Alcatel 1626 LM REL.2.0 User Manual

Provides general information about the manual and Alcatel's warranty disclaimer.

Details the product-releases and versions to which this handbook applies.

Lists handbooks related to product hardware and software management.

Details the structure of the handbook, divided into main topics like Handbook Guide, Description, and Maintenance.

Lists editions and modified parts of the handbook for configuration check.

Details compliance with EMC directives and European norms for telecommunication centers.

Declares compliance with safety norms for electrical and optical safety.

Provides instructions for first aid in case of electric shock, including artificial respiration and burn treatment.

Outlines general safety rules for handling equipment, including general rules and specific safety statements.

Establishes general safety rules for installation, turn-on, tests, operation, and maintenance.

Explains labels indicating danger, forbiddance, and command, compliant with ISO norms.

Details labelling and general electrical safety rules related to dangerous voltages.

Describes labelling and general optical safety rules related to harmful optical signals from lasers.

Discusses risks of explosions, focusing on battery usage and labelling.

Addresses safety instructions and labelling for moving mechanical parts like fans.

Details labelling and safety instructions for heat-radiating mechanical parts, including temperature limits.

Points to specific safety rules located in other paragraphs of the handbook.

Discusses EMC norms based on installation type and operating conditions, with a specific symbol.

Provides general norms for EMC compatible equipment installation, including connections and grounding.

Details general norms for EMC compatibility during turn-on, tests, and operation.

Outlines general norms for EMC compatibility during maintenance procedures.

Explains precautions for handling electrostatic sensitive devices and lists antistatic protection devices.

Provides symbols for suggestions, notes, and cautions to avoid equipment damage.

Indicates positions and information on identification and serial labels affixed to the equipment.

Defines 'product' and 'product-release', explaining how they evolve and relate to customer documentation.

Explains that handbooks are not automatically delivered and depend on contract level.

States that standard documentation is plant-independent and aims to guide installation, commissioning, and maintenance.

Details how handbooks associated with product-releases are identified and updated.

Explains how edition and date of issue change for modifications within the same product-release.

Describes how a new product-release changes handbook P/N and resets the edition to 01.

Explains the contents, creation, and production of customer documentation supplied on CD-ROM.

Introduces the Alcatel 1626 LM platform, its DWDM capabilities, and compliance standards.

Details the basic configurations of the 1626 LM Rel. 2.0 design: LT, LR, OADM, and BTB.

Describes the Line Terminal configuration, its components, and connections.

Explains the Line Repeater configuration as a bidirectional DWDM amplifier without transponder functions.

Details the OADM repeater capabilities to add/drop wavelengths, used in multipoint links.

Describes the Back-to-back terminal configuration, grouping two line terminal configurations.

Outlines basic configurations of the 1626 LM for Rel. 1.x, used with 1640 WM and 1686 WM.

Describes Line Terminal configuration for Rel. 1.x, including upgrade schemes with 1640 WM and 1686 WM.

Explains Line Repeater configuration for Rel. 1.x, using 1686 WM/1640 WM.

Details the OADM repeater capabilities to add/drop wavelengths, used in multipoint links.

Details the low capacity OADM repeater configuration in interstage setup, including upgrades and greenfield installations.

Describes the high capacity OADM repeater configuration in span setup, including upgrade and greenfield installations.

Details the Back-to-back terminal configuration for Rel. 1.x, using 1640 WM.

Covers network architectures including point-to-point and multipoint topologies.

Explains how point-to-point links are performed using LT and LR configurations.

Describes (multi)point-to-multipoint links using LT, LR, OADM, and BTB configurations.

Details linear multipoint-to-multipoint links using LT, LR, and OADM configurations.

Explains ring network configurations using BT, OADM, and LR.

Lists data equipment that can connect to optical output signals, including SDH/SONET and IP routers.

Details optical channel protection mechanisms in linear and ring networks using OCP equipment.

Explains optical channel protection in linear links between Line Terminals or OADM repeaters.

Describes optical channel protection in ring networks using Optical SNCP.

