Enterasys Gold Distributed Forwarding Engine 4G4282-49 Hardware Installation Manual
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Enterasys Gold Distributed Forwarding Engine 4G4282-49 Hardware Installation Manual

Enterasys Gold Distributed Forwarding Engine 4G4282-49 Hardware Installation Manual

Enterasys networks switch hardware installation guide
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Enterasys Matrix
®
DFE-Gold Series
Hardware Installation Guide
Module 4G4282-49
Module 4G4202-72
P/N 9034096-02

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Summary of Contents for Enterasys Enterasys Gold Distributed Forwarding Engine 4G4282-49

  • Page 1 Enterasys Matrix ® DFE-Gold Series Hardware Installation Guide Module 4G4282-49 Module 4G4202-72 P/N 9034096-02...
  • Page 3 Part Number: 9034096‐02 July 2008 ENTERASYS NETWORKS, ENTERASYS MATRIX, LANVIEW, MATRIX, ENTERASYS NETSIGHT, WEBVIEW, and any logos associated therewith, are trademarks or registered trademarks of Enterasys Networks, Inc., in the United States and other countries. For a complete list of Enterasys trademarks, see http://www.enterasys.com/company/trademarks.aspx.

  • Page 4: Regulatory Compliance Information

    Regulatory Compliance Information Federal Communications Commission (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. 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. WARNING: This is a Class A product. In a domestic environment this product may cause radio interference in which  case the user may be required to take adequate measures.  ADVERTENCIA: Este es un producto de Clase A. En un ambiente doméstico este producto puede causar interferencia  de radio en cuyo caso puede ser requerido tomar medidas adecuadas. WARNHINWEIS: Dieses Produkt zählt zur Klasse A ( Industriebereich ). In Wohnbereichen kann es hierdurch zu  Funkstörungen kommen, daher sollten angemessene Vorkehrungen zum Schutz getroffen werden.  This product complies with the following: UL 60950, CSA C22.2 No. 60950, 2006/95/EC, EN 60950, IEC 60950,  EN 60825, 21 CFR 1040.10. El producto de Enterasys cumple con lo siguiente: UL 60950, CSA C22.2 No. 60950, 2006/95/EC, EN 60950, IEC 60950,  EN 60825, 21 CFR 1040.10.

  • Page 5: Hazardous Substances

    This product complies with the following: 47 CFR Parts 2 and 15, CSA C108.8, 2004/108/EC, EN 55022, EN 61000‐3‐2,  EN 61000‐3‐3, EN 55024, AS/NZS CISPR 22, VCCI V‐3.  Este producto de Enterasys cumple con lo siguiente: 47 CFR Partes 2 y 15, CSA C108.8, 2004/108/EC, EN 55022,  EN 55024, EN 61000‐3‐2, EN 61000‐3‐3, AS/NZS CISPR 22, VCCI V‐3. Elektro- magnetische Kompatibilität ( EMC ) Dieses Produkt entspricht den folgenden Richtlinien: 47 CFR Parts 2 and 15, CSA C108.8, 2004/108/EC, EN 55022,  EN 61000‐3‐2, EN 61000‐3‐3, EN 55024, AS/NZS CISPR 22, VCCI V‐3.  This product complies with the requirements of European Directive, 2002/95/EC, Restriction of Hazardous Substances  (RoHS) in Electrical and Electronic Equipment. European Waste Electrical and Electronic Equipment (WEEE) Notice In accordance with Directive 2002/96/EC of the European Parliament on waste electrical and electronic equipment  (WEEE): The symbol above indicates that separate collection of electrical and electronic equipment is required and that this  product was placed on the European market after August 13, 2005, the date of enforcement for Directive  2002/96/EC. When this product has reached the end of its serviceable life, it cannot be disposed of as unsorted municipal waste.   It must be collected and treated separately. It has been determined by the European Parliament that there are potential negative effects on the environment  and human health as a result of the presence of hazardous substances in electrical and electronic equipment. It is the users’ responsibility to utilize the available collection system to ensure WEEE is properly treated. For information about the available collection system, please go to www.enterasys.com/support/ Electromagnetic Compatibility (EMC) Compatibilidad Electromágnetica (EMC) Hazardous Substances or contact ...
  • Page 6 Enterasys Customer Support at 353 61 705586 (Ireland). (Parts) (Metal Parts) Circuit Modules) Cables & Cable Assemblies) (Plastic and Polymeric parts) Circuit Breakers) Indicates that the concentration of the hazardous substance in all homogeneous materials in the parts is below the relevant threshold of the SJ/T 11363-2006 standard. Indicates that the concentration of the hazardous substance of at least one of all homogeneous materials in the parts is above the relevant threshold of the SJ/T 11363-2006 standard.

  • Page 7: Vcci Notice

    VCCI Notice This is a class A product based on the standard of the Voluntary Control Council for Interference by Information  Technology Equipment (VCCI). If this equipment is used in a domestic environment, radio disturbance may arise.  When such trouble occurs, the user may be required to take corrective actions. BSMI EMC Statement — Taiwan This is a class A product. In a domestic environment this product may cause radio interference in which case the user  may be required to take adequate measures.

