Installing and Operating BayStack ARN Routers Router Software Version 11.00 Rev. 4n Site Manager Software Version 5.00 Rev. 4n Part No. 114200 Rev.
4401 Great America Parkway Santa Clara, CA 95054 8 Federal Street Billerica, MA 01821 Copyright © 1988–1996 Bay Networks, Inc. All rights reserved. Printed in the USA. November 1996. The information in this document is subject to change without notice. The statements, configurations, technical data, and recommendations in this document are believed to be accurate and reliable, but are presented without express or implied warranty.
USA Requirements Only Federal Communications Commission (FCC) Compliance Notice: Radio Frequency Notice This equipment generates, uses, and can radiate radio-frequency energy. If you do not install and use this equipment according to the instruction manual, this product may interfere with radio communications. This product has been tested and found to comply with the limits for a Class A computing device, pursuant to Subpart J of Part 15 of FCC Rules.
Japan/Nippon Requirements Only Voluntary Control Council for Interference (VCCI) Statement Voluntary Control Council for Interference (VCCI) Statement This equipment is in the 1st category (information equipment to be used in commercial and/or industrial areas) and conforms to the standards set by the Voluntary Control Council for Interference by Data Processing Equipment and Electronic Office Machines that are aimed at preventing radio interference in commercial and/or industrial areas.
Canada Requirements Only Canada CS-03 Rules and Regulations Note: The Canadian Department of Communications label identifies certified equipment. The certification means that the equipment meets certain telecommunications network protective operations and safety requirements. The Department does not guarantee the equipment will operate to the user's satisfaction.
Canada Requirements Only (continued) D. O. C. Explanatory Notes: Equipment Attachment Limitations The Canadian Department of Communications label identifies certified equipment. This certification meets certain telecommunication network protective, operational and safety requirements. The department does not guarantee the equipment will operate to the users satisfaction.
Canada Requirements Only (continued) Canadian Department of Communications Radio Interference Regulations This digital apparatus (Access Feeder Node, Access Link Node, Access Node, Access Stack Node, Backbone Concentrator Node, Backbone Concentrator Node Switch, Backbone Link Node, Backbone Link Node Switch, Concentrator Node, Feeder Node, Link Node) does not exceed the Class A limits for radio-noise emissions from digital apparatus as set out in the Radio Interference Regulations of the Canadian Department
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Bay Networks Software License (continued) 9. Licensee shall not reverse assemble, reverse compile, or in any way reverse engineer the Software. [Note: For licensees in the European Community, the Software Directive dated 14 May 1991 (as may be amended from time to time) shall apply for interoperability purposes. Licensee must notify Bay Networks in writing of any such intended examination of the Software and Bay Networks may provide review and assistance.] 10.
Contents About This Guide Before You Begin .............................................................................................................xxi Conventions .....................................................................................................................xxi Acronyms ........................................................................................................................xxii Ordering Bay Networks Publications .....................................................
Connecting to an Ethernet Interface ......................................................................1-10 Connecting to an AUI Interface ........................................................................1-11 Connecting to a 10Base-T Interface ................................................................1-12 Connecting to a Token Ring Interface ....................................................................1-13 Connecting to an STP Token Ring Interface .....................................
Chapter 3 Operating the ARN LED Descriptions ............................................................................................................3-2 Base Module LEDs ..................................................................................................3-2 Diagnostic LEDs ................................................................................................3-2 Ethernet LEDs ...................................................................................................
Appendix B Using Local Boot (the Quick-Start Procedure) Understanding Quick-Start Connector Names and Numbers ........................................ B-2 Filling Out the Worksheets ............................................................................................. B-3 Global Information Worksheet ................................................................................. B-4 Router Protocol Worksheets ...................................................................................
Power Requirements for ISDN BRI and Serial Adapter Modules .................................. D-9 Clearance and Creepage Distances for ISDN BRI and Serial Adapter Modules .......... D-9 Index 114200 Rev.
Figures Figure 1-1. Figure 1-2. Figure 1-3. Figure 1-4. Figure 1-5. Figure 1-6. Figure 1-7. Figure 1-8. Figure 1-9. Figure 1-10. Figure 1-11. Figure 1-12. Figure 1-13. Figure 1-14. Figure 1-15. Figure 1-16. Figure 1-17. Figure 1-18. Figure 1-19. Figure 1-20. Figure 2-1. Figure 2-2. Figure 3-1. Figure 3-2. Figure 3-3. Figure 3-4. Figure 3-5. Figure B-1. Figure B-2. 114200 Rev. A Accessories in the ARN Shipping Container ...........................................
xviii Figure D-1. Cable 7837 (V.28 Compliant) .................................................................. D-3 Figure D-2. Figure D-3. Figure D-4. Cable 7220 (V.35 Compliant) .................................................................. D-4 Cable 7224 (X.21 Compliant) .................................................................. D-6 Clearance and Creepage Distances for ISDN BRI and Serial Adapter Modules ........................................................................
Tables Table 1-1. Table 1-2. Table 1-3. Table 1-4. Table 1-5. Table 2-1. Table 2-2. Table 2-3. Table 2-4. Table 3-1. Table 3-2. Table 3-3. Table 3-4. Table 3-5. Table 3-6. Table 3-7. Table 3-8. Table 3-9. Table 3-10. Table 3-11. Table A-1. Table A-2. Table A-3. Table A-4. Table A-5. Table B-1. Table B-2. Table C-1. Table C-2. 114200 Rev. A Installation Space Requirements .............................................................1-5 V.34 Modem Adapter Module Defaults ....................................
Table C-3. AUI Pin Assignments .............................................................................. C-5 Table C-4. Table C-5. Table C-6. Table C-7. Table C-8. Table C-9. Table C-10. Table C-11. Table C-12. Table C-13. Table D-1. 10Base-T Interface Pin Assignments ...................................................... C-6 Token Ring STP Interface Pin Assignments ........................................... C-7 Token Ring UTP Interface Pin Assignments ...........................................
About This Guide This guide explains how to install, start, and operate a BayStack™ Advanced Remote Node™ (ARN™) router, including instructions to • Physically install the ARN • Attach communications equipment • Connect the ARN to the network using one of the software configuration options • Use the ARN operator switches and interpret LED displays Before You Begin Before using this guide, you must coordinate with the network administrator for the ARN that you are installing.
Installing and Operating BayStack ARN Routers italic text Indicates variable values in command syntax descriptions, new terms, file and directory names, and book titles. quotation marks (“ ”) Indicate the title of a chapter or section within a book. separator ( > ) Separates menu and option names in instructions and internal pin-to-pin wire connections. Example: Protocols > AppleTalk identifies the AppleTalk option in the Protocols menu.
About This Guide 114200 Rev.
