Switch User's Guide

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CSX400 AND CSX400-DC

USER’S GUIDE

Summary of content (275 pages)

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CSX400 AND CSX400-DC USER’S GUIDE
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Notice Cabletron Systems reserves the right to make changes in specifications and other information contained in this document without prior notice. The reader should in all cases consult Cabletron Systems to determine whether any such changes have been made. The hardware, firmware, or software described in this manual is subject to change without notice.
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Notice VCCI Notice This is a Class A product based on the standard of the Voluntary Control Council for Interference by Information Technology Equipment (VCCI). If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions. Cabletron Systems, Inc. Program License Agreement IMPORTANT: Before utilizing this product, carefully read this License Agreement.
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Notice Exclusion of Warranty and Disclaimer of Liability 1. EXCLUSION OF WARRANTY. Except as may be specifically provided by Cabletron in writing, Cabletron makes no warranty, expressed or implied, concerning the Program (including its documentation and media).
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Notice DECLARATION OF CONFORMITY Application of Council Directive(s): Manufacturer’s Name: Manufacturer’s Address: European Representative Name: European Representative Address: Conformance to Directive(s)/Product Standards: Equipment Type/Environment: 89/336/EEC 73/23/EEC 91/263/EEC Cabletron Systems, Inc. 35 Industrial Way PO Box 5005 Rochester, NH 03867 Mr. J.
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Contents CHAPTER 1 INTRODUCTION Related Documentation .................................................................................. 1 How to Use This Guide ................................................................................... 1 Document Conventions................................................................................... 3 Getting Help ....................................................................................................
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Contents CHAPTER 3 ISDN LINE ORDERING AND CONFIGURATION Arranging ISDN Service ................................................................................ 23 Telephone Switch Support ............................................................................ 24 ISDN BRI Line Configuration ........................................................................ 24 ISDN BRI Configurations ........................................................................
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Contents CSX-COMP/ENCR Installation ..................................................................... 62 Installing the CSX400.................................................................................... 63 Tabletop and Shelf Installations ............................................................. 63 CSX400 and CSX400-DC Rackmount Installation ................................. 64 Connecting the CSX400 to the Power Source ..............................................
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Contents CHAPTER 8 GENERAL CONFIGURATION USING LOCAL MANAGEMENT Chapter Organization .................................................................................. 125 Local Management Overview...................................................................... 126 Management Agent .............................................................................. 126 Local vs. Remote Management ............................................................ 126 Local Management Screen Elements..............
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Contents Bridge Setup Screen ................................................................................... 149 Bridge Setup Screen Fields .................................................................. 149 Selecting a Spanning Tree Protocol ..................................................... 150 Selecting the Bridge Port Administrative Status ................................... 150 Selecting the Bridge Port Pair Administrative Status............................ 151 Router Setup Screen............
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Contents CHAPTER 10 TROUBLESHOOTING Troubleshooting CSX400 Hardware ........................................................... 208 Power (PWR) LED is OFF .................................................................... 208 Processor (CPU) LED is OFF............................................................... 208 Processor (CPU) LED is RED .............................................................. 208 Troubleshooting the LAN ........................................................................
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Contents APPENDIX B WPIM CABLE SPECIFICATIONS WPIM-T1 ..................................................................................................... 223 WPIM-SY .................................................................................................... 225 EIA-449................................................................................................. 226 V.35 ...................................................................................................... 227 EIA-232..........
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Contents xii CSX400 and CSX400-DC User’s Guide
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1 Introduction Welcome to the Cabletron Systems CSX400 and CSX400-DC User’s Guide. This guide provides basic configuration information, hardware specifications and troubleshooting tips for the CSX400 and CSX400-DC. This guide also provides background information about 10BASE-T Ethernet Local Area Networks (LANs) and guidelines for routing and bridging over Wide Area Networks (WANs). NOTE The CSX400 and CSX400-DC have identical features and functions with the exception of their power source connection.
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Introduction Chapter 3, ISDN Line Ordering and Configuration, provides the information you need to order ISDN service from the telephone company. Chapter 4, Planning for CSX400 ISDN Configuration, describes the router configuration process. Chapter 5, Ethernet Cabling Requirements, describes the basic cabling requirements for an Ethernet Local Area Network (LAN). Chapter 6, Installation, provides detailed installation instructions for attaching the CSX400 and CSX400-DC to a network.
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Introduction Document Conventions The following conventions are used throughout this guide: NOTE Note symbol. Calls the reader’s attention to any item of information that may be of special importance. Tip symbol. Conveys helpful hints concerning procedures or actions. TIP Caution symbol. Contains information essential to avoid damage to the equipment. ! CAUTION Electrical Hazard Warning symbol. Warns against an action that could result in personal injury or death due to an electrical hazard.
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Introduction Getting Help If you need additional support related to this device, or if you have any questions, comments, or suggestions concerning this manual, contact the Cabletron Systems Global Call Center: Phone (603) 332-9400 Internet mail support@ctron.com FTP Login Password ctron.com (134.141.197.
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2 About the CSX400 The CSX400 (Figure 1) is an access device that provides Ethernet Local Area Network (LAN) connectivity via two Ethernet Port Interface Modules (EPIMs), and offers high-speed Wide Area Network (WAN) access to remote sites via two WAN Port Interface Modules (WPIMs). The CSX400 supports IEEE 802.
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About the CSX400 • The WPIM-Sync provides a synchronous serial connection of up to 2.048 Mbps to external communications equipment (e.g., a multiplexer or CSU/DSU). The WPIM-Sync uses a subminiature 26-pin connector that supports the electrical signal interfaces listed below. Appendix B, provides complete part number and cable pinout information for the following electrical signal interfaces: • EIA-RS449 • V.35 • EIA-RS232D • X.
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About the CSX400 • The WPIM-T1/DDS provides both a T1 and DDS interface that allows you to easily switch between the two interfaces by changing the physical cabling and reconfiguring QuickSET for the desired interface. The WPIM-T1/DDS has the capabilities of both the WPIM-T1 and WPIM-DDS. Ethernet LAN Connection The CSX400 provides 10 Mbps Ethernet/IEEE 802.3 support through two Cabletron Systems Ethernet Port Interface Modules (EPIMs), which are available in a variety of media types.
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About the CSX400 Optional Features Rack Mounting Capabilities — The CSX400 can be installed in a 19-inch rack with the included mounting brackets and screws. Refer to Chapter 6 Installation, for complete rack mounting instructions.
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About the CSX400 WAN Protocols This device supports the following WAN protocols over the WAN port: • Point-to-Point Compression Control Protocol (CCP) as defined by RFC 1962 • Inverse Multiplexing (IMUX) • Dynamic Host Configuration Protocol (DHCP) as defined by RFC 1541 • Network Address Translation (NAT) routing as defined by RFC 1631 • Point-to-Point Protocol (LCP) as defined by RFC 1661 • Point-to-Point Protocol (BNCP) as defined by RFC 1638 • Point-to-Point Protocol (IPCP) as defined by R
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About the CSX400 Firmware Data Compression The STAC Electronics Stacker LZS Compression algorithm provides a minimum of 2:1 firmware data compression for the CSX400 over PPP and Frame Relay. Firmware data compression is supported in software on each WAN interface for line speeds of up to 256 Kbps. per WPIM, which is equivalent to four DS0 channels.
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About the CSX400 HDLC Cabletron Systems has provided the High-level Data Link Control (HDLC) protocol which is used in conjunction with the Inverse Multiplexing (IMUX) feature and the WPIM-HDSL to conserve a user’s WAN bandwidth between two Cabletron Systems products, over a point-to-point connection. Cabletron Systems products such as the CSX400, CSX200, and HSIM-W6 must be in use on both ends of the WAN link for these functions to work.
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About the CSX400 The NAT method allows several DHCP clients on a sub network to connect to WAN clients by allowing the DHCP clients to share a single public IP address. When the CSX400 uses NAT, the NAT method modifies the IP headers and addresses, and the selected fields in upper layer protocol headers. This is done to replace the hidden local IP addresses from the sub network with one or more public InterNic assigned IP addresses that can be sent over the outside network on the CSX400 WAN interfaces.
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About the CSX400 In half-duplex operation, the authenticator device challenges the peer device by generating a CHAP challenge, and the challenge contains an MD5 algorithm with a random number that has your encrypted password and system name. The peer device then applies a one-way hash algorithm to the random number and returns this encrypted information along with the system name in the CHAP response. The authenticator then runs the same algorithm and compares the result with the expected value.
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About the CSX400 ISDN ISDN provides an inexpensive switched digital access to remote sites. The ISDN BRI standard provides for two high speed 64 Kbps bearer (B) channels used for voice or data connections and one 16 Kbps signaling data (D) channel used for call setup, signaling and other information. ISDN allows all types of information to be transmitted including voice, data, fax and video. Multiple devices can be linked to a single ISDN connection, each having their own telephone number.
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About the CSX400 ISDN Back-up The ISDN back-up feature provides a back-up link for a remote site or branch office when one or more primary WAN interfaces for a frame relay circuit or a nailed-up PPP connection fails. The WPIM-S/T serves as the backup medium for this primary connection. The WPIM-S/T uses the ISDN interfaces to back-up any primary interfaces which have been configured for ISDN back-up.
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About the CSX400 HDSL High-bit rate Digital Subscriber Line (HDSL) technology uses existing copper twisted pair cables designed for conventional analog voice transmission from a telephone carrier servicing area as a low-cost alternative to the quality and speed of fiber optic cables, and provides high-speed full-duplex digital transmission links of up to 1.544 Mbps.
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About the CSX400 Routing — Routing provides a way to transfer user data from source to destination over different LAN and WAN links using one or more network protocol formats. Routing relies on routing address tables to determine the best path for each packet. Routing tables can be seeded (i.e., addresses for remote destinations are placed in the table along with network address masks and a metric for path latency). Routing tables are also built dynamically (i.e.
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About the CSX400 Bridging and Routing Protocol Filtering Filtering is used to allow efficient usage of network resources and provide security for your network and hosts. IP Internet Firewall — The CSX400 supports IP Internet Firewall filtering to prevent unauthorized access to your system and network resources from the Internet or a corporate Intranet. Security can be configured to permit or deny IP traffic.
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About the CSX400 read-write — This access level allows editing of some device configuration parameters not including changing system passwords. super-user — This access level allows full management privileges. At this level you must access the CSX400 to run QuickSET. Simple Network Management Protocol (SNMP) The CSX400 provides SNMP agent support for the following: standard and Enterprise Specific Management Information Bases (MIBs), and support for standard and Enterprise Specific SNMP Traps.
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About the CSX400 Cabletron Enterprise MIBs Cabletron Enterprise MIBs include the following: CTWAN-MIB, CTMIB2-EXT-MIB, CTDOWNLOAD-MIB, CTBRIDGE-MIB, RREV-4-MIB, CTROUTER-MIB, CTFAULT-MIB, CTIP-MIB, CHASSIS-MIB, CTNETDIAG-MIB, IP-MIB, IPX-MIB, CTDEFAULT-MIB, CTNAT-MIB.TXT, CTDHCP-MIB.TXT, CTWAN-IMUX-MIB, CTISDN-DIALCONTROL-MIB, CTISDN-DCHANNEL-MIB, and CTISDN-REMOTEPROFILE-MIB. SNMP Trap Support SNMP Traps are notifications of network events sent by an SNMP compliant device to an SNMP management station.
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About the CSX400 • IP Framing Type has been changed on interface # • IP has detected Link UP on interface # • IP has detected Link DOWN on interface # • IP Primary address has been changed on interface # • IP Secondary address has been changed on interface # • IP Access Control Lists have been enabled on interface # • IP Access Control Lists have been disabled on interface # • IP has detected Port UP (WAN devices only) • IP has detected Port DOWN (WAN devices only) • IP Proxy ARP has bee
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About the CSX400 • IPX has detected Port DOWN (WAN devices only) • IPX RIP has been enabled on interface # • IPX RIP has been disabled on interface # • IPX SAP has been enabled on interface # • IPX SAP has been disabled on interface # Software and Firmware Upgrades Software and Firmware upgrades can be performed remotely through the Windows-based QuickSET utility application. Refer to Chapter 7 for QuickSET instructions.
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3 ISDN Line Ordering and Configuration This chapter provides ISDN BRI (Basic Rate Interface) line ordering and configuration information. It contains the following sections: • Arranging ISDN Service • Telephone Switch Support • ISDN BRI Line Configuration • SPIDs, Directory Numbers and Telephone Numbers • Telephone Switch Parameters Read the first section in this chapter for an overview of the steps required to order ISDN service from your service provider (telephone company).
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ISDN Line Ordering and Configuration Telephone Switch Support Your telephone company may offer a variety of ISDN switch types. You must contact your service provider and find out which type of ISDN service is available. The following switch types are currently supported by the CSX400 within the U.S.: • National ISDN 1 (NI-1) • AT&T 5ESS with Custom Software • DMS-100 Outside of the U.S.
