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Paradyne HOTWIRE 8610 DSLAM Installation Instructions Manual

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HOTWIREr 8610 DSLAM
INSTALLATION INSTRUCTIONS
Document No. 8610-A2-GN10-10

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Summary of Contents for Paradyne HOTWIRE 8610 DSLAM

  • Page 1 HOTWIREr 8610 DSLAM INSTALLATION INSTRUCTIONS Document No. 8610-A2-GN10-10...

  • Page 2: Warranty, Sales, Service, And Training Information

    Further, Paradyne Corporation reserves the right to revise this publication and to make changes from time to time in the contents hereof without obligation of Paradyne Corporation to notify any person of such revision or changes.

  • Page 3: Product Documentation On The World Wide Web

    We provide complete product documentation online. This lets you search the documentation for specific topics and print only what you need, reducing the waste of surplus printing. It also helps us maintain competitive prices for our products. Complete documentation for this product is available at www.paradyne.com. Select Library Technical Manuals Hotwire DSL and MVL Systems.

  • Page 4: About This Document

    About This Document This guide is written for administrators and technicians who install devices at the central office (CO) or at a Network Service Provider (NSP) location adjacent to the CO. It should be used in conjunction with the appropriate Hotwire DSL card User’s Guide or Network Configuration Guide, which describes how to plan the data networks surrounding the DSLAM and specific DSL cards.

  • Page 5: Hotwire 8610 Dslam Features

    The 8610 DSLAM accepts the following types of cards: Management Control Processor (MCP). This is a processor card that administers and provides diagnostic connectivity to the DSL cards. It acts as a mid-level manager and works in conjunction with an SNMP network management system, such as HP OpenView, via its LAN port.
  • Page 6 SNMP management of the DSL cards is accomplished over a single Ethernet connection to the MCP card from a Network Management System (NMS) (such as Paradyne’s DCE Manager for HP OpenView). The MCP card gathers all management information for each of the DSL cards and responds to the SNMP requests on behalf of the cards.

  • Page 7: Hotwire 8610 Dslam Components

    Hotwire 8610 DSLAM Components 8610 MCP/ MANAGEMENT 10 BASE T DC FUSES 48VDC CLASS 2 T4A, MIN. 48V OR LIMITED PWR SOURCE INPUT STACK SERIAL ALM INTF MCP/1 POSITION 99-16311 The Hotwire 8610 DSLAM consists of the following components: Hotwire 8610 DSLAM base chassis Hotwire 8610 DSLAM is a 3-slot chassis designed to house one MCP card in the first slot and up to two DSL cards in the remaining slots.

  • Page 8: Pre-Installation Considerations

    Preinstallation Considerations Consider the following before performing installation of the 8610 chassis: Installation Site Your installation site should be well ventilated, clean, and free of environmental extremes. If you are installing the Hotwire 8610 DSLAM chassis in a central office rack, make sure there is 2 to 3 feet of clearance at the front of the rack in which the 8610 chassis is to be installed to allow access for the installation of the chassis, circuit cards, and cables.

  • Page 9: Unpacking The Hardware

    — 14-foot serial cable and DB25 and DB9 adapters are shipped with the MCP card. For connection to a modem, you will need a NULL modem adapter. If there is adequate maintenance space at the rear of the rack, mount the chassis on the rack before installing cables.

  • Page 10: Mounting Configurations

    Be sure to register your warranty at www.paradyne.com. Select Service & Support Warranty Registration . Mounting Configurations The Hotwire 8610 DSLAM chassis can be mounted in any commercial Electronic Industries Association (EIA) standard 19- or 23-inch rack. Both 19- and 23-inch...

  • Page 11: Hotwire 8610 Dslam Chassis Installation

    Hotwire 8610 DSLAM Chassis Installation The Hotwire 8610 DSLAM chassis is designed to be stacked one on top of the other on a desktop or table, or mounted in a 19-or 23-inch rack (front or center mount). Up to three 8610 chassis can be stacked on a table or desktop. Mounting brackets are provided for mounting in 19- or 23-inch racks.

