port test



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•

•

•

•

•

•

8.2.1

SDH ports tests PDH ports tests Ethernet port test GE port auto-negotiation test OA port test Power protection test

Battery voltage test Test target: To avoid damages caused by the DC voltage beyond the specification range. Test setup: Connect a multimeter to the power distribution panel which is located on the top of the rack. Test procedure: Check the multimeter’s reads of the DC voltage for both power supply feeders. Tesr result: The DC voltage should be -48 V or within the -40 V ~ -72 V range.

8.2.2

Management por t test Test target: To test if the management port is working properly. Test setup:



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Fig. 8.1

Management port test setup

Connection description: Connect the NE’s management port to the compatible 10 M or 100 M Ethernet interface of a PC, using an Ethernet cable. Test procedure: Run the SURPASS hiT 7035 LCT program, and set up a connection to the NE. Test result: NE is connected to LCT successfully.

8.2.3

AUX port test Test target: To test if the auxiliary port is working properly.

i

Note The AUX port has a fixed IP address of 192.168.0.2. Test setup:

Fig. 8.2

AUX port test setup

Connection description



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Connect the NE’s AUX port to the compatible 10 M or 100 M Ethernet interface of a PC using an Ethernet cross-over cable. Test procedure: 1.

Configure the PC IP address as 192.168.0.xxx.

2.

Open the Windows command window, add a route using the command: route add
3.

IP> 192.168.0.2

Run the SURPASS hiT 7035 LCT program and set up a connection to the NE.

Test result: NE is connected to LCT successfully.

8.2.4

STM-16 optical int erface STM-16 transmission optical power, laser receiving sensitivity and overload, and receiving optical power are measured. STM-16 TX opt ical power Test target: To measure the transmission optical power of the STM-16 laser. Test setup: (see Fig. 8.3)

Fig. 8.3

STM-16 TX optical power test setup

Connection description: Connect the NE’s STM-16 TX port to an optical power meter.



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Test procedure: 1.

Connect as shown in Fig. 8.3.

2.

Set the corresponding wavelength λ on the optical meter.

3. Record the result. Test result: (see Tab. 8.1) Application code

Wavelength (nm)

Source type

Output power (dBm)

S-16.1

1261 - 1360

SLM

-5 ~ 0

L-16.1

1261 - 1360

SLM

-2 ~ +3

L-16.2

1480 - 1580

SLM

-2 ~ +3

V-16.2

1530 - 1560

Un-cooled SLM

-2 ~ +3

U-16.2

1530 - 1560

Un-cooled SLM

-2 ~ +3

Tab. 8.1

Standard optical transmission power for STM-16

STM-16 RX sensiti vity and ov erload of STM-16 laser Test target: To measure the receiving sensitivity and overload of the STM-16 laser. Test setup: (see Fig. 8.4)

Fig. 8.4

STM-16 RX sensitivity and overload test setup

Connection description: 1.

Turn the optical attenuator up to 15 dBm.

2.

Connect an STM-16 port of the NE to the optical attenuator.



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3.

Connect the tester to any other port of the system, such as an STM-1 port.

Test procedure: 1.

Create a bi-directional circuit between the STM-16 port and the STM-1 port.

2.

Configure the signal pattern as 223-1 PRBS on the tester.

3. Make sure that there is no alarm or bit error on this circuit. 4. Turn up the optical attenuator until there is bit error. 5.

Turn the optical attenuator down 1 dBm and observe for 5 minutes.

6. Measure the receiving optical power on the STM-16 RX port and record it as the sensitivity. 7. Turn down the optical attenuator until there is bit error. 8.

Turn the optical attenuator up 1 dBm and observe for 5 minutes.

9. Measure the receiving optical power on the STM-16 RX port and record it as the overload. Test result: (see Tab. 8.2)



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Application code

Wavelength (nm)

Minimum sensitivit y and overload (dBm)

S-16.1

1261 - 1360

-18 ~ 0

L-16.1

1261 - 1360

-27 ~ -9

L-16.2

1480 - 1580

-28 ~ -9

V-16.2

1530 - 1560

-28 ~ -9

U-16.2

1530 - 1560

-28 ~ -9

Tab. 8.2

Standard optical receiving sensitivity and overload for STM-16

STM-16 RX opt ical power Test target: To measure the STM-16 receiving optical power. Test setup: (see Fig. 8.5)

STM-16 NE

STM-16

Tx

ODF Optical Power Meter

Fig. 8.5

STM-16 receiving optical power test setup


Find which fiber is connected from the ODF to the STM-16 RX port.

2.

Re-connect the fiber to the optical meter.

Test procedure: 1.

Configure the corresponding wavelength λ on the optical meter.

2.

Record the result.



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Test result: (see Tab. 8.3) Application code

Wavelength (nm)


S-16.1

1261 - 1360

-18 ~ 0

L-16.1

1261 - 1360

-27 ~ -9

L-16.2

1480 - 1580

-28 ~ -9

V-16.2

1530 - 1560

-28 ~ -9

U-16.2

1530 - 1560

-28 ~ -9

Tab. 8.3

8.2.5

Standard optical receiving power range for STM-16

STM-4 opt ical interface STM-4 transmitting optical power, laser receiving sensitivity and overload, and receiving optical power are measured. STM-4 TX optical p ower Test target: To measure the transmission optical power of the STM-4 laser. Test setup: (see Fig. 8.6)

Fig. 8.6

STM-4 TX optical power test setup

Connection description: Connect the STM-4 TX port of the NE to an optical power meter.



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Test procedure: 1.


2.


3.

Record the result.

