Page 1 ™ LambdaUnite MultiService Switch (MSS) Release 2 Installation Guide 365-374-059 CC109192401 Issue a January 2002...
Page 2 This material is protected by the copyright laws of the United States and other countries. It may not be reproduced, distributed, or altered in any fashion by any entity (either internal or external to Lucent Technologies), except in accordance with applicable agreements, contracts or licensing, without the express written consent of Lucent Technologies and the business management owner of the material.
Page 3 Release 2 Installation Guide 365-374-059 Issue a January 2002 Lucent Technologies welcomes your comments on this information product. Your opinion is of great value and helps us to improve. Was the information product: applicable In the language of your choice? In the desired media (paper, CD-ROM, etc.)?
Page 5 Release 2 Installation Guide 365-374-059 Issue a January 2002 Lucent Technologies welcomes your comments on this information product. Your opinion is of great value and helps us to improve. Was the information product: applicable In the language of your choice? In the desired media (paper, CD-ROM, etc.)?
Page 7: Table Of Contents
Specific Safety Areas BOOKMARK15::Specific Safety Areas Overview 1-10 BOOKMARK16::Overview Laser Safety 1-11 BOOKMARK17::Laser Safety Optical Circuit Pack Specifications 1-14 BOOKMARK18::Optical Circuit Pack Specifications ..............................................365-374-059 Lucent Technologies C O N T E N T S Issue a, January 2002 i i i...
Page 8 BOOKMARK39::Floor Mounting (ETSI-2) Rack Materials (NEBS-2000) 3-12 BOOKMARK40::Rack Materials (NEBS-2000) Technical Data (NEBS-2000) 3-14 BOOKMARK41::Technical Data (NEBS-2000) Floor Mounting (NEBS-2000) 3-17 BOOKMARK42::Floor Mounting (NEBS-2000) ..............................................C O N T E N T S Lucent Technologies 365-374-059 Issue a, January 2002...
Page 9 PDP Block-Diagram BOOKMARK63::PDP Block-Diagram Alarm Lamp Cable Routing BOOKMARK64::Alarm Lamp Cable Routing Power Wiring (Unite) BOOKMARK65::Power Wiring (Unite) Subrack-Alarm Wiring (Unite) BOOKMARK66::Subrack-Alarm Wiring (Unite) ..............................................365-374-059 Lucent Technologies C O N T E N T S Issue a, January 2002...
Page 10 Installing the WaveStar ® BOOKMARK88::Installing the WaveStar ® WaveStar CIT Login/Logout Procedure ® BOOKMARK89:: WaveStar CIT Login/Logout Procedure NE Software Installation 5-11 BOOKMARK90::NE Software Installation ..............................................C O N T E N T S Lucent Technologies 365-374-059 Issue a, January 2002...
Page 11 Network Test: Line Timing Functionality 6-16 BOOKMARK111::Network Test: Line Timing Functionality ..............................................Installation Troubleshooting BOOKMARK112::7 Installation Troubleshooting Overview BOOKMARK113::Overview Power Failure BOOKMARK114::Power Failure ..............................................365-374-059 Lucent Technologies C O N T E N T S Issue a, January 2002 v i i...
Page 12 Single Mode 9/125 Fiber-Optic Cables BOOKMARK130::Single Mode 9/125 Fiber-Optic Cables Multi-Mode 62.5/125 Fiber-Optic Cables BOOKMARK131::Multi-Mode 62.5/125 Fiber-Optic Cables LC Attenuators B-12 BOOKMARK132::LC Attenuators ™ Specifications for LambdaUnite MSS Optical-Circuit Packs B-14 ™ BOOKMARK133::Specifications for LambdaUnite MSS Optical-Circuit Packs ..............................................Glossary...
Page 13: About This Information Product
This manual is intended for users who wish to install, configure and Intended audience cable a LambdaUnite MultiService Switch (MSS) rack and/or subrack including all accessories. This requires that the installation staff has a basic knowledge of SDH and SONET technology.
Page 14: Conventions Used
Abbreviations used in this document can be found in the “Glossary” unless it can be assumed that the reader is familiar with the abbreviation. Symbols Symbols Listing: Front View Rear View Top View Bottom View ..............................................Lucent Technologies 365-374-059 Issue a, January 2002...
Page 15 Pin Connector Socket Connector Optical-Fiber Connection Coaxial Cable Shielded Twisted-Pair Cable Optical Cable Paddle Board ..............................................365-374-059 Lucent Technologies Issue a, January 2002...
Page 16: Related Documentation
This section briefly describes the documents that are included in the Related documentation LambdaUnite MultiService Switch (MSS) documentation set. • Installation Guide The LambdaUnite MSS Installation Guide is a step-by-step guide to system installation and setup. It also includes information needed for pre-installation site planning and post-installation acceptance testing. •...
Page 17 The Navis Optical EMS Provisioning Guide (Application LambdaUnite MSS) gives instructions on how to perform system provisioning, operations, and administrative tasks by use of Navis Optical EMS. The following table lists the documents included in the LambdaUnite MSS documentation set. Document Number Title...
Page 18: How To Comment
Installation Guide About this information product Document Number Title 109088641 LambdaUnite MSS Installation Guide, (365-374-058) DIN A4 109192401 LambdaUnite MSS Installation Guide, (365-374-059) US Letter 109088658 LambdaUnite MSS Operations System Engineering Guide (TL1 Reference Manual), (365-374-060) DIN A4 109192419 LambdaUnite MSS Operations System...
Page 19 Please fill out the form and fax it to the number provided on the form. If the customer comment form is missing, send or fax comments about this document to: Lucent Technologies Network Systems GmbH Lucent Learning ONG Thurn-und-Taxis-Str. 10 90411 Nuernberg, Germany Fax: +49 911 526 3545 ..............................................
Page 21: Safety
The valid version of this document must always be kept close to the equipment. The LambdaUnite MSS equipment has been developed in line with Potential sources of danger the present state-of-the-art and fulfils the current national and international safety requirements.
Page 22 Basic Safety Aspects Specific Safety Areas 1-10 Laser Safety 1-11 Optical Circuit Pack Specifications 1-14 Laser Product Classification 1-15 Electrostatic Discharge 1-18 Safety Requirements in Specific Deployment 1-20 Phases ..............................................1 - 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 23: General Notes On Safety
General Notes on Safety Overview ..............................................This section provides general information on the structure of safety Purpose instructions and summarizes general safety requirements. Contents Structure of Safety Instructions Basic Safety Aspects ..............................................365-374-059 Lucent Technologies 1 - 3 Issue a, January 2002...
Page 24: Structure Of Safety Instructions
Serious injury is definite or likely. WARNING Serious injury is possible. CAUTION Minor injury is definite, likely or possible, or material damage to the product or in the product environment is definite or likely..............................................1 - 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 25 Hazard of laser radiation Magnetic hazard Electromagnetic radiation Components sensitive to electrostatic discharge (ESD) Radioactivity Hazard caused by batteries Hot surface Heavy load Unhealthy, irritating substance Hazard of falling ..............................................365-374-059 Lucent Technologies 1 - 5 Issue a, January 2002...
Page 26: Basic Safety Aspects
Any conversions or changes to the system or parts of the system (including the software) must be carried out by qualified Lucent Technologies personnel or by expert personnel authorised by Lucent Technologies. All changes carried out by other persons lead to a complete exemption from liability.
Page 27 Disconnect up to four (4) power supply connections when removing power from the system. • Installation must include an independent frame ground drop to the building ground. Refer to the LambdaUnite MSS Installation Guide. • For information on proper mounting instructions, consult the LambdaUnite MSS Installation Guide.
Page 28 There shall be no switching or disconnection devices in the grounded circuit conductor between the DC source and the point of connection of the grounding electrode conductor..............................................1 - 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 29 General Notes on Safety Safety Basic Safety Aspects CAUTION LambdaUnite MSS systems contain optical circuit packs that can emit laser radiation assessed as IEC Hazard Level 3A. Therefore, LambdaUnite MSS systems may only be installed in restricted access locations! Restricted access...
Page 30: Specific Safety Areas
The aspects of “laser safety” and “handling of components sensitive to Purpose electrostatic discharge (ESD)” are of vital importance for the ™ LambdaUnite MSS equipment. Therefore, the key safety instructions for these subjects are summarised in the following. Contents Laser Safety...
Page 31: Laser Safety
IEC 60825 and DIN/EN 60825 respectively are met. Please also refer to “Laser Product Classification” (1-15). These laser warning labels (not to scale) are affixed on the LambdaUnite MSS equipment. They refer to the system as a whole in normal operation..............................................
Page 32 Class 1 limits significantly increases the risk of eye damage. • Never look into the end of an exposed fiber or an open connector as long as the optical source is still switched on..............................................1 - 1 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 33 In the event of doubt, check that the optical source is switched off by measuring with an optical power meter. CAUTION Use of controls, adjustments and procedures other than those specified herein may result in hazardous laser radiation exposure..............................................365-374-059 Lucent Technologies 1 - 1 3 Issue a, January 2002...
Page 34: Optical Circuit Pack Specifications
Specific Safety Areas Safety Optical Circuit Pack Specifications ..............................................™ The following table contains the specifications of the LambdaUnite Specifications MSS optical circuit packs. Circuit pack Wavelength Fiber type Maximum Laser class [nm] (core/cladding output power (IEC / FDA) diameter [µm]) [mW / dBm] 2.5-Gbit/s optical circuit packs...
Page 35: Laser Product Classification
Specific Safety Areas Safety Laser Product Classification ..............................................™ The LambdaUnite MSS product complies with the applicable IEC Standards compliance standards and the Food and Drug Administration’s Center for Devices and Radiological Health (FDA/CDRH) regulations. Laser products are classified in accordance with the FDA/CDRH - 21 FDA/CDRH regulations CFR 1010 and 1040.
Page 36 10 mW +10 dBm 1310 nm 24 mW +13.8 dBm 1550 nm 50 mW +17 dBm 1310 nm 500 mW +27 dBm 1550 nm 500 mW +27 dBm ..............................................1 - 1 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 37 These are covered by a front panel to ensure protection against emissions from any energized, unterminated transmitter. The circuit packs themselves, however, may be IEC Class 1 or 3A or FDA/CDRH Class I or IIIb..............................................365-374-059 Lucent Technologies 1 - 1 7 Issue a, January 2002...
Page 38: Electrostatic Discharge
Use conducting floor and bench mats which are conductively connected to the rack ESP bonding point. • Conductively connect all test equipment and trolleys to the rack ESP bonding point..............................................1 - 1 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 39 Circuit packs and components must be packed and unpacked only at workplaces suitably protected against build-up of charge. • Whenever possible, maintain the relative humidity of air above 20%..............................................365-374-059 Lucent Technologies 1 - 1 9 Issue a, January 2002...
Page 40: Safety Requirements In Specific Deployment Phases
To enable rapid orientation, safety instructions are given on the Purpose following pages, which are assigned to various stages in the life cycle ™ of the LambdaUnite MSS equipment (“deployment phases”). The instructions are arranged according to the following deployment Deployment phases phases: •...
Page 41: Transportation
This can cause malfunctioning of the system components. Shocks can cause damage. Protect the system components against dampness, soiling and shocks. Use the original packaging if possible. Climatic conditions ..............................................365-374-059 Lucent Technologies 1 - 2 1 Issue a, January 2002...
Page 42 Extreme environmental conditions can damage system components and cause malfunctioning. Ensure that the climatic limits for transportation and ™ storage of LambdaUnite MSS equipment are complied with during transportation; please refer to “Climatic limits for transportation and storage” (1-22). These are the climatic limits for transportation and storage of...
Page 43 Absolute humidity [g/m ]. The dashed curves specify a constant absolute humidity of 0.5 g/m or 29 g/m , respectively. Permissible range for transportation and storage of LambdaUnite MSS systems. Exceptional conditions, permissible for a short duration only..............................................365-374-059...