Installing and Operating BayStack ARN Routers Ordering Bay Networks Publications To purchase additional copies of this document or other Bay Networks publications, order by part number from the Bay Networks Press™ at the following telephone or fax numbers: • Telephone - U.S./Canada • Telephone - International • Fax 1-888-4BAYPRESS 1-510-490-4752 1-510-498-2609 You can also use these numbers to request a free catalog of Bay Networks Press product publications. xxiv 114200 Rev.
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Installing and Operating BayStack ARN Routers Bay Networks Customer Service If you purchased your Bay Networks product from a distributor or authorized reseller, contact that distributor’s or reseller’s technical support staff for assistance with installation, configuration, troubleshooting, or integration issues. Customers can also purchase direct support from Bay Networks through a variety of service programs.
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Installing and Operating BayStack ARN Routers Support Source CD This CD-ROM -- sent quarterly to all contracted customers -- is a complete Bay Networks Service troubleshooting knowledge database with an intelligent text search engine.
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Chapter 1 Installing the BayStack Advanced Remote Node This chapter describes how to install the BayStack ARN. Topics include the following: • • • • • • • Preparing to install the ARN Installing the ARN Connecting communication cables Connecting a management console Connecting a modem Connecting the power cable Installing the Flash memory card Note: The installation instructions in this chapter assume that wiring is already installed on the premises using common cable system practices.
Installing and Operating BayStack ARN Routers Preparing to Install the ARN Verify the following before beginning the installation, as explained in the sections that follow: • • • • Your shipment is complete and undamaged. You have the proper equipment and tools. Your installation site meets physical, electrical, and environmental requirements. You have the communications devices and the cabling that you need to attach to the ARN.
Installing the BayStack Advanced Remote Node Figure 1-1 illustrates the ARN shipping accessories. Power cable Console/modem cable (DB-9 receptacle to DB-25 plug cable) DB-25 receptacle null modem adapter Two flange brackets Eight #6 flathead screws Four cagenuts Four #10 cagenut screws and washers Four rubber feet ARN0048A Figure 1-1. 114200 Rev.
Installing and Operating BayStack ARN Routers Supplying Equipment You may need items that are not part of the ARN accessory package. Before installing the ARN hardware, ensure that you have all the cables, tools, and other equipment that you need. Cables Unless they were specifically ordered, the cables necessary for your network configuration are not part of the ARN accessory package.
Installing the BayStack Advanced Remote Node Verifying Site Requirements The installation site must provide a certain amount of free space around the ARN to dissipate heat, as detailed in Table 1-1. Table 1-1. Installation Space Requirements Width Depth (minimum) Depth (for servicing) 22.5 in. (57.2 cm) 15 in. (38.1 cm) 25 in. (63.5 cm) In addition, the installation site must meet the electrical and environmental specifications listed in Appendix C.
Installing and Operating BayStack ARN Routers Rack-Mounting the ARN For this procedure, you need • Four #10 cagenut screws and washers (shipped with the ARN) • Two flange brackets and eight #6 flathead screws (shipped with the ARN) • A Phillips screwdriver • An electronic enclosure rack Note: If the rack does not have threaded rail holes, you must supply and attach four cagenuts. To rack-mount the ARN: 1. Attach a flange bracket to both sides of the ARN. On each side of the chassis: 1-6 a.
Installing the BayStack Advanced Remote Node RLSD3 RLSD4 Tx RLSD5 Rx B1 Cl ISDN BRI withNT1 1 DD B2 Run Boot Fail 2 Pwr RPS Fan Base Adapter1 Adapter2 Expansion BayStack Advanced Remote Node DCM PCMCIA RLSD Screws (8 places) Alternative bracket position (2 places) ARN0004A Figure 1-2. Attaching Flange Brackets to Rack-Mount the ARN 2. 114200 Rev. A Align the holes in the shorter end of the flange bracket with the holes in the front vertical supports of the rack (Figure 1-3).
Installing and Operating BayStack ARN Routers U 1 ISDN BRI withNT1 D B1 DD B2 Tx 10BaseT AUI Rx RLSD3 COM3 RLSD4 COM4 COM5 Cl RLSD5 COM 2 Ethernet 2 Serial RLSD Tx Serial 10BaseT AUI Rx Cl Run Pwr Boot RPS Adapter1 DCM Fail Fan Adapter2 PCMCIA Base Ethernet 1 Expansion BayStack Advanced Remote Node Cagenut screw (4 places) Rail without threaded holes Use cagenut ARN0005A Figure 1-3. 1-8 Installing the ARN in an Electronic Enclosure Rack 3.
Installing the BayStack Advanced Remote Node Understanding the ARN Module Locations The ARN is designed to scale to your needs. In addition to either an Ethernet or token ring base module, the ARN can contain an optional expansion module and up to two adapter modules (Figure 1-4).
Installing and Operating BayStack ARN Routers The ARN also supports up to two of the following adapter modules: • Single serial interface • Single ISDN BRI S/T interface • Single ISDN BRI U interface • Single V.34 modem adapter interface • Single 56/64K DSU/CSU interface Connecting Communications Cables Gather the communications equipment and cabling that you will attach to the ARN.
Installing the BayStack Advanced Remote Node Connecting to an AUI Interface To connect an Ethernet AUI transceiver cable to an AUI interface: Caution: Connecting the ARN AUI interface directly to the AUI interface on an Ethernet station violates IEEE 802.3 standards. The AUI interface is designed only for connection to a transceiver. Connect an Ethernet AUI drop cable to the interface labeled AUI (Figure 1-5). 1. The cable must have a 15-position D-SUB receptacle.
Installing and Operating BayStack ARN Routers Connecting to a 10Base-T Interface To connect an unshielded twisted-pair (UTP) cable to the base module or expansion module 10Base-T interface, insert the UTP jack into the RJ-45 interface, as shown in Figure 1-6.
Installing the BayStack Advanced Remote Node Connecting to a Token Ring Interface You can connect a token ring cable to any ARN base module or expansion module that contains a token ring interface option. Each of these interface options offers two token ring interface types -- an STP interface or a UTP interface. Note: You can use only one token ring interface on an ARN base or expansion module at any time.
Installing and Operating BayStack ARN Routers Connecting to a UTP Token Ring Interface To connect a Token Ring UTP cable to the expansion module token ring interface, insert the RJ-45 connector into the UTP interface, as shown in Figure 1-8.
Installing the BayStack Advanced Remote Node Connecting to a Serial Interface The ARN supports up to five serial interfaces. You can connect • Up to three, 44-pin serial cables to an ARN that contains an Ethernet/tri-serial, Token Ring/tri-serial, or Tri-Serial expansion module • One, 44-pin serial cable to each Serial adapter module (the ARN can support two) To connect to a serial interface: Locate the RS-232, RS-422, RS-530, V.28, V.35, or X.21 interface cable. 1.
