Page 1 Stinger Compact Remote ® ATM DSLAM Getting Started Guide Part Number: 363-217-017R9.8.1 For software version 9.8.1 November 2005...
Page 2 In rare instances, unauthorized individuals make connections to the telecommunications network through the use of access features. Trademarks Lucent, the Lucent logo, and all Lucent brand and product names are trademarks or registered trademarks of Lucent Technologies Inc. Other brand and product names are trademarks of their respective holders.
Page 3: Customer Service
Customer Service Product and service information, and software upgrades, are available 24 hours a day. Technical assistance options accommodate varying levels of urgency. Finding information and software To obtain software upgrades, release notes, and addenda for this product, log in to Lucent OnLine Customer Support at http://www.lucent.com/support.
Page 5: Table Of Contents
Documentation conventions ................. xvi Stinger documentation set................xvii xvii Chapter 1 Introduction to the Stinger Compact Remote ATM DSLAM ..1-1 Stinger Compact Remote ATM DSLAM overview ........... 1-1 Stand-alone operation ..................1-1 Operation with a standard control module ..........1-2 Operation with an IP2000 control module ..........
Page 6 Contents SHDSL 48-Port LIM................... 2-13 2-13 The T1-IMA LIM ..................2-14 2-14 Checking the LPMs ..................2-14 2-14 Checking the cooling unit................2-15 2-15 Checking the power supply ................2-16 2-16 The ±190Vdc power supply............... 2-16 2-16 The -48Vdc power supply ................. 2-17 2-17 Chapter 3 Enclosure and Component Installation ...........3-1...
Page 7 Contents Connections to the LPMs................. 3-38 3-38 3-38 3-38 Connecting the LPM.................. 3-38 3-38 Routing the LPM connector cables............3-39 3-39 Turning on power to a Stinger CR ATM DSLAM unit ........... 3-40 3-40 Status lights ......................3-41 3-41 IP2000 and control module status lights ............3-41 3-41 COP status lights ....................
Page 8 Contents Specifying a remote shelf name and location ..........5-13 5-13 Configuring shelf validation ................5-13 5-13 Chapter 6 Hosted System Management............6-1 Upgrading hosted system software................6-1 Required steps before initializing NVRAM in the host ........6-1 Typical hosted system upgrade procedure ............6-2 Hosted system upgrades that include bootloader code ........
Page 9 Contents Protector orientation details ................C-7 Connection block LPM cable associations ...........C-7 Cable stub connections to protection blocks............C-15 C-15 Cable and protection associations .............C-16 C-16 Power cables and connections................C-17 C-17 ±190Vdc connections through the protection blocks ........C-18 C-18 -48Vdc Power connections ................C-19 C-19 Chassis door alarm connections ................C-20 C-20...
Page 11 Wrist strap plugged into a grounding jack ........2-3 Figure 2-3 Stinger CR ATM DSLAM enclosure details ........2-6 Figure 2-4 Front view of a Stinger Compact Remote ATM DSLAM chassis..2-7 Figure 2-5 Stinger Compact Remote ATM DSLAM control module interfaces .. 2-9 Figure 2-6 The IP2000 module .................
Page 12 Figures Figure 3-23 Connectors for modules in the COP slot ......... 3-31 3-31 Figure 3-24 Gigabit Ethernet connection to IP2000 module......3-33 3-33 Figure 3-25 155Mbps optical connection to the COP......... 3-34 3-34 Figure 3-26 Ethernet connection................ 3-34 3-34 Figure 3-27 Serial management connection for a stand-alone Stinger CR ATM DSLAM....................
Page 13 Tables Table 1-1 Functional listing of card-cage components........1-7 Table 3-1 Stinger Compact Remote mounting hardware ......... 3-2 Table 3-2 Connectors for modules in the COP slot ......... 3-32 3-32 Table 3-3 Number of pairs for providing power..........3-41 3-41 Table 3-4 Status lights on the IP2000 module ..........
Page 15: About This Guide
Physical installation of a Stinger Compact Remote unit Connection of an administrative terminal to a Stinger Compact Remote unit Basic configuration for a Stinger Compact Remote unit as a stand alone unit to provide administrative network access. Physical configuration of a Stinger Compact Remote as a remotely hosted unit...
Page 16: Documentation Conventions
DSL technologies and protocols Warning Before installing your Stinger Compact Remote unit, be sure to read the safety instructions in the Edge Access and Broadband Access Safety and Compliance Guide. For information specific to your unit, see Appendix D, “Safety-Related Electrical, Physical, and Environmental Information,”...
Page 17: Stinger Documentation Set
About This Guide Convention Meaning Press Enter Means press the Enter or Return key or its equivalent on your computer. Introduces important additional information. Note Warns that a failure to follow the recommended procedure could result in loss of data or damage to equipment. Caution Warns that a failure to take appropriate safety precautions could result in physical injury.
Page 18 About This Guide Configuration: – Stinger ATM Configuration Guide. Describes how to use the command-line interface to configure Asynchronous Transfer Mode (ATM) operations on a Stinger unit. The guide explains how to configure permanent virtual circuits (PVCs), and shows how to use standard ATM features such as quality of service (QoS), connection admission control (CAC), and subtending.
Page 19: Introduction To The Stinger Compact Remote Atm Dslam
Compact Remote ATM DSLAM Stinger Compact Remote ATM DSLAM overview ......1-1 Stinger Compact Remote ATM DSLAM Hardware ..... . . 1-4 Host hardware .
Page 20: Operation With A Standard Control Module
D O W N S T R E A M Operation with a standard control module A Stinger Compact Remote ATM DSLAM unit can be equipped for stand-alone operation with a standard Revision 2 control module (STGR-CM-A or STGR-CM-B), or the Revision 2.1 control module (STGR-CM-A2). The standard control module is equipped with a 10/100 Ethernet port for connection to a management network.
Page 21: Operation With An Ip2000 Control Module
Stinger Compact Remote ATM DSLAM overview Operation with an IP2000 control module The Stinger Compact Remote ATM DSLAM unit can be also equipped with an IP2000 control module for stand-alone operation. The IP 2000 control module (STGRRT-CM-IP2000-F) provides the control capabilities of a standard Stinger control module, and also provides a fiber gigabit Ethernet port for end-user traffic.
Page 22: Stinger Compact Remote Atm Dslam Hardware
Stinger Compact Remote ATM DSLAM hardware Stinger Compact Remote ATM DSLAM hardware The Stinger Compact Remote ATM DSLAM unit, shown in Figure 1-3, consists of a card-cage chassis in an integrated outdoor enclosure. The unit is designed for installation in outdoor locations to bring DSL service close to customer locations. The enclosure is pre-wired with protection blocks for the copper telecommunications facilities, and provides an operating environment that can range between -40°F...
Page 23: Stinger Compact Remote Card Cage Chassis
COMPACT REMOTE POWER SUPPLY Stinger Compact Remote card cage chassis The front of the Stinger Compact Remote card-cage has seven vertical slots for designated plug-in components and two larger bays for the cooling unit and power supply. Vertical slots accept up to three sets of line circuit packs and one module for chassis control.
Page 24: Card-Cage Modular Components
-48V COMPACT REMOTE POWER SUPPLY Card-cage modular components The modular components in the Stinger Compact Remote card-cage support one or more of the three primary functional requirements of the unit: Operational control and support of the local chassis Upstream connections that provide bandwidth for aggregate user traffic Local connection to individual users The Stinger®...