Test result: (see Tab. 8.4) Applic ation code

Wavelength (nm)

Sourc e type

Output power (dBm)

S-4.1

1261 - 1360

MLM

-15 ~ -8

L-4.1

1261 - 1360

MLM

-3 ~ +2

L-4.2

1480 - 1580

SLM

-3 ~ +2

V-4.2

1480 - 1580

SLM

+1 ~ +5

Tab. 8.4


STM-4 RX sensit ivity and overload of STM-4 laser Test target: To measure the receiving sensitivity and overload of the STM-4 laser. Test setup: (see Fig. 8.7)

Fig. 8.7




2.

Connect the STM-4 port to the optical attenuator.

3.

Connect the tester to any other port of the system, such as an STM-1 port.



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Test procedure: 1.

Create a bi-directional circuit between the STM-4 port and the STM-1 port.

2.


3.

Make sure that there is no alarm or bit error on this circuit.

4.

Turn up the optical attenuator untill there is bit error.

5.


6.

Measure the receiving optical power on the STM-4 RX port and record it as the sensitivity.

7.

Turn down the optical attenuator until there is bit error.

8.


9.

Measure the receiving optical power on the STM-4 RX port and record it as the overload.

Test result: (see Tab. 8.5)

Application code

Wavelength (nm)


S-4.1

1261 - 1360

-28 ~ -8

L-4.1

1261 - 1360

-28 ~ -8

L-4.2

1480 - 1580

-28 ~ -8

V-4.2

1480 - 1580

-34 ~ -18 (BER ≤ 10E-12)

Tab. 8.5





131 (184)


STM-4

STM-4

Tx

NE ODF Optical Power Meter

Fig. 8.8

STM-4 receiving optical power test setup



2.


Test procedure: 1.


2.

Record the result.


Wavelength (nm)

Minimum sensitivity and overload (dBm)

S-4.1

1261 - 1360

-28 ~ -8

L-4.1

1261 - 1360

-28 ~ -8

L-4.2

1480 - 1580

-28 ~ -8

V-4.2

1480 - 1580

-34 ~ -18 (BER ≤ 10E-12)

Tab. 8.6

8.2.6


STM-1 opt ical interface STM-1 transmission optical power, laser receiving sensitivity and overload, and receiving optical power are measured.



132 (184)


STM-1 TX optical p ower Test target: To measure the transmission optical power of the STM-1 laser. Test setup: (see Fig. 8.9)

Fig. 8.9

STM-1 TX optical power setup

Connection description: Connect the STM-1 TX of the NE to the optical power meter. Test procedure: 1.


2.


3.

Record the result.

Test result: (see Tab. 8.7) Application code

Wavelength (nm)

Source type

Output power (dBm)

S-1.1

1261 - 1360

MLM

-15 ~ -8

L-1.1

1261 - 1360

MLM

-5 ~ 0

L-1.2

1480 - 1580

SLM

-5 ~ 0

V-1.2

1480 - 1580

SLM

+1 ~ +5

Tab. 8.7


STM-1 RX sensit ivity and overload of STM-1 laser Test target:



133 (184)


To measure the receiving sensitivity and overload of the STM-1 laser. Test setup: (see Fig. 8.10)

Fig. 8.10




2.

Connect the STM-1 port to the optical attenuator.

3.

Connect the tester to any other port of the system, such as another STM-1 port.

Test procedure: 1.

Create a bi-directional circuit between the two STM-1 ports.

2.


3.


4.

Turn up the optical attenuator until there is bit error.

5.


6.

Measure the receiving optical power on the tested STM-1 RX port and record it as the sensitivity.

7.

Turn down the optical attenuator until there is bit error.

8.


9.

Measure the receiving optical power on the tested STM-1 RX port and record it as the overload.

Test result: (see Tab. 8.8)



134 (184)


Application code

Wavelength (nm)


S-1.1

1261 - 1360

-8 ~ -28

L-1.1

1261 - 1360

-34 ~ -10

L-1.2

1480 - 1580

-34 ~ -10

V-1.2

1480 - 1580

-34 ~ -10 (BER ≤ 10E-12)

Tab. 8.8



STM-1

STM-1

Tx

NE ODF Optical Power Meter

Fig. 8.11

STM-1 RX optical power setup



2.


Test procedure: 1.


2.

Record the result.



135 (184)



Wavelength (nm)

Minimum sensitivity and overload (dBm)

S-1.1

1261 - 1360

-8 ~ -28

L-1.1

1270 - 1360

-10 ~ -34

L-1.2

1480 - 1580

-10 ~ -34

V-1.2

1480 - 1580

-10 ~ -34 (BER ≤ 10E-12)

Tab. 8.9

8.2.7


STM-1E port BER test Test target: To verify the STM-1E channel. Test setup:

Fig. 8.12

STM-1E loop-back test setup


Set loop-back on an STM-1 port.

2.

Connect the tester TX to the RX port of the STM-1E and connect the tester RX to the TX port of STM-1E.

Test procedure: 1.

Create a bi-directional circuit between the STM-1 port and the STM-1E port.



136 (184)


2.


3.


4.

Run the tester for 15 minutes.

Test result: No alarm is detected on the tester.

8.2.8

PDH por t test E1 and E3/DS3 ports’ Bit Error Rate (BER) are tested. E1 port BER test Test target: To verify all the E1 channels. Test setup:

Fig. 8.13

E1 port BER test setup


Loop-back an STM-4 port.

2.

Daisy chain all the E1 ports.

3.

Connect the tester TX to the RX port of the first E1.

4.

Connect the tester RX to the TX port of the last E1.

Test procedure:



137 (184)


1.

Create bi-directional circuits between the all the E1 ports and the STM-4 port.

2.


3.


4.



i

Note After the daisy chain setup completed, it is suggested to wait for at least 60 seconds for the PLLs to become stable, and then start the analyzer. E3/DS3 port B ER test Test target: To verify all the E3/DS3 channels. Test setup:

Fig. 8.14

E3/DS3 port BER test setup



2.