Installing and Operating BayStack ARN Routers On an ARN adapter module, the serial interface is labeled COM (Figure 1-10). U Tx D 1 10BaseT B1 Rx ISDN BRI withNT1 DD B2 Cl Ethernet 2 COM 2 Tx 10BaseT RLSD Rx Cl Ethernet 1 To RS-232, RS-422, RS-530, V.35, or X.21 interface ARN0066A Figure 1-10. 1-16 Connecting a Serial Cable to a Serial Adapter Module 3. Secure the cable to the interface using the capture screws on the cable. 4.
Installing the BayStack Advanced Remote Node Connecting to an ISDN Interface You can connect an ISDN cable to any ARN that contains an ISDN BRI S/T or U adapter module. To connect to an ISDN BRI interface: Insert the ISDN cable into the ISDN BRI interface (Figure 1-11). 1. U 1 ISDN BRI withNT1 D B1 DD B2 Tx 10BaseT Rx Cl Ethernet 2 COM 2 Tx RLSD Serial 10BaseT Rx Cl Ethernet 1 To ISDN switch ARN0064A Figure 1-11. 2. 114200 Rev.
Installing and Operating BayStack ARN Routers Connecting to a DSU/CSU Interface You can connect a DSU/CSU cable to any ARN that contains a DSU/CSU adapter module. To connect to a DSU/CSU interface: Insert the DSU/CSU cable connector into the DSU/CSU interface labeled DDS (Figure 1-12). 1. COM 1 Tx 10BaseT Rx RLSD Cl Serial Ethernet 2 DDS 2 56K/64K DSU/CSU TxD CD RxD Test Tx 10BaseT Rx Cl Ethernet 1 To digital line wall jack ARN0065A Figure 1-12. 2.
Installing the BayStack Advanced Remote Node Connecting to a V.34 Modem Interface You can connect an RJ-11 telephone cable to any ARN that contains a V.34 modem adapter module. Note: The default settings for the front-panel V.34 modem adapter module differ from the default settings for the back-panel V.34 modem. Refer to “Connecting to a V.34 Modem Module” earlier in this chapter for information about the V.34 modem adapter and its default settings. Table 1-2 provides the default settings for the V.
Installing and Operating BayStack ARN Routers To connect to a V.34 modem interface: 1. Insert the RJ-11 telephone cable into the V.34 modem interface labeled Telco (Figure 1-13). Back-panel V.34 Modem Interface Front-panel V.34 Modem Interface COM 1 Tx 1 Rx RLSD Cl Serial Telco 2 V.34 Modem Tx RLSD Rx DTR Modem Tx 1 Tx Rx RLSD DTR Rx Cl Console To RJ-11 telephone receptacle ARN0071A Modem To RJ-11 telephone receptacle ARN0072A Figure 1-13. Connecting an RJ-11Cable 2.
Installing the BayStack Advanced Remote Node Connecting a Terminal Console You need both pieces in the ARN console/modem cable kit (Order No. 110310) to connect a terminal console: • Order No. 110307 serial console/modem cable (with 9-pin receptacle to 25-pin plug connectors) • Order No. 110308 null modem crossover adapter (with two 25-pin receptacle connectors) Once you have the appropriate equipment, complete the following steps: 1.
Installing and Operating BayStack ARN Routers 5. Attach the 25-pin receptacle connector on the combined cable and adapter to the console host connector (Figure 1-15). COMM 20 mA PR KB UL Redundant Power 100-240~ 1.2A 50-60Hz UL Modem Console cable plus null modem adapter ARN0058A Figure 1-15. 6. Connecting a Terminal Console to an ARN Insert the 9-pin receptacle end of the console cable into the ARN console port connector. The console is now connected to the ARN.
Installing the BayStack Advanced Remote Node 2. Power off the PC console. 3. Insert the 9-pin receptacle end of the console cable into the console port (Figure 1-16). 4. Attach the null modem crossover adapter to the other end of the console cable (refer to Figure 1-14). UL Redundant Power 100-240~ 1.2A 50-60Hz UL Modem PC cable Null modem adapter Console cable ARN0056A Figure 1-16. 114200 Rev. A Connecting a PC Console to an ARN 5.
Installing and Operating BayStack ARN Routers Connecting a Modem You can connect a modem to the ARN using the back-panel modem port or you can connect a telephone line directly to an optional, back-panel V.34 modem adapter module. Note: To use the Netboot, Directed Netboot, or Local Boot software configuration options, you must connect a console the first time you power up the ARN. Refer to Chapter 3 for details. A modem provides remote access to the ARN for a system administrator.
Installing the BayStack Advanced Remote Node Table 1-4. External Modem Parameters (continued) Modem Signal/Parameter Value Synchronous/Asynchronous Mode Asynchronous AutoAnswer Answer on 2 rings with DTR active. Local Character Echo Off Supervisory Functions Off Baud Rate 9600 Data Bits 8 Stop Bits 1 Parity None Refer to the modem user guide for instructions. 2. Power off the modem. 3. Insert the 9-pin receptacle end of the modem cable into the front-panel console port (Figure 1-17).
Installing and Operating BayStack ARN Routers Connecting to a V.34 Modem Module If your ARN contains an optional, back-panel V.34 modem module, you need only connect the telephone line to the V.34 interface for access to the router. Note: The default settings for the back-panel V.34 modem differ from the default settings for the front-panel V.34 modem adapter module. Refer to “Connecting to a V.34 Modem Interface” earlier in this chapter for information about the V.
Installing the BayStack Advanced Remote Node Connecting the Power Cable Complete these steps to connect the power cable: 1. Connect the power cable to the power connector on the ARN back panel (Figure 1-18). Danger: Be sure that the power switch is in the OFF (0) position before you connect the power cable. Redundant power supply cable Power cable UL Redundant Power 100-240~ 1.2A 50-60Hz UL ARN0017A Figure 1-18. 2.
Installing and Operating BayStack ARN Routers Installing the Flash Memory Card A PCMCIA Flash memory card (Figure 1-19) provides storage capability for the Nonvolatile File System (NVFS) in the ARN. When you remove a formatted memory card, the NVFS automatically removes access to the card. When you insert and format a card or insert an already formatted card, the NVFS automatically provides access. INSERT AN0060A Figure 1-19.
Installing the BayStack Advanced Remote Node UL Redundant Power 100-240~ 1.2A 50-60Hz UL Console Modem ARN0018A Figure 1-20. Inserting the Flash Memory Card in the ARN Receptacle Where to Go Next Use the following table to determine where you want to go next. 114200 Rev.
Chapter 2 Starting the ARN The first time you start the ARN, you complete an important software configuration process -- you provide the ARN with the files it needs to operate over the network. This chapter discusses the need for these specific startup files, what methods you can use to ensure that the router installs and uses the appropriate files, and how to use each of these installation methods. Note: Coordinate the initial startup of the ARN with your network administrator.
