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Adva FSP 3000 Hardware Manual

Adva FSP 3000 Hardware Manual

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Fiber Service Platform 3000 C

Hardware Guide

Product Release: 1.1
Document Issue: A (12/09/2016)
Document Number: 80000040037

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Questions and answers

Michael Suarez
March 19, 2025

How do you rack a 1U FSP 3000 in a 4 post rack?

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1 comments:
Mr. Anderson
March 19, 2025

To rack an Adva FSP 3000 in a 4-post rack, follow these steps:

1. Ensure Proper Grounding – Wear an anti-static wrist strap or heel strap connected to a grounded ESD jack.

2. Mark Mounting Holes – Identify and mark the mounting holes on the rack where the shelf will be mounted.

3. Install Cage Nuts – Insert two or four cage nuts into the corresponding holes on both sides of the rack.

4. Mount the Shelf:
- With one person on each side, lift the shelf and align its bracket holes with the rack mounting holes or cage nuts.
- Use a Pozidriv screwdriver and two screws to attach the left mounting bracket to the rack.
- Use a Pozidriv screwdriver and two screws to attach the right mounting bracket to the rack.

5. Repeat for Additional Shelves – If installing multiple shelves, repeat the procedure for each one.

Ensure proper ventilation by maintaining at least 5 cm (2 inches) of unobstructed space around ventilation openings. If gaps exist between shelves, use a rack blind panel or fiber tray to prevent airflow recirculation.

This answer is automatically generated

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Summary of Contents for Adva FSP 3000

  • Page 1: Hardware Guide

    Fiber Service Platform 3000 C Hardware Guide Product Release: 1.1 Document Issue: A (12/09/2016) Document Number: 80000040037...

  • Page 2: Faceplate Label

    Reliance on this content is at the relying party's sole risk and will not create any liability or obligation for ADVA Optical Networking. Any references in this document to publications and/or Internet sites that are not from ADVA Optical Networking are provided for convenience only and do not in any manner serve as an endorsement of those publications and/or Internet sites.

  • Page 3: Table Of Contents

    Table of Contents Hardware Guide Table of Contents Preface Safety Symbol and Message Conventions Documentation FSP 3000 C Documentation Suite Accessing Documentation Documentation Feedback Obtaining Technical Assistance Customer Portal Technical Services Contact ADVA Optical Networking Document Revision History PART 1: HARDWARE COMPONENTS...
  • Page 4 Features Specifications CEM-4 Overview Features Specifications ECM-2 Overview Features Specifications FTM-2 Overview Features FTM-4 Overview Features PSM-AC4 Overview Features Specifications PSM-DC Overview Features Specifications Traffic Module Support Traffic Module Types Traffic Module Compatibility Amplifier Modules General Information Overview Naming Conventions AM-S20H-2 Overview Features...
  • Page 5 FD-48E Overview Features Interfaces Client Interface Monitor Interface Network Interface Client Port Channel Assignments Signal Path Specifications FD-128D Overview Features Interfaces Client Interface Interconnect Interface Monitor Interface Network Interface Client Port Channel Assignments Signal Path Specifications Shipment Contents Muxponder Modules General Information Overview Naming Conventions...
  • Page 6 FMT/1HU Shelf Overview Features Cable Capacity Shipment Contents Product Labels ADVA Identification Label Certification Label — Modules and Passive Shelves Certification Label — Shelves Certification Pending Label Faceplate Label 1 Faceplate Label 2 Product ID Label — Module and Passive Shelves Product ID Label —...
  • Page 7 Heat Dissipation Racks Supported Rack Requirements Building Structure Connection for Rack Clearance Requirements Grounding and Power General Power and Grounding Guidelines AC Power Source Requirements DC Power Source Requirements Cables Cable Management Best Practices Grounding Cables Grounding Cable — SH12 Grounding Cable — SH4R Power Cables DC Power Cable Specifications Overview...
  • Page 8 Best Practices Required Tools and Equipment Unpacking the SH12 and SH4R Shelves Unpacking a 4U or 1U Shelf Inspecting the FSP 3000 C Equipment Installing the Mounting Brackets Required Tools and Equipment Installing the Mounting Brackets on the SH12 and SH4R Shelves...
  • Page 9 Required Tools and Equipment Installing the CEM Installing the ECM-2 Installing the FTM-2 in the SH12 Installing the FTM-4 in the SH4R Installing the PSM-DC in the SH12 Installing the PSM-AC4 in the SH4R Installing the Traffic Modules and Pluggable Transceivers Required Tools and Equipment Installing a Traffic Module Installing a QSFP Pluggable Transceiver...
  • Page 10 Overview Required Tools and Equipment Measuring the Network Fiber Attenuation PART 4: MAINTAINING HARDWARE Replacing the Shelf Air Filter Pad Required Tools and Equipment Replacing the SH12 Air Filter Pad Replacing the SH4R Air Filter Pads Inspecting and Cleaning Fiber-optic Connectors and Receptacles Overview Best Practices Required Tools and Equipment...
  • Page 11 Removing a Module Slot Cover Installing a Module Slot Cover Returning Equipment Overview Required Tools and Equipment Obtaining an ADVA Optical Networking RMA Number Returning FSP 3000 C Hardware PART 6: SAFETY GUIDELINES General Safety Guidelines and Warnings Definition of Safety Warning Levels...
  • Page 12 Warning Waste Alert Safety Requirements, Warnings, and Guidelines FSP 3000 C General Safety Guidelines and Warnings Operational Risks Electrostatic Discharge Damage Prevention and Warning ESD Protective Clothing and Accessories Workspace Setup Equipment Handling Local Building and National Electrical Codes Warning...
  • Page 13 Class 1M Laser Safety Limits Practical Issues Regarding Laser Safety Traffic Module Considerations FSP 3000 C Traffic Modules Alien Wavelength Methods for Achieving Laser Safety Supported Configurations 48 Channel Multiplexed with FD-48E 128 Channel Multiplexed with FD-128D Optical Amplifiers Maintenance and Operational Safety Guidelines and Warnings...
  • Page 14 Agency Approvals — FSP 3000 C System Compliance Statements for EMC Requirements European Union Japan United States Canada Laser Safety Compliant Statements EU Statements WEEE Statements RoHS Statement Supplier's Declaration of CE Conformity PART 7: APPENDICES MTBF Hours for FSP 3000 C Equipment...

  • Page 15: Preface

    Safety Symbol and Message Conventions Preface Safety Symbol and Message Conventions Documentation Obtaining Technical Assistance Document Revision History The pictures or graphics shown in this document are for reference only. They are based upon the latest hardware revision available at the time of publication.
  • Page 16 Safety Symbol and Message Conventions Icon Meaning Description Warns you that the equipment contains Class 1 lasers, which are safe under all Laser Radiation normal use conditions. It also alerts you Warning — Class 1 to the risk of possible laser radiation if Laser the system is not used as designed or altered in any way.

  • Page 17: Documentation

    Documentation Feedback FSP 3000 C Documentation Suite FSP 3000 C CLI User Guide FSP 3000 C Hardware Guide FSP 3000 C REST API User Guide FSP 3000 C System Overview FSP 3000 C Troubleshooting Guide Accessing Documentation Online Customer Portal portal.advaoptical.com...

  • Page 18: Obtaining Technical Assistance

    Our service options include: 24 x7 telephone support Web-based support tools On-site support Technical training, both on-site and at ADVA facilities in Germany and the USA Expedited repair service Extended hardware warranty service Customer Portal The customer portal allows you to:...

  • Page 19: Document Revision History

    Document Revision History ADVA Optical Networking Asia Shenzhen, China +86 755 8621 7400 http://www.advaoptical.com Document Revision History For detailed information about a specific product release, please see the appropriate Release Notes. Product Document Document Issue Date Description Release Number Issue December Rel 1.1...

  • Page 20: Part 1: Hardware Components

    PART 1: HARDWARE COMPONENTS Shelves Infrastructure Modules Traffic Module Support Amplifier Modules DWDM Filters and Filter Modules Muxponder Modules Pluggable Transceivers Accessories Product Labels FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 21: Shelves

    Available Shelves SH12 Shelf SH4R Shelf Passive Shelf Management Available Shelves Depending on your configuration needs, ADVA Optical Networking offers several FSP 3000 C product family shelf options. Table 1: Available FSP 3000 C Shelves Power Access and Shelf Shelf Type...

  • Page 22: Sh12 Shelf

    The SH12 transport shelf is a rack-mountable chassis, flexible to support multiple configurations. This shelf accommodates optical traffic and infrastructure modules, as well as accessories from the FSP 3000 C product family. Figure 1: SH12 Shelf and Components Table 2: General Information — SH12...
  • Page 23 SH12 Shelf Table 2: General Information — SH12 Parameter Value Notes Depth 280 mm (11.0 in.) With front covers Width 443 mm (17.5 in.) Height 533 mm (21.0 in.) Weight 31.5 kg (69.5 lbs) Measured with Three FTM-2s One CEM-2 Two ECM-2s Four PSM-DCs Front covers...

  • Page 24: Features

    Telcordia SR-3580 Level 3 (NEBS) compliance ETSI EN 300 019-1-3 Class 3.1 IEC 60529 IP20 (indoor office) Environmental Specifications Power MTBF Hours for FSP 3000 C Equipment Infrastructure Modules Traffic Module Compatibility Accessories Installation Overview — SH12 and SH4R Shelves Permissible Configurations...

  • Page 25: Slot Numbers And Assignments

    Provides shelf status LEDs for identification and easy troubleshooting Offers front fiber routing using the fiber interconnects Keep fiber-optic cables organized. If you do not use your rack posts for fiber management, ADVA Optical Networking strongly recommends using the FMT/1HU. Overview...
  • Page 26 SH12 Shelf Figure 1: SH12 Slot Numbering Overview Infrastructure Modules Traffic Module Support FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 27: Cooling And Airflow

    SH12 Shelf Cooling and Airflow The following figure provides visual details about the SH12 cooling and airflow. Figure 2: Airflow through the SH12 At the bottom of the shelf, the PSMs are cooled by internal fans with airflow from front to rear.

  • Page 28: Power

    SH12 Shelf If you are installing the SH12 in a cabinet, a single, populated SH12 needs a minimum of 750 CFM. See Supported Rack Requirements for important supported installation features and requirements. Clearance Requirements Heat Dissipation FTM-2 Air Filter Pads Power A centralized power supply architecture is supported.

  • Page 29: Grounding

    SH12 Shelf Grounding The SH12 contains the following ground terminals and connectors: Chassis ground Signal ground Strap for 2-zone/3-zone operation ESD ground The signal ground and 3-zone ground configuration are not supported in this release. To provide greater flexibility, the SH12 supports four chassis grounding terminals, as shown in the following figure.

  • Page 30: Shipment Contents

    Grounding Shipment Contents Overview The SH4R transport shelf is a rack-mountable chassis, which can accommodate optical traffic and infrastructure modules, as well as accessories from the FSP 3000 C product family. FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)
  • Page 31 Value Notes Sales item number 1078800051-01 Release introduced Release 1.1 Official product name FSP 3000 C - 4R Depth 542 mm (21.5 in.) With front cover and rear AC power cables Width 443 mm (17.5 in.) Height 177 mm (7.0 in.)
  • Page 32 SH4R Shelf Table 4: General Information — SH4R Parameter Value Notes Weight 22.6 kg (49.9 lbs) Measured with Two FTM-4s One CEM-4 Two ECM-2s Three PSM-AC4s Front cover Slot covers Number of slots 2 for management modules 7 for traffic modules Power Power Supply Module ...

  • Page 33: Features

    Telcordia SR-3580 Level 3 (NEBS) compliance ETSI EN 300 019-1-3 Class 3.1 IEC 60529 IP20 (indoor office) Environmental Specifications Power MTBF Hours for FSP 3000 C Equipment Infrastructure Modules Traffic Module Compatibility Accessories Installation Overview — SH12 and SH4R Shelves Permissible Configurations...

  • Page 34: Slot Numbers And Assignments

    Provides shelf status LEDs for identification and easy troubleshooting Offers front fiber routing using the fiber interconnects Keep fiber-optic cables organized. If you do not use your rack posts for fiber management, ADVA Optical Networking strongly recommends using the FMT/1HU. Overview...
  • Page 35 SH4R Shelf Figure 6: SH4R Slot Numbering — Front View Figure 7: SH4R Slot Numbering — Rear View Overview Infrastructure Modules Traffic Module Support FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 36: Cooling And Airflow

    SH4R Shelf Cooling and Airflow The following figure provides visual details about the SH4R cooling and airflow. Figure 8: Top View of Airflow through the SH4R The airflow direction allows another shelf to be mounted directly above or below without needing an air gap between the shelves.

  • Page 37: Power

    SH4R Shelf Clearance Requirements Heat Dissipation FTM-4 Air Filter Pads Power A centralized power supply architecture is supported. The PSM-AC4s convert the external AC power to internal 12 VDC which is distributed to all modules via the backplane. The PSM-AC4s work in a redundancy configuration, supplying the required power to the shelf in a load-sharing mode.

  • Page 38: Shipment Contents

    SH4R Shelf To provide greater flexibility, the SH4R supports two chassis grounding terminals on the rear of the shelf, as shown in the following figure. Figure 9: Grounding Terminals Grounding Cable — SH4R General Power and Grounding Guidelines Electrical Safety Guidelines and Warnings SH4R Shelf Shipment Contents Each SH4R shipment consists of the following components and accessories:...

  • Page 39: Passive Shelf Management

    Passive Shelf Management SH4R Shelf Accessories Grounding Cable — SH4R Unpacking and Inspecting the Shelves and Components Electrostatic Discharge Damage Prevention and Warning Passive Shelf Management Passive shelf management is routed via the Common Equipment Module (CEM), as shown in the following figures. The passive shelves are managed by the CEM (reading of inventory only —...
  • Page 40 Passive Shelf Management SH12 Shelf SH4R Shelf FD-128D FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 41: Infrastructure Modules

    CEM-4 ECM-2 FTM-2 FTM-4 PSM-AC4 PSM-DC Overview The chapter provides details about the FSP 3000 C infrastructure modules. The following table provides details about each available FSP 3000 C shelf and the associated infrastructure modules. Infrastructure Modules Shelf Management Power...

  • Page 42: Overview

    CEM-2 Specifications Overview The CEM-2 incorporates fan control, LED signaling and alarm LED control, integrated utility feature, and ports for managing passive shelves. The CEM-2 acts as the controller for the FTM-2, increasing and decreasing the fan speed according to a set of input parameters from several different sensors. The main sensor is the temperature sensor on the CEM-2 and additional sensors on each card and module are considered.

  • Page 43: Features

    Due to airflow shortcut, the CEM-2 needs to be reinserted or replaced in less than one minute Airflow shortcut will lead to overheating and eventually a power shutdown of the shelf Environmental Specifications MTBF Hours for FSP 3000 C Equipment SH12 Shelf Slot Numbers and Assignments Passive Shelf Management...