Daisy chain all the E3/DS3 ports.

3.

Connect the tester TX to the RX port of the first E3/DS3.

4.

Connect the tester RX to the TX port of the last E3/DS3.

Test procedure:



138 (184)


1.

Create bi-directional circuits between STM-4 port and all the E3/DS3 ports.

2.


3.


4.



8.2.9

Ethernet por t 10/100 M and GE port mode are tested as well as auto-negotiation tests on 10/100 M and GE ports. 10/100 M port auto-negotiation test Test target: To verify the auto-negotiation function of the 10/100 M port. Test setup: The 10/100 M port test setup is as shown in Fig. 8.15:

Fig. 8.15

10/100 M port auto-negotiation test setup

Connection description: Connect one 10/100 M port to two 10/100 M ports of the Smartbits analyzer through an Ethernet splitter. Test procedure: 1.




139 (184)


2.

Enable the auto-negotiation function on the NE’s 10/100 M port.

3.

Enable the auto-negotiation function of the 10/100 M ports on the Smartbit analyzer.

4.

See result.

Test result: The port mode on both sides should be 100 M and full-duplex. 10/100 M port mode test Test target: To verify the working mode of the 10/100 M port. Test setup: The 10/100 M port test setup is as shown in Fig. 8.16:

Fig. 8.16

10/100 M port working mode test setup

Connection description: Connect one 10/100 M port to two 10/100 M ports of the Smartbit analyzer through an Ethernet splitter. Test Procedure: 1.


2.

Set the Smartbits analyzer ports as 100 M and full-duplex.

3.

Set 100 M and full-duplex on the NE’s 10/100 M port.

4.

Send traffic out from the Smartbits analyzer’s port 1, and then check the receiving traffic of Smartbits analyzer on port 2.

5.

See result 1.

6.

Set the Smartbits analyzer ports as 100 M and half-duplex.



140 (184)


7.

Set 100 M and half-duplex on the NE’s 10/100 M port.

8.

Send traffic out from Smartbits analyzer’s port 1, and then check the receiving traffic of the Smartbits analyzer port 2.

9.

See result 2.

10.

Set the Smartbits analyzer ports as 10 M and full-duplex.

11.

Set 10 M and full-duplex on the NE’s 10/100 M port.

12.

Send traffic out of the Smartbits analyzer’s port 1, and then check the receiving traffic of the Smartbits analyzer on port 2.

13.

See result 3.

14.

Set the Smartbits analyzer port as 10 M and half-duplex.

15.

Set 10 M and half-duplex on the NE’s 10/100 M port.

16.

Send traffic out from the Smartbits analyzer’s port 1, and then check the receiving traffic of the Smartbits analyzer on port 2.

17.

See result 4.

Test result:

8.2.10

1.

The traffic should be OK.

2.


3.


4.


GE port auto-negotiation test Test target: To verify the auto-negotiation function of the GE port. Test setup:

GE

Smartbits Analyzer

Fig. 8.17


NE

GE port auto-negotiation test setup


141 (184)


Connection description: Connect the NE’s GE port to the Smartbits analyzer’s GE port. Test procedure: 1.

Enable the auto-negotiation function on the NE’s GE port.

2.

Enable the auto-negotiation function on the Smartbits analyzer’s GE port and enable the flow control function.

Test result: The port mode on both sides should be 1 Gb, full-duplex, and flow control enabled.

8.2.11

OA por t test Test target: To verify the OA channel. Test setup:

Fig. 8.18

OA channel test setup

Connection and test procedure: 1.

Enable the admin mode of the OA card using the SURPASS hiT 7035 LCT.

For more information on card properties configuration, please refer to Chapter 7.2.11. 2.

Keep the OA card default manufacturer setting.

3.

Measure the input optical power of the OA card.



142 (184)


4.

Connect an optical patch cord to input of the OA card.

5.

Measure the output optical power of the OA card.

6.

Record the optical receiving power values in the table below.

Expected result: The output optical power of the OA card should meet the default value as the table shown below (see Tab. 8.10). Card type 13 dBm BOA 15 dBm BOA 18 dBm BOA 20 dB POA

Tab. 8.10

8.2.12

Minimum

Maximum

Default

(dBm)

(dBm)

(dBm)

Range of input power

-10

3

N/A

Output power

5

13

13 ± 0.5


-10

3

N/A

Output power

5

15

15 ± 0.5


-10

3

N/A

Output power

5

18

18 ± 0.5


-35

-15

N/A

Output power

-15

-10

N/A

Parameters

Expected result of OA port test

Power 1 + 1 protection test Test target: To verify the 1 + 1 equipment protection for the power card works correctly. Test setup:



143 (184)


Fig. 8.19

Power card 1 + 1 protection test setup


Connect an E1 port to the tester.

2.


Test procedure: 1.


2.

Create a bi-directional circuit between the STM-4 port and the E1 port.

3.


4.


5.

Cut off the power input 1.

6.

Check the tester.

7.

See result.

Test result: Traffic is OK and error-free.

8.3

Network tests i

8.3.1

Note The Network tests are optional to the users.

Bit error test on E1 (12 hour s) Test target:



144 (184)


To test the bit error of the E1 channel between two terminals (NEs). Test setup:

Fig. 8.20

E1 bit error test setup


Connect an SDH/PDH analyzer to the local NE’s E1 port.

2.

Loop back an E1 port on the remote NE station.

Test procedure: 1.

Create a bi-directional VC-12 level connection from the local NE’s E1 port to the remote NE’s E1 port. A chain or ring configuration is possible.

2.

Do a bit error measurement with the SDH/PDH analyzer and perform a bit error measurement with an injected payload of 2 Mbps for 12 hours using a PRBS 215-1 signal pattern.

Test result: The traffic should be error-free.