  • Page 8: Declaration Of Conformity

    Do not use optical instruments to view the laser output. The use of optical instruments to view laser output  increases eye hazard. When viewing the output optical port, power must be removed from the network adapter. Application of Council Directive(s): 2004/108/EC European Representative Address: Enterasys Networks, Ltd. Conformance to Directive(s)/Product Standards: EC Directive 2004/108/EC Equipment Type/Environment: Networking Equipment, for use in a Commercial  Enterasys Networks, Inc. declares that the equipment packaged with this notice conforms to the above directives. Safety Information Class 1 Laser Transceivers Declaration of Conformity 2006/95/EC Manufacturer’s Name: Enterasys Networks, Inc. Manufacturer’s Address: 50 Minuteman Road Andover, MA 01810 Nexus House, Newbury Business Park London Road, Newbury Berkshire RG14 2PZ, England EN 55022 EN 61000‐3‐2 EN 61000‐3‐3 EN 55024 EC Directive 2006/95/EC EN 60950 EN 60825...
  • Page 9 ENTERASYS NETWORKS, INC. FIRMWARE LICENSE AGREEMENT BEFORE OPENING OR UTILIZING THE ENCLOSED PRODUCT, CAREFULLY READ THIS LICENSE AGREEMENT. This document is an agreement (“Agreement”) between the end user (“You”) and Enterasys Networks, Inc., on behalf  of itself and its Affiliates (as hereinafter defined) (“Enterasys”) that sets forth Your rights and obligations with respect  to the Enterasys software program/firmware (including any accompanying documentation, hardware or media)  (“Program”) in the package and prevails over any additional, conflicting or inconsistent terms and conditions  appearing on any purchase order or other document submitted by You. “Affiliate” means any person, partnership,  corporation, limited liability company, other form of enterprise that directly or indirectly through one or more  intermediaries, controls, or is controlled by, or is under common control with the party specified. This Agreement  constitutes the entire understanding between the parties, with respect to the subject matter of this Agreement. The  Program may be contained in firmware, chips or other media. BY INSTALLING OR OTHERWISE USING THE PROGRAM, YOU REPRESENT THAT YOU ARE AUTHORIZED TO  ACCEPT THESE TERMS ON BEHALF OF THE END USER (IF THE END USER IS AN ENTITY ON WHOSE BEHALF  YOU ARE AUTHORIZED TO ACT, “YOU” AND “YOUR” SHALL BE DEEMED TO REFER TO SUCH ENTITY) AND  THAT YOU AGREE THAT YOU ARE BOUND BY THE TERMS OF THIS AGREEMENT, WHICH INCLUDES,  AMONG OTHER PROVISIONS, THE LICENSE, THE DISCLAIMER OF WARRANTY AND THE LIMITATION OF  LIABILITY. IF YOU DO NOT AGREE TO THE TERMS OF THIS AGREEMENT OR ARE NOT AUTHORIZED TO  ENTER INTO THIS AGREEMENT, ENTERASYS IS UNWILLING TO LICENSE THE PROGRAM TO YOU AND YOU  AGREE TO RETURN THE UNOPENED PRODUCT TO ENTERASYS OR YOUR DEALER, IF ANY, WITHIN TEN  (10) DAYS FOLLOWING THE DATE OF RECEIPT FOR A FULL REFUND. IF YOU HAVE ANY QUESTIONS ABOUT THIS AGREEMENT, CONTACT ENTERASYS NETWORKS, LEGAL  DEPARTMENT AT (978) 684‐1000. You and Enterasys agree as follows: LICENSE. You have the non‐exclusive and non‐transferable right to use only the one (1) copy of the Program ...
  • Page 10 APPLICABLE LAW. This Agreement shall be interpreted and governed under the laws and in the state and  federal courts of the Commonwealth of Massachusetts without regard to its conflicts of laws provisions. You accept the  personal jurisdiction and venue of the Commonwealth of Massachusetts courts. None of the 1980 United Nations  Convention on the Limitation Period in the International Sale of Goods, and the Uniform Computer Information  Transactions Act shall apply to this Agreement. EXPORT RESTRICTIONS. You understand that Enterasys and its Affiliates are subject to regulation by agencies  of the U.S. Government, including the U.S. Department of Commerce, which prohibit export or diversion of certain  technical products to certain countries, unless a license to export the product is obtained from the U.S. Government or  an exception from obtaining such license may be relied upon by the exporting party. If the Program is exported from the United States pursuant to the License Exception CIV under the U.S. Export  Administration Regulations, You agree that You are a civil end user of the Program and agree that You will use the  Program for civil end uses only and not for military purposes. If the Program is exported from the United States pursuant to the License Exception TSR under the U.S. Export  Administration Regulations, in addition to the restriction on transfer set forth in Section 1 or 2 of this Agreement, You  agree not to (i) reexport or release the Program, the source code for the Program or technology to a national of a  country in Country Groups D:1 or E:2 (Albania, Armenia, Azerbaijan, Belarus, Cambodia, Cuba, Georgia, Iraq,  Kazakhstan, Laos, Libya, Macau, Moldova, Mongolia, North Korea, the People’s Republic of China, Russia, Tajikistan,  Turkmenistan, Ukraine, Uzbekistan, Vietnam, or such other countries as may be designated by the United States  Government), (ii) export to Country Groups D:1 or E:2 (as defined herein) the direct product of the Program or the  technology, if such foreign produced direct product is subject to national security controls as identified on the U.S.  Commerce Control List, or (iii) if the direct product of the technology is a complete plant or any major component of a  plant, export to Country Groups D:1 or E:2 the direct product of the plant or a major component thereof, if such  foreign produced direct product is subject to national security controls as identified on the U.S. Commerce Control  List or is subject to State Department controls under the U.S. Munitions List. UNITED STATES GOVERNMENT RESTRICTED RIGHTS. The enclosed Program (i) was developed solely at  private expense; (ii) contains “restricted computer software” submitted with restricted rights in accordance with section  52.227‐19 (a) through (d) of the Commercial Computer Software‐Restricted Rights Clause and its successors, and (iii) in  all respects is proprietary data belonging to Enterasys and/or its suppliers. For Department of Defense units, the  Program is considered commercial computer software in accordance with DFARS section 227.7202‐3 and its successors,  and use, duplication, or disclosure by the U.S. Government is subject to restrictions set forth herein. DISCLAIMER OF WARRANTY. EXCEPT FOR THOSE WARRANTIES EXPRESSLY PROVIDED TO YOU IN  WRITING BY ENTERASYS, ENTERASYS DISCLAIMS ALL WARRANTIES, EITHER EXPRESS OR IMPLIED,  INCLUDING BUT NOT LIMITED TO IMPLIED WARRANTIES OF MERCHANTABILITY, SATISFACTORY  QUALITY, FITNESS FOR A PARTICULAR PURPOSE, TITLE AND NON‐INFRINGEMENT WITH RESPECT TO THE  PROGRAM.  IF IMPLIED WARRANTIES MAY NOT BE DISCLAIMED BY APPLICABLE LAW, THEN ANY IMPLIED   WARRANTIES ARE LIMITED IN DURATION TO THIRTY (30) DAYS AFTER DELIVERY OF THE PROGRAM TO  YOU.
  • Page 11 AUDIT RIGHTS. You hereby acknowledge that the intellectual property rights associated with the Program are  of critical value to Enterasys, and, accordingly, You hereby agree to maintain complete books, records and accounts  showing (i) license fees due and paid, and (ii) the use, copying and deployment of the Program. You also grant to  Enterasys and its authorized representatives, upon reasonable notice, the right to audit and examine during Your  normal business hours, Your books, records, accounts and hardware devices upon which the Program may be deployed  to verify compliance with this Agreement, including the verification of the license fees due and paid Enterasys and the  use, copying and deployment of the Program. Enterasys’ right of examination shall be exercised reasonably, in good  faith and in a manner calculated to not unreasonably interfere with Your business. In the event such audit discovers  non‐compliance with this Agreement, including copies of the Program made, used or deployed in breach of this  Agreement, You shall promptly pay to Enterasys the appropriate license fees. Enterasys reserves the right, to be  exercised in its sole discretion and without prior notice, to terminate this license, effective immediately, for failure to  comply with this Agreement. Upon any such termination, You shall immediately cease all use of the Program and shall  return to Enterasys the Program and all copies of the Program. OWNERSHIP. This is a license agreement and not an agreement for sale. You acknowledge and agree that the  Program constitutes trade secrets and/or copyrighted material of Enterasys and/or its suppliers. You agree to  implement reasonable security measures to protect such trade secrets and copyrighted material. All right, title and  interest in and to the Program shall remain with Enterasys and/or its suppliers. All rights not specifically granted to  You shall be reserved to Enterasys. 10. ENFORCEMENT. You acknowledge and agree that any breach of Sections 2, 4, or 9 of this Agreement by You may  cause Enterasys irreparable damage for which recovery of money damages would be inadequate, and that Enterasys  may be entitled to seek timely injunctive relief to protect Enterasys’ rights under this Agreement in addition to any and  all remedies available at law. 11. ASSIGNMENT. You may not assign, transfer or sublicense this Agreement or any of Your rights or obligations  under this Agreement, except that You may assign this Agreement to any person or entity which acquires substantially  all of Your stock assets. Enterasys may assign this Agreement in its sole discretion. This Agreement shall be binding  upon and inure to the benefit of the parties, their legal representatives, permitted transferees, successors and assigns as  permitted by this Agreement. Any attempted assignment, transfer or sublicense in violation of the terms of this  Agreement shall be void and a breach of this Agreement. 12. WAIVER. A waiver by Enterasys of a breach of any of the terms and conditions of this Agreement must be in  writing and will not be construed as a waiver of any subsequent breach of such term or condition. Enterasys’ failure to  enforce a term upon Your breach of such term shall not be construed as a waiver of Your breach or prevent enforcement  on any other occasion. 13.

