Cabletron Systems Switch ELS10 26TX User Manual

SmartSTACK 10  
ELS10-26 USER GUIDE  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
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10  
MON  
RX COL 100 USR  
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
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COM  
2X  
4X  
6X  
8X  
10X  
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9032243-01  
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Only qualified personnel should perform installation  
procedures.  
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.  
IN NO EVENT SHALL CABLETRON SYSTEMS BE LIABLE FOR ANY INCIDENTAL,  
INDIRECT, SPECIAL, OR CONSEQUENTIAL DAMAGES WHATSOEVER (INCLUDING BUT  
NOT LIMITED TO LOST PROFITS) ARISING OUT OF OR RELATED TO THIS MANUAL OR  
THE INFORMATION CONTAINED IN IT, EVEN IF CABLETRON SYSTEMS HAS BEEN  
ADVISED OF, KNOWN, OR SHOULD HAVE KNOWN, THE POSSIBILITY OF SUCH  
DAMAGES.  
Copyright 1997 by Cabletron Systems, Inc., P.O. Box 5005, Rochester, NH 03866-5005  
All Rights Reserved  
Printed in the United States of America  
Order Number: 9032243-01 September 1997  
Cabletron Systems, SPECTRUM, and LANVIEW are registered trademarks and  
SmartSTACK, ELS10-26TX, FEPIM, FEPIM-TX and FEPIM-FX are trademarks of  
Cabletron Systems, Inc.  
All other product names mentioned in this manual may be trademarks or registered trademarks of  
their respective companies.  
FCC NOTICE  
This device complies with Part 15 of the FCC rules. Operation is subject to the following two  
conditions: (1) this device may not cause harmful interference, and (2) this device must accept any  
interference received, including interference that may cause undesired operation.  
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital  
device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable  
protection against harmful interference when the equipment is operated in a commercial environment.  
This equipment uses, generates, and can radiate radio frequency energy and if not installed in  
accordance with the operator’s manual, may cause harmful interference to radio communications.  
Operation of this equipment in a residential area is likely to cause interference in which case the user  
will be required to correct the interference at his own expense.  
WARNING: Changes or modifications made to this device which are not expressly approved by the  
party responsible for compliance could void the user’s authority to operate the equipment.  
Printed on  
Recycled Paper  
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Notice  
DOC NOTICE  
This digital apparatus does not exceed the Class A limits for radio noise emissions from digital  
apparatus set out in the Radio Interference Regulations of the Canadian Department of  
Communications.  
Le présent appareil numérique n’émet pas de bruits radioélectriques dépassant les limites applicables  
aux appareils numériques de la class A prescrites dans le Règlement sur le brouillage radioélectrique  
édicté par le ministère des Communications du Canada.  
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.  
This document is an agreement between you, the end user, and Cabletron Systems, Inc. (“Cabletron”)  
that sets forth your rights and obligations with respect to the Cabletron software program (the  
“Program”) contained in this package. The Program may be contained in firmware, chips or other  
media. BY UTILIZING THE ENCLOSED PRODUCT, YOU ARE AGREEING TO BECOME  
BOUND BY THE TERMS OF THIS AGREEMENT, WHICH INCLUDES THE LICENSE AND  
THE LIMITATION OF WARRANTY AND DISCLAIMER OF LIABILITY. IF YOU DO NOT  
AGREE TO THE TERMS OF THIS AGREEMENT, PROMPTLY RETURN THE UNUSED  
PRODUCT TO THE PLACE OF PURCHASE FOR A FULL REFUND.  
ii  
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Notice  
CABLETRON SOFTWARE PROGRAM LICENSE  
1.  
LICENSE. You have the right to use only the one (1) copy of the Program provided in this  
package subject to the terms and conditions of this License Agreement.  
You may not copy, reproduce or transmit any part of the Program except as permitted by the  
Copyright Act of the United States or as authorized in writing by Cabletron.  
2.  
3.  
OTHER RESTRICTIONS. You may not reverse engineer, decompile, or disassemble the  
Program.  
APPLICABLE LAW. This License Agreement shall be interpreted and governed under the laws  
and in the state and federal courts of New Hampshire. You accept the personal jurisdiction and  
venue of the New Hampshire courts.  
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).  
CABLETRON DISCLAIMS ALL WARRANTIES, OTHER THAN THOSE SUPPLIED TO  
YOU BY CABLETRON IN WRITING, EITHER EXPRESSED OR IMPLIED, INCLUDING  
BUT NOT LIMITED TO IMPLIED WARRANTIES OF MERCHANTABILITY AND  
FITNESS FOR A PARTICULAR PURPOSE, WITH RESPECT TO THE PROGRAM, THE  
ACCOMPANYING WRITTEN MATERIALS, AND ANY ACCOMPANYING HARDWARE.  
2.  
NO LIABILITY FOR CONSEQUENTIAL DAMAGES. IN NO EVENT SHALL  
CABLETRON OR ITS SUPPLIERS BE LIABLE FOR ANY DAMAGES WHATSOEVER  
(INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF BUSINESS,  
PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION, SPECIAL,  
INCIDENTAL, CONSEQUENTIAL, OR RELIANCE DAMAGES, OR OTHER LOSS)  
ARISING OUT OF THE USE OR INABILITY TO USE THIS CABLETRON PRODUCT,  
EVEN IF CABLETRON HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH  
DAMAGES. BECAUSE SOME STATES DO NOT ALLOW THE EXCLUSION OR  
LIMITATION OF LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL DAMAGES, OR  
ON THE DURATION OR LIMITATION OF IMPLIED WARRANTIES, IN SOME  
INSTANCES THE ABOVE LIMITATIONS AND EXCLUSIONS MAY NOT APPLY TO  
YOU.  
UNITED STATES GOVERNMENT RESTRICTED RIGHTS  
The enclosed product (a) was developed solely at private expense; (b) contains “restricted computer  
software” submitted with restricted rights in accordance with Section 52227-19 (a) through (d) of the  
Commercial Computer Software - Restricted Rights Clause and its successors, and (c) in all respects  
is proprietary data belonging to Cabletron and/or its suppliers.  
For Department of Defense units, the product is licensed with “Restricted Rights” as defined in the  
DoD Supplement to the Federal Acquisition Regulations, Section 52.227-7013 (c) (1) (ii) and its  
successors, and use, duplication, disclosure by the Government is subject to restrictions as set forth in  
subparagraph (c) (1) (ii) of the Rights in Technical Data and Computer Software clause at  
252.227-7013. Cabletron Systems, Inc., 35 Industrial Way, Rochester, New Hampshire 03867-0505.  
iii  
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Notice  
DECLARATION OF CONFORMITY  
Application of Council Directive(s): 89/336/EEC  
73/23/EEC  
Manufacturer’s Name: Cabletron Systems, Inc.  
Manufacturer’s Address: 35 Industrial Way  
PO Box 5005  
Rochester, NH 03867  
European Representative Name: Mr. J. Solari  
European Representative Address: Cabletron Systems Limited  
Nexus House, Newbury Business Park  
London Road, Newbury  
Berkshire RG13 2PZ, England  
Conformance to Directive(s)/Product Standards: EC Directive 89/336/EEC  
EC Directive 73/23/EEC  
EN 55022  
EN 50082-1  
EN 60950  
Equipment Type/Environment: Networking Equipment, for use in a  
Commercial or Light Industrial  
Environment.  
We the undersigned, hereby declare, under our sole responsibility, that the equipment packaged  
with this notice conforms to the above directives.  
Manufacturer  
Legal Representative in Europe  
Mr. Ronald Fotino  
Mr. J. Solari  
___________________________________  
___________________________________  
Full Name  
Full Name  
Principal Compliance Engineer  
Managing Director - E.M.E.A.  
___________________________________  
___________________________________  
Title  
Title  
Rochester, NH, USA  
Newbury, Berkshire, England  
___________________________________  
___________________________________  
Location  
Location  
iv  
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CONTENTS  
CHAPTER 1 INTRODUCTION  
1.1 ABOUT THIS MANUAL ........................................................................1-1  
1.2 GETTING HELP.......................................................................................1-2  
1.4 RELATED DOCUMENTATION ...........................................................1-4  
1.5 OVERVIEW...............................................................................................1-4  
1.5.1 SmartSTACK 10 ELS10-26 Architecture.....................................1-6  
1.5.2 SmartSTACK 10 ELS10-26 Bridge Address Table.....................1-9  
1.5.3 SmartSTACK 10 ELS10-26 Port Monitoring ............................1-10  
1.5.4 SmartSTACK 10 ELS10-26 Sample Applications ....................1-11  
1.6 LOCAL CONSOLE MANAGER..........................................................1-18  
1.6.1 Command Syntax Conventions.................................................1-18  
1.6.2 Basic LCM Commands................................................................1-20  
CHAPTER 2 UNPACKING AND INSTALLING  
YOUR ELS10-26  
2.1 ELS10-26 FRONT PANEL.......................................................................2-1  
2.2 INSTALLING AN FEPIM.......................................................................2-4  
2.3 INSTALLING THE ELS10-26.................................................................2-5  
2.4 CHECKING THE POWER-UP DIAGNOSTICS SEQUENCE...........2-8  
2.5 CONNECTING THE LOCAL CONSOLE MANAGER .....................2-9  
2.6 CONNECTING TO THE NETWORK...................................................2-9  
2.6.1 Connecting UTP Cables ..............................................................2-10  
2.6.2 Connecting a UTP Segment to the FE-100TX ..........................2-11  
2.6.3 Connecting a Multimode Segment to the FE-100FX...............2-13  
CHAPTER 3 CONFIGURING YOUR ELS10-26  
3.1 ASSIGNING IP ADDRESSES.................................................................3-2  
3.1.1 Displaying IP Addresses...............................................................3-3  
3.1.2 Deleting an IP Address .................................................................3-3  
3.1.3 Changing a Subnet Mask..............................................................3-4  
3.2 ENABLING BRIDGING..........................................................................3-4  
3.3 DISABLING BRIDGING.........................................................................3-5  
3.4 DISPLAYING BRIDGING FUNCTIONS .............................................3-5  
3.5 ENABLING TRUNKING........................................................................3-6  
3.6 DISABLING TRUNKING.......................................................................3-9  
3.7 DISPLAYING TRUNKING STATUS....................................................3-9  
3.8 ENABLING PORT MONITORING.....................................................3-11  
3.9 DISABLING MONITORING................................................................3-12  
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Contents  
3.10 DISPLAYING MONITORING STATUS...........................................3-12  
3.11 DEFINING AND DELETING WORKGROUPS ..............................3-14  
3.12 ASSIGNING A COMMUNITY NAME.............................................3-16  
3.13 CONFIGURING BROADCAST/MULTICAST STORM  
PROTECTION ......................................................................................3-17  
3.14 MODIFYING MIB VARIABLES.........................................................3-18  
3.15 SYSTEM CONTACT............................................................................3-18  
3.16 SYSTEM NAME ...................................................................................3-18  
3.16.1 System Location .......................................................................3-19  
3.16.2 Community Names..................................................................3-19  
3.16.3 Aging Parameter ......................................................................3-19  
CHAPTER 4 MONITORING AND MANAGING  
YOUR ELS10-26  
4.1 ELS10-26 MANAGEMENT TOOLS ......................................................4-1  
4.2 ELS10-26 STATISTICS.............................................................................4-1  
4.2.1 Gathering Statistics ........................................................................4-2  
4.2.2 System Statistics .............................................................................4-2  
4.2.3 Ethernet Port Statistics ..................................................................4-3  
4.3 USING LCM TO CHECK ELS10-26 STATUS ......................................4-4  
4.3.1 Displaying Status ...........................................................................4-4  
4.3.2 Displaying MAC Addresses.........................................................4-6  
4.3.3 Displaying Manufacturing Information .....................................4-8  
4.4 MANAGING THE ELS10-26..................................................................4-9  
4.5 USING LCM TO MANAGE THE ELS10-26.........................................4-9  
4.5.1 Disabling a Port..............................................................................4-9  
4.5.2 Enabling a Port .............................................................................4-10  
4.5.3 Changing a Subnet Mask............................................................4-11  
4.5.4 Changing a Community Name..................................................4-12  
4.5.5 Setting the Baud Rate ..................................................................4-13  
4.5.6 Setting a Reboot Time..................................................................4-14  
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Contents  
CHAPTER 5 ELS10-26 DIAGNOSTICS AND  
TROUBLESHOOTING  
5.1 POWER-UP DIAGNOSTICS..................................................................5-1  
5.1.1 Power-up LED Sequence ..............................................................5-1  
5.1.2 Specific Power-up Tests................................................................5-2  
5.1.3 Software Checksum Comparison................................................5-2  
5.1.4 Power-up Diagnostics Results .....................................................5-3  
5.2 RESPONSES TO FAILURES AT POWER-UP......................................5-3  
5.3 STATUS AND ACTIVITY INDICATORS ............................................5-3  
5.4 TROUBLESHOOTING............................................................................5-6  
5.5 ELS10-26 DOES NOT POWER UP ........................................................5-6  
5.5.1 Connectivity Problems..................................................................5-6  
5.5.2 ELS10-26 Has Rebooted ................................................................5-6  
5.5.3 ELS10-26 Does Not Respond to NMS.........................................5-7  
APPENDIX A TECHNICAL SPECIFICATIONS  
A.1 ELS10-26 SPECIFICATIONS ...............................................................A-1  
A.2 Serial Cable Pin Assignments .............................................................A-3  
A.3 10BASE-T Pin Assignments .................................................................A-4  
A.4 Straight-through Wiring ......................................................................A-5  
A.5 Crossover Wiring.................................................................................. A-6  
A.6 The 5 - 4 - 3 Rule ....................................................................................A-6  
A.7 FEPIM Specifications ............................................................................A-7  
APPENDIX B GLOSSARY  
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Contents  
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CHAPTER 1  
INTRODUCTION  
1.1 ABOUT THIS MANUAL  
This manual is for system administrators responsible for  
configuring, monitoring, and maintaining the SmartSTACK 10  
ELS10-26TX. You should have a familiarity with networking  
concepts and principles. In addition, a basic understanding of  
SNMP is helpful.  
Some SmartSTACK 10 ELS10-26 configurations can only be done  
using an SNMP-based Network Management System (NMS).  
Where applicable, this manual provides instructions for using the  
Local Console Manager (LCM) to perform basic configuration.  
Where it is not possible to use LCM, general instructions and  
guidelines applicable to most NMSs are provided.  
The contents of each chapter are described below.  
• Chapter 1, Introduction, outlines the contents of this manual  
and provides an overview of the SmartSTACK 10 ELS10-26’s  
switching functions, applications, and the Local Console  
Manager (LCM).  
• Chapter 2, Unpacking and Installing Your ELS10-26, describes  
the SmartSTACK 10 ELS10-26 front and rear panels, how to  
install the SmartSTACK 10 ELS10-26, how to connect the Local  
Console Manager (LCM), and how to connect the ELS10-26 to  
the network.  
• Chapter 3, Configuring Your ELS10-26, provides instructions  
for configuring the SmartSTACK 10 ELS10-26 using the Local  
Console Manager (LCM). It also provides some common  
Management Information Base (MIB) variables you may want to  
change.  
• Chapter 4, Monitoring and Managing Your ELS10-26, describes  
how to monitor SmartSTACK 10 ELS10-26 status and statistics.  
It also describes how to manage the SmartSTACK 10 ELS10-26  
Ethernet ports using the Local Console Manager (LCM).  
1-1  
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Introduction  
• Chapter 5, ELS10-26 Diagnostics and Troubleshooting,  
describes the SmartSTACK 10 ELS10-26 diagnostics and  
provides information on troubleshooting common problems.  
• Appendix A, Technical Specifications, provides the  
SmartSTACK 10 ELS10-26 specifications and basic cabling pin  
assignments.  
• Appendix B, Glossary, provides a glossary of terms both specific  
to the SmartSTACK 10 ELS10-26 and common to the networking  
field.  