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ISDN Line Ordering and Configuration In the U.S. and Canada, Network Terminator equipment (NT1) is required to provide an interface between the CSX400 and the ISDN line. The NT1 offers conversion between the two-wire twisted pair (U-loop interface) used by telephone companies and the four-wire terminal equipment (S/T Interface) as well as line-testing capabilities. External Network Terminator equipment comes with a power supply (built-in or external).
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ISDN Line Ordering and Configuration Service Profile Identifiers SPIDs, also assigned by the ISDN service provider, identify the services and features that the telephone company switch provides to the ISDN device. Commonly implemented in the U.S. and Canada, the SPID is often derived from the directory number, combined in a series with other digits. SPIDs are not generally implemented outside the U.S. and Canada.
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ISDN Line Ordering and Configuration Table 1 National ISDN 1 (NI-1) (Continued) ISDN Switch Parameters Value CSD Limit 2 CA Pref 1 EKTS No Nail Up None Table 2 AT&T 5ESS with Custom Software ISDN Switch Parameters Value B1 Circuit Switched Data & Voice B2 Circuit Switched Data & Voice D Signaling Only Multipoint No Terminal Type A Display Off TEI Dynamic MTERM 1 MAXB CHL 2 ACT USR Y CSD 2 CSD CHL Any CSD Limit 2 CA Pref 1 Nail Up None CSX400 and CSX400-DC User’s Gui
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ISDN Line Ordering and Configuration Table 3 DMS-100 ISDN Switch Parameters Value B1 Circuit Switched Data & Voice B2 Circuit Switched Data & Voice D Signaling Only EKTS No Ringing Indicator No Release Key No PVER 01 TEI Dynamic MAXKEYS 64 Nail Up None 28 CSX400 and CSX400-DC User’s Guide
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4 Planning for CSX400 ISDN Configuration This chapter explains the CSX400 ISDN-BRI configuration process and terminology. It also describes the information that is required for configuration. Configuration Process and Terminology During configuration, you specify information identifying the CSX400 and define the LAN and WAN connections of the CSX400. All of the remote routers to which this device may connect are added to a database called the remote router database that resides in the CSX400.
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Planning for CSX400 ISDN Configuration Collect Network Information Before you begin, you need to obtain information about the network to which you are adding the CSX400. Some of the information is obtained from your central site or remote site network administrator. Other information is obtained from your ISDN service provider. You must define the name and security password of the CSX400, ISDN line information and the Ethernet LAN IP and/or IPX address.
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Planning for CSX400 ISDN Configuration ISDN Line Information You need to know the telephone switch type and phone numbers associated with the ISDN line. The telephone switch types supported are listed in Telephone Switch Support. The service provider gives you up to three sets of numbers for identifying the ISDN line and attached devices. You may be assigned none, one or two SPIDs or DNs and this varies by service provider and country.
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Planning for CSX400 ISDN Configuration Network Information Diagrams It is helpful to draw a diagram including all locations, addresses, router names, etc. This section includes diagrams needed to configure the CSX400. You may need different addressing information depending on whether you are configuring IP routing and/or NetWare IPX routing. NOTE The diagrams show the information required to configure only the CSX400.
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Planning for CSX400 ISDN Configuration TCP/IP Route Addresses — If the CSX400 is to direct traffic to networks or stations beyond the remote router, the routing table in the CSX400 can be “seeded” with static IP routes. An IP route includes an IP address, subnet mask and metric. The metric is a number representing the perceived cost in reaching the remote network or station.
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Planning for CSX400 ISDN Configuration If the remote router supports unnumbered mode, neither address needs to be specified. Figure 6 provides a simple example of an unnumbered mode configuration. WAN LINK REMOTE ROUTER NO SOURCE IP ADDRESS NO REMOTE IP ADDRESS 100_11 CSX400 Figure 6 CSX400 in Unnumbered Mode For numbered mode, consider the capabilities of the remote router as well as your requirements. Specify a Source WAN IP address if the CSX400 must be on the same subnetwork as the remote router.
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Planning for CSX400 ISDN Configuration Specify a Remote WAN IP Address if the remote router does not support IP address negotiation under PPP (i.e., does not have a pre-assigned IP address as shown in Figure 8). WAN LINK 128.1.1.2 255.255.255.0 REMOTE ROUTER *SOURCE IP ADDRESS **REMOTE IP ADDRESS 100_13 CSX400 128.1.129.1 255.255.255.0 *SPECIFY SOURCE IP ADDRESS IF IT MUST BE ON SAME SUBNETWORK AS THE REMOTE ROUTER. **SPECIFY REMOTE IP ADDRESS IF REMOTE ROUTER DOES NOT HAVE A PRE-ASSIGNED IP ADDRESS.
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Planning for CSX400 ISDN Configuration NetWare IPX Routing — An Ethernet LAN IPX network number is required for the CSX400 local Ethernet LAN connection. The ISDN WAN link to each remote router must have an assigned IPX network number. IPX Routes and IPX SAPs for each remote router are also required for the configuration process. Figure 9 provides an example of the network layout for IPX routing.
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Planning for CSX400 ISDN Configuration IPX Routes — If the CSX400 is to direct traffic to network segments and servers beyond the remote router, the routing table in the CSX400 can be “seeded” with static IPX routes. An IPX route includes a network number, hop count and ticks. The hop count is the number of routers through which traffic must pass to reach the remote network segment or server. Ticks represent how much time the packet takes to reach the destination in roughly 1/18th of a second increments.
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Planning for CSX400 ISDN Configuration Node Numbers — Servers can have internal and external node numbers. The internal node number is a logical number assigned by the system administrator to the server. The external node number is the MAC address of the server. When adding SAP services to the SAP table, internal node numbers are used. Network Information Tables The following tables list the items you need to define or obtain to configure the router.
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Planning for CSX400 ISDN Configuration Table 4 Configuring System Settings (Continued) Configuration Section Item Description ISDN Line Numbers (supplied by the service provider) SPIDs and Directory Numbers for one or two ISDN B-Channels Type of Telco switch NTT Nippon Telegraph/Telephone KDD Kokusai Denshin Denwa Co.
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Planning for CSX400 ISDN Configuration Table 5 Configuring the Remote Router Database (Continued) Remote Router Configuration Database TCP/IP Route Addresses IPX Routes IPX SAPs Item Description IP Address, Subnet Mask, and Metric IP Address, Subnet Mask of the remote network beyond the remote router; specifies metric for calculating route efficiency. Remote WAN IP Address and Subnet Maska IP Address and Subnet Mask of the Remote Router’s end of the WAN link.
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Planning for CSX400 ISDN Configuration Table 6 Bridging and Routing Controls Bridging/Routing Configuration Database Bridging/Routing Item Description Remote Bridging Destination Destination dialed when bridging any outbound data traffic (required for outbound bridging) TCP/IP Routing TCP/IP routing to all destinations On or Off NetWare IPX Routing IPX routing to all destination On or Off Internet Firewall Internet Firewall active or not CSX400 and CSX400-DC User’s Guide 41
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Planning for CSX400 ISDN Configuration Sample Configuration A sample configuration of a hypothetical network is provided in this section. Figure 10 depicts a small office (FP2) accessing a central site (FP3) via an ISDN link. The small office also has access to Internet through an Internet Service Provider (ISP). The small office and central site have IP routing with a Class B addressing scheme and IPX routing. Bandwidth-on-demand is configured for accessing central site FP3.
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Planning for CSX400 ISDN Configuration : Table 7 CSX400 Sample Configuration Settings Configuration Section Item Setting System Settings Router Name FP2 Message Configured_Mar_1996 Dial Authentication Password/Secret FP2passwd ISDN SPID#1 40855511111 ISDN SPID#2 ISDN 40855511122 Directory Number #1 DN1 5551111 ISDN Directory Number #2 ISDN DN2 5551112 Switch Type DMS-100 System Settings Dial Authentication Password System Settings ISDN Settings System Settings Ethernet IP Address Eth
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Planning for CSX400 ISDN Configuration Table 8 Remote Router: FP3 Configuration Section Remote Router Database Dial Settings Remote Router Database Dial-In Security Remote Router Database Bridging Remote Router Database TCP/IP Route Addresses Item Setting ISDN Phone #1 5551113 ISDN Phone #2 5551114 Disconnect Timer Value 60 Maximum Links 2 Minimum Links 0 Threshold 75 Bandwidth Direction BOTH Minimum Authentication Remote Router’s Password/Secret NONE Bridging On/Off ON Spanning Tree
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Planning for CSX400 ISDN Configuration Table 8 Remote Router: FP3 (Continued) Configuration Section Remote Router Database NetWare IPX Routes Remote Router Database Item Setting IPX Address: Network Number, Hop Count and Ticks 1001 1 4 SAPs: Server Name, Server Type, Network Number, Node Number and Sockets Serv312_fp 4 WAN Network Number 00-00-00-00-00-01 1001 NetWare IPX SAPs 451 789 a. Used only in PPP numbered mode of addressing b.
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Planning for CSX400 ISDN Configuration Table 9 Remote Router: ISP (Internet Service Provider) (Continued) Configuration Section Item Setting Remote RouterDatabase Bridging Bridging On/Off Bridging OFF Spanning Tree Protocol OFF Remote Network’s IP Addresses, Subnet Masks, and Metrics 0.0.0.0 255.255.255.
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Planning for CSX400 ISDN Configuration Table 10 Bridging and Routing Controls Configuration Section Item Setting Bridging and Routing Default Remote Bridging Destination FP3 TCP/IP Routing On/Off ON NetWare IPX Routing On/Off ON Internet Firewall On/Off ON Names and Passwords Example In the sample configuration provided in Table 11, a small office FP2 communicates with a central site FP3 and an Internet Service Provider ISP.
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Planning for CSX400 ISDN Configuration Table 11 Router Names and Passwords System Name: FP2 Router System Name: FP3 Router System Password System Password FP2passwd Remote Router Database Remote Router FP3 Remote’s Password FP3passwd Remote Router ISP Remote’s Password ISPpasswd FP3passwd Remote Router Database Remote Router FP2 Remote’s Password FP2passwd System Name: ISP Router System Password ISPpasswd Remote Router Database Remote Router FP2 Remote’s Password 48 CSX400 and CSX400-DC User
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5 Ethernet Cabling Requirements This chapter contains general networking guidelines. Before attempting to install the CSX400 or any additional EPIMs or WPIMs, review the requirements and specifications outlined in this chapter. NOTE Your network installation must meet the conditions, guidelines, specifications, and requirements included in this chapter to ensure satisfactory performance of this equipment. Failure to follow these guidelines may result in poor network performance.
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Ethernet Cabling Requirements 10BASE-T Twisted Pair Network When connecting a 10BASE-T segment to either of the CSX400 Ethernet interfaces (Twisted Pair Ethernet Port Interface Module [EPIM-T]), ensure that the network meets the following requirements: Length — The IEEE 802.3 10BASE-T standard requires that 10BASE-T devices transmit over a 100 meter (328 foot) link using 22–24 AWG unshielded twisted pair wire. However, cable quality largely determines maximum link length.
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Ethernet Cabling Requirements Noise — Crosstalk, or externally induced impulses, can cause noise. Impulse noise may cause data errors if the impulses occur at very specific times during data transmission. Generally, noise is not a concern. If you suspect noise-related data errors, you may need to reroute the cable or eliminate the source of the impulse noise. Temperature — Multi-pair PVC 24 AWG telephone cables typically have an attenuation of approximately 8–10 dB/100 m at 20°C (68°F).
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Ethernet Cabling Requirements Budget and Propagation Delay — When you determine the maximum fiber optic cable length to incorporate fiber runs into the network, calculate and consider the fiber optic budget (a total loss of 11.0 dB or less is permissible between stations) and total network propagation delay. To determine the fiber optic budget, combine the optical loss due to the fiber optic cable, in-line splices, and fiber optic connectors.
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Ethernet Cabling Requirements Length — If your network meets all system budgets, the maximum single mode fiber optic cable length can reach 5 km (3.1 miles) with bridges or switches at each segment end. The FOIRL specifies a maximum of 1 km (0.62 miles).
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Ethernet Cabling Requirements 54 CSX400 and CSX400-DC User’s Guide
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6 Installation This chapter outlines the procedure for attaching the CSX400 to the network. Ensure that the network meets the guidelines and requirements outlined in Chapter 5, Ethernet Cabling Requirements, before installing the CSX400. To install the HSIM and WPIMs, you need the following items: • Antistatic wrist strap (provided with the CSX400) • Phillips screwdriver Unpacking the CSX400 Unpack the CSX400 as follows: 1. Remove the shipping material from the box and carefully remove the CSX400. 2.