  • Page 44: Overview Features Specifications Ecm-2

    CEM-4 Even though some FSP 3000 C components use FireWire connectors for interconnecting, neither the FireWire protocol nor pinning is supported. Table 8: Specifications — Management Ports Electrical connector type RJ-45 Receptacle type 8P8C Data signal IEEE 802.3 100Mb/1G Ethernet Unshielded for cable length: <...
  • Page 45 CEM-4 Figure 13: CEM-4 Faceplate The External I/O interface and USB port are supported in a future release. Table 9: General Information — CEM-4 Parameter Value Notes Sales item number 1063801054-01 Release introduced Release 1.1 Compatible shelves SH4R Width 50.7 mm (2.0 in.) Height 164.4 mm (6.5 in.) Weight...
  • Page 46 Due to airflow shortcut, the CEM-4 needs to be reinserted or replaced in less than one minute Airflow shortcut will lead to overheating and eventually a power shutdown of the shelf Environmental Specifications MTBF Hours for FSP 3000 C Equipment SH4R Shelf Slot Numbers and Assignments Passive Shelf Management...
  • Page 47 Signals Shelf detect (1 pin) Power (3V3 and ground, 2 pins) Even though some FSP 3000 C components use FireWire connectors for interconnecting, neither the FireWire protocol nor pinning is supported. Table 11: Specifications — Management Ports Electrical connector type...
  • Page 48 ECM-2 Overview The element controller module (ECM-2) is the shelf controller module, supporting the internal and external communication of the SH12 and SH4R shelves. All modules are monitored and controlled by the ECM-2. Each module is connected to internal shelf communications links on the backplane which enables data exchange with the ECM-2s.
  • Page 49 IEC 60529 IP20 (indoor office) Due to airflow shortcut, the ECM-2 needs to be reinserted or replaced within less than one minute. Environmental Specifications MTBF Hours for FSP 3000 C Equipment SH12 Shelf SH4R Shelf Slot Numbers and Assignments — SH12 Slot Numbers and Assignments —...
  • Page 50 ECM-2 Specifications Port Pinouts Slot Numbers and Assignments — SH12 Slot Numbers and Assignments — SH4R Traffic Module Support Specifications Table 13: Specifications — External DCN/CLI Ports Electrical connector type RJ-45 Receptacle type 8P8C Data signal IEEE 802.3 100Mb/1G Ethernet Unshielded for cable length: < 3 m Cable type Shielded (S/FTP) for cable length: 3 m to 100 m Maximum link distance...
  • Page 51 FTM-2 Overview Features Ethernet Cables USB Cables FTM-2 Overview Features Overview The SH12 has three redundant fan modules (FTM-2s) installed at the top of the shelf providing the necessary cooling to keep the modules within acceptable operating temperatures. The FTM-2s pull air through the shelf — cooling the modules — and exhaust the hot air out at the top rear.
  • Page 52 A dirty air filter pad negatively influences cooling efficiency. Replace dirty air filter pads at least once a year. ADVA Optical Networking recommends replacing the air filter pad every 90 days. A software timer is provided reminding filter pad replacement.
  • Page 53 Environmental standards Telcordia SR-3580 Level 3 (NEBS) compliance ETSI EN 300 019-1-3 Class 3.1 IEC 60529 IP20 (indoor office) Environmental Specifications MTBF Hours for FSP 3000 C Equipment Cooling and Airflow Slot Numbers and Assignments SH12 Shelf Features Is field replaceable...

  • Page 54: Overview

    FTM-4 Overview The SH4R has two redundant fan modules (FTM-4s) installed at the back of the providing the necessary cooling to keep the modules within acceptable operating temperatures. The FTM-4s pull air through the shelf — cooling the modules — and exhaust the hot air out at the rear.
  • Page 55 FTM-4 A dirty air filter pad negatively influences cooling efficiency. Replace dirty air filter pads at least once a year. ADVA Optical Networking recommends replacing the air filter pad every 90 days. A software timer is provided reminding filter pad replacement.

  • Page 56: Features

    PSM-AC4 Features Is field replaceable Controlled by the CEM-4 Speed increases if any of the FTM-4s fails/is removed or the CEM-4 fails/is removed Synchronization (via software) of FTM-4 rotation speed to reduce noise Provides a module status LED Cooling and Airflow CEM-4 SH4R Shelf PSM-AC4...

  • Page 57: Features

    Environmental standards Telcordia SR-3580 Level 3 (NEBS) compliance ETSI EN 300 019-1-3 Class 3.1 IEC 60529 IP20 (indoor office) Environmental Specifications MTBF Hours for FSP 3000 C Equipment Power Slot Numbers and Assignments SH4R Shelf Features Is field replaceable and hot-swappable...
  • Page 58 PSM-AC4 Table 18: Electrical Specifications — PSM-AC4 Inrush current < 30 A at ≥ 90 VAC (<10 ms after power on) Typical: 70 W Power consumption Maximum: 120 W Typical efficiency Maximum output power 1200 W Nominal output voltage 12.2 VDC Maximum output current 98.4 A 100 VAC: 17 to 20 A...

  • Page 59: Psm-Dc

    PSM-DC Power AC Power Cable Specifications Overview PSM-DC Overview Features Specifications Overview The SH12 supports up to four DC power supply modules (PSM-DC) installed at the bottom of the shelf. The PSM-DC converts the external DC power provided by the PFMF to internal 12 VDC and distributes it to all modules through the backplane.

  • Page 60: Features

    Environmental standards Telcordia SR-3580 Level 3 (NEBS) compliance ETSI EN 300 019-1-3 Class 3.1 IEC 60529 IP20 (indoor office) Environmental Specifications MTBF Hours for FSP 3000 C Equipment Power Slot Numbers and Assignments SH12 Shelf Features Is field replaceable and hot-swappable...
  • Page 61 PSM-DC Table 22: Electrical Specifications — PSM-DC Maximum output current 100 A –48 VDC: 36 to 40 A Recommended external circuit breaker –60 VDC: 28 to 40 A –48 VDC: 40 A Recommended external fuse –60 VDC: 35 A Minimum hold-up time Not defined Table 23: Efficiency Load...

  • Page 62: Traffic Module Support

    Electrostatic Discharge Damage Prevention and Warning SH12 Shelf SH4R Shelf Installing the Traffic Modules and Pluggable Transceivers Traffic Module Types Depending on your needs and configuration, the FSP 3000 C can support the following traffic module types. Type Module Code Amplifier Module...

  • Page 63: Amplifier Modules

    General Information Chapter 4 Amplifier Modules General Information AM-S20H-2 General Information Overview Naming Conventions Overview Light signals transmitted in DWDM networks over multi-kilometer fiber-optic links are subject to attenuation due to fiber loss and component insertion losses. Optical amplifiers (OAs) are used in such networks to reconstitute attenuated optical signals. Therefore, OAs are key devices in DWDM networks that allow expanding the effective fiber span between the data source and the destination without the need for repeaters at intermediate points.

  • Page 64: Naming Conventions

    General Information fiber run and pumps in opposite direction toward the data source. This means that the data signals are amplified many kilometers before they reach the output end of the transmission fiber. Unlike an EDFA, which amplifies all the channels in a DWDM signal simultaneously, the Raman amplifier increases the data signal strength of any C-band wavelength in transport.

  • Page 65: Am-S20H-2

    AM-S20H-2 Table 25: Amplifier Module Naming Convention Section Parts of the Name Value Meaning Amplifier type Single-stage EDFA Note: In case of Hybrid amplifier, the EDFA section is designated first. Double-stage EDFA with mid-stage access Raman Power or gain range Power range (in dBm) for EDFA or gain range (indB) for Raman Amplifier type and power/gain For hybrid and dual amplifiers...

  • Page 66: Features

    Telcordia SR-3580 Level 3 (NEBS) compliance ETSI EN 300 019-1-3 Class 3.1 IEC 60529 IP20 (indoor office) Environmental Specifications MTBF Hours for FSP 3000 C Equipment Traffic Module Compatibility Slot Numbers and Assignments — SH12 Slot Numbers and Assignments — SH4R...

  • Page 67: Interfaces

    AM-S20H-2 Limited bi-directional optical access to network interface via the auxiliary interface, allowing access to each network fiber Ultra-fast transient suppression Monitor ports allowing access to the amplifier input and output Is field replaceable Interfaces Signal Path Handling Modules Electrostatic Discharge Damage Prevention and Warning Interfaces Auxiliary Interface Client Interface...

  • Page 68: Monitor Interface

    AM-S20H-2 Optical connector LC/PC Interface type Protocols None, optical Supported Fault Management (FM) Supported Performance Monitoring OPT, OPR, OPT TCA H/L, OPR TCA H/L (PM) Monitor Interface Number of monitor ports Uni-directional Type of monitor interface Mon N-R: approx. 1% of EDFA input at N-R Mon C-T: approx.

  • Page 69: Signal Path

    AM-S20H-2 Signal Path The following figure provides a simplified functional block diagram illustrating the AM- S20H-2 signal path. Overview Features Interfaces Specifications Table 27: Optical Specifications — High gain EDFA (20 dBm Output) for N-R to Passband 1528.5 nm to 1568.5 nm Polarization dependent gain <0.5 dB Polarization mode dispersion...
  • Page 70 AM-S20H-2 Table 27: Optical Specifications — High gain EDFA (20 dBm Output) for N-R to Gain flatness <1.5 dBpp for gain set range: 19 dB to 35 dB –2.0 dB to 0 dB Tilt set range Default: –1.0 dB Tilt set resolution 0.1 dB Minimum total input power –35 dBm...
  • Page 71 AM-S20H-2 Overview Features Interfaces FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 72: Dwdm Filters And Filter Modules

    General Information Chapter 5 DWDM Filters and Filter Modules General Information FD-48E FD-128D General Information Overview Naming Conventions Overview Optical filter modules are essential components to perform specific functions in the FSP 3000 C system, such as the splitting and combining of bands, channel groups and individual channels, the dropping and adding single channels, and the protection of channels.

  • Page 73: Naming Conventions

    General Information Naming Conventions The DWDM filter module name is made up of several sections, each section identifying a module's specific features. Example: Table 32: DWDM Filter Naming Convention Section Parts of the Name Value Meaning Module/shelf type DWDM filter module/shelf Number of client ports Filter type Blue band CWDM Band splitter...

  • Page 74: Fd-48E

    FD-48E Table 32: DWDM Filter Naming Convention Section Parts of the Name Value Meaning Variant — Part 1 Metro Enterprise AES Encryption Passive filters (not slide in modules) none General or Core L-Band Tunable Dispersion Compensation Variant — Part 2 n > 1 Number in development sequence.

  • Page 75: Features

    Telcordia SR-3580 level 3 (NEBS), compliance ETSI EN 300 019-1-3 Class 3.1 IEC 60529 IP20 (indoor office) Environmental Specifications MTBF Hours for FSP 3000 C Equipment Traffic Module Compatibility Slot Numbers and Assignments — SH12 Slot Numbers and Assignments — SH4R...

  • Page 76: Interfaces

    FD-48E Two bi-directional monitor ports for input (N-R) and output (N-T) Two-color module (P) LED Traffic alarm summary LED Ultra-fast transient suppression Is field replaceable Has front-accessible ports and connectors Is transport protocol independent Interfaces Signal Path Client Port Channel Assignments Handling Modules Electrostatic Discharge Damage Prevention and Warning Interfaces...

  • Page 77: Network Interface

    FD-48E Network Interface Number of network ports 1 Tx and 1 Rx Type of network interface Bi-directional optical Optical connector LC/PC Fiber type SM G.652 Client Port Channel Assignments On the faceplate, each client port is labeled with the port number range (C1 - C12, etc.). Each MPO port supports 12 channels (12 Tx and 12 Rx).
  • Page 78 FD-48E Client Frequencies Frequencies Center Channel ports (MHz) (GHz) Wavelengths (nm) 193600000 193600 1548.51 193400000 193400 1550.12 193200000 193200 1551.72 193000000 193000 1553.33 192800000 192800 1554.94 192600000 192600 1556.55 C25 to C36 192400000 192400 1558.17 192200000 192200 1559.79 192000000 192000 1561.42 191800000 191800...

  • Page 79: Signal Path

    FD-48E Signal Path The following figure provides a simplified functional block diagram illustrating the FD-48E signal path. Overview Features Interfaces Specifications The following tables provide the optical specifications from the client port to the network port. Table 34: Optical Characteristics — Multiplexer Insertion loss Maximum: 6.0 dB Passband width...

  • Page 80: Overview

    FD-128D Table 35: Optical Characteristics — Demultiplexer Isolation for adjacent channels >23 dB Passband width >200 pm Overview Features Interfaces FD-128D Overview Features Interfaces Client Port Channel Assignments Signal Path Specifications Shipment Contents Overview The FD-128D is a rack-mountable, 128-port multiplexer/demultiplexer shelf which can support C-band channels from #19600 GHz through #19123 GHz.
  • Page 81 Value Notes Sales item number 1063805111 Release introduced FSP 3000R7 This shelf is compatible with both the FSP Release 15.2 3000R7 and FSP 3000 C systems. Compatible shelves/CEMs SH12/CEM-2 SH4R/CEM-4 Depth 270 mm (10.6 in.) Width 445 mm (17.5 in.)

  • Page 82: Features

    ETSI EN 300-019-1-2 class 1.2 and 2.3, ETSI EN 300 019-1-3 Class 3.1 IEC 60529 IP20 (indoor office) Environmental Specifications MTBF Hours for FSP 3000 C Equipment Traffic Module Compatibility Slot Numbers and Assignments — SH12 Slot Numbers and Assignments —...

  • Page 83: Interfaces

    I2C (2 pins) Signals Shelf detect (1 pin) Power (3V3 and ground, 2 pins) Even though some FSP 3000 C components use FireWire connectors for interconnecting, neither the FireWire protocol nor pinning is supported. one free pin Monitor Interface Number of monitor ports...

  • Page 84: Network Interface

    For example, the C1 client port has both a transmit (C1-T) and receive (C1-R) connector. The following table provides details about each client port. FSP 3000 C Frequencies Wavelengths...
  • Page 85 FD-128D FSP 3000 C Frequencies Wavelengths Client ports Channel Names Frequencies (MHz) (THz) (nm) (GHz) 19510 195100000 195.10 1536.60 19506 195062500 195.06 1536.90 19502 195025000 195.02 1537.20 19498 194987500 194.98 1537.49 19495 194950000 194.95 1537.79 19491 194912500 194.91 1538.08 19487 194875000 194.87...
  • Page 86 FD-128D FSP 3000 C Frequencies Wavelengths Client ports Channel Names Frequencies (MHz) (THz) (nm) (GHz) 19371 193712500 193.71 1547.61 19367 193675000 193.67 1547.91 19363 193637500 193.63 1548.21 19360 193600000 193.60 1548.51 19356 193562500 193.56 1548.81 19352 193525000 193.52 1549.11 19348 193487500 193.48...
  • Page 87 FD-128D FSP 3000 C Frequencies Wavelengths Client ports Channel Names Frequencies (MHz) (THz) (nm) (GHz) 19232 192325000 192.32 1558.78 C100 19228 192287500 192.28 1559.08 C101 19225 192250000 192.25 1559.38 C102 19221 192212500 192.21 1559.69 C103 19217 192175000 192.17 1559.99 C104...