Page 25: Table 1-1 Functional Listing Of Card-Cage Components
Introduction to the Stinger Compact Remote ATM DSLAM Stinger Compact Remote ATM DSLAM hardware Specific components that are installed in the Stinger Compact Remote ATM DSLAM card-cage to support these functional requirements depend upon the operational mode for which the unit is being configured. Different components are installed to support stand-alone or hosted operation.
Page 26 The standard control module—The standard control module provides a TAOS management interface for configuration and management of the unit. It controls the operation of the Stinger Compact Remote ATM DSLAM, and manages traffic through the unit. It also maintains information about the configuration of the components and lines associated with the unit.
Page 27: Host Hardware
Stinger CR. Host hardware A hosted Stinger Compact Remote ATM DSLAM unit depends on an 155Mbps optical link to a host Stinger unit. This link depends on the COP installed in the Stinger CR ATM DSLAM chassis and an OLIM installed in the host Stinger unit. Each OLIM in a host unit contains six 155Mbps optical interfaces and can support connections for up to six hosted Stinger Compact Remote ATM DSLAM units.
Page 28: Figure 1-5 Olims Installed In A Stinger Fs+ Host
ATM DSLAM units and the Stinger host to be managed through the same interface. See Chapter 5 for detailed information about these profiles and the configuration of a hosted Stinger CR ATM DSLAM. The type of optical network created by hosted Stinger Compact Remote ATM DSLAM units is illustrated in Figure 1-6. 1-10...
Page 29: Figure 1-6 Stinger Cr Atm Dslam Units Connected To A Host Stinger Unit
Introduction to the Stinger Compact Remote ATM DSLAM Host hardware Figure 1-6. Stinger CR ATM DSLAM units connected to a host Stinger unit Subscriber COOLING UNIT COOLING UNIT ST STATUS INTERNAL INTERNAL EXTERNAL EXTERNAL RED - F RED - FAUL ULT...
Page 31 Preventing static discharge damage ........2-2 Unpacking the Stinger Compact Remote ....... 2-4 Verifying the hardware.
Page 32: Chapter 2 Preparing To Install The Unit
Preparing to Install the Unit Preventing static discharge damage Caution Using channel lock pliers can produce metal debris that may create an electrical and physical hazard. Carefully remove any metal debris produced by using channel lock pliers. A drill with the following bits: –...
Page 33: Use A Wrist Strap
Preparing to Install the Unit Preventing static discharge damage Use a wrist strap To reduce the static potential on your body by proper grounding, wear an approved antistatic wrist strap (Figure 2-1) when installing, removing, or handling modules, or while handling any Lucent device containing semiconductor components. Caution Correct use of an approved antistatic wrist strap is the only reliable way to prevent damage to components by electrostatic discharge from your body...
Page 34: Remove Plastics From Your Work Area
If you see any damage, follow the instructions described in your product warranty. Due to the large size and weight of a fully configured unit, Lucent Technologies recommends moving the unit to the installation site before unpacking it from the shipping carton.
Page 35: Verifying The Hardware
Preparing to Install the Unit Verifying the hardware Lift and remove the carton from the shipping pallet and remove all enclosed packing materials. Save the packing materials in case you need to repack the unit later. Verify that the contents of the carton match the items listed on the packing slip (see “Verifying the hardware”...
Page 36: Checking Modules And Chassis
Figure 2-4 shows the front slots of a Stinger Compact Remote ATM DSLAM chassis, equipped for hosted operation with a COP and three sets of RLIMs and LPMs. Your unit may be equipped with different modules depending upon its application.
Page 37: Figure 2-4 Front View Of A Stinger Compact Remote Atm Dslam Chassis
Checking modules and chassis electrostatic discharge (ESD) grounding jack (banana jack), located at right side of the chassis (Figure 2-4). Figure 2-4. Front view of a Stinger Compact Remote ATM DSLAM chassis Cooling unit Air exhaust COOLING UNIT STATUS INTERNAL...
Page 38: Checking Modules In The Control (Cop) Slot
Figure 2-5 shows the location of the 10/100 Ethernet port, serial diagnostic port, alarm input port, and Personal Computer Memory Card International Association (PCMCIA) slots on a control module for the Stinger Compact Remote ATM DSLAM unit. The Stinger® Compact Remote ATM DSLAM Getting Started Guide...
Page 39: The Ip2000 Control Module
Preparing to Install the Unit Checking modules and chassis Figure 2-5. Stinger Compact Remote ATM DSLAM control module interfaces PCMCIA slots Modem port (STGR-CM-B only) 10/100 Ethernet port Diagnostic port Alarm input port The IP2000 control module The Stinger CR ATM DSLAM unit operates in stand-alone mode with an IP2000 control module (STGRRT-CM-IP2000-F) installed in the COP slot.
Page 40: Ip2000 Interfaces
Preparing to Install the Unit Checking modules and chassis Note Units manufactured and equipped for stand-alone operation with an IP2000 module have a modified enclosure door. This door is manufactured with a 0.5 inch (1.3cm) bulge in the door at the location of the fiber connector on the IP2000. This bulge allows space for the curvilinear guide fiber cable to physically route the fiber light guides downward (see Figure 2-3 on page 2-6 and Figure 3-24 on page 3-33).
Page 41: The Cop
Checking modules and chassis The COP The Stinger Compact Remote ATM DSLAM operates in the hosted mode with a COP. Unlike the IP2000 module that supports standalone operation, the COP does not provide a local management interface for configuration of the unit. It depends upon a 155Mbps optical link to a host Stinger unit for configuration and management.
Page 42: Checking The Lims
Preparing to Install the Unit Checking modules and chassis Unlike standalone control modules or IP2000 modules, the COP does not store local configuration information in onboard flash memory. Configuration information for the Compact Remote ATM DSLAM unit and its modules is stored in the PCMCIA cards and the onboard nonvolatile RAM (NVRAM) of the control module in the host Stinger unit.
Page 43: 48-Port Adsl2+ Lim
Stinger CR unit. These LIMs support end-user connections to the Stinger CR ATM DSLAM unit for stand-alone and hosted operations. Support for ADSL2+ requires installation of Lucent Technologies license for ADSL2+ capability on the unit.
Page 44: The T1-Ima Lim
(STGRRT-LIM-T1-8), the other module supports up to 24 T1 connections (STGRRT-LIM-T1-24). Both modules support UNI and PNNI ATM connections. Under a special software license from Lucent Technologies, these modules also support inverse multiplexing for ATM (IMA). For complete hardware specifications and information about configuring the T1 module, see the Stinger T1 and E1 Modules Guide.
Page 45: Checking The Cooling Unit
Preparing to Install the Unit Checking modules and chassis The 48-port LPM with splitters (STGRCR-LPM2-48-S) is designed for use with 48-port low-power LIM in the Stinger CR ATM DSLAM. It provides connection points for coupling analog voice service onto the subscriber facilities that carry the DSL service.
Page 46: Checking The Power Supply
Preparing to Install the Unit Checking modules and chassis ventilation fan in the side of the outdoor enclosure. Heat is removed by air circulation and dissipated through the enclosure. Note Check the power connector for the external ventilation fan to verify that it has not become loose during shipping, and is not disturbed during installation.
Page 47: The -48Vdc Power Supply
Preparing to Install the Unit Checking modules and chassis The -48Vdc power supply The -48Vdc power supply regulates and filters native -48Vdc to power the Stinger The Stinger CR -48Vdc power supply is shown in Figure 2-13. Figure 2-13. The Stinger CR -48Vdc power supply Screw terminals for -48Vdc Locking...