  • Page 12: Interconnecting 8610 Systems

    Interconnecting 8610 Systems " Procedure To interconnect multiple 8610 systems: 1. Connect the end of an 8-pin modular cable into the Management OUT port of the base chassis. 2. Dress the 8-pin modular cable to the left and under the chassis, behind the foot, and up the side of the unit.
  • Page 13 The following illustration shows the designated number for each DSL card slot in a stack. NOTE: This illustration shows a stack of six Hotwire 8610 systems, which is valid for rack mounting. However, the same relationship of software-assigned slot numbers applies to two stacks of three each, mounted on a desk or tabletop and connected by a bus cable.

  • Page 14: Installing The 8610 Chassis In A Rack With Threaded Screw Holes

    Installing the 8610 Chassis in a Rack with Threaded Screw Holes NOTE: You may want to install the three supplied #4-40 Phillips pan-head screws for the rear Telco connectors on the rear connectors before rack mounting the DSLAM. This will make them readily available when needed. See Installing Network Tip and Ring Connections on page 21 for more information.

  • Page 15: Installing The 8610 Chassis In A Rack Without Threaded Screw Holes

    Installing the 8610 Chassis in a Rack without Threaded Screw Holes " Procedure To install the 8610 chassis in a rack that does not have threaded screw holes: 1. Install the mounting brackets on the 8610 chassis. — For a 19-inch rack installation, the notched flange of the mounting bracket is placed against the side of the 8610 chassis.

  • Page 16: Complying With Nebs

    Center-Mounting the 8610 Chassis in a Rack " Procedure To center-mount the 8610 chassis in a rack: 1. Determine the preferred placement of the 8610 chassis in the rack. Then, mark the appropriate locations for the mounting screws on the rack. 2.

  • Page 17: Supplying Power

    Supplying Power The Hotwire 8610 DSLAM chassis is available in two versions: dc power (– 40.0 to – 60.0 Vdc; maximum current draw is 2 amps) — The dc version has two separate dc inputs, A and B, to provide power redundancy.

  • Page 18: Using Two Dc Power Sources For Power Redundancy

    2. Dress the wires under the 8610 chassis to the left behind the support foot. 3. Power the Hotwire 8610 DSLAM chassis. –48V 4. Make sure the PWR A LED on the P /1 front panel is ON (green). A LM R IA S TA S IT...

  • Page 19: Using Only Ac Power Source

    2. Dress the wires under the 8610 chassis to the left behind the support foot. 3. Power the Hotwire 8610 DSLAM chassis. –48V 4. Make sure the PWR A and PWR B P /1 LEDs on the front panel are both ON R IA S TA S IT...

  • Page 20: Installing The Cards

    2. Insert the wires for the dc power source into the appropriate terminal and securely fasten each wire by tightening the screw above it. The insulation should be fully within the terminal block and no bare wire should be exposed outside of the block. NOTE: You should clearly label these power source wires as –...
  • Page 21 When swapping a new card for an old card, it is important to note that the 8610 DSLAM retains the Media Access Control (MAC) address, also referred to as the physical address. This means that the new card will have the same MAC address as the old one.

  • Page 22: Verifying The Installation

    NOTE: For detailed information about the configuration and operation of the circuit card, see the appropriate card User’s Guide. Verifying the Installation To verify the hardware installation, observe the following indicators: The PWR A and/or PWR B LEDs on the front panel must be in the ON state (green): —...

  • Page 23: Installing Network Tip And Ring Connections

    NOTE: If you are connecting the Hotwire 8610 DSLAM to a CO POTS splitter, this procedure assumes that the CO POTS splitter shelf is already installed. For information on how to install the CO POTS splitter, refer to the Hotwire POTS Splitter Central Office Installation Instructions , Document No.

  • Page 24: Connecting Ethernet Connections To The Ipc Or Ethernet Hubs

    Connecting Ethernet Connections to the IPC or Ethernet Hubs Use this procedure for connecting RADSL and MVL cards to the IPC or Ethernet hubs. For other types of cards, refer to the appropriate Installation Instructions. " Procedure To connect the DSL cards to the Ethernet hubs or switches: 1.

  • Page 25: Connecting To A Terminal Or Laptop Computer

    Connecting to a Terminal or Laptop Computer " Procedure To connect the Hotwire 8610 DSLAM chassis to a terminal or laptop computer: 1. Connect the serial cable with 8-pin modular plugs on each end (provided with the MCP card) into the MANAGEMENT SERIAL port of the chassis. 2.