  • Page 88: Signal Path

    FD-128D Signal Path The following figure provides a simplified functional block diagram illustrating the FD- 128D signal path. Overview Features Interfaces Specifications The following tables provide the optical specifications from the client port to the network port. Table 37: Optical Characteristics — Multiplexer Insertion loss Maximum: <9.5 dB Passband width...

  • Page 89: Shipment Contents

    FD-128D Overview Features Interfaces Shipment Contents Each FD-128D shipment consists of the following components and accessories: FD-128D shelf Front cover Mounting brackets — 19-inch, 23-inch, and ETSI IEEE 1394 interface cable (IC300/PSCU/IEEE1394) to connect to the CEM Accessories IEEE 1394 Interface Cable Unpacking and Inspecting the Shelves and Components Electrostatic Discharge Damage Prevention and Warning FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 90: Muxponder Modules

    However, some modules will support a single, higher-speed client to the single, high-speed network. Network interfaces are generally for connection to the ADVA WDM network via optical filters or ROADMs. ADVA networks are either DWDM or CWDM. These interfaces vary per application in wavelength, reach, rate, modulation, and bandwidth.

  • Page 91: Naming Conventions

    General Information interface digital PMs and fault detection are performed non-intrusively. The goal is always to minimize interference with the client services. Traffic Module Compatibility Electrostatic Discharge Damage Prevention and Warning Handling Modules Naming Conventions The muxponder module name is made up of several sections, each section identifying a module's specific features.

  • Page 92: Mp-2B4Ct

    MP-2B4CT Table 39: Muxponder Module Naming Convention Section Parts of the Name Value Meaning Client or multifunctional port 200 Gb (number of ports and max speed) 100 Gb 400 Gb 28 Gb/32 GbFC 16 GbFC 1 Gb 64 GFC 40 Gb 1 Tb 8 Gb 4 Gb...

  • Page 93: Overview

    Telcordia SR-3580 Level 3 (NEBS) compliance ETSI EN 300 019-1-3 Class 3.1 IEC 60529 IP20 (indoor office) Environmental Specifications MTBF Hours for FSP 3000 C Equipment Traffic Module Compatibility Slot Numbers and Assignments — SH12 Slot Numbers and Assignments — SH4R Pluggable Transceivers FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 94: Features

    MP-2B4CT Features Two 100G/200G network DWDM interfaces Four 100G Ethernet client interfaces Network Modulation: 100G: DP-QPSK, 200G: 16 QAM Comprehensive fault and performance monitoring Supports facility loopbacks on all external interfaces and terminal loopbacks on client interfaces Is compatible with FSP 3000R7 100G QPSK coherent modules when network is 100G DP-QPSK with compatible FEC and 100G Ethernet client Ultra-fast transient suppression Is field replaceable...

  • Page 95: Network Interface

    MP-2B4CT Table 41: 100G Ethernet Client PTP: LASER Fail, FTS, LOS Supported Fault Management (FM) CTP: LOA, HiBER PCS: Local Fault PTP: OPT, OPR, OPT TCA H/L, OPR TCA H/L CTP: FEC corrected errors, FEC Supported Performance Monitoring uncorrected blocks, PreFEC BER (PM) PCS: PCS Block Errors, PCS BIP Errors, ES ETH: Bytes, Frames, CRC...
  • Page 96 MP-2B4CT Table 42: 100G Network Interface PHY: LASER Fail, LASER On Delay, LOS-P, LOS OCh: Loss of Modem Sync Supported fault management (FM) OTU4V: LOF, LOM, BDI, DEG ODU4: OCI, LCK, BDI, DEG PHY: OPT, OPR, OPT TCA H/L, OPR TCA H/L, LASER Temp, LBC OCh: CDC, SNR, CFOT, DGD, CDC TCA H/L, SNR TCA H, CFOT TCA H/L, DGD TCA H...

  • Page 97: Pluggable Transceivers

    MP-2B4CT Pluggable Transceivers Interface specification depends on the QSFP transceiver used. For details about the individual transceiver types, see Pluggable Transceivers. Table 44: Supported QSFP Pluggable Transceivers Interface Type Transceiver QSFP28/112G/AOC/xxxx QSFP28/112G/LR4/SM/LC Client PSM4 QSFP28/103G/PSM4/SM/MPO QSFP28/112G/SR4/MM/MPO Pluggable Transceivers Handling Pluggable Transceivers Electrostatic Discharge Damage Prevention and Warning Signal Path The following figure provides a simplified functional block diagram illustrating the MP-...
  • Page 98 MP-2B4CT Overview Features Interfaces FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 99: Pluggable Transceivers

    Then it transmits the optical signals at the wavelength specific for the transceiver over optical fibers to the client or network interfaces. Modules with interchangeable interfaces use pluggable transceivers. The FSP 3000 C uses the following types of pluggable transceivers:...

  • Page 100: Features

    The use of pluggable transceivers other than those approved and released by ADVA Optical Networking will result in loss of laser safety approval for the respective module and entire FSP 3000 C system. Only approved pluggable transceivers will guarantee the behavior in conjunction with the module as specified.

  • Page 101: Module And Pluggable Transceiver Compatibility

    General Information Module and Pluggable Transceiver Compatibility Module Port Supported Pluggable Transceivers QSFP28/103G/PSM4/SM/MPO QSFP28/112G/AOC/xxxx MP-2B4CT Client QSFP28/112G/LR4/SM/LC QSFP28/112G/SR4/MM/MPO QSFP Optical Transceivers Overview Naming Conventions The pluggable transceiver name is made up of several sections, each section identifying a transceiver's specific features. Depending on the transceiver type, not every name will contain a value from every section.
  • Page 102 General Information Table 45: Pluggable Transceiver Naming Convention Section Parts of the Name Value Meaning Maximum Data Rate 2.125 Gbps 11.3176 Gbps 43.018 Gbps 103G 103.125 Gbps 112G 111.81 Gbps Reach, Wavelength and Long reach, 1310 nm, 4 fibers up to 10 km Application 850I 850 nm, max 500 m...

  • Page 103: Management

    (vendor code, wavelength, data rates and other relevant factory parameters), as well as information specifically from ADVA Optical Networking (device code, serial number, etc.). You can query the transceiver to make sure it is the right one for the intended application.

  • Page 104: Color Coding

    QSFP Optical Transceivers Laser and LED Safety Guidelines and Warnings Overview Color Coding Color Coding The color of the pull-tab latch determines the type of QSFP28 pluggable transceiver. Beige QSFP28 SR4 Green QSFP28 CWDM4 QSFP28 LR4 Blue QSFP10 LR4, 4LR White QSFP28 PSM4 1550 nm Yellow...

  • Page 105: Features

    Environmental standards compliance ETSI EN 300 019-1-3 Class 3.1 Module and Pluggable Transceiver Compatibility MTBF Hours for FSP 3000 C Equipment Handling Pluggable Transceivers Features Supports one bidirectional optical interface with four optical wavelengths (gray) Transports one aggregate service via four optical lanes...

  • Page 106: Qsfp28/112G/Aoc/Xxxx

    Rx power (per lane) Maximum laser off mode per –30 dBm optical lane Tx power Power measurement accuracy ±3 dB Overview Features MTBF Hours for FSP 3000 C Equipment Module and Pluggable Transceiver Compatibility QSFP28/112G/AOC/xxxx Overview Features Specifications Overview Table 48: General Information — QSFP28/112G/AOC/xxxx...

  • Page 107: Features

    300 cm (118.11 in.) QSFP28/112G/AOC/0500 1051002605-01 500 cm (196.85 in.) Module and Pluggable Transceiver Compatibility MTBF Hours for FSP 3000 C Equipment Handling Pluggable Transceivers Features Supports one bidirectional optical interface with four optical wavelengths (gray) Transports one aggregate service via four optical lanes...

  • Page 108: Qsfp28/112G/Lr4/Sm/Lc

    ITU-T G.709 Optical lanes wavelength Maximum link distance Defined by cable length Power measurement accuracy N/A Overview Features MTBF Hours for FSP 3000 C Equipment Module and Pluggable Transceiver Compatibility QSFP28/112G/LR4/SM/LC Overview Features Specifications Overview Table 50: General Information — QSFP28/112G/LR4/SM/LC...

  • Page 109: Features

    QSFP Optical Transceivers Module and Pluggable Transceiver Compatibility MTBF Hours for FSP 3000 C Equipment Handling Pluggable Transceivers Features Supports one bidirectional optical interface with four optical wavelengths (gray) Transports one aggregate service via four optical lanes Transports four services via four optical lanes...

  • Page 110: Qsfp28/112G/Sr4/Mm/Mpo

    Maximum laser off mode per –30 dBm optical lane Tx power Power measurement accuracy ±3 dB Overview Features MTBF Hours for FSP 3000 C Equipment Module and Pluggable Transceiver Compatibility QSFP28/112G/SR4/MM/MPO Overview Features Specifications Overview Table 52: General Information — QSFP28/112G/SR4/MM/MPO...

  • Page 111: Features

    Environmental standards compliance ETSI EN 300 019-1-3 Class 3.1 Module and Pluggable Transceiver Compatibility MTBF Hours for FSP 3000 C Equipment Handling Pluggable Transceivers Features Supports one bidirectional optical interface with four optical wavelengths (gray) Transports one aggregate service via four optical lanes...
  • Page 112 Rx power (per lane) Maximum laser off mode per –30 dBm optical lane Tx power Power measurement accuracy ±3 dB Overview Features MTBF Hours for FSP 3000 C Equipment Module and Pluggable Transceiver Compatibility FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 113: Accessories

    Accessory Installation Requirements Chapter 8 Accessories Accessory Installation Requirements Air Filter Pads Front Cover Extension Kits Guide Rail Kits Mounting Bracket Kits Shelf Front Covers Side Air Covers Slot Covers Optical Accessory Modules Cables SH12 Shelf SH4R Shelf Accessory Installation Requirements Before you begin installing your SH12 or SH4R, it is important to understand and adhere to the accessory requirements for your particular installation.
  • Page 114 Accessory Installation Requirements Table 54: Accessory Requirements — Open Rack Installations Accessory ETSI 300- ETSI 600- Shelf 19-inch 23-inch Requirement mm Depth mm Depth SH12 (cables w/LC Side air covers Required Required Removed Required connectors) Upper front cover Optional Optional Optional Optional Lower front cover...

  • Page 115: Air Filter Pads

    The front cover extension increases the cabling space between the module faceplates and the SH12 and SH4R shelf front cover. If you plan to have a front cover installed on your FSP 3000 C shelf and will be using cables with MPO connectors, you must have the front cover extension installed.
  • Page 116 Front Cover Extension Kits The front cover extension kit for the SH12 comes two sets of front cover extension brackets: 80 mm and 95 mm. Each set comes with two brackets to be mounted on each side of the shelf. Figure 23: SH12 Cover Extension Brackets The SH4R cover extension adapters are already attached to the front cover and will need to be manually extended.

  • Page 117: Guide Rail Kits

    Guide Rail Kits The following front cover extension kits ship with these FSP 3000 C shelves. Shelf SH12 F8/SA-EXT-FC-SH12 SH4R F8/SA-EXT-FC-SH4 With this extension, the SH12 front cover can be extended up to 30 mm and the SH4R front cover can be extended to 25 mm. If you...
  • Page 118 Guide Rail Kits Figure 25: Guide Rail Kit — F8/SA-GUIDE-SH4-S Figure 26: Guide Rail Kit — F8/SA-GUIDE-SH4-L The two guide rail brackets for the 23-inch rack installation are included in the SH4R mounting bracket kit. Accessory Installation Requirements Supported Rack Requirements Mounting Bracket Kits Mounting the SH4R Shelf to a Rack SH4R Shelf...

  • Page 119: Mounting Bracket Kits

    SH4R F8/SA-FC-SH4 FD-128D If you plan to have a front cover installed on your FSP 3000 C shelf and will be using cables with MPO connectors, you must have the front cover extension installed. To determine if your shelf rack/cabinet configuration...

  • Page 120: Side Air Covers

    Side Air Covers Accessory Installation Requirements Cooling and Airflow — SH12 Cooling and Airflow — SH4R Front Cover Extension Kits Installing the Front Cover Side Air Covers Depending on your configuration, side air covers may come installed on the SH12 or included in the shipment.

  • Page 121: Slot Covers

    Installing or Removing Side Air Covers Racks Slot Covers Slot covers are an integral part of the FSP 3000 C system safety design and perform the following functions: Prevent exposure to hazardous voltages and currents inside the shelf Prevent dust and debris from entering the shelf which could cause product damage...

  • Page 122: Optical Accessory Modules

    Overview The FMT/1HU is a rack-mountable, fiber management shelf. It includes a fiber optic tray to efficiently manage and store the optical fibers used with an FSP 3000 C shelf Figure 29: FMT/1HU Shelf — Front View On the left and right side of the shelf, sliding radius limiters provide cable management for incoming and outgoing fibers.
  • Page 123 Keep fiber-optic cables organized. If you do not use your rack posts for fiber management, ADVA Optical Networking strongly recommends using the FMT/1HU. Figure 30: FMT/1HU Shelf — Internal Fiber-optic Tray Table 59: General Information —...

  • Page 124: Features

    Optical Accessory Modules Cable Management Best Practices Environmental Specifications SH12 Shelf SH4R Shelf Cable Capacity Features Storage radius limiters and rear radius limiters protect the fiber cables from bend- induced losses Modular extensible design, based on the 19-inch format Robust, low-profile housing made from alloyed steel sheet Access to the fiber optic tray from the front of the shelf Cable Management Best Practices SH12 Shelf...

  • Page 125: Shipment Contents

    Overview The internal cable length stored in the FMT/1HU and not to the overall length of each cable. ADVA Optical Networking provides standard optical fibers with a cable dimension of 2 mm (0.079 in.) each. Shipment Contents Each FMT/1HU shipment consists of the following components and accessories: FMT/1HU Mounting brackets —...

  • Page 126: Product Labels

    Chapter 9 Product Labels Each FSP 3000 C component has various product and safety labels which provide important information about the component itself and the operating safety. ADVA Identification Label Certification Label — Modules and Passive Shelves Certification Label — Shelves...

  • Page 127: Adva Identification Label

    Infrastructure modules Optical accessory modules Traffic modules Slot covers ADVA Optical Networking logo ADVA Optical Networking address Data on Label ADVA Optical Networking international ID DUNS number Environmental classification symbol Label Example FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 128: Certification Label - Modules And Passive Shelves

    Certification Label — Modules and Passive Shelves Certification Label — Modules and Passive Shelves Label Category Product Label Shelves Passive shelves Modules Components Infrastructure modules Affected Optical accessory modules Traffic modules Laser class type and information Data on Label FDA compliance statement Product safety markings Label Example FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 129: Certification Label - Shelves

    Certification Label — Shelves Certification Label — Shelves Label Category Product Label Shelves Components 12U and 4U shelves Affected EMC warning VCCI statement Data on Label FDA compliance statement Product safety markings Label Example FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 130: Certification Pending Label

    Certification Pending Label Certification Pending Label Label Category Product Label Shelves Passive shelves 12U and 4U shelves Components Modules Affected Infrastructure modules Optical accessory modules Traffic modules Information about pending safety and EMC/EMI verification and Data on Label certification Label Example FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 131: Faceplate Label 1

    Faceplate Label 1 Faceplate Label 1 Label Category Product Label Shelves Passive shelves 12U and 4U shelves Modules Components Affected Infrastructure modules Optical accessory modules Traffic modules Slot covers Serial number Data on Label Composite 2-D code Label Example FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)
  • Page 132 Faceplate Label 2 Faceplate Label 2 Label Category Product Label Shelves Passive shelves 12U and 4U shelves Modules Components Affected Infrastructure modules Optical accessory modules Traffic modules Slot covers Label description Data on Label Item number HW revision Label Example FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 133: Product Id Label - Module And Passive Shelves

    Product ID Label — Module and Passive Shelves Product ID Label — Module and Passive Shelves Label Category Product Label Shelves Passive shelves Modules Components Infrastructure modules Affected Optical accessory modules Traffic modules Slot covers Label description Item number Serial number HW revision Data on Label Country of origin information...