Details the rack design, compatibility with ETSI standards, and shelf hosting capacity.

Explains the 1626 LM shelf physical configuration, including empty shelf layout and slot numbering.

Describes the division of the shelf into slots and the six available mechanics for boards.

Illustrates shelf layout, board composition, coding, and partition for master and slave shelves.

Provides examples of master and expansion shelf configurations with mandatory and optional boards.

Lists items and units making up the Equipment Shelf, including names, acronyms, part numbers, quantity, and position.

Presents the 1626 LM boards and units list with designation and reference details.

Shows examples of Master and slave shelves front views in Line Terminal configuration.

Details ALCT location constraints with respect to BMDX for use in dynamic mode.

Categorizes external connections of the 1626 LM into optical, management, maintenance, power, and user interfaces.

Describes optical connections made with double MU/SPC and LC/SPC connectors.

Details NMS and Craft Terminal interfaces for management and maintenance.

Explains the Q3 interface for the Network Management System (NMS) using Ethernet and BNC connectors.

Describes the Q3 interface for the Craft Terminal using a serial RS232 interface.

Explains inter-shelf links for communication between EC and SCs using Ethernet bus.

Details the front panel connectors on the RAIU1000 board for rack alarm interface.

Mentions housekeeping alarm signals available on the HSKU1000 board front panel connector.

Describes the debug tool interface available for EC and SC, using RJ45 connectors.

Explains power supply voltage distribution to shelves via a 3 pin SUB–D connector.

Introduces paragraphs showing unit front views, access points, and legends.

Provides a general description of the 1626 LM functions, sub-systems, and main configurations.

Details the transponder sub-system, based on TRBD (transponders) and TRBC (concentrators).

Explains the optical multiplexer/demultiplexer sub-system using CMDX and BMDX boards for WDM signals.

Describes the optical fiber amplification sub-system using LOFA11y0 aggregate amplifiers.

Provides examples of Optical Fiber Amplifier configurations in back-to-back/OADM and Line Terminal setups.

Details the OSC sub-system for supervision and user channels over a 1510nm wavelength.

Illustrates OSC management in different network configurations like LT-LT, LT-OADM, and OADM-OADM.

Explains the controller sub-system based on Equipment Controller (EC) and Shelf Controller (SC).

Details the power supply sub-system, including input voltage ranges and output voltages provided by PSUP1000.

Describes optical channel protection in ring networks using Optical SNCP and in linear networks.

Describes optical channel protection in ring networks using Optical SNCP.

Explains optical channel protection in linear links between Line Terminals or OADM repeaters.

Explains the Performance Monitoring sub-system, including PM Points and data management.

Details the 1626 LM Performance Monitoring working mode in Rel.1.2, covering client and WDM sides.

Describes the Remote Inventory function for retrieving card information via SPI bus.

Explains the G.709 frame structure, including client to WDM adaptation and multiplexing.

Introduces the G.709 frame construction for client to WDM signal adaptation.

Describes the OTUk frame structure, including FEC and overhead bytes.

Describes Tributary Direct (TRBD) and Tributary Concentrator (TRBC) units.

Details the TRBD1xyz units, their block diagram, description, and features.

Provides a description of TRBD1xyz units, their interfaces, and G.709 compliance.

Summarizes main features of TRBD1011, TRBD1111, TRBD1110, TRBD1121, and TRBD1131.

Details frequency allocation for transponders, read from ECID, and mentions tunability.

Refers to section 5.3.1.1 on page 219 for TRBD1xyz optical characteristics.

Explains loop-back functions available on TRBD units for tests and maintenance.

Details the TRBC1111 unit, its block diagram, description, and features.

Describes the TRBC1111 unit as a bidirectional transponder concentrating B&W streams to WDM.

Summarizes main features of the TRBC1111, including its interfaces and G.709 compliance.

Details frequency allocation for TRBC1111, read from ECID, and its tunability.

Refers to section 5.3.1.2 on page 221 for TRBC1111 optical characteristics.