1.2 GETTING HELP  
If you need additional support related to the SmartSTACK 10  
ELS10-26, or if you have any questions, comments, or suggestions  
concerning this manual, contact Cabletron Systems Global Call  
Center:  
Phone:  
(603) 332-9400  
Internet mail:  
FTP:  
ctron.com (134.141.197.25)  
anonymous  
Login:  
Password:  
your email address  
BBS:  
(603) 335-3358  
Modem setting:  
8N1: 8 data bits, No parity, 1 stop bit  
1-2  
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Introduction  
Before calling Cabletron Systems Global Call Center, have the  
following information ready:  
Your Cabletron Systems contract number  
• A description of the failure  
• A description of any action(s) already taken to resolve the  
problem (e.g., changing mode switches, rebooting the unit, etc.)  
• The serial and revision numbers of all Cabletron Systems  
products in the network  
• A description of your network environment (layout, cable type,  
etc.)  
• Network load and frame size at the time of trouble (if known)  
• The device history (i.e., have you returned the device before, is  
this a recurring problem, etc.)  
• Any previous Return Material Authorization (RMA) numbers  
For additional information about Cabletron Systems products,  
visit our World Wide Web site: http://www.cabletron.com  
1.3 DOCUMENT CONVENTIONS  
The following conventions are used throughout this document:  
LCM commands, prompts, and information displayed by the  
computer appear in Courier typeface, for example:  
Current Number of Learned Addresses: 133  
Information that you enter appears in Courier bold typeface, for  
example:  
ELS10-26 >status  
Information that you need to enter with a command is enclosed in  
angle brackets < >. For example, you must enter a port number  
1-3  
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Introduction  
and an IP address to execute the ipaddr <port #> <IP address>  
command:  
ELS10-26 >ipaddr 6 192.138.217.40  
Field value options appear in bold typeface.  
The following conventions are also used in this document:  
Note: Calls the reader’s attention to any item of information that may be  
of special importance.  
Tip: Conveys helpful hints concerning procedures or actions.  
Caution: Contains information essential to avoid damage to the  
equipment.  
Warning: Warns against an action that could result in equipment  
damage, personal injury or death.  
1.4 RELATED DOCUMENTATION  
The following documentation may assist the user in using this  
product:  
Getting Started with the SmartSTACK 10 ELS10-26 - contains the  
basic information for using the SmartSTACK 10 ELS10-26.  
SmartSTACK 10 ELS10-26 MIB Reference Guide – contains  
enterprise MIB information.  
Interconnections, Bridges and Routers, Radia Perlman, Addison  
Wesley © 1992.  
Internetworking with TCP/IP: Principles, Protocols, and Architecture  
(2nd edition), Volumes I and II, Douglas Comer, Prentice Hall ©  
1991.  
The Simple Book, An Introduction to Management of TCP/IP-based  
internets, Marshall T. Rose, Prentice Hall © Second Edition, 1994.  
1-4  
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Introduction  
1.5 OVERVIEW  
The SmartSTACK 10 ELS10-26TX is an intelligent Ethernet-to-  
Full Duplex Ethernet ports, one fixed 100BASE-TX copper  
connection, one port supporting either a copper or fiber 100 Mbps  
FEPIM (Fast Ethernet Port Interface Module), and one fixed RJ45  
for port monitoring of the 10 Mbps ports.  
It also includes an RS232C port for out-of-band management.  
Figure 1-1 shows the front panel for the SmartSTACK 10  
ELS10-26TX.  
.
ELS10-26TX Front Panel  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
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5
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15  
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18  
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20  
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24  
25  
26  
27  
10  
MON  
RX COL 100 USR  
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Figure 1-1. SmartSTACK 10 ELS10-26 Front Panel  
The SmartSTACK 10 ELS10-26  
• Provides dedicated bandwidth for each network connected to  
its ports.  
• Provides full store and forward bridging functionality.  
• Provides complete error checking functionality.  
• Provides port trunking to increase bandwidth.  
• Provides a dedicated monitor port for enhanced  
troubleshooting.  
• Supports Auto-negotiation.  
1-5  
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Introduction  
• Operates in either Half Duplex or Full Duplex modes on all  
ports.  
• Implements the Spanning Tree protocol (802.1d).  
• Configured with factory-set defaults for immediate plug-and-  
play capability (IP address is not configured at factory).  
In addition, the SmartSTACK 10 ELS10-26 offers the following  
features that can help you manage and maintain your network:  
• RMON support.  
• Configuration and management using the Simple Network  
Management Protocol (SNMP) with either an in-band or out-of-  
band connection.  
• Protection against broadcast/multicast storms.  
• Ability to define virtual workgroups for more efficient  
bandwidth usage. The SmartSTACK 10 ELS10-26 ports can be  
segmented into 8 separate broadcast domains.  
• Compilation of statistics (by port) for traffic generated by each  
user device connected to a SmartSTACK 10 ELS10-26 segment.  
1.5.1 SmartSTACK 10 ELS10-26 Architecture  
The SmartSTACK 10 ELS10-26 enables you to link two or more  
Local Area Networks (LANs) together. To accomplish this, the  
SmartSTACK 10 ELS10-26 regulates network traffic on the basis of  
the source and destination addresses that are in each data packet it  
receives.  
The SmartSTACK 10 ELS10-26 is protocol-transparent, meaning it  
can handle different types of network traffic regardless of the  
network protocol, such as IP and IPX. As the SmartSTACK 10  
ELS10-26 reads addresses from the packets it processes, it builds a  
dynamic database of addresses called the Bridge Address Table. In  
this way, the SmartSTACK 10 ELS10-26 continuously learns the  
addresses of all connected devices. Consequently, you can add  
1-6  
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Introduction  
new devices to the network, change device addresses, and remove  
devices from the network without having to reconfigure the  
SmartSTACK 10 ELS10-26.  
The Open System Interconnection (OSI) Reference Model,  
developed by the International Standards Organization (ISO),  
identifies the levels of functionality inherent in each of its seven  
layers. The SmartSTACK 10 ELS10-26 operates at the Media Access  
Control (MAC) sub-layer of the Data Link layer. Figure 1-2 shows  
the OSI Reference Model.  
7
Application  
Presentation  
6
5
4
3
2
Session  
Transport  
Network  
Data Link  
ELS10-26 operates at Layer 2  
1
Physical  
Figure 1-2. OSI Reference Model  
Because the SmartSTACK 10 ELS10-26 does not process any  
Network Layer information, it provides a high level of  
performance in terms of packet throughput. In addition, the  
SmartSTACK 10 ELS10-26 does not need to learn network  
topology, requiring less programming and configuration time.  
Store and Forward Switching  
As an intelligent Ethernet switch, the SmartSTACK 10 ELS10-26  
uses store and forward switching. Store and forward switching  
allows the SmartSTACK 10 ELS10-26 to temporarily store packets  
until network resources, typically an unused link, are available for  
forwarding. This allows for complete error checking, and limits the  
amount of time between when a device requests access to the  
1-7  
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Introduction  
network and when it is granted permission to transmit. In  
addition, full store and forward switching ensures data integrity,  
thus preventing network error conditions from being generated  
throughout the network.  
Discarding Local Traffic  
The SmartSTACK 10 ELS10-26 checks all incoming packets for  
their destination address against the Bridge Address Table. If a  
packet’s destination address is not on the same network segment  
as the originating packet, the SmartSTACK 10 ELS10-26 forwards  
address, if known. However, if the packet’s source and destination  
address are on the same network segment, known as local traffic,  
the packet is automatically discarded (i.e., ignored by the  
SmartSTACK 10 ELS10-26).  
For example, a file transmitted from Workstation A to Workstation  
C in Figure 1-3 does not need to leave LAN 1. The SmartSTACK 10  
ELS10-26 connected to LANs 1 and 2 sees all traffic from LAN 1,  
including LAN 1 local traffic.  
ELS10-26  
FastNet 10  
LAN 1  
LAN 2  
A
B
C
Figure 1-3. Typical Switching Application  
1-8  
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Introduction  
By forwarding only packets addressed to devices on other network  
segments, the SmartSTACK 10 ELS10-26 reduces unnecessary  
traffic and thereby enhances the overall performance of the  
network.  
Note: If the packet address is not found in the Bridge Address Table, it  
will be forwarded (flooded) to all network segments.  
Spanning Tree Algorithm  
The SmartSTACK 10 ELS10-26 supports the IEEE 802.1d Spanning  
Tree algorithm. The Spanning Tree algorithm converts multiple  
LANs into a “spanning tree” of networks. It is used to prevent  
bridging loops. This standard defines a logical (not physical)  
network configuration consisting of one extended LAN without  
active duplicate paths between spanning tree bridges.  
The SmartSTACK 10 ELS10-26, along with other IEEE 802.1d  
Spanning Tree compliant bridges in the network, dynamically  
configure the network topology into a single Spanning Tree by  
exchanging Bridge Protocol Data Units (BPDUs). Typically, each  
LAN segment is sent one BPDU every two seconds (this is the  
default setting).  
When there are multiple SmartSTACK 10 ELS10-26s connecting  
LANs in a loop, the Spanning Tree algorithm determines which  
SmartSTACK 10 ELS10-26 should forward packets to the LAN. If  
there is a cable break or a port failure, the network topology is  
automatically reconfigured by the Spanning Tree protocol to create  
an alternate path to the LAN.  
1.5.2 SmartSTACK 10 ELS10-26 Bridge Address Table  
The SmartSTACK 10 ELS10-26 creates and maintains a dynamic  
database of addresses called the Bridge Address Table. The  
SmartSTACK 10 ELS10-26 examines every packet to determine its  
source address and LAN segment origin. It then compares the  
source address and segment information it finds to the entries in  
the Bridge Address Table.  
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Introduction  
If a packet’s address is not already stored in the Bridge Address  
Table, the SmartSTACK 10 ELS10-26 adds the learned address,  
associated segment number, and a timer value indicating the age  
of the observation. Consequently, the SmartSTACK 10 ELS10-26  
knows the address and associated segment number the next time it  
sees that address. By using the information stored in the Bridge  
Address Table, the SmartSTACK 10 ELS10-26 is able to quickly  
forward each packet to the correct LAN segment.  
The SmartSTACK 10 ELS10-26 learns addresses from all packets,  
including data transmissions and “keep alive” packets (packets  
sent by an idle station to let other stations know it is present and  
functional). When devices are added to the network, removed  
from it, or relocated, you do not have to reconfigure the  
SmartSTACK 10 ELS10-26. The unit automatically learns new  
device addresses, recognizes when a previously used address is  
missing, or when a device has been moved to a new LAN segment.  
An address stored in the Bridge Address Table is discarded if there  
is no subsequent activity from that address after a configured  
length of time (five minutes by default). This aging process ensures  
that the Bridge Address Table is continually updated.  
Addresses are continually added to and deleted from the Bridge  
Address Table, reflecting the dynamic nature of internetwork  
traffic.  
Each dynamic entry includes:  
• An Ethernet MAC address  
• A single port number of the LAN on which the address resides  
• The age of the entry  
The SmartSTACK 10 ELS10-26 stores 979 dynamic (learned) entries  
in its Bridge Address Table.  
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Introduction  
1.5.3 SmartSTACK 10 ELS10-26 Port Monitoring  
Port monitoring allows the SmartSTACK 10 ELS10-26 to redirect  
network traffic (including MAC layer errors) from one port to the  
port monitoring port (MONX port), in effect “mirroring” all  
network traffic to this port. This feature allows users who have  
existing investments in external analyzers, external RMON probes,  
TM  
or devices like Network General's Distributed Sniffer System to  
continue to receive expert analysis and packet decode functions in  
a switched environment -- simply use the port mirroring function  
to mirror switched traffic to the designated “diagnostic” port to  
which the analyzer is attached.  
The SmartSTACK 10 ELS10-26 supports local port mirroring.  
Local port mirroring is when the diagnostic port is on the same  
SmartSTACK 10 ELS10-26 as the mirrored port. The mirrored port  
has to be local to the SmartSTACK 10 ELS10-26.  
Packet Capturing and Monitoring  
Only the 10BASE-T ports on the SmartSTACK 10 ELS10-26 (and  
not the 100BASE ports) can be mirrored. The monitoring of  
network traffic is performed by the SmartSTACK 10 ELS10-26  
hardware.  
1.5.4 SmartSTACK 10 ELS10-26 Sample Applications  
Just as a six lane highway allows you to travel much faster than a  
single lane highway, a network backbone creates high-speed  
connections for your network. In general, a network backbone  
allows you to distribute access to important network resources  
such as file or print servers. Additional SmartSTACK 10 ELS10-26  
features, such as trunking, Fast Ethernet, and virtual workgroups  
allow you to optimize bandwidth and design a more efficient flow  
for your network traffic.  
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Introduction  
SmartSTACK 10 ELS10-26 Trunking  
The SmartSTACK 10 ELS10-26 allows two trunk groups with up to  
eight ports each to be connected between the SmartSTACK 10  
ELS10-26 and other devices in the FastNetwork and SmartSTACK  
families. This capability provides a scalable dedicated bandwidth  
of up to 160 Mbps for 10 Mbps ports and 400 Mbps for 100 Mbps  
ports.  
For example, local traffic, such as the Manufacturing Department’s  
internal traffic, can be easily handled by a single, 10 Mbps  
connection. However, when the Manufacturing Department needs  
access to the corporate database, the traffic could travel over a  
trunk line, thereby increasing the speed of transmission.  
Figure 1-4 illustrates the trunking of multiple SmartSTACK 10  
ELS10-26 ports to increase the bandwidth.  
LAN segments  
10 Mbps  
10 Mbps  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
RX COL 100 USR  
1
2
3
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14  
15  
16  
17  
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21  
22  
23  
24  
25  
26  
27  
10  
MON  
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
ELS10-26  
ELS10-26  
Up to 80 Mbps  
Bandwidth  
Trunk Lines  
ELS10-26TX  
PORT STATUS MODE  
T
X
A
C
T
F
D
X
M
O
N
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27  
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MON  
R
X
C
O
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0
0
U
S
R
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
10 Mbps  
10 Mbps  
LAN segments  
Figure 1-4. SmartSTACK 10 ELS10-26 Trunking with 10 Mbps Ports  
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Introduction  
Figure 1-5 illustrates how the SmartSTACK 10 ELS10-26 can be  
used in a backbone network configuration.  
Servers  
Network  
Management  
Station  
ELS10-26  
10BASE-T Cables  
ELS10-26TX  
PORT STATUS MODE  
T
X
A
C
T
F
D
X
M
O
N
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11  
12  
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24  
25  
26  
27  
10  
MON  
R
X
C
O
L
1
0
0
U
S
R
FEPIM  
Network Switch  
WAN Router  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Trunk Lines  
ELS10-26  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
3
4
5
6
7
8
9
11  
12  
13  
14  
15  
16  
17  
18  
19  
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23  
24  
25  
26  
27  
10  
MON  
R
X
C
O
L
1
0
0
U
S
R
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
10BASE-T Cables  
Workgroup  
Hub  
Figure 1-5. SmartSTACK 10 ELS10-26 Backbone Configuration  
SmartSTACK 10 ELS10-26 Fast Ethernet  
The SmartSTACK 10 ELS10-26 has two additional ports that  
provide fast Ethernet connections of 100 Mbps. Applying this  
increased bandwidth to the previous example, the Manufacturing  
Department’s traffic to the corporate database could be  
transmitted to the corporate database at the 100 Mbps rate.  
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Introduction  
Figure 1-6 illustrates connecting two SmartSTACK 10 ELS10-26  
Fast Ethernet ports to increase the bandwidth to 200 Mbps.  
LAN segment  
ELS10-26  
ELS10-26TX  
PORT STATUS MODE  
T
X
A
C
T
F
D
X
M
O
N
1
2
3
4
5
6
7
8
9
1
1
13  
14  
15  
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18  
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23  
24  
25  
26  
27  
10  
12  
MON  
R
X
C
O
L
1
0
0
U
S
R
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Front Panel  
Front Panel  
200 Mbps bandwidth  
(Fast Ethernet, Full Duplex)  
ELS10-26  
ELS10-26TX  
PORT STATUS MODE  
T
X
A
C
T
F
D
X
M
O
N
1
2
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4
5
6
7
8
9
1
1
13  
14  
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27  
10  
12  
MON  
R
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O
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1
0
0
U
S
R
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
LAN segment  
Figure 1-6. SmartSTACK 10 ELS10-26 Trunking with 100 Mbps Ports  
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Introduction  
Figure 1-7 illustrates how the SmartSTACK 10 ELS10-26 can be  
used in a backbone network configuration using increased  
bandwidth of the Fast Ethernet configuration.  