  • Page 13: Table Of Contents

    4G4282-49 ...1-3 Connectivity ...1-6 4G4202-72 ...1-6 4G4282-49 ...1-6 Management ...1-6 Switch Configuration Using WebView ...1-6 Switch Configuration Using CLI Commands ...1-7 Standards Compatibility ...1-7 Secure Networks Policy Support ...1-7 LANVIEW Diagnostic LEDs ...1-8 Getting Help ...1-8 Chapter 2: Network Requirements Link Aggregation ...2-1...
  • Page 14 Using LANVIEW ...4-1 Troubleshooting Checklist ...4-5 DFE-Gold Module Shutdown Procedure ...4-6 Recommended Shutdown Procedure Using OFFLINE/RESET Switch ...4-7 Last Resort Shutdown Procedure Using OFFLINE/RESET Switch ...4-8 Appendix A: Specifications DFE-Gold Module Specifications ... A-1 Ethernet Interface Module Specifications ... A-2 Mini-GBIC Input/Output Specifications ...
  • Page 15 Matrix DFE Startup Screen Example (N7 Chassis) ...3-31 LANVIEW LEDs ...4-2 OFFLINE/RESET Switch ...4-7 Mode Switch Location on 4G4202-72 and 4G4282-49 ... B-2 Memory Module Locations on the 4G4202-72 ... B-3 Memory Module Locations on the 4G4282-49 ... B-4 Interface Removal and DRAM SIMM Connector Location on 4G4282-49... B-5 Removing the Existing DRAM SIMM from 4G4282-49 ...
  • Page 16 Tables Optional Ethernet Interface Modules, Compliance, and Physical Connections ...1-6 Contents of DFE-Gold Module Carton ...3-2 LANVIEW LEDs ...4-3 Troubleshooting Checklist...4-5 Specifications ... A-1 7G-6MGBIC and 7G-6MGBIC-A Port/Environmental Specifications ... A-2 Mini-GBIC Input/Output Port Specifications ... A-3 MGBIC-LC01/MGBIC-MT01 Optical Specifications ... A-4 MGBIC-LC01/MGBIC-MT01 Operating Range ...

  • Page 17: Module

    This guide provides an overview, installation and troubleshooting instructions, and  specifications for the Enterasys Matrix 4G4202‐72 and 4G4282‐49 modules, the 7G‐6MGBIC and 7G‐6MGBIC‐A optional Ethernet  interface modules, and the Mini‐GBIC modules. For information about the CLI (Command Line Interface) set of commands used to  configure and manage the DFE‐Gold modules, refer to the Enterasys Networks Matrix  DFE‐Gold Series Configuration Guide. Note: In this guide, the following terms are used: • DFE-Gold module refers to the 4G4202-72 to only one of the modules, the module is referred to by its model number (such as 4G4282-49).

  • Page 18: How To Use This Guide

    For... An overview of the DFE-Gold modules and instructions to obtain technical support from Enterasys Networks Network requirements that must be met before installing the DFE-Gold modules Instructions to install the DFE-Gold module hardware and optional Ethernet interface module...

  • Page 19: Conventions Used In This Guide

    Conventions Used in This Guide The following conventions are used in this guide. Note: Calls the reader’s attention to any item of information that may be of special importance. Caution: Contains information essential to avoid damage to the equipment. Precaución: Contiene información esencial para prevenir dañar el equipo. Achtung: Verweißt auf wichtige Informationen zum Schutz gegen Beschädigungen.
  • Page 20 Conventions Used in This Guide xvi About This Guide...
  • Page 21 This chapter provides an overview of the DFE‐Gold module capabilities, and introduces  the 4G4202‐72 and 4G4282‐49 DFE‐Gold modules and the optional uplink interface  7G‐6MGBIC‐A. Depending on the firmware version used in the DFE-Gold module, some features described in this document may not be supported. Refer to the Release Notes shipped with the DFE-Gold module to determine which features are supported. For information about... Overview of DFE Series Capabilities The DFE-Gold Modules and Interface Options Connectivity...

  • Page 22: Chapter 1: Introduction

    Overview of DFE Series Capabilities Overview of DFE Series Capabilities The DFE‐Gold Series modules provide you with a large number of capabilities, including: • Support for high speed Gigabit Ethernet traffic to desktop devices • Better security and service‐delivery capabilities at the edge of the network • A highly scalable and fault tolerant switch infrastructure • Support for new applications, including those that have special requirements, such as: – Voice over IP (VoIP) – Video – New business improvement applications for Customer Relationship Management  (CRM) and Enterprise Resource Planning (ERP) (also known as Enterprise  Resource Management) The DFE-Gold Modules and Interface Options This section provides an overview of DFE‐Gold modules 4G4202‐72 and 4G4282‐49  (Figure 1‐1) and the 7G‐6MGBIC and 7G‐6MGBIC‐A Ethernet interface modules  (Figure 1‐2). Each of the fixed front panel ports can operate in either half‐duplex or full‐duplex mode  of operation. The duplex mode can be determined by either auto‐negotiation or manual ...
  • Page 23 4G4202-72 The 4G4202‐72 is an edge‐network switch with 72, 10BASE‐T/100BASE‐TX/1000BASE‐T  ports accessed through 72 front‐panel RJ45 connectors.  4G4282-49 The 4G4282‐49 is an edge‐network switch with 48, 10BASE‐T/100BASE‐TX/1000BASE‐T  compliant ports accessed through 48 fixed front‐panel RJ45 connectors and a slot for an  optional network expansion module. The 7G‐6MGBIC and 7G‐6MGBIC‐A can support up  to 6 Gigabit ports by means of optional Mini‐GBICs. The DFE-Gold Modules and Interface Options Matrix DFE-Gold Series Installation Guide 1-3...

  • Page 24: 4G4202-72

    The DFE-Gold Modules and Interface Options Figure 1-1 1 OFFLINE/RESET switch 2 RJ45 COM (Console Port) 3 CPU LED 4 MGMT LED 5 GROUP SELECT button 1-4 Introduction 4G4202-72 and 4G4282-49 DFE-Gold Modules À Á È GROUP status LEDs GROUP selected LEDs...

  • Page 25: Optional 7G-6Mgbic And 7G-6Mgbic-A Ethernet Interface Modules

    7G-6MGBIC and 7G-6MGBIC-A Gigabit Ethernet Interface Modules The 4G4282‐49 option slot provides access to an installed network expansion module such  as the 7G‐6MGBIC and 7G‐6MGBIC‐A shown in Figure 1‐2. Table standards the modules comply with and the type of physical connections. Figure 1-2 Optional 7G-6MGBIC and 7G-6MGBIC-A Ethernet Interface Modules Port status LEDs The DFE-Gold Modules and Interface Options 1‐1 indicates the  À À Á Á 1-Gigabit port slots for Mini-GBIC uplinks Matrix DFE-Gold Series Installation Guide 1-5...

  • Page 26: G4282-49

    The 4G4202‐72 has 10BASE‐T/100BASE‐TX/1000BASE‐T compliant ports through 72,  fixed RJ45 front panel connectors. 4G4282-49 Depending on how the 4G4282‐49 (Figure • 48, 10BASE‐T/100BASE‐TX/1000BASE‐T switched ports connected through 48, fixed  RJ45 front panel connectors, or • 48, 10BASE‐T/100BASE‐TX/1000BASE‐T switched ports plus an optional Gigabit  expansion uplink module. Management Management of the module can be either in‐band or out‐of‐band. In‐band remote  management is possible using Telnet, Enterasys Networks’ NetSight application, or WebView™ application. Out‐of‐band management is provided through  the RJ45 COM (Communication) port on the front panel using a VT100 terminal or a  VT100 terminal emulator. Switch Configuration Using WebView Enterasys Networks’ HTTP‐based Web management application (WebView) is an  intuitive web tool for simple management tasks. 1-6 Introduction Compliant to Physical Connection 1-Gigabit Ethernet Six port slots that support optional hot-swappable Mini-GBICs.