8.3.2

Bit error test on E3 (12 hour s) Test target: To test the bit error of the E3 channel between two terminals (NEs). Test setup:



145 (184)


Fig. 8.21

E3 bit error test setup


Connect an SDH/PDH analyzer to the local NE’s E3 port.

2.

Loop back an E3 port on the remote NE station.

Test procedure: 1.

Create a bi-directional VC-3 level connection from the local NE’s E3 port to the remote NE’s E3 port. A chain or ring configuration is possible.

2.



8.3.3

Bit error test on DS3 (12 hour s) Test target: To test the bit error of the DS3 channel between two terminals (NEs). Test setup:



146 (184)


Fig. 8.22

DS3 bit error test setup


Connect an SDH/PDH analyzer to the local NE’s DS3 port.

2.

Loop back a DS3 port on the remote NE station.

Test procedure: 1.

Create a bi-directional VC-3 level connection from the local NE’s DS3 port to the remote NE’s DS3 port. A chain or ring configuration is possible.

2.



8.3.4

Bit error test on STM-1 (12 hour s) Test target: To test the bit error of the STM-1 channel between two terminals (NEs). Test setup:



147 (184)


Fig. 8.23

STM-1 bit error test setup


Connect an SDH analyzer to a local NE’s STM-1 port.

2.

Loop back an STM-1 port on the remote station.

Test procedure: 1.

Create a bi-directional VC-4 level connection from the local NE’s STM-1 port to the remotes NE’s STM-1 port. A chain or ring configuration is possible.

2.



8.3.5

Bit error test on STM-1E (12 hou rs) Test target: To test the bit error of the STM-1E channel between two terminals (NEs). Test setup:



148 (184)


Fig. 8.24

STM-1E bit error test setup


Connect an SDH analyzer to the local NE’s STM-1E port.

2.

Loop back an STM-1E port on the remote station.

Test procedure: 1.

Create a bi-directional VC-4 level connection from the local NE’s STM1E port to the remote NE’s STM-1E port. A chain or ring configuration is possible.

2.



8.3.6

Bit error test on STM-4 (12 hour s) Test target: To test the bit error of the STM-4 channel between two terminals (NEs). Test setup:



149 (184)


Fig. 8.25



Connect an SDH analyzer to the local NE’s STM-4 port.

2.

Loop back an STM-4 port on the remote station.

Test procedure: 1.

Create a bi-directional VC-4 level connection from the local NE’s STM-4 port to the remote NE’s STM-4 port. A chain or ring configuration is possible.

2.



8.3.7

Bit error test on STM-16 (12 hours) Test target: To test the bit error of the STM-16 channel between two terminals (NEs). Test setup:



150 (184)


Fig. 8.26



Connect an SDH analyzer to the local NE’s STM-16 port.

2.

Loop back an STM-16 port on the remote station. If necessary, add a 10 dB attenuation in the loop back circuit.

Test procedure: 1.

Create a bi-directional VC-4 level connection from the local NE’s STM16 port to the remote NE’s STM-16 port. A chain or ring configuration is possible.

2.



8.3.8

Packet los s test on 8 x FE/T Ethernet card (12 hours ) Test target: To measure the packet loss of the FE/T Ethernet channel between two terminals (NEs). Test setup:



151 (184)


Fig. 8.27

8 x FE/T Ethernet card packet loss test setup


Connect an SDH Analyzer to the 8 x FE/T Ethernet card’s FE port of the local NE station.

2.

Connect another SDH Analyzer to the 8 x FE/T Ethernet card’s FE port of the remote NE station.

Test procedure: 1.

Create a bi-directional VC-12-5v connection from the local NE’s FE/T port to the remote FE/T port.

2.

Confirm the traffic can transfer along FE (local) > STM-N port (local) > STM-N port (remote) > FE (remote), and the reverse direction as well.

3.

Do a packet loss measurement between the two SDH analyzers and perform a packet loss measurement with 10 Mbps signal of packet length 64 Byte for 12 hours.

Test result: There should be no packet loss.

8.3.9

Packet loss test on 8 x FE/L2 Ethernet card (12 hou rs) Test target: To measure the packet loss of the FE/L2 Ethernet channel between two terminals (NEs). Test setup:



152 (184)


Fig. 8.28

8 x FE/L2 Ethernet card packet loss test setup


Connect an SDH analyzer to the 8 x FE/L2 Ethernet card’s FE port of the local NE station.

2.

Connect another SDH analyzer to the 8 x FE/L2 Ethernet card’s FE port of the remote NE station.

Test procedure: 1.

Configure both 8 x FE/L2 cards as double tag mode.

2.

Configure LAN1 ports of both cards as detag mode.

3.

Configure WAN1 ports of both cards as detag mode.

4.

Configure both LAN1 and WAN1 with the same PVID, e.g., 11, and both LAN1 and WAN1 are in the same VLAN list, e.g., 11.

5.

Create a bi-directional VC-12-5v connection from the local NE’s FE/L2 port to the remote FE/L2 port.

6.

Confirm the traffic can transfer along FE (local) > STM-N port (local) > STM-N port (remote) > FE (remote), and the reverse direction as well.

7.



8.3.10

Packet loss test on Gigabit Ethernet card (12 hour s) Test target:



153 (184)


To measure the packet loss of Gigabit Ethernet channel between two terminals (NEs). Test setup:

Fig. 8.29

Gigabit Ethernet card packet loss test setup


Connect an SDH analyzer to the 1 x GE/T card’s GE port of the local NE station.

2.

Connect another SDH analyzer to the 1 x GE/T card’s GE port of the remote NE station.

Test procedure: 1.

Create a bi-directional VC-4-4v connection from the local NE’s GE port to the remote GE port.

2.