Network  
Management  
Station  
Servers  
10BASE-T Cables  
ELS10-26  
ELS10-26TX  
PORT STATUS MODE  
T
X
A
C
T
F
D
X
M
O
N
1
2
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11  
12  
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16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
10  
MON  
R
X
C
O
L
1
0
0
U
S
R
FEPIM  
Network Switch  
WAN Router  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
100 Mbps (Fast Ethernet)  
ELS10-26  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
3
4
5
6
7
8
9
11  
12  
13  
14  
15  
16  
17  
18  
19  
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21  
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23  
24  
25  
26  
27  
10  
MON  
R
X
C
O
L
1
0
0
U
S
R
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
10BASE-T Cables  
Workgroup  
Hub  
Figure 1-7. SmartSTACK 10 ELS10-26 Backbone Configuration  
Virtual Workgroups  
The SmartSTACK 10 ELS10-26 allows you to define ports for  
logical groups of associated devices (virtual workgroups) to  
provide a more efficient flow of traffic across your Ethernet  
network. You can define a maximum of eight virtual workgroups.  
Virtual workgroups offer you the ability to limit broadcasts to  
logical domains within the network. Workgroup destinations are  
recognized by the SmartSTACK 10 ELS10-26 and broadcast packets  
are routed directly to hosts within the workgroup, eliminating the  
need to perform a general broadcast across each segment of the  
network to find specific host addresses.  
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Introduction  
Figure 1-8 shows two Ethernet segments, A and B, that do not  
include a SmartSTACK 10 ELS10-26.  
Repeater  
B
A
Traffic  
Traffic  
Figure 1-8. Multiple Ethernet Segments Sharing 10 Mbps Bandwidth  
Each host on segments A and B is limited to sharing a network  
bandwidth of 10 Mbps.  
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Introduction  
Figure 1-9 shows two Ethernet segments that take advantage of the  
virtual workgroup feature of the SmartSTACK 10 ELS10-26 and the  
increased bandwidth applied to each A and B host.  
Router  
A
B
ELS10-26  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
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5
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11  
12  
13  
14  
15  
16  
17  
18  
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23  
24  
25  
26  
27  
10  
MON  
R
X
C
O
L
1
0
0
U
S
R
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
A
A
A
B
B
B
Workgroup A  
Workgroup B  
A
A
B
B
Figure 1-9. Using the SmartSTACK 10 ELS10-26 to Create Virtual  
Workgroups  
to Help Optimize Bandwidth  
A host from workgroup A can limit a broadcast to all hosts within  
workgroup A and prevent the broadcast from going across the  
network and adding to the amount of contention for the limited  
10 Mbps bandwidth.  
Ports that are not part of a workgroup will receive and transmit  
packets from any ports. However, if you configure the  
SmartSTACK 10 ELS10-26 with workgroup A and B, as shown in  
Figure 1-9, broadcast traffic from workgroup A ports will not be  
seen on workgroup B ports, and vice versa.  
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Introduction  
As illustrated in the previous diagram, virtual workgroups allow  
you to associate multiple ports and define a workgroup. In reality,  
you are assigning workgroup IDs to SmartSTACK 10 ELS10-26  
ports.  
1.6 LOCAL CONSOLE MANAGER  
The Local Console Manager (LCM) is a command-line interface  
built into the SmartSTACK 10 ELS10-26. The LCM t enables you to  
monitor, manage, and configure the SmartSTACK 10 ELS10-26  
through the out-of-band RS232C connection attached to any non-  
intelligent terminal or workstation running terminal emulation.  
You can also use a Cabletron Systems Network Management  
System, or a standard SNMP-based Network Management System,  
to manage the SmartSTACK 10 ELS10-26. For a list of available  
SmartSTACK 10 ELS10-26 network management tools, see Section  
4.1, SmartSTACK 10 ELS10-26 Management Tools.  
The following sections describe LCM command syntax and the  
basic LCM commands for logging in, logging out, and getting  
help.  
• LCM commands used for configuring the SmartSTACK 10  
ELS10-26 are described in Chapter 3, Configuring Your  
SmartSTACK 10 ELS10-26.  
• LCM commands used for monitoring and managing the  
SmartSTACK 10 ELS10-26 are described in Chapter 4,  
Monitoring and Managing Your SmartSTACK 10 ELS10-26.  
Note: The Getting Started with the SmartSTACK 10 ELS10-26 guide  
lists the available LCM commands, including each command’s  
options.  
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Introduction  
1.6.1 Command Syntax Conventions  
The following conventions apply as you use LCM commands:  
• Press the Enter key to execute a command after you type it in.  
• A port range is either a single port number, or a list of port  
numbers separated by commas or hyphens. For example, 3is  
port 3; 3,7are ports 3and 7; 3-5are ports 3,4, and 5; and 3-5,7  
are ports 3,4,5,and 7.  
To quit any command, press the Control-C keys (^C or Ctrl-C).  
You can abbreviate any command where there is no ambiguity;  
if there is ambiguity, LCM responds with an error message.  
• Commands are not case sensitive.  
• Any invalid commands or misspellings will receive an error  
message.  
• A previous command can be repeated by typing !!  
• MAC addresses are displayed in little-endian Ethernet (least  
significant bit) bit order, with each octet separated by a colon.  
For example:  
ELS10-26 >address 00:40:27:04:1a:0f  
• Information that you need to enter with an LCM command is  
enclosed in square brackets [ ]. For example, you must enter a  
port number and an IP address to execute the ipaddr [PORT-  
NUMBER] [IP ADDRESS]command:  
ELS10-26 >ipaddr 6 192.138.217.40  
• Parameters that appear in all capital letters, for example bridge  
[PORT-RANGE], indicate that you must enter a value for that  
parameter. If a string of parameters is displayed between braces,  
for example [{off|on|noBPDU}], you must select one of the  
displayed options. For example, if you wanted to enable  
bridging on a port, or a range of ports, you would enter:  
ELS10-26 >bridge 2-4 on  
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Introduction  
1.6.2 Basic LCM Commands  
If you are going to manage the SmartSTACK 10 ELS10-26 using  
LCM, you first must connect the SmartSTACK 10 ELS10-26 to an  
ASCII terminal or terminal emulator. See Section 2.5, Connecting  
the Local Console Manager, for instructions.  
When you want to use LCM, begin by pressing the Enter key  
several times to get the LCM prompt (ELS10-26 >).  
Help  
Displays the menu of available commands. Help can also be  
displayed by typing a question mark (?). The output from the help  
command is displayed below.  
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Introduction  
ELS10-26 > help  
ELS10-26 Local Console Manager  
this menu  
help or ?  
status [PORT-RANGE]  
to display unit or port status  
baud [BAUD-RATE]  
to change the console baud rate  
to logout  
exit or logout  
erase  
to erase configuration information  
to display unit identification  
to set or display IP addresses  
to display learned addresses  
to set bridging methods  
indent  
ipaddr [PORT# IPADDR [MASK]]  
addresses display [any] [ADDR [MASK]]  
bridge [PORT-RANGE [OPTIONS]]  
clearstats  
to clear all port statistics  
to set or display trunking status  
to enable a set of ports  
trunk [PORT-RANGE [{on|off}]]  
enable [PORT-RANGE [noRIP][TransmitPacing]]  
disable [PORT-RANGE]  
to disable a set of ports  
community  
to change the password/community name  
to set or display st age timer  
to set or display workgroups  
to set or display speed  
sttimer [TIME-VALUE]  
workgroup [NAME [delete|PORT-RANGE [INFO]]]  
speed [PORT-RANGE [{auto|10|100}]]  
duplex [PORT-RANGE [{auto|half|full}]]  
mirror [PORT# [{Rx|Tx|both|off}]]  
time [SystemTime (HHMMSS)]  
date [SystemDate (MMDDYY)]  
reboot (SECONDS|off)  
to set or display duplex mode  
to set or display port mirroring  
to set or display the system time  
to set or display the system date  
to reboot the unit after seconds  
to display arp table information  
to display routing table information  
to send ICMP ECHO_REQUEST pkts  
arp display  
route display  
ping [-rvsx] HOST [DATASIZE [count]]  
traceroute [-m MAX_TTL] [-q NQUERIES][-w WAIT] HOST_IP [DATA_SIZE] to print the route  
pkts take to host  
traplog  
to display the most recent SNMP traps  
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Introduction  
Erase  
Entering eraseto erase the current SmartSTACK 10 ELS10-26  
configuration returns all parameters to the default values.  
Exit or Logout  
Logs you out of LCM. (The exitcommand is functionally  
equivalent to the logout command.)  
Traplog  
Displays the traps messages captured by the SmartSTACK 10  
ELS10-26. The following is an example of a traplog display:  
ELS10-26TX> traplog  
Trap 16 0:00:00  
The unit has booted.  
Trap 25 0:00:00  
The unit’s spanning tree maximum age has changed.  
Trap 26 0:00:00  
The unit’s spanning tree hello time has changed.  
Trap 27 0:00:00  
The unit’s spanning tree forward delay times has changed.  
Trap 3 0:00:02 port 1  
The current functional state of the port has changed.  
ELS10-26TX>  
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CHAPTER 2  
UNPACKING AND INSTALLING  
YOUR ELS10-26  
Carefully unpack the ELS10-26 from the shipping carton and  
inspect it for possible damage. If any damage is evident, contact  
your supplier. The shipping carton contains the following:  
• The ELS10-26 unit  
• One AC power cord  
• Console Cable kit  
Two rack-mounting brackets with fasteners (for rack-mount  
installation)  
• Documentation – In addition to this manual, the Getting Started  
with the SmartSTACK 10 ELS10-26 guide, the ELS10-26 MIB  
Reference Guide, and Release Notes are also included.  
2.1 ELS10-26 FRONT PANEL  
The ELS10-26 provides 25 10BASE-T Ethernet ports, and one  
100BASE-T Fast Ethernet connection. An additional 100 Mbps port  
can be added by using an FEPIM (either copper or fiber). Each  
ELS10-26 also includes one fixed port used for port mirroring of  
the 10BASE-T ports, and an RS232C port for out-of-band  
management. Figure 2-1 shows the ELS10-26’s front panel. The  
LEDs and buttons are described in Tables 2-1 and 2-2.  
2-1  
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Unpacking and Installing Your ELS10-26  
100BASE Ethernet Port  
Reset Switch  
Status LEDs  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
3
4
5
6
7
8
9
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
10  
MON  
RX COL 100 USR  
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Monitor Port  
100BASE Ethernet FEPIM Port  
Status Button  
Com Port  
RJ45 Ethernet 10BASE-T Ports  
Figure 2-1. ELS10-26 Front Panel  
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Table 2-1. Meaning of ELS10-26 LEDs  
LED  
Meaning  
Port Status Mode  
TX  
On – Indicates port is transmitting a packet.  
On – Indicates port is receiving a packet.  
On – Indicates port is transmitting or receiving.  
On – Indicates a collision on a port.  
RX  
ACT  
COL  
FDX  
100  
On - Port is operating in Full Duplex.  
Off - Port is operating in Half Duplex.  
On - Port operating at 100 Mbps.  
Off - Port operating at 10 Mbps.  
On - Indicates the port is copying to the monitor  
port.  
MON  
USR  
On - Indicates that errored packets were received.  
Link (Individual  
Ports)  
On – Indicates the link is good.  
Off – Indicates there is no link.  
Status  
On/Blinking – Indicates you are monitoring the  
(Individual Ports) port for a selected segment status condition. This  
LED always indicates the selected status mode.  
CPU  
On – Indicates the ELS10-26 is operational.  
Blinking – Indicates the ELS10-26 is running  
power-up diagnostics.  
Off – Indicates the ELS10-26 is non-operational.  
Pwr  
On – Indicates the ELS10-26 is receiving power  
and the voltage is within the acceptable range.  
Off – Indicates the ELS10-26 is not receiving  
power.  
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Table 2-2 describes the ELS10-26 buttons.  
Table 2-2. Description of ELS10-26 Buttons  
Button  
Status  
Function  
Cycles through the Segment Status options (TX, RX,  
Act, Col, FDX, 100, MON, and Usr) for all ports. The  
right-hand port status LEDs of the ports you are  
monitoring are activated based on what function you  
chose with the Select button.  
Reset  
Restarts the ELS10-26.  
2.2 INSTALLING AN FEPIM  
Only qualified personnel should perform installation  
procedures.  
The ELS10-26 provides a slot for a Cabletron FEPIM (Fast Ethernet  
Port Interface Module). The ELS10-26 is shipped without an  
FEPIM. To install an FEPIM, follow the procedure below:  
1. Remove the power cord.  
2. Remove the cover of the ELS10-26.  
3. Remove the two screws securing the plate on the side of the  
FEPIM slot.  
4. Install the FEPIM as shown in Figure 2-2. Ensure that the rear  
connector is seated firmly before tightening the three  
mounting screws.  
5. Replace the plate and two screws on the side of the FEPIM  
slot.  
6. Replace the cover of the ELS10-26.  
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Module  
Module  
Connector  
Standoff  
10  
100  
FE-100TX  
Motherboard  
Connector  
Standoffs  
Faceplate  
Figure 2-2. Installing an FEPIM  
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2.3 INSTALLING THE ELS10-26  
Rack-mounting an ELS10-26  
Table 2-3 describes some general considerations you should be  
aware of before mounting a ELS10-26 in a rack assembly.  
Table 2-3. General Considerations for Mounting an ELS10-26  
Consideration  
Temperature  
Discussion  
Since the temperature within a rack assembly  
may be higher than the ambient room  
temperature, make sure the rack environment  
temperature is within the Operating  
Temperature range specified in Appendix A.  
Air Flow  
Make sure there is at least 2 inches (or more)  
on both sides of the ELS10-26 to allow for  
adequate air flow.  
Mechanical Loading  
Circuit Overloading  
Do not place equipment on top of a rack-  
mounted ELS10-26.  
Make sure the power supply circuit to the  
rack assembly is not overloaded.  
Grounding  
(Earthing)  
Rack-mounted equipment should be  
grounded. In addition to the direct  
connections to the main power supplies, make  
sure all the other supply connections are also  
grounded.  
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The ELS10-26 can be rack-mounted in a standard 19-inch  
equipment cabinet. To mount the ELS10-26 in a rack assembly,  
apply the following steps:  
1. Attach the rackmount brackets to either side of the ELS10-26  
chassis, as shown in Figure 2-3.  
Rackmount  
Brackets (2)  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
3
4
5
6
7
8
9
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
10  
MON  
RX COL 100 USR  
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Screws (4)  
Figure 2-3. Attaching Rackmount Brackets  
2. Place the ELS10-26 chassis in the cabinet.  
3. Secure the ELS10-26 with the rackmount fasteners by inserting  
and securing a fastener through each of the four slots in the  
rack-mount brackets, as shown in Figure 2-4.  
19-Inch Rack  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
3
4
5
6
7
8
9
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
10  
MON  
RX COL 100 USR  
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Screws (4)  
Figure 2-4. Rack-mounting the ELS10-26  
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4. Once the ELS10-26 is installed, plug the AC power cord into  
the AC power connector on the rear of the ELS10-26 chassis.  
Plug the other end of the power cord into a three-prong  
grounded outlet.  
2.4 CHECKING THE POWER-UP DIAGNOSTICS  
SEQUENCE  
Before connecting any devices to the ELS10-26, power on the unit  
and observe the power-up diagnostics sequence to check for  
proper operation.  
To observe the power-up diagnostics sequence completely, you  
may want to repeat it. To restart the power-up sequence, press the  
reset button on the front panel.  
When you power up the ELS10-26, the following occurs:  
1. All LEDs, except the Port Link LEDs, turn on for one second.  
2. The Power (Pwr) LED remains on.  
3. The CPU LED starts flashing.  
4. After several seconds, the Port Link LEDs turn on,  
individually, in sequence, from left to right until all are lit,  
then go off.  