Page 44: Storage
Electronic components can be destroyed by electrostatic discharge. Circuit packs must therefore always be kept in antistatic covers. Use the original packaging if possible. Always observe the ESD instructions (cf. “Electrostatic Discharge” (1-18)). Packaging ..............................................1 - 2 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 45 Extreme environmental conditions can damage system components and cause malfunctioning. Ensure that the climatic limits for transportation and ™ storage of LambdaUnite MSS equipment are complied with during storage; please refer to “Climatic limits for transportation and storage” (1-22)..............................................
Page 46: Installation
Ensure that the laser warning labels are not removed or concealed and always clearly legible. Electrostatic discharge (ESD) ..............................................1 - 2 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 47 • the individual fans are not obstructed, • the minimum separation is maintained between two shelves in a rack (follow the installation instructions ™ given in the LambdaUnite MSS Installation Guide). Detector diodes ..............................................365-374-059 Lucent Technologies 1 - 2 7...
Page 48 Use an optical attenuator pad of approx. 10 to 20 dB when establishing connections over short distances for test purposes..............................................1 - 2 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 49: Taking Into Operation
Invisible laser radiation DANGER Injury to eyes caused by invisible laser radiation. ™ LambdaUnite MSS systems operate with invisible laser radiation. Laser radiation can cause considerable injuries to the eyes. Never look into the end of an exposed fiber or into an open optical connector as long as the optical source is switched on.
Page 50 CAUTION Destruction of components due to a supply voltage of incorrect polarity or too high. LambdaUnite MSS equipment operates at a nominal voltage of -48 V or -60 V. The permissible tolerance range is -40.5 V to -72 V. Ensure that the supply voltage has the correct range and polarity before connecting the voltage.
Page 51: Operation And Maintenance
Invisible laser radiation DANGER Injury to eyes caused by invisible laser radiation. ™ LambdaUnite MSS systems operate with invisible laser radiation. Laser radiation can cause considerable injuries to the eyes. Never look into the end of an exposed fiber or into an open optical connector as long as the optical source is switched on.
Page 52 Electronic components can be destroyed by electrostatic discharge. Hold circuit packs only at the edges or on the insertion and removal facilities. Always observe the ESD instructions (cf. “Electrostatic Discharge” (1-18)). Overheating ..............................................1 - 3 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 53 • the minimum separation is maintained between two shelves in a rack (follow the installation instructions given in the LambdaUnite MSS Installation Guide). Detector diodes CAUTION Destruction of the detector diodes caused by too high an input power.
Page 54 Damage to system components under extreme environmental conditions. Extreme environmental conditions can damage system components and cause malfunctioning. Ensure that the “Climatic limits for the operation of LambdaUnite MSS equipment” (1-35) are complied with during operation..............................................1 - 3 4 Lucent Technologies...
Page 55 Safety Requirements in Specific Safety Deployment Phases Operation and Maintenance These are the climatic limits for the operation of LambdaUnite MSS Climatic limits for the operation of LambdaUnite systems: MSS equipment Temperature range +5 °C (+41 °F) to +40 °C (+104 °F) (exceptional: +50 °C (+122 °F))
Page 56: Taking Out Of Operation
Invisible laser radiation DANGER Injury to eyes caused by invisible laser radiation. ™ LambdaUnite MSS systems operate with invisible laser radiation. Laser radiation can cause considerable injuries to the eyes. Never look into the end of an exposed fiber or into an open optical connector as long as the optical source is switched on.
Page 57 Hold circuit packs only at the edges or on the insertion and removal facilities. Always observe the ESD instructions (cf. “Electrostatic Discharge” (1-18)). The equipment in the LambdaUnite MSS system series must be Disposal disposed of at the end of its lifetime. Please contact us in this case and we will arrange for proper and environment-friendly disposal of your equipment (most parts of the system can be recycled).
Page 59 Overall Installation and Test Planning Overview ..............................................The purpose of this chapter is to provide the information needed to Purpose ™ plan the installation of a LambdaUnite MultiService Switch (MSS) system. Contents Important Facts to Know Required Tools and Test Equipment Customer Requirements...
Page 60: Overall Installation And Test Planning
= >1200 mm [47.244”] • b = >1800 mm [70.866”] • c = >3400 mm [133.858”] • d = nx600 mm [23,622”] (n = number of cabinets). Figure 2-1 Top view Legend: ..............................................2 - 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 61 Important Facts to Know Overall Installation and Test Planning Inch 23,622” 1348 53,071” 1548 60.945” Figure 2-2 Side View Legend: Inch 11,811” 23,622” 29,449” 37,323” 1345 53,071” 1548 60.945” 2145 84,448” ..............................................365-374-059 Lucent Technologies 2 - 3 Issue a, January 2002...
Page 62 The subracks have a maximum weight of 41 kg/90.41 lbs (including Subrack weight user panel, fan, PIs, CI-CTL, TIs and 12x blanks at the rear). The LambdaUnite MSS system has a maximum power consumption Power consumption of 2.200 W. The system was developed in compliance with the ETSI Mesh Ground EMC/ESD information requirements.
Page 63 Use conducting floor and bench mats which are conductively connected to the rack ESP bonding point. • Conductively connect all test equipment and trolleys to the rack ESP bonding point..............................................365-374-059 Lucent Technologies 2 - 5 Issue a, January 2002...
Page 64 Circuit packs and components must be packed and unpacked only at workplaces suitably protected against build-up of charge. • Whenever possible, maintain the relative humidity of air above 20%..............................................2 - 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 65: Required Tools And Test Equipment
(www.acterna.com) on applications ANRITSU MP 1570A (www.anritsu.com) HP 37718A (www.hp.com) Optical power meter ACTERNA OLP-15 Optical power measurement Optical spectrum ACTERNA OLS-155 Optical wavelength analyzer and spectral with test ..............................................365-374-059 Lucent Technologies 2 - 7 Issue a, January 2002...
Page 66 Windows (version 3.01 or later) • Removable hard-disk drive (optional; required only for system backup). The performance of the user interface can be enhanced by using a higher performance personal computer..............................................2 - 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 67: Customer Requirements
EC73.23/EEC - Low-Voltage Directive (LVD). The UR mark indicates that the products conform to the relevant American Directives. The CSA mark indicates that the products conform to the relevant American and Canadian Directives..............................................365-374-059 Lucent Technologies 2 - 9 Issue a, January 2002...
Page 68: Tightening Torque
This standard specifies the conditions to be met when applying HF Electrical function live parts or ESD contacts of a PCB of screw joints with an electrical function. Stainless-steel cheese screw joints on Torque (Nm) PCBs M2.5 ..............................................2 - 1 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 69: Equipment Installation
Equipment Installation Overview ..............................................The purpose of this chapter is to provide the information needed to Purpose ™ install all mechanical parts of a LambdaUnite MultiService Switch (MSS) system. The following rack types are available: Rack types • ETSI-2 (International Market) •...
Page 70 Side-Cover Plates 3-34 Rack Adapter-Kit 3-36 Subrack Layout 3-38 Subrack Accessories 3-46 Technical Data 3-48 Mounting the Subrack 3-50 Installation of Subrack 3-52 Circuit Packs 3-55 Rack Doors 3-64 ..............................................3 - 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 71: Rack Materials (Etsi-2)
Adjustable Feet — CC407890623 Assembly, Fiber U-Bracket — DC1001236 (front-top) Fiber Guide — SC1007036 Fiber Guide — SC1007037 Cable-rod, short — DC1002903 Cable rod, long — DC1002904 Clip, Self-Adhesive — CC402185409 ..............................................365-374-059 Lucent Technologies 3 - 3 Issue a, January 2002...
Page 72 2x Side Plate — DC1000577 (left and right), 2200 mm [7,218 ft] The following grounding material can be ordered separately: Grounding material (optional) Quantity Description — Code Remarks Ground Wire (800 mm [2,625 ft]) — CC848828158 ..............................................3 - 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 73 Rack Materials (ETSI-2) Equipment Installation Quantity Description — Code Remarks Bolt, M5x16 green Washer, M5, Tooth-Lock — CC901361949 Hex. Nut M5 ..............................................365-374-059 Lucent Technologies 3 - 5 Issue a, January 2002...
Page 74: Technical Data (Etsi-2)
120 kg [264.6 lbs] (including PDP, cables and doors) 80 kg [176.4 lbs] (without doors) Dimensions 2200 mm [86.614”] x 600 mm [23.622”] x 600 mm [23.622”] (H x W x D) ..............................................3 - 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 75 Technical Data (ETSI-2) Equipment Installation The ETSI-2 rack is designed to accomodate top and bottom cable Layout access. Figure 3-1 Rack Layout Legend: ETSI-2 rack with/without doors — CC848727095/CC848775649 ..............................................365-374-059 Lucent Technologies 3 - 7 Issue a, January 2002...
Page 76 Eye Bolt — DC1001689 (optional) Subrack Guide — DC1002905 Assembly, Fiber U-Bracket — DC1001236 Cable rod short/long — DC1002903/DC1002904 Assy, Sideplates — CC848780177 Adjustable Feet — CC407890623 Anti Recirculation Plate — SC1006022 ..............................................3 - 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 77: Floor Mounting (Etsi-2)
Hex. Bolt, STL ST-70, M12x20 — CC847191574 Adjustable Feet — CC407890623 Important! The front side is identified by the fiber U-brackets (see item 11 in Figure 3-1, “Rack Layout” (3-7))..............................................365-374-059 Lucent Technologies 3 - 9 Issue a, January 2002...
Page 78 Complete the following steps to mount an ETSI-2 rack on the floor: ................................Drill the necessary holes (14 mm [0,551”] in diameter) in the floor (*1)..............................................3 - 1 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 79 Important! 25 mm [1”] should be between the floor and the rack before levelling the rack. This initial adjustment of the feets ensures that it is still possible to level the next rack. T E P S ................................................................................................365-374-059 Lucent Technologies 3 - 1 1 Issue a, January 2002...
Page 80: Rack Materials (Nebs-2000)
Fiber Guide — SC1007036 Fiber Guide — SC1007037 Cable-rod, short — DC1002903 Cable rod, long — DC1002904 Clip, Self-Adhesive — CC402185409 Strain Relief Plate — SC1006001 Anti Recirculation Plate — SC1006011 ..............................................3 - 1 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 81 The following grounding material can be ordered separately: Grounding material (optional) Quantity Description — Code Remarks Ground Wire (800 mm [2,625 ft]) — CC848828158 Bolt, M5x16 green Washer, M5, Tooth-Lock — CC901361949 Hex. Nut M5 ..............................................365-374-059 Lucent Technologies 3 - 1 3 Issue a, January 2002...
Page 82: Technical Data (Nebs-2000)
116 kg [255.8 lbs] (includes PDP, cables and doors) 79kg [174.2 lbs] (without doors) Dimensions (H x W x D) 2125mm [83.661”] x 600mm [23.622”] x 600mm [23.622”] ..............................................3 - 1 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 83 This rack is designed to accomodate top- and bottom cable access. Layout Figure 3-3 Rack Layout Legend: Rack NEBS-2000 (incl. doors) – 848727103 / Rack NEBS-2000 (without doors) – 848775631 ..............................................365-374-059 Lucent Technologies 3 - 1 5 Issue a, January 2002...
Page 84 Assembly, Fiber U-Bracket — DC1001236 Cable-rod, short — DC1002903 or Cable rod, long — DC1002904 Assy, Sideplate — CC848780185 Strain Relief Plate — SC1006001 Anti Recirculation Plate — SC1006011 ..............................................3 - 1 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 85: Floor Mounting (Nebs-2000)
*1 or *2 Hex. Bolt, STL ST-70, M12x20 — CC847191574 Important! The front side is identified by the fiber U-brackets (see item 11 in Figure 3-3, “Rack Layout” (3-15))..............................................365-374-059 Lucent Technologies 3 - 1 7 Issue a, January 2002...
