Catalyst 4500 E-Series Switches Installation Guide November 2007 Americas Headquarters Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA 95134-1706 USA http://www.cisco.
THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS.
C O N T E N T S Preface vii Audience vii Organization vii Related Documentation Conventions viii viii Obtaining Documentation and Submitting a Service Request CHAPTER 1 Product Overview xv 1-1 Switch Features 1-1 Power Redundancy 1-1 Catalyst 4503-E Switch Features 1-2 Catalyst 4506-E Switch Features 1-5 Supervisor Engine Redundancy 1-8 Catalyst 4507R-E Switch Features 1-9 Catalyst 4510R-E Switch Features 1-13 Supervisor Engines 1-16 LEDs 1-22 Gigabit Ethernet Uplink Ports 1-22 10-Gigabit Eth
Contents Management Flow 1-35 Switching Traffic Flow 1-36 CHAPTER 2 Preparing for Installation 2-1 Electrostatic Discharge 2-2 Preventing Electrostatic Discharge Damage Site Power Requirements and Heat Dissipation 2-3 Power Connection Guidelines for DC-Powered Systems Calculating DC Input Current 2-9 2-9 Site-Planning Checklist 3 2-3 Power Connection Guidelines for AC-Powered Systems Ventilation 2-10 Calculating System Heat Dissipation CHAPTER 2-2 2-11 2-11 Installing the Switch in a Rack
Contents Verifying the Installation 4-15 Replacing Backplane Modules 4-15 Verify the New Modules 4-18 Supervisor Memory Upgrade 4-19 Tools and Equipment Needed 4-19 Removing Memory 4-19 Installing SDRAM MiniDIMMs 4-21 CHAPTER 5 Troubleshooting 5-1 System Boot Verification 5-2 Using LEDs to Identify Startup Problems System Messages 5-2 5-4 Troubleshooting with Software 5-4 Troubleshooting the Power Supply 5-4 System Messages and Power Problems Useful CLI Commands 5-5 Power Supply Mixing 5-6 Tr
Contents Boot Problems 5-17 Contacting the Cisco Technical Assistance Center Serial Numbers 5-19 APPENDIX A Specifications 5-18 A-1 Catalyst 4503-E Switch Specifications A-1 Catalyst 4506-E Switch Specifications A-2 Catalyst 4507R-E Switch Specifications A-3 Catalyst 4510R-E Switch Specifications A-5 Catalyst 4500 Power Supplies A-6 APPENDIX B Repacking a Switch APPENDIX C Initial Configuration for the Switch B-1 Connecting to the Switch C-1 C-2 Starting the Terminal-Emulation S
Preface This preface describes the audience,organization,and conventions ofthe Catalyst4500 E-Series Switches Installation G uide and provides inform ation on how to obtain related docum entation and technicalassistance. Audience O nly trained and qualified service personnel(as defined in IEC 60950 and A S/N ZS3260)should install, replace,orservice the equipm ent.
Preface Related Documentation Chapter Title Description A ppendix C InitialConfiguration forthe Sw itch Provides a very m inim alconfiguration.Forfull configuration offeatures and interfaces,referto the softw are configuration guide foryoursoftw are release. A ppendix D M oduleO verview and Provides specifications and otherinform ation aboutthe Catalyst4500 E-series sw itching m odules.
Preface Conventions Convention Description { x |y |z } A lternative keyw ords are grouped in braces and separated by verticalbars. [x |y |z ] O ptionalalternative keyw ords are grouped in brackets and separated by verticalbars. string A nonquoted setofcharacters.D o notuse quotation m arks around the string,because the string w illinclude the quotation m arks. screen font boldface screen Term inalsessions and inform ation thatthe system displays are in screen font.
Preface Conventions Warnings use the following conventions: Warning IMPORTANT SAFETY INSTRUCTIONS This warning symbol means danger. You are in a situation that could cause bodily injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents. Use the statement number provided at the end of each warning to locate its translation in the translated safety warnings that accompanied this device.
Preface Conventions Avvertenza IMPORTANTI ISTRUZIONI SULLA SICUREZZA Questo simbolo di avvertenza indica un pericolo. La situazione potrebbe causare infortuni alle persone. Prima di intervenire su qualsiasi apparecchiatura, occorre essere al corrente dei pericoli relativi ai circuiti elettrici e conoscere le procedure standard per la prevenzione di incidenti.
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Preface Conventions Aviso INSTRUÇÕES IMPORTANTES DE SEGURANÇA Este símbolo de aviso significa perigo. Você se encontra em uma situação em que há risco de lesões corporais. Antes de trabalhar com qualquer equipamento, esteja ciente dos riscos que envolvem os circuitos elétricos e familiarize-se com as práticas padrão de prevenção de acidentes. Use o número da declaração fornecido ao final de cada aviso para localizar sua tradução nos avisos de segurança traduzidos que acompanham o dispositivo.
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Preface Obtaining Documentation and Submitting a Service Request Obtaining Documentation and Submitting a Service Request For information on obtaining documentation, submitting a service request, and gathering additional information, see the monthly What’s New in Cisco Product Documentation, which also lists all new and revised Cisco technical documentation, at: http://www.cisco.com/en/US/docs/general/whatsnew/whatsnew.
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CH A P T E R 1 Product Overview This chapter provides an overview of the features and components of the Catalyst 4500 E-series switches. The Catalyst 4500 E-series switches are the Catalyst 4503-E switch, the Catalyst 4506-E switch, the Catalyst 4507R-E switch, and the Catalyst 4510R-E switch.
Chapter 1 Product Overview Switch Features A more detailed discussion of power redundancy is in the Environmental Monitoring and Power Management chapter of the software configuration guide. Refer to the appropriate guide for your software release. Catalyst 4503-E Switch Features The Catalyst 4503-E switch (see Figure 1-1) is a three-slot switch designed for high-performance high-density wiring closet applications.
Chapter 1 Product Overview Switch Features Table 1-1 describes the features of the Catalyst 4503-E switch.
Chapter 1 Product Overview Switch Features Table 1-1 Features of the Catalyst 4503 Switch (continued) Feature Switching module support (continued) Description • 48-port 100BASE-X Fast Ethernet switching module (WS-X4248-FE-SFP) • 24-port IEEE 802.3af-compliant PoE 10/100BASE-TX switching module (WS-X4224-RJ45V) • 48-port IEEE 802.3af compliant PoE 10/100BASE-TX RJ-45 switching module (WS-X4248-RJ45V) • 48 port IEEE 802.
Chapter 1 Product Overview Switch Features Catalyst 4506-E Switch Features The Catalyst 4506-E switch (see Figure 1-2) is a six-slot switch designed for high-performance high-density wiring closet applications.
Chapter 1 Product Overview Switch Features Table 1-2 describes the features of the Catalyst 4506-E switch.