  • Page 134: Product Id Label - Shelves

    Product ID Label — Shelves Product ID Label — Shelves Label Category Product Label Shelves Components Affected 12U and 4U shelves Product line description Item number Serial number HW revision Country of origin information Data on Label Manufacturer material numbers (OEM products and contract development only) Composite 2-D code Rated voltages...

  • Page 135: Transceiver Type Label

    Transceiver Type Label Transceiver Type Label Label Category Product Label Components Affected Pluggable Transceivers Transceiver type Channel or performance number (if applicable) Wavelength number (if applicable) Data on Label Serial number Item number HW revision Label Example FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 136: Part 2: Site Planning And Specifications

    PART 2: SITE PLANNING AND  SPECIFICATIONS Site Planning and Preparation Racks Grounding and Power Cables Port Pinouts FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 137: Site Planning And Preparation

    As the customer, you are responsible for ensuring that the site conforms to all requirements and that necessary peripherals are made available to ADVA Optical Networking Service personnel during installation. The following checklist summarizes the tasks necessary to ensure your site is ready for the FSP 3000 C equipment.

  • Page 138: General Site Requirements

    Electrical Safety Guidelines and Warnings General Site Requirements Only authorized personnel should be allowed to access the FSP 3000 C system. Install the equipment in a restricted-access area that meets the following criteria: Is a climate-controlled environment — Install the FSP 3000 C in an air-conditioned equipment room with year-round humidity control and recirculated, filtered air;...

  • Page 139: Compliance Criteria

    Local Building and National Electrical Codes Warning Restricted Access Area Warning Compliance Criteria While planning your site, it is important to note that the FSP 3000 C system adheres to the following site compliance criteria: NEBS Level 3 and ETSI EN 300 019-1-3...

  • Page 140: Environmental Specifications

    360 hours per year. In addition, a short term condition must not occur more often than 15 times per year. When you receive your FSP 3000 C, leave the equipment in its shipping box at the final installation location for a minimum of 24 hours. Doing so...
  • Page 141 (Tma) specified by ADVA Optical Networking. WARNING To prevent the FSP 3000 C from overheating, do not operate it in an area that exceeds the maximum recommended ambient temperature of 104°F (40°C). General Site Requirements...

  • Page 142: Racks

    Supported Rack Requirements Chapter 11 Racks Supported Rack Requirements Building Structure Connection for Rack Clearance Requirements Supported Rack Requirements The following tables detail the supported racks and cabinets for the SH12 and SH4R. In the tables, the shelf column creates a category for each of the installation features. Table 61: Open Rack Installations Supported ETSI 300-mm...
  • Page 143 Supported Rack Requirements Table 62: Cabinet Installations ETSI 300- ETSI 600- Supported Shelf 19-inch 23-inch Installation Features Depth Depth SH12 Two-post cabinet Supported Supported Supported Supported (cables Four-post cabinet Supported Supported Supported Supported w/MPO connectors) Cabinet depth ≥400 mm ≥300 mm 300 mm 600 mm Back-to-back...
  • Page 144 The SH4R must only be installed in a four-post rack. The FSP 3000 C shelves can be mounted in a rack that provides holes or hole patterns spaced at 1U (44.45 mm/1.75 in.) increments. The mounting brackets are designed to support that spacing.

  • Page 145: Clearance Requirements

    Failure to follow these guidelines can cause overheating and a fire hazard, as well as affect the reliability and warranty of your equipment. Ensure that intake air to the FSP 3000 C system is cooled by the installation site air conditioning system and is as dust free as possible.
  • Page 146 Heat exhaust from other equipment can enter the inlet air vents and cause an overtemperature condition. If you have more than one FSP 3000 C shelf in your rack, install the shelves without gaps between them. If you must have gaps, close the gaps with a rack blind panel or a fiber tray.
  • Page 147 Clearance Requirements Figure 32: SH12 — Back-to-back Rack Installation Figure 33: SH4R — Single Rack Installation No gaps are required between shelves in a rack configuration. The only exception is if you want to install an FSP 3000R7 shelf (specifically SH9HU or SH7HU) above an SH4R. In that scenario, a 1U gap is needed between the shelves.
  • Page 148 Clearance Requirements SH12 Shelf SH4R Shelf Installing or Removing Side Air Covers Supported Rack Requirements FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 149: Grounding And Power

    AC Power Source Requirements DC Power Source Requirements General Power and Grounding Guidelines Installation of the FSP 3000 C must be performed in compliance with your national and local electrical codes. International — International Electrotechnical Commission (IEC) 60364, Part 1 through Part 7 United Kingdom (UK) —...

  • Page 150: Ac Power Source Requirements

    Incorrect grounding could result in personal injury or damage to equipment. The FSP 3000 C relies on the building installation for overcurrent protection. Proper overcurrent protection of conductors and equipment should be available at the installation site.

  • Page 151: Dc Power Source Requirements

    DC Power Source Requirements The AC receptacles should be a three-conductor grounding type and should be on separate circuits. The AC receptacles should be easily accessible and should be located within a reasonable distance, without requiring an extension cord. Each PSM should have its own dedicated branch circuit with suitable electric ratings according to local safety standards.
  • Page 152 A readily accessible disconnecting device must be incorporated in the building's installation between the shelf's PSM input terminals and the DC power source. The FSP 3000 C shelves are not intended to be directly connected to metallic tip and ring outside-plant conductors.

  • Page 153: Cables

    Cable Management Best Practices Use the following guidelines when trying to manage your FSP 3000 C cables: Whenever possible, use cable managers to secure excess cables. Before storing excess cable, use hook-and-loop bands or cable ties to loop and retrain it (cable ties should never be used on fiber-optical cables).

  • Page 154: Grounding Cables

    Grounding Cables If you plan to have a front cover installed on your FSP 3000 C shelf and will be using cables with MPO connectors, you must have the front cover extension installed. To determine if your shelf rack/cabinet configuration supports front covers and extensions, as well as more information about...

  • Page 155: Grounding Cable - Sh12

    Power Cables Grounding Cable — SH12 The SH12 ships with the following grounding cable: Shelf grounding cable — 4 AWG, 100 cm length, green/yellow with 2-hole straight ring lugs at both ends (5 mm [0.2 in.] hole). Appropriate screws and washers are included. Grounding General Power and Grounding Guidelines Connecting the Grounding Terminals...

  • Page 156: Number Of Dc Power Cables

    Power Cables The actual length of each DC power cable depends on the location of the shelf within the rack and its proximity to the DC power source. Therefore, each power cable should be cut to the proper length and have the appropriate connectors.

  • Page 157: Cbl/Dc/1000/4Awg8/Sub-D

    Power Cables Length 3 meters (9.84 ft) Compliance UL 1015 The following table details the variants available for the CBL/DC/0300/4AWG10/SUB-D cable. Plastic Insulation Cable Variant Market Wire Function Voltage Use Color CBL/DC/0300/4AWG10/SUB- ETSI Blue DC negative –48 V to negative (-) D/BL-BK conductor terminal...

  • Page 158: Ac Power Cable Specifications

    CBL/AC/250/LA-C19 Overview To connect an FSP 3000 C to line power, use a detachable, flexible AC power cable with suitable electric and insulation ratings in accordance with your local safety standards. The power cable and the assembled connectors must bear the safety agency certification mark for the specific region or country intended for installation.

  • Page 159: Number Of Ac Power Cables

    For redundancy, one AC power cable is required per PSM-AC4. The type of the power cable depends on the region or country where the FSP 3000 C is installed and the line power voltage available at the installation site. One power cable is used for primary power supply (Power A) and the other for backup power supply (Power B).

  • Page 160: Serial And Ethernet Cables

    To comply with EMC requirements networking connections must be made using shielded Ethernet cables Cat5e or Cat6 cables, STP/FTP, exclusively. Connect the LAN ports of the FSP 3000 C system only to intrabuilding or non-exposed wiring or cabling. The intrabuilding cable must be shielded and the shield must be grounded at both ends.
  • Page 161 Category 6 (Cat 6) cables have been designed specifically for Gigabit Ethernet applications. They deliver improved performance over standard Category 5e (Cat 5e) cables. ADVA Optical Networking strongly recommends using Cat 6 cable for Gigabit Ethernet over copper installations. Cat 6 is backward compatible with Cat 5e, Cat 5, and Cat 3 cable standards.

  • Page 162: Usb Cables

    6-pin male IEEE-1394 connector plugs. The IEEE 1394 interface cable is delivered with the FD-128D. Even though some FSP 3000 C components use FireWire connectors for interconnecting, neither the FireWire protocol nor pinning is supported. Depending on the location of the shelf in proximity of the FD-128D, there may be excess cable length.

  • Page 163: Fiber Optic Cables And Accessories

    Fiber Optic Cables and Accessories Patch Cables Breakout Cables To ensure faultless operation of the FSP 3000 C system, use only fiber-optic cables released and provided by ADVA Optical Networking. Fiber-optic cables other than ones released and provided by ADVA Optical Networking may not be compatible with FSP 3000 C modules and interoperability cannot be guaranteed.

  • Page 164: Breakout Cables

    Fiber Optic Cables and Accessories Breakout Cables The following table details the breakout cables available from ADVA Optical Networking. These breakout cables are used to connect the MP-2B4CT to the FD-48E or FD-128D. Sales Item Optical Fiber Overall Breakout Trunk...
  • Page 165 Fiber Optic Cables and Accessories MPO24 Port MPO Port Description LC Port Description Tx10 Rx10 Tx11 Rx11 Tx12 Rx12 Rx10 Tx10 Rx11 Tx11 Rx12 Tx12 Cabling Diagram with 48 Optical Filter Channels Cabling Diagram with 128 Optical Filter Channels Handling Fiber-Optic Cables Laser and LED Safety Guidelines and Warnings FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 166: Port Pinouts

    Ethernet Pinouts Chapter 14 Port Pinouts Ethernet Pinouts Mini-AB USB Pinouts Serial Pinouts Ethernet Cables USB Cables Cables Ethernet Pinouts Table 63: Pinouts RJ-45 Panel Jack Pin Number Signal Signal Direction output D1– input output output D3– input D2– input output D4–...

  • Page 167: Serial Pinouts

    Mini-AB USB Pinouts Mini-AB USB Pinouts Table 64: Pinouts Mini-AB USB Receptacle Function Description Number V BUS USB power D– Negative Data signal Positive Data signal Identification Signal ground Most of the pins of a Mini-USB receptacle are the same as a standard USB connector, except pin 4.

  • Page 168: Part 3: Initial Installation And Configuration

    PART 3: INITIAL INSTALLATION AND CONFIGURATION Installation Overview Unpacking and Inspecting the Shelves and Components Installing the Mounting Brackets Installing or Removing Side Air Covers Installing the Front Cover Extension Connecting the Grounding Terminals Mounting the Shelf to a Rack Removing the SH12 Protection Plate Installing the Infrastructure Modules Installing the Traffic Modules and Pluggable Transceivers...

  • Page 169: Installation Overview

    Installation Overview — SH12 and SH4R Shelves Chapter 15 Installation Overview Installation Overview — SH12 and SH4R Shelves Installation Overview — 4U Shelf Installation Overview — 1U Shelf Service Personnel Assumptions Adhere to the cautions and warnings throughout this document for a safe and hazard-free installation.
  • Page 170 Installation Overview — SH12 and SH4R Shelves Check Installation Procedure SH12 SH4R Unpacking the SH12 and SH4R Shelves Inspecting the FSP 3000 C Equipment Installing the Mounting Brackets on the SH12 and SH4R Shelves Installing or Removing Side Air Covers Installing the Front Cover Extension...

  • Page 171: Installation Overview - 4U Shelf

    Check Installation Procedure Unpacking a 4U or 1U Shelf Inspecting the FSP 3000 C Equipment Installing the Mounting Brackets on a 4U Shelf Mounting a 4U or 1U Shelf to a Rack Installing the FD-128D Front Cover...

  • Page 172: Service Personnel Assumptions

    Possess the skills and experience working with DC power, power cabling, and the electrical equipment required for an FSP 3000 C installation. Have knowledge of the following electrical codes and standards: IEC/EN 60950-1, EN 50110-1-2, ETSI EN 30012-2, ETSI EN 300253, EN 50310, NFPA 70, CSA C22.1, and IEC 60364, Part 1 through Part 7.
  • Page 173 IEC/EN 60825-2, ITU-T G.664, ITU-T G.665, 21CFR1040.10, 21CFR1040.11, and ANSI Z136.1. Have knowledge of appropriate eye safety precautions and guidance on the safe use of the FSP 3000 C and management software is imperative. Electrostatic Discharge Damage Prevention and Warning Qualified Personnel Warning...

  • Page 174: Unpacking And Inspecting The Shelves And Components

    (if applicable). Due to weight, the SH12 is normally shipped empty. The SH4R is shipped either empty or equipped, depending on how you ordered it. Each FSP 3000 C shelf ships with the appropriate accessories and companion documentation.

  • Page 175: Best Practices

    Examine the outside of the shipping box for dents and punctures, that would indicate possible shipping damage. Note and report any damage as necessary. Leave the FSP 3000 C in the shipping box until the site is ready for installation. Place each shipping box in an area where the climatic conditions specified in ETSI EN 300 019-1-1 V2.1.4 (2003-04) are fulfilled.

  • Page 176: Required Tools And Equipment

    If any damage or other signs of mishandling are evident, inform both the freight carrier and ADVA Optical Networking before unpacking. Your freight carrier can provide you with the procedures necessary to file a claim for damages.
  • Page 177 Unpacking the SH12 and SH4R Shelves 4. Open the shipping box: a. Use a utility knife or scissors to cut open the band clamps strapping the shipping box. b. Lift the cap with the handles on the right and left side of the box so that the box is opened.
  • Page 178 6. Take inventory. A packing slip is located on the cap’s front side. Compare the contents of the trays with the packing slip and the copy of the purchase order list or equipment list provided by ADVA Optical Networking to ensure complete and accurate shipment. Make note of missing items, if necessary.