Installing and Operating BayStack ARN Routers You must complete an initial startup procedure to obtain the executable and default configuration files and connect the ARN to the network. Getting a file over the network is called network booting, or netbooting. Getting a file from the ARN file system, stored in Flash memory, is called local booting. Caution: The ARN must contain a Flash memory card if you plan to obtain any startup files through the local boot procedure.
Starting the ARN Table 2-1. Summary of Initial Startup Options (continued) Boot Option Source for Image file Source for Configuration File Directed Netboot† Local or Network Local or Network Description and Requirements The ARN obtains at least one startup file from a remote workstation that is configured as a Trivial File Transfer Protocol (TFTP) server. You must specify the IP address of the TFTP server and the complete path to the startup files before booting.
Installing and Operating BayStack ARN Routers Starting the ARN for the First Time The ARN factory defaults are set to find the configuration and image files from the following locations: • Configuration file -- over the network • Image file -- on the local PCMCIA Flash memory card These default settings work with the default EZ-Install procedure.
Starting the ARN Using EZ-Install EZ-Install is the default installation option. This option requires that your network administrator has set up the network so that you can start the EZ-Install procedure. In addition, this option requires that you • Install a Flash memory card. • Connect at least one serial (COM) interface to the network. Refer to Chapter 1 for instructions on how to perform any of these tasks.
Installing and Operating BayStack ARN Routers Using Netboot, Directed Netboot, or Local Boot You must use a command line interface that accesses the router software when you netboot or local boot the ARN. To use a command line interface, you can • Wait for the ARN to local boot (that is, wait for the router to fail EZ-Install and then attempt to boot using its local configuration file). After the ARN boots locally, you can log in to the Technician Interface and redefine the boot process.
Starting the ARN 2. While the router is running the EZ-Install procedure, issue a break sequence from the management console. The ARN monitor login prompt appears. Note: Be sure to issue a break sequence before the boot process completes. Break sequences can vary, depending on the console equipment type. Some console terminals have specific break keys on their keyboards; other management terminals require a specific key sequence to issue a break (for example, Cntrl-C or ~ #).
Installing and Operating BayStack ARN Routers Continuing with Netboot Note: Continuing with the netboot option requires that you have already logged in to the Technician Interface or ARN monitor command line software. Refer to the previous section, “Logging in to the Command Line Software,” for instructions. You must have at least one serial, Ethernet, or token ring interface connected to the network to use the netboot option.
Starting the ARN To use the netboot option: 1. Enter the ifconfig command (refer to Table 2-2) at the command line prompt and press the Return key. The following is a sample command: ifconfig com1 9.0.0.2 255.0.0.0 9.0.0.3 Refer to Appendix A for more information about the ifconfig command. 2.
Installing and Operating BayStack ARN Routers If getcfg displays the correct information, continue to the next step. Otherwise, reenter the correct ifconfig command. Contact your network administrator if you need assistance. 3. Enter the following command and press the Return key to boot the ARN: boot Your console displays messages indicating the progress of the netboot procedure.
Starting the ARN Continuing with Directed Netboot Note: Continuing with the directed netboot option requires that you have already logged in to the Technician Interface or ARN monitor command line software. Refer to the previous section, “Logging in to the Command Line Software,” for instructions. You must have at least one serial, DSU/CSU, Ethernet, or token ring interface connected to the network to use the directed netboot option.
Installing and Operating BayStack ARN Routers The bconfig commands let you specify the location of a startup file. To use directed netboot, the location must includes the following information: • The source of the image and configuration files (local or network) • The address of the TFTP server • The full directory path description locating the files on the TFTP server Write the commands in Table 2-4 for your reference. Table 2-4.
Starting the ARN 3. Type the following command and press the Return key to verify the configuration you specified in Step 3: getcfg The getcfg command shows the location of the boot image and the network configuration file, the interface configuration that you specified using the ifconfig command, as well as the TFTP server information and file paths that you specified using the bconfig commands. Verify the interface configuration, as shown in Figure 2-2.
Installing and Operating BayStack ARN Routers Note: If the ARN cannot find a software image or configuration file using the directed netboot procedure, it attempts to netboot once. If the netboot procedure fails, the ARN tries to local boot once. If all three boot attempts fail, the ARN continues to try directed netboot, netboot, and local boot until it boots successfully. If the ARN remains in this loop, refer to “Interrupting the Boot Process” earlier in this chapter. 5.
Starting the ARN Continuing with Local Boot (the Quick-Start Procedure) Note: Continuing with the local boot option requires that you have already logged in to the Technician Interface or ARN monitor command line software. Refer to the previous section, “Logging in to the Command Line Software,” for instructions. You can use either the ARN monitor or the Technician Interface to configure the ARN to local boot. However, you must use the Technician Interface to run the Quick-Start script.
Installing and Operating BayStack ARN Routers 3. Ensure that the ARN boots correctly. When the ARN boots, its LEDs flash in a particular order. See Chapter 3 for information on checking the ARN front-panel LEDs to ensure that the installation was successful and that the router is operating properly. After the ARN boots using its local software image and configuration file, the Technician Interface login prompt appears. 4.
Starting the ARN Contact your local Bay Networks Technical Response Center if you need additional assistance. After configuring the ARN network interface, you can replace the console connection with a modem connection to enable remote dial-in access. Where to Go Next Use the following table to determine where you want to go next. 114200 Rev.
Chapter 3 Operating the ARN This chapter describes how to • • • • • • • 114200 Rev.
Installing and Operating BayStack ARN Routers LED Descriptions LEDs on the ARN front and back panels provide information about how the ARN is operating. The following sections describe the LEDs on the ARN base modules, expansion modules, adapter modules, and the ARN back panel. Base Module LEDs The ARN base module LEDs include diagnostic LEDs and either Ethernet or token ring interface LEDs. Diagnostic LEDs The base module diagnostic LEDs (Figure 3-1) indicate the status of the ARN itself.
Operating the ARN Table 3-1 describes the base module diagnostic LEDs. Table 3-1. 114200 Rev. A Base Module Diagnostic LEDs LED Meaning Run Flashes for 1 to 3 minutes, indicating that diagnostic tests are running. When it lights again and remains on, the ARN is operational. Boot Lights for 1 to 3 minutes, indicating that diagnostic tests were successful and the ARN is booting. Fail Lights again and remains on when diagnostic failure occurs.
Installing and Operating BayStack ARN Routers Ethernet LEDs Table 3-2 describes the base module Ethernet LEDs. Table 3-2. Base Module Ethernet LEDs LED Meaning Tx (Transmit) Lights when the Ethernet interface transmits data. Rx (Receive) Lights when the Ethernet interface receives data. Cl (Collision) Lights when the Ethernet interface detects a collision. Token Ring LEDs Table 3-3 describes the base module token ring LEDs. Table 3-3.