  • Page 26: Connecting To A Modem For Remote Management

    Connecting to a Modem for Remote Management Before connecting the Hotwire 8610 DSLAM to a dial-up modem, configure the modem with the following settings: Set the modem for auto answer. For example, ATS0=1. Turn off character echo. For example, ATE0. Enable result codes in originate mode only.

  • Page 27: Troubleshooting

    Connecting CO Alarm to the Alarm System The following procedure is optional. Follow this procedure only if you want to connect to a CO alarm system. See 8-Pin Modular Connector for Alarm Relay Interface on page 28 for pin-out information. "...
  • Page 28 Symptom Possible Cause Solutions System Alarm SYSTEM ALM LED is ON 1. Choose Card Selection from the LED is ON (on a and DSL card is inoperative Main Menu to display the status in Slot n . of each DSL card. DSL card) 2.
  • Page 29 LEDs The following table describes the meaning and states of the LEDs on the front panel of the DSLAM chassis. For individual card LEDs, see the appropriate card Installation Instructions. LED is . . . Indicating . . . PWR A Green Normal operation for Power Source A.

  • Page 30: Pin Modular Connector For Alarm Relay Interface

    Pinouts 8-Pin Modular Connector for Alarm Relay Interface The 8-pin interface for the Alarm Relay Interface (ALM INTF) connection has the following pin assignments. Pin Number Pin 8 Pin 1 Not used 97-15449 Closed on major alarm Common on major alarm Open on major alarm Closed on minor alarm Common on minor alarm...

  • Page 31: Pin Modular Management In And Out Connector

    8-Pin Modular Management In and Out Connector The 8-pin interface for the Management In and Out connections has the following pin assignments. Pin Number Pin 8 Pin 1 Mgt. Data + 97-15449 Mgt. Data – Fan Alarm Ground Power Alarm A Power Alarm B Mgt.

  • Page 32: Db25 Adapter Pinouts

    DB25 Adapter Pinouts The DB25 (RS-232 male) cable adapter is used to convert the 8-pin modular serial interface to a standard RS-232 DB25 interface, which can then be connected to a terminal, computer, or any Data Termination Equipment (DTE). Connection to a modem requires a null modem adapter.

  • Page 33: Telco 50-Pin Connector Pinouts For Dsl Loops And Pots Splitters

    Telco 50-Pin Connector Pinouts for DSL Loops and POTS Splitters The three Telco 50-pin receptacles on the rear of the chassis (labeled for Slots 1, 2, 3) provide the 2-wire loop interface from each DSL port to either the POTS splitter card or, if the loop is not being shared with POTS, then to the Main Distribution Frame (MDF).

  • Page 34: Technical Specifications

    Technical Specifications The following table lists the technical specifications for the Hotwire 8610 DSLAM chassis: Specifications Criteria* Physical Height: 4.7 inches (11.94) Dimensions Width: 17.2 inches (43.69 cm) Depth: 10.5 inches (26.67 cm) Weight: 9 pounds (4.08 kg) Three chassis can be safely placed on top of each other on a desktop or table.

  • Page 35: Important Safety Instructions

    Specifications Criteria* Grounding A ground lug is located on the right rear of the Hotwire 8610 DSLAM. It accepts 14 AWG wire. A noninsulated banana jack is located at the left front of the 8610 DSLAM providing a ground for the ESD wrist strap plug. Cooling and The internal fan module is installed in the chassis to provide Air Handling...

  • Page 36: Emi Warnings

    The authority to operate this equipment is conditioned by the requirements that no modifications will be made to the equipment unless the changes or modifications are expressly approved by Paradyne Corporation.

  • Page 37: Notice To Users Of The Canadian Telephone Network

    WARNING: To Users of Digital Apparatus in Canada: This Class A digital apparatus meets all requirements of the Canadian interference-causing equipment regulations. Cet appareil numérique de la classe A respecte toutes les exigences du règlement sur le matérial brouilleur du Canada. Notice to Users of the Canadian Telephone Network The Industry Canada label identifies certified equipment.
  • Page 38 CE Marking When the product is marked with the CE mark, this demonstrates full compliance with the following European Directives: Directive 72/73/EEC – Council Directive of 19 February 1973 on the harmonization of the laws of the member states relating to electrical equipment designed for use within certain voltage limits, as amended by Directive 93/68EEC.

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