Chapter 1 Product Overview Switch Features Table 1-2 Features of the Catalyst 4506-E Switch (continued) Feature Switching module support (continued) Description • 48-port 10/100-Mbps Fast Ethernet switching module (WS-X4148-RJ21) • 24-port IEEE 802.3af-compliant PoE 10/100BASE-TX switching module (WS-X4224-RJ45V) • 48-port IEEE 802.3af compliant PoE 10/100BASE-TX RJ-45 switching module (WS-X4248-RJ45V) • 48-port 100BASE-X Fast Ethernet switching module (WS-X4248-FE-SFP) • 48 port IEEE 802.
Chapter 1 Product Overview Switch Features 1. You will need to configure the 1400 W DC input current as appropriate for the model of switch. Refer to Appendix A, “Specifications.” Supervisor Engine Redundancy The Catalyst 4507R-E and Catalyst 4510R-E switches support supervisor engine redundancy. Redundancy allows a second supervisor engine to take over if the active supervisor engine fails.
Chapter 1 Product Overview Switch Features Catalyst 4507R-E Switch Features The Catalyst 4507R-E switch (see Figure 1-3) is a seven-slot switch designed for high-performance high-density wiring closet applications.
Chapter 1 Product Overview Switch Features Table 1-3 describes the features of the Catalyst 4507R-E switch.
Chapter 1 Product Overview Switch Features Table 1-3 Features of the Catalyst 4507R-E Switch (continued) Feature Switching module support Description • 32-port 10/100-Mbps Fast Ethernet plus 2-port Gigabit Ethernet switching module (WS-X4232-GB-RJ) • 32-port 10/100-Mbps Fast Ethernet plus 2-port 1000BASE-X Layer 3 Gigabit Ethernet routing module (WS-X4232-L3) • 32-port 10/100-Mbps Fast Ethernet switching module with modular uplink support (WS-X4232-RJ-XX) – 4-port MT-RJ uplink module (WS-U4504-FX-
Chapter 1 Product Overview Switch Features Table 1-3 Features of the Catalyst 4507R-E Switch (continued) Feature Switching module support (continued) Description • 24-port IEEE 802.3af-compliant PoE 10/100BASE-TX switching module (WS-X4224-RJ45V) • 48-port IEEE 802.3af compliant PoE 10/100BASE-TX RJ-45 switching module (WS-X4248-RJ45V) • 48 port IEEE 802.
Chapter 1 Product Overview Switch Features Catalyst 4510R-E Switch Features The Catalyst 4510R-E switch (see Figure 1-4) is a ten-slot switch designed for high-performance high-density wiring closet applications.
Chapter 1 Product Overview Switch Features for a maximum of 384 ports and 4 uplinks. With a Supervisor Engine 6-E, slots 8 to 10 provide 6 Gbps per slot and all other slots provide 24 Gbps per slot. With a Supervisor Engine V or Supervisor Engine V-10GE, all slots are 6 Gbps and E-series switching modules can not be used. Table 1-4 describes the features of the Catalyst 4510R-E switch.
Chapter 1 Product Overview Switch Features Table 1-4 Features of the Catalyst 4510R-E Switch (continued) Feature Switching module support Description • 24-port 10/100BASE-TX Fast Ethernet switching module (WS-X4124-RJ45) • 24-port 100BASE-FX Fast Ethernet switching module (WS-X4124-FX-MT) • 48-port 100BASE-FX Fast Ethernet switching module (WS-X4148-FX-MT) • 48-port 100BASE-LX10 Fast Ethernet switching module (WS-X4148-FE-LX-MT) • 48-port 10/100-Mbps Fast Ethernet switching module (WS-X4148-RJ
Chapter 1 Product Overview Supervisor Engines Table 1-4 Features of the Catalyst 4510R-E Switch (continued) Feature Switching module support (continued) Description • 32-port 10/100-Mbps Fast Ethernet plus 2-port 1000BASE-X Layer 3 Gigabit Ethernet routing module (WS-X4232-L3) • 32-port 10/100-Mbps Fast Ethernet switching module with modular uplink support (WS-X4232-RJ-XX) – 4-port MT-RJ uplink module (WS-U4504-FX-MT) (optional) • 2-port Gigabit Ethernet switching module (WS-X4302-GB) • 6-port
Chapter 1 Product Overview Supervisor Engines Note • Supervisor Engine IV (WS-X4515) (Figure 1-8) • Supervisor Engine V (WS-X4516) (Figure 1-9) • Supervisor Engine V-10GE (WS-X4516-10GE) (Figure 1-10) • Supervisor Engine 6-E (WS-X45-Sup6-E) (Figure 1-11) If you move a supervisor engine from a Catalyst 4500 series chassis to a Catalyst 4500-E chassis it must use Cisco IOS Release 12.2(37)SG or later. Refer to the release note for software upgrade procedures if needed: http://www.cisco.
Chapter 1 Product Overview Supervisor Engines Table 1-5 Supervisor Engine Features (continued) Feature Description Supervisor Engine II-Plus 64 Gbps, 48 Mpps (with Catalyst 4506-E and 4507R-E, or 28-Gbps, 21 Mpps with Catalyst 4503-E) full-duplex Gigabit Ethernet switching engine Supervisor Engine II-Plus TS 64 Gbps, 48 Mpps (with Catalyst 4503-E only) full-duplex Gigabit Ethernet switching engine Supervisor Engine II-Plus 10GE 108 Gbps, 81 Mpps full-duplex Gigabit Ethernet switching engine Sup
Chapter 1 Product Overview Supervisor Engines 2 GBIC uplink ports 6 Compact flash port 3 Switch load indicators 7 Reset button 4 Console port Figure 1-6 Catalyst 4500 Series Supervisor Engine II-Plus TS (WS-X4013+TS) 7 231961 1 2 3 5 4 6 1 Status LED 5 Management port 2 PoE status LED 6 Compact Flash port 3 Switch load indicators 7 Reset button 4 Console port Figure 1-7 Supervisor Engine II-Plus 10GE (WS-X4013+10GE) 7 6 8 1 2 231961 EJECT 3 4 5 1 Compact flash por
Chapter 1 Product Overview Supervisor Engines Figure 1-8 Supervisor Engine IV (WS-X4515) 7 1 UPLINK UPLINK STATUS 1 UPLINKS ENABLE D CONSOLE 10/100 MGT UTILIZATION 1% FLASH 231960 2 100% EJECT 2 3 5 RESET 6 4 1 Status LED 5 Management port 2 GBIC uplink ports 6 Compact flash port 3 switch load indicators 7 Reset button 4 Console port Figure 1-9 Supervisor Engine V (WS-X4516) 7 1 UPLINK UPLINK STATUS 1 UPLINKS ENABLE D CONSOLE 10/100 MGT UTILIZATION 1% FLASH 231960
Chapter 1 Product Overview Supervisor Engines Figure 1-10 Supervisor Engine V-10GE (WS-X4516-10GE) 7 6 8 1 2 231961 EJECT 3 4 5 1 Compact flash port 5 Gigabit SFP ports 2 Switch load indicator 6 Management port 3 RESET button 7 CONSOLE port 4 10GE uplink ports 8 STATUS LED Figure 1-11 Supervisor Engine 6-E (WS-X45-Sup6-E) 8 1 2 3 4 211396 9 5 6 7 1 Status LED 6 Uplink ports 2 Reset button 7 USB port 3 Active supervisor LED 8 Console port 4 Utilization LEDs
Chapter 1 Product Overview Supervisor Engines • RESET Button, page 1-24 • Compact Flash Slot, page 1-24 LEDs Table 1-6 describes the supervisor engine LEDs. Table 1-6 LED Supervisor Engine LEDs Color/State STATUS UTILIZATION Indicates the results of a series of self-tests: Green All diagnostic tests passed. Red A test failed. Orange System boot or diagnostic test is in progress, or two power supplies are installed but only one is turned on. Off Module is disabled.