Page 86 Put the Expanding bolt — CC407758200 (Item 2) in place and mount the bottom plate of the rack on the surface. T E P S ................................Layout Figure 3-5 Floor-Mounting ..............................................3 - 1 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 87: Technical Data For The Pdp
3 power feeders (A, B) Ground 3 x ground-connection points Dimensions (H x W x D) 70 mm [2.756”] x 482.6 mm [19”] x 60 mm [2.362”] Figure 3-6 Layout ..............................................365-374-059 Lucent Technologies 3 - 1 9 Issue a, January 2002...
Page 88: Mounting The Pdp / Strain Relief
— CC901331421 (item 3) and Spacer — CC848243325 (item 4) on the top of the rack frame as shown in the figure below. T E P S ..............................................................................3 - 2 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 89 Distribution Panel. Important! Leave some slack in the cable................................Screw-up the swivel-head by hand to secure the power cables in their position. T E P S ..............................................................................365-374-059 Lucent Technologies 3 - 2 1 Issue a, January 2002...
Page 90 Mounting the PDP / Strain Relief Equipment Installation Results Figure 3-7 Mounting the PDP and Strain Relief ..............................................3 - 2 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 91: Mounting Of Eye Bolts
Mount the Nut — CC901344184 (item 2) at the other end of the eye-bolt to secure it to the rackframe. T E P S ................................Result Figure 3-8 Mounting of the Eye Bolt ..............................................365-374-059 Lucent Technologies 3 - 2 3 Issue a, January 2002...
Page 92: Grounding (Nebs-2000)
Ground Wire (800 mm [2,625 ft]) — CC848828158 • Ground Wire (2000 mm [6,562 ft]) — CC848828174 • Ground Wire (3000 mm [9,843 ft]) — CC848828182 T E P S ..............................................................................3 - 2 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 93 Grounding (NEBS-2000) Equipment Installation Result Figure 3-9 Office Grounding and Shelf Grounding ..............................................365-374-059 Lucent Technologies 3 - 2 5 Issue a, January 2002...
Page 94: Door Support, Top Assy With Indicator Strip
PDP to the printing wiring board (item 5) that is mounted on the door support top assembly. T E P S ................................Layout Figure 3-10 Door Support Top Assy with Indicator Strip Legend: Spare set Assy, CM-Alarm — RALUCM1_1 ..............................................3 - 2 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 95: Cable-Rods
One position below the highest hole *2; (top and bottom access) • One position below the first hole *3; (top and bottom access) T E P S ..............................................................................365-374-059 Lucent Technologies 3 - 2 7 Issue a, January 2002...
Page 96 Cable-Rods Equipment Installation Results Figure 3-11 Mounting of Cable Rods ..............................................3 - 2 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 97: Fiber Guides
Mount the Fiber Guide — SC1007036 (item 2) at the right-top front of the rack frame................................Use Velcor — DC1005002 to secure the cables on the position of both brackets. T E P S ..............................................................................365-374-059 Lucent Technologies 3 - 2 9 Issue a, January 2002...
Page 98 Fiber Guides Equipment Installation Results Figure 3-12 Assemble Fiber Guides ..............................................3 - 3 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 99: Anti Recirculation Plate
SC1006022 (item 1) to the Fiber Guide — SC1007037 (item 2) and Fiber Guide — SC1007036 (item 3) at the top front of the rack frame. T E P S ..............................................................................365-374-059 Lucent Technologies 3 - 3 1 Issue a, January 2002...
Page 100 Anti Recirculation Plate Equipment Installation Results Figure 3-13 Mounting of Anti Recirculation Plate ..............................................3 - 3 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 101: Door Support Bottom Assy
M6x16 — CC901331421 (Item 2) and Spacer — 848243325 (Item 3) on the screw between the door support and the rack frame. T E P S ................................Layout Figure 3-14 Door Support Bottom Assy ..............................................365-374-059 Lucent Technologies 3 - 3 3 Issue a, January 2002...
Page 102: Side-Cover Plates
ETSI-2 Rack Attach the Assy, Sideplates — CC848780177 (Item 1) and fasten them inplace using screws (Item 2). T E P S ................................Layout Figure 3-15 Side-Cover Plates, Assembly ..............................................3 - 3 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 103 Assy, Sideplate — 848780785 for NEBS-2000 consists of: Side Plate — DC1001939 (right and left). Assy, Sideplates — CC848780177 for ETSI-2 consists of: Side Plate — DC1000577 (right and left)..............................................365-374-059 Lucent Technologies 3 - 3 5 Issue a, January 2002...
Page 104: Rack Adapter-Kit
CC847174950 (Item 3) at each nut retainer-position................................Tighten the CH SCR, STL ST-70, M4x25 — CC847117900 (Item 2) to tie the rack frame together. T E P S ..............................................................................3 - 3 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 105 Rack Adapter-Kit Equipment Installation Layout Figure 3-16 Racks Side by Side ..............................................365-374-059 Lucent Technologies 3 - 3 7 Issue a, January 2002...
Page 106: Subrack Layout
Switch Pack 320G & Timing — 109000299 Blank XC320 (6N) — 848782876 User Panel — 848730636 Controller — 10900158 OP2G5 or OP10G or GE1 Circuit Packs (see “Specifications for ™ LambdaUnite MSS Optical-Circuit Packs” (B-14)) ..............................................3 - 3 8 Lucent Technologies 365-374-059...
Page 107 #41, 43, 52, 54 Legend: Fan Unit — 848730644 Timing Interface, E1/DS1 — 109001453 Controller Interface — 109001461 Filter, Washable — 408643005 Power Interface — 109001446 or Power Interface-100 — 109187211 ..............................................365-374-059 Lucent Technologies 3 - 3 9 Issue a, January 2002...
Page 108 Paddle Board, Blank — 848780193 (two required next to each Power Interface — 109001446 ) 2 slots wide blank (one required next to each Power Interface-100 — 109187211 ) CI-CTL Figure 3-19 CI-CTL Layout ..............................................3 - 4 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 109 • Paddle Board, Blank — 848840104 (three slots wide), which is used next to the Power Interface-100 — 109187211 Two Slots wide Figure 3-20 Blank Rear Faceplate Legend: ..............................................365-374-059 Lucent Technologies 3 - 4 1 Issue a, January 2002...
Page 110 Figure 3-21 Blank Rear Faceplate Legend: Paddle Board, Blank — 848840104 The subrack has blank face plates in two heights: Front Blanks • 3N types • 6N type ..............................................3 - 4 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 111 Subrack Layout Equipment Installation 3N Types Figure 3-22 Blank Front Faceplate (3N) Legend: Front Blank (3N) — 848782868 ..............................................365-374-059 Lucent Technologies 3 - 4 3 Issue a, January 2002...
Page 112 Figure 3-23 Blank Front Faceplate (3N) with empty holes Legend: Front Blank (3N) — 848840112 Hang the cables temporarily in the empty holes on the Front Blank (3N) — 848840112 , when the cables are pre-arranged..............................................3 - 4 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 113 Subrack Layout Equipment Installation 6N Type Figure 3-24 Blank Front Faceplate (6N) Legend: Blank XC320 (6N) — 848782876 ..............................................365-374-059 Lucent Technologies 3 - 4 5 Issue a, January 2002...
Page 114: Subrack Accessories
Mounted on LambdaUnite MSS Dur-Subrack Core Assembly — Subrack Kit 848811865 Quantity Description — Code LambdaUnite MSS Dual Unit Row Subrack — 848727111 User Panel — 848730636 Fan Unit — 848730644 Power Interface — 109001446 Controller Interface — 109001461 Timing Interface, E1/DS1 — 109001453 Paddle Board, Blank —...
Page 115 CC848828174 Subrack Ground Wire (3000 mm [9,843 ft]) — Lower CC848828182 Subrack Bolt M6x16 green colored Bolt M5x16 Washer, M5, Tooth-Lock — CC901361949 Washer, M6, Tooth-Lock — 901361956 ..............................................365-374-059 Lucent Technologies 3 - 4 7 Issue a, January 2002...
Page 116: Technical Data
Leave a space of ≥ 100 mm [3,94”] above the subrack, when a single subrack is mounted into a rack frame. • ™ The subrack is designed for mounting in the LambdaUnite Rack Frames so that the temperature can be controlled and the cables laid properly..............................................
Page 117 Figure 3-25 Subrack Mounting Dimensions Legend: Required space for air outlet (≥ 100 mm [3,94”]) when a single subrack is mounted into a rack frame. Bend radius of fiber and external cabling..............................................365-374-059 Lucent Technologies 3 - 4 9 Issue a, January 2002...
Page 118: Mounting The Subrack
“TI-DS1 Station Clock Output/Input Interface 100/110 Ω” (4-52) “TI-E1 Station-Clock Output/Input Interface, 120 Ω” (4-56) “TI-E1 Station-Clock Output/Input Interface, 75 Ω” (4-60) • “Rack-Top Alarm-Interface Cable, CI-CTL – PDP” (4-42) ..............................................3 - 5 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 119 Mounting the Subrack Equipment Installation ................................Connect the “Power Cables, PI – PDP” (4-30) at the rear of the subrack. according to the configurations. T E P S ................................................................................................365-374-059 Lucent Technologies 3 - 5 1 Issue a, January 2002...
Page 120: Installation Of Subrack
Mount the Fiber Clip — DC1000680 (Item 5) on the front mounting-brackets................................When a second subrack is mounted in the configuration of one ™ LambdaUnite rack frame, temporarily remove the Rubber Profile — DC1003971 (Item 6) at the front-top of the bottom subrack and at both front-top sides................................
Page 121 Mount the Fiber-Routing Guides (corner) — DC1001518 (Item 3) at each corner of the subrack by clicking them into the holes at the top and bottom sides of the subrack. T E P S ..............................................................................365-374-059 Lucent Technologies 3 - 5 3 Issue a, January 2002...
Page 122 Installation of Subrack Equipment Installation Figure 3-26 Mounting Subrack ..............................................3 - 5 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 123: Circuit Packs
..............................................CAUTION ESD-sensitive components, take precautionary measures The minimum complement of circuit packs required for an operational Minimum required circuit ™ packs LambdaUnite MSS shelf is • Working XC320 switch circuit pack • CTL circuit pack • Any interface circuit packs in the universal slots A shelf equipped with these circuit packs would be fully functional.
Page 124 In the case of optical port protection (1+1 Linear APS / 1+1 MSP) it is recommended to place the working port unit and the protection port unit side by side for ease of maintenance..............................................3 - 5 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 125 Important! Operate both latches simultaneously during insertion and Insertion of Circuit Pack extraction of a circuit pack................................Insert the circuit packs as shown in the figure below. Figure 3-28 Insertion of a Circuit Pack ..............................................365-374-059 Lucent Technologies 3 - 5 7 Issue a, January 2002...
Page 126 Circuit Packs Equipment Installation T E P S ..............................................................................3 - 5 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 127 In each empty position to close the EMC boundary. The complete the first row and the first 2 slots next to the PI. Blank (6N) In each empty position of XC320G slot..............................................365-374-059 Lucent Technologies 3 - 5 9 Issue a, January 2002...
Page 128 Circuit Packs Equipment Installation Results Figure 3-29 Rear View of Subrack ..............................................3 - 6 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 129 3. Pull the locking mechanism upwards and fix it in place with the screw. TI/PI/Blank Lock the interface paddle boards by tightening the screws. T E P S ..............................................................................365-374-059 Lucent Technologies 3 - 6 1 Issue a, January 2002...