Page 49: Enclosure And Component Installation
Stinger Compact Remote. Before you begin To install the Stinger Compact Remote enclosure you must perform the tasks: Locate all necessary hardware and tools at the installation site Unpack the Stinger unit...
Page 50: Stinger Cr Enclosure Mounting Hardware
Stinger CR enclosure Mounting hardware Depending on the local environment, the Stinger Compact Remote enclosure can be mounted in the following ways: On a standard telephone utility pole—The enclosure can be mounted on a standard telephone utility pole in a center-mount or side-mount configuration.
Page 51: Pole Mounting Hardware
Enclosure and Component Installation Stinger CR enclosure Mounting hardware Table 3-1. Stinger Compact Remote mounting hardware (continued) Comcode Description Includes 300719572 Pedestal mount kit: pad hardware Pedestal bracket, duct alignment plate, outrigger mounting brackets, and anchor bolts 300716743 JWI (jumper wire interface)
Page 52: Cabinet Mounting Hardware
Cable cover Cabinet mounting hardware The Stinger Compact Remote can be side-mounted or rear-mounted to a wiring cabinet. It is side-mounted with the integrated mounting brackets on the enclosure shown in Figure 3-2. A cable cover for this installation is provided with kit #300716727.
Page 53 Enclosure and Component Installation Stinger CR enclosure Mounting hardware Figure 3-2. Cabinet side-mounting hardware Side mounting brackets Vented covers Enclosure Cable cover (kit #300716727) Figure 3-3. Cabinet rear-mounting hardware Rear mount hanger bracket Rear mount bracket Cable cover extension (only with kit 300716743) Cable cover The Stinger®...
Page 54: Pedestal Mounting Hardware
Stinger CR enclosure Mounting hardware Pedestal mounting hardware The Stinger Compact Remote can be mounted on an outside pedestal. The pedestal cable cover and splice cover hardware can be ordered in kit #300719564. The pedestal mounting hardware can be ordered in kit #300719572. These kits can also be ordered combined as kit #300716735.
Page 55: Mounting The Enclosure On A Pole
Take all necessary precautions to anchor the enclosure securely before installation. For detailed weight information see “Weight and lifting requirements” on page D-10. To install a Stinger Compact Remote enclosure on a pole, you need the following items: The Stinger Compact Remote enclosure The Stinger pole mounting hardware (see Figure 3-1 on page 3-4) 2 locally supplied pole mounting bolts, 5/8in.
Page 56: Center-Mounting The Enclosure On A Pole
Enclosure and Component Installation Mounting the enclosure on a pole A 15/16 in. socket with a 2 in. extension (min.) and handle. A 9/16 in. socket A 10 inch (25cm) tongue and groove (channel lock) pliers Safety screw driver for removal and installation of tribunal recessed head screws (Part number 29-99-183-22, available from Southco Inc., or equivalent) Phillips and slot screwdrivers Follow all local safety practices and guidelines in performing this work to avoid injury...
Page 57: Figure 3-7 Top And Bottom Pole Mounting Bolts
Enclosure and Component Installation Mounting the enclosure on a pole Position the mounting hardware against the pole so that the center mounting bolt hole of the top pole mounting bracket is centered on the pole at least 67 inches (1.7 meters) above the ground (see Figure 3-7). Mark the location for the top mounting bolt hole on the pole and use an 11/16in.
Page 58: Figure 3-8 Attaching The Stinger Enclosure Rear Mount Hanger Bracket
Install the lag bolts with a 5/16in wrench. Attach rear mount hanger bracket to the back of the Stinger Compact Remote chassis, as shown in Figure 3-8. Figure 3-8.
Page 59: Side-Mounting The Enclosure On A Pole
Install the lag bolts with a 5/16in wrench. Carefully lay the Stinger Compact Remote chassis onto its side so that the side that will be mounted against the pole is facing up. Remove the side mounting bracket from this side.
Page 60: Figure 3-9 Side Mounting Bracket Conversion
Enclosure and Component Installation Mounting the enclosure on a pole Remove the four plastic plugs that fill the mounting points on the side mounting bracket. If needed, a small screwdriver can be used to help remove the plugs. Place the side mounting bracket on the pole mounting brackets, so that the four studs that supported the mounting plate are inserted into the mounting points in the side mounting bracket.
Page 61: Mounting The Enclosure On A Wiring Cabinet
Follow all local safety practices and guidelines in performing this work to avoid injury and the interruption of existing service. To install a Stinger Compact Remote enclosure on a pole, you need the following items: The Stinger enclosure and appropriate mounting kit...
Page 62: Mounting The Enclosure
Enclosure and Component Installation Mounting the enclosure on a wiring cabinet Caution Metal debris from drilling can create an electrical hazard. Capture or clean and remove any debris created by drilling the mounting holes. Place a washer on each mounting bolt and then press the four hex-head bolts through the holes so that the threaded portion is extended for the CR mounting bracket.
Page 63: Route And Connect The Fibers And Ground Cable Inside The Enclosure
Route and connect the fibers and ground cable inside the enclosure Warning Early models of the Stinger Compact Remote were installed with one-way screws. If one-way screws are being removed or loosened with an SSTM14 tool, sharp metal edges are created on the screw head that can result in injury. After loosening or removal.
Page 64: Routing The Cables Out Of The Enclosure
Enclosure and Component Installation Routing the cables out of the enclosure Splice the fiber you are installing to the fiber that is provided from the bottom of the SC connectors on the fiber tray. Secure the splice and excess fiber in a fiber splice tray (purchased separately) and attach the splice tray to the fiber tray at the splice tray retaining point.
Page 65: Routing The Cables For Pole Mounting
Routing the cables for pole mounting When pole mounting The Stinger Compact Remote unit, all OSP, fiber, and power cables are routed through a 45° cable duct on the cable cover below the enclosure. The cable cover is partially disassembled to make this process easier. While it is disassembled, the cable cover can be configured for centered)-mounted or side-mounted enclosures by changing the positions of the 45°...
Page 66: Grounding The Enclosure
Enclosure and Component Installation Grounding the enclosure To route the cable up the pole for spicing and connection: Remove the 45° cable duct by removing the three nuts that secure it inside the cable cover. Set this piece aside. If necessary, remove the three nuts that secure the blocking plate and reinstall it as shown in Figure 3-12, so that is matches with the way in which the enclosure is mounted on the pole.
Page 67: Inspecting And Replacing The Door Gasket
The enclosure is equipped with a gasket that is located on a flange surrounding the opening for the door. If this gasket is damaged, excessive moisture may enter the cabinet and damage the Stinger Compact Remote components. Examine the gasket for any cuts, cracks, tears, or deformations. If any of these conditions are observed, the gasket must be replaced to insure a proper seal around the door.
Page 68: Installation And Replacement Of Stinger Cr Components
Enclosure and Component Installation Installation and replacement of Stinger CR components Press the gasket onto the door flange. Apply pressure around the entire door flange to install the gasket evenly and completely. Use a soft rubber mallet to tap the gasket into place. Apply a thin bead of caulk (General Electric RTV 108 caulk or equivalent) to the outside perimeter border of the gasket, where the flange enters the gasket (see Figure 3-15).
Page 69: Slot Numbering And Module Placement