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Installation • In a shelf installation, the shelf must be able to support 13.6 kg (30 lb) of static weight for each device on the shelf. • Maintain a temperature of between 5°C (41°F) and 40°C (104°F) at the installation site with fluctuations of less than 10°C (50°F) per hour. • Maintain a two-inch clearance for each side and the back of the device for adequate ventilation.
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Installation To install an EPIM, perform the following steps: ! When removing an existing EPIM, make sure to pull the module straight out to avoid damaging the connector. CAUTION 1. Attach the disposable grounding strap to your wrist (refer to the instructions outlined on the disposable grounding strap package). 2. Remove the coverplate or the existing EPIM (whichever applies). 3.
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Installation Removing the CSX400 Cover This section describes how to remove the CSX400 chassis cover. The cover must be removed to install a WAN Port Interface Module. ! CAUTION DO NOT REMOVE THE COVER FROM THE CSX400 WHILE POWER IS APPLIED TO THE UNIT. DO NOT POWER UP THE DEVICE AGAIN UNTIL THE COVER AND SCREWS ARE IN PLACE. DECKEL VON DAS CSX400 NICHT ABZIEHEN UNTER SPANNUNG. CSX400 NICHEINSCHALTEN SO LANG DER DECKEL UND SCHRAUBEN NICHT EINGEBAUT SIND.
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Installation Removing the CSX400-DC Cover This section describes how to remove the CSX400-DC chassis cover. The cover must be removed to install a WAN Port Interface Module (WPIM). ! Do not remove the cover from the CSX400-DC while power is applied to the unit. Do not power up the device again until the cover and screws are in place. CAUTION To remove the chassis cover, proceed as follows: 1. Disconnect the CSX400-DC from the network as follows: a.
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Installation Installing WAN Port Interface Modules (WPIMs) ! Before performing installation procedures, ensure that the requirements outlined in the section, Guidelines for Installations, are met. CAUTION To install a WPIM into the CSX400, refer to Figure 13 and complete the following steps: ! When removing an existing WPIM, make sure to pull the module straight out to avoid damaging the connector. CAUTION 1.
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Installation WPIM Screws WPIM Connector WPIM WPIM Connector Pins Standoffs Figure 13 Installing WPIMs CSX400 and CSX400-DC User’s Guide 61
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Installation CSX-COMP/ENCR Installation This section contains instructions on how to install the CSX-COMP/ENCR into the CSX400 motherboard. To help eliminate any potential problems during or after installation, read and understand all of the following steps: 1. Attach one end of the antistatic wrist strap to your wrist and the other end to an approved electrical ground. 2. Unpack the CSX-COMP/ENCR by carefully removing it from the shipping box and then from the protective plastic bag.
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Installation Standoff Screws D-Type Connector Pins D-Type Connector CSX-COMP/ENCR Standoff Detail 2204N01 Figure 14 CSX-COMP/ENCR Installing the CSX400 The CSX400 may be installed on a tabletop, shelf or in a 19-inch rack. Refer to Tabletop and Shelf Installations for information concerning a tabletop or shelf installation. CSX400 and CSX400-DC Rackmount Installation describes the rackmount installation.
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Installation 2. Peel the paper backing off the round rubber feet, and adhere them to the bottom of the CSX400. Place one rubber foot near each of the four corners of the CSX400, and evenly space the remaining two near the center. 21 IN. 18 IN. 16 IN. Figure 15 Tabletop or Shelf Installation Continue the installation by connecting power as described in Connecting the CSX400-DC to the Power Source.
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Installation Materials Required The following parts are included with the CSX400: • Left (P/N 8501242-01) and right (P/N 8501241-01) rackmount brackets (Figure 16). • 6-32 x 1/4 inch flat-head screws (4) ! Do not use screws other than those supplied with the CSX400 to perform the following procedures.
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Installation 3. Using the four 6-32 x 1/4 inch flat-head screws, attach the rackmount brackets to the sides of the CSX400 as shown in Figure 17. Rackmount Brackets (2) Screws (4) 2012_09 Figure 17 Installing the Rackmount Brackets 4. Position the CSX400 between the vertical frame members of the 19-inch rack. 5. Fasten the CSX400 with mounting screws as shown in Figure 19.
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Installation 4. Locate the four 6-32 x 3/8-inch flathead cover replacement screws in the rackmount kit. Use these screws to attach the rackmount brackets to the CSX400-DC as shown in Figure 18. Rackmount Brackets (2) Remove Paint Figure 18 Installing the Rackmount Brackets 5. Position the CSX400 between the vertical frame members of the 19-inch rack. 6. Fasten the CSX400-DC with thread-forming screws as shown in Figure 19.
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Installation Connecting the CSX400 to the Power Source NOTE The CSX400 has a universal power supply. This allows you to connect the CSX400 to power sources of 100–125 and 200–240 Vac, 50/60 Hz. To connect the CSX400 to the power source, perform the following steps: 1. Plug the power cord into the back panel of the CSX400. 2. Plug the other end of the power cord into a grounded wall outlet. 3. Verify that the PWR LED is on, indicating that the CSX400 is receiving power.
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Installation Connecting the CSX400-DC to the Power Source Th CSX400-DC requires either a 48 Vdc or 60 Vdc (48/60 Vdc), 3.5 A (maximum), external power source supplied by three 18 AWG (American Wire Gauge) copper wires. These wires must be terminated to the dc input power strip shown in Figure 20 with either ring or spade terminals. The dc power supply in the CSX400-DC has its own on/off switch and is rated at 100 watts.
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Installation DC Input Power Strip ON/OFF 48 or 60 Vdc Power Source + – Earth Ground Figure 20 48/60 Vdc Power Supply Connections To prevent injury or damage to the equipment, remove power from the 48/60 Vdc power source before proceeding with the following steps: 1. Connect the ground terminal of the dc input power strip to an appropriate earth ground (green wire from power supply). 2. Refer to Figure 20 for the proper connections to a 48/60 Vdc power source.
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7 CSX400 Configuration with QuickSET This chapter provides step-by-step instructions for configuring the CSX400 using QuickSET. \ NOTE Before configuring the device, you must set up your computer based on the READ ME FIRST! documentation included with the product and installed the CSX400 using the QuickSTART Guide located in the QuickSET CD case. Normally, QuickSET automatically establishes a communication link with the CSX400 being configured.
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CSX400 Configuration with QuickSET Enter the IP address of the CSX400 in the appropriate field and the password if applicable (the default password is public). Click on the OK button and QuickSET locates the CSX400 on the network and displays the First Introductory window shown in Figure 22. NOTE The QuickSET version number shown on each window in this chapter may not reflect the QuickSET version number running on your system.
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CSX400 Configuration with QuickSET Figure 23 The Second Introductory Window Click on the Next>> button and go to the Ethernet 1 and 2 configuration window to continue the CSX400 configuration.
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CSX400 Configuration with QuickSET Ethernet Configuration This section explains how to configure the CSX400 Ethernet 1 and 2 fields using QuickSET. Ethernet 1 and 2 Configuration Window The Ethernet 1 and 2 configuration window, shown in Figure 24, displays after clicking on the Next>> button in the Second Introductory window. The Local Ethernet IP address and Subnet Mask fields shown on the Ethernet 1 and 2 configuration window are used for setting an IP address and Subnet Mask.
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CSX400 Configuration with QuickSET This section describes each of the fields on the Ethernet 1 and 2 configuration window. Local Ethernet 1 IP Address — Displays the IP address for Ethernet interface 1. Place the cursor in this field and type the preferred IP address in Dotted Decimal Notation (DDN) format. The IP address must be entered in this field to continue. Local Ethernet 1 Subnet Mask — The Subnet Mask takes the same form as an IP address; four groups of three decimal digits, separated by periods.
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CSX400 Configuration with QuickSET Secondary IPs — The Secondary IPs window shown in Figure 25 displays after clicking on the Secondary IPs... button, and shows the list of current Secondary IP addresses. The CSX400 can support multiple IP Subnets, therefore, there can be multiple Secondary IP Addresses assigned to an Ethernet interface. To add a Secondary IP address, click on the Add IP button and enter the IP Address, and Subnet Mask in their corresponding fields.
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CSX400 Configuration with QuickSET System Passwords — The System Passwords window shown in Figure 26 displays after clicking on the Passwords button in the Ethernet 1 and 2 configuration window. The system passwords used by QuickSET are the same as the Community Names of the device that are used in Local Management through a TELNET application. System passwords allow you to control management access by establishing three passwords. Each password controls varying levels of access to the CSX400 management.
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CSX400 Configuration with QuickSET The following definitions explain the fields in the System Passwords window shown in Figure 26. Read Only Access — This access level allows reading of device parameters not including system passwords. Place the cursor in this field and type the new system password. Retype the system password in the Confirm Password field below the Read Only Access field.
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CSX400 Configuration with QuickSET Wide Area 1 and 2 Configuration NOTE When configuring WAN interfaces 1 and 2 with QuickSET, the Wide Area configuration window that displays corresponds to the specific WPIM that is installed into the CSX400. NOTE Configuration for the Wide Area 2 interface is the same as the configuration for the Wide Area 1 interface. Both Wide Area 1 and Wide Area 2 slots must be populated to initiate Wide Area interface 2 configuration.
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CSX400 Configuration with QuickSET Wide Area T1 Configuration Window The Wide Area T1 configuration window shown in Figure 27 displays after clicking on the Next>> button in either the Ethernet 1 and 2 configuration window or the Wide Area Frame Relay Time Slot and PPP configuration windows, depending on whether you have installed one or two WPIMs in the CSX400, and in what order you are configuring them.
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CSX400 Configuration with QuickSET This section explains how to configure the CSX400 Wide Area T1 interface using QuickSET. NOTE The service provider (i.e., AT&T, Sprint, MCI, etc.) determines the settings for many of the following fields. Consult the service provider for the correct settings. The line configuration information shown in Table 12 must be supplied by your service provider. The CSX400 factory default settings are in bold.
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CSX400 Configuration with QuickSET T1 Loop-Back — Network Loopback is a testing procedure that segments the line and allows you to isolate faults. The selections for this field are No Loop and Line Loop. In Line Loop all 24 channels are looped back to the T1 line. The CyberSWITCH must be in Loop-Timing mode to use this option. The default setting is No Loop. T1 Transmit Clock Source — Displays the T1 Transmit Clock Source.
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CSX400 Configuration with QuickSET Wide Area E1 Configuration Window The Wide Area (E1) configuration window shown in Figure 28 displays after clicking on the Next>> button in either the Ethernet 1 and 2 configuration window or the Wide Area Frame Relay Time Slot and PPP configuration windows, depending on whether you have installed one or two WPIMs in the CSX400, and what order you are configuring them. This section explains how to configure the CSX400 E1 WAN interface using QuickSET.
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CSX400 Configuration with QuickSET The line configuration information shown in Table 13 must be supplied by your service provider. The CyberSWITCH factory default settings are in bold type.
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CSX400 Configuration with QuickSET Once the E1 WAN configuration is complete, click on the Next>> button and go to the Wide Area Frame Relay Time Slot Configuration Window or Wide Area PPP Time Slot Configuration Window section, depending on which protocol you are using.
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CSX400 Configuration with QuickSET The line configuration information shown in Table 14 must be supplied by your service provider. The CyberSWITCH factory default settings are in bold. Table 14 Telco Configuration Information Configuration Information Required by User Configuration Information Supplied by Service Provider T1 Frame Type ESF or D4 T1 Line BuildOut 0dB, -7.
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CSX400 Configuration with QuickSET T1 Line BuildOut — Displays the signal level for the physical DI line. Set this to 0 dB unless the service provider recommends another setting. The default setting for this field is 0 dB. Click on the appropriate radio button for the following levels: • 0 (Zero) dB • -7.5 dB • -15 dB T1 Line Coding — Displays the line coding for the physical DI line. The selections toggle between B8ZS and AMI. The default setting for this field is B8ZS.
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CSX400 Configuration with QuickSET Wide Area Synchronous Configuration Window The Wide Area Synchronous configuration window shown in Figure 30 displays after clicking on the Next>> button in either the Ethernet 1 and 2 configuration window or the Wide Area Frame Relay Time Slot and PPP configuration windows, depending on whether you have installed one or two WPIMs in the CSX400, and in what order you are configuring them.
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CSX400 Configuration with QuickSET The line configuration information shown in Table 15 is determined by your service provider. The CSX400 factory default settings are in bold. Table 15 Telco Configuration Information Configuration Information Required by User Configuration Information Supplied by Service Provider Sync Port Type V.35, RS422, RS232 or X.
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CSX400 Configuration with QuickSET Sync Clock Speed — Displays your configured receive clock speed. The default setting for this field is 64000 bits per second. The information necessary for you to set this field is normally determined by the service provider. Select the down arrow button to make your selection from the list of clock speeds using the information provided by your service provider (if it is not listed, type the value in).