Confirm the traffic can transfer along GE (local) > STM-N port (local) > STM-N port (remote) > GE (remote), and the reverse direction as well.

3.



8.4

Field check lists and test report The results of the commissioning measurements are to be recorded. Nokia Siemens Networks provides the forms, i.e., the field check lists and test report to the user for such purpose.



154 (184)


8.4.1

Certi ficate of cust omer acceptance

Project name: Country: Customer: Station: Product version: Number of pages: Remarks:

Customer acceptance engineer: NOKIA SIEMENS Networks engineer: Date: Sign for the customer:


Sign for NOKIA SIEMENS Networks:


155 (184)


8.4.2 Slot name

Circuit pack list of SURPASS hiT 7035 CP type

CP code

S/N number

SCE PWR1 PWR2 CC1_LC CC2_LC LC1 LC2 LC3 LC4 LC5 LC6 LC7 LC8 LC9 LC10 LC11 IO1 IO2 IO3 IO4 IO5 IO6 IO7 SI



156 (184)


8.4.3

Load num ber of SURPASS hiT 7035 and TNMS-CT

SURPASS hi T 7035 NE load TNMS-CT load

8.4.4

Tools and test equipment list

Equipment

Type

Recommendation

Bit error t est set

SDH/PDH analyzer

Agilent Omni718 with STM-16/4/1 interface

Ethernet test set

IEEE 802.3 data analyzer

SmartBits 600 with FE module and GE module

Optical power meter

Range –40 ~ +10 dBm

Optical test set

Actual type

Cleaning material Fiber cables

According to the delivered cards

Multimeter

• •

Range 0 ~ 1000 V Accuracy ± 5%

ESD wristband

8.4.5

Test result

Test item

Test result Application

Memo Pass

Fail

Battery voltage test Management port test AUX port test STM-16 optical interface

[ ] N.A

STM-4 optical interface

[ ] N.A

STM-1 optical interface

[ ] N.A

STM-1E port BER test

[ ] N.A

PDH port test

[ ] N.A



157 (184)


Test item

Test result Application

Ethernet port

[ ] N.A

GE port auto-negotiation test

[ ] N.A

OA port test

[ ] N.A

Power 1 + 1 protection test

[ ] N.A

Bit error test on E1 (12 hours)

[ ] N.A

Bit error test on E3 (12 hours)

[ ] N.A

Bit error test on DS3 (12 hours)

[ ] N.A

Bit error test on STM-1 (12 hours)

[ ] N.A

Bit error test on STM-1E (12 hours)

[ ] N.A


[ ] N.A


[ ] N.A

Packet loss test on 8 x FE/T Ethernet card (12 hours)

[ ] N.A

Packet loss test on 8 x FE/L2 Ethernet card (12 hours)

[ ] N.A

Packet loss test on Gigabit Ethernet card (12 hours)

[ ] N.A

i

Memo Pass

Fail

Note Please select one type of bit error test referred to the type of available line interface and tributary type.



158 (184)

LED indications

9

LED indications This chapter gives an overview of the module front LEDs, which provide information for service and maintenance purposes.

For information on the functions of the LEDs, please refer to the SURPASS hiT 7035 Product Description.

9.1

Enhanced System Controller card (SCE) The SCE card has six (6) LEDs (see Tab. 9.1). Name

Color

ACTIVE

Green

PWR

Green

FAULT

Red

CR

MJ


Red

Orange

Status

Functional description

ON

This module is in the active mode.

OFF

This module is in the standby mode.

ON

Power is available to the system.

OFF

Power is off.

ON

There is fault condition on this module.

OFF

There is no alarm on this module.

ON

One or more critical alarms are present.

Flashing

One or more critical communication alarms are present, or any card is mismatched or faulty (Major alarm LED will flash at the same time).

OFF

No critical communication alarms are present, and card/system is in service.

ON

There are one or more major alarms present.

OFF

No major alarms.


159 (184)

LED indications

Name

MN

Color

Status

Functional description

ON

There are one or more minor alarms present. No minor alarms.

Yellow OFF

Tab. 9.1

9.2

(Note: warning and indeterminate alarms will not turn the LED on.)

LEDs on SCE card

Cross-connect and timing card with STM-4/1 optical module (CC + 1 x STM-4/1) or with STM16/4 optical module (CC + 1 x STM-16/4) The cross-connect and timing card with STM-4/1 optical module or with the STM-16/4 Optical module has four (4) LEDs shown in Tab. 9.2. LED name

PWR

ACT

FAULT

LINK

Tab. 9.2


Color

Status

Description

ON

Power is available to the card. It indicates the presence of the internal power supply after the power conversion.

OFF

Power is not available due to broken power converter or, external power cable or connector.

ON

The card is in working state.

OFF

The card in standby state.

ON

There are fault conditions present in this module.

OFF

This module is in normal condition.

ON

Optical link is normal.

OFF

Optical link is off.

Green

Green

Red

Green

LEDs on CC + 1 × STM-4/1 or CC + 1 x STM-16/4 module


160 (184)

LED indications

9.3

Traffic interface cards On traffic interface cards, there are Fault LED, Link LED, and Fast Ethernet connector LEDs.

9.3.1

PWR and Fault LEDs Most of the traffic interface cards have at least two LEDs shown in Tab. 9.3. Traffic Interface Cards LED name

PWR

FAULT

LED color

Explanation

ON

Power is available to the system. It indicates the presence of the internal power supply after the power conversion.

OFF

Power is not available due to the broken power converter, or external power cable or connector.

ON

There is fault condition presented in this module.

OFF

This module is in normal condition.

Green

Red

Tab. 9.3

9.3.2

LED status

LEDs on the traffic interface cards

Link LEDs Some optical traffic interface cards has the Link LED (see Tab. 9.4). Traffic interface modules LED name

LED color

Link

Green

Tab. 9.4


LED status

Explanation

ON

There is an optical signal detected in the port.