5. After several more seconds, the Ready LED will stay on,  
indicating that the power-up diagnostics sequence is  
complete.  
6. In addition, the Port Link LEDs will turn on for those ports  
with good links and the Segment Status LEDs will turn on (or  
flash) when the selected status condition is present.  
Note: If a critical component fails diagnostics, the CPU LED will turn off  
and the ELS10-26 will attempt to reboot. If the CPU LED does not  
stay on, contact Cabletron Systems Global Call Center. Refer to  
Section 1.2.  
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2.5 CONNECTING THE LOCAL CONSOLE MANAGER  
The Local Console Manager (LCM) is a command-line interface for  
configuring, monitoring, and managing the ELS10-26 through the  
out-of-band RS232C connection on the front panel.  
To connect the LCM:  
1. Connect your ASCII terminal or terminal emulator to the out-  
of-band management RS232C port on the front panel of the  
ELS10-26 using the standard RJ-45 twisted pair cable shipped  
with the unit. (Only three wires are necessary: Receive Data,  
Transmit Data and Ground.)  
2. Set the terminal to 9600 baud, 8N1: 8 data bits, 1 stop bit, and  
no parity, XON/XOFF flow control.  
3. Press the Enter key several times. If the ELS10-26 and terminal  
are operational, LCM responds with the ELS10-26 >prompt.  
4. LCM is now ready to use.  
Refer to Section 1.6, Local Console Manager for a general  
overview of LCM and the command syntax. LCM commands for  
configuring, monitoring, and managing the ELS10-26 are provided  
in the chapters dealing with those topics.  
2.6 CONNECTING TO THE NETWORK  
This section provides the procedures for connecting UTP and  
to the ELS10-26.  
Ports 1 through 26 have RJ45 connectors for UTP connections. Port  
27 supports FE-100TX or FE-100FX Fast Ethernet Interface  
Modules. The FE-100TX has an RJ45 connector for a UTP cable  
connection. The FE-100FX has an SC style MMF connector.  
Refer to Section 2.6.1to make UTP connections.  
Refer to Section 2.6.2 to make a UTP connection to an FE-100TX.  
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Refer to Section 2.6.3 to make a fiber optic connection to an  
FE-100FX.  
2.6.1 Connecting UTP Cables  
Before connecting a segment to the ELS10-26, check each end of the  
segment to verify wire crossover.  
Caution: To establish a link, you must have an odd number of crossovers  
(preferably one) between 10BASE-T devices of the same type  
Connect a twisted pair segment to the ELS10-26 as follows:  
1. Ensure that the device at the other end of the segment is  
connected to the segment and is powered ON.  
2. Refer to Figure 2-5. Connect the twisted pair segment to the  
ELS10-26 by inserting the RJ45 connector on the twisted pair  
segment into the desired RJ45 port.  
.
TUS  
TUS  
A
TUS  
A
TUS  
A
TUS  
A
ST  
TUS  
LINK  
A
ST  
TUS  
LINK  
A
ST  
TUS  
LINK  
A
ST  
TUS  
LINK  
A
ST  
TUS  
LINK  
26  
27  
TUS  
A
LINK  
ST  
25  
ATUS MODE  
TUS  
A
LINK  
ST  
23  
24  
PORT ST  
FEPIM  
TUS  
A
LINK  
ST  
21  
22  
TUS  
A
ST  
19  
20  
ELS10-26TX  
A
LINK  
ST  
17  
18  
LINK  
A
ST  
15  
16  
MON  
LINK  
ST  
13  
14  
LINK  
ST  
LINK  
11  
12  
MON  
FDX  
ST  
LINK  
9
ACT  
TX  
7
8
5
6
10BASE-T/  
100BASE-TX  
3
4
1
2
10  
USR  
100  
COL  
RX  
27  
26X  
TUS  
STA  
MONX  
PWR  
CPU  
14X  
16X  
18X  
20X  
22X  
24X  
2X  
4X  
6X  
8X  
10X  
12X  
RESET  
M
CO  
Figure 2-5. ELS10-26 Twisted Pair Connection  
3. Verify that a Link exists by checking that the port LINK LED is  
on (solid green). If the LINK LED is off, perform the following  
steps until it is on:  
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a. Check that the 10BASE-T device at the other end of the  
twisted pair segment is ON and connected to the segment.  
b. Verify that the RJ45 connectors on the twisted pair segment  
have the proper pinouts (Figure 2-7) and check the cable  
for continuity.  
TO  
TO  
ELS10-26 RJ-45 Port  
10Base-T Device Port  
TX+  
TX+ 1  
1
TX-  
TX-  
2
2
Note: RX+/RX- and  
TX+/TX- must share a  
common color pair.  
RX+  
RX-  
RX+ 3  
RX-  
3
6
6
Figure 2-6. Cable Pinouts - (RJ45) Crossover Cable  
c. Check that the twisted pair connection meets the dB loss  
and cable specifications.  
If a link is not established, contact Cabletron Systems Global  
Call Center. Refer to Section 1.2, Getting Help, for details.  
4. Repeat step 2, above, until all connections have been made.  
2.6.2 Connecting a UTP Segment to the FE-100TX  
An FE-100-TX installed in port slot 27 is often used to provide a  
connection between the ELS10-26 and a bridge, router, or switch.  
Usually, in this configuration, a “straight-through” cable is used  
and the Fast Ethernet Interface Module crossover switch shown in  
Figure 2-7 is set to “not crossed over.”  
Normally, when connecting devices to like devices, crossing over  
of the transmit and receive pairs must occur. Before connecting a  
segment to the FE-100TX, check each end of the segment to  
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determine if the wires have been crossed over for the proper  
connection.  
A schematic of a crossover cable is shown in Figure 2-6. If the wires  
do not cross over, use the switch on the FE-100TX to internally  
cross over the RJ45 port. Figure 2-7 shows how to properly set the  
FE-100TX crossover switch.  
Position X  
(crossed over)  
Position =  
(not crossed over)  
1. RX+  
2. RX-  
3. TX+  
4. NC  
5. NC  
6. RX-  
7. NC  
8. NC  
5. NC  
6. TX-  
7. NC  
8. NC  
1. TX+  
2. TX-  
3. RX+  
4. NC  
=
x
10  
100  
FE-100TX  
166505  
Figure 2-7. FE-100TX Crossover Switch  
1. Ensure that the device at the other end of the segment is  
connected to the segment and is powered ON.  
2. Connect the twisted pair segment to the module by inserting  
the RJ45 connector on the twisted pair segment into the RJ45  
port on the module. See Figure 2-7.  
3. Verify that a Link exists by checking that the port LINK LED is  
on (solid green). If the LINK LED is off, perform the following  
steps until it is on:  
a. Check that the 100BASE-TX device at the other end of the  
twisted pair segment is powered up.  
b. Verify that the RJ45 connector on the twisted pair segment  
has the proper pinouts.  
c. Check the cable for continuity.  
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d. Make sure that the twisted pair connection meets dB loss  
and cable specifications.  
e. Confirm that the crossover switch is in the correct position.  
f. Confirm that the devices on each end of the link are using  
the correct speed (use the LCM statuscommand to check  
actual operating speed and use the speedcommand to  
display the configured speed of the port).  
If a Link is not established, contact Cabletron Systems Global Call  
Center. Refer to Section 1.2, Getting Help, for details.  
2.6.3 Connecting a Multimode Segment to the FE-100FX  
The FE-100FX has an SC style network port (see Figure 2-8).  
Cabletron Systems supplies fiber optic cable that uses SC style  
connectors that are keyed to ensure proper crossing over of the  
transmit and receive fibers.  
Caution: An odd number of crossovers (preferably one) must be  
maintained between devices so that the transmit port of one  
device is connected to the receive port of the other device and  
vice versa.  
If the fiber optic cable being used has SC style connectors that  
do not resemble MIC style connectors, or has SC connectors on  
one end and a different type on the other, such as ST  
connectors, ensure that the proper crossing over occurs.  
Fiber Optic Network Connection  
1. Remove the protective plastic covers from the fiber optic ports  
on the applicable port on the module and from the ends of the  
connectors.  
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Caution: Do not touch the ends of the fiber optic strands, and do not let  
Contamination of the ends causes problems in data  
transmissions. If the ends become contaminated, clean them  
with alcohol using a soft, clean, lint-free cloth.  
2. Insert one end of the SC connector into the FE-100FX installed  
in the ELS10-26. See Figure 2-8.  
3. At the other end of the fiber optic cable, attach the SC  
connector to the other device.  
FX  
00  
FE-1  
16  
Figure 2-8. FE-100FX Port  
4. Verify that a Link exists by checking that the port LINK LED is  
solid green. If the LINK LED is off, perform the following  
steps until it is on:  
a. Check that the power is turned on for the device at the  
other end of the Link.  
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Unpacking and Installing Your ELS10-26  
b. Verify proper crossing over of fiber strands between the  
applicable port on the ELS10-26 and the fiber optic device  
at the other end of the fiber optic link segment.  
c. Verify that the fiber connection meets the dB loss  
specifications.  
If a Link has not been established, contact Cabletron Systems  
Global Call Center. Refer to Section 1.2, Getting Help, for details.  
The ELS10-26 is now ready to be set up through Local  
Management. Refer to Chapter 4, Monitoring and Managing Your  
ELS10-26, to configure the ELS10-26.  
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CHAPTER 3  
CONFIGURINGYOUR ELS10-26  
The ELS10-26 does not require any additional configuration to  
operate as a standard, transparent switch. However, if you want to  
use any of the ELS10-26’s advanced functions, you must first  
assign an IP (Internet Protocol) address to any of the ports on the  
ELS10-26 that you use to communicate with a Simple Network  
To initially assign an IP address, you can use the Local Console  
Manager (LCM). LCM is a command-line interface built into the  
ELS10-26. It allows you to configure and manage the ELS10-26  
through the out-of-band RS232C connection attached to any non-  
intelligent terminal, or a PC emulating a non-intelligent terminal.  
(See Section 3.1, Assigning IP Addresses.)  
Once you have assigned an IP address, you can use any of the  
following network management tools to configure and manage the  
ELS10-26:  
• SPECTRUM  
• SPEL  
• SPMA  
• Any SNMP-based NMS  
Configuration parameters are stored in an SNMP standard  
Management Information Base (MIB). All ELS10-26 MIB variables  
are listed and described in the ELS10-26 MIB Reference Guide.  
Note: There are some configuration options that cannot be configured  
using LCM commands. You may need to modify your configuration  
using an NMS. See Section 3.14, Modifying MIB Variables.  
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Configuring Your ELS10-26  
The following sections describe how to configure the optional  
parameters of the ELS10-26 using LCM commands, including:  
• Assigning IP addresses  
• Enabling and disabling bridging  
• Displaying bridging functions  
• Enabling and disabling trunking  
• Displaying trunking status  
• Defining and deleting virtual workgroups  
• Assigning a community name  
Note: You can use the LCM erase command to erase all configuration  
information and return the unit to default settings on the next  
system reset.  
If you are using a network management tool other than LCM, refer  
to its accompanying documentation.  
3.1 ASSIGNING IP ADDRESSES  
You can assign an IP to each port, or you can assign one address  
that can be used for the the entire device. Addresses for each port  
must be unique. IP addresses are divided into classes based on  
what portion of the address is network or port information. The  
address classes are A, B, and C.  
• Class A addresses are used in very large networks that support  
many ports. The first byte identifies the network and the other  
three bytes identify the node. The first byte of a class A address  
must be in the range 1-126. The address 100.125.110.10 would  
identify node 125.110.10 on network 100.  
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• Class B addresses are used for medium sized networks. The first  
two bytes identify the network and the last two identify the  
node. The first byte of a class B address must be in the range 128-  
191. The address 128.150.50.10 identifies node 50.10 on network  
128.150.  
• Class C addresses are used for small networks. The first three  
bytes identify the network and the last byte identifies the port.  
The first byte of a class C address must be in the range 192-223.  
The address 192.138.217.10 identifies node 10 on network  
192.138.217.  
To assign an IP address to a port, at the LCM prompt:  
1. Type ipaddr <PORT-NUMBER> <IP ADDRESS>  
For example, ipaddr 6 192.138.217.40would set the IP address of  
Port 6 to 192.138.217.40. LCM responds by displaying the IP address  
table, as shown under the ipaddrcommand.  
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Configuring Your ELS10-26  
3.1.1 Displaying IP Addresses  
To display IP addresses, subnet masks, and MAC addresses of all  
ports on the ELS10-26 you are configuring, at the LCM prompt:  
1. Type ipaddr  
LCM displays the current IP address table, for example:  
Port IP Address  
Address Mask  
MAC Address  
1
2
3
4
5
6
7
8
192.138.217.1  
255.255.255.0  
255.0.0.0  
00:40:27:00:06:1f  
00:40:27:00:06:c3  
00:40:27:00:06:3e  
00:40:27:00:03:7a  
00:40:27:00:05:c7  
00:40:27:00:04:4a  
00:40:27:00:06:9e  
00:40:27:00:04:b4  
0.0.0.0  
192.138.217.10  
0.0.0.0  
0.0.0.0  
192.138.217.20  
192.138.217.50  
192.138.217.30  
255.255.255.0  
255.0.0.0  
255.0.0.0  
255.255.255.0  
255.255.255.0  
255.255.255.0  
3.1.2 Deleting an IP Address  
To delete an IP address, at the LCM prompt:  
1. Type ipaddr <PORT-NUMBER> 0.0.0.0  
LCM responds by redisplaying the current IP address table.  
3.1.3 Changing a Subnet Mask  
You can optionally set the subnet mask for a port. A subnet mask is  
a 32-bit address mask used in IP to specify a particular subnet. If  
the subnet mask is 0.0.0.0, the ELS10-26 will automatically convert  
the displayed mask to the standard default, based on the port’s IP  
address class. (Class A address masks are 255.0.0.0, Class B address  
masks are 255.255.0.0, Class C address masks are 255.255.255.0.)  
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Configuring Your ELS10-26  
To change the subnet mask, at the LCM prompt:  
1. Type ipaddr <PORT-NUMBER> <IP ADDRESS> <SUBNET MASK>  
For example, ipaddr 6 192.138.217.40 255.255.240.0 would set  
the subnet mask for port 6 to 255.255.240.0. LCM responds by  
redisplaying the current address table.  
Note: When you change the subnet mask for a port, you must also enter  
the IP address for that port. Make sure you enter the IP address for  
the port correctly; whatever you enter becomes the IP address for  
that port.  
3.2 ENABLING BRIDGING  
The LCM bridgecommand allows you to set bridging options for a  
single port or a range of ports. The options include:  
• off  
• on (the default with BPDU enabled)  
• noBPDU  
BPDU (Bridge Protocol Data Unit) is a data unit transmitted as part  
of the IEEE 802.1d Spanning Tree protocol. The exchange of BPDUs  
allows bridges within a network to logically configure the network  
as a single spanning tree.  
Note: Selecting the noBPDU option could make your network inoperable  
because the ELS10-26 would be unable to detect loops.  
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Configuring Your ELS10-26  
Using LCM to enable bridging for a port or port range, at the LCM  
prompt:  
1. Type bridge [PORT-RANGE [{off|on|noBPDU}]]  
For example, bridge 2 on would enable bridging on port 2.  
LCM responds:  
Port 2 bridging: Transparent Bridging  
3.3 DISABLING BRIDGING  
To turn off the bridging function for a port or port range, at the  
LCM prompt:  
1. Type bridge [PORT-RANGE] off  
For example, bridge 2 off would disable bridging on port 2.  
LCM responds:  
Port 2 bridging: off  
3.4 DISPLAYING BRIDGING FUNCTIONS  
To display the bridging functions that are enabled for all ports, at  
the LCM prompt:  
1. Type bridge  
LCM responds with a list of all ports and the bridging function  
that is enabled. For example, typing bridgewould display the  
bridging status for all ports.  