Page 130 Circuit Packs Equipment Installation Results Figure 3-30 Insertion of Paddle Board for TI/PI/blank ..............................................3 - 6 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 131 Circuit Packs Equipment Installation Figure 3-31 Insertion of a Paddle Board for CI-CTL ..............................................365-374-059 Lucent Technologies 3 - 6 3 Issue a, January 2002...
Page 132: Rack Doors
Pull down the locking mechanism at the top of the door................................Lock the door by releasing the locking mechanism of the upper hinge-pin in the hole of the door support, top assembly. T E P S ..............................................................................3 - 6 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 133 Assy, Door, Left — DC1000585 and Assy, — CC848795001 Door, Right — DC1000586 NEBS–2000; Assy, Assy, Door, Left — DC1002598 and Assy, Doors — Door, Right — DC1002599 CC848795019 ..............................................365-374-059 Lucent Technologies 3 - 6 5 Issue a, January 2002...
Page 134 Put a finger in the hole below the door latch to lift the latch (see figure below)................................Pull the latch to open the door. T E P S ................................Result Figure 3-33 Opening the Rack Door ..............................................3 - 6 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 135: Cable Installation
Avoid direct exposure to the beam. Do not view this beam with optical instruments. WARNING Components damage ESD Sensitive components, take precautionary measures (see Chapter 1, Safety). Contents PDP Block-Diagram ..............................................365-374-059 Lucent Technologies 4 - 1 Issue a, January 2002...
Page 136: Overview
4-49 TI-DS1 Station Clock Output/Input Interface 4-52 100/110 Ω TI-E1 Station-Clock Output/Input Interface, 120 Ω 4-56 TI-E1 Station-Clock Output/Input Interface, 75 Ω 4-60 Optical Interfaces 4-64 Gigabit-Ethernet Interfaces 4-68 ..............................................4 - 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 137: Pdp Block-Diagram
NEBS-2000 rack only !) (rack grounding point) (in the case of an ETSI-2 rack only !) Office (external) Alarms The following table explains the use of the cables. List of Cable Numbers ..............................................365-374-059 Lucent Technologies 4 - 3 Issue a, January 2002...
Page 138 Subrack Alarm Cable Unite Cable Assy, PDP - LED, Alarm — rack- 10, 11 CC848811543/DC1002831 (1300mm frames, [4,265 ft]), Front/Rear External-Alarm Critical (cus- External-Alarm Major tomer depen- External-Alarm Minor dent) ..............................................4 - 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 139: Alarm Lamp Cable Routing
Assy, Alarm Cable PDP/LED — DC1002831 (Item 3). T E P S ................................Layout Figure 4-2 Routing the alarm-lamp cable ..............................................365-374-059 Lucent Technologies 4 - 5 Issue a, January 2002...
Page 140: Power Wiring (Unite)
The cables (item 1) are routed via the right-rear side of the rack frame to the top of the rack frame. T E P S ................................Result Figure 4-3 Customer cables routing top/Bottom Access ..............................................4 - 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 141 2) of the lower DUR-subrack is routed through the center styles of the frame. The B side to the left “center style” and the A side to the right “center style”..............................................365-374-059 Lucent Technologies 4 - 7 Issue a, January 2002...
Page 142 Power Wiring (Unite) Cable Installation Result Figure 4-4 Front/Top View of PDP (rack rearview) ..............................................4 - 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 143: Subrack-Alarm Wiring (Unite)
DC1001829 (item 2) of the lower DUR subrack at the bottom of the frame is routed through the right center-style of the frame. Result Figure 4-5 Front/Top View of PDP ..............................................365-374-059 Lucent Technologies 4 - 9 Issue a, January 2002...
Page 144: Ground, Power And Alarms
Figure 4-6 PDP Power-Input (in the case of an ETSI-2 rack only !) DCrtn (rack grounding point) (in the case of an NEBS-2000 rack only !) Legend: ..............................................4 - 1 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 145 4, 5 Subrack # power cables (combined: Yellow/Green, Red, Blue) Ground Color Yellow/Green DCrtn Color –DC Color Blue ™ For LambdaUnite Item Description Cable Assy, PI (Lower subrack) - PDP — CC848811519/DC1002827 ..............................................365-374-059 Lucent Technologies 4 - 1 1...
Page 146 1st Subrack, Alarms (X1) 2nd Subrack, Alarms (X2) Figure 4-9 PDP Subrack-Alarm Connector Legend: Ground Major Rack-Top Return Ground Critical Rack-Top Output Minor Rack-Top Output Critical Rack-Top Return ..............................................4 - 1 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 147 Ground, Power and Alarms Cable Installation Minor Rack-Top Return Ground Major Rack-Top Output For LambdaUnite MSS Item Description Cable Assy, CI-CTL (Upper subrack) - PDP — CC848811527/DC1002828 Cable Assy, CI-CTL (Lower subrack) - PDP — CC848811535/DC1001829 Rack Alarm Lamps Figure 4-10 PDP Rack-Alarm Lamps...
Page 148 Ground, Power and Alarms Cable Installation Legend: 1, 4 Critical Alarm 2, 5 Major Alarm 3, 6 Minor Alarm For LambdaUnite MSS Item Description 10, 11 Assy, Alarm Cable PDP/LED — DC1002831 External Alarms Item Description Remark 12, 13, 14...
Page 149 Cable Installation External Critical Alarm External Major Alarm External Minor Alarm Figure 4-13 PDP External-Alarm Connector Legend: 1, 5 Critical Alarm 2, 6 Major Alarm 3, 7 Minor Alarm ..............................................365-374-059 Lucent Technologies 4 - 1 5 Issue a, January 2002...
Page 150: Block Diagram For Cables
Cable Installation Block Diagram for Cables ..............................................The connection points of this product are marked by cable numbers. Layout Part 1 ..............................................4 - 1 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 151 These prefabricated cables are to be connected to the PDP (see the configuration – and related documentation. These prefabricated cables are to be connected. This prefabricated cable is installed in the subrack..............................................365-374-059 Lucent Technologies 4 - 1 7 Issue a, January 2002...
Page 152: Fiber Management In The Rack Frame (Unite)
Cable Installation Fiber Management in the Rack Frame (Unite) ..............................................Top Access Figure 4-14 Top Access for Fiber Management (Side View Rack) ..............................................4 - 1 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 153 The bottom subrack cables are using the fourth entry of the fiber guide (c) to route down first and then upwards to: • The upper row via the first entry (d) • The bottom row directly ..............................................365-374-059 Lucent Technologies 4 - 1 9 Issue a, January 2002...
Page 154 (first entry) to the end of the bracket (fourth entry). The cables are tight together with velcro at the entries (*2) of the rack frame and subrack ..............................................4 - 2 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 155 The upper row down via the second entry (b) and up via the first entry (c) • The bottom row down via the second entry (b) and directly to the row..............................................365-374-059 Lucent Technologies 4 - 2 1 Issue a, January 2002...
Page 156: Fiber Management Subrack
Velcor — DC1005002 (item 3) before they enter the subrack. Cables are lead to the slot position via the Fiber-Routing Guides (RT/LB) — DC1001516 (item 1) or the Fiber-Routing Guides ..............................................4 - 2 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 157 (LT/RB) — DC1001517 (item 4) which are mounted on the top/bottom of the subrack. Figure 4-16 Fiber Management in the Subrack (Top Access) Legend: Cable routed to the lower subrack ..............................................365-374-059 Lucent Technologies 4 - 2 3 Issue a, January 2002...
Page 158 Fiber Management Subrack Cable Installation Figure 4-17 Fiber Management in the Subrack (Bottom Access) Legend: Cable routed to the upper subrack ..............................................4 - 2 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 159: Electrical Cable Management
Unite rack-frame to the subrack via the guides that are mounted on the rear of the subrack. Important! When dressing the cables attach them to the guides by using tie wraps (item 1). See the following figures..............................................365-374-059 Lucent Technologies 4 - 2 5 Issue a, January 2002...
Page 160 Electrical Cable Management Cable Installation Top Access Figure 4-18 Electrical-Cable Management (Top Access) ..............................................4 - 2 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 161 Electrical Cable Management Cable Installation Bottom Access Figure 4-19 Electrical-Cable Management (Bottom Access) ..............................................365-374-059 Lucent Technologies 4 - 2 7 Issue a, January 2002...
Page 162: Esd And Ground Connections
NEBS-2000 Ground Wire (3000 mm [9,843 ft]) — rack) CC848828182 (Lower Subrack) Positions Figure 4-20 Position of the ESD-Connection and Ground- Connection Points (1 of 2) ..............................................4 - 2 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 163 ESD and Ground Connections Cable Installation Figure 4-20 Position of the ESD-Connection and Ground- Connection Points (2 of 2) (must only be used in the case of a NEBS-2000 rack) ..............................................365-374-059 Lucent Technologies 4 - 2 9 Issue a, January 2002...
Page 164: Power Cables, Pi - Pdp
Routing from Power Interface to PDP: • Upper subrack — keep the power cabling at the rear side of the center style (B to the left and A to the right)..............................................4 - 3 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 165 (B to the left and A to the right). Figure 4-21 DC Power Cables Pin Arrangement ..............................................365-374-059 Lucent Technologies 4 - 3 1 Issue a, January 2002...
Page 166 Power Cables, PI – PDP Cable Installation Point on Signal Name Color Connector –DC Blue Return Ground Yellow/Green Return –DC Blue ..............................................4 - 3 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 167: Power Cables, Pi - Fan Unit
Cable Data Description — Code Remarks Cable Assy, PI - FAN Unit Power A — PI-A 848811550/DC1003269 Cable Assy, PI - FAN Unit, Power B — PI-B 848811576/DC1003270 ..............................................365-374-059 Lucent Technologies 4 - 3 3 Issue a, January 2002...
Page 168 Power Cables, PI – FAN Unit Cable Installation Routing and Layout Figure 4-22 Power Cable FAN Unit Pin Arrangement Point on Signal Name Point on Signal Name Connector Connector Ground Ground ..............................................4 - 3 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 169 Power Cables, PI – FAN Unit Cable Installation Point on Signal Name Point on Signal Name Connector Connector –DCA/-DCB –DCA/-DCB Return Return ..............................................365-374-059 Lucent Technologies 4 - 3 5 Issue a, January 2002...
Page 170: Cable, Ci-Ctl - Upl
Cable, CI-CTL – UPL ..............................................Important! This cable is prefabricated and mounted on the subrack. UPL Cable Cable Data Description — Code Remarks Cable Assy, CI-CTL - UPL — 848811584/ DC1003272 ..............................................4 - 3 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 171 Cable, CI-CTL – UPL Cable Installation Routing and Layout Figure 4-23 Cable, CI-CTL – UPL Pin Arrangement ..............................................365-374-059 Lucent Technologies 4 - 3 7 Issue a, January 2002...
Page 172 Ground Ground RDP of CIT Ethernet-Transmitter Negative RDN of CIT Ethernet-Receiver Negative Test Point Test Point Alarm-Cut Off Alarm Cut-Off Button Button LED-Test LED-Test Button Button Power Line ..............................................4 - 3 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 173: Controller Cable, Ci-Ctl - Fan Unit
Important! This cable is prefabricated and mounted with the subrack. Controller Cable FAN Unit Prefab-Cable Data Description — Code Remarks Cable Assy, CI-CTL - FAN Unit — 848811568/ DC1003271 ..............................................365-374-059 Lucent Technologies 4 - 3 9 Issue a, January 2002...
Page 174 Controller Cable, CI-CTL – FAN Unit Cable Installation Routing and Layout Figure 4-24 Controller Cable, CI-CTL – FAN Unit Pin Arrangement ..............................................4 - 4 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 175 C Data line C Data line Not Connect Not Connect Equipment Sense Equipment Sense FAN Alarm FAN Alarm Feeder A Alarm Feeder-A Alarm Feeder B Alarm Feeder-B Alarm Ground Ground ..............................................365-374-059 Lucent Technologies 4 - 4 1 Issue a, January 2002...