Chapter 1 Product Overview Supervisor Engines 10-Gigabit Ethernet Uplink Ports The 10-Gigabit Ethernet uplink ports operate in full-duplex mode only, and are only on the WS-X4516-10GE, WS-X4013+10GE, and WS-45-Sup6-E. These ports use the hot-swappable 10GBASE X2 optical transceivers. The X2s have SC connectors to interface with multimode fiber (MMF) and single-mode fiber (SMF) cable.
Chapter 1 Product Overview Fan Assembly Note EIA/TIA-232 was known as recommended standard RS-232 before its acceptance as a standard by the Electronic Industries Alliance (EIA) and Telecommunications Industry Association (TIA). RESET Button The RESET button is used to restart the switch. Note Use a paper clip or other small, pointed object to press the Reset button. Compact Flash Slot The Compact Flash slot accepts a Type 1 Compact Flash disk.
Chapter 1 Product Overview Power Supplies Figure 1-12 Catalyst 4506-E Airflow 231365 4506 1 1 Fan assembly Power Supplies Note For detailed specifications on all Catalyst 4500 power supplies, refer to the “Catalyst 4507R-E Switch Specifications” section on page A-3.
Chapter 1 Product Overview Power Supplies Figure 1-13 AC-Input Power Supply (All Except 4200 W) 3 231375 2 1 1 AC receptacle 2 Power switch Figure 1-14 3 Captive screws 4200 W Dual Input AC Power Supply 5 100-1 20V12A 50/60 Hz 4 OUTP {UT FAI : FAN OK INPUT 1 OK 2 INPUT 2 OK POE EN ABLE D 231376 3 1 100-1 20V12A 50/60 Hz 4600AC Note V 1 AC input 2 receptacle 4 AC input 1 receptacle 2 AC input 2 on switch 5 Captive screws 3 AC input 1 on switch The 4200 W AC power sup
Chapter 1 Product Overview Power Supplies 1400 W DC-Input Power Supply Figure 1-16 1400 W DC Triple-Input Power Supply 231378 231377 Figure 1-15 Note The 1400 W DC triple-input power supply is not compatible with other power supplies used on these products, and can only be used with similar supplies. In redundant mode, the two power supplies must have identical inputs. The 1400 W DC input power supply (either single or triple-input) may be used with the Catalyst 4500 Series AC Power Shelf.
Chapter 1 Product Overview Power Supplies Power Supply LEDs Table 1-7 describes the power supply LEDs. Table 1-7 LED Power Supply LEDs Color/State INPUT OK Description Indicates whether the input voltage is within the required range: Green Input voltage is within the required range. Flashing Input voltage is present, but is below required range. Off Input voltage is below the required range or the power supply is off. Red Output voltage is not within the specified range.
Chapter 1 Product Overview Power Supplies When you install a redundant power supply, load sharing and fault tolerance are enabled automatically; no additional software configuration is required. Environmental Monitoring Feature With the environmental monitoring and reporting feature, you can keep your system running by resolving adverse environmental conditions before loss of operation. The power supply monitors its own internal temperature and voltages.
Chapter 1 Product Overview Power Supplies The maximum total input current is 42.5A and the maximum ambient temperature is 55 C. To determine total maximum input power to a supply, add up the active individual module input power ratings. Table 1-9 provides output information for these modes, given two supplies working in combined mode. Table 1-10 provides output information for these modes, given two supplies working in redundant mode.
Chapter 1 Product Overview System Architecture Table 1-11 Minimum Load Table (continued) PSU1 Mode 5 PSU2 Input 1 Input 2 Input 3 Input 1 Input 2 Input 3 12V Minimum Load 3.3V Minimum Load ON ON ON – – – 4A 0.6A Dual Redundant Operation Mode 1 ON OFF OFF ON OFF OFF 2.66A 1.2A Mode 2 OFF ON OFF OFF ON OFF 2.66A 1.2A OFF OFF ON OFF OFF ON 2.66A 1.2A ON ON OFF ON ON OFF 5.32A 1.2A ON OFF ON ON OFF ON 5.32A 1.
Chapter 1 Product Overview System Architecture Power Flow Figure 1-17 shows power ingress and flow through the system. Figure 1-17 Power Flow Ingress to PS PS1 Ingress to PS PS2 Fan tray Supervisor engine Switching module Backplane IP 120919 Switching module 12 V 3.3 V 48 V Power enters the switch through the power supplies. Several types of power supplies are available, depending on the power needs for your system and the power type available on your site. All power supplies provide a 3.
Chapter 1 Product Overview System Architecture new outlets and costly electrical circuits. PoE also enables businesses to isolate critical devices on a single power system so that the entire system can be supported by uninterruptable power supply (UPS) backup. All new Cisco Catalyst PoE switching modules can support 15.4 W of power per port simultaneously.
Chapter 1 Product Overview System Architecture All PoE switching modules can distinguish an IEEE or Cisco prestandard powered device from an unpowered network interface card (NIC) to ensure power is applied only when an appropriate device is connected. With a Cisco PoE network, administrators can depend on a robust network that is safe to deploy and simple to maintain.
Chapter 1 Product Overview System Architecture Cisco Catalyst 4500 Series Service Provider DC Power Supply The triple-input 1400 W DC power supply is optimized for service provider or central-office deployments. By providing multiple inputs, the service provider DC power supply enables central-office technicians to customize the output power to meet their application needs. Many central-office deployments require only a fraction of the 1400 W available in the service provider power supply.
Chapter 1 Product Overview System Architecture Switching Traffic Flow All Catalyst 4500 series switches use a shared memory switching fabric. All forwarding decisions, QoS, security policies and transmit queuing are implemented in the Supervisor Engine. Individual switching modules are transparent, and only contain simple stub ASICs and PHYs; they do not perform buffering or local switching.