Operating the ARN Expansion Module LEDs An ARN expansion module can contain Ethernet, token ring, or serial interface LEDs. Ethernet LEDs Table 3-4 describes the expansion module Ethernet LEDs. Table 3-4. Expansion Module Ethernet LEDs LED Meaning Tx (Transmit) Lights when the interface is transmitting data over the network. Rx (Receive) Lights when the interface is receiving data from the network. Cl (Collision) Lights when the interface detects a collision on the network.
Installing and Operating BayStack ARN Routers Serial LEDs Table 3-6 describes the expansion module serial interface LEDs. Table 3-6. Expansion Module Serial LEDs LED Meaning RLSD3 (Received Line Signal Detection 3) Lights when Received Line Signal Detection is active on COM 3. RLSD4 (Received Line Signal Detection 4) Lights when Received Line Signal Detection is active on COM 4. RLSD5 (Received Line Signal Detection 5) Lights when Received Line Signal Detection is active on COM 5.
Operating the ARN ISDN BRI LEDs (S/T or U Interfaces) Table 3-8 describes the ISDN adapter module LEDs. Table 3-8. ISDN BRI LEDs LED Meaning S/T Interface Unlabeled LED Lights when the ARN is using the D-channel. U Interface D (D-channel; 16-KB Management Channel) Lights when the ARN is using the D-channel. DD (Data Detect) Lights when the interface detects connection to an external device (that is, a switch). B1 (B-Channel #1; 64-KB Data Channel) Lights when the ARN is using B-channel #1.
Installing and Operating BayStack ARN Routers V.34 Modem LEDs Table 3-10 describes the V.34 modem adapter module LEDs. Table 3-10. V.34 Modem LEDs LED Meaning TX (Transmit) Lights when the interface transmits data over the network. RX (Receive) Lights when the interface receives data from the network. RLSD (Received Line Signal Detection) Lights when the modem activates. DTR (Data Terminal Ready) Lights when the interface is ready to transmit data.
Operating the ARN Ensuring a Successful Installation After connecting the ARN to the network, you can ensure a successful installation by checking the diagnostic LEDs on the front panel of the base module (refer to Figure 3-1). When you power on the ARN, the following sequence of front panel LED activity should occur: • All base module LEDs light momentarily; this tests that the LEDs are operational. • The Run, Boot, and Fail LEDs count through a short, initial startup sequence.
Installing and Operating BayStack ARN Routers If the LEDs do not light in this sequence, your network administrator can refer to Configuring Remote Access to help troubleshoot the problem. Note: If the ARN does not contain an expansion module, an adapter module, a redundant power supply, a data collection module, or a Flash card, the LEDs associated with these components remain off. If you need additional assistance, contact your local Bay Networks Technical Response Center.
Operating the ARN Resetting the ARN The Reset button is set inside the ARN back panel and resides next to the Flash card slot, as shown in Figure 3-3. UL Redundant Power 100-240~ 1.2A 50-60Hz UL Console Modem Reset button ARN0052A Figure 3-3. ARN Reset Button To press the Reset button, insert a small pointed object (for example, a paper clip) into the Reset button hole.
Installing and Operating BayStack ARN Routers Removing a Flash Memory Card To remove a memory card from an ARN: 1. Press the Eject button next to the card receptacle on the back panel. 2. Pull the memory card out of the card receptacle. See Figure 3-4. Caution: Do not remove the Flash memory card while the router is operating. Removing the memory card interferes with current networking operations. UL Redundant Power 100-240~ 1.2A 50-60Hz UL Console 2 Modem 1 ARN0053A Figure 3-4.
Operating the ARN Protecting Memory Card Files Bay Networks ships each memory card with its Read/Write Protect switch in the unprotected position (Figure 3-5). After successfully loading the configuration file and saving your configuration, you may want to write-protect the memory card for backup purposes. Note: You typically do not operate the ARN with a write-protected memory card.
Installing and Operating BayStack ARN Routers Where to Go Next Use the following table to determine where you want to go next. 3-14 For information about Go to Installing the ARN Chapter 1 Starting the ARN Chapter 2 Configuring the ARN for Netboot and Directed Netboot Appendix A Using Local Boot (the Quick-Start Procedure) Appendix B ARN Technical Specifications Appendix C 114200 Rev.
Appendix A Configuring the ARN for Netboot and Directed Netboot The following commands configure the ARN for netboot and directed netboot: • Use the ifconfig command to configure the router initial IP interface to the network. You need this information to complete the procedure in “Continuing with Netboot” in Chapter 2. • Use the bconfig command to specify the location and name of the ARN software image and configuration file.
Installing and Operating BayStack ARN Routers • Enable or disable netbooting on an interface. The following sections describe each use of the ifconfig command.
Configuring the ARN for Netboot and Directed Netboot Table A-1. Setting ifconfig Command Settings for a COM Interface (continued) Description Frame Relay Settings -fr Configures the router COM interface as a Frame Relay connection. With this setting, use one of the following options to specify a DLCMI setting: -annexd, -annexa, or -lmi. -annexd -annexa -lmi When one of these options is used with the -fr setting, it specifies a DLCMI setting.
Installing and Operating BayStack ARN Routers Configuring an Ethernet Interface for Network Booting To configure an ARN Ethernet interface for network booting, use the following command format: ifconfig [-d] [ []] Table A-2 describes the ifconfig command arguments for configuring the router’s Ethernet interface. Table A-2.
Configuring the ARN for Netboot and Directed Netboot Configuring a Token Ring Interface for Network Booting To configure an ARN token ring interface for network booting, use the following command format: ifconfig [-d] [ -r ] [ []] Table A-3 describes the ifconfig command arguments for configuring the router token ring interface. Table A-3.
Installing and Operating BayStack ARN Routers Enabling and Disabling Interfaces with ifconfig To enable or disable an ARN interface for the network boot process, use the following command formats: ifconfig -disable ifconfig -enable Table A-4 describes the ifconfig command arguments for enabling and disabling interfaces for network booting. Table A-4.
Configuring the ARN for Netboot and Directed Netboot Using the bconfig Command To use netboot, you use the bconfig command to specify that the ARN configuration file or software image resides on the network. To use directed netboot, you use the bconfig command to specify the IP address of the server and the full pathname to the software image and configuration file.
Installing and Operating BayStack ARN Routers bconfig Command Examples 1. Configure the default netboot procedure -- use a local image file and look for the configuration file over the network using BootP. bconfig -d image (or bconfig image local) bconfig -d config (or bconfig config network) 2. Use netboot for both the boot image and configuration file. bconfig image network bconfig config network 3. Use a local configuration file and directed netboot for the boot image file. bconfig image network 21.3.
Configuring the ARN for Netboot and Directed Netboot The following sample response shows the settings for an ARN with one Ethernet, one token ring, and five serial interfaces: Boot Options boot image=local boot config=network Netboot Parameters: MAU1...None XCVR2..None COM1...EZ-Install COM2...EZ-Install COM3...EZ-Install COM4...EZ-Install COM5...EZ-Install 114200 Rev.