  • Page 179: Unpacking A 4U Or 1U Shelf

    Each shelf comes with two 19-inch rack-mounting brackets preinstalled and each unoccupied shelf slot is filled with the appropriate slot cover. 15. Save the packaging material until the operational checkout of the FSP 3000 C equipment is complete. Storing all the shipping boxes and packaging material enables the FSP 3000 C components to be repacked for a possible transport to another installation site or to be returned for a needed repair.
  • Page 180 ADVA Optical Networking immediately. Each shelf comes with two 19-inch rack-mounting brackets preinstalled. 13. Save the packaging material until the operational checkout of the FSP 3000 C equipment is complete. Storing all the shipping boxes and packaging material enables the FSP 3000 C components to be repacked for a possible transport to another installation site or to be returned for a needed repair.

  • Page 181: Inspecting The Fsp 3000 C Equipment

    Inspecting the FSP 3000 C Equipment Inspecting the FSP 3000 C Equipment You need to verify your shipment contents and check the FSP 3000 C equipment for any visible damage. This procedure assumes that your shelf shipped empty. 1. Attach a ground strap to your wrist and snap the ground wire to the wrist band. Insert the ground plug into the grounded ESD jack.
  • Page 182 If any damage has occurred during transportation, immediately report the extent of damage by filing a claim with the transportation company. Notify your ADVA Optical Networking customer service representative or ADVA Optical Networking. Have the following information ready:...

  • Page 183: Installing The Mounting Brackets

    Chapter 17 Installing the Mounting Brackets The FSP 3000 C shelves come with the 19-inch mounting brackets preinstalled. To install the shelves in a 23-inch or ETSI rack, the 19-inch mounting brackets need to be removed and the appropriate mounting brackets installed.

  • Page 184: Installing The Mounting Brackets On The Sh12 And Sh4R Shelves

    Installing the Mounting Brackets on the SH12 and SH4R Shelves Installing the Mounting Brackets on the SH12 and SH4R Shelves This procedure assumes that: The shelf has been unpacked and inspected; It is damage-free; The shelf is on a static-dissipative mat; and You want to install the shelf in a 23-inch or ETSI rack format.
  • Page 185 Installing the Mounting Brackets on the SH12 and SH4R Shelves Figure 40: Fitting the 23-inch and ETSI Mounting Brackets to an SH12 When installing the 23-inch mounting bracket on an SH4R, it will be similar to the above figure. 4. Repeat this procedure for the other mounting bracket. Save the remaining mounting brackets and packaging material for future use.

  • Page 186: Installing The Mounting Brackets On A 4U Shelf

    Installing the Mounting Brackets on a 4U Shelf Installing the Mounting Brackets on a 4U Shelf In this procedure, 4U shelf refers to the FD-128D. For procedures for the SH4R, see Installing the Mounting Brackets on the SH12 and SH4R Shelves This procedure assumes that: The shelf has been unpacked and inspected;...

  • Page 187: Installing The Mounting Brackets On A Fmt/1Hu Shelf

    Installing the Mounting Brackets on a FMT/1HU Shelf Save the remaining mounting brackets and packaging material for future use. Installation Overview — 4U Shelf Site Preparation Checklist Installing the Mounting Brackets on a FMT/1HU Shelf This procedure assumes that: The shelf has been unpacked and inspected; It is damage-free;...

  • Page 188: Installing Or Removing Side Air Covers

    Overview Chapter 18 Installing or Removing Side Air Covers Overview Required Tools and Equipment Removing Side Air Covers Installing Side Air Covers Overview Depending on your configuration, side air covers may come installed on the SH12 or included in the shipment. To determine if side covers are needed with your configuration, Accessory Installation Requirements.

  • Page 189: Required Tools And Equipment

    Required Tools and Equipment Figure 43: Side Air Covers for the SH12 — Reverse Side Side Air Covers Clearance Requirements SH12 Shelf Racks Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device Suitable grounded surface or a static-dissipative mat 1 x side air cover pair 2 x mounting screws M3x8 CSK for fixing the covers Torx T10 screwdriver...

  • Page 190: Removing Side Air Covers

    Removing Side Air Covers Removing Side Air Covers This procedure assumes that: The shelf has been unpacked and inspected; It is damage-free; The shelf is on a static-dissipative mat; and It came with the side air covers preinstalled and your scenario requires them to be removed.

  • Page 191: Installing Side Air Covers

    Installing Side Air Covers 4. Move the other end of the baffle towards the shelf’s side panel so that the threaded hole and the hole in the baffle line up. 5. Use the Torx T10 screwdriver and the screws to affix the side panel to the shelf. Figure 46: Attaching Side Panel Screw 6.
  • Page 192 Installing Side Air Covers Figure 47: Removing the Existing Fastening Screws Save the removed screws for later use. 3. Take the appropriate side air cover (left or right) and insert the fastening claws into the corresponding air outlets (holes). Figure 48: Inserting the Fastening Claws of the Cover into the Air Outlets 4.
  • Page 193 Installing Side Air Covers Figure 49: Side Air Cover Installed 6. Repeat Steps 2 through 5 for the air vent on the bottom of this side. 7. Repeat Steps 2 through 6 for the opposite side of the shelf. Installation Overview — SH12 and SH4R Shelves Clearance Requirements Side Air Covers FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 194: Installing The Front Cover Extension

    If applicable, verify that the rack cabinet doors can close. If this is not the initial installation of your FSP 3000 C system and the shelf is equipped with modules, remove the cabling from the power supplies and the adjacent modules on the left and right side, creating sufficient space for mounting the cover extension.

  • Page 195: Required Tools And Equipment

    Required Tools and Equipment With this extension, the SH12 front cover can be extended up to 30 mm and the SH4R front cover can be extended to 25 mm. If you extend to the maximum extension, the total depth of the shelf exceeds what is specified in ETSI EN 300 119-3 and as a result, cannot be installed in an ETSI cabinet.
  • Page 196 Installing the SH12 Front Cover Extension Figure 50: Front Cover Fixing Bracket 3. Position the appropriate cover extension bracket (80 mm or 95 mm) over the holes that attached the front cover fixing bracket. 4. Use the Torx T10 screwdriver and the screws from Step 2 to attach the cover extension bracket.

  • Page 197: Installing The Sh4R Front Cover Extension

    Installing the SH4R Front Cover Extension Front Cover Extension Kits Installation Overview — SH12 and SH4R Shelves Site Preparation Checklist Installing the SH4R Front Cover Extension This procedure assumes that: The shelf has been unpacked and inspected; It is damage-free; and The shelf resides on a static-dissipative mat.
  • Page 198 Installing the SH4R Front Cover Extension Figure 53: Extension Adapter Extended 4. Align the four screw holes, as shown in the above figure. 5. Use the Torx T10 screwdriver and the four screws to re-attach the extension adapter to the front cover tab. 6.

  • Page 199: Connecting The Grounding Terminals

    To meet safety and EMI requirements, each FSP 3000 C shelf must individually be connected to the rack’s or cabinet’s ground point. The following figures provide the location of the grounding terminals on the FSP 3000 C shelves. Figure 54: SH12 Grounding Terminals Location...

  • Page 200: Required Tools And Equipment

    Suitable grounded surface or a static-dissipative mat Appropriate rack size for your installation (customer provided) Grounding cable (provided by ADVA Optical Networking Grounding terminal and two ground screws (included on shelf) Wrench or box spanner (wrench size of 7 mm or 0.276 in.) Appropriate screwdriver or wrench to attach the grounding cable to the rack FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 201: Connecting A Sh12 To The Grounding Terminals

    Figure 56: Example - Connecting a Functional Grounding Cable with Two Hole Lug Terminal to an FSP 3000 C Shelf 4. Repeat this procedure for each shelf needing to be grounded. You must properly ground the shelf before connecting power.

  • Page 202: Connecting A Sh4R To The Grounding Terminals

    Figure 57: Example - Connecting a Functional Grounding Cable with Two-Hole Lug Terminal to an FSP 3000 C Shelf 6. Repeat this procedure for each shelf needing to be grounded. You must properly ground the shelf before connecting power.
  • Page 203 Connecting a SH4R to the Grounding Terminals Installation Overview — SH12 and SH4R Shelves Grounding — SH4R FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 204: Mounting The Shelf To A Rack

    Prerequisites and Guidelines Chapter 21 Mounting the Shelf to a Rack Prerequisites and Guidelines Required Tools and Equipment Mounting the SH12 Shelf to a Rack Mounting the SH4R Shelf to a Rack Mounting a 4U or 1U Shelf to a Rack For information about installing the shelves in a cabinet, see the instructions from the cabinet manufacturer.

  • Page 205: Required Tools And Equipment

    Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device Rack (used in previous procedure) Rack screws and cage nuts for attaching the FSP 3000 C shelf to the rack Appropriate guide rail kit (for SH4R) 2 x guide rails...
  • Page 206 Mounting the SH12 Shelf to a Rack 3. Install two or four cage nuts in the corresponding holes on both sides of the rack. 4. If there is a terminal connector used for the ground point preinstalled in your rack, skip this step and proceed to the next step.

  • Page 207: Mounting The Sh4R Shelf To A Rack

    Mounting the SH4R Shelf to a Rack LIFTING HAZARD CAUTION ADVA Optical Networking recommends having two people hold the shelf in place while a third person secures it to the rack. When carrying and mounting the SH4R,use the handles present on the mounting brackets.
  • Page 208 Mounting the SH4R Shelf to a Rack EQUIPMENT DAMAGE MAY RESULT IF: You lift the shelf by inserting your hands into the shelf. Lift from the outside of the shelf to avoid damage. While positioning the shelf into the rack, keep hold of the grounding cable, which is attached on the shelf’s right side or reverse side, to not inadvertently jam it.

  • Page 209: Mounting A 4U Or 1U Shelf To A Rack

    This procedure assumes that: The mounting brackets have been attached to the shelf; and The FMT/1HU has to be installed under or above the FSP 3000 C to store the fibers of that shelf. 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack.

  • Page 210: Removing The Sh12 Protection Plate

    Overview Chapter 22 Removing the SH12 Protection Plate Overview Required Tools and Equipment Removing the Protection Plate Overview When lifting the SH12 to mount it to a rack, it is possible that a technician may use the inside of the shelf to help lift the shelf (area shown in the following figure). FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)
  • Page 211 Overview Figure 59: Honeycomb Area — SH12 While it is not recommended, ADVA Optical Networking recognizes that this may happen. As a result, the SH12 ships with a honeycomb protection plate installed. This plate protects the sensitive EMC material inside the shelf where the modules are installed.
  • Page 212 Required Tools and Equipment Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device Suitable grounded surface or a static-dissipative mat Torx T10 screwdriver Installation Overview — SH12 and SH4R Shelves Handling Shelves Site Preparation Checklist Removing the Protection Plate This procedure assumes that: ...
  • Page 213 Removing the Protection Plate If you need to remove the shelf from the rack for any reason, re-install the protection plate over the honeycomb area for safe shelf removal before removing the shelf. Installation Overview — SH12 and SH4R Shelves Shelf Lifting and Moving Guidelines Rack-Mounting Requirements and Warnings Handling Equipment Precautions and Guidelines...

  • Page 214: Installing The Infrastructure Modules

    Chapter 23 Installing the Infrastructure Modules Required Tools and Equipment Installing the CEM Installing the ECM-2 Installing the FTM-2 in the SH12 Installing the FTM-4 in the SH4R Installing the PSM-DC in the SH12 Installing the PSM-AC4 in the SH4R For the SH12, the protection plate must be removed before installing modules.

  • Page 215: Required Tools And Equipment

    Required Tools and Equipment Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device SH12 infrastructure modules CEM-2 ECM-2 Three FTM-2s One to four PSM-DCs (depending on your redundancy, load sharing configuration) SH4R infrastructure modules CEM-4 ECM-2 Two FTM-4s One to three PSM-AC4s (depending on your redundancy, load sharing configuration) Torx T10 screwdriver...

  • Page 216: Installing The Ecm-2

    Installing the ECM-2 Electrostatic Discharge Damage Prevention and Warning CEM-2 CEM-4 Installing the ECM-2 This procedure assumes that: The shelf is properly grounded to the rack; and The shelf and module have been properly inspected. 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack.

  • Page 217: Installing The Ftm-4 In The Sh4R

    Installing the FTM-4 in the SH4R 3. Grasp the handle while inserting the FTM into the appropriate slot. 4. Gently apply pressure to the faceplate while pushing the module into the slot. 5. Push on the faceplate to fully seat the module. The module is completely inserted when its faceplate is flush with the faceplates of the adjacent modules and the shelf panels.

  • Page 218: Installing The Psm-Dc In The Sh12

    Installing the PSM-DC in the SH12 Installing the PSM-DC in the SH12 This procedure assumes that: The shelf is properly grounded to the rack; No voltage is present (if using DC power); and The shelf and module have been properly inspected. 1.
  • Page 219 Installing the PSM-AC4 in the SH4R 1+1 — Two PSM-AC4s (slots 35 and 36) 2+1 — Three PSM-AC4s (slots 35, 36, and 37) 3. Standing behind the SH4R, hold the PSM-AC4 upright with the faceplate toward you. 4. Insert the PSM into the appropriate slot. 5.

  • Page 220: Installing The Traffic Modules And Pluggable Transceivers

    Required Tools and Equipment Chapter 24 Installing the Traffic Modules and Pluggable Transceivers Required Tools and Equipment Installing a Traffic Module Installing a QSFP Pluggable Transceiver Use care when installing modules in a shelf. Ensure the modules are properly aligned with the appropriate slot guides. Do not force a module into a slot or onto the backplane connectors.

  • Page 221: Installing A Traffic Module

    The use of pluggable transceivers other than those approved and released by ADVA Optical Networking will result in loss of laser safety approval for the respective module and entire FSP 3000 C system. Only approved pluggable transceivers will guarantee the behavior in conjunction with the module as specified.

  • Page 222: Installing A Qsfp Pluggable Transceiver

    8. When the module is inserted completely, hand tighten the thumb screws to prevent inadvertent dislodging. Do not overtighten. 9. Repeat this procedure for each traffic module needed for your configuration. 10. If necessary, repeat this procedure for each FSP 3000 C shelf. Electrostatic Discharge Damage Prevention and Warning Traffic Module Support Handling Modules Installing a QSFP Pluggable Transceiver...
  • Page 223 If there is resistance, remove the transceiver, realign it so that the bale clasp faces the other direction, and insert the transceiver again. When you apply power to the system in a later chapter, the ADVA equipment will automatically provision. Figure 61: Inserting a QSFP Pluggable Transceiver FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)
  • Page 224 Installing a QSFP Pluggable Transceiver Do not remove the dust plug from the QSFP pluggable transceiver at this time. It will be removed when you connect the optical cables. 7. Repeat this procedure for each QSFP pluggable transceiver that needs to be installed.

  • Page 225: Installing The Slot Covers

    Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device Appropriate slot cover Slot Covers FSP 3000 C General Safety Guidelines and Warnings Installing a Module Slot Cover This procedure assumes that: The shelf is properly grounded to the rack; and The shelf has been properly inspected.
  • Page 226 Do not overtighten. 6. Repeat this procedure for each slot cover. 7. If necessary, repeat this procedure for each FSP 3000 C shelf. Install slot covers in all empty slots, including ECM-2, PSM, and traffic module slots.