  • Page 27: Switch Configuration Using Cli Commands

    Switch Configuration Using CLI Commands The CLI commands enable you to perform more complete switch configuration  management tasks. For CLI command set information and how to configure the module, refer to the Matrix  DFE‐Gold Series Configuration Guide. Standards Compatibility The DFE‐Gold modules are fully compliant with the IEEE 802.3‐2002, 802.3ae‐2002,  802.1D‐1998, and 802.1Q‐1998 standards. The DFE‐Gold modules provide IEEE 802.1D‐ 1998 Spanning Tree Algorithm (STA) support to enhance the overall reliability of the  network and protect against “loop” conditions. Secure Networks Policy Support A fundamental concept that is key to the implementation of the Enterasys Secure  Networks methodology is policy‐enabled networking. This approach provides users of  the network with the resources they need—in a secure fashion—while at the same time  denying access to applications or protocols that are deemed inappropriate based on the  user’s function within the organization. By adopting such a “user‐personalized” model, it  is possible for business policies to be the guidelines in establishing the technology  architecture of the enterprise. Two major objectives are achieved in this way: IT services  are matched appropriately with individual users; and the network itself becomes an  active participant in the organization’s security strategy. The Secure Networks  architecture consists of three tiers:  • Classification rules make up the first or bottom tier. The rules apply to devices in the  Secure Networks environment, such as switches and routers. The rules are designed  to be implemented at or near the user’s point of entry to the network. Rules may be  written based on criteria defined in the Layer 2, Layer 3, or Layer 4 information of the  data frame. • The middle tier is Services, which are collections of individual classification rules,  grouped logically to either permit or deny access to protocols or applications based on  the user’s role within the organization. Priority and bandwidth rate limiting may also  be defined in services.

  • Page 28: Lanview Diagnostic Leds

    • Network load and frame size at the time of trouble (if known) • The device history (for example, have you returned the device before, is this a  recurring problem) • Any previous Return Material Authorization (RMA) numbers 1-8 Introduction www.enterasys.com/services/support/ 1-800-872-8440 (toll-free in U.S. and Canada) or 1-978-684-1000 For the Enterasys Networks Support toll-free number in your country: www.enterasys.com/services/support/contact/ support@enterasys.com To expedite your message, type [N-SERIES] in the subject line.

  • Page 29: Chapter 2: Network Requirements

    100BASE-TX Network 1000BASE-SX/LX/ELX Network 1000BASE-T Network Note: The Matrix DFE-Gold Series Configuration Guide and the Cabling Guide referred to in the following sections can be found on the Enterasys Networks World Wide Web site: http://www.enterasys.com/support/manuals. Refer to Link Aggregation Link Aggregation is a method of grouping multiple physical ports on a network device ...

  • Page 30: 10Base-T Network

    10BASE-T Network In normal usage (and typical implementations) there is no need to enable/disable ports for  Link Aggregation. The default values will result in the maximum number of aggregations  possible. If the switch is placed in a configuration with its peers not running the protocol,  no aggregations will be formed and the modules will function normally (that is, Spanning  Tree will block redundant paths). For details about the commands involved with configuring the Link Aggregation  function, refer to the Matrix DFE‐Gold Series Configuration Guide. 10BASE-T Network When connecting a 10BASE‐T segment to any of the fixed front panel ports of the  4G4202‐72 or 4G4282‐49, ensure that the network meets the Ethernet network  requirements of the IEEE 802.3‐2002 standard for 10BASE‐T. Refer to the Cabling Guide for  details. Note: If a port is to operate at 100 Mbps, Category 5 cabling must be used. Category 3 cabling does not meet 100 Mbps specifications. For 10 Mbps operation only, Category 3 or Category 5 cabling can be used.

  • Page 31: 1000Base-T Network

    1000BASE-T Network The 4G4202‐72 and 4G4282‐49 support 10/100/1000 Mbps by means of fixed RJ45 front  panel connectors. These connections support copper wire connections that can operate up  to 1000 Mbps. The device at the other end of the twisted pair segment must meet IEEE  802.3‐2002 network requirements for the devices to operate at Gigabit speed.  Note: The fixed ports of each module support Category 5 UTP cabling with an impedance between 85 and 111 ohms for 100 and 1000 Mbps operation and can automatically sense the port speed of the other device and adjusts its speed accordingly. 1000BASE-T Network Matrix DFE-Gold Series Installation Guide 2-3...
  • Page 32 1000BASE-T Network 2-4 Network Requirements...

  • Page 33: Important Notice

    Electrical Hazard: Only qualified personnel should perform installation procedures. Riesgo Electrico: Solamente personal calificado debe realizar procedimientos de instalacion. Elektrischer Gefahrenhinweis: Installationen sollten nur durch ausgebildetes und qualifiziertes Personal vorgenommen werden. Read the Release Notes shipped with the DFE-Gold module to check for any exceptions to the supported features and operation documented in this guide.

  • Page 34: Unpacking The Dfe-Gold Module

    This Installation Guide Customer Release Notes Remove the tape seal on the non‐conductive bag to remove the DFE module. Perform a visual inspection of the DFE‐Gold module for any signs of physical  damage. Contact Enterasys Networks if there are any signs of damage. Refer to  “Getting Help” on page 1‐8 for details. Installing Optional Network Expansion Modules Note: Install any optional equipment before proceeding to on page 3-9 for an explanation of the rules to install different series modules in a Matrix E7 chassis.

  • Page 35: Removing The Coverplate

    Removing the Coverplate Refer to Figure 3‐1 and proceed as follows: Attach the antistatic wrist strap (refer to the instructions on the antistatic wrist strap  package). Place the DFE‐Gold module on an antistatic pad on a sturdy flat surface. Figure 3-1 Removing the Coverplate à 1 Main board 2 Front panel coverplate screws (2) 3 Coverplate Remove and save the two coverplate screws fastening the coverplate to the DFE‐Gold  module front panel. Remove and save the screw fastening the coverplate to the standoff on the main  board. Lift and remove the coverplate from the module and save for possible future use. Installing the Network Expansion Module Refer to Figure 3‐2 and proceed as follows: Carefully align the two network expansion module connectors with the main board  connectors. Then press straight down over the two network expansion module  connectors, applying pressure until they are properly seated. Installing Optional Network Expansion Modules À...

  • Page 36: Installing The Network Expansion Module

    Installing Optional Network Expansion Modules Figure 3-2 Ä 1 Screw (1) 2 Main bo\ard 3 Standoff Use the two saved coverplate screws to fasten the network expansion module to the  DFE‐Gold module front panel. Do not tighten the two coverplate screws at this time. Use the saved screw from the standoff to fasten the network expansion module to the  standoff. Tighten the screw. Tighten the two front‐panel coverplate screws. This completes the network expansion module installation. To install Mini‐GBICs into  the network expansion module, proceed to “Installing an Optional Mini‐GBIC” on  page 3‐5 for the Mini‐GBIC installation instructions. Otherwise, proceed to “Module  Placement and Rules” on page 3‐9 to install the DFE module into the chassis. 3-4 Installation Installing the Network Expansion Module Ã Ç 4 Optional expansion module 5 DFE-Gold module 6 Expansion module connectors Å...

  • Page 37: Installing An Optional Mini-Gbic

    Installing an Optional Mini-GBIC This section describes how to install a Mini‐GBIC in an optional 7G‐6MGBIC or  7G‐6MGBIC‐A. Warning: Fiber-optic Mini-GBICs use Class 1 lasers. Do not use optical instruments to view the laser output. The use of optical instruments to view laser output increases eye hazard. When viewing the output optical port, power must be removed from the network adapter.

  • Page 38: Installation

    Installing an Optional Mini-GBIC Installation To install a Mini‐GBIC with an MT‐RJ connection, refer to Figure connection, refer to Figure 3‐4. For an RJ45 connection, refer to Figure as described below. Note: If the Mini-GBIC is one with an RJ45 connector such as an MGBIC-02 the installation procedure is the same as described below. However, the Mini-GBIC has a wire handle to release it. Hold the Mini‐GBIC with its top side facing up and its 7‐pin edge connector facing the ...