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CSX400 Configuration with QuickSET Wide Area DDS Configuration Window The Wide Area DDS configuration window shown in Figure 31 displays after clicking on the Next>> button in the Ethernet 1 and 2 configuration window or the Wide Area Frame Relay Time Slot and PPP configuration windows, depending on whether you have installed one or two WPIMs in the CSX400, and the order in which you are configuring them. This section explains how to configure the CSX400 Wide Area DDS interface using QuickSET.
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CSX400 Configuration with QuickSET Table 17 shows the line configuration information normally determined by your service provider. The CSX400 factory default settings are in bold.
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CSX400 Configuration with QuickSET Wide Area HDSL Configuration Window The Wide Area HDSL configuration window shown in Figure 32 displays after clicking on the Next>> button in the Ethernet 1 and 2 configuration window or the PPP-HDSL configuration window. This section explains how to configure the CSX400 Wide Area HDSL interface using QuickSET. Figure 32 Wide Area HDSL Configuration Window NOTE The wiring provider (i.e., Internet Service Provider (ISP) contractor, etc.
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CSX400 Configuration with QuickSET Table 18 shows the line configuration information normally determined by your wiring provider. The CSX400 factory default setting is in bold. Table 18 Telco Configuration Information Configuration Information Required by User Configuration Information Supplied by Service Provider HDSL Transmit Clock Source Slave or Master This section describes the fields in the Wide Area HDSL configuration window. HDSL Transmit Clock Source — Displays the HDSL Transmit Clock Source.
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CSX400 Configuration with QuickSET Wide Area Frame Relay Time Slot Configuration Window The Wide Area Frame Relay Time Slot configuration window shown in Figure 33 displays when you click on the Next>> button in the Wide Area T1, E1, or DI configuration windows when Frame Relay is chosen as the WAN Protocol. Figure 33 Wide Area Frame Relay Time Slot Configuration Window The following section defines the fields in the Wide Area Frame Relay Time Slot configuration window.
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CSX400 Configuration with QuickSET NOTE If you are configuring a WPIM-DI Time Slot table, any available Time Slots that are not checked are mapped to the DI Interface. In other words, If you lease an entire T1 line, any Time Slots that are not selected in the Frame Relay configuration window are used by the device connected to the DI interface. Once the Wide Area Frame Relay Time Slot configuration is complete, click on the Next>> button, and go to the Bridging and Routing Configuration section.
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CSX400 Configuration with QuickSET The following section defines the Time Slots field in the Wide Area PPP Time Slot configuration window. Time Slots — A full line consists of 24 Time Slots (T1 and DI) or 31 Time Slots (E1) that are each capable of up to 64 Kbps throughput. Using the PPP Protocol, up to 24 interfaces (T1 and DI) or 31 interfaces (E1) can be assigned to the WAN link.
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CSX400 Configuration with QuickSET Wide Area HDSL Time Slot Configuration Window The Wide Area HDSL Time Slot configuration window shown in Figure 35 displays when you click on the Next>> button in the Wide Area HDSL configuration window. Figure 35 Wide Area HDSL Time Slot Configuration Window The following section defines the Time Slots field in the Wide Area HDSL Time Slot configuration window. Time Slots — A full line consists of 24 Time Slots, each capable of up to 64 Kbps throughput.
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CSX400 Configuration with QuickSET Once the Wide Area HDSL Time Slot configuration is complete, click on the Next>> button, and go to the Bridging and Routing Configuration window. Bridging and Routing Configuration Once all the necessary network information is collected for the WAN, the CSX400 can be configured for inverse multiplexing or bridging and/or routing.
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CSX400 Configuration with QuickSET This section describes the fields in the first Bridging and Routing configuration window. Inverse Mux (Multiplex) Configuration — This function lets you balance your LAN traffic between two T1 WAN ports, and is used with Point to Point Protocol (PPP) or HDLC protocol. QuickSET automatically sets the WAN Frame Type to Encapsulated Ethernet when you use the Inverse Mux configuration.
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CSX400 Configuration with QuickSET Firewall Configuration Window The Firewall configuration window shown in Figure 37 displays after clicking on the Firewall... button in the first Bridging and Routing configuration window. The Firewall configuration window is used to configure an Access Control List (ACL), and to allow or deny specified IP addresses to communicate through the CSX400.
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CSX400 Configuration with QuickSET Figure 37 Firewall Configuration Window The following definitions explain the fields in the Firewall configuration window. NOTE The Add Firewall button clears the fields in the Firewall configuration window, allowing you to type in the fields as necessary. The Apply Changes button adds the newly entered filter to the Access Control List. ACL (Access Control List) — The Access Control List number is a number assigned to a specific list of sequence numbers.
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CSX400 Configuration with QuickSET Source IP — The Source IP field displays the IP address of the source device accorded the permissions set in the permissions field. To set permissions for a source device, place the cursor in the Source IP field and type the IP address of the source that you wish to set permissions. Source Mask — Displays the mask for the Source IP address specified in the Source IP field.
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CSX400 Configuration with QuickSET Port — Enter the port number in this field to create an access control filter that applies only to traffic for a specific TCP or UDP service. Table 19 and Table 20 supply a list of the standardized TCP and UDP port numbers. Table 19 TCP Services Port Numbers TCP Services Port # TCP Services Port # FTP (File Transfer Protocol) -data 20 Host Name (NIC Host Name Server) 101 FTP 21 X.400 Mail Service 103 TELNET (Terminal Connection) 23 X.
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CSX400 Configuration with QuickSET Bridging and Routing (WAN Frame Type) Configuration Window The second Bridging and Routing (WAN Frame Type) window shown in Figure 38 displays after clicking on the Next>> button at the bottom of the first Bridging and Routing configuration window. This window is used to select a WAN Frame Type for each interface.
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CSX400 Configuration with QuickSET To change the WAN Frame Type information, scroll through the list of interface entries, and select the interface number you wish to modify by pressing the arrow button on the left side of the Interface # field and press the Modify... button. The WAN Frame Type window displays.
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CSX400 Configuration with QuickSET Routing Configuration Window The (IP/IPX) Routing configuration window shown in Figure 40 displays after clicking on the Next>> button in the second Bridging and Routing (WAN Frame Type) configuration window. Figure 40 Routing Configuration Window This section describes the fields in the (IP/IPX) Routing configuration window. Refer to the IP Routing Configuration section to configure the CSX400 for IP routing.
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CSX400 Configuration with QuickSET IP Routing Configuration This section describes the fields in the IP Routing Configuration section of the Routing configuration window. Interface # — Displays an interface number assigned an IP subnet. Remote LAN Subnet — Displays the IP subnet assigned to the interface number. Subnet Mask — Displays the Subnet Mask assigned to the interface number.
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CSX400 Configuration with QuickSET Host Map Window The Host Map window shown in Figure 41 displays after clicking on the Host Map... button in the (IP/IPX) Routing configuration window. Host Map entries are used for IPX routing using Frame Relay Protocol only. The IPX Host Map is a database of remote IPX hosts, defined (generally) by the WAN Network number and MAC Address, and (more specifically) by the Interface Number and Data Link Connection Identifier (DLCI).
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CSX400 Configuration with QuickSET Remote MAC Address — Displays the remote Ethernet MAC address. Use this field to enter the remote MAC address of the device on the other end of the WAN link. Apply Changes — Use this button to add the configured Host Map entry to the IPX Host Map list. Add Host/Delete Host — These buttons allow you to add or delete a host and to configure the CSX400 to forward only those packets from the specified host. Use these buttons to add or delete an entry in the Host Map.
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CSX400 Configuration with QuickSET Advanced Routing Configuration Window The Advanced Routing configuration window shown in Figure 42 displays after you click on the Advanced button in the (IP/IPX) Routing configuration window. Use this window to enable RIP routing, configure a Dynamic Host Configuration Protocol (DHCP) server on the CSX400, set an IP address for a remote DHCP server, or set up Network Address Translation.
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CSX400 Configuration with QuickSET Advanced IP Routing Settings This section describes the fields for the Advanced IP Routing Settings of the Advanced Routing configuration window. Interface # — Displays the active interface number. Local WAN IP Address — Set this value only if you are going to use numbered mode. In numbered mode, the Local WAN IP address is the IP address of the WAN link leading into the Telco control office. A Subnet Mask is required for this IP address before you can use this link.
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CSX400 Configuration with QuickSET DHCP Settings Configuration Window The DHCP Settings configuration window shown in Figure 44 displays after clicking on the DHCP Server... button in the Advanced Routing configuration window. The DHCP Settings configuration window is used to configure the DHCP settings for the CSX400.
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CSX400 Configuration with QuickSET The following definitions explain the fields in the DHCP Settings configuration window: DHCP Server is Enabled — Check this box to allow the CSX400 to act as a DHCP server. DHCP IP Address Pool — A set of contiguous IP addresses that can be assigned by the CSX400 to devices requesting an IP address. Default Gateway — A location to send any packets that are not assigned to your subnet. Subnet Mask — The subnet mask for the default gateway (automatically set).
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CSX400 Configuration with QuickSET NAT Settings Configuration Window The Network Address Translation (NAT) Settings configuration window shown in Figure 45 displays after clicking on the NAT Settings... button in the Advanced Routing configuration window. The NAT Settings configuration window is used to set up Network Address Translation on Ethernet ports 1 and 2.
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CSX400 Configuration with QuickSET The following definitions explain the fields in the NAT Settings configuration window. Ethernet address translation to Interface # — This pull-down menu is used to disable (OFF) or enable NAT for an interface number. To enable NAT click the pull-down menu button and select an interface number to run NAT through. Add Proxy... — Allows you to add NAT proxy servers. Click the Add Proxy... button and an Add NAT Proxy Server window (Figure 46) will appear.
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CSX400 Configuration with QuickSET QuickSET Pull-Down Menus The File, Firmware Upgrade and Advanced Configuration QuickSET pull-down menus allow you to store and restore configurations, initiate TFTP/BootP Services, and configure Compression and Congestion Settings for your CSX400. File Menu This section describes the pull-down menu options from the File menu as shown in Figure 47.
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CSX400 Configuration with QuickSET Store Configuration — The Store Configuration window shown in Figure 48 displays after clicking on the File pull-down menu and selecting Store Configuration at the top of any QuickSET configuration window. The Store Configuration window stores the entire CyberSWITCH configuration to a file name and drive that you specify.
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CSX400 Configuration with QuickSET Firmware Upgrade Menu This section describes the pull-down menu option available from the Firmware Upgrade menu as shown in Figure 50.
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CSX400 Configuration with QuickSET TFTP/BootP Services — The TFTP/BootP Services window shown in Figure 51 displays after clicking on the Firmware Upgrade pull-down menu and selecting TFTP/BootP Services at the top of any QuickSET configuration window. The TFTP/BootP Services window allows you to access a TFTP (Trivial File Transfer Protocol) server or BootP server to download the latest version of CSX400 firmware.
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CSX400 Configuration with QuickSET This section describes the modifiable fields of the TFTP /BootP Services window: IP Address — The IP Address field shows the IP Address of the CSX400 to which you are upgrading the firmware. Community — The Community field allows you to enter the password of your CSX400. Gateway IP Address — Use the Gateway IP Address field to enter the IP Address of the server acting as a gateway between the CSX400 and the TFTP server.
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CSX400 Configuration with QuickSET Advanced Configuration Menu This section describes the pull-down menu options available from the Advanced Configuration menu as shown in Figure 52.
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CSX400 Configuration with QuickSET Compression and Congestion Window The Compression and Congestion window shown in Figure 53 displays after you click on the Advanced Configuration pull-down menu and select Compression & Congestion at the top of any QuickSET configuration window. Figure 53 Compression and Congestion Window The Compression and Congestion window allows you to enable data compression on each interface.
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CSX400 Configuration with QuickSET The following defines the fields in the Compression and Congestion window. Interface — Displays the available, pre-configured interface numbers. Compression — Displays the status of data compression for a specific interface. Options for this field are either on (box shows a check mark) or off.
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8 General Configuration Using Local Management This chapter explains how to access and manage the CSX400 and its attached segments through a TELNET connection. A general working knowledge of basic network operations and an understanding of management applications is helpful prior to using Cabletron Systems Local Management.
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General Configuration Using Local Management IPX Configuration Screen describes how to configure the CSX400 for IPX routing functions. WAN Setup describes how to configure the CSX400 for a Wide Area Network (WAN) interface. NOTE If you have a WPIM-HDSL installed in your CSX400, refer to the WAN Setup section of this chapter for configuration information. For all other WPIMs, refer to your specific WPIM(s) Local Management Guide for information on this screen.
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General Configuration Using Local Management Local Management Screen Elements There are five basic field elements shown in the Local Management screen in Figure 54. EVENT MESSAGE FIELD DISPLAY FIELDS INPUT FIELDS SELECTION FIELDS SAVED OK Flash Image Version XX.XX.XX Local Management SYSTEM LEVEL System Date: 01/23/96 Host IP Address Subnet Mask Phys Address COM 1 Application: COM 2 Application: System Time: 14:23:00 000.000.000.000 255.255.0.