  • Page 227: Connecting The Infrastructure Modules

    1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack. 2. Select the correct cable types (according to your installation plan). 3. Connect the FSP 3000 C infrastructure modules according to the appropriate cabling diagram. FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)
  • Page 228 Figure 63: Cabling Diagram for SH4R Infrastructure Modules 4. Route cables through the appropriate fiber management guides. Cable Management Best Practices Electrostatic Discharge Damage Prevention and Warning Cables FSP 3000 C Troubleshooting Guide FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 229: Providing Power To The Shelves

    DC Power Overview Chapter 27 Providing Power to the Shelves DC Power Overview AC Power Overview Prerequisites for Connecting the DC Power Prerequisites for Connecting the AC Power Required Tools and Equipment Shortening and Assembling DC Power Cables Connecting DC Power to the SH12 Shelf Connecting AC Power to the SH4R Shelf DC Power Overview Currently, the SH12 is powered by DC power.

  • Page 230: Ac Power Overview

    To achieve power redundancy, each PSM must have its own AC receptacle The reliability can be increased by connecting the receptacles to different power phases. ADVA Optical Networking recommends having two power sources. If you only have one and it fails, the shelf will cease operation. General Power and Grounding Guidelines...

  • Page 231: Prerequisites For Connecting The Dc Power

    Prerequisites for Connecting the DC Power Prerequisites for Connecting the DC Power ELECTRIC VOLTAGE WARNING Only service personnel or a qualified/licensed electrician are allowed to connect DC power cables. The site wiring systems must be installed in accordance with your national and local electrical safety standards.

  • Page 232: Required Tools And Equipment

    ESD-preventive wrist strap or other personal grounding device Two or four DC power cables of the proper length, depending on which redundant, load-sharing mode configuration you want to support (provided by ADVA Optical Networking but have to be ordered separately) Appropriate terminal connectors to match the connectors on the external power source...

  • Page 233: Shortening And Assembling Dc Power Cables

    ESD-preventive wrist strap or other personal grounding device Two to three AC power cables, depending on which redundant, load-sharing mode configuration you want to support (provided by ADVA Optical Networking but have to be ordered separately) For operation in various countries, country-specific AC power cables are available.

  • Page 234: Connecting Dc Power To The Sh12 Shelf

    9. If required, repeat this procedure for the rest of your power cables. Two power cables of the same length and with the same connectors constitute a cable pair that belongs to a specific shelf. ADVA Optical Networking recommends labeling each DC power cable for easy identification.
  • Page 235 Connecting DC Power to the SH12 Shelf 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack. 2. Verify that the office DC power supply is set up to deliver the correct operating voltage to the SH12 (–40 to –72 VDC nominal).
  • Page 236 Connecting DC Power to the SH12 Shelf Figure 65: 2+1 Configuration Wiring FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)
  • Page 237 Connecting DC Power to the SH12 Shelf Figure 66: 1+1 Configuration Wiring 5. Based on your configuration, identify the Power A input power connector(s) you will use. Figure 67: Power input connectors FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)
  • Page 238 Connecting DC Power to the SH12 Shelf 6. Connect the D-sub plug of the DC power cable to the appropriate power input connector on the shelf (such as DC-A-PSM 1/4): a. Holding the plug body, match the D-shaped metal shield on the plug with the D- shaped shell of the power input connector on the shelf.
  • Page 239 If the Mod LED of the PSM-DC is off, then no power is being supplied to the unit. In case of an error, the power LED turns red. For troubleshooting information, see the FSP 3000 C Troubleshooting Guide or contact ADVA Optical Networking for technical assistance.

  • Page 240: Connecting Ac Power To The Sh4R Shelf

    The PSM-AC4s have been securely installed in the SH4R; and The AC power cable is specific to your country and was provided by ADVA Optical Networking. 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack.
  • Page 241 If the Mod LED of the PSM-AC4 is off, then no power is being supplied to the unit. In case of an error, the Mod LED turns red. For troubleshooting information, see the FSP 3000 C Troubleshooting Guide or contact ADVA Optical Networking for technical assistance.
  • Page 242 Connecting AC Power to the SH4R Shelf AC Power Source Requirements AC Power Cable Specifications Electrical Safety Guidelines and Warnings In Case of Electrical Accident Slot Covers FSP 3000 C Troubleshooting Guide FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 243: Connecting The Optical Cables

    Routing Optical Cables Through the FMT/1HU Overview Because of the complexity of the FSP 3000 C system, there are a lot of hardware configurations. Providing the procedures for every possible configuration goes beyond the scope of this chapter. Therefore, this chapter only provides procedures about establishing internal and external optical connections, as well as client-side and network- side connections.

  • Page 244: Prerequisites

    Prerequisites Pairs of connectable fiber-optic jumpers of different lengths and types are delivered with each equipment shelf. They are color coded and labeled according to usage. Optical module ports (receptacles) and fiber-optic connectors are susceptible to become contaminated. The fiber end face and ferrule of the fiber optic connectors must be absolutely clean and smooth, and must not display scratches or cracks to achieve correct fiber connections.

  • Page 245: Connecting The Optical Cables

    Dirt particles can enter the optical fiber connector. Place a protective cap over any open optical fiber connector. To ensure faultless operation of the FSP 3000 C system, use only fiber-optic cables released and provided by ADVA Optical Networking. Fiber-optic cables other than ones released and provided by ADVA Optical Networking may not be compatible with FSP 3000 C modules and interoperability cannot be guaranteed.
  • Page 246 Clean the plug using a standard cleaning kit. Be careful not to contaminate the surfaces after cleaning. 6. Connect the FSP 3000 C components (both client and network sides) according to the appropriate cabling diagram. Figure 71: Cabling Diagram with 48 Optical Filter Channels...

  • Page 247: Routing Optical Cables Through The Fmt/1Hu

    Cables Inspecting and Cleaning Fiber-optic Connectors and Receptacles Laser and LED Safety Guidelines and Warnings FSP 3000 C Troubleshooting Guide Routing Optical Cables Through the FMT/1HU If you are using breakout cables, the breakout point must be outside the shelf (such as in the FMT/1HU).
  • Page 248 Routing Optical Cables Through the FMT/1HU 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack. 2. Open the tray loosening the screws of the FMT/1HU for access to the fiber optic tray. 3.
  • Page 249 Overview Cable Management Best Practices Electrostatic Discharge Damage Prevention and Warning Cables Inspecting and Cleaning Fiber-optic Connectors and Receptacles Laser and LED Safety Guidelines and Warnings FSP 3000 C Troubleshooting Guide FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 250: Installing The Front Cover

    Installation Overview — SH12 and SH4R Shelves Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device Appropriate front cover(s) for the FSP 3000 C shelf Installation Overview — SH12 and SH4R Shelves Electrostatic Discharge Damage Prevention and Warning...
  • Page 251 Installing the SH12 Upper Front Cover Installing the SH12 Upper Front Cover If you plan to have a front cover installed on your FSP 3000 C shelf and will be using cables with MPO connectors, you must have the front cover extension installed.

  • Page 252: Installing The Sh12 Lower Front Cover

    Shelf Front Covers Installing the SH12 Lower Front Cover This procedure assumes that you have completed the physical installation of the FSP 3000 C components and connections. This front cover houses an air filter for the PSM-DCs and it must be installed.

  • Page 253: Installing The Sh4R Front Cover

    Installing the SH4R Front Cover Installing the SH4R Front Cover If you plan to have a front cover installed on your FSP 3000 C shelf and will be using cables with MPO connectors, you must have the front cover extension installed. To determine if your shelf rack/cabinet configuration...

  • Page 254: Installing The Fd-128D Front Cover

    Installing the FD-128D Front Cover This procedure assumes that you have completed the physical installation of the FSP 3000 C components and connections. 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack.

  • Page 255: Optical Network Leveling

    Overview Chapter 30 Optical Network Leveling Overview Required Tools and Equipment Measuring the Network Fiber Attenuation Overview The procedures in this chapter ensure that All network receivers get enough optical input power; All network receivers are not overdriven or even damaged by excessive input power; All network connections are working correctly.
  • Page 256 Measuring the Network Fiber Attenuation Measuring the Network Fiber Attenuation During provisioning of the NE, an estimated network fiber attenuation had to be used. You need to verify these values and act accordingly. You need a second person at the remote site.

  • Page 257: Part 4: Maintaining Hardware

    PART 4: MAINTAINING HARDWARE Replacing the Shelf Air Filter Pad Inspecting and Cleaning Fiber-optic Connectors and Receptacles FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 258: Replacing The Shelf Air Filter Pad

    Required Tools and Equipment Chapter 31 Replacing the Shelf Air Filter Pad Required Tools and Equipment Replacing the SH12 Air Filter Pad Replacing the SH4R Air Filter Pads Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device Suitable grounded surface or a static-dissipative mat Appropriate air filter pads Screwdriver (0,8 mm x max.
  • Page 259 6. Remove the air filter pad from the filter unit. Figure 78: Removing an Air Filter Pad Use only ADVA Optical Networking original air filter pads for replacement. 7. Insert a replacement air filter pad of the same type and dimensions into the air filter unit.

  • Page 260: Replacing The Sh4R Air Filter Pads

    Replacing the SH4R Air Filter Pads 11. Reinstall the lower front cover as described in Removing and Installing Front Covers. 12. Dispose of the dirty air filter pad properly. Cooling and Airflow Clearance Requirements Air Filter Pads Side Air Covers Replacing the SH4R Air Filter Pads 1.
  • Page 261 Replacing the SH4R Air Filter Pads Figure 80: Air Filter Case 7. Gently slide the case open. Figure 81: Sliding Air Filter Case 8. Use your fingers to carefully remove the dirty air filter pad away from each air duct. Figure 82: SH4R Air Filter Pads FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)
  • Page 262 Replacing the SH4R Air Filter Pads Use only ADVA Optical Networking original air filter pads for replacement. 9. Place a new replacement air filter pad in front of each air duct. 10. Gently slide the case closed. 11. Use a Torx T10 screwdriver to screw the retaining thumb screw.

  • Page 263: Inspecting And Cleaning Fiber-Optic Connectors And Receptacles

    Overview Chapter 32 Inspecting and Cleaning Fiber-optic Connectors and Receptacles Overview Best Practices Required Tools and Equipment Inspecting Fiber-optic Connector and Receptacle End Faces Cleaning Fiber-optic Connectors Cleaning Connector Receptacles Risk of equipment damage Before connecting the optical cables, you must inspect and clean them.
  • Page 264 As a general rule, whenever there is a significant, unexplained loss of light, check the connectors. The network fiber and patch panels used to connect ADVA Optical Networking equipment to the network fiber must have discrete back reflection level values to be below -27 dB or less (-40dB for standard connectors and -55dB for angled connectors).

  • Page 265: Best Practices

    Best Practices Best Practices Use resealable containers to store all cleaning tools. Always store unused protective caps in a resealable container to avoid transferring dust to the fibers. The inside of these containers must be kept very clean and the lid should be kept tightly closed to avoid contamination of the contents during fiber connection.
  • Page 266 Best Practices Figure 83: Cleaning Flowchart Electrostatic Discharge Damage Prevention and Warning Eye Safety Guidelines Laser and LED Safety Guidelines and Warnings FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 267: Required Tools And Equipment

    Do not use commercial, compressed air due to the risk of oil contamination of the fiber-optic connectors and receptacles. Always use canned, oil-free compressed air. Discard any used cleaning material after use. Contact ADVA Optical Networking to obtain a list of MPO inspection equipment suppliers. Overview Best Practices Laser and LED Safety Guidelines and Warnings FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 268: Inspecting Fiber-Optic Connector And Receptacle End Faces

    Inspecting Fiber-optic Connector and Receptacle End Faces Inspecting Fiber-optic Connector and Receptacle End Faces This procedure is applicable for all fiber-optic connector types. This procedure assumes that: Any laser sources have been turned off before you inspect fiber connectors, optical components, or fiber-optic bulkhead connectors (FOBCs);...

  • Page 269: Cleaning Fiber-Optic Connectors

    Cleaning Fiber-optic Connectors LASER RADIATION WARNING Never look directly into an optical fiber connector or into a non-terminated receptacle during service operations by using optical instruments, such as a magnifier or hand-held scope, unless you are absolutely certain that no laser radiation is being emitted from the receptacle or the fiber. Figure 84: Damaged, Dirty, and Clean Fiber Ends Eye Safety Guidelines Laser and LED Safety Guidelines and Warnings...

  • Page 270: Cleaning Methods

    Cleaning Fiber-optic Connectors These procedures assume that: Any laser sources have been turned off before you inspect fiber connectors, optical components, or fiber-optic bulkhead connectors (FOBCs); The cable is disconnected at both ends; The traffic modules and pluggable transceivers have been installed correctly;...

  • Page 271: Dry Cleaning Technique Using Reel-Type Cleaners

    Cleaning Fiber-optic Connectors 6. If the connector is still dirty, repeat cleaning using a dry-cleaning technique. 7. Inspect the connector again. 8. If after several cleaning and inspection cycles, the connector is not clean, use a new cable. 9. For advanced cleaning: a.

  • Page 272: Dry Cleaning Technique Using Lint-Free Wipes

    Cleaning Fiber-optic Connectors 3. Inspect the fiber using a hand-held fiber scope or video scope. Refer to Inspecting Fiber-optic Connector and Receptacle End Faces for examples of clean, damaged, and dirty fiber end faces. 4. If the connector is dirty, clean it with a reel-type cleaner by pressing down and holding the thmb lever.

  • Page 273: Wet Cleaning Technique Using Lint-Free Wipes

    Cleaning Fiber-optic Connectors 5. If the connector is dirty, lightly wipe the ferrule tip in the central portion of the wipe, using a “figure 8” motion. Figure 85: Cleaning the End of a Jumper with a Clean-room Tissue Do not scrub the fiber against the wipe. Doing so could cause scratches and further contamination.

  • Page 274: Vendor-Specific Cleaning Techniques

    Cleaning Fiber-optic Connectors Improper cleaning can cause damage to the equipment. Isopropyl alcohol should be removed completely from the connector or adapter. Residual liquid alcohol can act as a transport mechanism for loose dirt on the end face. If the alcohol is allowed to evaporate slowly off the ferrule, it can leave residual material on the cladding and fiber core.

  • Page 275: Cleaning Connector Receptacles

    Cleaning Connector Receptacles Eye Safety Guidelines Laser and LED Safety Guidelines and Warnings Best Practices Required Tools and Equipment Cleaning Connector Receptacles General Cleaning Process Dry Cleaning Technique Using Lint-Free Swabs Wet Cleaning Technique Using Lint-Free Swabs These procedures assume that: Any laser sources have been turned off before you inspect fiber connectors, optical components, or fiber-optic bulkhead connectors (FOBCs);...

  • Page 276: Dry Cleaning Technique Using Lint-Free Swabs

    If problems persist after repeated cleaning, replace the optical module. Return the removed module to ADVA Optical Networking Technical Services. 6. If no optical fiber cable is reconnected, cover the connector receptacle with plugs to avoid contamination.