Chapter 1 Product Overview System Architecture In a Catalyst 4500 E-series chassis with the Supervisor 6-E, there is no performance degradation when both Classic and E-series line cards are mixed within the chassis. The Classic switching modules will continue to operate at 6 gigabits per slot and the E-series switching modules will operate at 24 gigabits per slot.
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CH A P T E R 2 Preparing for Installation Warning This unit is intended for installation in restricted access areas. A restricted access area can be accessed only through the use of a special tool, lock and key, or other means of security. Statement 1017 Warning Only trained and qualified personnel should be allowed to install, replace, or service this equipment. Statement 1030 Warning This equipment must be grounded.
Chapter 2 Preparing for Installation Electrostatic Discharge Note See the Site-Planning Checklist at the end of this chapter to help ensure that you complete all site-planning activities before you install the switch. Electrostatic Discharge Electrostatic discharge is common on Category 5E and Category 6 cabling systems. Category 5E and Category 6 cables have higher capacitance than Category 5 cables.
Chapter 2 Preparing for Installation Site Power Requirements and Heat Dissipation Caution • When removing a component, use any available ejector levers or captive installation screws to release the bus connectors from the backplane or midplane. • Handle carriers by available handles or edges only; avoid touching the printed circuit boards or connectors. • Place a removed component board-side-up on an antistatic surface or in a static shielding container.
Chapter 2 Preparing for Installation Power Connection Guidelines for AC-Powered Systems • Make sure the AC power receptacles used to plug in the chassis are the grounding type. The grounding conductors that connect to the receptacles should connect to protective earth ground at the service equipment.
Chapter 2 Preparing for Installation Power Connection Guidelines for AC-Powered Systems Locale AC-Input Power Cord Options Part Number Length Plug Rating Plug Type Appliance Coupler 1000 W Power Supply (PWR-C45-1000AC=) 120352 Table 2-1 8.2 ft (2.5 m) 125 VAC, 15 A NEMA 5-15P Australia, New Zealand CAB-7KACA= 8.2 ft (2.5 m) 250 VAC, 15 A SAA/3, AS/NZS 3112-1993 Europe (except CAB-7KACE= Italy) 8.2 ft (2.5 m) 250 VAC, 16 A CEE 7/7 Italy CAB-7KACI= 8.2 ft (2.
Chapter 2 Preparing for Installation Power Connection Guidelines for AC-Powered Systems Table 2-1 AC-Input Power Cord Options (continued) Part Number Length Plug Rating Plug Type Australia, New Zealand CAB-7513ACA= 14 ft (4.3 m) 250 VAC, 15 A SAA/3, AS/NZZS 3112-1993 Europe (except CAB-7513ACE= Italy) 14 ft (4.3 m) 250 VAC, 16 A CEE 7/7 Italy CAB-7513ACI= 14 ft (4.3 m) 250 VAC, 16 A 1/3/16, CEI 23-16 United Kingdom CAB-7513ACU= 14 ft (4.
Chapter 2 Preparing for Installation Power Connection Guidelines for AC-Powered Systems Table 2-1 AC-Input Power Cord Options (continued) Part Number Length Plug Rating Plug Type International CAB-AC-2800W-INT= 13.6 ft (4.1 m) 250 VAC, 16 A IEC 309 120360 Locale 120353 Appliance Coupler 2800 W Power Supply (PWR-C45-2800ACV=) 250 VAC, 16 A NEMA L6-20 North America CAB-AC-2800W-6-20 (non-locking) 200–240 VAC operation 13.2 ft (4.
Chapter 2 Preparing for Installation Power Connection Guidelines for AC-Powered Systems Table 2-1 Length Plug Rating Plug Type North America CAB-US620P-C19-US (non-locking) 200–240 VAC operation 13.2 ft (4.02 m) 250 VAC, 20 A NEMA 6-20 non-locking Europe CAB-CEE77-C19-EU 13.2 ft (4.0 m) 250 VAC, 15 A CEE 7/7 International (including Argentina and South Africa) CAB-I309-C19-INT 13.6 ft (4.1 m) 250 VAC, 16 A IEC 309 Australia CAB-A3112-C19-AUS 14 ft (4.
Chapter 2 Preparing for Installation Power Connection Guidelines for DC-Powered Systems Power Connection Guidelines for DC-Powered Systems This section provides the basic guidelines for connecting the Catalyst 4500 E-series switch compatible DC-input power supplies to the site power source or AC power shelf: • All power connection wiring should conform to local and national codes. • DC (–) and DC return (+) terminals are evaluated for use with 1/0 AWG wire (1400W DC supply only).
Chapter 2 Preparing for Installation Ventilation • 10 X 6.3 W = 63 W for inline devices. 6.3 Watts is correct for a Cisco IP phone. Wattage consumption will depend on the inline device used. Step 4 Find the DC input power using the DC output power. • Step 5 Divide the DC input power by the DC voltage input of –48 V to find the DC input current used by inline devices. • Step 6 63/.96 (efficiency) = 65 W of DC input power. 65/48 = 1.4 Amps for inline devices.
Chapter 2 Preparing for Installation Site-Planning Checklist Calculating System Heat Dissipation To calculate the expected heat dissipation from a switch, add the total amount of power drawn from power supply by the system's configuration, then divide the total amount of power by the efficiency of the power supply. Multiply the result by 3.415 to get the system heat dissipation in BTUs/hr.
Chapter 2 Preparing for Installation Site-Planning Checklist Table 2-2 Site-Planning Checklist Task No.
CH A P T E R 3 Installing the Switch in a Rack Warning This unit is intended for installation in restricted access areas. A restricted access area can be accessed only through the use of a special tool, lock and key, or other means of security. Statement 1017 Warning Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Chapter 3 Installing the Switch in a Rack Rack-Mounting the Switch Follow these steps to check the contents of the shipping cartons: Step 1 Step 2 Check the contents of the accessories box against the Accessories Box Components Checklist and the packing slip that were included with your switch.
Chapter 3 Installing the Switch in a Rack Rack-Mounting the Switch Rack-Mounting Catalyst 4500 E-series Switches Warning Note To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions to ensure that the system remains stable. The following guidelines are provided to ensure your safety: • This unit should be mounted at the bottom of the rack if it is the only unit in the rack.
Chapter 3 Installing the Switch in a Rack Rack-Mounting the Switch See Figure 3-1 for the Catalyst 4506-E switch, the other switches will be very similar. Figure 3-1 Attaching the Cable Guide to the Catalyst 4506-E Switch 231369 4506 Step 2 Install the chassis in the rack as follows: a. Insert the rear of the chassis between the mounting posts. See Figure 3-2 to see how to install a Catalyst 4506-E switch in a rack. Other switches in the series mount in the same manner. b.
