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HOTWIRE 8610 DSLAM
INSTALLATION INSTRUCTIONS
Document No. 8610-A2-GN10-10
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Copyright 1999 Paradyne Corporation. All rights reserved. Printed in U.S.A. Notice This publication is protected by federal copyright law. No part of this publication may be copied or distributed, transmitted, transcribed, stored in a retrieval system, or translated into any human or computer language in any form or by any means, electronic, mechanical, magnetic, manual or otherwise, or disclosed to third parties without the express written permission of Paradyne Corporation, 8545 126th Ave. N
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TM Hotwire 8610 DSLAM Installation Instructions Document Number 8610-A2-GN10-10 May 1999 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
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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. To install the customer premises (CP) portion of the Hotwire 8610 DSLAM, refer to the appropriate Ho
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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. It gathers operational status for each of the DSL cards and responds to the SNMP requests. It also has a serial port for local terminal access. MVL, RADSL and DSL cards. These
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Stackable Chassis for DSL Access Growth Each chassis is an independent, standalone system. The 8610 and 8600 chassis are interoperable in a stack. The stackable design provides for six systems to share management access through a single MCP card (for 8610) or MCC card (for 8600) which, in turn, allows an additional slot for a DSL card in each of up to five additional systems. In a stacked configuration, the first or base chassis is equipped with an MCP/MCC card in Slot 1 leaving Slots 2 and 3
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Hotwire 8610 DSLAM Components TM TM 3 8610 2 ESD ESD MCP/ 1 DSL MANAGEMENT 10 BASE T DC FUSES 48VDC CLASS 2 T4A, MIN. 48V OR LIMITED FAN PWR PWR SOURCE 5 6 4 3 2 AC 1 ALM A B A B STACK A B AB IN OUT SERIAL ALM INTF MCP/1 2 3 INPUT POSITION 48V RTN 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. Since the MC
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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. Also all
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— 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. If there is inadequate space to do this, install the rear-mounted network connectors on the chassis before mounting the chassis on the rack. CAUTION: Use of any nontwisted pair wiring arrangements, such as jumpers, can cause reduction in
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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. TM Both 19- and 23-inch TM 3 8610 2 ESD ESD rack-mounting hardware is MCP/ 1 DSL DC FUSES MANAGEMENT 10 BASE T provided with the unit. In a 48VDC CLASS 2 T4A, MIN. 48V PWR OR LIMITED FAN PWR SOURCE 4 5 6 3 2 AC 1 A B AB A B ALM A B STACK
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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. You will need a large, flat-blade screwdriver and a Phillips screwdriver to install the 8610 chassis in a commercial EIA-standard 19- or 23-inch rack. You will need
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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. 3. Plug the other end of the 8-pin modular cable into the Management IN port of the 8610 chassis above, dressing the cable as in the previous step. 4. Repeat for the next 8610 chassis, connecting the Management
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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. The base chassis must still have the MCP card in physical Slot 1 with the base chassis Stack Position switch set to 1. The software does not assign
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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. Procedure To install the 8610 chassis in a rack that has threaded screw holes: 1. Install the mounting brackets on the 8610 chassis by r
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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. — For a 23-inch rack installation, the smaller flange of the mounting bracket is placed against the side of the 8610 chassis. 2. Determine the preferred placemen
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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. Reposition the mounting brackets to the center-mount position using the four #8-32 screws supplied with the chassis. 3. Fasten the chassis to the rack. Insert the screws through the rack and into the two screw holes located in the center of each side of
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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. ac power (100–250V; 50–60 Hz; maximum current draw is 3 amps @ 110 Vac) — The ac version can provide power redundancy if a separate –48 Vdc source is connected to the B input terminal. CAUTION: It is recommended that the following procedures be performed by a qualified elec
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2. Dress the wires under the 8610 chassis to the left behind the support foot. 3. Power the Hotwire 8610 DSLAM AB A B chassis. –48V RTN 4. Make sure the PWR A LED on the front panel is ON (green). 99-16316 Using Two DC Power Sources for Power Redundancy Procedure To supply two dc power sources to the 8610 chassis for power redundancy: Make sure that the dc power source wires are not powered (i.e., the circuit breakers are open). The ends of the power source wires (14–18 AWG solid or stranded w
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2. Dress the wires under the 8610 chassis to the left behind the support foot. 3. Power the Hotwire 8610 DSLAM AB A B chassis. –48V RTN 4. Make sure the PWR A and PWR B LEDs on the front panel are both ON (green). 99-16317 Using Only AC Power Source Procedure To supply power to the 8610 chassis using a single ac power source: 1. Plug the ac power cord into the IEC 320 receptacle labeled AC INPUT. 2. Plug the other end of the ac power cord into your ac power outlet. NOTE: The ac power source sh
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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 –48V and RTN respectively. Insert Power Source B’s . . . Into the . . . Negative side –48V B input terminal. Positive side RTN B (return) terminal. 3. Dress the wires under the 8610 chassis