OFF

There is no optical signal detected in the port.

Link LEDs on the traffic interface cards


161 (184)

LED indications

9.3.3

Fast Ethernet connector LEDs LEDs on the FE ports’ RJ 45 connectors of 8 × FE/T card and 8 × FE/L2 card, are different from the LEDs on the connectors of general Fast Ethernet service cards. Each RJ 45 connector on the 8 × FE/T card and 8 × FE/L2 card has two LEDs to indicate the data link status for 2 Ethernet ports. RJ 45 connectors for RJ 45 to 2 x RJ 45 converter cable LED position Down

Up

Tab. 9.5

9.4

Peer to peer Ethernet por t A

LED c ol or

Green

B

Green

L ED s tat us

Ex pl an at io n

ON

The link of Ethernet port A is OK.

OFF

The link of Ethernet port A is down.

ON

The link of Ethernet port B is OK.

OFF

The link of the Ethernet port B is down.

LEDs on RJ 45 connector for RJ 45 to 2 x RJ 45 converter cable

Power card The power card has two LEDs (see Tab. 9.6). Power card LED name

LED color

PWR

Green

FAULT

Tab. 9.6


LED status

Explanation

ON

Power supply is on.

OFF

Power supply is off.

ON

There is a fault on power module.

OFF

There is no fault detected on power module.

Red

LEDs on the power card


162 (184)

Pin assignments

10

Pin assignments This chapter describes the pin assignments of each cable used in the system.

10.1

DC power supply cable

Fig. 10.1


DC power supply cable


163 (184)

Pin assignments

10.2

Fig. 10.2

DC power connector

Pin number

Wire color

Signal

1

Yellow/Green

Ground

2

Blue

-48 V

3

Red

0 (Return)

Tab. 10.1

DC power connector pin assignments

E1 cable The E1 cable uses 7 x E1 2-mm connector or 21 x E1 2-mm connector. Each 7 x E1 2-mm connector provides up to 7 × 2 Mbps signals.



164 (184)

Pin assignments

Fig. 10.3

63 x E1 IO card (75/120 Ohm) faceplate with 7 x E1 2-mm interface

Fig. 10.4

63 x E1 IO card (75/120 Ohm) faceplate with 21 x E1 2-mm interface



165 (184)

Pin assignments

Fig. 10.5

Single 7 x E1 2-mm connector

Fig. 10.6




166 (184)

Pin assignments

Fig. 10.7

7 x E1 2-mm connector pin assignments

Connector Pin No.

Descript ion

E6

INNER CONDUCTOR (CORE)

E5

OUTER CONDUCTOR (BRAID)

D6


D5


E4


E3


D4


D3


C4


C3


E2


E1


D2


D1


Coaxial cable No.

Descript ion

1

TX7

2

TX6

T6

3

TX5

T5

4

TX4

T4

5

TX3

T3

6

TX2

T2

7

TX1

T1

C6

Label printi ng T7

SHORT CIRCUIT

C5 B6


B5


A6


A5



8

RX7

R7

9

RX6

R6


167 (184)

Pin assignments

Connector Pin No.

Descript ion

B4


B3


A4


A3


C2


C1


B2


B1


A2


A1


Tab. 10.2

Coaxial cable No.

Descript ion

Label printi ng

10

RX5

R5

11

RX4

R4

12

RX3

R3

13

RX2

R2

14

RX1

R1

E1 (75 Ohm) cable connector pin assignments

Connector pin No.

Cable color

Descript ion

Label printing

E6

WHITE

TX7P

T7P

E5

BROWN

TX7N

T7N

D6

WHITE

TX6P

T6P

D5

ORANGE

TX6N

T6N

E4

WHITE

TX5P

T5P

E3

GREEN

TX5N

T5N

D4

WHITE

TX4P

T4P

D3

BLUE

TX4N

T4N

C4

RED

TX3P

T3P

C3

BLUE

TX3N

T3N

E2

RED

TX2P

T2P

E1

ORANGE

TX2N

T2N

D2

RED

TX1P

T1P

D1

GREEN

TX1N

T1N

C6

SHORT CIRCUIT

C5 B6


WHITE

RX7P


R7P

168 (184)

Pin assignments

Connector pin No.

Cable color

Descript ion

Label printi ng

B5

BROWN

RX7N

R7N

A6

WHITE

RX6P

R6P

A5

ORANGE

RX6N

R6N

B4

WHITE

RX5P

R5P

B3

GREEN

RX5N

R5N

A4

WHITE

RX4P

R4P

A3

BLUE

RX4N

R4N

C2

RED

RX3P

R3P

C1

BLUE

RX3N

R3N

B2

RED

RX2P

R2P

B1

ORANGE

RX2N

R2N

A2

RED

RX1P

R1P

A1

GREEN

RX1N

R1N

Tab. 10.3

i

E1 (120 Ohm) cable connector pin assignments

Note The user should use RJ 48 Connector based on 120 Ohm E1 extension panel. Tab. 10.4 lists the RJ 48 connector pin assignments.