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Configuring Your ELS10-26  
Usage: bridge [PORT-RANGE [{off|on|noBPDU{]]  
Port 1 bridging: Transparent Bridging  
Port 2 bridging: Transparent Bridging  
Port 3 bridging: Transparent Bridging  
Port 4 bridging: Transparent Bridging  
.
.
.
Port 27 bridging: off  
You could also type bridge [PORT-RANGE] to look at a specific  
range of ports. For example bridge 2-4 would display bridging  
functions for ports 2, 3, and 4.  
3.5 ENABLING TRUNKING  
If your network configuration requires you to connect two or more  
ELS10-26s (or other devices capable of trunking) together, but the  
applications you are running over the network require more than  
10 Mbps of bandwidth per connection, you can use the built-in  
trunking feature to increase bandwidth up to 160 Mbps, or  
400 Mbps using 100Base ports, without installing additional  
hardware on your network.  
Trunking is a Cabletron Systems proprietary extension to the  
10BASE-T Ethernet segments to connect ELS10-26s together, while  
maintaining first-in, first-out ordering of Ethernet packets. In  
addition, if any of the Ethernet segments configured for trunking  
become inoperable, those Ethernet segments are automatically  
bypassed.  
Figure 3-1 shows two ELS10-26s connected by four 10BASE-T  
crossover cables. You can connect up to eight ports for sharing the  
traffic load. Any additional connected ports will become standby  
ports. The connections must be point-to-point. That is, there  
cannot be any other devices on the Ethernet segments.  
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Configuring Your ELS10-26  
ELS10-26  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
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4
5
6
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8
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11  
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14  
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26  
27  
10  
MON  
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0
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FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
10BASE-T Crossover Cables  
ELS10-26  
(providing 80 Mbps of bandwidth)  
ELS10-26TX  
PORT STATUS MODE  
T
X
A
C
T
F
D
X
M
O
N
1
3
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6
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24  
25  
26  
27  
2
10  
MON  
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10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Figure 3-1. Trunk Connections  
Trunk Groups  
Each set of connections between two ELS10-26s is called a Trunk  
Group. You can create two Trunk Groups, each having up to eight  
ports, to interconnect your ELS10-26s.  
For example, if you have three ELS10-26s (A, B, and C), as shown  
in Figure 3-2, you could connect them using a single Ethernet  
segment. However, that would limit the interconnection to  
10 Mbps. To solve this problem, you could connect A to B with one  
Trunk Group, and connect B to C with a second Trunk Group.  
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Configuring Your ELS10-26  
ELS10-26 A  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
3
4
5
6
7
8
9
11  
12  
13  
14  
15  
16  
17  
18  
19  
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24  
25  
26  
27  
10  
MON  
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0
U
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FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Trunk Group #1  
ELS10-26 B  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
3
4
5
6
7
8
9
11  
12  
13  
14  
15  
16  
17  
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24  
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26  
27  
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MON  
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10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Trunk Group #2  
ELS10-26 C  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
3
5
7
9
11  
12  
13  
14  
15  
16  
17  
18  
19  
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MON  
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10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Figure 3-2. Trunk Groups  
To enable trunking for the example shown, perform the following:  
1. Connect the desired ports of the ELS10-26s together using  
10BASE-T crossover cables.  
If ELS10-26 A is handling only a small number of users, the A  
to B Trunk Group could have just two ports per ELS10-26. If  
ELS10-26 B and C are expected to interconnect many users,  
you could use up to eight ports in the B to C Trunk Group.  
2. Using LCM or a NMS, turn on trunking for the connected  
ports on each ELS10-26.  
For ELS10-26 A, at the LCM prompt:  
a. Type trunk 2,3 on  
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Configuring Your ELS10-26  
For ELS10-26 B, at the LCM prompt:  
b. Type trunk 3-10,14-15 on  
For ELS10-26 C, at the LCM prompt:  
c. Type trunk 3-10 on  
Each ELS10-26 determines which ports are part of which Trunk  
Group. After Trunk Group configuration, the ELS10-26s  
complete the standard 802.1D Spanning Tree state changes,  
treating each Trunk Group as a single 802.1D Spanning Tree  
port.  
802.1D Spanning Tree takes about thirty seconds to resolve  
which ELS10-26 ports are to become forwarding ports. As ports  
within a Trunk Group become forwarding ports, traffic within  
the Trunk Group is momentarily halted to guarantee the first-  
in, first-out ordering of the Ethernet packets.  
Note: The ELS10-26-to-ELS10-26 connections must be point-to-point.  
There cannot be any other devices on those Ethernets. The ports  
used for trunking can be in any order. However, both ends of the  
ELS10-26-to-ELS10-26 connections must have trunking turned on  
for the ports that are being used for the connections.  
3.6 DISABLING TRUNKING  
To turn off trunking, at the LCM prompt:  
1. Type trunk <PORT-RANGE> off  
For example, trunk 2-4 off  
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Configuring Your ELS10-26  
3.7 DISPLAYING TRUNKING STATUS  
To check the status of your current trunking configuration, at the  
LCM prompt:  
1. Type trunk <PORT-RANGE>  
The display could look like the following:  
Note: IP Addresses are not required for trunking to function.  
ELS10-26 > trunk 2-4  
Port 2 trunking joined to Bridge MAC Addr 00:40:27:00:06:1f IP Addr 192.138.217.1  
Port 3 trunking joined to Bridge MAC Addr 00:40:27:00:06:c3 IP Addr 192.138.200.2  
Port 4 trunking joined to Bridge MAC Addr 00:50:36:00:07:4a IP Addr 192.140.250.7  
To check the status for ports configured for trunking, at the LCM  
prompt:  
1. Type status <PORT-RANGE>  
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Configuring Your ELS10-26  
The display could look like the following:  
ELS10-26 > status 1  
Port 1 Status  
Type/Speed:  
10B-TPX/10Mbits  
Port Mirroring:  
Duplex Mode:  
No  
Half Duplex  
Bridging:  
Transparent Bridging  
Enabled/Disabled:  
Spanning Tree:  
Trunking State:  
Pkts Transmitted:  
Pkts Received:  
Carrier Losses:  
Total Collisions:  
Excess Collisions:  
RX Missed pkts:  
RX Runt pkts:  
Enabled, Rip listening  
Forwarding  
Off  
1693  
0
1693  
0
0
0
0
0
0
RX FCS/Align Errs:  
Internal TX Errs:  
Type <CR> to display port 2 status...>  
The following conditions can be displayed:  
• Broken — Trunking is enabled, but the port in non-operational.  
• Closed (or Oneway) — Trunking is enabled, and the Trunking  
Protocol is attempting to establish a trunk connection.  
• Heldown — Trunking is enabled, but the trunk connection was  
rejected. After a short time-out period, another attempt is  
automatically initiated to establish a good trunk connection.  
• Joined — Trunking is enabled, and the Trunking Protocol has  
established a good trunk connection.  
• Off — Trunking is not enabled.  
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Configuring Your ELS10-26  
• Perturbed — Trunking is enabled, and a good trunk connection  
has been established. However, the forwarding of data packets  
is temporarily suspended to allow for a change in the  
membership of the Trunk Group.  
3.8 ENABLING PORT MONITORING  
The ELS10-26 allows you to monitor the 10BASE-T ports on the  
ELS10-26 (you cannot monitor the 100BASE ports ). The  
monitoring of network traffic is performed by the ELS10-26  
hardware, and the monitor image reflects the original packet. The  
ELS10-26 monitoring function maintains the original packet  
ordering of bridging frames between the inbound and outbound  
interfaces.  
Using the LCM or a NMS, you can monitor a port, and select to  
monitor only packets received, only packets transmitted, or  
packets both received and transmitted by a port (if the port is  
operating in half duplex). In full duplex you can mirror either  
recieved packet or transmitted packet (not both).  
To enable port monitoring on the ELS10-26:  
1. Connect a network analyzer to the port labeled MONX on the  
ELS10-26.  
2. Using the LCM or NMS, select the port or range of ports you  
want to monitor. Also select to monitor the received packets  
(Rx) or transmitted packets (Tx). If you do not select either the  
transmit or recieve options, the ELS10-26 will monitor both  
types of packets.  
For example, mirror 2 Tx  
This will turn on monitoring for packets transmitted on port 2.  
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Configuring Your ELS10-26  
3.9 DISABLING MONITORING  
To turn off monitoring, at the LCM prompt:  
1. Type Mirror <PORT> off  
For example, mirror 2 off  
3.10 DISPLAYING MONITORING STATUS  
To check the status of your current monitoring configuration, at the  
LCM prompt:  
1. Type mirror <PORT>  
The display could look like the following:  
ELS10-26> mirror 2  
Port Mirroring: Port 2 is mirroring Tx traffic  
To check the status for ports configured for monitoring:  
1. Type status <PORT>  
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Configuring Your ELS10-26  
The display could look like the following:  
ELS10-26 > status 1  
Port 1 Status  
Type/Speed:  
Port Mirroring:  
Duplex Mode:  
10B-TPX/10Mbits  
No  
Half Duplex  
Bridging:  
Transparent Bridging  
Enabled/Disabled:  
Spanning Tree:  
Trunking State:  
Pkts Transmitted:  
Pkts Received:  
Carrier Losses:  
Total Collisions:  
Excess Collisions:  
RX Missed pkts:  
RX Runt pkts:  
Enabled, Rip listening  
Forwarding  
Off  
1693  
0
1693  
0
0
0
0
0
0
RX FCS/Align Errs:  
Internal TX Errs:  
Type <CR> to display port 2 status...>  
The following conditions can be displayed:  
• Rx only — Monitoring is enabled, but monitoring only packets  
received by the port.  
• Tx only — Monitoring is enabled, but monitoring only packets  
transmitted by the port.  
• Rx and Tx — Monitoring is enabled, monitoring both transmit  
and receive packets.  
• No — Monitoring is not enabled.  
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Configuring Your ELS10-26  
3.11 DEFINING AND DELETING WORKGROUPS  
The ELS10-26 allows you to define logical groups of associated  
ports (virtual workgroups) to provide a more efficient flow of  
traffic across your Ethernet network.  
Virtual workgroups offer you the ability to limit broadcasts to  
logical domains within the network. Workgroup destinations are  
recognized by the ELS10-26 and packets are routed directly to  
ports within the workgroup, eliminating the need to perform a  
general broadcast across each segment of the network to find  
specific host addresses.  
Figure 3-3 shows an ELS10-26 that has been programmed to  
identify workgroups A and B. Workgroup A uses ports 3 through  
5,13 and 16 and workgroup B uses ports 7, 11, 16 and 24. Port 16  
connects a segment that contains both workgroup A and  
workgroup B hosts.  
Router  
A
B
ELS10-26  
ELS10-26TX  
PORT STATUS MODE  
TX ACT FDX MON  
1
2
3
4
5
6
7
8
9
11  
12  
13  
14  
15  
16  
17  
18  
19  
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25  
26  
27  
10  
MON  
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10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
A
A
A
B
B
B
Workgroup A  
Workgroup B  
A
A
B
B
Figure 3-3. Defining Virtual Workgroups  
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Configuring Your ELS10-26  
The LCM commands used to create the previous configuration are  
as follows:  
1. To create workgroup A on ports 3, 4, 5, 13, and 16:  
ESL10-26 > workgroup A 3-5,13,16  
LCM responds with the following display:  
Name: a  
Ports: 3, 4, 5, 13, 16  
Info: all  
2. To create workgroup B on ports 7, 11, 16, and 24:  
ESL10-26 > workgroup B 7,11,16,24  
LCM responds with the following display:  
Name: b  
Ports: 7, 11, 16, 24  
Info: all  
Port 16 has been assigned to a segment that includes ports that  
belong to workgroup A and workgroup B. Port 13 connects  
workgroup A to the router and port 24 connects workgroup B to  
the router.  
In the above example, both displays show that all broadcasts will  
remain with the workgroup.  
Use the LCM command, workgroup, to create, modify, and delete  
virtual workgroups. The full syntax of the command is as follows:  
workgroup [NAME [{delete | PORT-RANGE [INFO]}]]  
To display all of the workgroups defined by the ELS10-26, at the  
LCM prompt:  
1. Type workgroup  
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Configuring Your ELS10-26  
To display information about a specific workgroup, at the LCM  
prompt:  
1. Type workgroup NAME  
To create or modify a workgroup, at the LCM prompt:  
1. Type workgroup NAME PORT-RANGE INFO  
To delete a workgroup, at the LCM prompt:  
1. Type workgroup NAME delete  
To create or modify the port list for a specific workgroup, at the  
LCM prompt:  
1. Type workgroup NAME PORT-RANGE  
To display the network classification of a specific workgroup, at  
the LCM prompt:  
1. Type workgroup NAME INFO  
3.12 ASSIGNING A COMMUNITY NAME  
A community name is similar to a password. You use the same  
steps to assign a new community name or to change an existing  
community name. You can then enter a community name to  
perform any SNMP sets. The default password is public the first time  
you access the device.  
To assign a community name, at the LCM prompt:  
1. Type community  
2. Enter the old community name.  
3. If one has not been assigned, publicis the default name.  
4. Enter the new community name.  
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Configuring Your ELS10-26  
5. LCM prompts you to verify the new community name by  
retyping it.  
6. Retype the new community name.  
3.13 CONFIGURING BROADCAST/MULTICAST STORM  
PROTECTION  
The ELS10-26 provides automatic protection against  
broadcast/multicast storms. Multicast storms are excessive  
broadcasts to all ports, typically caused by a malfunctioning  
device. They can result in severe network performance problems,  
including causing the network to crash.  
To protect against broadcast/multicast storms, you must define an  
acceptable rate for multicast traffic across a port. In many ways,  
this feature is similar to filtering.  
Each ELS10-26 port can be individually configured for automatic  
multicast storm protection. You define what level of multicasts the  
ELS10-26 will recognize as a multicast storm by specifying the  
number of multicast packets that can be transmitted within a given  
time period.  
Note: LCM does not allow you to configure for multicast storm  
protection. You must use an SNMP-based NMS. See the  
documentation that came with your NMS for configuration  
instructions.  
For example, if you configure ELS10-26 to transmit onto Port 3 no  
more than five multicasts per 60 seconds, any multicasts destined  
for Port 3 are discarded after the first five multicasts. After 60  
seconds have elapsed, another five multicasts to Port 3 will be  
allowed. This maintains an effective maximum rate of five  
multicast packets per minute.  
The two Management Information Base (MIB) variables for  
configuring multicast storm protection are:  
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Configuring Your ELS10-26  
lxifTxStormCnt– specifies the maximum number of multicasts  
that can be broadcast within the given time.  
lxiTxStormTime– specifies the period of time that the maximum  
number of multicasts can be broadcasted.  
Refer to the ELS10-26 MIB Reference Guide for a complete listing  
and description of MIB variables.  
3.14 MODIFYING MIB VARIABLES  
Specific instructions for controlling ELS10-26 operations,  
modifying parameters, and so on, depend on the NMS you are  
using. This manual provides instructions for using LCM  
commands. However, LCM commands do not exist for all  
configuration options. You may need to modify your configuration  
using an NMS.  
This section provides several common MIB variables you may  
want to change. Refer to the ELS10-26 MIB Reference Guide for a  
complete listing and description of MIB variables.  
Each variable is first described in words, and is then identified in  
MIB form, for example, lxadminGetPass - {lxadmin 3}. The Display  
String line shows the range of values that can be used for the given  
parameter. In each case, the DisplayString is a string of ASCII  
characters.  
3.15 SYSTEM CONTACT  
The system contact parameter identifies the contact person who is  
responsible for operating the ELS10-26. Typically, this parameter  
includes the person’s name, company or division name, and  
telephone number.  
sysContact - {system 4}  
DisplayString (SIZE (0..255))  
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Configuring Your ELS10-26  
3.16 SYSTEM NAME  
The system name is a name assigned to the ELS10-26 by the  
network administrator. By convention, the system name is the fully  
qualified domain name. (This name then becomes the LCM  
prompt.)  
sysName - {system 5}  
DisplayString (SIZE (0..255))  
3.16.1 System Location  
The system location identifies the physical location of the ELS10-  
26.  
sysLocation - {system 6}  
DisplayString (SIZE (0..255))  
3.16.2 Community Names  
The set community name variable (from the Cabletron proprietary  
MIB), must be initialized with the correct community name  
passwords.  