  • Page 277: Wet Cleaning Technique Using Lint-Free Swabs

    Cleaning Connector Receptacles 5. Inspect the connector in the adapter again by using a hand-held fiber scope or video scope probe. 6. For LC receptacles: a. Insert the clean lint-free swab into the adapter. b. Turn the swab several complete revolutions in the same direction. 7.
  • Page 278 Cleaning Connector Receptacles 3. Inspect the connector with a hand-held fiber scope or video scope (Inspecting Fiber- optic Connector and Receptacle End Faces). 4. If the dry cleaning procedure did not remove the dirt from the fiber end face, place one drop of 99% alcohol to lightly moisten a new lint-free swab.

  • Page 279: Part 5: Replacing Components

    PART 5: REPLACING COMPONENTS Replacing Infrastructure Modules Replacing Traffic Modules and Pluggable Transceivers Removing and Installing Front Covers Removing and Installing a Module Slot Cover Returning Equipment FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 280: Replacing Infrastructure Modules

    Chapter 33 Replacing Infrastructure Modules Replacing an FTM Replacing an ECM-2 Replacing a CEM Replacing a PSM Adhere to the cautions and warnings throughout this document for a safe and hazard-free installation. Personnel must understand and apply the safety guidelines provided in this document. In addition, the safety notices on the equipment labels should be strictly followed.

  • Page 281: Replacing An Ftm

    Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device Suitable grounded surface or a static-dissipative mat Appropriate FTM for FSP 3000 C shelf FTM-2 for SH12 FTM-4 for SH4R Torx T10 screwdriver Electrostatic Discharge Damage Prevention and Warning...

  • Page 282: Replacing An Ftm-4

    13. Reinstall the front cover as described in Removing and Installing Front Covers. 14. Return the defective FTM-2 to ADVA Optical Networking as described in Returning Equipment If the replacement FTM-2 does not work or the Mod LED is red or yellow, remove and reinstall it.

  • Page 283: Replacing An Ecm-2

    12. Reinstall the front cover as described in Removing and Installing Front Covers. 13. Return the defective FTM-4 to ADVA Optical Networking as described in Returning Equipment If the replacement FTM-4 does not work or the Mod LED is red or yellow, remove and reinstall it.
  • Page 284 Suite for a list of available documents. 2. If you have a second FSP 3000 C shelf available, place the replacement ECM-2 in that shelf and install the backed up database onto the replacement ECM-2. 3. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack.

  • Page 285: Replacing A Cem

    21. Reconnect the RJ-45 Serial port, if necessary. 22. Reconnect the USB port, if necessary. 23. The node enters DB-Maintenance mode. Please refer to the FSP 3000 C Troubleshooting Guide to recover the node. 24. Check the module LEDs to ensure they are operating correctly. For LED information, see the FSP 3000 C Troubleshooting Guide.

  • Page 286: Replacing A Cem-2

    16. Reconnect the RJ-45 Management ports, if necessary. 17. Reconnect the Interconnect ports, if necessary. 18. Check the module LEDs to ensure they are operating correctly. For LED information, see the FSP 3000 C Troubleshooting Guide. 19. Reinstall the front cover as described in Removing and Installing Front Covers.

  • Page 287: Replacing A Cem-4

    Refer to the appropriate software document for procedures. See FSP 3000 C Documentation Suite for a list of available documents. 21. Return the defective CEM-2 to ADVA Optical Networking as described in Returning Equipment. If the replacement CEM-2 does not work or the LEDs are not responding as expected, remove and reinstall it.

  • Page 288: Replacing A Psm

    Refer to the appropriate software document for procedures. See FSP 3000 C Documentation Suite for a list of available documents. 21. Return the defective CEM-4 to ADVA Optical Networkingas described in Returning Equipment If the replacement CEM-4 does not work or the LEDs are not responding as expected, remove and reinstall it.

  • Page 289: Required Tools And Equipment

    Electrostatic Discharge Damage Prevention and Warning Handling Modules Power — SH12 Power— SH4R FSP 3000 C Troubleshooting Guide Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device Suitable grounded surface or a static-dissipative mat Replacement PSM PSM-DC — for SH12 PSM-AC4 —...

  • Page 290: Replacing A Psm-Dc

    If the Mod LED of the PSM-DC is off, then no power is being supplied to the unit. In case of an error, the power LED turns red. For troubleshooting information, see the FSP 3000 C Troubleshooting Guide or contact ADVA Optical Networking for technical assistance.

  • Page 291: Replacing A Psm-Ac4

    Handling Modules DC Power Source Requirements Electrical Safety Guidelines and Warnings In Case of Electrical Accident FSP 3000 C Troubleshooting Guide Replacing a PSM-AC4 ELECTRIC VOLTAGE WARNING Before connecting the AC power cable, ensure that power is removed from the dedicated AC supply circuit.
  • Page 292 If the Mod LED of the PSM-AC4 is off, then no power is being supplied to the unit. In case of an error, the Mod LED turns red. For troubleshooting information, see the FSP 3000 C Troubleshooting Guide or contact ADVA Optical Networking for technical assistance.

  • Page 293: Replacing Traffic Modules And Pluggable Transceivers

    Chapter 34 Replacing Traffic Modules and Pluggable Transceivers Replacing a Traffic Module Replacing a Pluggable Transceiver Adhere to the cautions and warnings throughout this document for a safe and hazard-free installation. Personnel must understand and apply the safety guidelines provided in this document. In addition, the safety notices on the equipment labels should be strictly followed.

  • Page 294: Replacing A Traffic Module

    7. Grasp the levers and carefully slide the traffic module away from the shelf. 8. Place the malfunctioning traffic module on a static-dissipative mat. 9. Return the defective traffic module to ADVA Optical Networking as described in Returning Equipment.

  • Page 295: Installing A Traffic Module

    Replacing a Traffic Module Electrostatic Discharge Damage Prevention and Warning Laser and LED Safety Guidelines and Warnings Handling Modules Handling Fiber-Optic Cables Handling Pluggable Transceivers Installing a Traffic Module This procedure assumes that: The shelf is properly grounded to the rack; and The replacement module have been unpacked and properly inspected.

  • Page 296: Replacing A Pluggable Transceiver

    FSP 3000 C Documentation Suite for a list of available documents. 14. Return the defective traffic module to ADVA Optical Networking as described in Returning Equipment If the replacement traffic module does not work or the LEDs are not responding as expected, remove and reinstall it. If it still does not work, immediately install another replacement.

  • Page 297: Overview

    The use of pluggable transceivers other than those approved and released by ADVA Optical Networking will result in loss of laser safety approval for the respective module and entire FSP 3000 C system. Only approved pluggable transceivers will guarantee the behavior in conjunction with the module as specified.

  • Page 298: Installing A Qsfp Pluggable Transceiver

    5. Carefully pull the pluggable transceiver from the cage. 6. Place the malfunctioning pluggable transceiver on a static-dissipative mat. 7. Return the defective traffic module to ADVA Optical Networking as described in Returning Equipment.
  • Page 299 Replacing a Pluggable Transceiver Do not install a pluggable transceiver with the optical fiber pair attached. You could damage the optical fibers, the optical fiber connectors, or the optical port of the module. 4. If installed, remove the dust cover from the module port and store it in a resealable container for future use.
  • Page 300 Replacing a Pluggable Transceiver 6. Return the defective pluggable transceiver to ADVA Optical Networking as described in Returning Equipment Do not remove and insert a pluggable transceiver more often than necessary. Frequent installation and removal of a pluggable transceiver can shorten its lifespan.

  • Page 301: Removing And Installing Front Covers

    Installing the FD-128D Front Cover Required Tools and Equipment ESD-preventive wrist strap or other personal grounding device Appropriate front cover(s) for the FSP 3000 C shelf Shelf Front Covers Electrostatic Discharge Damage Prevention and Warning General Electrical Safety Guidelines and Warnings Removing a Shelf Front Cover 1.
  • Page 302 Installing the SH12 Upper Front Cover Installing the SH12 Upper Front Cover 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack. 2. Position the upper cover on the front of the shelf so that the latches and brackets on either side align.
  • Page 303 Installing the SH4R Front Cover Figure 88: Positioning the Lower Front Cover 3. Swing the left side of the lower front cover into place. 4. Press the cover inward until the latch snaps into place. Be careful not to pinch any power cables.

  • Page 304: Installing The Fd-128D Front Cover

    Installing the FD-128D Front Cover Electrostatic Discharge Damage Prevention and Warning Cooling and Airflow Shelf Front Covers Installing the FD-128D Front Cover 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack. 2.

  • Page 305: Removing And Installing A Module Slot Cover

    ESD-preventive wrist strap or other personal grounding device Appropriate slot cover Slot Covers FSP 3000 C General Safety Guidelines and Warnings Removing a Module Slot Cover 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack.

  • Page 306: Installing A Module Slot Cover

    Installing a Module Slot Cover Installing a Module Slot Cover 1. Verify that you are properly grounded with an anti-static wrist strap or heel strap connected to the grounded ESD jack. 2. If mounted, remove the front cover from the shelf as described in Removing and Installing Front Covers.

  • Page 307: Returning Equipment

    Shipments received by ADVA Optical Networking without an RMA number will not be processed and will be returned to the sender at its expense. For each shipment an RMA number is required.

  • Page 308: Obtaining An Adva Optical Networking Rma Number

    Networking will not be able to allocate the RMA number. 4. Print out and sign the RRF. 5. Fax the completed and signed RRF to ADVA Optical Networking by fax at +49 (89) 8906 65847. You will be informed of the RMA number allocated.

  • Page 309: Returning Fsp 3000 C Hardware

    Returning FSP 3000 C Hardware Returning FSP 3000 C Hardware When returning damaged or defective hardware to ADVA Optical Networking for repair: Use the original shipping box and packaging material for optimum equipment protection, inserting the component in a static shielding bag to avoid ESD damage.

  • Page 310: Part 6: Safety Guidelines

    PART 6: SAFETY GUIDELINES General Electrical Safety Guidelines and Warnings Product Safety Labeling Fire Safety Requirements Installation Safety Guidelines and Warnings Laser and LED Safety Guidelines and Warnings Permissible Configurations Maintenance and Operational Safety Guidelines and Warnings Electrical Safety Guidelines and Warnings Agency Approvals and Regulatory Compliance Information FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 311: General Safety Guidelines And Warnings

    General Safety Guidelines and Warnings Definition of Safety Warning Levels Safety Requirements, Warnings, and Guidelines FSP 3000 C General Safety Guidelines and Warnings Operational Risks Electrostatic Discharge Damage Prevention and Warning Local Building and National Electrical Codes Warning Qualified Personnel Warning...

  • Page 312: Electric Voltage Warning

    Definition of Safety Warning Levels Electric Voltage Warning ELECTRIC VOLTAGE WARNING This symbol means danger and alerts you to risks caused by electricity that could result in death or serious injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents.

  • Page 313: Laser Radiation Warning - Class 1M Laser

    Definition of Safety Warning Levels Laser Radiation Warning — Class 1M Laser LASER RADIATION WARNING — CLASS 1M LASER This symbol warns you that the equipment contains Class 1M lasers, which are safe for all conditions of use except when the beam is passed through magnifying optics. It also alerts you to the risk of possible laser radiation if the system is not used as designed or altered in any way.

  • Page 314: Notice

    Definition of Safety Warning Levels Notice EQUIPMENT DAMAGE MAY RESULT IF: This symbol indicates the risk of equipment damage, malfunction, process interruption, or negative impacts on surroundings. Note This symbol indicates supplemental information or helpful recommendations. Read Documentation Alert This symbol advises of the importance of carefully reading all instructions before proceeding or provides links to additional information to read.

  • Page 315: Waste Alert

    To avoid harm to yourself or the FSP 3000 C products as you install and maintain them, follow the guidelines for working with and near electrical equipment, as well as the safety procedures for working with networking devices.
  • Page 316 Avoid inserting foreign objects through the shelf openings and slots as this could result in thermal overload or electrical shock. Avoid spilling liquid onto the shelves or onto any FSP 3000 C component. Such an action could cause electrical shock or could damage the FSP 3000 C equipment.

  • Page 317: Operational Risks

    Operational Risks Operational Risks Risk Details The weight of a fully equipped FSP 3000 C shelf varies Equipment Handling from moderate to heavy. When improperly handled, it may fall causing personal injury and/or equipment damage. There are particular points in the electrical equipment (such as power supply, power connectors, backplane) where elevated voltages are inevitably present.

  • Page 318: Electrostatic Discharge Damage Prevention And Warning

    Electrical Safety Guidelines and Warnings Electrostatic Discharge Damage Prevention and Warning If FSP 3000 C equipment can be damaged by electrostatic discharge (ESD) if it is improperly handled during unpacking, installation, removal, storage, or shipment. This damage can result in complete or intermittent failures.

  • Page 319: Esd Protective Clothing And Accessories

    Electrostatic Discharge Damage Prevention and Warning ELECTROSTATIC CAUTION Risk of damage due to electrostatic discharge. The FSP 3000 C product contains components susceptible to damage by electrostatic discharge (ESD). Before unpacking, installing, or servicing components of an FSP 3000 C shelf, take appropriate anti-static precautions.
  • Page 320 Electrostatic Discharge Damage Prevention and Warning Use a static-dissipative floor mat, if the floor is not conductive. Use a static-dissipative work mat, if the work surfaces is not conductive. Clean the ESD dissipative work surfaces periodically to prevent build-up of grease or other layers that will impede the static dissipation.

  • Page 321: Equipment Handling

    ESD strap is attached to an ESD jack on the shelf. Keep the FSP 3000 C component in its ESD protective bag until you are ready to unpack, inspect, and install it.

  • Page 322: Qualified Personnel Warning

    Restricted Access Area Warning ELECTRIC VOLTAGE WARNING The FSP 3000 C product is intended for installation in restricted access areas. A restricted access area is an area to which access can be gained only by service personnel through the use of a special tool, lock and key, or other means of security, and which is controlled by the person in charge of the location.

  • Page 323: Product Safety Labeling

    Product Safety Labeling Safety and Certification Marking Symbols Product Safety Labels Do not remove product safety labels from the FSP 3000 C equipment. Safety and Certification Marking Symbols The following safety and certification marking symbols may be present on the product, on its packaging, or on the product safety labels.
  • Page 324 Safety and Certification Marking Symbols Symbol Publication Description IEC 417 Functional ground terminal Present directly on the product and identifies the location of the shelf’s functional ground terminal. This terminal must not be used for safety grounding purposes. IEC 417 ESD Susceptibility symbol* Present directly on the product and identifies the location of the shelf’s earth bonding point (ESD...
  • Page 325 EU Directives and all national laws and regulations. — CE mark Indicates that the FSP 3000 C component meets the requirements of the applicable EC directives. — CB SIQ mark Indicates that the FSP 3000 C component meets the...

  • Page 326: Product Safety Labels

    Product Safety Labels Definition of Safety Warning Levels Product Safety Labels Each FSP 3000 C component has various product and safety labels which provide important information about the component itself and the operating safety. ESD Caution Label Hazard Level 1M Laser Safety Warning Label...

  • Page 327: Esd Caution Label

    Product Safety Labels ESD Caution Label Label Category Product Safety Label Description Present on components containing electrostatic sensitive devices, requiring handling in accordance to ESD prevention guidelines and precautions. If proper precautions are not observed, static-sensitive components inside the shelf could be damaged without you realizing it.