Page 176: Rack-Top Alarm-Interface Cable, Ci-Ctl - Pdp
Cable Data Description — Code Remarks Cable Assy, CI-CTL (Upper subrack) - PDP — CC848811527/DC1002828 Cable Assy, CI-CTL (Lower subrack) - PDP — CC848811535/DC1001829 ..............................................4 - 4 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 177 Rack-Top Alarm-Interface Cable, CI-CTL – Cable Installation Layout and Routing Figure 4-25 Rack-Top Alarm Cable, CI-CTL – PDP CI-CTL Pin Arrangement ..............................................365-374-059 Lucent Technologies 4 - 4 3 Issue a, January 2002...
Page 178 Output Output Minor Rack-Top Minor Rack-Top Output Output Critical Rack-Top Critical Rack-Top Return Return Minor Rack-Top Minor Rack-Top Return Return Ground Ground Major Rack-Top Major Rack-Top Output Output ..............................................4 - 4 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 179: Station-Alarm Interface
100 m [328,084 ft] Cable Assy, Station Alarm — CC109164194 Connector Data Type of Connector D-SUB pin, 25p solder Remarks Code no. of Connector CC407362730 Code no. of Hood DC1003599 Mounting Instructions “D-Sub Metallic Hoods” (A-2) ..............................................365-374-059 Lucent Technologies 4 - 4 5 Issue a, January 2002...
Page 180 Figure 4-26 Station Alarm Interface Pin Arrangement Point on Connector Signal Name Critical Audio Output Critical Visual Output Major Audio-Output Return Major Visual Output Minor Audio Output Minor Visual Output ..............................................4 - 4 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 181 Cable Installation Point on Connector Signal Name Ground Ground Critical Audio-Output Return Critical Visual-Output Return Major Audio Output Major Visual-Output Return Minor Audio-Output Return Minor Visual-Output Return Ground Ground ..............................................365-374-059 Lucent Technologies 4 - 4 7 Issue a, January 2002...
Page 182 Station-Alarm Interface Cable Installation Layout and Routing Figure 4-27 Station-Alarm Layout and Routing Station Alarm ..............................................4 - 4 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 183: Lan 10/100 Base-T Interface
Connector Data Type of Connector Modular Plug / RJ45 8p shielded Remarks Code no. of Connector CC407890193 / DC1003604 336 330–1 Tyco/AMP Mounting Instructions “Modular Plug Connector” (A-4) ..............................................365-374-059 Lucent Technologies 4 - 4 9 Issue a, January 2002...
Page 184 LAN 10/100 Base-T Interface Cable Installation Figure 4-28 LAN 10/100 Base-T Interface Pin Arrangement Point on Connector Signal Name Transmit-Data Positive Transmit-Data Negative Receive-Data Positive Receive-Data Negative ..............................................4 - 5 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 185 LAN 10/100 Base-T Interface Cable Installation LAN Layout and Routing Figure 4-29 Layout on CI-CTL ..............................................365-374-059 Lucent Technologies 4 - 5 1 Issue a, January 2002...
Page 186: Ti-Ds1 Station Clock Output/Input Interface 100/110 Ω
Connector Data Type of Connector D-SUB pin, 9p solder Remarks Code no. of Connector CC407362748 / DC1003660 Code no. of Hood DC1003609 Mounting Instructions “D-Sub Metallic Hoods” (A-2) ..............................................4 - 5 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 187 150 m [492,126 ft] Cable Assy, TI–DS1 — CC109187534 • 175 m [574,147 ft] Cable Assy, TI–DS1 — CC109187542 • 200 m [656,168 ft] Cable Assy, TI–DS1 — CC109187559 ..............................................365-374-059 Lucent Technologies 4 - 5 3 Issue a, January 2002...
Page 188 Figure 4-31 DS1 – Station-Clock Input Interface, 100 Ω Pin arrangement Point on Signal Name Wire Color Connector Station-Clock Input Positive White Station-Clock Input Negative Blue Ground Screen 7, 8 Strap ..............................................4 - 5 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 189 The upper and lower subracks have the cabling at the rear side: the B TI Layout and Routing (IN/OUT) to the left and the A (IN/OUT) to the right. Figure 4-32 TI ..............................................365-374-059 Lucent Technologies 4 - 5 5 Issue a, January 2002...
Page 190: Ti-E1 Station-Clock Output/Input Interface, 120 Ω
D-SUB pin, 9p solder Remarks Code no. of Connector CC407362748 Code no. of Hood DC1003609 Mounting Instructions “D-Sub Metallic Hoods” (A-2) Figure 4-33 E1 – Station Clock Output Interface, 120 Ω ..............................................4 - 5 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 191 100 m [328,084 ft] Cable Assy, TI–E1 (120Ω) — CC109164319 Connector Data Type of Connector D-SUB Socket, 9p Remarks Solder Code no. of Connector CC407362797 Code no. of Hood DC1003609 Mounting Instructions “D-Sub Metallic Hoods” (A-2) ..............................................365-374-059 Lucent Technologies 4 - 5 7 Issue a, January 2002...
Page 192 Figure 4-34 E1 – Station Clock Input Interface, 120 Ω Pin arrangement Point on Conn. Signal Name Wire Color *1 Station-Clock Input Positive White Station-Clock Input Blue Negative Ground Screen ..............................................4 - 5 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 193 The upper and lower subracks have the cabling at the rear side: the B TI Layout and Routing (IN/OUT) to the left and the A (IN/OUT) to the right. Figure 4-35 TI ..............................................365-374-059 Lucent Technologies 4 - 5 9 Issue a, January 2002...
Page 194: Ti-E1 Station-Clock Output/Input Interface, 75 Ω
100 m [328,084 ft] Cable Assy, TI–E1 (75Ω) — CC109164293 Connector Data Type of Connector D-SUB pin, 9p solder Remarks Code no. of Connector CC407362748 Code no. of Hood DC1003609 Mounting Instructions “D-Sub Metallic Hoods” (A-2) ..............................................4 - 6 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 195 50 m [164,042 ft] Cable Assy, TI–E1 (75Ω) — CC109155895 • 75 m [246,063 ft] Cable Assy, TI–E1 (75Ω) — CC109164343 • 100 m [328,084 ft] Cable Assy, TI–E1 (75Ω) — CC109164350 Connector Data ..............................................365-374-059 Lucent Technologies 4 - 6 1 Issue a, January 2002...
Page 196 Figure 4-37 TI-E1 Station Clock Input Interface, 75 Ω Pin Arrangement Point on Conn. Signal Name Wire Color 1, 2, 3 Station-Clock Input Inner wire Ground Screen 5, 9 Strap ..............................................4 - 6 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 197 The upper and lower subracks have the cabling at the rear side: the B TI Layout and Routing (IN/OUT) to the left and the A (IN/OUT) to the right. Figure 4-38 TI ..............................................365-374-059 Lucent Technologies 4 - 6 3 Issue a, January 2002...
Page 198: Optical Interfaces
OP2G5 — KFA 12, 203 and 204 • OP10 — KFA 6, 7, 14, 9 and 81/159, 11 and 61/75 ™ See “Specifications for LambdaUnite MSS Optical-Circuit Packs” (B-14)for order codes and specifications. Important! Only the fiber cables with listed comcode are allowed to...
Page 199 Optical Interfaces Cable Installation OP2G5 OP2G5 - KFA12 Figure 4-39 OP2G5 – KFA12 Legend: Richco Twist Lock TL250 — DC1004336 (part of circuit pack delivery) ..............................................365-374-059 Lucent Technologies 4 - 6 5 Issue a, January 2002...
Page 200 OP2G5M AM1 Ap 1.X — KFA203 (1300nm) OP2G5M AM1 Ap 1.X — KFA204 (1550nm) OP2G5 PWDM AM1 Ap 1.x – KFA20 Richco Twist Lock TL250 — DC1004336 (part of circuit pack delivery) ..............................................4 - 6 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 201 Optical Interfaces Cable Installation OP10G Figure 4-41 OP10G Legend: Item 2 ASSY-A1LC-BASE (BLACK) B* — 108265950 See“LC Attenuators” (B-12)for a list of varoius attenuators..............................................365-374-059 Lucent Technologies 4 - 6 7 Issue a, January 2002...
Page 202: Gigabit-Ethernet Interfaces
The pack types are: Application Packs • GE1 / SX / 4 — KFA13 ™ See “Specifications for LambdaUnite MSS Optical-Circuit Packs” (B-14)for order codes and specifications. Important! Only the fiber cables with listed comcode are allowed to Cables be used , otherwise the proper functioning of the system can not be guaranteed.
Page 203 Gigabit-Ethernet Interfaces Cable Installation Figure 4-42 GE1 Legend: Richco Twist Lock TL250 — DC1004336 (part of circuit pack delivery) See for a list of various attenuators “LC Attenuators” (B-12)..............................................365-374-059 Lucent Technologies 4 - 6 9 Issue a, January 2002...
Page 205: Commissioning
SDH or SONET functionality and WaveStar CIT. An overview about all WaveStar CIT related tasks is given in the Related information “LambdaUnite MultiService Switch (MSS) User Operation Guide”. Contents Switching on and Testing the Voltage Supply Lines Installing the WaveStar CIT...
Page 206 Configuring the Data Communication Network 5-30 (DCN) Provisioning the Timing References 5-31 Provisioning the System Timing 5-34 Setting up a Cross-Connection 5-36 Network Commissioning 5-39 LC Attenuator Selection 5-42 ..............................................5 - 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 207: Switching On And Testing The Voltage Supply Lines
Result: The voltage on the PDP must be in the range of -40.5 … -72 NOTE: Do not power up the system if the voltage is outside the range! ..............................................365-374-059 Lucent Technologies 5 - 3 Issue a, January 2002...
Page 208 Switching on and Testing the Voltage Commissioning Supply Lines ................................Switch the right circuit breaker of the subrack (located on the rear) to the ON position (= 1)..............................................5 - 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 209 Repeat Steps 3 and 4 with the left circuit breaker of the subrack................................Switch both circuit breakers of the subrack to the ON (= 1) position. T E P S ................................................................................................365-374-059 Lucent Technologies 5 - 5 Issue a, January 2002...
Page 210: Installing The Wavestar Cit
A user who has Windows NT / Windows 2000 System Administration Before you begin privileges must install the software. That same user, then, becomes the WaveStar CIT System Administrator. The WaveStar CIT System ..............................................5 - 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 211 The WaveStar CIT CD Browser appears. autorun starts no action is required. Result: The WaveStar CIT CD Browser appears................................Click on continue................................Choose the entry CIT Software..............................................365-374-059 Lucent Technologies 5 - 7 Issue a, January 2002...
Page 212 The PC will have to be rebooted if the OSILLC driver is installed. This is installed on the initial WaveStar CIT installation. Subsequent upgrades do not require OSILLC driver installation. T E P S ................................................................................................Lucent Technologies 365-374-059 5 - 8 Issue a, January 2002...
Page 213: Wavestar Cit Login/Logout Procedure
Step 5. CIT session, it is not the first Stop! End of Task. WaveStar CIT session, ................................In the WaveStar CIT Main Window, choose the option Administration → Data Communications............................................... 365-374-059 Lucent Technologies 5 - 9 Issue a, January 2002...
Page 214 ................................THEN you are sure you want to click in the alert window. exit you do not want to exit, press the pushbutton. T E P S ................................................................................................Lucent Technologies 365-374-059 5 - 1 0 Issue a, January 2002...
Page 215: Ne Software Installation
Use a static ground wrist strap whenever handling circuit packs or working on a WaveStar CIT, to prevent electrostatic discharge damage to sensitive components..............................................365-374-059 Lucent Technologies 5 - 1 1 Issue a, January 2002...