Enclosure and Component Installation Installation and replacement of Stinger CR components Caution Wear an antistatic wrist strap before handling any of the unit components. Slot numbering and module placement Figure 3-16 shows the stenciling at top of the slots in a Stinger CR ATM DSLAM chassis.
Page 70: Installing A Module In The Cop Slot
Enclosure and Component Installation Installation and replacement of Stinger CR components Figure 3-17. Removing a module from the COP slot O LI O LI - FA O LI O LI - FA O LI O LI - FA O LI O LI - FA TI VE...
Page 71: Installing And Replacing Lims
Enclosure and Component Installation Installation and replacement of Stinger CR components Figure 3-18. Installing a module in the COP slot - FA O LI O LI - FA O LI O LI O LI O LI - FA O LI O LI - FA TI VE...
Page 72: Replacing A Lim
Replacing a LIM Caution Lucent Technologies recommends setting the administrative status of the LIM to Down (through the command-line interface) before replacing the module. When a LIM is removed, all its ports and circuits are terminated, and data loss might occur.
Page 73: Installing And Replacing Lpms
Caution Any circuits running through the LPM are interrupted when it is removed, which can result in data loss. Lucent Technologies recommends setting the associated LIM’s administrative status to Down before removing the LPM from the unit. For instructions on changing a LIM’s state to Down and then back to Up, see the Stinger Administration Guide.
Page 74: Replacing The Chassis Cooling Module
Enclosure and Component Installation Installation and replacement of Stinger CR components Figure 3-19. Removing LPMs L P M L I M L I M L P M L I M U LT - FA U LT U LT S TA - FA - FA S TA...
Page 75: Figure 3-20 Removing The Cooling Module
Enclosure and Component Installation Installation and replacement of Stinger CR components Use the following procedure to replace the cooling unit of a Stinger Compact Remote ATM DSLAM unit. Remove the connector for the chassis external cooling fan from its power connection on the cooling module.
Page 76: Replacing The External Cooling Fan
Do not remove the external cooling fan until its blades have stopped moving, as detailed in the following procedure. Use the following procedure to replace the cooling unit of a Stinger Compact Remote ATM DSLAM unit. Remove the connector for the external cooling fan from its power connection on the cooling module inside the enclosure.
Page 77: Figure 3-21 Replacing The Enclosure Cooling Fan
Enclosure and Component Installation Installation and replacement of Stinger CR components Figure 3-21. Replacing the enclosure cooling fan External fan power cable External cooling fan Locking screw Extraction handle Protective duct Locking screws Transfer the protective duct to the new fan unit and secure it by tightening the locking screws.
Page 78: Replacing The Power Supply
Enclosure and Component Installation Installation and replacement of Stinger CR components CO OL ING UN IT ST AT US EX TE RN AL INT ER NA L RED - FAU LT GR EEN - ACT IVE - INIT IAL IZIN G BLI NKI NG GR EEN MO TE CO MP AC T RE...
Page 79: Physical Connections To The Components
Enclosure and Component Installation Physical connections to the components Physical connections to the components Information and illustrations here show how the DSL subscriber lines, and the analog voice facilities are connected to the LPMs and how to make connections to an IP2000, control module, or COP module in the COP slot.
Page 80: Pcmcia Slot
Enclosure and Component Installation Physical connections to the components Table 3-2. Connectors for modules in the COP slot Connector Function IP2000 Control module PCMCIA Holds PCMCIA cards for storage of slot configuration settings and software Gigabit High bandwidth connection for Ethernet end-user traffic port...
Page 81: Figure 3-24 Gigabit Ethernet Connection To Ip2000 Module
Enclosure and Component Installation Physical connections to the components Gigabit Ethernet port This port supported on the IP2000 module. It provides a gigabit Ethernet connection for end-user traffic, and can be used for administrative access. Stinger CR ATM DSLAM units that are equipped with an IP2000 module have an enclosure door that accommodates the optical fiber connection to the IP2000 (see Figure 1-3 on page 1-5).
Page 82: 10/100 Ethernet Port
CO OL ING UN IT ST AT US EX TE RN AL INT ER NA L RED - FAU LT GR EEN - ACT IVE Enclosure and Component Installation - INIT IAL IZIN G BLI NKI NG GR EEN MO TE CO MP AC T RE Physical connections to the components Figure 3-25.
Page 83: Diagnostic Port
Enclosure and Component Installation Physical connections to the components To connect a management workstation to the Stinger unit using an indirect Ethernet connection: Connect one end of the Ethernet cable to the Ethernet RJ-48 port on the control module. Connect the other end of the Ethernet cable to the local LAN. Ensure that the management workstation has connectivity to the LAN on which the unit resides.
Page 84: Alarm Input Port
Enclosure and Component Installation Physical connections to the components See “Diagnostic port and cable pinouts” on page C-1 for detailed information about the pinouts on the console serial port. Alarm input port This port is present on the COP, IP2000, and control modules. The DB-15 connector can accept connections to monitor the alarm status of up to seven external devices.
Page 85: Modem Port
Enclosure and Component Installation Physical connections to the components Figure 3-28. Connecting the door alarm to the ALARM input port COOLIN G UNIT COOLIN G UNIT STATUS EXTER NAL EXTER NAL INTERN AL INTERN AL RED - F RED - FAUL ULT GREEN - A GREEN - ACTIVE CTIVE...
Page 86: Connections To The Lpms
Enclosure and Component Installation Physical connections to the components Connections to the LPMs The LPMs connect their associated LIMs to physical line facilities. In the Stinger CR ATM DSLAM, the LPMs are connected directly to three sets of protection blocks located to the left of the Stinger chassis in the enclosure.
Page 87: Routing The Lpm Connector Cables
Enclosure and Component Installation Physical connections to the components Beginning with the bottom connector, carefully insert the head of the cable into the connector on the LPM, as shown in Figure 3-30. Press the connector firmly into place until it is fully seated. Using a number 1 cross-recess (Phillips) screwdriver tighten the lock screws at the top and bottom of the connector.
Page 88: Turning On Power To A Stinger Cr Atm Dslam Unit
Turning on power to a Stinger CR ATM DSLAM unit Caution Lucent Technologies does not recommend applying power to Stinger units that contain circuit packs (LIMs, Tams, LPMs, Cuts, etc.), if a control module is not installed in the chassis. If desired, power may be applied to Stinger units that are completely unpopulated and do not contain any circuit packs or control modules.
Page 89: Status Lights
Enclosure and Component Installation Status lights resistance of the available copper telecommunication facilities, as shown in the following table. Table 3-3. Number of pairs for providing power Number of Loop resistance power sources 190 Ohms or less 191-515 Ohms 516-685 Ohms For -48Vdc operation, you connect one pair of 19 AWG wires in the stub end of the power cable to a local -48Vdc power source.
Page 90: Figure 3-32 Ip2000 Status Lights
Enclosure and Component Installation Status lights Figure 3-32. IP2000 status lights 10 LED LINK LED (10/100 interface) 100 LED ACT LED (10/100 interface) LINK ACT LED (Gigabit interface) LINK LED (Gigabit interface) Gig. E LINK MAJOR LED MINOR LED PORT LEDs MASTER LED The FAULT LED momentarily turns ON just after startup After the system starts up, each light monitors a state as described in Table 3-4.
Page 91: Cop Status Lights
Enclosure and Component Installation Status lights Table 3-4. Status lights on the IP2000 module (continued) Status Color Condition Indicates light MAJOR ON or A major alarm condition has been detected. blinking For information about configuring major alarms, see the Stinger Administration Guide. The MAJOR status light turns ON at startup.