  • Page 39: Mini-Gbic With Lc Connector

    Figure 3-4 Mini-GBIC with LC Connector Ä À Å 1 Mini-GBIC (MGBIC-08, -LC01, -LC03, or -LC09) 2 Mini-GBIC top side 3 7-Pin edge connector (insertion side) Figure 3-5 Mini-GBIC with RJ45 Connector Á Ä 1 Mini-GBIC (MGBIC-02) 2 Mini-GBIC top side 3 7-Pin edge connector (insertion side) Á...

  • Page 40: Removing The Mini-Gbic

    Removing the Mini-GBIC Removing the Mini-GBIC Caution: Do NOT remove a Mini-GBIC from a slot without releasing the locking tab located at the front of the Mini-GBIC. This can damage the Mini-GBIC. The Mini-GBIC and its host device are sensitive to static discharges. Use an antistatic wrist strap and observe all static precautions during this procedure.

  • Page 41: Module Placement And Rules

    Module Placement and Rules Note: It is important to follow the Module Placement and Rules to ensure proper operation. The DFE‐Gold modules can be installed in a Matrix E7, Matrix N1, Matrix N3, Matrix N5,  or Matrix N7 chassis. The slot locations in the Matrix E7, N3, N5, and N7 chassis are  identified in Figure Caution: Regardless of which chassis is used, the chassis system must be dedicated to DFE-Gold modules (4xxxxx) only.
  • Page 42 Module Placement and Rules Example 1 (Figure Shows one module installed in the chassis. If the chassis is populated with only one  4xxxxx, it must be installed in slot 1.  Rule: If only one 4xxxxx is installed in the chassis, it must be in slot 1. Always install a  4xxxxx in slot 1 of the chassis. Example 2 (Figure Shows the chassis fully populated with 4xxxxx modules. All modules may be hot  swapped, except the module in slot 1. If the module in slot 2 is designated as a redundant  management module, the module in slot 1 may be hot swapped without shutting down  the system. The module in slot 2 can be designated using the CLI command  set license <license key>. For information on how to use this command, refer to the Matrix DFE‐Gold Series  Configuration Guide. To access this guide on the web, refer to  “Related Documents” on  page xiv.  Without a designated redundant management module in slot 2, removing the module in  slot 1 will shut down the system. Rule: Any module in a 4xxxxx system, including the management module in slot 1, may  be hot swapped when there is a 4xxxxx module designated as a redundant management  module in slot 2. Example 3 (Figure Shows the primary management module missing from slot 1. As long as the module  installed in slot 2 is designated as a redundant management module, the module in slot 1  can be removed without affecting system operation. However, if there is no module in  slot 1, and the system is powered down, it cannot be restarted without a module in slot 1. Rule: You cannot power up the system completely without a module in slot 1. Example 4 (Figure Shows a chassis populated with 4xxxxx and 7xxxxx modules. DO NOT install 4xxxxx and ...

  • Page 43: Installing The Dfe Module Into A Chassis

    Installing the DFE Module into a Chassis Caution: Failure to observe static safety precautions could cause damage to the DFE module. Follow static safety handling rules and wear the antistatic wrist strap. Do not cut the non-conductive bag to remove the module. Sharp objects contacting the board or components can cause damage.

  • Page 44: Installing Module Into Matrix E7 Or N7 Chassis

    Installing the DFE Module into a Chassis Module into Matrix E7 or N7 Chassis Installing To install the module, refer to Figure Caution: To prevent damaging the backplane connectors in the following step, take care that the module slides in straight and properly engages the backplane connectors. Ensure that the top lever lines up with the desired slot number located on the front panel of the chassis.
  • Page 45 Figure 3-1 Installing Module into Matrix E7 or Matrix N7 Chassis (E7 shown) Æ Ã Card guides Slot number 1 (Left-most slot is 1.) Module card Metal back panel Á Â À Upper/lower locking tabs (in proper open position) Upper/lower locking tab (in closed position) Backplane connectors (power and FTM2) Installing the DFE Module into a Chassis Ä...

  • Page 46: Installing Module Into Matrix N1, N3, Or N5 Chassis

    Installing the DFE Module into a Chassis Installing Module into Matrix N1, N3, or N5 Chassis Caution: Failure to observe static safety precautions could cause damage to the DFE module. Follow static safety handling rules and wear the antistatic wrist strap. Do not cut the non-conductive bag to remove the module.

  • Page 47: Connecting To The Network

    Figure 3-7 Æ 1 Card guides 2 Slot 1 (Top slot is slot 3.) 3 Module card 4 Metal back panel Connecting to the Network This section provides the procedures for connecting unshielded twisted pair (UTP)  segments from the network or other devices to the 4G4282‐49 and 4G4202‐72  (“Connecting UTP Cables” on page 3‐16). For connections to Mini‐GBIC ports on the  7G‐6MGBIC or 7G‐6MGBIC‐A, refer to “Connecting Fiber‐Optic Cables to Mini‐GBICs”  on page 3‐20. Note: If the DFE-Gold module is being installed in a network using Link Aggregation, there are rules concerning network cables and port configurations that must be followed for Link Aggregation to operate properly.

  • Page 48: Connecting Utp Cables

    Connecting to the Network Connecting UTP Cables The fixed RJ45 front panel connections of the 4G4202‐72 and 4G4282‐49 are 10/100/1000  Mbps ports. These ports have internal crossovers, and also support automatic‐polarity  sensing when configured for automatic‐negotiation. If automatic‐negotiation is not activated on a port, use a straight‐through cable when  connecting a workstation to the port. When connecting a networking device to the port,  such as a bridge, repeater, or router, use a crossover cable. If a port is set for auto‐negotiation, automatic‐polarity sensing is also activated.  Automatic‐polarity sensing eliminates the need for a crossover cable, whether the  connection is to another network device or a workstation. Note: All RJ45 front panel ports on the 4G4202-72 Unshielded Twisted Pair (UTP) cabling with an impedance between 85 and 111 ohms. Category 3 cable may be used if the connection is going to be used only for 10 Mbps. In this procedure, the 4G4202‐72 is used as the example to connect a twisted pair segment ...

  • Page 49: Connecting A Twisted Pair Segment To The Dfe-Gold Module

    Figure 3‐10 for four‐wire RJ45 connections. Refer to Figure 3‐11 and Figure for eight‐wire RJ45 connections. Ensure that the twisted pair connection meets the dB loss and cable specifications  outlined in the Cabling Guide. Refer to “Related Documents”  on page xiv for  information on obtaining this document. If a link is still not established, contact  Enterasys Networks. Refer to “Getting Help” on page 1‐8 for details. Repeat steps 1 through 3 above, until all connections have been made. Figure 3-8 Connecting a Twisted Pair Segment to the DFE-Gold Module Á À 1 RJ45 connector 2 RJ45 port connector (port 1) Ã Â Ä 3 Transmit status (TX) LED 4 Receive status (RX) LED Matrix DFE-Gold Series Installation Guide 3-17 Connecting to the Network...

  • Page 50: Crossover Four-Wire Cable Rj45 Pinouts, Connections Between Network Devices

    Connecting to the Network Figure 3-9 Network Devices 1 RJ45 device port 2 Other device port Figure 3-10 Between Network Devices 1 RJ45 device port 2 Other device port 3-18 Installation Crossover Four-Wire Cable RJ45 Pinouts, Connections Between À Ã 3 RJ45-to-RJ45 crossover cable 4 RX+/RX- and TX+/TX- connections.