169 (184)

Pin assignments

RXD+ RXDTXD+

TXD-

1

8

Ground

Fig. 10.8

E1 (120 Ohm) RJ 48 connector

Pin number

Signal

1

Rx Tip (+)

2

Rx Ring (-)

3

Not Connected

4

Tx Tip (+)

5

Tx Ring (-)

6

Not Connected

7

Not Connected

8

Not Connected

Tab. 10.4


E1 RJ 48 connector pin assignments


170 (184)

Pin assignments

10.3

SIPAC connector panel

Fig. 10.9

SIPAC connector panel showing

Fig. 10.10

SIPAC connector panel pin numbering



171 (184)

Pin assignments

1 - 21

22 - 42

43 - 63

A

DS2-01 (in) ~ DS2-07 (in)

DS2-22 (in) ~ DS2-28 (in)

DS2-43 (in) ~ DS2-49 (in)

B

DS2-01(out) ~ DS2-07 (out)

DS2-22(out) ~ DS2-28 (out)

DS2-43(out) ~ DS2-49 (out)

C

DS2-8 (in) ~ DS2-14 (in)

DS2-29 (in) ~ DS2-35 (in)

DS2-50 (in) ~ DS2-56(in)

D

DS2-8 (out) ~ DS2-14 (out)

DS2-29 (out) ~ DS2-35 (out) DS2-50 (out) ~ DS2-56 (out)

E

DS2-15 (in) ~ DS2-21 (in)

DS2-36 (in) ~ DS2-42 (in)

F

DS2-15 (out) ~ DS2-21 (out)

DS2-36 (out) ~ DS2-42 (out) DS2-57 (out) ~ DS2-63 (out)

Tab. 10.5

DS2-57 (in) ~ DS2-63 (in)

SIPAC connector panel pin numbering

64 - 84

85 - 105

106 - 126

A

DS2-64 (in) ~ DS2-70 (in)

DS2-85 (in) ~ DS2-91 (in)

DS2-106 (in) ~ DS2-112 (in)

B

DS2-64 (out) ~ DS2-70 (out)

DS2-85(out) ~ DS2-91 (out)

DS2-106(out) ~ DS2-112 (out)

C

DS2-71 (in) ~ DS2-77 (in)

DS2-92 (in) ~ DS2-98 (in)

DS2-113 (in) ~ DS2-119(in)

D

DS2-71 (out) ~ DS2-77 (out)

DS2-92 (out) ~ DS2-98 (out)

DS2-113 (out) ~ DS2-119 (out)

E

DS2-78 (in) ~ DS2-84 (in)

DS2-99 (in) ~ DS2-105 (in)

DS2-120 (in) ~ DS2-126 (in)

F

DS2-78 (out) ~ DS2-84 (out)

DS2-99 (out) ~ DS2-105 (out)

DS2-120 (out) ~ DS2-126 (out)

Tab. 10.6


SIPAC connector panel pin numbering (continued)


172 (184)

Pin assignments

From SCSI 100 connectors

To SIPAC connectors

SCSI no.

Pin no.

Connector name

1

1–7

101 AB

8 –14

101 CD

15 –21

101 EF

22 – 28

102 AB

29 – 35

102 CD

36 – 42

102 EF

43 – 49

103 AB

50 – 56

103 CD

57 – 63

103 EF

64 – 70

104 AB

71 – 77

104 CD

78 – 84

104 EF

85 – 91

105 AB

92 – 98

105 CD

99 – 105

105 EF

106 – 112

106 AB

113 – 119

106 CD

120 - 126

106 EF

2

3

4

5

6

Tab. 10.7


SIPAC connector panel pin assignments


173 (184)

Pin assignments

10.4

Ethernet cable Pin number

Signal

1

Twisted-pair, Tx+

2

Twisted-pair, Tx-

3

Twisted-pair, Rx+

4

Not connected

5

Not connected

6

Twisted-pair, Rx-

7

Not connected

8

Not connected

Tab. 10.8

Ethernet cable RJ 45 connector pin assignments

Fig. 10.11

Ethernet cable RJ 45 connector

CAT 6 is used for 100 Mbps Ethernet cable. Following is a reference chart for wiring Category 6 (CAT 6) for the 10/100 Base-T Ethernet cables.



174 (184)

Pin assignments

1

2

3

4

5

6

White with orange strip

Orange

White with green strip

Blue

White with blue strip

Green White with Brown brown strip

Tab. 10.9

7

8

Category 6 twisted pair color-code standards

For FE ports on the 8 x FE/T card and 8 x FE/L2 card, cables with RJ 45 connectors are needed. However the pin usages are different from the CAT 6 cable usage. An Ethernet splitter converter is needed (see Fig. 10.12).

Up Side View

Left Front View

Right Back View

Fig. 10.12

Ethernet splitter converter

For more information on how to connect splitter, please refer to Chapter 4.3.10.



175 (184)

Pin assignments

10.5

Management cable The management interface port is a DTE port with an RJ 45 connector. The management cable pin assignments are provided in Tab. 10.10 below: Pin number

Signal

1

Twisted-pair, Tx+

2

Twisted-pair, Tx-

3

Twisted-pair, Rx+

4

Not connected

5

Not connected

6

Twisted-pair, Rx-

7

Not connected

8

Not connected

Tab. 10.10

Fig. 10.13


Management cable RJ 45 connector pin assignments

RJ 45 plug


176 (184)

Pin assignments

10.6

Timing, STM-1E, and E3/DS3 cables The timing cable, STM-1E cable, and E3/DS3 cable use CC 4-1.0 connectors on the SURPASS hiT 7035 side. The connectors on the other end of the cables can be customized to the customers’ applications.