Page 92: Figure 3-33 Cop Status Lights
Enclosure and Component Installation Status lights Figure 3-33. COP status lights FAULT LED TA LED FAULT MISC LED MISC FAC LED The FAULT LED momentarily turns ON just after startup After the system starts up, each light monitors a state as described in Table 3-4. Table 3-5.
Page 93: Lim Status Lights
Enclosure and Component Installation Status lights LIM status lights Several status lights on the front panel of the LIM ADSL low-power 48-port LIM indicate the status of the module and its ports. Figure 3-34 shows the front panel and status lights of the ADSL low-power 48-port LIM. The front panel of the T1-IMA LIM has identical lights, except that there are fewer port status lights.
Page 94: Cooling Unit Status Lights
Enclosure and Component Installation Status lights Table 3-6. ADSL 48-port Annex A LIM status lights Light Color Indication STBY Orange The module is a designated spare. The control module switches traffic to the module if one of the other modules fails. ACTIVE Green The module or port is fully operational and no...
Page 95: Power Supply Status Lights
Enclosure and Component Installation What’s next The Stinger CR cooling unit has two status lights on the front to indicate the operating status of the cooling unit and the enclosure ventilation fan. The status indicted by these lights is described in Table 3-7. Table 3-7.
Page 97: Initial Stand-Alone Configuration
Initial Stand-alone Configuration Basic configuration overview Initial Stand-alone Configuration Basic configuration overview ........4-1 Administrative connections .
Page 98: Administrative Connections
Initial Stand-alone Configuration Administrative connections module. An administrative IP connection can also be established through the network supported by the Gigabit Ethernet port found only on the IP2000 module. The following information describes these physical connections. Serial connection to a console Figure 4-1 shows a cable connection from a Stinger CR ATM DSLAM unit to a console terminal.
Page 99: Gigabit Ethernet Connection To A Workstation Console
Initial Stand-alone Configuration Administrative connections network connection from the Stinger CR ATM DSLAM unit to the management workstation. Note Although an IP2000 module is depicted, the same connection is made to a control module in the same way. For connector details, see “Control module interfaces”...
Page 100: Modem Connection To A Workstation Console
Initial Stand-alone Configuration Administrative connections Figure 4-3. Gigabit Ethernet connection COOLIN G UNIT COOLIN G UNIT STATUS EXTER NAL EXTER NAL INTERN AL INTERN AL RED - FAUL ULT RED - F GREEN - A GREEN - ACTIVE CTIVE - INITIALIZ ING - INITIALIZ ING BLINKING GREEN BLINKING GREEN...
Page 101: Modem Country Codes
Initial Stand-alone Configuration Administrative connections Figure 4-4. Connection for internal modem COOLIN G UNIT COOLIN G UNIT STATUS EXTER NAL EXTER NAL INTERN AL INTERN AL RED - F RED - FAUL ULT GREEN - A GREEN - ACTIVE CTIVE - INITIALIZ ING - INITIALIZ ING BLINKING GREEN...
Page 102: Logging Into The Ip2000 Or Control Module
Initial Stand-alone Configuration Logging into the IP2000 or control module The cmmodemShowCurrentCountry debug command displays the country code that is currently configured in the modem. The cmmodemShowCountries system-level command displays a list of countries that the modem supports. The following is a sample output of this command: cmmodemShowCountries admin>...
Page 103: Restricting Administrative Access
SNMP management station from an IP host. These types of connections require that you authenticate a User profile and supply a password to acquire administrative permissions. During basic configuration, Lucent Technologies recommends that you also configure the serial port to require username and password authentication.
Page 104: Changing The Default Admin Password
Initial Stand-alone Configuration Restricting administrative access admin> write SERIAL/{ shelf-1 first-control-module 2 } written Changing the default admin password Because the admin User profile controls permissions that enable most levels of activity, access to that login must be carefully restricted. To protect the admin login, change its well-known default password the first time you log into the unit.
Page 105: Providing A Basic System Ip Configuration
Initial Stand-alone Configuration Providing a basic system IP configuration [in IP-GLOBAL] telnet-password = "" user-profile = "" Parameter Setting Text string of up to 20 characters, required from all users telnet-password requesting a Telnet session. A user is allowed three attempts, with 60 seconds per attempt, to enter the correct password.
Page 106: Ip Address Syntax
Initial Stand-alone Configuration Providing a basic system IP configuration IP address syntax The Stinger unit uses dotted decimal notation (not hexadecimal) for IP addresses. Netmask information is appended to the IP address after a forward slash (/). Netmasks If no netmask is specified, the unit uses a default mask based on the class of the IP address that is supplied.
Page 107: Table 4-2 Decimal Subnet Masks And Prefix Lengths
Initial Stand-alone Configuration Providing a basic system IP configuration 111 — Reserved for the broadcast address of the subnet Note Early implementations of TCP/IP did not allow zero subnets (subnets with the same base address as a class A, B, or C network). For example, the subnet 192.32.8.0/30 was illegal because it had the same base address as the class C network 192.32.8.0/24, while the subnet 192.32.8.4/30 was legal.
Page 108: Assigning The Ethernet Ip Addresses
Initial Stand-alone Configuration Providing a basic system IP configuration the network, other than the single address that is specified. It is, in effect, a one-address subnet. Assigning the Ethernet IP addresses A Stinger CR ATM DSLAM unit creates an IP interface for each Ethernet port of the IP2000 or control module.
Page 109 Initial Stand-alone Configuration Providing a basic system IP configuration admin> read ip-interface { { shelf-1 8 2 } 0 } IP-INTERFACE/{ { shelf-1 first-control-module 2 } 0 } read admin> set ip-address = 1.1.1.2/24 admin> write IP-INTERFACE/{ { shelf-1 first-control-module 2 } 0 } written After you assign IP addresses, you can verify that the Stinger unit is a valid IP host on its configured network by pinging other network hosts, as shown in the following example:...
Page 110 Initial Stand-alone Configuration Providing a basic system IP configuration 4-14 The Stinger® Compact Remote ATM DSLAM Getting Started Guide...
Page 111: Hosted System Configuration
Working with the remote-shelf-config profile......5-11 5-11 Configuration overview for hosted operation Stinger Compact Remote ATM DSLAM configuration tasks for hosted operation include the following: Physical configuration of the chassis validation ID (optional)
Page 112: Table 5-1 Validation Id Dip Switch Setting Values
Hosted System Configuration Setting the chassis ID (optional) Figure 5-1. Chassis validation ID DIP switches Chassis ID DIP switches 1 2 3 4 5 6 7 8 SIGNAL DOOR -48V ALARM RETURN Each DIP switch represents a single bit in an 8-bit ID number. The switches are configured to provide the binary equivalent of decimal values from 0 (all switches off) to 255 (all switches on).
Page 113: Introduction To The Host Management Interface
Hosted System Configuration Introduction to the host management interface The decimal value of validation ID is the total of all decimal values for DIP switches that are set to ON. For example, the binary 8-bit ID number created by setting only DIP switches 1 and 2 ON is 11000000.
Page 114: Configuring A Hosted Compact Remote Atm Dslam System