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General Configuration Using Local Management The following list explains each of the basic Local Management screen fields: Event Message Field — This field briefly displays messages that indicate if a Local Management procedure was executed correctly or incorrectly, that changes were saved or not saved to Non-Volatile Random Access Memory (NVRAM), or that a user did not have access privileges to an application. Table 21 describes the most common event messages.
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General Configuration Using Local Management Local Management Keyboard Conventions All key names in this manual display as capital letters. For example, the ENTER key displays as ENTER, the Escape key displays as ESC, and the Backspace key displays as BACKSPACE. Table 22 explains the keyboard conventions used in this manual as well as the key functions. Table 22 Keyboard Conventions Key Function ENTER and RETURN These selection keys perform the same Local Management function.
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General Configuration Using Local Management Navigating Within Local Management Screens To navigate within a Local Management screen, use the arrow keys of the terminal or the workstation providing terminal emulation services. The Local Management screen cursor responds to the LEFT-ARROW, RIGHT-ARROW, UP-ARROW, and DOWN-ARROW keys. Each time you press an arrow key, the Local Management screen cursor moves to the next available field in the direction of the arrow key.
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General Configuration Using Local Management 3. Repeat steps 1 and 2 until the Main Menu screen displays. 4. Use the arrow keys to highlight the EXIT command at the bottom of the Main Menu screen. 5. Press ENTER. The CSX400 Local Management Password screen displays and the Local Management session ends. Establishing a TELNET Connection The CSX400 is shipped with a temporary IP Address of 192.168.254.
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General Configuration Using Local Management Accessing Local Management This section explains how to access and use the Local Management menu screens. Menu screens provide a path to the setup screens and status screens. Using the Menu Screens Once you have accessed the CSX400 through a TELNET connection, the CSX400 Password screen, shown in Figure 56, displays. CSX400 Local Management CABLETRON Systems, Incorporated P.O.
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General Configuration Using Local Management • If you enter an invalid password, the cursor returns to the beginning of the password entry field. • If no activity occurs for several minutes, the Password screen displays again, ending your current session. You must reenter the password to perform Local Management tasks. Main Menu Screen The Main Menu screen is the starting point from which all the Local Management screens are accessed. Figure 57 shows the Main Menu screen.
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General Configuration Using Local Management Setup Menu Screen The Setup Menu screen provides access to the Local Management screens that are used to configure the CSX400. Examples of functions accessible through the Setup Menu include configuring the host IP address and Subnet Mask, assigning the SNMP community names, and configuring the SNMP trap notification. Figure 58 shows the Setup Menu. HSIM-W6 Local Management Flash Image Version XX.XX.
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General Configuration Using Local Management Flash Download — The Flash Download screen allows you to download a firmware image from a TFTP server to the CSX400. Bridge Setup — The Bridge Setup screen allows you to select a Spanning Tree protocol and enable/disable switch ports.
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General Configuration Using Local Management Access the System Level screen (Figure 59) from the Setup Menu screen by using the arrow keys to highlight the System Level option and pressing ENTER. The System Level screen displays. CSX400 Local Management Flash Image Version XX.XX.XX SYSTEM LEVEL System Date: Host IP Address Subnet Mask Phys Address 12/30/97 System Time: 14:23:00 0.0.0.0 255.255.0.
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General Configuration Using Local Management Subnet Mask — This field displays the default Subnet Mask, and allows you to enter a new value for the Subnet Mask if necessary. Subnets are logical divisions of the network that isolate groups of devices. The Subnet Mask determines how the CSX400 directs SNMP traps to a management workstation. If the CSX400 resides on the same network as the management workstation, then the CSX400 sends SNMP traps directly to the management workstation.
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General Configuration Using Local Management Setting the System Date The CSX400 is year 2000 compliant so that the System Date field can be set beyond the year 1999. To set the system date, perform the following steps: 1. Use the arrow keys to highlight the System Date field. 2. ENTER the date in an MM/DD/YY YY format. NOTE When entering the date in the system date field, you do not need to add separators between month, day, and year numbers, as long as each entry uses two decimal numbers.
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General Configuration Using Local Management Setting the Host IP Address To set the host IP address, perform the following steps: 1. Use the arrow keys to highlight the Host IP Address field. 2. Enter the IP address using Decimal Dotted Notation (DDN) format. For example: 134.141.25.17 3. Press ENTER. If the IP address entered was a valid format, the cursor returns to the beginning of the Host IP Address field.
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General Configuration Using Local Management 2. ENTER the IP address of the Default Gateway using DDN format. For example: 134.141.79.121 3. Press ENTER. If the Default Gateway address entered was a valid format, the cursor returns to the beginning of the Default Gateway field. If the entry was not valid, the Event Message field displays “INVALID DEFAULT GATEWAY OR FORMAT ENTERED”. Local Management does not alter the current value and refreshes the Default Gateway field with the previous value. 4.
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General Configuration Using Local Management SNMP Community Names Screen This section explains how to assign community names. Community names allow you to control Local Management access by establishing three passwords. Each password controls varying levels of access to CSX400 Local Management. Access the SNMP Community Names screen, shown in Figure 60, from the Setup Menu screen by using the arrow keys to highlight the SNMP Community Names option and pressing ENTER.
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General Configuration Using Local Management Community Name — Displays the user-defined names through which a user accesses the CSX400 Local Management. Any community name entered here acts as a password to Local Management. Access Policy — Indicates the access status accorded each community name. Possible status conditions are: read-only — This access level allows reading of device parameters not including community names.
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General Configuration Using Local Management SNMP Traps Screen The SNMP Traps screen, shown in Figure 61, allows the user to configure the CSX400 to send traps to as many as eight remote management workstations. SNMP traps are messages about network events and device operational statistics. Access the SNMP Traps screen from the Setup Menu screen by using the arrow keys to highlight the SNMP Traps option and pressing ENTER. The SNMP Traps screen displays. CSX400 Local Management Flash Image Version: XX.
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General Configuration Using Local Management Enable Traps — Use this field to enable the transmission of SNMP traps to the management workstation. Setting the SNMP Trap Destination Each management workstation designated to receive SNMP traps from the CSX400 must have a valid IP address and community name. To set and enable SNMP trap destination, perform the following steps: 1. Use the arrow keys to highlight the Trap Destination field that you want to modify. 2.
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General Configuration Using Local Management Flash Download Screen The Flash Download screen allows you to download a firmware image from a TFTP server to the CSX400. Access the Flash Download screen from the Setup Menu screen by using the arrow keys to highlight the Flash Download option and pressing ENTER. The Flash Download screen, shown in Figure 62, displays. NOTE Flash download operations require a properly named download file and a properly configured download server.
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General Configuration Using Local Management • Reboot After Download — This field displays when the RUNTIME Download Method is chosen. Selecting YES forces the CSX400 to reboot and use the new firmware image immediately. Selecting NO allows the CSX400 to continue using the existing firmware image without interrupting network operation. • Commit to Flash — This field displays when the BOOTPROM Download Method is chosen.
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General Configuration Using Local Management RUNTIME Download If you select RUNTIME Download, perform the following steps: 1. Use the arrow keys to highlight the Reboot After Download field. 2. Press the SPACE bar or BACKSPACE to select one of the following: • YES, if you want the CSX400 to reboot and use the new firmware image immediately. • NO, if you want the CSX400 to continue using the existing firmware image without interrupting network operation.
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General Configuration Using Local Management 5. Use the arrow keys to highlight the Download File Name field. 6. Type the complete path and filename of the new image file to be downloaded. You must include all directories and subdirectories involved in accessing the file. Type the new entry over the previous entry. For example: c:\images\cyberswitch\11011.hex. 7. Press ENTER. 8. Use the arrow keys to highlight the TFTP Gateway Server IP field. 9. Enter the IP address of the TFTP gateway server. 10.
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General Configuration Using Local Management Bridge Setup Screen The Bridge Setup screen enables you to select a Spanning Tree protocol and enable/disable bridge ports. Access the Bridge Setup screen, shown in Figure 63, by using the arrow keys to highlight the Bridge Setup option and pressing ENTER. The Bridge Setup screen displays. CSX400 Local Management Flash Image Version: XX.XX.XX BRIDGE SETUP SPANNING TREE PROTOCOL: [IEEE 802.
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General Configuration Using Local Management Bridge_Port X — Use this command field to select the CSX400 bridge port you want to configure. Selecting a Spanning Tree Protocol To select the Spanning Tree protocol to be used by the CSX400, perform the following steps: 1. Use the arrow keys to highlight the SPANNING TREE PROTOCOL field. 2. Press the SPACE bar or BACKSPACE to select [IEEE 802.1], [DEC], or [NONE]. 3. Use the arrow keys to highlight the SAVE command field. 4. Press ENTER.
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General Configuration Using Local Management Selecting the Bridge Port Pair Administrative Status To select the bridge port pair administrative status, perform the following steps: 1. Use the arrow keys to highlight the [BRIDGE_PORT XX] field at the bottom of the Bridge Setup screen. 2. Press the SPACE bar or BACKSPACE to select the bridge port you want to configure. The selected bridge port displays in the Bridge Port Pair Admin Status field. 3.
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General Configuration Using Local Management Router Setup Screen The Router Setup screen allows you to choose either IP or IPX routing for your CSX400. Access the Router Setup screen, shown in Figure 64, by using the arrow keys to highlight the ROUTER SETUP menu item in the Setup Menu and pressing ENTER. The Router Setup screen displays. HSIM-W6 Local Management Flash Image Version XX.XX.
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General Configuration Using Local Management IP Configuration Screen The IP Configuration screen enables you to access the IP General Config and IP RIP screens to configure the CSX400 for IP Routing and enable RIP on the CSX400. Access the IP Configuration screen, shown in Figure 65, by using the arrow keys to highlight the IP menu item on the Router Setup screen and pressing ENTER. The IP Configuration screen displays. CSX 400 Local Management Flash Image Version XX.XX.
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General Configuration Using Local Management IP General Config Screen The IP General Config screen allows you to configure the CSX400 for IP routing. Access the IP General Config screen by using the arrow keys to highlight the IP General Config menu item and pressing ENTER. The IP General Config screen shown in Figure 66 displays. CSX 400 Local Management Flash Image Version XX.XX.XX IP General Config Router Name: IP Version: XX.XX.
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General Configuration Using Local Management AdminStatusTime — Displays the amount of time elapsed since an IP address was assigned to the CSX400. UDP Type — Displays the User Datagram Protocol (UDP) Service to which the selected UDP Port number corresponds. Description — Describes the selected Port. MAC Address — Displays the physical (MAC) address of the CSX400. Interf. Type — Displays the type of interface used by the specified port. Oper Status — Displays the operational status of the selected port.
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General Configuration Using Local Management Selecting a Port for Configuration Routing Services allows you to choose the ports that you want to configure for IP routing. To select a router port to configure for IP routing, complete the following steps: 1. Use the arrow keys to highlight the PORT option. 2. Type in the number of the port that you want to configure for IP routing and then press ENTER.
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General Configuration Using Local Management 3. Use the arrow keys to highlight the SAVE command field at the bottom of the screen and then press ENTER. The message “SAVED OK” displays. Setting the Maximum Transmission Unit (MTU) The Maximum Transmission Unit specifies the maximum packet size for all IP packets that are transmitted. To select the MTU for a port, complete the following steps: 1. Use the arrow keys to highlight the MTU option under Port Level Setup. 2. ENTER an MTU value for the media used.
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General Configuration Using Local Management 3. Use the arrow keys to highlight the SAVE command field at the bottom of the screen and then press ENTER. The message “SAVED OK” displays. Configuring the UDP Broadcast Redirector To locate a server that can provide a particular network service, many IP hosts rely on the use of LAN broadcasts to send UDP service requests. The UDP port number contained in the broadcast request packet identifies the service being requested.
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General Configuration Using Local Management 3. Use the arrow keys to highlight the SAVE command field at the bottom of the screen and then press ENTER. The message “SAVED OK” displays. NOTE You can type in the UDP port number, or you can use the +REDIRECTOR- option at the bottom of the screen to scroll through a list of commonly used UDP port numbers.
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General Configuration Using Local Management 3. Use the arrow keys to highlight the SAVE command field at the bottom of the screen, and then press ENTER. The message “SAVED OK” displays. Configuring the Network Broadcast Type on a Port IP Routing Services recognizes and accepts network broadcasts, IP packets with the host portion of the IP address as either all 1’s or all 0’s. Other networking devices only recognize all 0’s as a network broadcast.
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General Configuration Using Local Management 5. Use the ENTER key to toggle the entry to ENABLED. 6. Use the arrow keys to highlight the SAVE command field at the bottom of the screen, and then press ENTER. The message “SAVED OK” displays. CSX400 Local Management Flash Image Version XX.XX.XX IP RIP CONFIGURATION IP Address: xxx.xxx.xxx.