Illustrates the multiplexing of four ODU1 signals into an ODU2, compliant with G.709/Y.1331.

Explains loop-back functions available on TRBC1111 units for tests and maintenance.

Describes STM-16 optical modules (SFP) as optical accesses for the TRBC1111 board.

Presents the block diagram of the STM-16 SFP optical module, detailing its transmitter and receiver components.

Describes multiplexer/demultiplexer units like CMDX1010 and BMDX1000/1100.

Details the CMDX1010 unit, its block diagram, and function as an 8:1 MUX/1:8 DEMUX for WDM signals.

Explains the CMDX1010 as a bidirectional unit for multiplexing/demultiplexing 8-channel bands in the Extended C-band.

Details frequency allocation for CMDX variants, read from ECID, and port labeling.

Refers to section 5.3.2.1 on page 223 for CMDX1010 optical characteristics.

Describes the unit start-up process for CMDX1010, including initialization and temperature control.

Details the BMDX1000 unit, its block diagram, and function as a 12:1 MUX/1:12 DEMUX for WDM signals.

Summarizes main features of BMDX1000 for Line Terminal and Back-to-back applications.

Refers to section 5.3.2.2 on page 224 for BMDX1000 optical characteristics.

Describes the unit start-up process for BMDX1000 upon insertion or replacement.

Details the BMDX1100 unit, its block diagram, and function for Band OADM applications.

Summarizes main features of BMDX1100 for Band OADM applications.

Refers to section 5.3.2.3 on page 225 for BMDX1100 optical characteristics.

Describes the unit start-up process for BMDX1100 upon insertion or replacement.

Details the ALCT1010 unit for maintaining constant optical power over the Extended C-band.

Explains frequency allocation for ALCT1010 lasers and mentions C_TYPE alarms.

States that ALCT1010 provides automatic laser control, one board per 8-channel sub-band.

Refers to section 5.3.2.4 on page 226 for ALCT1010 optical characteristics.

Describes the unit start-up process for ALCT1010, including laser and VOA control.

Describes the LOFA11y0 as an extended C-band, dual-stage, erbium doped fiber amplifier.

Summarizes main features of LOFA1110 (22dB gain) and LOFA1120 (28dB gain) amplifiers.

Refers to section 5.3.2.5 on page 227 for LOFA11y0 optical characteristics.

Refers to section 5.2.2.3 for optical safety information.

Describes the unit start-up process for LOFA11y0, including automatic tuning and power settings.

Details the initialization process for LOFA11y0, including default settings and power tuning.

Explains how LOFA11y0 provisions are stored in software for restart after replacement.

Details the ESCT1000 board, its hardware platform for EC and SC functions, and its role in node management.

Provides mandatory information to ESCT for system operation, including EQUIPMENT_TYPE and SHELF_ID.

Manages the supervision channel (OSC) and service channels (UDC) over a 1510nm wavelength.

Details functionalities of OSCU1010, including MUX/DEMUX, Supervision Manager, and SPI interface.

Summarizes main features of OSCU1010 for managing supervision and user data channels.

Refers to section 5.3.2.6 on page 228 for OSCU1010 optical characteristics.

Describes functional configurations of OSCU1010 in Line Terminal and OADM/Back-to-Back setups.

Details the HSKU1000 for building up maintenance operations and managing relays/opto-couplers.

Refers to section 5.1.1 on page 209 for HSKU1000 electrical characteristics.

Describes the RAIU1000 for monitoring rack alarms and interfacing with TRU, ESCT, and FAN/PSUP boards.

Explains alarm management logic for front panel LEDs and TRU interconnection.

Details interconnection types with the TRU using DB9-RJ11 and DB9-DB25 cables.

Presents the block diagram of the PSUP1000 card, showing power flow and filtering.

Presents the block diagram of the FANS1000 unit, showing fans, monitoring, and control signals.

Details main system characteristics including optical bit rates, interfaces, configurations, and features.

Covers general system characteristics like optical bit rates, wavelengths, application types, and interfaces.