Page 216 “Decompressing Files In …” message and also the InstallShield Wizard disappears when this operation has completed. Manual Installation: • Insert the LambdaUnite CD-ROM with the new NE software. If the welcoming screen appears, select to exit from the Cancel automatic installation procedure.
Page 217 Technologies\WaveStar CIT\generics\xx.xx.xx\up\ to the CompactFlash card. Result: The file copy function begins and you see a “Copying files...” message................................After copying, power off the flash disk slot..............................................365-374-059 Lucent Technologies 5 - 1 3 Issue a, January 2002...
Page 218 CTL circuit pack (red arrow on card down and facing left). Make sure that it is firmly seated in the CTL. CompactFlash Result: The system automatically starts the download (takes about 15 minutes)..............................................5 - 1 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 219 T E P S ................................In the case of a download failure (red LEDs are still lit), please refer Download failure to Chapter 7, section “SW Download Failure” (7-7)..............................................365-374-059 Lucent Technologies 5 - 1 5 Issue a, January 2002...
Page 220: Connecting The Wavestar ® ® Cit To The Ne
LAN Access (network) • Remote Access via DCC. ™ The WaveStar CIT (LAN card) is connected to the LambdaUnite Direct LAN access (point-to-point) MultiService Switch (MSS) via the “CIT” port of the user panel or through a backplane connector (LAN I/O Panel). An unshielded crossed Ethernet LAN cable (100BaseT) with 4-wire RJ-45 connectors is used for this connection.
Page 221 Access”), which is then called the Gateway NE. All other NEs can be reached by the DCC. Thus, no additional management network is needed to connect the CIT to each individual NE..............................................365-374-059 Lucent Technologies 5 - 1 7 Issue a, January 2002...
Page 222 Connecting the WaveStar CIT to the NE Commissioning The following figure shows an example of the access via the Data Communications Channel. ® WaveStar CIT DCC Data Communication Channel ..............................................Lucent Technologies 365-374-059 5 - 1 8 Issue a, January 2002...
Page 223: Ne Login/Logout Procedure
Result: window appears for the selected NE. System View ................................Change the NE name (see section “Changing the NE Name (TID)” (5-21)). T E P S ..............................................................................365-374-059 Lucent Technologies 5 - 1 9 Issue a, January 2002...
Page 224 Complete the following steps to logout from an NE: Logout procedure ................................→ Click File NE Disconnect ................................Click in the confirmation window. T E P S ................................................................................................5 - 2 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 225: Changing The Ne Name (Tid)
Enter Maintenance Condition ................................Confirm the resulting system message by clicking ................................Invoke the window from the Provision TID/NE Name System View → main menu via Administration Set TID............................................... 365-374-059 Lucent Technologies 5 - 2 1 Issue a, January 2002...
Page 226 TID and to dismiss the window................................→ From the System View main menu, select Fault Enter/Exit → Maintenance Condition... Exit Maintenance Condition................................Confirm the resulting system message by clicking ..............................................5 - 2 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 227 Changing the NE Name (TID) Commissioning Result: ™ The LambdaUnite MultiService Switch (MSS) NE will now perform a system reset. As a consequence, the management association between the WaveStar CIT and the NE will be lost. After the system reset has finished, you can re-establish the management association by again connecting the WaveStar CIT to the NE, now using the new TID.
Page 228: Provisioning The System Parameters
This window consists of two tabs, Settings Date and Time ................................In the tab you can set or modify various parameters Settings associated with the entire system. Click on the respective check box..............................................5 - 2 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 229 Apply pushbutton. Result: ™ The LambdaUnite MSS NE will now perform a system reset. As a consequence, the management association between the WaveStar CIT and the NE will be lost. After the system reset has finished, you can re-establish the management association by again connecting the WaveStar CIT to the NE.
Page 230 NE by selecting the according radio button ( Adaptive-Rate Fixed-Rate Used to set the System Synch System Synch for the actual NE by Characteristics Characteristics selecting the according radio button ( SONET ..............................................5 - 2 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 231: Setting The Ne Date And Time
Provision Result: The selection window for the system parameters appears on the right side of the window................................Select the Date and Time tab..............................................365-374-059 Lucent Technologies 5 - 2 7 Issue a, January 2002...
Page 232 Apply Result: ™ The LambdaUnite MSS NE will now perform a system reset. As a consequence, the management association between the WaveStar CIT and the NE will be lost. After the system reset has finished, you can re-establish the management association by again connecting the WaveStar CIT to the NE.
Page 233 Select the year to be set. Month Select the month to be set. Day field Select the day to be set. Select the time to be set. Time ..............................................365-374-059 Lucent Technologies 5 - 2 9 Issue a, January 2002...
Page 234: Configuring The Data Communication Network (Dcn)
DCN setup is required for performing the network tests described in Chapter 6. All required tasks for setting up the management communication are Related information ™ described in the “ LambdaUnite MultiService Switch (MSS) User Operations Guide”, Chapter 3..............................................5 - 3 0...
Page 235: Provisioning The Timing References
External Timing Reference 2 ). 2 MHz or 2 Mbit/s signals for SDH mode or D1 timing signals for SONET mode can be used as external timing sources..............................................365-374-059 Lucent Technologies 5 - 3 1 Issue a, January 2002...
Page 236 ................................Select the . The values Timing Port Mode Monitoring Monitored Not Monitored are possible. This defines whether alarms are raised for the timing signals or not..............................................5 - 3 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 237 . If you wish to discard the changes click on Cancel Undo ................................Repeat to Step 8until all timing references are configured. Click on to close the window. T E P S ................................................................................................365-374-059 Lucent Technologies 5 - 3 3 Issue a, January 2002...
Page 238: Provisioning The System Timing
(selectable via a spin box) • Infinite SONET mode only) The wait-to-restore time is the wait which is made before every single switching from one timing reference to another..............................................5 - 3 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 239 ASAPs................................Apply the changes by clicking on Apply . If you wish to discard the changes, click on Cancel Undo T E P S ................................................................................................365-374-059 Lucent Technologies 5 - 3 5 Issue a, January 2002...
Page 240: Setting Up A Cross-Connection
Define the cross-connection rate in the drop-down list box Rate: . The following values are possible: • (default value) VC-3 • VC-4 • VC-4-4c • VC-4-16c • VC-4-64c • STS-1 • STS-3 • STS-12 ..............................................5 - 3 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 241 Select... button................................Select the destination port in the selection tab and the Ptn Grp corresponding VC/STS in the Tributary list box and click on the Select... button..............................................365-374-059 Lucent Technologies 5 - 3 7 Issue a, January 2002...
Page 242 Type a number for the cross connection in the field XC Number use the automatically generated one................................Click on the button to apply your settings. Finish T E P S ................................................................................................5 - 3 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 243: Network Commissioning
The person setting up the network should be familiar with the SDH or SONET functionality. In this chapter all procedures are described for a protected ring Related information topology. In the “LambdaUnite MultiService Switch (MSS) Application, Planning and Ordering Guide” other possible topologies are also described. Procedure...
Page 244 Repeat steps 1-5 with other optical circuit packs (OP10G or OP2G5) used for protection................................Setup far-end communications. Reference: Section “Configuring the Data Communication Network (DCN)” (5-30) ................................Setup cross-connections..............................................5 - 4 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 245 Port 1 Port 1 West East Port 1 Port 1 East West NE-D NE-B West East NE-A (first node) Port 1 Port 1 East West Port 1 Port 1 ..............................................365-374-059 Lucent Technologies 5 - 4 1 Issue a, January 2002...
Page 246: Lc Attenuator Selection
................................Install the chosen LC attenuator................................Measure the received optical power again. Result: The measured value must be within the valid range. T E P S ..............................................................................5 - 4 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 247 The following table helps you to check the LC attenuation value. Circuit pack Range (dBm) OP10/1.3IOR1 –11.0 ... –1.0 OP10/1.5IR1 –14.0 ... –1.0 OP10/1.5LR1 –14.0 ... –1.0 OP10/01-80/800G –20.0 ... –13.0 OP2G5/1.3SR4 –18.0 ... –3.0 ..............................................365-374-059 Lucent Technologies 5 - 4 3 Issue a, January 2002...
Page 249 CIT software and the handling of the test equipment. An overview about all WaveStar CIT related tasks is given in the “ Related information ™ LambdaUnite MultiService Switch (MSS) User Operations Guide”. Contents Physical Installation Check Status Test of the Circuit Packs...
Page 250 Overview Test Procedures Network Test: Remote Login 6-13 Network Test: Line Timing Functionality 6-16 ..............................................6 - 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 251: Test Procedures
25 mm • the optical couplings are affixed to the optical circuit packs • all circuit packs are situated in the slots according to the guidelines described in Chapter 3..............................................365-374-059 Lucent Technologies 6 - 3 Issue a, January 2002...
Page 252: Status Test Of The Circuit Packs
Otherwise, the FAULT LED is lit up or flashing. The test should be carried out for each installed NE. Important! The LEDs of the protection cards are off as long as they are in the standby mode..............................................6 - 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 253: Fan Unit Test
This test clarifies the correct working of the Fan Unit in the Overview ™ LambdaUnite MultiService Switch (MSS) subrack. Check if the fan unit is running. The test should be carried out for each installed NE. Proceed as follows to test the correct functionality of the fan...
Page 254: Led Test
2 seconds and then off for 2 seconds three times in sequence. The LEDs on the circuit packs turn on for 2 seconds and then off for 2 seconds three times in sequence. T E P S ..............................................................................6 - 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 255 LED Test Test Procedures In the case of a LED test failure (LEDs are not lit), please refer to LED test failure Chapter 7, section “LED Test Failure” (7-8)..............................................365-374-059 Lucent Technologies 6 - 7 Issue a, January 2002...
Page 256: Alarm Reporting Test
All the needed information for the tasks described below (creating and Related information ™ clearing of alarms) is given in the “ LambdaUnite MultiService Switch (MSS) User Operations Guide”. Proceed as follows to complete the alarm test: Procedure ................................
Page 257 To make sure that the “NE Alarm List” reflects the current alarm status, click the button. Refresh ................................Repeat step 2 to 5 for all alarm levels. T E P S ................................................................................................365-374-059 Lucent Technologies 6 - 9 Issue a, January 2002...
Page 258: Ne Synchronisation Test
External Timing Reference 2 • Select “AUTO” in the Provisioned Quality Level field. • Set the priority to “2” in the System Timing Reference Prioriy field..............................................6 - 1 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 259 The second clock source should become active................................Reconnect the first clock source. Result: The first clock source should become active again after WTR time has expired. T E P S ..............................................................................365-374-059 Lucent Technologies 6 - 1 1 Issue a, January 2002...
Page 260 In the case of an NE synchronisation failure (NE cannot synchronise NE synchronisation failure to an external clock source), please refer to Chapter 7, section “NE Synchronisation Failure” (7-5)..............................................6 - 1 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 261: Network Test: Remote Login
Perform the following procedure to test the NE control and supervision functionality via remote login: ................................Login to the NE-A as described in Chapter 5, section “NE Login/Logout procedure” (5-19)..............................................365-374-059 Lucent Technologies 6 - 1 3 Issue a, January 2002...
Page 262 Tab Status Tab Pack Data ................................Set the NE-B time to the actual value................................Repeat Steps 3 to 5 for NE-C and NE-D. T E P S ..............................................................................6 - 1 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 263 Network Test: Remote Login Test Procedures In the case of a remote login failure, please refer to Chapter 7, section Remote login failure “Remote Login Failure” (7-9)..............................................365-374-059 Lucent Technologies 6 - 1 5 Issue a, January 2002...