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General Configuration Using Local Management IPX Configuration Screen The IPX Configuration screen enables you to access the IPX General Config, IPX RIP, and IPX SAP screens to configure the CSX400 for IPX Routing and enable RIP routing or Source Advertisement Protocol (SAP) routing on the CSX400. Access the IPX Configuration screen, shown in Figure 68, by using the arrow keys to highlight the IPX menu item on the Router Setup and pressing ENTER. The IPX Configuration screen displays.
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General Configuration Using Local Management IPX General Configuration Screen The IPX General Configuration screen allows you to configure the CSX400 for IPX routing. Access the IPX General Configuration screen by using the arrow keys to highlight the IPX General Config menu item and pressing ENTER. The IPX General Configuration screen shown in Figure 69 displays. CSX400 Local Management Flash Image Version XX.XX.XX IPX General Configuration Router Name: IPX Version: XX.XX.
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General Configuration Using Local Management AdminStatusTime — Displays the amount of time elapsed since an IP address was assigned to the CSX400. Description — Describes the selected Port. MAC Address — Displays the physical (MAC) address of the CSX400. Interf. Type — Displays the type of interface used by the specified port. Oper Status — Displays the operational status of the selected port.
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General Configuration Using Local Management If you type in an invalid port number the error message: “PORT NUMBER IS OUT OF RANGE” displays. Perform steps 1 and 2 again. Entering the IPX Address All IPX hosts must have an IPX Address for each network interface. These addresses identify each network connection. To enter the IPX Address for a router port, complete the following steps: 1. Use the arrow keys to highlight the IPX ADDRESS option. 2.
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General Configuration Using Local Management Enabling IPX Routing Services on a Port The ability to switch IPX Routing Services on and off on a port-by-port basis provides great flexibility. On the same device, some ports can be routing IPX traffic while other ports are bridging it. As you are in transition from a bridged network to a routed network, this flexibility allows you to implement IPX routing and test your routing configuration on a port-by-port basis.
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General Configuration Using Local Management IPX Routing over Frame Relay An additional step is required when routing IPX over Frame Relay. This step requires that entries are created in the IPX Host Map. The IPX Host Map is a database of remote IPX hosts that are defined generally by the WAN Network number and MAC Address, and more specifically by the Interface Number and Data Link Connection Identifier (DLCI).
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General Configuration Using Local Management Enabling the IPX SAP Routing Protocol on a Port IPX Source Advertisement Protocol (SAP) is used by IPX to exchange information about Novell service providing nodes, such as file servers and print servers that are available. IPX SAP builds and maintains a database, the Service Advertisement Table, containing the addresses and routes to specific service providing nodes, and advertises this information over the network.
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General Configuration Using Local Management To enable SAP Routing, complete the following steps: 1. From the IPX Configuration screen, highlight IPX SAP and then press ENTER. The IPX SAP Configuration screen, shown in Figure 71, displays. 2. Use the arrow keys to highlight the Port option. 3. Type in the number of the port that you wish to enable SAP routing, then press ENTER. 4. Use the arrow keys to highlight the Port Level SAP option. 5. Use the ENTER key to toggle the entry to ENABLED. 6.
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General Configuration Using Local Management Enabling RIP on a Port IPX RIP (Routing Information Protocol) is a widely implemented routing protocol that is used extensively on IPX intermediations. IPX Routing Services uses the RIP to send and gather information about the internetwork topology. This information is used to construct and maintain a database, called the RIP Route Table, containing the addresses and available routes to all the networks and hosts that RIP has learned.
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General Configuration Using Local Management To enable RIP Routing, complete the following steps: 1. From the IPX Configuration screen, highlight IPX RIP and then press ENTER. The IPX RIP Configuration screen, shown in Figure 72, displays. 2. Use the arrow keys to highlight the Port option. 3. Type in the number of the port that you wish to enable RIP routing and then press ENTER. 4. Use the arrow keys to highlight the Port Level RIP option. 5. Use the ENTER key to toggle the entry to ENABLED. 6.
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General Configuration Using Local Management WAN Setup NOTE This section describes the HDSL WPIM. For all other WPIMs, refer to your specific WPIM(s) Local Management Guide for information on this screen. The WAN Setup menu item accesses two screens which allow you to configure the CSX400 for a WAN Physical Interface Module (WPIM). Access the WAN Physical Configuration screen, shown in Figure 73, by using the arrow keys to highlight the WAN SETUP menu item and pressing ENTER.
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General Configuration Using Local Management WAN Physical Configuration Screen Fields The following list describes the WAN Physical Configuration screen fields. NOTE The CSX400 supports a variety of WPIMs. Figure 73 shows the WAN Physical Configuration screen for the WPIM-HDSL and the WPIM-T1. To select the WPIM you wish to configure, use the arrow keys to highlight the [WPIM #] field at the bottom of the screen. Use the SPACEBAR to select the appropriate WPIM, then press ENTER.
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General Configuration Using Local Management WAN Interface Configuration Screen To access the WAN Interface Configuration screen shown in Figure 74, use the arrow keys to highlight the WAN INT CONFIG selection at the bottom of the WAN Physical Configuration screen, then press ENTER. Local Management Flash Image Version: xx.xx.
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General Configuration Using Local Management Active Protocol — Displays the active OSI Layer protocol. This field displays None, FR (Frame Relay), or PPP (Point-to-Point). The default setting is None. If you select PPP, the following field appears: PPP Type: This field displays BNCP or LEX. Circuit State: Toggles between Active, Inactive and Invalid. PT# — Displays the application ports (bridge ports) available from the host platform to the WAN.
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General Configuration Using Local Management 176 CSX400 and CSX400-DC User’s Guide
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9 MIB Navigator This chapter explains how to use the MIB Navigator utility. The MIB Navigator allows access to a command set from which you can configure and manage the CSX400. Chapter Organization The following list summarizes the organization of this chapter: MIB Navigator Screen – describes the MIB Navigator screen and explains how to access it. MIB Navigator Command Set Overview – describes the types of commands available to the MIB Navigator.
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MIB Navigator MIB Navigator Screen Access the MIB Navigator screen from the Main Menu screen using Local Management (refer to the Accessing Local Management section in Chapter 8). Using the arrow keys, highlight the MIB NAVIGATOR option, then press ENTER. The MIB Navigator screen shown in Figure 75 displays.
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MIB Navigator The MIB Navigator views the MIB tree hierarchy as a directory. Figure 76 shows the MIB tree hierarchy. Each layer is numerically encoded, so that every branch group and leaf object in the MIB is identified by a corresponding number, known as an Object Identifier (OID). This allows the MIB Navigator to navigate through the MIB and access the manageable leaf objects. Group 1.1 Root 1 Group 1.2 Group 1.3 Object 1.1.1 Object 1.1.2 Object 1.2.1 Object 1.2.2 Object 1.3.1 Object 1.3.
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MIB Navigator Other Commands — Other commands allow you to access and manage network devices connected to the device running the MIB Navigator. The commands are as follows: arp dhcp ping secondIP snmpnext bridge imux ppp show snmpset circuitmap nat reset snmpbranch snmptree defroute netstat route snmpget traceroute Special Commands — Special Commands allow you to exit from the MIB Navigator.
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MIB Navigator MIB Navigation Commands are listed in the format shown below: command: Syntax: This entry provides the format that the MIB Navigator command requires. It indicates where arguments, if any, must be specified. Description: This entry briefly describes the command and its uses. Options: This entry lists any additional fields which may be added to the command and their format. Example: This entry shows an example of the command.
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MIB Navigator cd: Syntax: cd [path] or cd
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MIB Navigator help: Syntax: help Description: The help command provides general help on how to use the MIB Navigator or how to use a particular MIB Navigator command. Options: A particular MIB Navigator command. Example: MIBNav-> help su Command: su Format: su Allows user to change his/her community name, in order to allow different access to the MIB. 051459 mib2: Syntax: mib2 Description: The mib2 command allows you to move directly to the MIB II subtree (1.3.6.1.2.
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MIB Navigator next: Syntax: next [path] Description: The next command enables you to determine the next leaf in the specified path within the managed device’s MIB. Options: Not Applicable Example: MIBNav-> next /1/3/6/1/2/1 #/1/3/6/1/2/1/1/1 sysDescr String CtronRev.X.XX.XX 051461 pwd: Syntax: pwd Description: The pwd command displays the full pathname for the directory in which you are currently working. The directory is displayed in ASCII format.
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MIB Navigator set: Syntax: set Description: The set command enables you to set the value of a managed object. This command is valid only for leaf entries in the current MIB tree, or for managed objects in the MIB. If the leaf specified does not exist for the given path, MIB Navigator asks for a value.
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MIB Navigator su: Syntax: su [community name] Description: The su command enables you to change your community name to allow for different access to the MIB. The community name that you enter allows you either read-only, read-write, or super-user access to that device’s MIBs, depending on the level of security access assigned the password through the SNMP Community Names screen. Refer to the SNMP Community Names Screen section in Chapter 8 for more information about community names.
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MIB Navigator whoami: Syntax: whoami Description: The whoami command displays your community string and access privileges to the MIB. When using the whoami command, one of these three access levels displays: read-only, read-write, and super-user. Options: Not Applicable Example: MIBNav-> whoami # Community Name # Access Level : super : SuperUser 051466 grep: Syntax: grep
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MIB Navigator dir: Syntax: dir [- 1pdm] [PATH] Description: Lists the contents of the directory sub-tree specified. If no [directory-path] is specified, the contents of the current directory are displayed. The display options are: -1: Displays the OID value along with the ASCII name of the leaf object. -p: Lists all the entries along with the path name of the leaf object. -d: Lists only the directory entries in the tree. -m: Displays one screen at a time.
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MIB Navigator ls: Syntax: ls [-1pdm] [PATH] Description: Lists the contents of the directory sub-tree specified. If no [directory-path is specified, the contents of the current directory are displayed. The display options are: -1: Displays the OID value along with the ASCII name of the leaf object. -p: Lists all the entries along with the path name of the leaf object. -d: Lists only the directory entries in the tree. -m: Displays one screen at a time.
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MIB Navigator Other Commands The Other commands listed in this section activate functions on the LM managed device or devices being accessed through MIB Navigation. arp: Syntax: arp Description: The arp command provides access to the ARP (Address Resolution Protocol) cache, enabling you to view cache data, delete entries, or add a static route. Super-user access is required to delete an entry or add a static route.
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MIB Navigator Example: MIBNav-> arp -a # Interface # (SonicInt) # (SonicInt) # (SonicInt) # (SonicInt) Network Address 122.144.40.111 122.144.48.109 122.144.52.68 122.144.21.43 Physical Address 00.00.0e.12.3c.04 00.00.0e.f3.3d.14 00.00.0e.12.3c.04 00.00.0e.03.1d.3c Media Type 3(dynamic) 3(dynamic) 3(dynamic) 3(dynamic) MIBNav-> arp -d 1 122.144.52.68 MIBNav-> arp -s 1 22.44.2.
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MIB Navigator dhcp reclaim Reclaims an IP address so another client can use it. dhcp The IFNUM is the Ethernet port number. The four configuration parameters can be passed to the hosts (clients). These are the IP address of their default gateway, the IP address of their domain name server, the IP address of their WINS server, and their domain name.
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MIB Navigator nat: Syntax: nat Description: The nat command provides status relating to Network Address Translation. Allows the user to assign a private network to an interface, to define an interface to access the internet through, and to create a public IP address to be used on the internet. Allows the user to assign a host on the private network as a “proxy server” accessible from the internet.
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MIB Navigator netstat: Syntax: netstat
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MIB Navigator snmpbranch: Syntax: snmpbranch [IP address] [community name] [OID] Description: The snmpbranch command enables you to query another SNMP device. The command provides a display of objects that match the specified OID. If no match is made, no object is displayed. Options: Not Applicable Example: MIBNav-> snmpbranch 2.4.8.1 public 1.3.6.2.1.
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MIB Navigator snmpset: Syntax: snmpset [IP address] [community name] Description: The snmpset command enables you to set the value of an object in other SNMP devices. This command requires the appropriate community string and OID. When defining a new leaf set, MIB Navigator asks for a value.
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MIB Navigator snmptree: Syntax: snmptree [IP address] [community name] Description: The snmptree command provides a display of all objects in the device and their corresponding values. Options: Not Applicable Example: MIBNav-> snmptree 122.144.89.10 public # /1/3/6/1/2/1/1/1 # /1/3/6/1/2/1/1/2 # /1/3/6/1/2/1/1/3 # /1/3/6/1/2/1/1/4 sysDescr sysObjectId sysUpTime sysContact STRING OBJECT ID TIME TICKS STRING EMRev X.X.X.X 1.3.6.1.4.1.
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MIB Navigator bridge: Syntax: bridge Description: Allows management of bridging upon one or more interfaces of the device. Bridging may be enabled or disabled at your request, either one at a time or all at once. Specifying a single interface number affects the bridging status of that interface, while specifying ALL affects every interface of the device. Options: Enables or disables bridging. Allows you to specify an interface number.
