Connecting Stacking Cables | Enterasys Networks A2H254-16 guide

Connecting Stacking Cables

2.With the mounting brackets attached, position the switch between the vertical frame members of the 19‐inch rack as shown in Figure 3‐7. Then fasten the switch securely to the frame using four mounting screws (user supplied).

Figure 3-7 Fastening the Switch to the Rack

1 Rails of 19-inch rack

2 Mounting screws (supplied by user)

3.If you are installing this switch in a stacked configuration, repeat this procedure for each switch until all switches have been installed in the stack, then proceed to “Connecting Stacking Cables” on page 3‐11. Otherwise, proceed to “Connecting AC and RPS‐SYS Power” on page 3‐15.

Connecting Stacking Cables

The stack of switches can be connected in a closed loop or daisy chained. In a closed loop all the switches are connected in sequence and the last switch in the stack is connected back to the first switch. In a daisy chain configuration the cable that would return the connection back to the first switch in a closed loop is not installed. The advantage of the closed loop is redundancy, this configuration eliminates any single point of failure. Up to eight switches can be stacked together and connected by standard UTP Category 5 or better cables. The stacking cables allow the entire stack to operate with a single IP address.

Figure 3‐8 shows an example of a four‐high stack connected in a closed loop configuration. All STACK DOWN and STACK UP connectors are used in the installation. The stacking cable connections are from the STACK DOWN connector of one switch to the STACK UP connector of the next switch up in the stack. A stacking cable connection from the STACK DOWN connector of the switch at the top of the stack to the STACK UP connector at the bottom of the stack closes the loop. In a daisy chain configuration, one cable connection is not made.

SecureStack A2 Installation Guide 3-11

Image 39

Enterasys Networks A2H254-16 manual Connecting Stacking Cables, Fastening the Switch to the Rack

Contents

SecureStack A2 Page Page Regulatory Compliance Information Electromagnetic Compatibility EMC Safety Information Class 1 Laser Transceivers Declaration of Conformity Enterasys Networks, Inc Firmware License Agreement Vii Viii Contents Troubleshooting Figures Xii Who Should Use This Guide About This Guide Related Documents How to Use This Guide Following conventions are used in this guide Conventions Used in This Guide Conventions Used in This Guide Xvi About This Guide Overview Introduction A2H254-16 Stack Connections Redundant Power Supply Capability Description of Mini-GBICs Connectivity Management Lanview Diagnostic LEDsSwitch Configuration Using WebView Switch Configuration Using CLI Commands Getting Help 10BASE-TX Twisted Pair Network Network Requirements 100BASE-TX Twisted Pair Network 1000BASE-T Twisted Pair Gigabit Ethernet Network100BASE-FX Multimode Fiber-Optic Network 1000BASE-FX Fiber-Optic Network 1000BASE-FX Fiber-Optic Network Network Requirements Hardware Installation Required Tools Considerations Prior to InstallationUnpacking the Switch Contents of Switch Carton Preparation Installing Optional Mini-GBICs Installation Mini-GBIC with MT-RJ Connector Removing the Mini-GBIC Mini-GBIC with LC Connector Installing the Rubber Feet Installing the Switch on a Flat Surface Chassis Bottom, Rubber Feet Placement Guidelines for Flat Surface Installation Area Guidelines for Switch Installation on Flat Surface Rack Mounting the Switch Attaching Brackets and Installing in Rack Guidelines for Rackmount Installation Fastening the Switch to the Rack Connecting Stacking Cables About SecureStack A2 Switch Operation in a Stack Configuring Switches in a Stack Configuring Switches in a Stack Installing a New Stackable System of Up to Eight Switches Recommended Procedures for New and Existing Stacks AC Power Connecting AC and RPS-SYS Power Switch Rear View 10 Accessing the RPS Connector C2RPS-SYS Redundant Power System Connecting to Console Port for Local Management What Is NeededStack Initialization Overview DB9 Male Console Port Pinout Assignments Connecting to an IBM or Compatible Device 12 Connecting an IBM PC or Compatible Connecting to a VT Series Terminal 13 Connecting a VT Series Terminal Connecting to a Modem 14 Connecting to a Modem Connecting Fiber-Optic Cables to Fixed MT-RJ Ports Connecting to the Network 15 Connecting a Fiber-Optic Cable Segment to MT-RJ Port Connecting Fiber-Optic Cables to MT-RJ Mini-GBIC Ports Connecting to the Network Connecting Fiber-Optic Cables to LC Mini-GBIC Ports Connecting to the Network 16 Connecting a UTP Cable Segment to RJ45 Port Connecting UTP Cables to RJ45 Ports Connecting to the Network 17 Four-Wire Crossover Cable RJ45 Pinouts for 10/100BASE-TX TX1+ RX1 TX2+ TX3+ RX3 RX2 TX4+ RX4 Initial Logon to Switch Management Completing the Installation Completing the Installation Hardware Installation This chapter provides information concerning the following Troubleshooting Lanview LEDs of A2H254-16 Using Lanview Color State Recommended Action Lanview LEDs Down RPS Configuration Guide for proper setup Troubleshooting Checklist Configuration Guide for the IP address Reset Password Button Using the Reset Password Button Specifications Switch SpecificationsTable A-1 A2H254-16 Switch Specifications Environmental Physical Table A-2 Mini-GBIC Input/Output Port Specifications Mini-GBIC Input/Output Specifications Gigabit Ethernet Specifications MGBIC-LC01/MGBIC-MT01 Specifications 1000BASE-SXMGBIC-LC03 Specifications 1000BASE-SX MGBIC-LC09 Specifications 1000BASE-LX Table A-11 MGBIC-02 Specifications MGBIC-08 Specifications 1000BASE-ELXMGBIC-02 Specifications 1000BASE-T Table A-9 MGBIC-08 Optical Specifications Console Port Pinout Assignments Regulatory ComplianceTable A-12 Compliance Standards Regulatory Compliance Regulatory Compliance Specifications Numerics Index Index-2