Hosted System Configuration Configuring a hosted Compact Remote ATM DSLAM system { shelf-2 first-control+ crt-cm Note All the configuration profiles reside on and are accessible only on the host system. You can also use the open command to access RLIMs directly from the host. Opening a session to the resources of another unit in the hosted system is useful for diagnosing error conditions, checking configurations, or performing certain maintenance functions, but it cannot be used to provision the hosted system.
Page 115: Identifying The Remote Shelves
Hosted System Configuration Configuring a hosted Compact Remote ATM DSLAM system that include bootloader code” on page 6-3.) The upgrade instructions in the release note for the new software version will contain additional details. Enable master mode in the system profile. Following are the required commands: HOST>...
Page 116: Enabling Rlim And Host Trunk Interfaces
Hosted System Configuration Configuring a hosted Compact Remote ATM DSLAM system Reqd Oper Slot Type { second-control-module } DOWN ( SECONDARY ) { shelf-1 slot-1 0 } stngr-olim-card { shelf-1 trunk-module-+ oc12-atm-trunk-daughter-card { shelf-2 slot-2 0 } LOAD stngr-48-gs-adsl-card { shelf-2 first-control+ crt-cm First the remote shelf COP (crt-cm) is shown in the UP state, and then the host downloads the RLIM image.
Page 117: Provisioning A Virtual Circuit From A Remote Lim
Hosted System Configuration Configuring a hosted Compact Remote ATM DSLAM system Provisioning a virtual circuit from a remote LIM You use the same profiles and procedure for provisioning virtual circuits in a hosted system as you do on a standalone Stinger. For background information about provisioning virtual circuits, see the Stinger ATM Configuration Guide.
Page 118: Traffic Management In Hosted Compact Remote Systems
Hosted System Configuration Traffic management in hosted Compact Remote systems Traffic management in hosted Compact Remote systems In a hosted Compact Remote ATM DSLAM system, the total amount of LIM bandwidth varies when remote shelves are added or removed. To accommodate this environment, ATM parameters previously located in the atm-config profile have been relocated in the system or slot-static-config profiles, and the atm-config profile has been deprecated.
Page 119: Hosted System Bandwidth And Cac Calculations
Hosted System Configuration Traffic management in hosted Compact Remote systems Hosted system bandwidth and CAC calculations For a general description of CAC and how the system uses guaranteed bandwidth values for CAC purposes, see the Stinger ATM Configuration Guide. For details about each CAC setting, see the Stinger Reference.
Page 120: Figure 5-3 Slot-Level Cac Bandwidth Calculations Performed With Default Settings
Hosted System Configuration Traffic management in hosted Compact Remote systems Figure 5-3. Slot-level CAC bandwidth calculations performed with default settings TRUNK high-speed-slot-static-config: Host Stinger over-subscription OLIM slot-static-config: allow-guaranteed-up-stream-bandwidth Trunk PHY bandwidth slot-cac-enable slot-cac-oversubscription RLIM slot-static-config: allow-guaranteed-up-stream-bandwidth slot-cac-enable OLIM slot-cac-oversubscription Compact Remote LIM port CAC is disabled by default.
Page 121: Upstream Traffic Shaping In A Hosted System
Hosted System Configuration Working with the remote-shelf-config profile Upstream traffic shaping in a hosted system The system shapes traffic in the transmit output direction at the maximum line rate of the host trunk port and at the maximum line rate of each optical interface of every remote COP in the hosted system.
Page 122: Minimal Configuration For A Remote Shelf
Hosted System Configuration Working with the remote-shelf-config profile name = "" location = "" nailed-group-bin = ““ enabled = no remote-shelf-type = stngr-cr-3 validation-config = { stinger-defined 0 } Parameter Setting Remote shelf ID. The setting must be shelf-N, where N remote-shelf-id is from 2 to 106.
Page 123: Specifying A Remote Shelf Name And Location
Hosted System Configuration Working with the remote-shelf-config profile HOST> set host-port physical-address slot = 1 HOST> set host-port physical-address item = 3 HOST> set enabled = yes HOST> write -f Specifying a remote shelf name and location You can assign a name or CLLI code to uniquely identify each remote shelf, and specify the shelf’s physical location to simplify maintenance procedures.
Page 124: Figure 5-5 Factory-Default Validation Id Setting On Compact Remote
Hosted System Configuration Working with the remote-shelf-config profile Parameter Setting validation-enable Enables/disables validation. For the system to perform ID comparison, validation must be enabled and validation-id must also have a nonzero value. In the system profile, valid values are yes and no. In the remote-shelf-config profile, following are valid values: system-defined...
Page 125 Hosted System Configuration Working with the remote-shelf-config profile The following commands set the host to validate this shelf this shelf with the number (192) that has been configured separately on the Stinger CR DIP switch: HOST> read remote-shelf-config shelf-3 HOST> set validation-config validation-id = 192 HOST>...
Page 127: Hosted System Management
Hosted System Management Upgrading hosted system software........6-1 Monitoring remote LIMs and connections.
Page 128: Typical Hosted System Upgrade Procedure
Hosted System Management Upgrading hosted system software To ensure that the system reestablishes all remote shelves and connections after its NVRAM has been initialized, follow these steps: On the host, create a default.cfg file with minimal required profiles. For example: HOST>...
Page 129: Hosted System Upgrades That Include Bootloader Code
Hosted System Management Monitoring remote LIMs and connections Hosted system upgrades that include bootloader code If the new software version requires an upgrade of both the operational code and the bootloader, then in addition to loading the operational code, you must load both the host bootloader and Compact Remote bootloader to host flash.
Page 130: Displaying Rlim Status
Hosted System Management Monitoring remote LIMs and connections Displaying RLIM status The following new options have been added to Stinger commands for monitoring LIMs, to specify a shelf, or a shelf and slot combination on the command line: -sh shelf -sl shelf slot These options are not order-dependent, they can appear before or after other options when entering the following commands:...
Page 131: Monitoring The Status Of Remote Shelves
Hosted System Management Monitoring the status of remote shelves Monitoring the status of remote shelves The remote-shelf-stat profile resides on the host for monitoring remote shelves. The remoteshelf command displays information about enabled remote shelves in the hosted system. You can also set alarms and traps to notify an SNMP management station when certain conditions occur on a remote shelf.
Page 132 Hosted System Management Monitoring the status of remote shelves Parameter Setting remote-shelf-id Shelf ID of the remote shelf represented in this profile. The state of the remote shelf. The remote-shelf-state- remote-shelf-oper-state change alarm will be raised when the operational state of the remote shelf goes from UP to DOWN or DOWN to UP state.
Page 133: Using The Remoteshelf Command
Hosted System Management Monitoring the status of remote shelves Parameter Setting id-valid Indicates whether the validation-id setting in the remote-shelf-config profile matches the validation ID specified by the remote shelf’s DIP-switch setting. The disabled value indicates that no validation was performed.
Page 134: Raising And Clearing Alarm Events In A Hosted System
Hosted System Management Monitoring the status of remote shelves Z0WISAAASCR Enabled OPER_Down {{ 1 5 2 } 0 } Without any options, the command displays all configured remote shelves: HOST> remoteshelf Shelf Name AdminState OperState host-port up-count 2 Z0WISAAASCR Enabled OPER_Down {{ 0 0 0} 0} Raising and clearing alarm events in a hosted system Alarms triggered by events on remote shelves operate within the existing profile-...