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MIB Navigator circuitmap: Syntax: circuitmap -a circuitmap -f circuitmap -d circuitmap -s Description: Allows the user to view and/or modify a Protocol’s Circuit Map (i.e., address-to-circuit) table for the device. The -a option shows the user the current Host Map information for the device. The -d option allows the user to delete an entry from the table.
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MIB Navigator reset: Syntax: reset Description: The reset command allows you to perform a soft reset of the device. The user is queried to confirm the reset command to insure against unwanted resets. Note: The MIB Navigator’s connection to the device is terminated upon execution of this command.
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MIB Navigator show: Syntax: show [TABLE] Description: The show command displays information concerning various components of the device. Protocols currently supported are IP and IPX. Components of those protocols that are currently supported are ARP caches, route tables, FIB tables, server tables, and interface tables. The number of valid entries in the table is outputted at the end of the table display.
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MIB Navigator imux: Syntax: imux Description: This function lets you balance your LAN traffic between two T1 WAN ports and is used with Point to Point Protocol (PPP). When you select Inverse Multiplexing via QuickSET, bridging, IP routing, and IPX routing functions are all disabled. The WAN device at the other end of the WAN link(s) must be a Cabletron Systems device, capable of receiving the balanced WAN traffic. The imux command with no options displays the status information.
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MIB Navigator Special Commands done, quit, exit: Syntax: done Description: These commands enable you to exit from the MIB Navigator and return to the Main Menu screen.
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MIB Navigator 204 CSX400 and CSX400-DC User’s Guide
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10 Troubleshooting Use this chapter in conjunction with the LANVIEW status monitoring and diagnostic LEDs on the CSX400 to diagnose power failures, collisions, cable faults and link problems. Figure 77 shows the front panel LEDs. Table 24, Table 25, Table 26, Table 27, and Table 28 describe LED states. If you are having difficulty installing and configuring the CSX400, perform the following steps: • Review the CSX400 QuickSTART Guide to insure proper installation.
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Troubleshooting Table 25 CSX400 LAN LED States LED Receive (RCV) Collision (CLN) Link (LNK) Color State OFF Port Enabled, No Activity AMBER (flashing) Receiving traffic OFF NORMAL RED Collision OFF Power Off or Failure GREEN NORMAL, link exists Table 26 CSX400 WAN LED States LED Transmit (XMT) Receive (RCV) Link (LNK) Test 206 Color State OFF Not transmitting traffic GREEN (flashing) Transmitting traffic OFF Not receiving traffic AMBER (flashing) Receiving traffic OFF WPIM not
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Troubleshooting Table 27 CSX400 WAN LED States for STS 1 WPIM T1, DI, and E1 DDS SYNC HDSL S/T Color State OFF Normal or port disabled RED Red alarm OFF Normal or port disabled AMBER Out of service (OOS) OFF Inactive or disabled GREEN Request to send (RTS) OFF Port disabled or in loopback mode RED Loop 1 not synchronized, in T1 and Fractional T1 mode GREEN Loop 1 synchronized OFF B1 not active or port disabled GREEN B1 active Table 28 CSX400 WAN LED States for STS 2 WPIM T1, D1, a
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Troubleshooting Troubleshooting CSX400 Hardware Power (PWR) LED is OFF • Check that the power connection is firmly attached to the back panel of the CSX400, and the other end to an active power source. Processor (CPU) LED is OFF If the CPU stays OFF for an extended amount of time, and the power (PWR) light remains on, the CPU is in an unknown state. • Contact Cabletron Systems Global Call Center for technical support (refer to Getting Help in Chapter 1).
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Troubleshooting Troubleshooting the WAN Link (LNK) LED is OFF The WAN interface is not configured for operation. • Use QuickSET or Local Management to make sure that the WAN interface is configured correctly. Link (LNK) LED is RED The WAN interface is configured, but there is no signal indicating that a valid connection is present on the WAN interface. • Check that the CSX400 and the device at the other end of the segment are powered up.
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Troubleshooting WPIM-SYNC Installed in CSX400 The port is operating normally. If it is not, and this LED is OFF the port may be disabled or RTS may be inactive. • Use QuickSET or Local Management to make sure that the WAN interface on the Local device is configured correctly. WPIM-HDSL Installed in CSX400 The port is disabled or has been placed into Loopback Test mode. • Use QuickSET or Local Management to make sure that the WAN interface on the Local device is configured correctly.
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Troubleshooting WPIM-HDSL Installed in CSX400 WPIM-HDSL is configured for either Full or Fractional T1 and the WPIM is not able to establish synchronization on Loop 1 with the remote HDSL circuit. • Use QuickSET or Local Management to verify that one of the WPIM-HDSLs is involved in the connection is set to Master (Local) Timing and that the other one is set to Slave (Loop) Timing. • Verify the use of proper cabling for the HDSL connections.
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Troubleshooting WPIM-HDSL is installed in CSX400 The Port is operating normally, Loop 1 has synchronized with the HDSL circuit at the remote end. WPIM-S/T is installed in CSX400 The Port is operating normally, ISDN BRI channel B1 or B2 or both are active. Status 2 (STS2) LED is OFF WPIM-T1, WPIM-E1, WPIM-DI, or WPIM-DDS Installed in CSX400 The port is operating normally. If it is not, and this LED is OFF the port may be disabled.
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Troubleshooting Status 2 (STS 2) LED is RED WPIM-HDSL Installed in CSX400 WPIM-HDSL is configured for either Full T1 and the WPIM is not able to establish synchronization on Loop 2 with the remote HDSL circuit. • Verify using QuickSET of Local Management that one of the WPIM-HDSL is involved in the connection is set to Master (Local) Timing and that the other one is set to Slave (Loop) Timing. • Verify the use of proper cabling for the HDSL connections.
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Troubleshooting WPIM-HDSL Installed in CSX400 The port is operating normally, Loop 2 has synchronized with the HDSL circuit at the remote end (Full T1 mode only). WPIM-S/T Installed in CSX400 The port is operating normally, ISDN BRI channel B2 is active. Test (TST) LED is AMBER (blinking) The device is in test mode. • The CSX400 is running its Power-up Diagnostic Tests. • Loopback Testing is underway on a WAN circuit.
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Troubleshooting User Cannot Communicate with Remote Network Station If Bridging, • Check that the Bridging Default Destination is set. • Check that bridging to/from the remote router is set on. • Be sure to reboot if you have made any bridging destination or control changes. If TCP/IP Routing, • Check that TCP/IP Routing is set on and is enabled at the remote end. • Check that the IP address of the LAN beyond the remote router is correct, as well as the associated Subnet Mask.
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Troubleshooting 216 CSX400 and CSX400-DC User’s Guide
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A EPIM Specifications Introduction The CSX400 provides two ports for Cabletron Systems EPIMs. EPIMs allow connection to the main network using different media types. The following sections explain the specifications of the variety of EPIMs Cabletron Systems offers. EPIM-T The EPIM-T is an RJ45 connector supporting UTP cabling. It has an internal Cabletron Systems TPT-T 10BASE-T Twisted Pair Transceiver. The slide switch on the EPIM-T determines the crossover status of the cable pairs.
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EPIM Specifications EPIM-F1 and EPIM-F2 The EPIM-F1 and EPIM-F2 support Multimode Fiber Optic cabling. Each EPIM has an internal Cabletron Systems FOT-F Fiber Optic Transceiver. The EPIM-F1 is equipped with SMA Connectors and the EPIM-F2 is equipped with ST Connectors. Figure 79 shows both EPIMs. Specifications for the EPIMs are listed in Table 29. Figure 79 EPIM-F1 and EPIM-F2 Table 29 EPIM-F1 & EPIM-F2 Specifications Parameter Typical Value Worst Case Receive Sensitivity -30.5 dBm -28.
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EPIM Specifications Table 30 Transmitter Power NOTE Parameter Typical Value Worst Case Worst Case Budget Typical Budget 50/125 µm fiber -13.0 dBm -15.0 dBm 13.0 dB 17.5 dB 62.5/125 µm fiber -10.0 dBm -12.0 dBm 16.0 dB 20.5 dB 100/140 µm fiber -7.0 dBm -9.0 dBm 19.0 dB 23.5 dB Error Rate Better than 10-10 The transmitter power levels and receive sensitivity levels listed are Peak Power Levels after optical overshoot.
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EPIM Specifications EPIM-F3 The EPIM-F3 supports Single Mode Fiber Optic cabling. It has an internal Cabletron Systems FOT-F Fiber Optic Transceiver and is equipped with ST Connectors. Figure 80 shows the EPIM-F3. Specifications for the EPIM-F3 are listed in Table 31. Figure 80 EPIM-F3 NOTE Transmitter Power decreases as temperatures rise and increases as temperatures fall. Use the Output Power Coefficient to calculate increased or decreased power output for your operating environment.
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EPIM Specifications EPIM-C The EPIM-C supports thin coaxial cabling and is equipped with an internal Cabletron Systems TMS-3 Transceiver. You can use the TERM switch on the front of the EPIM-C to set the internal 50-ohm terminator. This eliminates the need to connect the port to a T-connector and terminator. Figure 81 shows the setting for the terminator switch.
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EPIM Specifications EPIM-A and EPIM-X (AUI Port) The EPIM-A is a DB15 female connector used to attach segments to an external transceiver. The EPIM-X is equipped with dual internal transceivers. It has a DB15 male connector used to attach segments to an AUI cable. Figure 82 shows both modules and Table 32 provides the DB15 pinouts. The EPIM-A is equipped with a fuse (F1) to protect against risk of fire.
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B NOTE WPIM Cable Specifications For all WPIM cables, there is part number information for ordering a standard 20-foot cable or a specified length of cable. The number 20 followed by the part number denotes the standard 20-foot cable. The letter “L” denotes the specified length required in feet or meters. For example: 9372095-3 denotes a 3 foot cable; 9372095-3M denotes a 3-meter cable.
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WPIM Cable Specifications Table 35 provides RJ48 DTE pin assignments. Table 35 DTE Pin Assignments Pin Signal 1 Receive Ring 2 Receive Tip 3 Not Used 4 Transmit Ring 5 Transmit Tip 6 Not Used 7 Shield Ground 8 Shield Ground Table 36 provides RJ48 network pin assignments.
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WPIM Cable Specifications WPIM-SY This section provides the Cabletron Systems part number and connector specifications for the WPIM-SY interface cables. Table 37 provides the cable and interface types, electrical types, and part numbers for the WPIM-SY. Table 37 WPIM-SY Interface Cables Cable and Interface Type Electrical Type Part Number RS449 RS422 9380120 V.35 V.35 9380121 RS232 RS232 9380122 X.21 X.
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WPIM Cable Specifications EIA-449 Table 38 shows the connector number, cable assembly description, and connector type. Table 38 EIA-449 Interface Connector Number Cable Assembly Description 1 Connector Type Sub DB 26-pin male connector EIA-530A ALT A to EIA-449 2 DB-37 pin male connector Table 39 provides pin assignments for the EIA-449 interface cable.
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WPIM Cable Specifications Table 39 EIA-449 Interface Cable Pin Assignment (Continued) Connector 1 EIA-530A ALT A MNEMONIC DIRECT TO CE TM DTE CC CD DCE Connector 2 EIA-449 NAME PIN Ring Indicator Test Mode PAIR PIN NAME 22 15 Incoming Call 25 18 Test Mode DCE Ready 6 11 Data Mode DTE Ready 20 12 Terminal Ready DIRECT MNEMONIC TO IC DTE TM DM DCE TR SHIELD 1 AC Signal Common 23 20 Receive Common RC AB Signal Common 7 19 30 37 Send Common Terminal Ready B Signal Grou
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WPIM Cable Specifications Table 41 V.
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WPIM Cable Specifications EIA-232 Table 42 shows the connector number, cable assembly description, and connector type. Table 42 EIA-232 Interface Connector Number Cable Assembly Description 1 Connector Type Sub DB 26-pin male EIA-530A ALT A to EIA-232 2 DB-25 pin male Table 43 provides pin assignments for the EIA-232 interface cable.
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WPIM Cable Specifications X.21 Table 44 shows the connector number, cable assembly description, and connector type. Table 44 X.21 Interface Connector Number Cable Assembly Description Connector Type 1 Sub DB 26-pin male EIA-530A ALT A to X.21 2 DB-15 pin male Table 45 provides pin assignments for the X.21 interface cable. Table 45 X.
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WPIM Cable Specifications EIA-530, EIA-530 ALT A, EIA-530 A, and EIA-530 A ALT A Table 46 shows the connector number, cable assembly description, and connector type for the EIA-530, EIA-530 ALT A, EIA-530A, and EIA-530A ALT A, interface cables.