Page 264: Network Test: Line Timing Functionality
To be able to carry out this test all NEs with the exception of NE-A Assumptions must be prepared/provisioned for the line timing functionality (e.g. port provisioning). The needed information for performing this step is ™ given in the “ LambdaUnite MultiService Switch (MSS) User Operations Guide”. Test setup NE-C...
Page 265 To do this select , then the respective Line Timing Reference tab (depends on the configuration)................................Repeat Steps 4 and 5 for NE-C and NE-D. T E P S ................................................................................................365-374-059 Lucent Technologies 6 - 1 7 Issue a, January 2002...
Page 267 Installation Troubleshooting Overview ..............................................This chapter provides basic installation troubleshooting information Purpose ™ for the LambdaUnite MultiService Switch (MSS) system. Contents Power Failure NE Synchronisation Failure SW Download Failure LED Test Failure Remote Login Failure Alarm Handling 7-11 Fibre Cleaning 7-12 ..............................................
Page 268: Installation Troubleshooting
-40.5 and -72 V, the measured voltage lies END OF STEPS between -40.5 and -72 V, T E P S ..............................................................................7 - 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 269 Replace all affected fan power cables between the PIUs and the Fan Units. Make sure that the cables are tight afterwards................................Switch all circuit breakers on the subrack backplanes to the ON position..............................................365-374-059 Lucent Technologies 7 - 3 Issue a, January 2002...
Page 270 OFF position and replace all affected Fan Units. the PWR ON LEDs light END OF STEPS up on the Fan Units, T E P S ................................................................................................7 - 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 271: Ne Synchronisation Failure
Check for an external fault: input/output reversed or exchange supply defect. IF ... THEN ... the NE does not proceed to step 4. synchronize to the external clock source, ..............................................365-374-059 Lucent Technologies 7 - 5 Issue a, January 2002...
Page 272 5. synchronize to the external clock source, the NE synchronizes to the END OF STEPS external clock source, ................................Replace the timing interfaces E1/DS1. T E P S ................................................................................................7 - 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 273: Sw Download Failure
2. have the green LEDs illuminated, the circuit packs have the END OF STEPS green LEDs illuminated, ................................Replace the CTL circuit pack. T E P S ................................................................................................365-374-059 Lucent Technologies 7 - 7 Issue a, January 2002...
Page 274: Led Test Failure
END OF STEPS T E P S ................................Circuit pack fuse If the circuit pack fuse is defect the circuit pack has to be returned to a manufacturing facility for repair..............................................7 - 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 275: Remote Login Failure
END OF STEPS ................................Replace the OP10 transmitter in the near-end NE. IF ... THEN ... a remote login is not proceed to step 5. possible, ..............................................365-374-059 Lucent Technologies 7 - 9 Issue a, January 2002...
Page 276 Installation Troubleshooting IF ... THEN ... a remote login is possible, END OF STEPS ................................Replace the OP10 receiver in the far-end NE. T E P S ................................................................................................7 - 1 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 277: Alarm Handling
Follow the steps below in the case of active alarms: Procedure ................................Note all active alarms................................™ Follow the trouble clearing tasks described in the “ LambdaUnite MultiService Switch (MSS) Alarm Messages and Trouble Clearing Guide”. T E P S ................................................................................................
Page 278: Fibre Cleaning
If impurities are discovered, the optical connector must be Connectors cleaned in accordance with the following rules: ................................Wipe off the connector face lengthwise (not with a circular motion!) using a smooth tissue (moistened with isopropanol)..............................................7 - 1 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 279 Important! Lightguide Build-Outs (LBOs) may be damaged when compressed air is used for drying. Therefore, do not use compressed air for drying LBOs. T E P S ................................................................................................365-374-059 Lucent Technologies 7 - 1 3 Issue a, January 2002...
Page 281 Appendix A: Assembly Instructions Overview ..............................................This appendix describes the general assembly instructions. Purpose Contents D-Sub Metallic Hoods Modular Plug Connector Multicore Low-Current Cables Multicore Fiber Cables A-12 Coax 1.6/5.6 Connectors A-13 ..............................................365-374-059 Lucent Technologies A - 1 Issue a, January 2002...
Page 282: Assembly Instructions
180 degrees................................Insert the cable with the ferrule in the D-Sub connector................................Close the connector by tighting the screws. T E P S ..............................................................................A - 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 283 D-Sub Metallic Hoods Assembly Instructions Assembled connector ..............................................365-374-059 Lucent Technologies A - 3 Issue a, January 2002...
Page 284: Modular Plug Connector
Turn the subassembly (housing + contacts) over to aid trimming................................Trim the conductors using the front edge of the wire holder as a guide................................Turn the subassembly over to aid insertion..............................................A - 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 285 ................................Slide the boot onto the crimped plug. T E P S ................................Conductor Arrangement Pair Wire Color Contact white-blue blue white-orange orange white-green green white-brown brown ..............................................365-374-059 Lucent Technologies A - 5 Issue a, January 2002...
Page 286 Modular Plug Connector Assembly Instructions LAN Cable (CAT5) Assembly — Part 1 ..............................................A - 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 287 Modular Plug Connector Assembly Instructions LAN Cable (CAT5) Assembly — Part 2 Legend: Cable Jacket Cable Shield Drain Wire ..............................................365-374-059 Lucent Technologies A - 7 Issue a, January 2002...
Page 288 4 pair CAT 5 STP FRNC — TDD21951 Capable 4 pair CAT 5 STP FRNC — 43167 3307 079 Belden 4 pair CAT 5 STP FRNC — MS100–4445 Madison Crimp Tool (AMP 790163–1) ..............................................A - 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 289: Multicore Low-Current Cables
Grey/Red Black/Blue Blue/Black Black/Orange Orange/Black Black/Green Green/Black Black/Brown Brown/Black Black/Grey Grey/Black Yellow/Blue Blue/Yellow Yellow/Orange Orange/Yellow Yellow/Green Green/Yellow Yellow/Brown Brown/Yellow Yellow/Grey Grey/Yellow Violet//Blue Blue/Violet Violet/Orange Orange/Violet Violet/Green Green/Violet Violet/Brown Brown/Violet ..............................................365-374-059 Lucent Technologies A - 9 Issue a, January 2002...
Page 290 Gray-Brown White-Pink Pink-Brown White-Blue Brown-Blue White-Red Brown-Red White-Black Brown-Black Gray-Green Yellow-Gray Pink-Green Yellow-Pink Green-Blue Yellow-Blue Multi-Conductor DIN Color Codes Multi-conductor Conductor Insulation Color Tracer White Brown Green Yellow ..............................................A - 1 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 291 Violet Gray Pink Blue White Green Brown Green White Yellow Yellow Brown White Gray Gray Brown White Pink Pink Brown White Blue Brown Blue White Brown White Black ..............................................365-374-059 Lucent Technologies A - 1 1 Issue a, January 2002...
Page 292: Multicore Fiber Cables
Assembly Instructions Multicore Fiber Cables ..............................................Breakout cables Fiber Fiber Color Blue Orange Green Brown Slate White Black Yellow Violet Rose Aqua ..............................................A - 1 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 293: Coax 1.6/5.6 Connectors
Crimptool (Isolectra) — Z586................................Screw the cover of the connector house into the connector and slide the bend prevention tube over the crimped piece. T E P S ..............................................................................365-374-059 Lucent Technologies A - 1 3 Issue a, January 2002...
Page 294 Coax 1.6/5.6 Connectors Assembly Instructions Results Figure A-1 Büchsel (Isolectra) Assembly procedure Crimptool Crimptool (Isolectra) — Z586 ..............................................A - 1 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 295 ................................Crimp the outer ferrule with Hexagon Die 4,6 — AGK 3068 by using Crimptool — AGK 2365. T E P S ..............................................................................365-374-059 Lucent Technologies A - 1 5 Issue a, January 2002...
Page 296 Coax 1.6/5.6 Connectors Assembly Instructions Results Figure A-2 IMS Assembly procedure Legend: Coax 1,5/5,6 connector (straight) — 408663482 ..............................................A - 1 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 297 Coax 1.6/5.6 Connectors Assembly Instructions Coax 1,5/5,6 connector (45°) Crimptool Figure A-3 Crimptool and Die Legend: Crimptool — AGK 2365 Hexagon Die 4,6 — AGK 3068 or square 1,2 ..............................................365-374-059 Lucent Technologies A - 1 7 Issue a, January 2002...
Page 299: Overview
This appendix describes the ordering codes and specifications of this Purpose product. Contents Single Mode 9/125 Fiber-Optic Cables Multi-Mode 62.5/125 Fiber-Optic Cables LC Attenuators B-12 ™ Specifications for LambdaUnite B-14 Optical-Circuit Packs ..............................................365-374-059 Lucent Technologies B - 1 Issue a, January 2002...
Page 300 109158808 109158857 SM LC to FC (12 to 12) Length Comcode Length Comcode Length Comcode Length Comcode 109158865 109158915 109158964 109159012 109158873 109158923 109158972 109159020 109158881 109158931 109158980 109159038 ..............................................B - 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 301 SM SC to LC (12 to 12) Length Comcode Length Comcode Length Comcode Length Comcode 109188318 109188367 109188417 109188466 109188326 109188375 109188425 109188474 109188334 109188383 109188433 109188482 109188342 109188391 109188441 109188490 109188359 109188409 109188458 109188508 ..............................................365-374-059 Lucent Technologies B - 3 Issue a, January 2002...
Page 302: Single Mode 9/125 Fiber-Optic Cables
SM LC to FC (1 to 1) Length Comcode Length Comcode Length Comcode Length Comcode 109159871 109159921 109159970 109160028 109159889 109159939 109159988 109160036 109159897 109159947 109159996 109160044 109159905 109159954 109160002 109160051 ..............................................B - 4 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 303 Length Comcode 109172338 109172387 109172437 109172486 109172346 109172395 109172445 109172494 109172353 109172403 109172452 109172502 109172361 109172411 109172460 109172510 109172379 109172429 109172478 109172528 SM SC to SC (1 to 1) ..............................................365-374-059 Lucent Technologies B - 5 Issue a, January 2002...
Page 304 109172700 109172569 109172619 109172668 109172718 109172577 109172627 109172676 109172726 SC with short boot 180° (1x) to x 45° (1x) Important! = connector types (LC, SC, FC, ST, DIN, E-2000) ..............................................B - 6 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 305 Length Comcode Length Comcode Length Comcode Length Comcode 109174169 109174177 109174227 109174276 109174326 109174185 109174235 109174284 109174334 109174193 109174243 109174292 109174342 109174201 109174250 109174300 109174359 109174219 109174268 109174318 109174367 ..............................................365-374-059 Lucent Technologies B - 7 Issue a, January 2002...
Page 306 109161760 109161810 109161661 109161711 109161778 109161828 MM LC to FC (12 to 12) Length Comcode Length Comcode Length Comcode Length Comcode 109161836 109161885 109161935 109161984 109161844 109161893 109161943 109161992 ..............................................B - 8 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 307 MM-Simplex cable 62.5/125 Connectors LC (45°) to LC, SC, Beige FC, ST, DIN (180°) MM LC to LC (1 to 1) Length Comcode Length Comcode Length Comcode Length Comcode 109165753 ..............................................365-374-059 Lucent Technologies B - 9 Issue a, January 2002...
Page 308: Multi-Mode 62.5/125 Fiber-Optic Cables
109163279 109163121 109163170 109163238 109163287 109163139 109163188 109163246 109163295 MM LC to DIN (1 to 1) Length Comcode Length Comcode Length Comcode Length Comcode 109163303 109163352 109163402 109163451 ..............................................B - 1 0 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 309 Multi-Mode 62.5/125 Fiber-Optic Cables Ordering Codes and Specifications 109163311 109163360 109163410 109163469 109163329 109163378 109163428 109163477 109163337 109163386 109163436 109163485 109163345 109163394 109163444 109163493 ..............................................365-374-059 Lucent Technologies B - 1 1 Issue a, January 2002...