Chapter 3 Installing the Switch in a Rack System Ground Connection Guidelines Figure 3-2 Installing a Catalyst 4506-E Switch in the Rack 231371 4506 Step 3 Make sure that the ejector levers are completely closed and the supervisor engine and switching modules are installed securely. Step 4 Tighten any loose captive installation screws on the supervisor engine and the switching module. Step 5 Connect fiber and copper cables for switching traffic and uplinks or PoE as appropriate.
Chapter 3 Installing the Switch in a Rack System Ground Connection Guidelines Parts and Required Tools Note Some parts and required tools described in this section are not available from Cisco Systems. The grounding lug and associated screws are included with the accessory kit. To make an adequate grounding connection, you will need the following parts and tools: • Grounding lug—The grounding lug has two #10 AWG holes spaced 0.63 in center to center.
Chapter 3 Installing the Switch in a Rack System Ground Connection Guidelines Figure 3-3 Connecting System Ground on the Switch 231374 4 4503 4 3 1 2 2 1 Grounding wire 2 Screws (M4) 3 Grounding lug 4 Grounding pad Step 5 Remove the label that covers the grounding pad. Step 6 Place the grounding lug against the grounding pad, aligning the holes. Insert the two M4 screws through the holes in the grounding lug and grounding pad.
Chapter 3 Installing the Switch in a Rack System Ground Connection Guidelines Note If you move a supervisor engine from a Catalyst 4500 series chassis to a Catalyst 4503-E chassis or Catalyst 4506-E chassis, it must use Cisco IOS Release 12.2(37)SG or later. Refer to the release note for software upgrade procedures if needed: http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/release/note/OL_5184.
CH A P T E R 4 Removing and Replacing FRUs Warning Read the installation instructions before connecting the system to the power source. Statement 1004 Warning Only trained and qualified personnel should be allowed to install, replace, or service this equipment. Statement 1030 Warning This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the absence of a suitably installed ground conductor.
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Removing and Replacing the Power Supply This section describes how to remove and install the AC-input power supply and DC-input power supply for the Catalyst 4500 E-series switches.
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Figure 4-2 4200 W Dual-Input AC Power Supply 5 100-1 20V12A 50/60 Hz 4 OUTP {UT FAI : FAN OK INPUT 1 OK 2 INPUT 2 OK POE EN ABLE D 231376 3 1 100-1 20V12A 50/60 Hz 4600AC V 1 AC input 2 receptacle 4 AC input 1 receptacle 2 AC input 2 on switch 5 Captive screws 3 AC input 1 on switch Figure 4-3 DC-Input Power Supply Main power switch In-line power switch Serial communication connector Captive screw C
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Figure 4-4 1400 W DC Triple-input Power Supply 120562 Captive screws Required Tools You will need a flathead or Phillips screwdriver to perform these procedures. Removing an AC-Input Power Supply Follow these steps to remove the AC-input power supply: Step 1 Press the power switch on the AC-input power supply down to the off (O) position (see Figure 4-5).
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Loosening the Side-Clamp Screw 79139 Figure 4-6 Step 3 Disconnect the power cord from the power supply being removed. Step 4 Loosen the two captive screws (see Figure 4-7). Figure 4-7 Loosening the Captive Screws 79140 Captive screws Caution Step 5 Use both hands to grasp a power supply. Grasp the power supply handle with one hand.
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Handling an AC-Input Power Supply 79141 Figure 4-8 Step 6 Warning Step 7 Pull the power supply out of the bay and set it aside. Blank faceplates and cover panels serve three important functions: they prevent exposure to hazardous voltages and currents inside the chassis; they contain electromagnetic interference (EMI) that might disrupt other equipment; and they direct the flow of cooling air through the chassis.
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Step 6 Using a screwdriver, tighten the two captive installation screws (see Figure 4-1) on the front panel of the AC-input power supply. Step 7 Make sure the power supply power switch is in the off position (O). Step 8 Before you connect the power supply to a power source, ensure that all site power and grounding requirements have been met. Step 9 Plug the power cord into the power supply (see Figure 4-9).
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Step 13 Check the power supply and system status from the system console by entering show power command. For more information on this command, refer to the command reference publication for your switch. Step 14 If the LEDs or show power command output indicate a power problem or other system problem, see Chapter 5, “Troubleshooting,” for more information.
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Figure 4-11 DC-Input Power Supply Main power switch In-line power switch Captive screw Serial communication connector Captive screw 79160 Terminal block Figure 4-12 DC Triple-input Power Supply Captive screw Output Fail LED Fan OK LED Plus (+) Minus (-) Input OK 1, 2, 3 LEDs Captive screw 1 2 + 3 + Power switch 1, 2, 3 231891 + Terminal block Ground lugs Step 5 Warning Disconnect the DC-input wires from the te
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Figure 4-13 Connecting the DC-Input Wires RS-485 serial communnication connector 79161 DC-input wires Negative Positive Ground Grounding lug Grounding lug nuts Connecting the DC-Input Wires (Triple-input Power Supply) 1 + 2 + DC-input wires Negative Positive 3 + Grounding lugs (2) 231892 Figure 4-14 Ground Grounding lug nut Step 6 Using a screwdriver, loosen and remove the captive screws on the power supply.
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Step 7 Grasp the power supply handle with one hand. Place your other hand underneath as you slowly pull the power supply out of the bay (see Figure 4-16). Handling a DC-Input Power Supply 79163 Figure 4-16 Step 8 If the bay is to remain empty, install a blank power supply filler plate over the opening and secure it with the mounting screws.
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Power Supply Installation Procedure Warning Before performing any of the following procedures, ensure that power is removed from the DC circuit. Statement 1003 Warning A readily accessible two-poled disconnect device must be incorporated in the fixed wiring. Statement 1022 Warning This product requires short-circuit (overcurrent) protection, to be provided as part of the building installation.
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Chassis Fan Assembly Caution Step 8 In a system with multiple power supplies or a single triple-input power supply, connect each power supply to a separate DC power source. In the event of a power source failure, if the second source is still available, it can maintain maximum overcurrent protection for each power connection. Verify power supply operation by checking the power supply’s front-panel LEDs.
Chapter 4 Removing and Replacing FRUs Removing and Replacing the Chassis Fan Assembly Figure 4-17 Catalyst 4506-E System Fan Assembly 2 4506 231372 1 1 Step 2 Captive installation screws 2 Fan assembly Grasp the fan assembly with both hands and pull it outward; gently move it side to side if necessary to unseat it from the backplane. Slide it out of the chassis and place it in a safe place.
Chapter 4 Removing and Replacing FRUs Replacing Backplane Modules Verifying the Installation Note To check the operation of the fans, you need to power up the chassis. Follow these steps to verify that the new fan assembly was installed correctly: Step 1 Listen for the fans; you should immediately hear them operating. If you do not hear them, ensure that the fan assembly is inserted completely in the chassis and that the faceplate is flush with the switch back panel.