Addresses electrical and optical safety requirements, labelling, and procedures.

Details electrical safety compliance, connection status, labelling, and general safety instructions.

Mentions labels affixed during factory settings for electrical safety.

Reports safety instructions for assembly, maintenance, and safe use, including hazardous voltage precautions.

Covers optical safety, equipment hazard classification, labelling, aperture/fiber connectors, and APSD procedures.

Explains hazard level classification based on IEC 60825 standard and defines laser safety areas.

Reports labelling for optical sources compliant with IEC 60825 Standard.

Describes locations of apertures and fibre connectors on unit front and access card views.

Discusses engineering design features ensuring laser radiation is not accessible during normal operation.

Refers to general safety instructions for assembly, maintenance, and safe use related to laser radiation.

Details the APSD procedure, generic rules, and an example of line failure between two line repeaters.

Details optical characteristics for Tributary Direct transponders and multiplexers/demultiplexers.

Provides optical characteristics for the Client/B&W interface of TRBD1xyz units.

Lists common specifications for B&W optical interfaces of TRBD1x1z units.

Details optical characteristics for CMDX1010 and BMDX1000/1100 multiplexers/demultiplexers.

Provides CMDX1010 optical interfaces specification, including common and parameter details.

Details BMDX1000 optical interfaces specification, including common parameters.

Provides BMDX1100 optical characteristics for Band OADM applications.

Details ALCT1010 optical interfaces specification, including fiber type and output power.

Provides LOFA11y0 optical interfaces specification, detailing optical ports and wavelength ranges.

Details OSCU1010 optical characteristics, including nominal bit rate, fiber type, and wavelength.

Describes unit alarms, LED indications, and centralized equipment alarms with severity terminology.

Explains the meaning of unit alarms indicated by bicolor LEDs on port/access cards.

Details centralized alarms collected by ESCT1000 and their LED indications.

Covers power supply characteristics, including input voltage range, output voltages, and maximum power consumption.

Lists maximum power consumption for various boards and units.

Details mechanical characteristics including rack compatibility, board sizes, cooling, and electrical connectors.

Covers environmental characteristics, focusing on climatic conditions for operating and storage.

Explains climatic requirements for operating conditions, specifically Class 3.2 locations.

Applies to locations with partial temperature control, detailing exposure to solar radiation, draughts, and contaminants.

Details storage requirements, including packaging and conditions for weather-protected locations (Class 1.2).

Covers transportation requirements, including careful transportation (Class 2.2) and low temperature limits.

Details EMC requirements as per ETSI EN 300 386 and additional requirements of ES 201 468.

Introduces maintenance, emphasizing the importance of reading relevant handbooks and following safety rules.

Outlines general safety rules to observe before working on optical connections and during maintenance.

Provides general rules for maintenance, including equipment checks and ESD precautions.

Classifies maintenance into ROUTINE (PREVENTIVE) and CORRECTIVE operations.

Mentions the use of local terminals (PC) and Operation Systems for alarms and equipment management.

Describes periodic measurements and checks to detect deteriorated devices needing adjustment or replacement.

Suggests operations for every six months, including no-dust filter cleaning.

Provides step-by-step instructions for cleaning or substituting the no-dust filter, with safety warnings.

Suggests yearly operations, specifically checking power cables.

Details the procedure for checking power cables, including safety rules and grounding.

Suggests replacing each FANS1000 unit after five years of working.

Covers corrective maintenance and troubleshooting procedures, referring to the Operator's Handbook.

Provides instructions for substituting a faulty FANS1000 unit when a hardware failure alarm is raised.

Discusses suggested spare parts, general rules for spare parts management, and particular rules.

Provides guidance on determining the number of spares based on customer requirements and MTBF/MTTR.

Outlines general rules for storing and handling spare units to ensure their integrity.

Covers specific rules for managing spare parts common to different equipment or versions.

Describes the repair form to be filled for faulty units and returned to Alcatel.

Explains how each unit/sub-unit is distinguished by dual Part No. and design/production series.