Appendix B Using Local Boot (the Quick-Start Procedure) This appendix explains how to local boot the ARN using the Quick-Start procedure. The Quick-Start Procedure is the initial configuration that gets a Bay Networks ARN router up and running on the network. The procedure enables the Internet Protocol (IP) so that the router can connect to Site Manager. To power-start the ARN, you run the inst_arn.bat script and enter information at the prompts.
Installing and Operating BayStack ARN Routers Understanding Quick-Start Connector Names and Numbers The Quick-Start script assigns a name and number to each interface, depending on its location on the ARN. In addition to either an Ethernet or token ring base module, the ARN can contain expansion modules and adapter modules (Figure B-1).
Using Local Boot (the Quick-Start Procedure) Filling Out the Worksheets The inst_arn.bat script provides many options for configuring the ARN on a network. Since typical remote access uses a serial interface over a wide area connection, this section lists only the options involved with a serial configuration. Note: This section provides worksheets only for a serial interface configuration over a wide area connection. It does not contain worksheets for LAN configuration options.
Installing and Operating BayStack ARN Routers Global Information Worksheet This section contains the prompts and possible options relating to all ARN serial configurations. Write your selection in the “Your Response” column. Global Information Worksheet Step Requested Information Options Your Response 1 Enter the module number [1]: The script lists the available modules that you can use to connect the router’s IP network interface to Site Manager.
Using Local Boot (the Quick-Start Procedure) Global Information Worksheet (continued) Step Requested Information Options Enter connector number [1]: If there is only one connector on the module you chose, the script automatically assigns a connector number and bypasses this prompt. Otherwise, the script lists the available connectors. For example, for an ARN with five serial connectors, the options are 1. 2. 3. 4. 5. Your Response COM1 COM2 COM3 COM4 COM5 Enter clock source number [2]: 1.
Installing and Operating BayStack ARN Routers Global Information Worksheet (continued) Step Requested Information Options Your Response 3 Enter IP address in dotted decimal notation: Enter the IP address for the COM interface. Enter IP subnetwork mask in dotted decimal notation: Enter the subnetwork mask for the COM interface IP address. Is the router connected to the same local area network as the Site Manager workstation? (y/n) [n]: y(es) n(o) Press the Return key.
Using Local Boot (the Quick-Start Procedure) Global Information Worksheet (continued) Step Requested Information Options 6 Do you want to enable TI TELNET (y/n) [n]: y(es) n(o) Your Response Enabling TELNET is optional. 7 Do you wish to save this configuration to a file? (y/n) [y] y(es) n(o) Press the Return key. Enter filename [startup.cfg]: We recommend using the default filename. Press the Return key.
Installing and Operating BayStack ARN Routers OSPF Worksheet Requested Information Options Enter OSPF router ID in dotted decimal notation: Enter an IP address to uniquely identify the router in the OSPF domain. The router provides the IP address of the COM port. Your Response We suggest using the default IP address. Enter the OSPF area ID in dotted decimal notation [0.0.0.0]: Enter the area ID. This ID must match the area ID of the router’s neighbor. Note: The backbone area ID is always 0.0.0.0.
Using Local Boot (the Quick-Start Procedure) OSPF Worksheet (continued) Requested Information Options Enter OSPF interface type selection [1]: 1. 2. 3. 4. 5. Your Response Broadcast NBMA Point-to-Point Point-to-Multipoint (Proprietary) Point-to-Multipoint (Per OSPF Standard) Note: When using a wide area protocol other than Bay Networks Proprietary PPP, we suggest selecting NBMA.
Installing and Operating BayStack ARN Routers OSPF Worksheet (continued) Requested Information Options Enter decimal value in seconds for Poll Interval [20]: Enter the largest number of seconds allowed between Hello packets that the router sends to an inactive NBMA neighbor. (For NBMA only) Your Response The router suggests a 20-second interval. Enter IP address of neighbor in dotted decimal notation or enter q to quit: Enter addresses for all NBMA neighbors you want the router to communicate with.
Using Local Boot (the Quick-Start Procedure) Static Route to Site Manager Worksheet (continued) Requested Information Options Follow the default route for unknown subnets? (y/n) [n]: y(es) n(o) Your Response The default route does not apply for subnets unless you enter y at this prompt. Wide Area Protocol Worksheets This section contains requested information and possible options relating to wide area protocol choices on the Global Worksheet.
Installing and Operating BayStack ARN Routers Bay Networks Proprietary PPP Worksheet (continued) Requested Information Options Enter Remote Address selection [3]: 1. DCE 2. DTE 3. EXPLICIT Your Response Note: Reverse local and remote address values when configuring the device at the other end of the circuit. (Exception: When connecting to a Series 5 router that uses DCE/DTE addressing, use the SAME local address value.
Using Local Boot (the Quick-Start Procedure) PPP Standard Worksheet Requested Information Options Enter Remote IP address in dotted decimal notation: Enter the IP address of the peer connection. Do you wish to turn on the PPP echo function? (y/n) [n]: y(es) n(o) Enable PAP (Password Authentication Protocol)? (y/n) [n]: y(es) n(o) Your Response Note: If you answer y(es), the router requests a PAP ID and password for this interface.
Installing and Operating BayStack ARN Routers PPP Standard Worksheet (continued) Requested Information Options Enable use of the Remote Peer router’s LQR Timer? (y/n) [y]: y(es) n(o) (For LQR Protocol only) Note: If the LQR timer is enabled, the remote peer router maintains its own LQR timer for this interface. When the LQR timer is disabled, the AN is responsible for maintaining the timer for this interface.
Using Local Boot (the Quick-Start Procedure) SMDS Worksheet Requested Information Options Enter 10-digit individual address: Enter the individual address assigned to you by your SMDS service provider. Enter 10-digit group address: Enter the group address assigned to you by your SMDS service provider. Enter 10-digit arp address: Enter the Address Resolution Protocol (ARP) address assigned to you by your SMDS service provider. Your Response Running the Quick-Start Script You run the inst_arn.
Installing and Operating BayStack ARN Routers 5. Type the following command and press the return key: run inst_arn.bat 6. Follow the script online, using your worksheets when responding to its prompts. Refer to the list of commands in Table B-2. Table B-2. Quick-Start Commands Task Action Details Accept a default value Press return Your console displays default values in brackets; for example, [E11].
Using Local Boot (the Quick-Start Procedure) 7. Name and save the configuration file. The script begins to test the configuration on the new IP interface (Figure B-2). Testing local IP interface ping -IP 192.32.00.000 -r5 IP ping: 192.32.00.000 is IP ping: 192.32.00.000 is IP ping: 192.32.00.000 is IP ping: 192.32.00.000 is IP ping: 192.32.00.