All requests from any SNMP manager contain a community name  
field. For set requests, the community name must match the set  
password; otherwise, the request will be rejected by the ELS10-26.  
For get requests, the community name must match either the set or  
the get community name.  
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Configuring Your ELS10-26  
Set Community Name  
The set community name variable (lxadminAnyPass) and get  
community name variable (lxadminGetPass) must be set to the value  
of the community name used by the SNMP manager for  
performing either set or get operations. A zero length community  
name means that any community name is acceptable.  
lxadminAnyPass - {lxadmin 2}  
DisplayString (SIZE (0..24))  
lxadminGetPass - {lxadmin 2}  
DisplayString (SIZE (0..24))  
3.16.3 Aging Parameter  
Dynamic (learned) addresses are automatically deleted from the  
ELS10-26 Bridge Address Table after a certain length of time. The  
aging time default is five minutes, as set by the IEEE 802.1d  
standard. However, you can change the aging parameter with the  
MIB variable dot1dTpAgingTime.  
The ELS10-26 continually compares the actual age of each dynamic  
address against the age specified by the dot1dTpAgingTime  
parameter, and deletes any addresses that are older than the age  
specified (or older than five minutes if you are using the default).  
Typically, there is no need to set the aging time to a very small  
number because the ELS10-26 Bridge Address Table supports 979  
addresses.  
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CHAPTER 4  
MONITORING AND MANAGING  
YOUR ELS10-26  
Monitoring the ELS10-26 consists of collecting and analyzing  
statistics and system status information.  
You can use the Select button on the front panel of the ELS10-26 to  
monitor segment status on any of the Ethernet ports. Refer to  
Section 2.1 for a description of the segment status options.  
Basic management of the ELS10-26 consists of disabling or  
enabling Ethernet ports, changing subnet masks, setting the  
community name for the ELS10-26, and changing the baud rate for  
your Local Console Manager (LCM) connection.  
4.1 ELS10-26 MANAGEMENT TOOLS  
LCM is a command-line interface built into the ELS10-26 that  
enables you to monitor and manage the ELS10-26 through the out-  
of-band RS232C connection attached to any non-intelligent  
terminal. You can also use one of the following Cabletron Systems  
Network Management Stations (NMSs), or a standard SNMP-  
based NMS to manage the ELS10-26:  
• SPECTRUM  
• SPMA  
• SPEL  
• Any SNMP-based NMS  
4.2 ELS10-26 STATISTICS  
The ELS10-26 gathers statistics that can help you build a  
comprehensive profile of the network traffic flow between each  
Local Area Network (LAN) you are connecting, as well as the  
network traffic flow between each Ethernet port on the ELS10-26.  
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ELS10-26 statistics are divided into four groups:  
• System statistics  
• Ethernet port statistics  
Traffic analysis statistics  
• SNMP statistics  
You can use this information to analyze your overall network  
performance and to make configuration changes as necessary. For  
example, Ethernet port statistics can help you identify network  
devices that require high bandwidth, and therefore should be  
connected through a dedicated, rather than a shared, network  
connection. In addition, Ethernet port statistics can help you  
identify a network device that is the source of numerous multicast  
packets due to a possible malfunction.  
4.2.1 Gathering Statistics  
For purposes of network management, managed objects must be  
identified. Creation of a managed object is achieved by placing its  
identifier, and a set of management information appropriate to its  
class, in the Management Information Database (MIB).  
Using the MIB variables, you can obtain a detailed analysis of your  
network by combining statistics for each source network,  
destination network, and source and destination port. The  
ELS10-26 MIB Reference Guide contains the SNMP MIB variables  
you need to monitor and manage the ELS10-26.  
4.2.2 System Statistics  
For each ELS10-26, the following system statistics are available:  
• The number of seconds since the ELS10-26 was last reset.  
• The number of spanning tree topology changes that have  
occurred since the ELS10-26 was last reset.  
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• The time since a topology change was last initiated.  
• The physical location of the ELS10-26.  
• The name and address of the contact person for the ELS10-26.  
• The name of the ELS10-26.  
• The current number of dynamic (learned) addresses.  
Note: To check ELS10-26 system status using LCM, see Section 4.3.  
4.2.3 Ethernet Port Statistics  
For each Ethernet port connection on the ELS10-26, a number of  
statistics are available. They can help you analyze both network  
activity and utilization, and in some cases, indicate faulty  
equipment or cabling.  
Note: All statistics counters are cleared when the ELS10-26 is reset or  
when the LCM clearstatcommand is used.  
• The number of non-unicast (multicast and broadcast) and  
unicast packets received from the port.  
The following statistics are available with SNMP:  
• The number of bytes in the received packets.  
• The number of bytes in the packets that were filtered.  
• The number of bytes in the packets that were forwarded.  
• The total number of packets transmitted to the LAN.  
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4.3 USING LCM TO CHECK ELS10-26 STATUS  
The LCM commands that enable you to quickly check on the status  
of the ELS10-26 include:  
• Status  
• Address display  
• Ipaddr  
• Ident  
These LCM commands are described in the sections that follow.  
4.3.1 Displaying Status  
The statuscommand displays the status of the ELS10-26 and  
automatically pages through the status of all of the Ethernet ports,  
pausing at each screen of information.  
Note: You can also use the statuscommand to display status for  
individual Ethernet ports by typing statusand specifying a port  
number.  
At the LCM prompt:  
1. Type status  
LCM displays the following type of information.  
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Software Currently Running: version xx.xx.xx software, Tue 08/23/94 15:03  
Next Bootstrap (1st bank): version xx.xx.xx software Tue 08/23/94 15:03:0  
Power-up test failures: none  
System Up Time: 2:25:57  
Current Number of Learned Addresses: 133  
CPU utilization is light.  
Port  
RX Packets  
TX Packets  
Collisions  
Erred Packets  
0
6978  
1676  
1
2
3
1676  
0
0
0
0
0
0
.
.
.
8
0
0
0
.
.
.
4
0
0
.
.
.
.
.
.
.
24  
.
.
0
0
0
0
Type <CR> to display port 1 status...>  
If you do not want to view the status of each Ethernet port, use  
the Ctrl-C keys to return to the LCM prompt.  
ELS10-26 > status 1  
Port 1 Status  
Type/Speed:  
10B-TPX/10Mbits  
Port Mirroring:  
Duplex Mode:  
No  
Half Duplex  
Bridging:  
Transparent Bridging  
Enabled/Disabled:  
Spanning Tree:  
Trunking State:  
Pkts Transmitted:  
Pkts Received:  
Carrier Losses:  
Total Collisions:  
Excess Collisions:  
RX Missed pkts:  
RX Runt pkts:  
Enabled, Rip listening  
Forwarding  
Off  
1693  
0
1693  
0
0
0
0
0
0
RX FCS/Align Errs:  
Internal TX Errs:  
Type <CR> to display port 2 status...>  
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If you do not want to view the status of port 2, use the Ctrl-C  
keys to return to the LCM prompt.  
You can view the status for multiple of ports by typing status  
and indicating the range of port numbers, for example status  
2-6.  
4.3.2 Displaying MAC Addresses  
The addresses display command displays all MAC addresses in  
the ELS10-26 Bridge Address Table. The display includes:  
• The MAC address  
Type of address, including:  
-
-
-
-
Dynamic (learned)  
Ethernet port (for the MAC address of an Ethernet port)  
BPDU (the MAC address to which all BPDUs are directed)  
Reserved (an address reserved by 802.1d, but not yet  
assigned)  
-
All LANs (addresses reserved by 802.1d for network  
management)  
• Port number  
• Age (in seconds since a packet was last received from that  
address)  
The display automatically pauses with each screen of information.  
Addresses are displayed in random order; for example, address  
02:00:00:00:00:00 may appear after address 04:00:00:00:00:00.  
The age will be the time since a packet was last received from that  
address.  
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To display all MAC addresses, at the LCM prompt:  
1. Type addresses display any  
LCM responds with a list of all MAC addresses, their  
associated ports, the type, age, and number of frames from and  
to that address.  
Address  
08:00:20:02:3a:44 Learned  
Type  
Port  
3
Frames-From  
1
Frames-To  
0
Age(secs)  
26  
Enter <CR> to continue, Ctrl-C to exit:  
If you do not specify any, only the learned addresses are displayed.  
To display a specific address, at the LCM prompt:  
1. Type addresses display <MAC-ADDRESS>  
For example, if you typed, addresses display  
02:04:06:03:2a:43, LCM would display the following  
information:  
Address  
Type  
Port  
5
Frames-From  
1181  
Frames-To  
73  
Age(secs)  
21  
02:04:06:03:2a:43 Learned  
You can display a range of addresses by using a net mask. This is  
helpful when determining the status associated with stations  
containing the same make of Ethernet network interface cards. At  
the LCM prompt:  
1. Type addresses display <MAC-ADDRESS> <NET-MASK>  
For example, to see all addresses that begin with 02:04:06, you  
would enter:  
addresses display 02:04:06:00:00:00 ff:ff:ff:00:00:00  
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LCM would display:  
Address  
Type  
Port  
Frames-From  
1181  
Frames-To  
Age(secs)  
02:04:06:03:2a:43 Learned  
02:04:06:00:2a:67 Learned  
02:04:06:a3:70:2b Learned  
5
4
6
21  
1
73  
0
235  
3421  
15339  
0
Enter <CR> to continue, Ctrl-C to exit:  
The ipaddrcommand displays the IP addresses, subnet masks, and  
MAC addresses of all ELS10-26 ports. At the LCM prompt:  
1. Type ipaddr  
LCM displays the current IP address table, for example.  
Address Mask  
MAC Address  
Port  
IP Address  
1
2
3
4
5
6
7
8
192.138.217.1  
0.0.0.0  
192.138.217.10  
0.0.0.0  
255.255.255.0  
255.0.0.0  
255.255.255.0  
255.0.0.0  
00:40:27:00:06:1f  
00:40:27:00:06:c3  
00:40:27:00:06:3e  
00:40:27:00:03:7a  
00:40:27:00:05:c7  
00:40:27:00:04:4a  
00:40:27:00:06:9e  
00:40:27:00:04:b4  
0.0.0.0  
255.0.0.0  
192.138.217.20  
192.138.217.50  
192.138.217.30  
255.255.255.0  
255.255.255.0  
255.255.255.0  
4.3.3 Displaying Manufacturing Information  
The identcommand identifies ELS10-26 manufacturing  
information, including the part number and any power-up test  
codes and diagnostic data. To display the manufacturing  
information, at the LCM prompt:  
1. Type ident  
LCM displays the following type of information:  
Part Number:  
Up-Link Module Part Number: 123-4567-891 X1234567-1234567  
Power-up test codes:  
501-3000-002 X70002e4-0006891  
00000000 00000000 00000000 00000000  
Diagnostic data: 00000000 00000000 fffffffc fffffffc  
00000000 ff006000  
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4.4 MANAGING THE ELS10-26  
Managing the ELS10-26 consists of:  
• Disabling and enabling Ethernet ports  
• Changing a subnet mask  
• Changing a community name  
• Setting the baud rate of your terminal connection  
• Setting a reboot time  
You can use the Local Console Manager (LCM), any of the  
Cabletron Systems NMSs, or a standard SNMP-based NMS to  
manage the ELS10-26. Refer to Section 4.1.  
4.5 USING LCM TO MANAGE THE ELS10-26  
The LCM commands that enable you to manage the ELS10-26  
include:  
• Disable  
• Enable  
• Ipaddr  
• Community  
• Baud  
• Reboot  
These LCM commands are described in the sections that follow.  
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4.5.1 Disabling a Port  
There can be times when you need to disable a specific Ethernet  
port, for example, after you have determined that there is faulty  
equipment. Disabling a port effectively stops all bridging functions  
for that port. Disabled ports do not accept SNMP packets, and  
therefore cannot communicate with an NMS.  
To disable a port, or port range, at the LCM prompt:  
1. Type disable <PORT-RANGE>  
For example, disable 7-9would disable ports 7, 8, and 9.  
LCM responds:  
Port 7: Disabled  
Port 8: Disabled  
Port 9: Disabled  
Once an Ethernet port is disabled, it will be disabled until you  
enable it again. Resetting the ELS10-26 will not enable a port that  
has been disabled.  
Caution: If you disable the port through which someone is remotely  
managing the ELS10-26, that person will not be able to  
communicate with the ELS10-26. Use the LCM command  
addresses displayto find the port number you are using  
to manage the ELS10-26.  
4.5.2 Enabling a Port  
When you enable an Ethernet port that has been disabled,  
whatever bridging functions you had previously configured for  
that port are re-enabled.  
To enable a port, or a range of ports, at the LCM prompt:  
1. Type enable <PORT-RANGE>  
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For example, enable 7-9would enable ports 7, 8, and 9.  
LCM responds:  
Port 7: Enabled, Rip listening  
Port 8: Enabled, Rip listening  
Port 9: Enabled, Rip listening  
Note: Rip listeningmeans that the ELS10-26 is in listening mode  
only. No RIP packets are created.  
noRIP Option  
The Routing Information Protocol (RIP) is one of the protocols that  
allows the ELS10-26 to build an accurate, current routing table.  
This table includes the networks it knows about, the next hop, and  
the number of hops to get there. RIP enables you to use an NMS to  
remotely manage the ELS10-26 through a router.  
The noRIPoption allows you to turn off the routing information  
that builds the routing table. You would use this option when you  
are connecting network devices that do not support RIP.  
4.5.3 Changing a Subnet Mask  
You can optionally set the subnet mask for a port. A subnet mask is  
a 32-bit address mask used in IP to specify a particular subnet. If  
the subnet mask is 0.0.0.0, the ELS10-26 automatically converts the  
displayed mask to the standard default, based on the port’s IP  
address class. (Class A address masks are 255.0.0.0, Class B address  
masks are 255.255.0.0, Class C address masks are 255.255.255.0.)  
To display IP addresses, subnet masks, and MAC addresses of all  
ports on the ELS10-26 you are managing, at the LCM prompt:  
1. Type ipaddr  
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LCM displays the current IP address table, for example:  
Port IP Address  
Address Mask  
MAC Address  
1
2
3
4
5
6
7
192.138.217.1  
0.0.0.0  
255.255.255.0  
255.0.0.0  
00:40:27:00:06:1f  
00:40:27:00:06:c3  
00:40:27:00:06:3e  
00:40:27:00:03:7a  
00:40:27:00:05:c7  
00:40:27:00:04:4a  
00:40:27:00:06:9e  
192.138.217.10  
0.0.0.0  
255.255.255.0  
255.0.0.0  
0.0.0.0  
192.138.217.20  
192.138.217.50  
255.0.0.0  
255.255.255.0  
255.255.255.0  
To change the subnet mask, at the LCM prompt:  
1. Type ipaddr <PORT-NUMBER> <IP ADDRESS> <SUBNET MASK>  
For example, ipaddr 6 192.138.217.40 255.255.240.0would set  
the subnet mask for port 6 to 255.255.240.0. LCM responds by  
redisplaying the address table.  
Note: When you change the subnet mask for a port, you must also enter  
the IP address for that port. Make sure you enter the IP address for  
the port correctly; whatever you enter becomes the IP address.  
To assign a new IP address, refer to Section 3.1.  
4.5.4 Changing a Community Name  
A community name is similar to a password. You use the same  
steps to assign a new community name or to change an existing  
community name. This sets the MIB variable sxadminAnyPass. You  
can then enter a community name to perform any SNMP sets.  
To assign a community name, at the LCM prompt:  
1. Type community  
2. Enter the old community name.  
If one has not been assigned, you do not need to enter  
anything. LCM prompts you for the new community name.  
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3. Enter the new community name.  
LCM prompts you to verify the new community name by  
retyping it.  
4. Retype the new community name.  
4.5.5 Setting the Baud Rate  
You can set the baud rate for your LCM console connection. The  
options for baud rate include:  
• 1200  
• 2400  
• 4800  
• 9600  
• 19200  
The default rate is 9600.  
Note: Make sure that the baud rate you set matches the baud rate setting  
for the terminal you are using.  