Page 135: Sample Alarm For Remote Shelf 3 State Change
Hosted System Management Monitoring the status of remote shelves Table 6-1. Compact Remote alarm events Alarm event definition Event on remote shelf that triggers alarm A sensor on the remote shelf indicates failure of the external-fan-failure external fan unit. The failed status is shown in the external-fan-unit-failed setting of the remote-shelf-stat profile.
Page 136: Sample Alarm For Input-Relay Closure Status On Any Remote Shelf
Hosted System Management Monitoring the status of remote shelves Sample alarm for input-relay closure status on any remote shelf The following commands configure an alarm for input-relay closure on any remote shelf in a hosted system: HOST> new alarm closed HOST>...
Page 137: Enabling Traps For Remote-Shelf Events
Hosted System Management Monitoring the status of remote shelves Enabling traps for remote-shelf events When you have configured a trap profile to generate a trap protocol data unit (PDU) on detection of a certain event, if the event occurs, the system sends a PDU to a specified SNMP station.
Page 138: Enabling Remote Shelf Watchdog Warning Traps
Hosted System Management Monitoring the status of remote shelves Enabling remote shelf watchdog warning traps To enable the system to send traps related to sensors on remote shelves, the following parameters must be set to yes (their default value): [in TRAP/""] remote-shelf-enabled = yes watchdog-warning-enabled = yes Remote shelf watchdog profiles are created and deleted on the host depending on the...
Page 139: Appendix A Intended Use
Intended Use User line interfaces ..........A-1 COP interfaces .
Page 140: Ip2000 Interfaces
Intended Use IP2000 interfaces – Direct connection – 8 data bits – No parity – 1 stop bit – No flow control A DB-9 female connector for alarm monitoring connections. A duplex LC connector for optical connection. IP2000 interfaces The IP2000 is equipped with the following interfaces: A DB-9 female connector for an RS-232 serial connection, with the following default settings: –...
Page 141 Intended Use Control module interfaces A PCMCIA interface, designed to accept PCMCIA flash-memory cards. Other PCMCIA devices are not supported. The Stinger® Compact Remote ATM DSLAM Getting Started Guide...
Page 143: Appendix B The Host Stinger Olim
Introducing the Stinger OLIM Each 155Mbps optical connection to an OLIM carries user data traffic and control channel data from a hosted Stinger Compact Remote ATM DSLAM unit. The control channel data integrates the configuration and management of hosted Stinger CR ATM DSLAM units into the TAOS interface of the host Stinger unit.
Page 144: Interpreting Olim Status Lights
The Host Stinger OLIM Interpreting OLIM status lights Interpreting OLIM status lights The OLIM has status lights that indicate the overall status of the card and each of its six optical interfaces. Figure B-1 shows the Stinger OLIM. Figure B-1. the Stinger OLIM FAULT FAC 1...
Page 145: Olim Specifications
The Host Stinger OLIM OLIM specifications Table B-1 lists the OLIM status light indications. Table B-1. OLIM status lights Light Color Indication Fault At startup—the card is performing its POST test. During operation—the card has failed. FAC 1 through Green The associated interface 1 through 6 is operating FAC 6 properly...
Page 146: Configuring A Stinger Olim
Each OLIM supports six 155.52 Mbps-interfaces, and each interface connects to one Stinger Compact Remote ATM DSLAM hosted unit. After installation of the OLIM in a host Stinger unit, it only necessary to identify the remote shelves that will be connected to it and the ports to which they will be connected.
Page 147: Appendix C Cables And Connectors
Cables and Connectors Diagnostic port and cable pinouts ........C-1 Modem jumper cable .
Page 148: Modem Jumper Cable
Cables and Connectors Modem jumper cable Table C-1. Control port and cable pinouts (Continued) DB-9 pin number RS-232 signal Function name Data Set Ready Request to Send Clear to Send Ring Indicator Pin 9 is not active. (Ring Indication signal not supplied.) Modem jumper cable The modem jumper cable is only used on units that are equipped with the STGR-CM-B control module, containing an internal modem.
Page 149: Alarm Input Port Pinouts
Cables and Connectors Alarm input port pinouts Alarm input port pinouts The ALARM port on the module in the COP slot consists of a DB-15 female connector that can monitor up to 7 external alarm conditions. This connector provides seven pairs of pins that can be connected to the alarm relays of up to seven external devices.
Page 150: Lpm Connectors
Cables and Connectors Cabling for the 48-port LPM with splitters LPM connectors The 48-port LPM with splitters has three 64-pin connectors, labeled P2801, P2802, and P2803. This connector is detailed in Figure C-2. Figure C-2. LPM 64-pin connector On each LPM, the bottom connector (P2801) provides 32 connections for subscriber voice-over-DSL connections.
Page 151: Lpm To Protection Block Associations
Cables and Connectors Cabling for the 48-port LPM with splitters Figure C-3. Protection block cables P2801 P2802 P2803 LPM to protection block associations Each LPM is associated with a different pair of protection blocks as indicated in Figure C-4 and Figure C-5. Figure C-4.
Page 152: Protection Block Port Numbering Vs. Taos Port Indexing
Cables and Connectors Cabling for the 48-port LPM with splitters Protection block Port numbering vs. TAOS port indexing Each LIM/LPM pair supports 48 ports. These ports are referred to by the TAOS software as ports 1 through 48 indexed by the shelf and slot in which the LIM that supports these ports is installed.
Page 153: Protector Orientation Details
Cables and Connectors Cabling for the 48-port LPM with splitters Protector orientation details The cables from the LPMs connect to the protected (inside) side of the protection blocks. Another group of cables connect the unprotected (outside) side of the protection blocks to the copper facilities. The tips and rings of the outside plant cables and the LPM cables terminate on the protection plugs of the protection blocks as shown in Figure C-6.
Page 154 Cables and Connectors Cabling for the 48-port LPM with splitters Table C-3. Tip/Ring connections to protection blocks 1, 3, and 5 (Continued) Pin No. LPM 2-wire LPM 4-wire (LPM 1) (LPM 2) (LPM 3) connector ports ports P2801 3R(ADSL) 2R(XMT) 100T P2801 4T(ADSL)
Page 155 Cables and Connectors Cabling for the 48-port LPM with splitters Table C-3. Tip/Ring connections to protection blocks 1, 3, and 5 (Continued) Pin No. LPM 2-wire LPM 4-wire (LPM 1) (LPM 2) (LPM 3) connector ports ports 112R P2801 16R(ADSL) 8R(RCV) 113T P2801...
Page 156 Cables and Connectors Cabling for the 48-port LPM with splitters Table C-3. Tip/Ring connections to protection blocks 1, 3, and 5 (Continued) Pin No. LPM 2-wire LPM 4-wire (LPM 1) (LPM 2) (LPM 3) connector ports ports 125R P2801 29R(ADSL) 15R(XMT) 126T P2801...
Page 157 Cables and Connectors Cabling for the 48-port LPM with splitters Table C-3. Tip/Ring connections to protection blocks 1, 3, and 5 (Continued) Pin No. LPM 2-wire LPM 4-wire (LPM 1) (LPM 2) (LPM 3) connector ports ports 138R P2802 42R(ADSL) 21R(RCV) 139T P2802...
Page 158: Table C-4 Tip/Ring Connections To Protection Blocks 2, 4, And 6
Cables and Connectors Cabling for the 48-port LPM with splitters Table C-4. Tip/Ring connections to protection blocks 2, 4, and 6 (Continued) Pin No. LPM (LPM 1) (LPM 2) (LPM 3) connector connection P2803 3T(POTS) P2803 3R(POTS) 100T P2803 4T(POTS) 100R P2803 4R(POTS)
Page 159 Cables and Connectors Cabling for the 48-port LPM with splitters Table C-4. Tip/Ring connections to protection blocks 2, 4, and 6 (Continued) Pin No. LPM (LPM 1) (LPM 2) (LPM 3) connector connection 112T P2803 16T(POTS) 112R P2803 16R(POTS) 113T P2803 17T(POTS) 113R...