Page 310: Lc Attenuators
AALCS-04.0 108357963 AALCS-04.5 108357971 AALCS-05.0 108288473 AALCS-05.5 108357989 AALCS-06.0 108349432 AALCS-06.5 108357997 AALCS-07.0 108288465 AALCS-07.5 108358003 AALCS-08.0 108358011 AALCS-08.5 108358029 AALCS-09.0 108358037 AALCS-09.5 108358045 AALCS-10.0 108288457 AALCS-11.0 108358078 ..............................................B - 1 2 Lucent Technologies 365-374-059 Issue a, January 2002...
Page 311 LC Attenuators Ordering Codes and Specifications Product Code Nominal Loss COMCODE AALCS-12.0 108358094 AALCS-13.0 108358128 AALCS-14.0 108358144 AALCS-15.0 108358169 AALCS-18.0 108358193 AALCS-19.0 108358201 AALCS-20.0 108358219 ..............................................365-374-059 Lucent Technologies B - 1 3 Issue a, January 2002...
Page 312: Specifications For Lambdaunite
Ordering Codes and Specifications ™ Specifications for LambdaUnite MSS Optical-Circuit Packs ..............................................The OP2G5 Optical Circuit Packs are: OP2G5 Optical-Circuit Packs Wavelength Core Diameter of Output Laser (nanometers) Fiber Type Power Class (microns) (milliwatts) (FDA/IEC) OP2G5 / 1.3SR4 (KFA 12), 2km 1310 SM (9.0/125)
Page 313 ™ Specifications for LambdaUnite Ordering Codes and Specifications Optical-Circuit Packs Optical-Circuit Packs Wavelength Core Diameter of Output Laser (nanometers) Fiber Type Power Class (microns) (milliwatts) (FDA/IEC) OP10 / 13 / 800G (KFA92) 1535.43 SM (9.0/125) 1.585 OP10 / 14 / 800G (KFA93) 1535.82...
Page 314 ™ Specifications for LambdaUnite Ordering Codes and Specifications Optical-Circuit Packs Optical-Circuit Packs Wavelength Core Diameter of Output Laser (nanometers) Fiber Type Power Class (microns) (milliwatts) (FDA/IEC) OP10 / 42 / 800G (KFA121) 1546.92 SM (9.0/125) 1.585 OP10 / 43 / 800G (KFA122) 1547.32...
Page 315 ™ Specifications for LambdaUnite Ordering Codes and Specifications Optical-Circuit Packs Optical-Circuit Packs Wavelength Core Diameter of Output Laser (nanometers) Fiber Type Power Class (microns) (milliwatts) (FDA/IEC) OP10 / 71 / 800G (KFA 150) 1558.58 SM (9.0/125) 1.585 OP10 / 72 / 800G (KFA 151) 1558.98...
Page 317 Items with the first eleven digits the same, are functionally equal and may be exchanged..............................................Abnormal (condition) ABS (Absent) Used to indicate that a given circuit pack is not installed..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 1...
Page 318 Acknowledged Information Transfer Service: Confirmed mode of operation of the LAPD protocol. Alarm Visible or audible signal indicating that an equipment failure or significant event/condition has occurred..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 2...
Page 319 A standard 7-bit code that represents letters, numbers, punctuation marks, and special characters in the interchange of data among computing and communications equipment. ASN.1 Abstract Syntax Notation 1 ..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 3...
Page 320 AVAIL Available ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 4...
Page 321 The setting up of a cross-connection leg with the same input tributary as that of an existing cross-connection leg. Thus, forming a 1:2 bridge from an input tributary to two output tributaries..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 5...
Page 322 A set of transmission channels through one or more network elements that provides transmission of signals between two points, to support a single communications path. CIT or LambdaUnite CIT (Craft Interface Terminal) The user interface terminal used by craft personnel to communicate with a network element.
Page 323 Correlation A process where related hard failure alarms are identified..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 7...
Page 324 CSA marking indicates that the poducts conform to relevant America and Canadian Directives. CSMA/CD Carrier Sense Multiple Access with Collision Detection System Controller Customer Technical Support within Lucent Technologies Current Value The value currently assigned to a provisionable parameter..............................................
Page 325 An operation or value that the system or application assumes, unless a user makes an explicit choice. Default Provisioning The parameter values that are pre-programmed as shipped from the factory..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 9...
Page 326 A topology in which two rings are interconnected at two nodes on each ring and operate so that inter-ring traffic is not lost in the event of a node or link failure at an interconnecting point..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 1 0...
Page 327 The equipment that originates data for transmission and accepts transmitted data. DTMF Dual Tone Multifrequency Dual Unit Row Do not Use for Synchronization ..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 1 1...
Page 328 EQ (Equipped) Status of a circuit pack or interface module that is in the system database and physically in the ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 1 2...
Page 329 ES by itself means the sum of the type A and type B ESs. Electrostatic Discharge Electrostatic Protection Establish A user initiated command, at the LambdaUnite CIT, to create an entity and its associated attributes in the absence of certain hardware. ETSI European Telecommunications Standards Institute Event A significant change.
Page 330 Folded (collapsed) rings are rings without fiber diversity. The terminology derives from the image of folding a ring into a linear segment..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 1 4...
Page 331 GNE (Gateway Network Element) A network element that passes information between other network elements and management systems through a data communication network..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 1 5...
Page 332 Function that provides for flexible assignment of higher order Virtual Containers within an STM-N signal. HPT (Higher Order Path Termination) ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 1 6...
Page 333 The interface capacity varies with equipage..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 1 7...
Page 334 Short term variations of amplitude and frequency components of a digital signal from their ideal position in time..............................................kbit/s Kilobits per second ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 1 8...
Page 335 Apparatus code of circuit packs ..............................................LambdaUnite OLS 1.6T (400G/800G) LambdaUnite Optical Line System 1.6 Terabit/s (400Gbit/s/800Gbit/s) LAN (Local Area Network) A communications network that covers a limited geographic area, is privately owned and user administered, is mostly used for internal transfer of information within a business, is normally contained within a single building or adjacent group of buildings, and transmits data at a very rapid speed.
Page 336 Lockout of Protection The LambdaUnite CIT command that prevents the system from switching traffic to the protection line from a working line. If the protection line is active when a “Lockout of Protection” is entered – this command causes the working line to be selected. The protection line is then locked from any Automatic, Manual, or Forced protection switches.
Page 337 An equipment state in which some normal service functions are suspended, either because of a problem or to perform special functions (copy memory) that can not be performed while normal ..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 2 1...
Page 338 Network Element system software in binary format that after being downloaded to one of the stores can be executed by the system controller of the network element. Memory ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 2 2...
Page 339 Part of the Section Overhead. Is accessible only at line terminals and multiplexers. MSP (Multiplexer Section Protection) Provides capability for switching a signal from a working to a protection section..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 2 3...
Page 340 A node in a telecommunication network that supports network transport services and is directly manageable by a management system..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 2 4...
Page 341 Nonreturn to Zero Non-Service Affecting NSAP Address (Network Service Access Point Address) ..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 2 5...
Page 342 The capability to access, operate, provision, and administer remote systems through craft interface access from any site in an SDH network or from a centralized operations system. Optical Line System ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 2 6...
Page 343 Operations Interface Any interface providing you with information on the system behavior or control. These include the equipment LEDs, user panel,LambdaUnite CIT, office alarms, and all telemetry interfaces. Operator A user of the system with operator-level user privileges.
Page 344 Network elements in which the path overhead is terminated. Printed Circuit Board Pulse Code Modulation Plesiochronous Digital Hierarchy Power Distribution Panel ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 2 8...
Page 345 A feature that allows a user to suppress alarm reporting and performance monitoring during provisioning by supporting multiple states (automatic, in-service, and not monitored) for low-speed ports..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 2 9...
Page 346 The process by which the user specifies parameter values for an entity in advance of some of the equipment being present. These parameters are maintained only in NVM. These modifications are initiated locally or remotely by either LambdaUnite CIT or Navis Optical EMS. Preprovisioning provides for the decoupling of manual intervention tasks (for example, install circuit packs) from those tasks associated with configuring the node to provide services (for example, specifying the entities to be cross-connected).
Page 347 Network Element “squelches” the Station Clock Output Signal, which means that no signal is forwarded at all. Quality of Service ..............................................Random Access Memory RDI (Remote Defect Indication) ..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 3 1...
Page 348 (See “Non-Revertive”.) ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 3 2...
Page 349 A code form having two information states (termed zero and one) and having a third state or an at-rest condition to which the signal returns during each period..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 3 3...
Page 350 S reference points. Server Computer in a computer network that performs dedicated main tasks which generally require sufficient performance..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 3 4...
Page 351 The process of saving an image of the current network element’s databases, which are contained in its NVM, to a remote location. The remote location could be theLambdaUnite CIT or Navis Optical EMS..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 3 5...
Page 352 This information is used to prevent traffic misconnection in rings with isolated nodes or segments. SRPP System Reference Potential Plane ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 3 6...
Page 353 A group of interconnected/interrelated Network Elements. The most common connotation is a synchronous network in which the Network Elements have data communications channel (DCC) connectivity..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 3 7...
Page 354 A message type sent from a Network Element that indicates that a certain performance monitoring parameter has exceeded a specified threshold..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 3 8...
Page 355 A path-level unit of bandwidth within a port, or the constituent signal(s) being carried in this unit of bandwidth, for example, an STM-1 tributary within an STM-N port..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 3 9...
Page 356 TU frame. ™ True Wave Optical Fiber Lucent Technologies’ fiber generally called non-zero dispersion-shift fiber, with a controlled amount of chromatic dispersion designed for amplified systems in the 1550/1310 nm range. Technical Requirement TSA (Time Slot Assignment) A capability that allows any tributary in a ring to be cross-connected to any tributary in any lower-rate, non-ring interface or to the same-numbered tributary in the opposite side of the ring.
Page 357 Unshielded Twisted Pair cable 120 Ohm ..............................................Volts Volts Alternating Current Value A number, text string, or other menu selection associated with a parameter..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 4 1...
Page 358 Wideband Digital Cross-Connect System WDM (Wavelength Division Multiplexing) A means of increasing the information-carrying capacity of an optical fiber by simultaneously ..............................................G L O S S A R Y Lucent Technologies 365-374-059 Issue a, January 2002 G L - 4 2...
Page 359 Zero Code Suppression A technique used to reduce the number of consecutive zeros in a line-coded signal (B3ZS, B8ZS)..............................................365-374-059 Lucent Technologies G L O S S A R Y Issue a, January 2002 G L - 4 3...
Page 361 1-18, 1-24, 1-26, 1-32, 6-10 Insertion and removal 1-37 facilities, 1-18 NE synchronization failure, Electrostatic protection, Invisible laser radiation, 1-18 1-29, 1-31, 1-36 ..............................................365-374-059 Lucent Technologies I N D E X Issue a, January 2002 I N - 1...
Page 362 Wait To Restore Time, 6-10 ............WaveStarª CIT Test Login procedure, 5-9, Alarm reporting (NE), 5-19 NE inventory data, 6-13 Fan unit test, 6-5 Requirements, 2-8 ..............................................I N D E X Lucent Technologies 365-374-059 Issue a, January 2002 I N - 2...

Lucent Technologies LambdaUnite Installation Manual

About this Information Product

General Notes on Safety

Specific Safety Areas

Safety Requirements in Specific Deployment Phases

2 Overall Installation and Test Planning

3 Equipment Installation

4 Cable Installation

5 Commissioning

6 Test Procedures

7 Installation Troubleshooting

Assembly Instructions

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Summary of Contents for Lucent Technologies LambdaUnite

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