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WPIM Cable Specifications Table 47 EIA-530, EIA-530 ALT A, EIA-530A, and EIA-530A ALT A Interface Cable Pin Assignments Connector 1 EIA-530A ALT A MNEMONIC DIRECT TO NAME Connector 2 EIA-530 PIN PAIR NAME 15 Transmit Signal Timing A Transmit Signal Timing B 12 12 Transmit Signal Timing B Receive Signal Timing A 17 17 Receive Signal Timing A 9 9 Receive Signal Timing B Transmit Signal Timing A 24 24 Transmit Signal Timing A 11 Transmit Signal Timing B Transmit Signal Timing A 15 DB E D
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WPIM Cable Specifications WPIM-DDS This section provides Cabletron Systems part number and connector specifications for the WPIM-DDS interface cable. The WPIM-DDS has one RJ45 port for a direct connection to a single Digital Data Service (DDS) circuit. Table 48 provides cable and interface type, and part number information for the WPIM-DDS interface cable, and Table 49 provides network Pin Assignment information for the DDS interface cable. .
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WPIM Cable Specifications WPIM-E1 This section provides the Cabletron Systems part number and connector specifications for the WPIM-E1 interface cable. Table 50 shows the WPIM-E1 connector number, cable and interface type, connector type and part number information. Table 50 WPIM-E1 Connector Information Connector Number Cable and Interface Type Connector Type Part Number E1 RJ45 9372095 1 2 Table 51 provides WPIM-E1 network interface cable pin assignments.
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WPIM Cable Specifications Table 52 provides WPIM-E1 DTE interface cable pin assignments. Table 52 DTE Interface Pin Signal 1 Receive Ring 2 Receive Tip 3 Shield Ground 4 Transmit Ring 5 Transmit Tip 6 Shield Ground 7 Not Used 8 Not Used Table 53 provides WPIM-E1 RJ45 network interface cable pin assignments.
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WPIM Cable Specifications WPIM-DI This section provides Cabletron Systems part number and connector specifications for the WPIM-DI interface cables. Table 54 shows the connector number, cable assembly description, cable and interface type, connector type and part number information for the WPIM-DI interface.
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WPIM Cable Specifications Table 56 provides the WPIM-DI drop and insert interface cable pin assignments. Table 56 WPIM-DI Drop and Insert Pin Signal 1 Transmit Ring 2 Transmit Tip 3 AC Coupled Ground 4 Receive Ring 5 Receive Tip 6 AC Coupled Ground 7 AC Coupled Ground 8 AC Coupled Ground WPIM-HDSL This section provides connector specifications for the WPIM-HDSL interface cables. Table 57 provides pin assignments for the RJ-45 network interface connector.
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WPIM Cable Specifications WPIM-S/T This section provides connector specifications for the WPIM-S/T interface cable. Table 58 provides pin assignments for the RJ-45 network interface connector.
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C Specifications and Standards Compliance This chapter contains hardware specifications, and safety and compliance standards for the CSX400, CSX400-DC, and for the individual WPIMs that can be configured with these devices.
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Specifications and Standards Compliance CSX400-DC Specifications and Compliance Standards Table 61 Hardware Specifications WAN Interface 2 WPIM ports LAN Interface 2 EPIM ports Other Interfaces dc power terminal strip Processor Intel i960 66 Mhz Width 17 in (43.2 cm) Height 1.75 in (4.5 cm) Depth 13.5 in (34.3 cm) Weight 5.67 lb (2.58 kg) Power Supply Built-in power supply Voltage 48/60 Vdc ~ 3.5 A Power Consumption 100 Watts maximum Heat Dissipation 341.
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Specifications and Standards Compliance Individual WPIM Regulatory Compliance The following sections provide regulatory compliance standards for the WPIM-TI, WPIM-SY, WPIM-DDS, WPIM-E1, WPIM-DI, WPIM-S/T, and the WPIM-HDSL. Cabletron Systems reserves the right to change these specifications at any time without notice. WPIM-TI This section describes the environmental specifications and safety and approval requirements for the WPIM-T1.
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Specifications and Standards Compliance WPIM-SY This section describes the environmental specifications and safety and approval requirements for the WPIM-SY. Safety — This unit meets the safety requirements of UL1950, CSA C22.2 No. 950, EN 60950, IEC 950, and 73/23/EEC. EMI — This unit meets the EMI requirements of FCC Part 15, EN 55022, EN 50082-1, AS/NZS 3548, 89/336/EEC, CSA108.8, and VCCI V-3. TELECOM — 91/263/EEC, and NET 2.
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Specifications and Standards Compliance WPIM-E1 This section describes the environmental specifications and safety and approval requirements for the WPIM-E1. Safety — This unit meets the safety requirements of EN 60950, IEC 950, 73/23/EEC and AS/ NZS 3260. Electromagnetic Compatibility (EMC) — This unit meets the EMI requirements of EN 55022, EN 50082-1, AS/NZS 3548, and 89/336/EEC. TELECOM — 91/263/EEC, CTR 12, TS 001, and TS 016.
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Specifications and Standards Compliance WPIM-HDSL This section describes the environmental specifications and safety and approval requirements for the WPIM-HDSL. Safety — This unit meets the safety requirements of UC1950, CSA 22.2 No. 950, EN 60950, IEC 950 73/23/EEC. Electromagnetic Compatibility (EMC) — This unit meets the EMC requirements of FCC Part 15, EN 55022, VCCI V-3, CSA/08.8 EN 50082-1, AS/NZS 3548, 89/336/EEC.
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D Network Information Worksheets Table 62 Configuration Section Item System Settings Router Name CSX400 Setting Message System Settings Dial Authentication Password Dial Authentication Password/Secret System Settings ISDN Settings ISDN SPID #1 ISDN SPID #2 ISDN Directory Number #1 ISDN Directory Number #2 ISDN Switch Type System Settings Ethernet IP Address Ethernet IP Address and Subnet Mask System Settings Ethernet IPX Network # Ethernet IPX Network Number Table 63 Remote Router Configurat
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Network Information Worksheets Table 63 Remote Router (Continued) Configuration Section Item Remote Router Database TCP/IP Route Addresses Remote Network’s IP Addresses, Subnet Masks, and Metrics Source WAN IP Address and Subnet Maska Setting Remote WAN IP Address and Subnet Maskb Remote Router Database IPX Routes IPX Routes: Network Number, Hop Count and Ticks Remote Router Database IPX SAPs SAPs: Server Name, Server Type, Network Number, Node Number and Sockets WAN Network Number a.
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E FCC Part 68 - User’s Information For CSX400 and CSX400-DC The following instructions are to ensure compliance with the Federal Communications Commission (FCC) Rules, Part 68: 1. All connections to the WPIM-T1, WPIM-DI and WPIM-DDS must be made using standard plugs and jacks. a. The WPIM-S/T must only be connected to the network connected behind an FCC Part 68 registered channel service unit. Direct connection is not allowed. 2.
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FCC Part 68 - User’s Information For CSX400 and CSX400-DC 3. If the unit appears to be malfunctioning, it should be disconnected from the telephone lines until you learn if your equipment or the telephone line is the source of the trouble. If your equipment needs repair, it should not be reconnected until it is repaired. 4. The CSU/DSU has been designed to prevent harm to the T1 and DDS network.
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FCC Part 68 - User’s Information For CSX400 and CSX400-DC AFFIDAVIT FOR THE CONNECTION OFCUSTOMER EQUIPMENT TO 1.544 MBPS AND/OR SUBRATE DIGITAL SERVICES For the work to be performed in the certified territory of Telco’s name: State of: Country of: I, , of (Name of Authorized Representative) (Customer Name) (Customer’s Address) (Telephone Number) , being duly sworn, state: I have responsibility for the operation and maintenance of the terminal equipment to be connected 1.
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FCC Part 68 - User’s Information For CSX400 and CSX400-DC I attest that the operator(s) maintainer(s) of the digital CPE responsible for the establishment, maintenance and adjustment of the encoded analog content and billing information has (have) been trained to perform these functions by successfully completing one of the following: Check appropriate one(s). a. A training course provided by the manufacturer/grantee of the equipment used to encode analog signals; or b.
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F Glossary 10BASE-T — IEEE 802.3 standard for the use of Ethernet LAN technology over Unshielded Twisted Pair wiring, running at 10 Mbps. ARP — Address Resolution Protocol. An Internet protocol used to bind an IP address to Ethernet/ 802.3 addresses. ASCII — American Standard Code for Information Interchange. It is an 8-bit code for character representation. AUI — Attachment Unit Interface. An IEEE 802.3 transceiver cable connecting the network device (such as a router) to the MAU (media access unit).
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Glossary Data Compression — Techniques used to reduce the number of bits transferred across the communication links that represent the actual data bits. Compression is used to optimize use of WAN links and speed data transmission. DHCP — Dynamic Host Configuration Protocol is a protocol for automatic TCP/IP configuration that provides static and dynamic address allocation and management.
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Glossary IP — Internet protocol. A network layer protocol which allows a packet to traverse multiple networks on the way to its final destination. IP Address — Internet address. A 32-bit address assigned to devices that participate in a network using TCP/IP. An IP address consists of four octets separated with periods defining network, optional subnet and host sections. IPX (Internet Packet Exchange) — A proprietary Network layer protocol developed by Novell and used in NetWare networks.
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Glossary NetWare — A Network Operating System developed by Novell, Inc. providing shared access to files and other network services. Network Layer — Layer 3 of the OSI reference model that provides the protocol routing function. Node — Refers to a termination point for communication links; entity that can access a network. OSI — Open System Interconnection.
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Glossary RS-232 — EIA standard specifying the physical layer interface used to connect a device to communications media. Serialization Frames — Frames sent out by servers under IPX to check whether illegal copies of NetWare are in use on the network. Service Advertising Protocol — Protocol used in IPX for broadcasting information about services available on the network, such as file servers, CD-ROM drives and modem pools. SNMP — Simple Network Management Protocol.
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Glossary Transparent Bridging — Bridging technique used in Ethernet networks that allows transfer of frames across intermediate nodes using tables associating end nodes with bridging addresses. Bridges are unknown to the end nodes. UDP — User Datagram Protocol. A connectionless protocol used to pass packets across an internet network, requiring no handshaking between source and destination. Watchdog Frames — Frames sent out by servers to clients, under IPX, to verify that clients are still logged on.
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Index Numerics 10BASE2 grounding 53 link length 53 specifications 53 10BASE-F attenuation multimode 51 single mode 52 link length multimode 52 single mode 53 specifications 51 10BASE-T impedance 50 insertion loss 50 link length 50 specifications 50 A AT & T 5ESS switch parameters 27 Attenuation 10BASE-F multimode 51 single mode 52 10BASE-T 51 B Bootstrap Protocol Client 158 Bootstrap Protocol Server 158 BRI configurations 25 Bridge filtering 18 Bridge Setup bridge port pair administrative status 151 port
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Index Getting help 4 Grounding 10BASE2 53 IP/IPX QuickSET routing configuration 107 to 110 IPX about IPX routing 17 enabling forwarding on a port 166 enabling RIP on a port 170 enabling routing services on a port 166 enabling SAP on a port 168 QuickSET IPX configuration 100 ISDN 14 arranging service 23 BRI line configuration 24 types of switches 24 H K Hardware specs 239, 240 Host IP Address 136, 139 Host Name Server 158 Keyboard conventions 129 F Fiber optics - see 10BASE-F Firmware Data Compression
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Index M R Management Agent 126 MIB description 178 tree hierarchy 179 MIB Navigator exiting 177, 180 navigation commands 179 other commands 180 special commands 180 MIB support 19 Rack Mounting accessory kit 8 Remote Network Management 7 Remote router worksheet 245 RIP 160, 170 Router configuration 29 directory numbers 31 IPX network numbers 37 IPX routes 37 IPX routing 36 IPX SAPs 37 ISDN line information 31 names and passwords 47 network diagrams 32 network information 30 network information tables 38
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Index S T Safety Requirements 242 Selecting a port for configuration IP 156, 164 SNMP 19 SNMP Community Names read-only 18, 78, 142 read-write 19, 78, 142 super-user 19, 78, 142 SNMP Traps enable traps 144 trap community name 143 trap destination 143 Software and firmware upgrades 22 SPIDs 25, 26 Subnet Mask 137, 139 Sunrpc (NIS) 158 Switch support 14 Switches AT&T 5ESS w/custom software 24 DMS-100 24 French Delta (VN4) switches 24 KDD (Kokusai Denshin Denwa Co., Ltd.
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POWER SUPPLY CORD The mains cord used with this equipment must be a 2 conductor plus ground type with minimum 0.75 mm square conductors and must incorporate a standard IEC appliance coupler on one end and a mains plug on the other end which is suitable for the use and application of the product and that is approved for use in the country of application. GERMAN: Die Netzleitung, die mit diesem Geraet benuetzt wird, soll einen zwei Leiter mit Erdleiter haben, wobei die Leiter mindestens 0.