Page 160 Cables and Connectors Cabling for the 48-port LPM with splitters Table C-4. Tip/Ring connections to protection blocks 2, 4, and 6 (Continued) Pin No. LPM (LPM 1) (LPM 2) (LPM 3) connector connection 125T P2803 29T(POTS) 125R P2803 29R(POTS) 126T P2803 30T(POTS) 126R...
Page 161: Cable Stub Connections To Protection Blocks
Cables and Connectors Cabling for the 48-port LPM with splitters Table C-4. Tip/Ring connections to protection blocks 2, 4, and 6 (Continued) Pin No. LPM (LPM 1) (LPM 2) (LPM 3) connector connection 138T P2802 42T(POTS) 138R P2802 42R(POTS) 139T P2802 43T(POTS) 139R...
Page 162: Cable And Protection Associations
Cables and Connectors Cabling for the 48-port LPM with splitters Figure C-7. Stub cables for connection to the protection blocks OSP 1 cable Stub OSP 2 cable Stub OSP 3 cable Stub Cable and protection associations The Stub cables are identified as OSP 1, OSP 2, and OSP 3. The cables connectors on these cables are labeled P1 through P4 or P5, depending on the cable.
Page 163: Power Cables And Connections
P5 for cable OSP 3 connect on top of each other on connector OSP 1 of connection block 5 for LPM3. Power cables and connections Stinger Compact Remote units are installed to utilize either ±190Vdc or -48Vdc power sources. Different stub ended power cables are provided to bring power into the enclosure, depending on the power source that is utilized.
Page 164: 190Vdc Connections Through The Protection Blocks
Cables and Connectors Power cables and connections ±190Vdc connections through the protection blocks The ±190Vdc power is supplied from the central office over multiple pairs of telecommunications wires and connected to the stub end of the power cable. This cable is terminated inside the enclosure on a 10-pin Molex connector. Connector J7 connects to this cable, and brings the voltage to the outside plant tips and rings of five connection points on the protection blocks.
Page 165: 48Vdc Power Connections
-48Vdc power supply of the Stinger Compact Remote unit. The -48Vdc power supply cable is shown in Figure C-10.
Page 166: Chassis Door Alarm Connections
Cables and Connectors Chassis door alarm connections Chassis door alarm connections The door alarm for Stinger CR ATM DSLAM units operating in the hosted mode is connected directly to the card cage and monitored through the TAOS software on the host Stinger unit.
Page 167: Enclosure Cable Exit Points
Cables and Connectors Enclosure cable exit points special cable connects the door alarm for the enclosure to the ALARM connector of the IP2000 or control module. This cable is illustrated in Figure C-12. Figure C-12. Door alarm cable for stand-alone operation White wire Black wire DB-15...
Page 169: Appendix D Safety-Related Electrical, Physical, And Environmental Information
Safety-Related Electrical, Physical, and Environmental Information Safety Instructions ..........D-1 Electrical and electronic information .
Page 170 Warning: Install only equipment identified in the applicable Lucent Technologies Manual(s). Use of other equipment may result in improper connections of circuitry which could cause fire or injury.
Page 171: Stinger Cr, Model 0710-1701-Xyz Important Safety Instructions
Safety-Related Electrical, Physical, and Environmental Information Safety Instructions At the time of installation a system assessment must be carried out to ensure that the effective capacitance of the total system, including the capacitance of the product does not exceed the values specified in UL60950-21, see Figure D-1. Figure D-1.
Page 172 The installation must have an independent frame ground drop. Caution: Install only equipment identified in the applicable Lucent Technologies Manual(s). Use of other equipment may result in improper connections of circuitry which could cause fire or injury.
Page 173: Electrical And Electronic Information
Laser safety The Lucent Technologies Stinger Compact Remote unit is an FDA/CDRH Class I / IEC Hazard Level 1 system. Laser circuit packs for use in the Stinger CR are FDA Class I and IEC Hazard Level 1 devices.
Page 174: Laser Classifications
Greater than 500mW (26.99dBm) Laser warning instructions In its normal operating mode, the Stinger Compact Remote unit is totally enclosed and presents no risk of eye injury. It is a laser Class 1/I product. The lightguide cables that interconnect various components of a lightwave system can be disconnected or break, and may expose people to lightwave emission.
Page 175: Laser Warning Labels
Safety-Related Electrical, Physical, and Environmental Information Laser safety Remove power from the optical source before disconnecting optical fibers, if the source is not a laser Class 1 product, or if the laser Class of the source is unknown. Never scan a fiber with an optical test set without verifying that all lightwave sources on the fiber are turned off or that the test set is specially approved for the test.
Page 176: Splicing
Safety certifications The Stinger Compact Remote meets U.S. and Canadian UL specification 60950-1, First Edition. Physical specifications Table D-3 describes the Stinger CR physical specifications.
Page 177: Site Specifications
Safety-Related Electrical, Physical, and Environmental Information Site specifications Table D-3. Stinger CR physical specifications (Continued) Specification Description Physical characteristics Basic unit includes one populated Stinger CR chassis (cooling fan module, control and optics pack, power supply, and three 48-port LIM/LPM pairs), in an outdoor chassis with protector blocks and cabling.
Page 178: Weight And Lifting Requirements
Weight and lifting requirements A fully loaded Stinger Compact Remote enclosure weighs approximately 160 pounds (72.575kg). For ease of installation the unit should be installed without its modular components in place. The following table will help you determine the weight of the unit you are installing.
Page 179: Index
Index configuration for hosted operation 5-4 console terminal, connecting and setting up 4-2 addresses, IP cooling unit assigning for Ethernet 4-12 checking 2-14 syntax 4-10 function 1-9 admin login, recommended password change status lights 3-46 3-47 administrative access, restricting 4-7 connecting 3-31 administrative connections 4-2 functions 1-8...
Page 180 Index checking 2-12 displaying remote status 6-4 gasket, door 3-19 installing and replacing 3-23 grounding 3-18 monitoring remote connections 6-3 50-pin connector C-4 checking 2-14 connecting 3-38 hardware, verifying configuration 2-5 function 1-9 high-speed-slot-static-config 5-9 installing and replacing 3-25 host management interface 5-3 hosted operation configuration 5-4 traffic management 5-8...
Page 181 Index COP 1-8 restricting access 4-7 IP2000 1-8 Serial profile 4-7 LPM 1-9 shelf validation power supply 1-9 configuration 5-13 RLIM 1-8 enabling 5-13 validation-config 5-13 power cable connections to power unit C-18 Single-mode (OC3/STM) medium-reach B-4 power supply checking 2-16 2-17 size of enclosure D-9 function 1-9...
Page 182 Index virtual circuit provisioning 5-7 WAN interfaces supported D-8 weight of unit D-9 workstation, connecting 10/100 Ethernet 4-3 workstation, connecting gigabit Ethernet 4-3 Index-4 The Stinger® Compact Remote ATM DSLAM Getting Started Guide...

Lucent Technologies Stinger Compact Remote Getting Started Manual

About this Guide

Chapter 1 Introduction to the Stinger Compact Remote ATM DSLAM

Chapter 2 Preparing to Install the Unit

Chapter 3 Enclosure and Component Installation

Chapter 4 Initial Stand-Alone Configuration

Chapter 5 Hosted System Configuration

Working with the Remote-Shelf-Config Profile

Chapter 6 Hosted System Management

Appendix A Intended Use

Appendix B the Host Stinger OLIM

Appendix C Cables and Connectors

Appendix D Safety-Related Electrical, Physical, and Environmental Information

Index

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Summary of Contents for Lucent Technologies Stinger Compact Remote