To display the current baud rate setting, at the LCM prompt:  
1. Type baud  
LCM responds:  
Usage: baud [1200|2400|4800|9600|19200]  
Baud rate is 4800.  
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To change the baud rate setting, at the LCM prompt:  
1. Type baud <baud rate>  
For example, baud 9600would set the baud rate to 9600.  
LCM responds:  
Baud rate is 9600.  
4.5.6 Setting a Reboot Time  
You can enter the number of seconds the ELS10-26 waits before  
rebooting. At the LCM prompt:  
1. Type reboot <time interval>  
For example, reboot 60  
LCM responds:  
Reboot pending in 59 seconds.  
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CHAPTER 5  
ELS10-26 DIAGNOSTICS AND TROUBLESHOOTING  
The ELS10-26 incorporates built-in diagnostic and testing  
capabilities which are convenient to use and cause minimal or no  
disruption to the rest of the operational network. These capabilities  
are effective for isolating problems within the ELS10-26 unit. Built-  
in diagnostic capabilities include:  
• System-wide power-up diagnostics, which are run every time  
the system is powered up or reset.  
5.1 POWER-UP DIAGNOSTICS  
The ELS10-26 performs an extensive set of diagnostic self-tests  
whenever any of the following events occur:  
• Power-up  
• Reset using the front panel Reset button (a hard reset)  
• Reset via the NMS (a soft reset)  
• Automatic reset in response to a non-recoverable failure  
The power-up diagnostics test processors, memory, and other  
critical hardware components of the ELS10-26. All diagnostic  
software is stored in non-volatile memory.  
5.1.1 Power-up LED Sequence  
When you power-up the ELS10-26, the following occurs:  
1. All LEDs turn on for one second.  
2. The Power (Pwr) LED and all of the status LEDs remain on.  
3. The CPU LED starts flashing.  
4. All LEDs on ports 1 - 24 will go on in sequence and then go  
out.  
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5. After several more seconds, the CPU LED will stay on,  
indicating that the power-up diagnostics sequence is  
complete.  
In addition, the Port Link LEDs will turn on for those ports  
with good links and the Segment Status LEDs will turn on (or  
flash) when the selected status condition is present.  
Note: If a critical component fails diagnostics, the CPU LED will turn off  
and the ELS10-26 will attempt to reboot. If the CPU LED does not  
stay on, contact Cabletron Systems Global Call Center. Refer to  
Section 1.2.  
5.1.2 Specific Power-up Tests  
The power-up diagnostic tests performed on the ELS10-26 include:  
• ROM checksum test  
• Instruction/Data memory test  
• FLASH checksum test  
• NVRAM checksum test  
• Ethernet data loopback test  
5.1.3 Software Checksum Comparison  
When the ELS10-26 reboots, its operational software is verified by  
a checksum comparison before it is loaded. If the software fails the  
checksum test due to an interrupted new software distribution  
procedure, the ELS10-26 will automatically use its backup version  
of software. A backup version of software is always stored in non-  
volatile memory.  
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The operational parameters of the ELS10-26 software are also  
protected by a checksum comparison. When the ELS10-26 reboots,  
if the operational parameters of the ELS10-26 fail a checksum test  
due to a power failure in the midst of a previous update, the  
ELS10-26 automatically uses its backup version of the parameters.  
Note: A backup version of the operational parameters is always stored in  
non-volatile memory before any update is attempted.  
5.1.4 Power-up Diagnostics Results  
After completion of the power-up diagnostic sequence, both the  
Power (Pwr) and Ready LEDs located on the front panel of the  
ELS10-26 should be on.  
5.2 RESPONSES TO FAILURES AT POWER-UP  
How the ELS10-26 responds to failures detected during power-up  
depends on the seriousness of the failure. For example, it will  
operate if a non-critical component, such as the out-of-band  
management port, fails diagnostics. However, in the event of a  
critical failure, such as a failure of the main element processor, the  
ELS10-26 will halt execution and will not boot to operational  
mode.  
5.3 STATUS AND ACTIVITY INDICATORS  
The front panel of the ELS10-26 includes LEDs that indicate the  
status or activity of various system components. Figure 5-1 shows  
the ELS10-26 front panel LEDs and buttons. The LEDs and buttons  
are described in Tables 5-1 and 5-2.  
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Segment Status LEDs  
ELS10-26TX  
PORT STATS MODE  
TX ACT FDX MON  
1
2
3
4
5
6
7
8
9
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
10  
MON  
RX COL 100 USR  
FEPIM  
10BASE-T/  
100BASE-TX  
STATUS  
PWR  
CPU  
RESET  
27  
COM  
2X  
4X  
6X  
8X  
10X  
12X  
14X  
16X  
18X  
20X  
22X  
24X  
MONX  
26X  
Power and  
CPU LEDs  
Port Link LEDs  
(upper row)  
Port Status LEDs  
(lower row)  
Segment Status Option Select Button  
Figure 5-1. ELS10-26 Front Panel LEDs  
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Table 5-1. Meaning of ELS10-26 LEDs  
LED  
Meaning  
Port Status  
Mode  
TX  
RX  
ACT  
COL  
FDX  
On – Indicates port is transmitting a packet.  
On – Indicates port is receiving a packet.  
On – Indicates port is transmitting or receiving.  
On – Indicates a collision on a port.  
On - Port is operating in Full Duplex.  
Off - Port is operating in Half Duplex.  
On - Autonegotiatian status, port operating at 100  
Mbps.  
100  
Off - Port operating at 10 Mbps.  
On - Indicates the port is copying to the monitor  
port.  
On - Indicates that errored packets were received.  
MON  
USR  
Link  
(Individual  
Ports)  
On – Indicates the link is good.  
Off – Indicates there is no link.  
Status  
(Individual  
Ports)  
On/Blinking – Indicates you are monitoring the  
port for a selected segment status condition. This  
LED always indicates one of the status modes.  
Table 5-2 describes the ELS10-26 buttons.  
Table 5-2 Description of ELS10-26 Buttons  
Button  
Status  
Function  
Cycles through the Segment Status options (TX, RX, Act,  
Col, and Usr) for all ports. The lower port status LEDs of  
the ports you are monitoring are activated based on what  
function you chose with the Select button.  
Reset  
Restarts the ELS10-26.  
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ELS10-26 Diagnostics and Troubleshooting  
5.4 TROUBLESHOOTING  
This section lists several situations that could happen while using  
the ELS10-26, and suggests appropriate action. Because every  
situation is potentially unique, the corrective actions suggested  
here should be considered as guidelines only.  
5.5 ELS10-26 DOES NOT POWER UP  
If your ELS10-26 does not power up, check each one of the  
following:  
• Make sure the power source is operational.  
• Make sure the power cord is securely connected.  
If the ELS10-26 still does not power up, contact Cabletron Systems  
Global Call Center. Refer to Section 1.2 for more information.  
5.5.1 Connectivity Problems  
• Check for LED abnormalities.  
• Check port status using LCM.  
• Check for loose port connections.  
• Check to see if the number of carrier losses is increasing using  
LCM. This indicates that the connection is suspect.  
• Check to see if the number of total collisions has dramatically  
increased using LCM.  
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5.5.2 ELS10-26 Has Rebooted  
• Use the LCM identcommand to check the ELS10-26 diagnostic  
codes, and call your authorized Cabletron Systems  
representative.  
5.5.3 ELS10-26 Does Not Respond to NMS  
• Check the port status using LCM.  
• Check to see if the Spanning Tree topology is stable using LCM.  
• Check that a pathway to the ELS10-26 exists.  
Verify the ELS10-26’s IP address using LCM.  
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ELS10-26 Diagnostics and Troubleshooting  
5-8  
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APPENDIX A  
TECHNICAL SPECIFICATIONS  
A.1 ELS10-26 SPECIFICATIONS  
Physical  
Height  
1.75 in (4.45 cm)  
17 in (43.18 cm)  
15.75 in (40 cm)  
9 lb (4.1 kg)  
Width  
Depth  
Weight  
Installation options  
Tabletop or rack-mount  
Electrical  
Input voltage  
Auto-ranging from 100-120,  
200-240 Vac  
Frequency  
50/60 Hz  
80 watts  
AC power consumption  
Connector Ports  
25 RJ45 Ethernet ports (MDI-X)  
1 RJ45 Fast Ethernet port  
1 RJ45 Monitor Port (MDI-X)  
1 RS232C port for Local Console Manager (LCM)  
1 slot for optional Fast Ethernet Port Interface Module  
A-1  
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Technical Specifications  
Environmental  
Operating temperature  
Storage temperature  
5° to 40° C (41° to 104° F)  
-30° to 73° C (-22 ° to 164° F)  
Operating relative humidity 5% to 90% (non-condensing)  
Diagnostic LEDs  
Individual port link status  
Individual port segment status  
Segment status, specifying:  
- Transmit activity  
- Receive activity  
- Both Transmit and Receive activity  
- Collision  
- 100 (Mbps)  
- Duplex  
- MON (monitor)  
- User-defined  
CPU  
Power (Pwr)  
Standard Support  
• IEEE 802.1 Part D  
• IEEE802.2 (Logical Link Control)  
• IEEE 802.3 (CSMA/CD, 10BASE-T) Ethernet  
A-2  
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Technical Specifications  
Transparent Bridging with Spanning Tree  
• Ethernet Version 2  
• EIA RS232C (DTE-to-DCE Interface Specification)  
• EIA RS-310-C (Rack-mount Specification)  
Address Table Size  
979 dynamic entries  
Management Support  
• MIB II, 802.1d, 802.3, and Cabletron Enterprise MIB  
• Cabletron Systems Local Console Manager (LCM)  
• Any SNMP-based network management system  
Regulatory Compliance  
Safety  
UL 1950, CSA C22.2 No. 950,  
EN 60950, and IEC 950, 73/23/EEC  
Electromagnetic Compatibility FCC Part 15 , EN 55022,  
EN50082-1, 89/336/EEC CSA  
C108.8, VCCI V-3 AS/NZS 3548  
EN 50082-1  
A.2 SERIAL CABLE PIN ASSIGNMENTS  
For a PC running a Windows terminal connected to the RS232C  
Network Management Port on the front panel of the ELS10-26, the  
following serial cable pin assignments (tables A-1 and A-2) are  
required to manage the ELS10-26 using the Local Console Manager  
(LCM).  
A-3  
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Technical Specifications  
Table A-1. DB25 Pin Assignments  
ELS10-26 RJ45 (female)  
DB25-pin (female)  
Pin 1 (Tx)  
Pin 3  
Pin 2  
Pin 7  
Pin 4 (Rx)  
Pin 5 (GND)  
Table A-2. DB9 Pin Assignments  
ELS10-26 RJ45 (female)  
DB9 pin (female)  
Pin 1 (Rx)  
Pin 4 (Tx)  
Pin 2  
Pin 3  
Pin 5  
Pin 5 (GND)  
A.3 10BASE-T PIN ASSIGNMENTS  
An Ethernet twisted-pair link segment requires two pairs of wires.  
Each wire pair is identified by solid and striped colored wires. For  
example, one wire in the pair might be red and the other wire, red  
with white stripes.  
Connectors  
Refer to the diagram below and note how the pins are numbered.  
Be sure to hold the connectors in the same orientation when  
connecting the wires to the pins.  
8
8
1
1
Figure A-1. Connector Pin Numbers  
A-4  
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Each twisted-pair link segment must have a male connector attached to  
both ends. According to the 10BASE-T specification, pins 1 and 2 on the  
connector are used for receiving data; pins 3 and 6 are used for  
transmitting data, as shown in Table A-3.  
Table A-3. 10BASE-T Pin Assignments  
a
Pin  
Assignment  
1
2
3
6
Rx+  
Rx-  
Tx+  
Tx-  
a. The “+” and “-” signs are used to represent the polarity of the two  
wires that make up each wire pair.  
A.4 STRAIGHT-THROUGH WIRING  
If the twisted-pair link segment is to join two ports on a switch,  
and only one of the ports has an internal crossover, the two pairs of  
wires must be straight-through, as shown in Table A-4.  
Table A-4. Straight-Through RJ45 Pin Assignments  
ELS10-26 (Crossed)  
Device (Not Crossed)  
1 (Tx+)  
1 (Rx+)  
2 (Rx-)  
3 (Tx+)  
6 (Tx-)  
2 (Tx-)  
3 (Rx+)  
6 (Rx-)  
A-5  
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Technical Specifications  
A.5 CROSSOVER WIRING  
Two ELS10-26s can communicate only if the transmitter on one  
unit is connected to the receiver on the other unit. This reversal, or  
crossover function, can be implemented either in the wiring or in  
the device itself. When connecting ELS10-26s, a crossover must be  
implemented in the wiring. Refer to Table A-5 for crossover pin  
assignments.  
Table A-5. Crossover RJ45 Pin Assignments  
ELS10-26  
ELS10-26  
1 (Rx+)  
2 (Rx-)  
3 (Tx+)  
6 (Tx-)  
3 (Tx+)  
6 (Tx-)  
1 (Rx+)  
2 (Rx-)  
A.6 5 - 4 - 3 RULE  
Between any two nodes (i.e., PCs or other stations) on the network,  
there can be:  
• Up to five segments in series  
• Up to four repeaters or multi-port hubs  
• Up to three populated segments (that is, segments attached to  
two or more PCs). The remaining two segments are  
unpopulated; these are known as inter-repeater links or IRLs.  
This distinction between populated and unpopulated segments  
is significant for coax networks only.  
Note: This rule is completely consistent with the IEEE 802.3  
specification, and is meant only to summarize the configuration  
specification.  
A-6  
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Technical Specifications  
A.7 FEPIM SPECIFICATIONS  
The ELS10-26 uses a Fast Ethernet Interface Module (FEPIM) to  
provide front panel cable connections. FEPIMs are user-installable.  
See Section 2.2, Installing an FEPIM.  
FE-100TX  
The FE-100TX is an RJ45 connector supporting Unshielded Twisted  
Pair (UTP) cabling.  
The slide switch on the FE-100TX determines the crossover status  
of the cable pairs. If the switch is on the X side, the pairs are  
internally crossed over. If the switch is on the = side, the pairs are  
not internally crossed over. Figure A-2 shows the pinouts for the  
FEPIM-100TX in both positions.  
Position X  
(crossed over)  
Position =  
(not crossed over)  
1. RX+  
2. RX-  
4. NC  
5. NC  
6. RX-  
7. NC  
8. NC  
5. NC  
6. TX-  
8. NC  
1. TX+  
2. TX-  
3. RX+  
4. NC  
=
x
10  
100  
FE-100TX  
Figure A-2. FE-100TX Pinouts  
FE-100FX  
The FE-100FX shown in Figure A-3 supports multimode fiber optic  
cabling. The FE-100FX is equipped with an SC style port.  
Specifications for the FE-100FX are listed below.  
A-7  
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Technical Specifications  
FE-100FX  
SP  
Figure A-3. FE-100FX  
Table A-6. Transmitter Power  
Cable Type  
Worst Case Budget  
Typical Budget  
9.0 dB  
12.0 dB  
18.0 dB  
50/125 µm fiber  
62.5/125 µm fiber  
100/140 µm fiber  
6.0 dB  
9.0 dB  
15.0 dB  
The transmitter power levels and receive sensitivity levels listed  
are Peak Power Levels after optical overshoot. A Peak Power  
Meter must be used to correctly compare the values given above to  
those measured on any particular port. If Power levels are being  
measured with an Average Power Meter, add 3 dBm to the  
measurement to compare the measured values to the values listed  
above.  
A-8  
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APPENDIX B  
GLOSSARY  
address  
A set of characters that uniquely identifies a station, peripheral  
device, node, or other unit in a network.  
address table  
A database of device addresses and their associated ports  
maintained by a switch or bridge for use in making data packet  
forwarding and filtering decisions.  
agent  
Network management software that runs within a managed  
network device.  
alarm  
See trap.  
ANSI  
American National Standards Institute – One of several  
organizations that establishes standards that apply to  
internetworking.  