Chapter 4 Removing and Replacing FRUs Replacing Backplane Modules Figure 4-18 Catalyst 4507R-E Backplane 130657 Clock module Mux buffers Step 4 If you are removing a clock module, remove the two screws that attach the module to the backplane. Step 5 Find the seating levers on both sides of the connector for the module you wish to replace. (See Figure 4-19.
Chapter 4 Removing and Replacing FRUs Replacing Backplane Modules Releasing the Module 130659 Figure 4-20 Step 7 Pull out the module while holding the top left and top right corners. (See Figure 4-21.) Note When handling the modules, do not touch the chips or the gold edge contacts on the module. Removing the Module 130660 Figure 4-21 Step 8 Put the replacement module in at roughly a 30 degree angle, and gently push the module down. Make sure you apply force evenly on the left and right.
Chapter 4 Removing and Replacing FRUs Replacing Backplane Modules Figure 4-23 Correct Module Seating Bad 130662 Good Step 10 Push the module toward the back of the chassis and make sure it is clipped in by the levers on both sides. (See Figure 4-24.) Securing the Module 130663 Figure 4-24 Step 11 Repeat Step 4 to Step 10 for the other modules you need to replace. Step 12 If you are installing a clock module, secure the module to the backplane using the screws from the earlier removal.
Chapter 4 Removing and Replacing FRUs Supervisor Memory Upgrade Supervisor Memory Upgrade This section describes how to perform a memory upgrade. You might need to upgrade memory on the Supervisor Engine 6-E for the following reasons: • To upgrade to a new Cisco IOS feature set or release that requires additional memory. (Memory requirements for each feature set and release are available in the release notes for that release.) • To use very memory-intensive features.
Chapter 4 Removing and Replacing FRUs Supervisor Memory Upgrade Figure 4-25 Catalyst 4500 E-Series Supervisor Engine 6-E (WS-Sup-6-E) 2 530 1 1 Caution Step 3 Lower slot (u50) 2 Additional memory to be installed in this slot Upper slot (u39) base memory is already installed Handle the miniDIMM by the edges only; do not touch the memory modules, pins, or traces (metal fingers along the connector edge). Handle carefully. MiniDIMMs are ESD-sensitive components and can be damaged by mishandling.
Chapter 4 Removing and Replacing FRUs Supervisor Memory Upgrade Figure 4-26 Removing and Installing SDRAM MiniDIMMs Pull the tabs away with your thumbs, bracing your forefingers against the rails. The memory module will pop loose. Then raise the memory module to a vertical position. 48065 Memory module Step 4 When both ends of the miniDIMM are released from the socket, grasp the ends of the miniDIMM with your thumb and forefinger and pull it completely out of the socket.
Chapter 4 Removing and Replacing FRUs Supervisor Memory Upgrade Step 3 Hold the miniDIMM component-side up, with connector edge (the metal fingers) away from you. Keep the sides of the miniDIMM between your thumb and middle finger, with your forefinger against the far edge and opposite the connector edge. (See Figure 4-27.) Handling a miniDIMM 33115 Figure 4-27 Step 4 Tilt the miniDIMM to the same angle as the socket, then insert the connector edge into the socket.
CH A P T E R 5 Troubleshooting If your system has problems during start up or operation, use the information in this chapter to help isolate the cause. Problems with the initial startup are often caused by a switching module that has become dislodged from the backplane or a power cord that is disconnected from the power supply.
Chapter 5 Troubleshooting System Boot Verification Note • Troubleshooting Backplane Modules, page 5-7 • Troubleshooting Switching Modules, page 5-8 • Troubleshooting Supervisor Engines, page 5-10 • Some Problems and Solutions, page 5-14 This chapter covers only the chassis component hardware aspects of troubleshooting. For software configuration issues, refer to the software configuration guide http://www.cisco.
Chapter 5 Troubleshooting Using LEDs to Identify Startup Problems and where the system failed in the startup sequence. If you have problems after the switch is on, refer to the following subsystem troubleshooting information and the configuration procedures in the software configuration guide for your switch.
Chapter 5 Troubleshooting System Messages System Messages System messages appear on the console if you have enabled console logging or appear in the syslog if you have enabled syslog. Many messages are for informational purposes only and do not indicate an error condition. Enter the show logging command to display the log messages. To better understand a specific system message, refer to the system message guide for your software release.
Chapter 5 Troubleshooting Troubleshooting the Power Supply Step 6 If the LED labeled FAN OK fails to light when the switch is connected to a good power source with a known good power cord, there is a malfunction in the fan that cools the power supply. Replace the power supply. Step 7 If a second power supply is available, install it in the second power supply bay. Step 8 Check that the LED labeled GOOD is on for the additional power supply. Check that the LED labeled FAIL is off.
Chapter 5 Troubleshooting Troubleshooting the Fan Assembly If the show module command output shows a message that states "not enough power for module," check the “Catalyst 4500 Power Supplies” section on page A-6 for the minimum power requirements for the power supply. There may be a problem with the power source itself.
Chapter 5 Troubleshooting Troubleshooting Backplane Modules System Messages and Fan Problems Look for system messages reporting a temperature problem or problem with the fans. Individual messages may suggest different solutions.
Chapter 5 Troubleshooting Troubleshooting Switching Modules If you observe these conditions, contact the Cisco TAC for assistance in ordering replacement redundancy modules and a clock. Troubleshooting Switching Modules Each switching module has one LED labeled STATUS that provides information about the module and one numbered LED labeled LINK for each port on the module. Figure 5-1 shows the Gigabit Ethernet port and status LEDs. Figure 5-2 shows the 10/100BASE-T port LEDs.
Chapter 5 Troubleshooting Troubleshooting Switching Modules Table 5-1 LED Switching Module LEDs (continued) Color/State Description Port Status1 Indicates individual port status. Green The port is operational (a signal is detected). Orange The link has been disabled by software. Flashing orange The link has been disabled due to a hardware failure. Off No signal is detected. 1. LEDs labeled 1 through the number of ports on the switching module are the individual port link LEDs.
Chapter 5 Troubleshooting Troubleshooting Supervisor Engines Troubleshooting Supervisor Engines This section only addresses problems with hardware. Problems with features or configuration are not covered here. Refer for your software configuration guide and release notes for information on configuring features or identifying known problems. Table 5-2 describes the supervisor engine LEDs. Check the LEDs on your supervisor and compare them to the described LED behaviors.