Appendix C Technical Specifications This appendix provides technical specifications and a product overview of the ARN and its interface options. This appendix lists • • • Physical, electrical, and environmental specifications Hardware communications options BayStack ARN configurations Physical Specifications The dimensions and weight of the ARN are as follows: • • • • Height: 2.8 in. (7.1 cm) Width: 17.25 in. (43.8 cm) Depth: 12.5 in. (31.8 cm) Weight: 15 lb (6.
Installing and Operating BayStack ARN Routers If you are installing your ARN in an electronic enclosure rack, make sure that the rack meets the following specifications: • • • • Heavy-duty steel construction Electronic Industries Association (EIA) standard hole-spacing Width of 19 in. (48.26 cm) Depth of 24 in. (60.96 cm) Electrical Specifications Your installation site must meet the following power requirements: • • • Proximity to wall receptacle: within 6 ft (1.
Technical Specifications Hardware Communications Options The ARN is designed to scale to your needs. In addition to either an Ethernet or token ring base module, you can add an optional expansion and up to two optional adapter modules to the ARN.
Installing and Operating BayStack ARN Routers Table C-2 describes each interface. Table C-2. Network Interface Ethernet and Second Ethernet Network Interfaces Available on ARNs Description Supports the Ethernet and IEEE 802.3 standards that provide LAN connectivity. The ARN can have up to two Ethernet interfaces -- one on the base module and one on an expansion module. The Ethernet interfaces on both the base module and expansion module include a 10Base-T and an 802.
Technical Specifications Note: Refer to the Cable Guide for Routers and BNX Platforms for the proper cables or cable pinouts to use for each interface type. Ethernet Attachment Unit Interface (AUI) The ARN Ethernet base module, Ethernet expansion module, and Ethernet/tri-serial expansion modules contain a 10Base-T standard 802.3 AUI DB-15 receptacle with a slide lock. Note: The AUI is designed only for connection to a transceiver.
Installing and Operating BayStack ARN Routers Ethernet 10Base-T Interface The Ethernet 10Base-T interface provides UTP support. Table C-4 identifies the pin locations and function assignments for the 10Base-T interface. Table C-4. Pin Assignment 12345678 C-6 10Base-T Interface Pin Assignments Pin No.
Technical Specifications Token Ring STP Interface The token ring STP interface provides shielded twisted-pair support. The ARN token ring base module, token ring expansion module, and token ring/tri-serial expansion modules contain this standard 802.5 DB-9 receptacle. Table C-5 shows the pin assignments for the standard 9-pin STP receptacle on the ARN base or expansion module and identifies its pin locations. Table C-5. Token Ring STP Interface Pin Assignments Pin Assignment Pin 1 Pin 6 114200 Rev.
Installing and Operating BayStack ARN Routers Token Ring UTP Interface The token ring UTP interface provides unshielded twisted-pair support. The ARN token ring expansion module, and token ring/tri-serial expansion modules contain this receptacle. Table C-6 shows the RJ-45 pin assignments for the UTP interface and identifies the pin locations. Table C-6. Token Ring UTP Interface Pin Assignments Pin Assignment 12345678 Pin No.
Technical Specifications • RS-232 connections Order No. 7826 • RS-530 connections Order No. AE0018012 Table C-7 shows the signal and pin assignments for these connectors. Table C-7. Serial Interface Pin Assignments Pin Assignment Pin 15 Pin 1 Pin 30 Pin 16 Pin 44 Pin 31 114200 Rev. A Pin No. Signal Name Pin No.
Installing and Operating BayStack ARN Routers ISDN BRI U Interface The ARN supports the BRI standard for ISDN using an optional ISDN/BRI adapter module. The integrated ISDN BRI functionality allows you to connect directly to the ISDN network, through a U interface, as opposed to connecting over a terminal adapter. This solution reduces equipment costs and simplifies connection to an ISDN switch. The BRI implementation supports two dial service applications: dial-on-demand and dial backup.
Technical Specifications ISDN BRI S/T Interface The ARN supports the BRI standard for ISDN using an optional ISDN/BRI adapter module. The integrated ISDN BRI functionality allows you to connect to the ISDN network over a terminal adapter through an S/T interface. The BRI implementation supports two dial service applications: dial-on-demand and dial backup. Configuring Dial Services describes these services and how to configure them for connection to an ISDN network.
Installing and Operating BayStack ARN Routers 56/64K DSU/CSU Interface The ARN supports DSU/CSU connectivity using an optional DSU/CSU adapter module. The integrated DSU/CSU functionality allows you to connect directly to a dataphone digital service (DDS) line. This solution reduces equipment costs and simplifies connection to a wide area network. Table C-10 lists the DSU/CSU interface pin assignments. Table C-10. Pin Assignment 12345678 C-12 DSU/CSU Interface Pin Assignments Pin No.
Technical Specifications RJ-11 Interface (for V.34 Modem) The ARN supports a V.34 modem connection using an optional V.34 modem adapter module. The V.34 functionality allows you to connect directly to a phone line, as opposed to connecting over an external modem. This solution reduces equipment costs and simplifies connection to a wide area network. Table C-11 lists the V.34 interface pin assignments. Table C-11. Pin Assignment 123456 V.34 Interface Pin Assignments Pin No.
Installing and Operating BayStack ARN Routers The connector pin assignment described in Table C-12 shows signal and pin assignments for the console port. Table C-12. Local Console Port DB-9 Pin Assignments Pin Assignment Pin 1 Pin 9 Pin No.
Technical Specifications The connector pin assignment described in Table C-13 shows signal and pin assignments for the modem port. Table C-13. Service Modem Port DB-9 Pin Assignments Pin Assignment Pin 1 Pin 9 114200 Rev. A Pin No.
Appendix D Requirements for European Operation This appendix provides information required for operating the ARN in Europe, cabling requirements for synchronous (serial) connection, and information about using the serial adapter module (Order No. CV0004001) and ISDN BRI adapter module (Order No. CV0004002) in Europe. ARN Ethernet Base Model Safety Status Table D-1 lists the safety status of interconnection points to the connection of other equipment. Table D-1. 114200 Rev. A Safety Status (Order Nos.
Installing and Operating BayStack ARN Routers ARN Token Ring Base Model Safety Status Table D-2 lists the safety status of interconnection points to the connection of other equipment. Table D-2. Safety Status (Order Nos. CV1101001, CV1101002, CV1101003, CV1101004, CV1101005) Port Location Port Description Type of Circuit MAU Token Ring SELV Console V.
Requirements for European Operation Synchronous Cabling Requirements Refer to Figures D-1 through D-3 and Tables D-4 through D-6 for serial interface cabling information. Note the following compliance requirements: • • • V.28 compliance requires an Order No. 7837 cable. V.35 compliance requires an Order No. 7220 cable. X.21 compliance requires an Order No. 7224 cable.