ARP  
Address Resolution Protocol – An auxiliary protocol of the IP layer  
used to perform dynamic address translation between MAC  
addresses and internet addresses. Binds IP addresses to specific  
MAC addresses.  
attenuation  
The amount of power (or light) lost as power travels through a  
medium from the transmitter to the receiver. Difference between  
transmitted and received power, in decibels (dB).  
AUI (attachment unit interface)  
A standard connector type used for Ethernet connections.  
B-1  
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Glossary  
backbone  
The major, central transmission path for a network. A backbone  
usually handles high-volume, high-density traffic. Typically a  
backbone connects various LANs into an integrated network.  
bandwidth  
A measure of the amount of traffic a given medium can handle at  
one time: The communications capacity (measured in bits per  
second), of a transmission line or of a specific path through a  
network. Greater bandwidth generally means more information  
can be sent through a circuit during any given period of time.  
BPDU (bridge protocol data unit)  
A data unit transmitted as part of the IEEE 802.1d Spanning Tree  
Protocol. The exchange of BPDUs allows bridges within a network  
to logically configure the network as a single spanning tree.  
bps (bits per second)  
The basic unit of data communications rate measurement.  
bridge  
An intelligent, protocol independent device used to connect  
similar or dissimilar LANs.  
bursty  
Adjective used to describe sporadic heavy volumes of network  
traffic (e.g., bursty traffic).  
bypass  
Optical or electronic isolation of a station from the network. A  
bypass situation typically occurs as a result of a station failure or  
shutdown; the bypass allows the network to function normally,  
except for the absence of the missing station.  
concentrator  
A device that provides attachment points for stations that are not  
connected to the ELS10-26. The concentrator is connected directly  
to the network; the stations connect to the concentrator.  
B-2  
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Glossary  
congestion  
A condition where a portion of the network is overloaded with  
more data than can be transmitted in the desired time period.  
CSMA/CD (carrier-sense multiple access with collision  
detection)  
A channel access (contention) method that requires each station to  
wait for an idle channel before transmitting. In addition, stations  
are able to detect overlapping transmissions (collisions) and  
retransmit in the event of a data collision.  
data link layer  
Layer 2 in the OSI model. Defines frame construction, addressing,  
error detection, and other services to higher layers.  
datagram  
Abbreviated and connectionless single-packet message sent from  
one station to another.  
data rate (or speed)  
The maximum number of bits of information that can be  
transmitted per second.  
downstream  
Refers to the relative position of a station in a network to another  
station in the same network. A station is downstream from another  
station if it receives data after the other station receives data.  
dynamic address  
An address “learned” by the ELS10-26, as opposed to addresses  
that are manually entered into the Bridge Address Table. The  
ELS10-26 “learns” addresses by reading them from the data  
packets it processes.  
EIA (Electronic Industries Association)  
Organization that sets standards for electrical interfaces  
(connectors).  
B-3  
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Glossary  
encapsulation  
A method for moving messages across networks that use different  
types of protocols. The message is encapsulated (rather than  
translated), so it can move across a network that otherwise could  
not understand its protocol. Encapsulating bridges and switches  
generally use proprietary encapsulation schemes.  
encode  
To translate data into a series of electrical or optical pulses that can  
travel efficiently over a cable or other medium.  
entity  
An active element within an Open Systems Interconnection (OSI)  
network layer or sublayer.  
extended LAN  
A collection of LANs interconnected by protocol-independent  
bridges or switches.  
filtering rate  
A measure (in packets per second) of the ELS10-26’s efficiency in  
examining each frame, comparing it with an address table, and  
then deciding whether to discard the frame or forward it.  
forwarding rate  
The rate (in packets per second) at which the ELS10-26 can receive  
a stream of packets from one network segment, complete all  
processing, and transmit the packets to another network segment.  
frame  
A data message that includes a source address, destination  
address, data, frame check sequence (FCS), and control  
information.  
full wire speed  
Refers to packet forwarding at the maximum rate at which data  
can be transmitted on a given LAN.  
B-4  
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Glossary  
ICMP (Internet control message protocol)  
An auxiliary protocol of IP used to convey advice and error  
messages about events in the IP layer.  
IEEE (Institute of Electrical and Electronic Engineers)  
International professional society which issues networking and  
other standards. The IEEE created the 802 family of LAN  
standards.  
IEEE 802.2  
The data link layer standard; used with IEEE 802.3, 802.4, 802.5,  
and other LAN/WAN protocols.  
IEEE 802.3  
The physical layer standard that uses the CSMA/CD access  
method on a bus topology LAN.  
IEEE 802.6  
Standard for metropolitan area networks (MANs) currently under  
development.  
initialization  
Transition of a device or network from startup state to operational  
state.  
intelligent bridge/switch  
A bridge/switch that is able to identify source and destination  
addresses.  
internet  
A large communications infrastructure composed of wide and  
local area networks. A generic reference to a network built using  
internetworking technology.  
Internet  
A large collection of connected networks which use TCP/IP. (Also  
referred to as the DARPA Internet, NSF/DARPA Internet or the  
Federal Research Internet.)  
B-5  
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Glossary  
internetworking  
The linking of one or more networks to facilitate communication  
across networks.  
interoperability  
The ability of equipment from multiple vendors to exchange  
information using standardized protocols.  
IP (Internet protocol)  
IP is the basic datagram protocol used at the network layer of the  
TCP/IP stack.  
ISO (International Standards Organization)  
An organization that creates, controls and publishes standards.  
jitter  
Clocking deviation on a network.  
Kbps (kilobits per second)  
1,000 bits per second.  
LAN (local area network)  
A network that interconnects a variety of devices (computers,  
printers, servers, and so on), within a limited geographical area. A  
LAN typically connects devices within a building or campus.  
link-loss budget  
Each connection (link) in an optical system results in a certain  
amount of signal strength loss. Link-loss budget refers to the  
process of calculating link loss for the entire system. If the total link  
loss exceeds a certain limit, the system will not function.  
LLC (logical link control)  
A part of the data link layer of the OSI model that defines the  
transmission of a frame of data between two stations (with no  
intermediate switching nodes).  
local traffic  
Traffic within a given network segment.  
B-6  
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Glossary  
MAC (media access control)  
The data link layer sublayer responsible for scheduling,  
transmitting, and receiving data on a shared medium local area  
network.  
mask  
Specified a subset of a larger set of data to be included for  
comparison and analysis. For example, in switch filtering, a mask  
might be configured to include only the first four address bits as  
the basis for filtering decisions.  
Mbps (megabits per second)  
1 million bits per second.  
MIB (management information base)  
A collection of objects unique to a specific device that can be  
accessed via a network management protocol. The ELS10-26 has its  
own MIB.  
multicast  
Packets destined for more than one address.  
multicast (broadcast) storm  
Excessive multicast packet traffic, typically generated by a faulty  
device. Multicast storms can cause severe network performance  
problems.  
network  
Interconnected computer systems, terminals, and data  
communication facilities. A network must have at least three  
endpoints and may have any number of links and nodes.  
node  
Any device connected to a communication network, for example a  
computer, workstation, printer, server, concentrator, bridge, and  
switch.  
B-7  
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Glossary  
OSI (Open Systems Interconnection)  
Refers to the OSI reference model, a logical structure for network  
operations. OSI is the internationally accepted framework of  
standards for internetwork communication.  
packet  
A group of bits including data and control elements arranged in a  
specific format that are transmitted and switched as a composite  
whole. Control elements include a source address, destination  
address, frame control and status indicators, and a Frame Check  
Sequence (FCS).  
PDU (protocol data unit)  
The portion of a datagram that contains the data associated with a  
particular protocol.  
peer-to-peer  
Term used to describe data transmission between entities in the  
same sublayer of the OSI model.  
physical layer  
Layer 1 of the OSI model. Defines and handles the electrical and  
physical connections between systems.  
power budget  
The difference between transmit power and receiver sensitivity,  
including any safety margins.  
PPP (point-to-point protocol)  
A protocol for transmitting datagrams (IP or MAC packets) over a  
serial point-to-point link (e.g., the out-of-band management port).  
pps (packets per second)  
Unit of measure used to express packet data throughput. 18 pps is  
approximately equal to 9600 bps.  
propagation delay  
The time it takes for a signal to travel across a network.  
B-8  
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Glossary  
protocol  
A set of rules used by computers and related devices to  
communicate with each other.  
protocol suite  
A group of protocols related to a common framework.  
RARP (reverse address resolution protocol)  
A protocol that binds MAC addresses to specific IP addresses.  
RISC (Reduced Instruction Set Computing)  
A data processing technology in which functions are performed  
using the least possible number of instructions to yield very fast  
processing.  
segment  
When two or more networks are interconnected to form an  
internetwork, the original networks are referred to as segments.  
service  
A set of functions offered to a user by a provider.  
SNMP (simple network management protocol)  
A TCP/IP protocol for communication between a network  
management system and a network device.  
source address filtering  
A switch or bridge function that forwards or rejects data,  
depending on the data's source address.  
static address  
Addresses manually entered into the Bridge Address Table (as  
opposed to those automatically learned by the ELS10-26).  
STP (spanning tree protocol)  
A protocol that ensures that only one path will be used between  
two devices; prevents active loops (multiple paths to devices), by  
closing redundant paths. With STP operating, a redundant link  
serves as a backup link only if a normal path fails.  
B-9  
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Glossary  
switch  
An intelligent, protocol independent device used to connect  
similar or dissimilar LANs.  
symbol  
The smallest signaling element used by the MAC sublayer. Each  
symbol corresponds to a specific sequence of code bits to be  
transmitted by the physical layer.  
synchronous transmission  
A transmission technique in which an uninterrupted block of data  
is transmitted, using no redundant information such as stop and  
start bits to identify the beginning and end of a unit of data.  
TCP/IP (transmission control protocol/Internet protocol)  
Internetworking protocols sometimes referred to as the Internet  
suite of protocols.  
topology  
The arrangement of devices and cable paths that make up a  
network.  
translating bridge  
A bridge that can pass data between LANs that use different  
protocols.  
translation  
Modification of data packets from one type of network so they can  
be used on a different type of network (e.g., Ethernet to FDDI  
translation).  
trap  
Alarm; notification of an event that has occurred on a network.  
Some alarms require intervention or action by the network  
administrator; some are merely informational.  
UDP (user datagram protocol)  
A TCP/IP protocol for the connectionless transport layer.  
B-10  
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Glossary  
upstream  
Refers to the relative position of a station in a network to another  
station in the same network. A station is upstream from its  
neighbor if it receives data before its neighbor receives the data.  
WAN (wide area network)  
A communication network that spans a large geographic area.  
B-11  
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Glossary  
B-12  
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INDEX  
bridging functions  
Numerics  
disabling 3-6  
displaying 3-6  
enabling 3-6  
10BASE-T  
connection 2-10  
10BASE-T pin assignments A-4  
5 - 4 - 3 rule A-6  
bridging technologies A-2  
802.1D Spanning Tree 3-10  
C
certification A-3  
changing  
A
adding  
subnet mask 3-5, 4-12  
checksum comparison test 5-2  
community name, assigning 3-  
18, 4-12  
IP addresses 3-3  
address table  
dynamic entry 1-10  
size A-3  
connecting  
addresses  
ASCII terminal 2-9  
LCM 2-9  
adding  
IP 3-3  
Connecting to the network 2-9  
connectivity problems,  
troubleshooting 5-6  
connector ports A-1  
connectors  
deleting  
IP 3-4  
displaying  
IP 3-4, 4-8, 4-11  
aging time, defined 3-22  
assigning  
community name 3-18, 4-12  
IP addresses 3-3  
authentication password,  
defined 3-21  
AUI 1-5  
RJ-45 1-5, A-4  
RS-232-C 1-5  
conventions,  
LCM command 1-19  
crossover cabling 3-7  
Crossover switch A-7  
crossover wiring A-5  
B
basic LCM commands 1-20  
baud rate  
D
displaying 4-13  
for ASCII terminal 2-9  
setting 4-13  
deleting  
IP addresses 3-4  
Description 2-4  
diagnostics  
BPDU (Bridge Protocol Data  
Unit) 3-5  
checksum comparison 5-2  
overview 5-1  
power-up 2-8, 5-1  
Bridge Address Table,  
defined 1-9  
Bridge Protocol Data Unit  
(BPDU) 3-5  
I-1  
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Index  
disabling  
I
bridging functions 3-6  
ports 4-10  
trunking 3-10, 3-14  
IP addresses  
assigning 3-3  
deleting 3-4  
displaying 3-4, 4-8, 4-11  
displaying  
baud rate 4-13  
bridge functions 3-6  
FastNET 10 status 4-4  
IP addresses 3-4, 4-8, 4-11  
MAC addresses 4-7  
manufacturing  
IP subnet mask,  
changing 3-5, 4-12  
L
LCM  
connecting 2-9  
information 4-8  
Document Conventions 1-3  
dynamic entry  
description of 1-18, 4-1  
LCM command syntax 1-19  
LCM commands  
addresses display 4-6, 4-10  
bridge 3-5  
Bridge Address Table 1-10  
E
community 3-18, 4-12  
disable 4-10  
enabling  
bridging functions 3-6  
Ethernet ports 4-10  
trunking functions 3-9  
environmental specifications A-2  
erase configuration 3-2  
Ethernet port statistics 4-3  
enable 4-10  
erase 3-2  
exit 1-22  
ident 4-8  
ipaddr 3-4, 4-8  
reboot 4-14  
status 4-4  
trunk 3-9  
LED sequence  
F
FastNET 10  
management tools 4-1  
FastNET 10  
power-up 5-1  
Local Console Manager. See  
LCM 1-18, 4-1  
local traffic  
Bridge Address Table 1-9  
certification A-3  
managing of 4-9  
power-up diagnostics 5-1  
sample applications 1-11,  
1-12  
defined 1-8  
M
MAC addresses, displaying 4-7  
management tools 4-1  
manufacturing information,  
displaying 4-8  
specifications A-1  
statistics 4-1  
FastNET 10 diagnostics 5-1  
FE-100FX  
Meaning 2-3  
transmitter power A-8  
Fiber connection  
SC to SC 2-13  
MIB variables, modifying 3-20  
modifying  
MIB variables 3-20  
I-2  
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Index  
multicast storm protection  
defined 3-19  
DB-9 (female) A-3  
DB-9 (male) A-4  
pin assignments A-3  
set password, defined 3-22  
setting baud rate 4-13  
SNMP statistics 4-2  
Spanning Tree algorithm 1-9  
specifications  
electrical A-1  
physical A-1  
statistics  
MIB variables 3-19  
N
Network connection  
FE-100FX 2-13  
FX-100TX 2-11  
non-volatile memory 5-3  
noRIP option 4-11  
Ethernet port 4-3  
gathering 4-2  
overview 4-2  
O
or 1-22  
OSI Reference Model 1-7  
system 4-2  
status, displaying  
P
FastNET 10 4-4  
pin assignments  
10BASE-T A-4  
straight-through wiring A-5  
subnet mask, IP, changing 3-5,  
4-12  
syntax, LCM command 1-19  
system contact, defined 3-20  
system location, defined 3-21  
system name, defined 3-21  
system statistics 4-2  
straight-through RJ-45 A-5  
Port Link LEDs 2-3, 5-5  
Port Status LEDs 2-3, 5-5  
ports  
disabling 4-10  
enabling 4-10  
Power (Pwr) LED 2-3  
power-up  
LED sequence 2-8, 5-1  
power-up diagnostics 2-8, 5-1  
results 5-3  
T
troubleshooting  
connectivity problems 5-6  
NMS problems 5-7  
power up 5-6  
specific tests 5-2  
trunking  
R
broken 3-12, 3-15  
closed 3-12, 3-15  
configuring groups 3-8  
disabled 3-12, 3-15  
heldown 3-12, 3-15  
joined 3-12, 3-15  
overview of 3-7  
turning on 3-9  
rack-mount installation 2-7  
Ready LED 2-3  
reboot 4-14  
Reset button 2-4, 5-5  
Routing Information Protocol  
(RIP) 4-11  
S
Segment Status LED 2-3, 5-5  
Select button 2-4, 5-5  
serial cable  
I-3  
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Index  
W
wiring  
crossover A-6  
straight-through A-5  
I-4  
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