Chapter 5 Troubleshooting Troubleshooting Supervisor Engines C4K_HW-3-X2OUIREGREADFAILURE C4K_HWACLMAN-4-CLASSIFCAMPARITYERROR C4K_HWACLMAN-4-CLASSIFCAMREPLYPARITYERROR C4K_HWACLMAN-4-CLASSIFCAMREQPARITYERROR C4K_HWNETFLOWMAN-3-NETFLOWSTOPPED C4K_HWNETFLOWMAN-4-FATALERRORINTERRUPTSEEN C4K_HWNETFLOWMAN-4-NONFATALPARITYERRORINTERRUPTSEEN C4K_IOSMODPORTMAN-4-NFLABSENT C4K_IOSMODPORTMAN-4-NFLIDPROMINVALID C4K_IOSMODPORTMAN-4-NFLMISMATCH C4K_REDUNDANCY-2-HANDSHAKE_TIMEOUT C4K_REDUNDANCY-2-POSTFAIL_RESET C4K_RE
Chapter 5 Troubleshooting Troubleshooting Supervisor Engines Useful CLI Commands Some problems can be solved by resetting the supervisor engine. Use the hw-module module reset power-cycle command to reset a switching module, or remove and re-insert the switching module, which resets, restarts and power cycles the switching module. Pressing the reset button on the supervisor engine causes the software to reload, but does not power cycle the supervisor engine.
Chapter 5 Troubleshooting Troubleshooting Supervisor Engines • Configuration register • Calendar • VLAN database If a software upgrade is performed on both the active and standby supervisor engines, verify that both supervisor engines are running the same new software image. If the software images are not the same, upgrade the software image. Use the procedure in the software configuration guide for your release.
Chapter 5 Troubleshooting Troubleshooting Supervisor Engines • A bad port • Speed and duplex mismatch • Network interface card (NIC) issues If you troubleshoot these common reasons and you are not able to narrow down the problem, follow the steps in this section and capture the output of commands at each step, then contact Cisco Technical Support for additional troubleshooting assistance. Step 1 Power cycle the switch and observe the POST results at bootup.
Chapter 5 Troubleshooting Troubleshooting Supervisor Engines If the status is “power-bad,” the switch detects a switching module but is unable to allocate power. This situation is possible if the supervisor engine cannot able to access the serial PROM (SPROM) contents on the module in order to determine the identification of the line card. Enter the show idprom module slot command to verify that the SPROM is readable. If the SPROM is not accessible, reset the module.
Chapter 5 Troubleshooting Troubleshooting Supervisor Engines NIC Compatibility Issues You can have NIC compatibility or misconfiguration issues with the switch if you experience one of these symptoms: • A server or client connection to the switch does not come up • Autonegotiation issues • Errors on the port The reason for these symptoms can be a known NIC driver issue, speed and duplex mismatch, or autonegotiation or cabling problems. For more troubleshooting information, refer to: http://www.
Chapter 5 Troubleshooting Troubleshooting Supervisor Engines Boot Problems If the switch is in a continuous boot loop, is in ROMmon mode, or does not have a system image, there is mostly likely not a hardware problem. The supervisor engine operates in a continuous loop if you have not set the boot variable correctly and you have set the configuration register to 0x2102.
Chapter 5 Troubleshooting Contacting the Cisco Technical Assistance Center Step 7 If you cannot connect to the switch through the me1 interface, make sure the connected device is configured for half-duplex 10-Mbps operation. Step 8 If the host is in the same subnet as the switch interface, make sure the switch interface and the switch port to which the host is connected are assigned to the same VLAN (use the show interface and show port commands to check).
Chapter 5 Troubleshooting Contacting the Cisco Technical Assistance Center • Maintenance agreement or warranty information • Brief description of the problem • Console captures related to your problem • Brief explanation of the steps you have already taken to isolate and resolve the problem See the “Obtaining Documentation and Submitting a Service Request” section on page xv for more information about contacting the TAC.
Chapter 5 Troubleshooting Contacting the Cisco Technical Assistance Center Catalyst 4500 E-Series Switches Installation Guide 5-20 OL-13972-01
A P P E N D I X A Specifications Cable and technical specifications for Catalyst 4500 E-series switches are provided in the following sections: Note • Catalyst 4503-E Switch Specifications, page A-1 • Catalyst 4506-E Switch Specifications, page A-2 • Catalyst 4507R-E Switch Specifications, page A-3 • Catalyst 4510R-E Switch Specifications, page A-5 • Catalyst 4500 Power Supplies, page A-6 Specifications for individual switching modules and supervisor engines, including power consumption and th
Appendix A Specifications Catalyst 4506-E Switch Specifications Table A-1 Catalyst 4503-E Switch Specifications (continued) Item Specification Switching Components Backplane 24 Gbps full duplex backplane Port density 116 10/100/1000 ports when using a Catalyst 4500 Series Supervisor Engine II-Plus TS, 96 10/100/1000 ports with other supervisor engines, or 12 10-Gbps X2 ports Two 10-Gbps Uplinks, and up to 12 10-Gbps ports on switching module slots Inline power integrated support, 820 W per swit
Appendix A Specifications Catalyst 4507R-E Switch Specifications Table A-2 Catalyst 4506-E Switch Specifications (continued) Item Specification Altitude: operating and nonoperating –196 to 6561 ft (–60 to 2000 m) Switching Components Backplane 120 Gbps full duplex Port density 240 (max) 10/100/1000 ports Two 10-Gbps Uplinks, and up to 30 10-Gbps ports on switching module slots Inline power integrated support, 820 W per line card Physical Characteristics Dimensions (H x W x D) 17.38 x 17.
Appendix A Specifications Catalyst 4507R-E Switch Specifications Table A-3 Catalyst 4507R-E Switch Specifications (continued) Item Specification Altitude: operating nonoperating –196 to 6561 ft (–60 to 2000 m) –1000 to 30,000 ft (–300 to 9150 m) Switching Components Backplane 120 Gbps full duplex 4 Gbps Uplinks with Sup II+, Sup IV, and Sup 6-E with TwinGig converters 8 Gbps Uplinks with Supervisor Engine V two 10 Gbps Uplinks with Sup V-10GE and Sup 6-E Port density 240 (max) 10/100/1000 ports
Appendix A Specifications Catalyst 4510R-E Switch Specifications Catalyst 4510R-E Switch Specifications Table A-4 lists the Catalyst 4510R-E switch specifications.
Appendix A Specifications Catalyst 4500 Power Supplies Table A-4 Catalyst 4510R-E Switch Specifications (continued) Item Specification Redundancy Supervisor engine yes Power supply 1+1 Catalyst 4500 Power Supplies Tables A-5 through A-12 list the specifications for the Catalyst 4500 series power supplies, which can be used in any Catalyst 4500 E-series switch. Note All Catalyst 4500 series switch AC-input power supplies require single-phase source AC.