  • Page 328: Hazard Level 1M Laser Safety Warning Label

    C system is within hazard level 1M. This means that the emission level does not exceed the accessible emission limit (AEL) of Class 1M under all conditions of operation, maintenance, service, and failure. The FSP 3000 C contains lasers up to laser class 1M and is a hazard level 1M product.

  • Page 329: Hazard Level 1M Laser Safety Warning Label W/General Remark

    C system is within hazard level 1M. This means that the emission level does not exceed the accessible emission limit (AEL) of Class 1M under all conditions of operation, maintenance, service, and failure. The FSP 3000 C contains lasers up to laser class 1M and is a hazard level 1M product.

  • Page 330: Hot Surface Caution Label

    Product Safety Labels Hot Surface Caution Label Label Category Product Safety Label Description Present on components that can heat up during operation and cause burn injuries when handled. Components must be allowed to cool before servicing. Components Affected Shelves 12U and 4U shelves Data on Label Hot surface hazard symbol Warning message...

  • Page 331: Protective Grounding Label

    Product Safety Labels Protective Grounding Label Label Category Product Safety Label Description Present on components that need to be grounded. Components Affected Shelves 12U and 4U shelves Data on Label Grounding symbol Label Example FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 332: Fire Safety Requirements

    Chapter 40 Fire Safety Requirements Keep power inlet terminals free from dust. Make sure that air inlets and air outlets in the housing of a shelf have free access to the room ambient air for cooling. Ensure sufficient air ventilation during operation. Do not operate a shelf for extended periods without having Modules or slot covers fitted in the slots;...

  • Page 333: Installation Safety Guidelines And Warnings

    In the latter case, external interferences could affect the shelf operation. Mount the FSP 3000 C shelf in an approved rack that is fastened on a stable non- combustible surface. Place equipment on a stable service. Any component can fall and break if placed on an unstable cart, stand, or table.

  • Page 334: Shelf Lifting And Moving Guidelines

    12 kg (26.46 lbs). With modules installed, the shelf weighs more. Observe the following guidelines for lifting and moving an FSP 3000 C shelf: Before moving a shelf, check the Site Preparation Checklist to verify that the intended site meets the specified power, environmental, and clearance requirements.

  • Page 335: Handling Shelves

    Handling Equipment Precautions and Guidelines The final disposal of any FSP 3000 C component should be handled according to all relevant national laws and regulations of your country. When handling the FSP 3000 C equipment, adhere to the precautions and...

  • Page 336: Handling Modules

    Do not dispose of a waste module with the normal trash because of it is an electronic product. Electrostatic Discharge Damage Prevention and Warning FSP 3000 C General Safety Guidelines and Warnings Operational Risks Qualified Personnel Warning FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 337: Handling Pluggable Transceivers

    Failure, overheating, or fire may occur. Electrostatic Discharge Damage Prevention and Warning Laser and LED Safety Guidelines and Warnings FSP 3000 C General Safety Guidelines and Warnings Operational Risks Qualified Personnel Warning FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 338: Handling Fiber-Optic Cables

    They can be damaged when handled or routed improperly. If you plan to have a front cover installed on your FSP 3000 C shelf and will be using cables with MPO connectors, you must have the front cover extension installed. To determine if your shelf...

  • Page 339: Installation Instructions Warning

    C shelf to a power source. Rack-Mounting Requirements and Warnings Ensure that the equipment rack into which the FSP 3000 C shelf is installed is evenly and securely supported to avoid the hazardous condition that could result from uneven mechanical loading.
  • Page 340 Rack-Mounting Requirements and Warnings Supported Rack Requirements Building Structure Connection for Rack Prerequisites and Guidelines FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 341: Laser And Led Safety Guidelines And Warnings

    Radiation from Open Port Apertures Warning Laser Safety Information and Guidelines The FSP 3000 C equipment uses lasers as fiber-optic transmitter sources. These lasers are inherently safe unless mishandled. The equipment meets the specifications for a hazard level 1M product and a Class 1M Laser product, even if a fiber-optic transmitter is switched to “Forced On”...
  • Page 342 Raman pump out from being transmitted into the open or broken fiber. To ensure that the FSP 3000 C operates as a hazard level 1M system, some EDFAs and the Raman amplifiers supports ADVA Optical Networking’s ALS scheme.

  • Page 343: Optical Output Power Of The System

    Unused Ports — The optical ports not currently in use must be closed by a dust cover, which is delivered with the FSP 3000 C. The dust plug should be left in the optical connectors of the pluggable transceiver when not in use. The dust plugs are designed to withstand the specified optical output power.
  • Page 344 Do not connect or disconnect fiber-optic cables at eye level. LASER RADIATION WARNING Use of controls or adjustments or performance of procedures other than those specified in the FSP 3000 C documentation may result in hazardous radiation exposure. There is exposure to hazardous laser radiation when the protective housing is open and interlocks are defeated.
  • Page 345 Eye Safety Guidelines LASER RADIATION WARNING Risk of eye injury! If these instructions are ignored, the emitting laser light can cause permanent eye or skin damage and can also lead to blindness. Never look directly into an optical fiber connector, fiber patch cord, fiber pigtail, fiber ends or into an unterminated receptacle during servicing operations with a magnifier unless it is absolutely certain that no laser radiation is being emitted from the receptacle or the fiber.

  • Page 346: Class 1M Laser Product Warning

    Practical Issues Regarding Laser Safety Class 1M Laser Product Warning LASER RADIATION WARNING The FSP 3000 C is a Class 1M laser product with Hazard Level 1M. A Class 1M Laser safety warning label is affixed to the equipment, indicating that it should never be used or installed in an optical network with emissions higher than Class 1M.

  • Page 347: Permissible Configurations

    > 1400 nm such as WDM signals from the ITU-T standard. This implies that no “open fiber” connection on the FSP 3000 C platform shall be capable of transmitting more optical power than the 1M hazard level for a longer time than specified in the standards.

  • Page 348: Practical Issues Regarding Laser Safety

    Supported Configurations Practical Issues Regarding Laser Safety The FSP 3000 C platform is an optical DWDM system that combines individual laser signals (up to 128 channels) onto a single fiber optic cable through the use of transmission components such as passive and active filter modules and optical amplifiers.

  • Page 349: Alien Wavelength

    If alien wavelengths (i.e., channels not originating from an ADVA traffic module) are inserted into an FSP 3000 C optical layer (client side of an optical multiplexer), the TX power or the external interfaces must not be higher than +6 dBm to be within laser class 1M power levels.

  • Page 350: Supported Configurations

    Supported Configurations Supported Configurations 48 Channel Multiplexed with FD-48E 128 Channel Multiplexed with FD-128D Optical Amplifiers 48 Channel Multiplexed with FD-48E With a channel interface output power of maximum 6 dBm, the required minimum loss of the 48 channel mux/demux (FD-48E) must be 1.5 dB. Figure 90: Up to 48 Multiplexed DWDM channels in C-band (with 100 GHz spacing) EDFA modules can only be placed at the FD-48E multiplexer network port as post-...

  • Page 351: Optical Amplifiers

    Supported Configurations Figure 91: Up to 128 Multiplexed DWDM channels in C-band (with 37.5 GHz spacing) EDFA modules can only be placed at the FD-128D multiplexer network port as post- amplifier (not at the client ports of the multiplexer). FD-128D SH12 Shelf SH4R Shelf Traffic Module Considerations...

  • Page 352: Maintenance And Operational Safety Guidelines And Warnings

    Jewelry Removal Warning Chapter 44 Maintenance and Operational Safety Guidelines and Warnings Jewelry Removal Warning Lightning Activity Warning Operating Temperature Warning Product Disposal Warning Equipment Disposal and Recycling Information Jewelry Removal Warning ELECTRIC VOLTAGE WARNING Before working on equipment that is connected to power lines, remove jewelry, including rings, necklaces, and watches.

  • Page 353: Operating Temperature Warning

    Operating Temperature Warning Operating Temperature Warning WARNING To prevent the FSP 3000 C from overheating, do not operate it in an area that exceeds the maximum recommended ambient temperature of 104°F (40°C). Product Disposal Warning WARNING Disposal of this product must be handled according to all national laws and regulations.
  • Page 354 Businesses users of electrical and electronic equipment (EEE) in the EU must ensure that all separately collected WEEE is treated and recycled. ADVA Optical Networking provides a collection and take-back system for its business- to-business (B2B) products that are introduced in the EU member states since August 13, 2005.
  • Page 355 Equipment Disposal and Recycling Information WEEE Statements FSP 3000 C General Safety Guidelines and Warnings FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 356: Electrical Safety Guidelines And Warnings

    1. Be aware of potentially hazardous conditions that could cause further injury. Use caution. 2. Disconnect power from the FSP 3000 C shelf at the appropriate power sources. 3. If possible, send another person to get medical aid. Otherwise, assess the condition of the victim, then call for help.
  • Page 357 Operate the FSP 3000 C equipment within marked electrical ratings and product usage instructions. For the FSP 3000 C and peripheral equipment to function safely and correctly, use the cables and connectors specified for the attached peripheral equipment, and make certain they are in good condition.

  • Page 358: Applying Power Warning

    DC Power Electrical Safety Guidelines and Warnings Applying Power Warning ELECTRIC VOLTAGE WARNING Applying the power to the FSP 3000 C shelf involves hazardous voltages that can cause personal injury. Take extreme care to avoid bodily contact with electrical terminals. Capacitor Connections Warning ELECTRIC VOLTAGE WARNING...

  • Page 359: Inside Plant Only Warning

    Canadian Electrical Code, Section 22. Multiple Power Supplies Disconnection Warning ELECTRIC VOLTAGE WARNING The FSP 3000 C shelf m ay have more than one power supply connection. All connections must be removed completely to remove power from the unit completely.

  • Page 360: Pcb Cover Warning

    Protective Grounded Equipment Warnings ELECTRIC VOLTAGE WARNING The FSP 3000 C is intended to be protective grounded. Ensure that the FSP 3000 C is connected to earth ground during normal use. FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 361: Ac Power Electrical Safety Guidelines And Warnings

    High voltage can cause electric shock. High currents can pose fire hazards. The FSP 3000 C equipment must be protective grounded in accordance with local and national electrical codes. Never operate the equipment in the absence of a suitably installed ground conductor.

  • Page 362: Ac Power Cable Warnings

    ELECTRIC VOLTAGE WARNING For Operation in the United States and Canada: Connect the AC-powered FSP 3000 C shelf only with a listed, detachable, maximum 4.5 m long, flexible 3-pin power cord. One end terminates in parallel blade (NEMA 5-15P or NEMA 6-20) grounding type attachment plug, other end in appliance coupler IEC 60320 C19.

  • Page 363: Grounded Power Outlet Warning

    DC Power Electrical Safety Guidelines and Warnings ELECTRIC VOLTAGE WARNING Hazardous voltage! Always disconnect the AC power cord from the appliance coupler before removing the PSM from the shelf. ELECTRIC VOLTAGE WARNING Always remove all power cables when disconnecting from the power source.

  • Page 364: Dc Power Electrical Safety Guidelines

    DC Power Electrical Safety Guidelines and Warnings DC Power Electrical Safety Guidelines Consider a protective device as part of the building installation: 35 A for hydraulic magnetic circuit breaker, characteristic curve C, D according to IEC/EN 60898 or similar, or a 50 A thermic circuit breaker. In Case of Electrical Accident General Electrical Safety Guidelines and Warnings DC Power Source Requirements...

  • Page 365: Electric Arc Warning

    DC Power Electrical Safety Guidelines and Warnings ELECTRIC VOLTAGE WARNING Always remove all power cables when disconnecting from the power source. Electric Arc Warning ELECTRIC VOLTAGE WARNING Risk of burns due to electric arc. Do not connect or disconnect live DC power cables with plugs to prevent arcing.

  • Page 366: Agency Approvals And Regulatory Compliance Information

    Agency Approvals — FSP 3000 C System Chapter 46 Agency Approvals and Regulatory Compliance Information Agency Approvals — FSP 3000 C System Compliance Statements for EMC Requirements Laser Safety Compliant Statements EU Statements Agency Approvals — FSP 3000 C System...

  • Page 367: Compliance Statements For Emc Requirements

    Japan United States Canada Compliance Criteria Environmental Specifications Agency Approvals — FSP 3000 C System Laser Safety Compliant Statements EU Statements European Union This is a Class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.

  • Page 368: Japan

    Compliance Statements for EMC Requirements Dans un environnement domestique, ce produit risque de créer des interférences radioélectriques, il appartiendra alors à l'utilisateur de prendre les mesures spécifiques appropriées. Japan Translation into English This is a Class A product based on the standard of the VCCI Council. If this equipment is used in a domestic environment, radio interference may occur, in which case, the user may be required to take corrective actions.

  • Page 369: Canada

    Compliance Statements for EMC Requirements ELECTRIC VOLTAGE WARNING 1. Changes or modifications made to this device which are not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment under FCC Rules. 2. The intrabuilding port(s) of the equipment or subassembly is suitable for connection to intrabuilding or unexposed wiring or cabling only.

  • Page 370: Laser Safety Compliant Statements

    Laser Safety Compliant Statements Laser Safety Compliant Statements The FSP 3000 C platform is an optical fiber communication system and is intended for installation in a restricted-access location only. The equipment of the FSP 3000 C platform meets the specifications for a Class 1 laser product (21 CFR 1040.10...

  • Page 371: Eu Statements

    Parliament and of the Council of 4 July 2012 on waste electrical and electronic equipment (WEEE)”. ADVA Optical Networking is accepted as a B2B customer by the EAR (Elektro-Altgeräte Register/Germany). ADVA Optical Networking's WEEE-Registration number for Germany is: DE 49592479.

  • Page 372: Supplier's Declaration Of Ce Conformity

    With the Declaration of CE Conformity ADVA Optical Networking certifies that on the basis of their concept and design, the marketed products correspond to the basic safety and health requirements. The FSP 3000 C product family is in compliance with the technical specifications as indicated in the Directive 2011/65/EU (RoHS);...

  • Page 373: Part 7: Appendices

    PART 7: APPENDICES MTBF Hours for FSP 3000 C Equipment FSP 3000 C Hardware Guide - R1.1 - Issue:A (12/09/2016)

  • Page 374: Mtbf Hours For Fsp 3000 C Equipment

    Shelves Appendix A MTBF Hours for FSP 3000 C Equipment Shelves Infrastructure Modules Amplifier Modules DWDM Filters and Filter Modules Muxponder Modules Pluggable Transceivers Shelves Component Sales Item Number MTBF hours SH12 1078800021-01 1,528,845 SH4R 1078800051-01 4,080,613 Infrastructure Modules Component...

  • Page 375: Dwdm Filters And Filter Modules

    DWDM Filters and Filter Modules DWDM Filters and Filter Modules Component Sales Item Number MTBF hours FD-48E 1063805131-01 5,526,341 FD-128D 1063805111 2,734,475 Muxponder Modules Component Sales Item Number MTBF hours MP-2B4CT 1063802131-01 173,923 Pluggable Transceivers Component Sales Item Number MTBF hours QSFP28/103G/PSM4/SM/MPO 1061800752-01 12,500,000...
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