  • Page 51: Eight-Wire Straight-Through Cable Rj45 Pinouts, Connections Between Switches And End System

    Figure 3-11 Eight-Wire Crossover Cable RJ45 Pinouts, Connections Between Network Devices À 1 RJ45 device port 2 Other device port Figure 3-12 Eight-Wire Straight-Through Cable RJ45 Pinouts, Connections Between Switches and End System Devices À 1 RJ45 device port 2 Other device port Connecting to the Network Á...

  • Page 52: Connecting Fiber-Optic Cables To Mini-Gbics

    Connecting to the Network Connecting Fiber-Optic Cables to Mini-GBICs This section provides the procedure for connecting 1‐Gigabit Ethernet fiber‐optic  segments from the network or other devices to Mini‐GBIC MT‐RJ or LC port connectors  installed in the optional 7G‐6MGBIC or 7G‐6MGBIC‐A interface. An MT‐RJ connector is  shown in Figure 3‐13 and an LC connector is shown in Figure Each fiber‐optic link consists of two fiber‐optic strands within the cable: Transmit (TX)  and Receive (RX) The transmit strand from an MT‐RJ port on the DFE‐Gold module interface connects to  the receive port of a fiber‐optic Gigabit Ethernet device at the other end of the segment.  The receive strand connects to the transmit port of the fiber‐optic Gigabit Ethernet device.  The following procedure describes how to connect an MT‐RJ cable connector (Figure to a Mini‐GBIC port connector. This procedure also applies to an LC cable connector  shown in Figure 3‐14. To connect a cable, refer to Figure as follows: Remove the protective covers (not shown) from the MT‐RJ fiber‐optic port on the  Mini‐GBIC and from the connectors on each end of the cable. Note: When the fiber optic connectors of the Mini-GBICs are not in use, leave the protective covers in place to prevent contamination.

  • Page 53: Cable Connection To Mt-Rj Fiber-Optic Connectors

    Figure 3-13 Cable Connection to MT-RJ Fiber-Optic Connectors 1 Installed Mini-GBIC MT-RJ connector 2 MT-RJ cable connector 3 Release tab Ã Ä À Á  4 Receive LED (RX) 5 Transmit LED (TX) Matrix DFE-Gold Series Installation Guide 3-21 Connecting to the Network...

  • Page 54: Cable Connection To Lc Fiber-Optic Connectors

    Connecting to the Network Figure 3-14 1 Installed Mini-GBIC LC connector 2 LC cable connector 3 Release tab Plug the other end of the cable into the appropriate port on the other device. Some  cables may be terminated at the other end with two separate connectors, one for each  3-22 Installation Cable Connection to LC Fiber-Optic Connectors à Á Â Ä À 4 Receive LED (RX) 5 Transmit LED (TX)

  • Page 55: Connecting To Com Port For Local Management

    Verify that a link exists by checking that the port RX LED is on (flashing amber,  blinking green, or solid green). If the RX LED is off, perform the following steps until  it is on: Verify that the device at the other end of the segment is ON and connected to the  segment. b. If there are separate fiber‐optic connections on the other device, check the  crossover of the cables. Swap the cable connections if necessary. Check that the fiber‐optic connection meets the dB loss and cable specifications  outlined in the Cabling Guide for multimode fiber‐optic cabling. To obtain this  document, refer to “Related Documents”  on page xiv.  If a link has not been established, refer to Chapter details. If a problem persists, refer to “Getting Help” on page 1‐8 for details on  contacting Enterasys Networks for support. Repeat steps 1 through 4, above, until all connections have been made. Connecting to COM Port for Local Management This section describes how to install a UTP straight‐through cable with RJ45 connectors  and optional adapters to connect a PC, a VT series terminal, or a modem to an  Enterasys Networks module to access Local Management. This section also provides the  pinout assignments of the adapters. What Is Needed The following is a list of the user‐supplied parts that may be needed depending on the  connection: • RJ45‐to‐DB9 female adapter  • UTP straight‐through cable with RJ45 connectors •...

  • Page 56: Connecting To An Ibm Pc Or Compatible Device

    Connecting to COM Port for Local Management With a UTP straight‐through cable and an RJ45‐to‐DB25 male adapter, you can connect  products equipped with an RJ45 COM port to a Hayes compatible modem that supports  9600 baud. Connecting to an IBM PC or Compatible Device To connect an IBM PC or compatible device, running the VT terminal emulation, to an  Enterasys Networks module COM port (Figure Connect the RJ45 connector at one end of a UTP straight‐through cable to the  communications COM port on the Enterasys Networks module. (The COM port is  also known as a Console port.) Plug the RJ45 connector at the other end of the UTP straight‐through cable into an  RJ45‐to‐DB9 adapter . Connect the RJ45‐to‐DB9 adapter to the communications port on the IBM PC. Turn on the PC and configure your VT emulation package with the following  parameters: Parameter Mode Transmit Bits Parity Stop Bit When these parameters are set, the Local Management password screen will display. ...

  • Page 57: Connecting To A Vt Series Terminal

    Figure 3-15 Connecting an IBM PC or Compatible Device 1 UTP straight-through cable with RJ45 connectors 2 RJ45 COM port Connecting to a VT Series Terminal To connect a VT Series terminal to an Enterasys Networks DFE‐Gold module COM port  (Figure 3‐16), use a UTP straight‐through cable with RJ45 connectors and an RJ45‐to‐DB25  female adapter, and proceed as follows: Connect the RJ45 connector at one end of the UTP straight‐through cable to the COM  port on the Enterasys Networks module. Plug the RJ45 connector at the other end of the UTP straight‐through cable into the  RJ45‐to‐DB25 female adapter. Connect the RJ45‐to‐DB25 adapter to the port labeled COMM on the VT terminal. Turn on the terminal and access the Setup Directory. Set the following parameters on  your terminal: Parameter...

  • Page 58: Connecting To A Modem

    Connecting to COM Port for Local Management When these parameters are set, the Local Management password screen will display.  Refer to the Matrix DFE‐Gold Series Configuration Guide for further information. Figure 3-16 1 UTP straight-through cable with RJ45 connectors 2 RJ45 COM port Connecting to a Modem To connect a modem to an Enterasys Networks DFE‐Gold module COM port  (Figure 3‐17), use a UTP straight‐through cable with RJ45 connectors and an RJ45‐to‐DB25  male adapter, and proceed as follows: Connect the RJ45 connector at one end of the UTP straight‐through cable to the COM  port of the DFE‐Gold module. Plug the RJ45 connector at the other end of the UTP straight‐through cable into the  RJ45‐to‐DB25 modem adapter. Connect the RJ45‐to‐DB25 adapter to the communications port on the modem. Turn on the modem. 3-26 Installation Connecting a VT Series Terminal Ã...

  • Page 59: Connecting To A Modem

    With a PC connected to a remote modem, you can configure the switch remotely. To  accomplish this, you must configure your PC VT emulation package with the  following parameters. Parameter Mode Transmit Bits Parity Stop Bit When these parameters are set, the Local Management password screen will display.  Refer to the Matrix DFE‐Gold Series Configuration Guide for further information. Figure 3-17 Connecting to a Modem Å Ä 1 UTP straight-through cable with RJ45 connectors 2 RJ45 COM port 3 RJ45-to-DB25 modem adapter Connecting to COM Port for Local Management...

  • Page 60: Adapter Wiring And Signal Assignments

    Connecting to COM Port for Local Management Adapter Wiring and Signal Assignments RJ45 RJ45 3-28 Installation COM Port Adapter Wiring and Signal Diagram Conductor Blue Green Orange Yellow VT Series Port Adapter Wiring and Signal Diagram DB25 Conductor Blue Yellow Green Orange Signal...