Fig. 10.14

10.7

CC 4-1.0 connector

Station alarm cables Station alarm cables use RJ 45 connectors. However the pin usages are different from the CAT 6 cable usage. The pin assignments for the station alarm cable are provided in Tab. 10.11. RJ 45 connector of NE alarm port (Source)

RJ 45 connector A of alarm card (Destination)

Pin

Signal

Pin

Signal

1

Alarm4 +

5

Alarm4 -

2

Alarm4 -

7

Alarm3 -

3

Alarm3 +

6

Alarm4 +

4

Alarm3 -

8

Alarm3 +

RJ 45 connector of NE alarm port (Source)

RJ 45 connector B of alarm card (Destination)

Pin

Signal

Pin

Signal

5

Alarm2 + Critical and Major alarm

5

Alarm2 -

6

Alarm2 - Return

7

Alarm1 -

7

Alarm1 + Minor Alarm

6

Alarm2 +

8

Alarm1 - Return

8

Alarm1 +

Tab. 10.11


Station alarm cable RJ 45 connector pin assignments


177 (184)

Pin assignments

Fig. 10.15

10.8

Station alarm cable connection

MDI cabl cab l es MDI cables use RJ 45 connectors. The pin assignments for the MDI cable are provided in Tab. 10.12 below. Pin numb er

Signal

1

MDI4+

2

MDI4-

3

MDI3+

4

MDI3-

5

MDI2+

6

MDI2-

7

MDI1+

8

MDI1-

Tab. 10.12


MDI cable RJ 45 connector pin assignments


178 (184)

Pin assignments

10.9

MDO cabl cab l es MDO cables use RJ 45 connectors. The pin assignments for the MDO cable are provided in Tab. 10.13 below. Pin number

Signal

1

MDO4+

2

MDO4-

3

MDO3+

4

MDO3-

5

MDO2+

6

MDO2-

7

MDO1+

8

MDO1-

Tab. 10.13

10.10 10.10

MDO cable RJ 45 connector pin assignments

EOW c able abl e EOW cables use RJ 45 connectors. The pin assignments for the EOW cable are provided in Tab. 10.14 and below. Pin Number

Signal

1

EOW_O_CLKP

2

EOW_O_CLKN

3

EOW_O_DATP

4

EOW_O_DATN

5

EOW_I_CLKP

6

EOW_I_CLKN

7

EOW_I_DATP

8

EOW_I_DATN

Tab. 10.14


EOW interface interfac e RJ 45 connector pin assignments


179 (184)

Pin assignments

i

10.1 10.11 1

Note The interface of EOW based on the standard of G.703 electrical characteristics of 64 Kbps co-directional interface, the nominal peak voltage of a pulse is 1.0 V, peak voltage of no pulse is 0 V ± 0.10 V.

Consol Cons ole e cable cabl e The console cable is only used during SURPASS hiT 7035 installation to connect the Command Line Interface (CLI) to initialize the unit. This cable is not necessary in later maintenance.

Fig. 10.16

Console cable connection

Pin no.

Signal

1

Not used

2

Serial signal Tx

3

Serial signal Rx

4

Not used

5

Ground

6

Not used

7

Not used

8

Not used

9

Not used

Tab. 10.15


Console cable pin assignement


180 (184)

Abbreviations

Abbr evi ati ons ACO

Alarm Cut Off

CD-ROM

Compact Disc Read Only Memory

CE

Communauté Européenne

DB

Data Base

DC

Direct Current

DCC

Data Communication Channel

EGB

Elektrostatisch Gefährdete Bauteile

EMC

Electromagnetic Compatibility

EN

European Standard

EOW

Engineering Order Wire

ESD

Electrostatic Sensitive Device

ETS

European Telecommunication Standard

ETSI

European Telecommunications Standards Institute

FAULT

Fault Alarm LED

FO

Fiber Optic

GMT

Greenwich Mean Time

GND

Ground

GUI

Graphical User Interface

GUIMN

Graphical User Interface Manual

HS

Handset

HW

Hardware

IEC

International Electrotechnical Commission

LCAS

Link Capacity Adjustment Scheme

LCT

Local Craft Terminal

LED

Light Emitting Diode

LWL

Lichtwellenleiter (optical fiber)

MSP

Multiplex Section Protection

NCT

Network Craft Terminal

OSN

Optical Service Node

PDF

Portable Document Format

PE

Protective Earth (Ground)



181 (184)

Abbreviations

PPP

Point to Point Protocol

RAM

Random Access Memory

Rx

Received signal

SCE

Enhanced System Controller

SDI

Serial Debug Interface

SEC

SDH Equipment Clock

SELV

Separate Extra-Low Voltage

SFP

Small Form Factor Pluggable (Module)

SNCP

Sub-Network Connection Protection

SW

Software

T3

Clock input

T4

Clock output

TIF

Telemetry Interface

TNMS

Telecommunication Network Management System

Tx

Transmitted signal

UMN

User Manual

VCDB

Variable Configuration Data Block

WEEE

Waste Electrical and Electronic Equipment



182 (184)

Index

Index

.

. WEEE, 25 High operating temperature warning label, 15

Accumulator handling, 23 Air filter, 16 Initial startup, 77 Installation steps, 28 Installing the chassis, 31 Installing the module cards, 39 Battery handling, 23 bending radius of optical fibers, 19

CE conformity declaration, 26 Checking the device for intactness, 27 Cleaning fluids for optical connectors, 20 Complete cable layout, 73 Connecting cables, 50

Delivery check, 27 Device checking for intactness, 27 Dust filter, 16

E3/DS3 cable, 177 Element Manager Software, 75 EOW cable, 179 ESD components, 18 ESD warning label, 18 Ethernet cable, 174

Laser class, 21 Laser devices, 20 Laser safety shutdown, 21 Laser warning label, 20 LED indications, 159

Management cable, 176 MDI/MDO cable, 178, 179 MIB management, 108 Mounting the chassis, 39

NE configuration and management, 91 Start, 91 Synchronize NE, 100

Optical fiber bending radius, 19 Overvoltage on the power supply input, 17

Front door handling (at the subrack), 14

Grounding bracelet, 18

Handling batteries and accumulators, 23 ESD components, 18 fiber-optic cables and connectors, 19 subrack front door, 14


PC requirements, 75 Personal requirements, 26 Pin assignments, 163 Plug and pull aid with modules, 19 Protection against laser light, 20 Protection against power supply input overvoltage, 17 Protective caps for optical connectors, 20

Replacement components, 24


183 (184)

hit_7035_itmn

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