Installing and Operating BayStack ARN Routers Table D-4. WAN Interface (Order No.
Requirements for European Operation Table D-5. V.35 Interface (Order No.
Installing and Operating BayStack ARN Routers 15 Feet Pin 1 Pin 15 Pin 16 Pin 30 Pin 31 Pin 44 Pin 1 Pin 8 Pin 9 Pin 15 15-position D-Sub plug with locking posts (ground shield connected to backshell) 44-position D-Sub plug with screw locks (ground shield connected to backshell) CAB0068A Figure D-3. Cable 7224 (X.21 Compliant) Table D-6. X.21 Interface (Order No.
Requirements for European Operation Serial Adapter Module Requirements The Serial Adapter module (Order No. CV0004001) is approved only for installation in a host, and with host attachments, which are either type approved for such apparatus or, if supplied after 1st March 1989, are marked with or supplied with a statement that the host is supplied under the terms of General Approval Number NS/G/1234/J/100003. Installation of the Serial Adapter module in any BayStack ARN chassis (Order Nos.
Installing and Operating BayStack ARN Routers ISDN BRI Adapter Module Requirements The ISDN BRI Adapter module (Order No. CV0004002) is approved only for installation in a host, and with host attachments, which are either type approved for such apparatus or, if supplied after 1st March 1989, are marked with or supplied with a statement that the host is supplied under the terms of General Approval Number NS/G/1234/J/100003. Installation of the ISDN BRI module in any BayStack ARN chassis (Order Nos.
Requirements for European Operation Power Requirements for ISDN BRI and Serial Adapter Modules The ISDN BRI and serial adapter modules obtain power from the host chassis and have the power requirements shown in Table D-10. Table D-10. ISDN BRI Power Requirements Voltage Amperage +5 V 1A +12 V 0.15 A -12 V 0.15 A The power drawn from the host chassis combined with that required for any other cards and accessories must be within the power rating of the host chassis.
Installing and Operating BayStack ARN Routers ISDN Module Typical host chassis X Y X Y Baseboard SELV cards AN0060A D-10 Figure D-4. Clearance and Creepage Distances for ISDN BRI and Serial Adapter Modules Table D-11. Clearance and Creepage Distances for ISDN BRI and Serial Adapter Modules Clearance (X) Creepage (Y) Voltage used or generated by other parts of the host or expansion card 2.0 mm 2.4 (3.8) mm Up to 50 V rms or V dc 2.6 mm 3.0 (4.8) mm Up to 125 V rms or V dc 4.0 mm 5.0 (8.
Requirements for European Operation The creepage distances apply to the normal office environment. When the local environment within the host chassis is subject to conductive pollution or dry nonconductive pollution that could become conductive due to condensation, the creepage distances shown in parentheses in Table D-11 apply.
Index Symbols 10Base-T interface, connecting to, 1-12 pin assignments, C-6 A adapter modules connecting to DSU/CSU interfaces, 1-18 ISDN interfaces, 1-17 serial interfaces, 1-16 V.34 interface, 1-19 DSU/CSU LEDs, 3-7 interface options, 1-10, C-3 ISDN LEDs, 3-7 locating, 1-9 serial LED, 3-6 V.
Installing and Operating BayStack ARN Routers InfoFACTS service, xxix Proprietary PPP protocol, worksheet for, B-11 publications, ordering, xxiv Standard protocol, A-2 support programs, xxvi Support Source CD, xxviii Technical Response Center, xxv, xxix technical support, xxv B-channel #1 (B1) LED, 3-7 B-channel #2 (B2) LED, 3-7 bconfig command default netboot settings, A-8 described, 2-12 directed netboot, A-8 examples, A-8 format, A-7 local boot, A-8 using, A-7 boot command directed netboot, 2-13 local bo
Index command line interface choice of, 2-6 logging in to, 2-7 CompuServe, Bay Networks forum on, xxviii config file default boot location, 2-4 defined, 2-1 local booting with, 2-15 using local, B-15 configuring DSU/CSU interfaces, A-2 Ethernet interfaces, A-4 serial interfaces, A-2 token ring interfaces, A-5 connecting 10Base-T cables, 1-12 AUI cables, 1-11 communications cables, 1-10 to 1-20 DSU/CSU cables, 1-18 Ethernet cables, 1-10 to 1-12 ISDN cables, 1-17 management console cables, 1-20 to 1-23 modem
Installing and Operating BayStack ARN Routers DSU/CSU cables, connecting, 1-18 interfaces adapter module, 1-10 configuring, A-2 connecting to, 1-18 pin assignments, C-12 LEDs, 3-7 token ring interface STP, 1-9 UTP, 1-9 token ring LEDs, 3-5 EZ Install described, 2-2 requirements, 2-2, 2-5 using, 2-5 E F electrical specifications, C-2 electronic enclosure rack installing in, 1-6 specifications, 1-4, C-2 environmental specifications, C-2 Ethernet base module LEDs, 3-4 interface types 10Base-T, 1-9 AUI, 1-9
Index H hardware for rack-mounting, 1-6 module options, C-3 requirements, 1-4 Hayes modem, 1-24 See also modem HDLC encapsulation, A-2 heat dissipation, requirements for preventing, 1-5, C-1 I ifconfig command defined, 2-8 disabling interfaces with, A-6 enabling interfaces with, A-6 examples, A-6 using, A-1 to A-6 image, specifying location of, A-7 InfoFACTS service, xxix insert (NSRT) LED, 3-4, 3-5 inst_arn.
Installing and Operating BayStack ARN Routers expansion module Ethernet, 3-5 serial, 3-6 token ring, 3-5 startup sequence, 3-9 LMI, Frame Relay, A-2 local boot attaching a console for, 1-20 attaching a modem for, 1-24 bconfig command, A-8 defined, 2-2 requirements, 2-6 starting, B-15 using, 2-6 to 2-14, 2-15 to 2-17 local file system mounting, B-15 viewing, 2-16 login procedures, 2-7 M management console cables See console cable, modem cable memory card format command, 1-28 installing, 1-28 memory testing,
Index power cables, 1-27 specifications, C-2 switch, 3-10 Power (Pwr) LED, 3-3 powering on the ARN, 3-10 PPP protocol, Bay networks proprietary, B-11 PPP wide area protocol, worksheet for, B-13 preparing for installation, 1-2 to 1-8 Q Quick-Start procedure commands, B-16 inst_arn.
Installing and Operating BayStack ARN Routers European, D-1 to D-11 physical, C-1 Standard protocol, Bay Networks, A-2 startup options, displaying, A-8 STP cables, connecting, 1-13 interfaces connecting to, 1-13 pin assignments, C-7 Support Source CD, xxviii switch power, 3-10 read/write memory, 3-13 synchronous. See serial T Technician Interface, local booting with, 2-15 terminal console, connecting to, 1-21 terminal.