  • Page 61: Completing The Installation

    RJ45 Completing the Installation Completion of the DFE module installation depends upon the type of system in which the  module is being installed.  • If installing in a new DFE module system, refer to “Completing the Installation” on  page 3‐29. • If installing in an established, operating DFE module system, refer to “Completing the  Installation of a DFE‐Gold Module in an Existing System” on page 3‐31. Completing the Installation of a New System In a new system of DFE modules, one of the installed DFE modules will become the  management module on chassis power up, and all DFE modules will automatically be set  to the factory default values. A complete list of the factory default values are provided in  Chapter 3 of the Matrix DFE‐Gold Series Configuration Guide. After installing all DFE‐Gold modules into the host chassis and making the connections to  the network, proceed to the following First‐Time Log‐In Using a Console Port Connection  procedure to access the module management startup screen from your PC, terminal, or  modem connection. Modem Port Adapter Wiring and Signal Diagram DB25 Conductor Blue Orange Green Yellow...
  • Page 62 Completing the Installation First-Time Log-In Using a Console Port Connection Note: This procedure applies only to initial log-in, and to logging in to a device not yet configured with administratively-supplied user and password settings. By default, the Matrix DFE Series device is configured with three user login accounts: ro for Read-Only access;...

  • Page 63: Completing The Installation Of A Dfe-Gold Module In An Existing System

    Andover, MA 01810-1008 U.S.A. Phone: +1 978 684 1000 E-mail: support@enterasys.com WWW: http://www.enterasys.com (c) Copyright Enterasys Networks, Inc. 2003 Chassis Serial Number: Chassis Firmware Revision: xx.xx.xx Matrix N7(su)-> Completing the Installation of a DFE-Gold Module in an Existing System In an established DFE module system, •...

  • Page 64: Logging In With An Administratively-Configured User Account

    Completing the Installation Logging in with an Administratively-Configured User Account If the device’s default user account settings have been changed, proceed as follows: At the login prompt, enter your administratively‐assigned user name and press Enter. At the Password prompt, enter your password and press Enter. The notice of authorization and the Matrix prompt displays as shown back in Figure Note: Users with Read-Write (rw) and Read-Only access can use the set password command to change their own passwords. Administrators with Super User (su) access can use the set system login command to create and change user accounts, and the set password command to change any local account password.

  • Page 65: Chapter 4: Troubleshooting

    This chapter provides information concerning the following: For information about... Using LANVIEW Troubleshooting Checklist Matrix DFE-Gold Series Installation Guide Recommended Shutdown Procedure Using OFFLINE/RESET Switch Last Resort Shutdown Procedure Using OFFLINE/RESET Switch Unless otherwise noted, the following information applies to all DFE modules. Using LANVIEW The modules use a built‐in visual diagnostic and status monitoring system called  LANVIEW. The LANVIEW LEDs (Figure status to aid in diagnosing network problems.  About the Management (MGMT) LED The MGMT LED (shown in Figure Management Module to control the management functions for all DFE‐Gold modules in  the chassis. The Management Module handles all IP requests to the chassis IP address, ...

  • Page 66: Lanview Leds

    Using LANVIEW Viewing the Receive and Transmit Activity On the 4G4202‐72 and 4G4282‐49, you can view the receive and transmit activity on the  RX and TX LEDs. However, only one group of ports may be viewed at a time. On the  4G4282‐49, there are 12 ports per group. On the 4G4202‐72, there are 24 ports per group. To view the receive and transmit activity on a group of attached segments, press the  GROUP SELECT button (see Figure the 4G4202‐72, and Groups 1–5 for the 4G4282‐49). Each time the GROUP SELECT button  is pressed, the GROUP LED lights up in sequence, indicating which group is selected. The  receive and transmit activity for that group of segments is then indicated by the RX and  TX LEDs for each port. Figure 4-1 1 MGMT LED 4-2 Troubleshooting 4‐1) to step to the group of interest (Groups 1–3 for  LANVIEW LEDs À À Á Á 2 Group 1, Port 1 LEDs...

  • Page 67: Lanview Leds

    Recommended Action None. None. None. Ensure chassis has adequate power. None. If the LED remains amber for several minutes, contact Enterasys Networks for technical support. None. None. None. None. This state is activated when the OFFLINE/RESET switch is pressed for less than 1 second to start the process of an orderly shutdown.
  • Page 68 While in this state, you have 60 seconds to safely remove the DFE-Gold module from the chassis. None. None. None. Contact Enterasys Networks for technical support. If it is known that the port should be active and is not, contact Enterasys Networks for technical support.

  • Page 69: Troubleshooting Checklist

    Verify that all network connections between the network management station and the module are valid and operating. If the problem continues, contact Enterasys Networks for technical support. Troubleshooting Checklist 4‐2 for a checklist of problems,  3, and that the host chassis is providing Appendix A for proper COM port pinouts.

  • Page 70: Dfe-Gold Module Shutdown Procedure

    Matrix DFE-Gold Series Configuration Guide for the instructions to set the type of STA. Review the network design resolve loops. If the problem continues, contact Enterasys Networks for technical support. Position of Mode switch Reenter the lost parameters as necessary. Refer (7), Persistent Data...

  • Page 71: Recommended Shutdown Procedure Using Offline/Reset Switch

    • “Last Resort Shutdown Procedure Using OFFLINE/RESET Switch” (page 4‐8) Figure 4-2 OFFLINE/RESET Switch 1 OFFLINE/RESET switch (in similar location on all DFE modules) Recommended Shutdown Procedure Using OFFLINE/RESET Switch Caution: Do not remove a DFE module from an operating chassis system before reading the following information and instructions.

  • Page 72: Last Resort Shutdown Procedure Using Offline/Reset Switch

    CPU LED is alternately flashing amber/off. Otherwise, system operation will be interrupted. Last Resort Shutdown Procedure Using OFFLINE/RESET Switch Caution: This method of shutting down a DFE module is not recommended except as a last resort, because all processes currently running on the module will be interrupted, resulting in loss of frames.

  • Page 73: A-1 Specifications

    This appendix provides information about the following: For information about... DFE-Gold Module Specifications Ethernet Interface Module Specifications Mini-GBIC Input/Output Specifications Gigabit Ethernet Specifications COM Port Pinout Assignments Regulatory Compliance Enterasys Networks reserves the right to change the specifications at any time without  notice. DFE-Gold Module Specifications Table A‐1 provides the I/O ports, processors and memory, physical, and environmental  module specifications for the 4G4202‐72 and 4G4282‐49. Unless otherwise noted, the  specifications apply to both DFE modules. Table A-1 Specifications Item 4G4202-72 Ports Ports 1 through 72...

  • Page 74: A-2 7G-6Mgbic And 7G-6Mgbic-A Port/Environmental Specifications

    Ethernet Interface Module Specifications Table A-1 Specifications (continued) Item Processors/Memory Processor Dynamic Random Access Memory (DRAM) FLASH Memory Physical Dimensions Approximate Weight Calculated hours for Mean Time Between Failures (MTBF) for 4G4202-72 and 4G4282-49 Environmental Operating Temperature Storage Temperature Operating Relative Humidity Ethernet Interface Module Specifications Refer to Table Table A-2 7G-6MGBIC and 7G-6MGBIC-A Port/Environmental Specifications...

  • Page 75: Mini-Gbic Input/Output Specifications

    Table A-2 7G-6MGBIC and 7G-6MGBIC-A Port/Environmental Specifications Item Physical Dimensions Approximate Weight Calculated hours for Mean Time Between Failures (MTBF) Environmental Operating Temperature Storage Temperature Operating Relative Humidity Mini-GBIC Input/Output Specifications The Mini‐Gigabit Ethernet Card (Mini‐GBIC) port interface slots can support 1‐Gbps  fiber‐optic and copper connections as described in Table are hot swappable.  Table A-3 Mini-GBIC Input/Output Port Specifications Item MGBIC-LC01 MGBIC-LC03...

  • Page 76: Gigabit Ethernet Specifications

    Gigabit Ethernet Specifications Gigabit Ethernet Specifications The following specifications for the Mini‐GBICs shown in Table A‐4 through Table meet or exceed the IEEE 802.3z‐1998 standard. MGBIC-LC01 / MGBIC-MT01 Specifications (1000BASE-SX) Table A-4 MGBIC-LC01/MGBIC-MT01 Optical Specifications Item Transmit Power (minimum) Receive Sensitivity Link Power Budget Table A-5 MGBIC-LC01/MGBIC-MT01 Operating Range Item 62.5 µm MMF 62.5 µm MMF 50 µm MMF 50 µm MMF MGBIC-LC03 Specifications (1000BASE-LX)

  • Page 77: Mgbic-Lc09 Specifications (1000Base-Lx

    Table A-7 MGBIC-LC03 Operating Range Item 62.5 µm MMF 50 µm MMF MGBIC-LC09 Specifications (1000BASE-LX) Table A-8 MGBIC-LC09 Optical Specifications Item Transmit Power (minimum) Receive Sensitivity Link Power Budget Table A-9 MGBIC-LC09 Operating Range Item 62.5 µm MMF 50 µm MMF 50 µm MMF 10 µm SMF MGBIC-08 Specifications (1000BASE-ELX)

  • Page 78: Mgbic-02 Specifications (1000Base-T

    Gigabit Ethernet Specifications Table A-10 MGBIC-08 Optical Specifications (continued) Item Link Power Budget (Full Duplex Only) 1. The maximum drive distance (up to 70 km) depends on the quality of the installed single-mode fiber- optic cable segment. Use the Link Power Budget to calculate the maximum cable length of the attached segment.

  • Page 79: Com Port Pinout Assignments

    COM Port Pinout Assignments The COM port is a serial communications port for access to Local Management. Refer to  Table A‐13 for the COM port pin assignments. Table A-13 COM Port Pin Assignments Signal Name Transmit Data (XMT) Clear to Send (CTS) Data Set Ready (DSR) Receive Data (RCV) Signal Ground (GND) Request to Send (RTS) Data Terminal Ready (DTR) Data Carrier Detect (DCD) Regulatory Compliance The 4G4202‐72 and 4G4282‐49 meet the safety and electromagnetic compatibility (EMC) ...
  • Page 80 Regulatory Compliance A-8 Specifications...

  • Page 81: Appendix B: Mode Switch Bank Settings And Optional Installations

    Caution: Read the appropriate sections to be fully aware of the consequences when changing switch settings. Only qualified personnel should change switch settings. Precaución: Si desea modificar la configuración del interruptor, lea las secciones correspondientes para saber cuál será el resultado de hacerlo.

  • Page 82: Mode Switch Location On 4G4202-72 And 4G4282-49

    Note: Do not change the position of Switch 8 unless it is necessary to reset the admin password to its factory default setting. Figure B-1 1 Mode switch pack is in the same location on both DFE-Gold modules (4G4202-72 shown) B-2 Mode Switch Bank Settings and Optional Installations B‐3 show the location of the mode switches and the switch ...

  • Page 83: Memory Locations And Replacement Procedures

    Memory Locations and Replacement Procedures In the event that the Dual In‐Line Memory Module (DIMM) or DRAM Single In‐line  Memory Module (SIMM) (FLASH memory) needs to be replaced, the following sections  describe how to access, locate and replace these memory modules. If you have questions  concerning the replacement of either memory module, refer to the section, “Getting  Help,” on page 1‐8 for details on how to contact Enterasys Networks. Location of DRAM SIMM and DIMM Memory Modules Figure B‐2 and Figure main board of the 4G4202‐72 and the 4G4282‐49, respectively. Figure B-2 DRAM SIMM 1. This is not considered a field replaceable unit on the 4G4202-72.

  • Page 84: Memory Module Locations On The 4G4282-49

    DIMM memory and connector. If an network expansion module is installed on the main board of the 4G4282‐49, refer  to Figure Remove and save the three screws attaching the network expansion module to  the front panel and to the standoff on the main PC board. b. Lift the network expansion module straight up and off the two module  connectors on the main PC board. B-4 Mode Switch Bank Settings and Optional Installations Memory Module Locations on the 4G4282-49 2 DIMM B‐4 on page B‐5 and proceed to step 1a. Otherwise proceed to step 2.  Â Á À...

  • Page 85: Removing The Existing Dram Simm From 4G4282-49

    Figure B-4 NEM Removal and DRAM SIMM Connector Location on 4G4282-49 Ã Â 1 Network Expansion Module (not on all DFEs) 2 Main PC board 3 Screws (3) Refer to Figure B‐5. Push the connector arms away from the DRAM SIMM and  simultaneously lift the DRAM SIMM enough to release it from the connector fingers. Figure B-5 Removing the Existing DRAM SIMM from 4G4282-49 À...

  • Page 86: Installing The Dram Simm On 4G4282-49

    Insert the DRAM SIMM down between the connector fingers. Pivot the DRAM SIMM downward so the tabs on the connector arms align with the  two DRAM SIMM alignment notches. With the two connector arms spread outward,  push the DRAM SIMM down between the connector arms. Release the two connector  arms to lock the DRAM SIMM into place. Figure B-6 1 DRAM SIMM 2 Connector fingers B-6 Mode Switch Bank Settings and Optional Installations B‐6 and proceed as follows: Installing the DRAM SIMM on 4G4282-49 Ã Â Á 3 Connector arms 4 DRAM SIMM alignment notches (2) À...

  • Page 87: Dimm Replacement Procedure

    DIMM Replacement Procedure The DIMM is considered a field replaceable unit on both the 4G4202‐72 and 4G4282‐49. Removing the DIMM Caution: Observe all Electrostatic Discharge (ESD) precautions when handling sensitive electronic equipment. Precaución: Al trabajar con equipos electrónicos sensibles, tome todas las precauciones de seguridad para evitar descargas de electricidad estática. To remove the existing DIMM, proceed as follows: Locate the DIMM connector on the main PC board. Refer to Figure Push the connector arms away from the DIMM, as shown in Figure release the DIMM from the connector contacts.

  • Page 88: Installing The Dimm On 4G4202-72 Or 4G4282-49

    Insert the DIMM straight down between the connector contacts enough for the tabs  on the connector arms to align with the two DIMM alignment notches.  Push the DIMM down into the connector contacts, then rotate the two connector arms  toward the DIMM to lock it into place. Figure B-8 1 DIMM Connector arms 2 DIMM B-8 Mode Switch Bank Settings and Optional Installations B‐8 and proceed as follows: Installing the DIMM on 4G4202-72 or 4G4282-49 Ã À 3 Connector contacts 4 DIMM alignment notches (2) Á...
  • Page 89 Numerics 1000BASE-SX/LX/ELX network connections requirements for 1000BASE-T network connections requirements for 100BASE-TX requirements 10BASE-T connection 3-16 requirements 4G4202-72 connectivity introduction to 4G4282-49 connectivity introduction to Cable Fiber budget Cable connections 4G4202-72 or 4G4282-49 3-16 Cable specifications 1000BASE-SX/LX/ELX network 1000BASE-T network 100BASE-TX network 10BASE-T network CLI command...
  • Page 90 MGBIC-LC03 specifications for MGBIC-LC09 specifications for MGBIC-MT01 specifications for Mini-GBIC installation of removal of specifications for Mode Switch setting of Module coverplate removal of Module features Network connecting to 3-15 network expansion module installation of Network Requirements list of...

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