Appendix A Specifications Catalyst 4500 Power Supplies Table A-5 1000 W AC-Input Power Supply Specifications Item Specification Minimum software requirement Cisco IOS Release 12.1(12c)EW Power over Ethernet Not supported 1 AC-input type Autoranging input with power factor corrector AC-input voltage 100 to 240 VAC (±10% for full range) AC-input current 12 A @ 100 VAC, 5 A @ 240 VAC Maximum KVA rating 1.
Appendix A Specifications Catalyst 4500 Power Supplies Table A-7 1400 W AC-Input Power Supply Specifications Item Specification Minimum software requirement Cisco IOS Release 12.2(18)EW Power over Ethernet Not supported 1 AC-input type Autoranging input with power factor corrector AC-input voltage 100 to 240 VAC (±10% for full range) AC-input current 16 A @ 100 VAC, 7 A @ 240 VAC AC-input frequency 50/60 Hz (nominal) (±3 Hz for full range) Maximum KVA rating 1.
Appendix A Specifications Catalyst 4500 Power Supplies Table A-8 1400 W DC-Input Power Supply Specifications (continued) Item Specification Input power Current draw At –40.5 V (min voltage) Current draw at –72 V (max voltage) Max heat dissipation at 1866 W 1866 W (Data only) 46 A 25.9 A 5760 BTUs 179 A max @ 48 VDC Maximum KVA rating 1.87 (data) 9.15 (data and voice) Power supply output (DC supply) Data: 12 V @120 A, 3.
Appendix A Specifications Catalyst 4500 Power Supplies Table A-8 1400 W DC-Input Power Supply Specifications (continued) Item Specification Current draw at –40.5 V (min voltage) 35.6 A Current draw at –72 V (max voltage) 20 A Max heat dissipation 1440 W 4910 BTUs Table A-9 1400 W DC Triple-Input Power Supply Specifications Item Specification Minimum software requirement Cisco IOS Release 12.
Appendix A Specifications Catalyst 4500 Power Supplies Table A-9 1400 W DC Triple-Input Power Supply Specifications (continued) Item Specification Catalyst 4503-E Specific Power Usage (data only) Two modules minimum required @ –40.5 VDC input Maximum draw 475 W Maximum input 609 W total / # of modules = W per module One 15A module minimum required @ –44 VDC input Current draw at –40.5 V (min voltage) 15 A total / # of modules = A per module Current draw at –72 V (max voltage) 8.
Appendix A Specifications Catalyst 4500 Power Supplies Table A-11 Allowable Power with Two 1400 W DC Triple-Input Power Supplies in Combined Mode PS1/PS2 1 2 or 3 1 and (2 or 3) 2 and 3 1 and 2 and 3 1 824 W 907 W 1320 W 1400 W 1700 W 2 or 3 907 W 990 W 1400 W 1450 W 1750 W 1 and (2 or 3) 1320 W 1400 W 1700 W 1750 W 1900 W 2 and 3 1400 W 1450 W 1750 W 1820 W 2130 W 1 and 2 and 3 1700 W 1750 W 1900 W 2130 W 2450 W Table A-12 2800 W AC-Input Power Supply Specifications
Appendix A Specifications Catalyst 4500 Power Supplies Table A-13 4200 W AC-Input Power Supply Specifications Item Specification Maximum KVA rating 5.25 KVA Power supply output 4200 W maximum @ 230 VAC 12 V @ 115.3 A, 3.3 V @12.5 A (Data) –50 V @ 77.1 A (PoE) with two inputs 2100 W maximum @ 230 VAC 12 V @115.3 A, 3.3 V @12.5 A (Data) –50 V @ 38.5 A (PoE) with one input 2100 W maximum @ 120 VAC 12 V @115.3 A, 3.3 V @12.5 A (Data) –50 V @ 38.
Appendix A Specifications Catalyst 4500 Power Supplies Table A-15 Table A-16 Combined Mode Output 12 V 3.
A P P E N D I X B Repacking a Switch If you need to return your Catalyst 4500 E-series switch to the factory, use the instructions in this appendix to repack your switch in preparation for shipping. To repack the switch using the original packaging material, follow these steps: Step 1 Slide the pieces of the packing foam over the Catalyst 4500 E-series switch. (See Figure B-1.) Step 2 Place the documentation and accessory kit in the box or poly bag provided.
Appendix B Figure B-1 Repacking a Switch Catalyst 4500 E-series Switch Packing Material Documentation and accessories Packing foam Packing carton Packing foam 68117 Packing foam Catalyst 4500 E-Series Switches Installation Guide B-2 OL-13972-01
A P P E N D I X C Initial Configuration for the Switch This chapter provides a quick step-by-step initial setup procedure for a switch. These steps describe how to do a simple installation: 1. Connecting to the Switch, page C-2 2. Starting the Terminal-Emulation Software, page C-2 3. Connecting to a Power Source, page C-2 4.
Appendix C Initial Configuration for the Switch Connecting to the Switch Connecting to the Switch You must use the console port to perform the initial configuration. To connect the switch console port to a PC, use the supplied RJ-45-to-DB-9 adapter cable. Follow these steps to connect the PC or terminal to the switch: Step 1 Using the supplied RJ-45-to-DB-9 adapter cable, insert the RJ-45 connector into the console port that is located on the front of the supervisor engine.
Appendix C Initial Configuration for the Switch Entering the Initial Configuration Information As the switch powers on, it begins the POST, a series of tests that runs automatically to ensure that the switch functions properly. POST lasts approximately 1 minute. After POST is complete, the system and status LEDs remain green. If the switch fails POST, the system LED turns amber. Note POST failures are usually fatal. Call Cisco Systems if your switch does not pass POST.
Appendix C Initial Configuration for the Switch Entering the Initial Configuration Information Step 4 Enter the configure terminal command to enter global configuration mode. Switch# configure terminal Enter configuration commands, one per line. End with CNTL/Z. Switch (config)# Step 5 Configure the system prompt and host name for the switch, and press Return. To remove the new prompt and return the prompt to its default, use the no hostname command.
Appendix C Initial Configuration for the Switch Entering the Initial Configuration Information !--- Output suppressed. Step 13 Configure a default route: Switch1(config)#ip route 0.0.0.0 0.0.0.0 172.16.1.1 Step 14 Verify the IP information by using the show ip interface brief and show ip route commands. Switch1# show ip interface brief Interface Vlan1 FastEthernet1 IP-Address 10.4.220.206 unassigned OK? YES YES Method manual unset Status up up Protocol up up !--- Output suppressed.
Appendix C Initial Configuration for the Switch Entering the Initial Configuration Information Catalyst 4500 E-Series Switches Installation Guide C-6 OL-13972-01
A P P E N D I X D Module Overview and Specifications This chapter provides an overview of the features of the Catalyst 4500 E-series supervisor engine and switching modules.
Appendix D Module Overview and Specifications Supervisor Engines On the Catalyst 4503-E and 4506-E switches, you can install the Supervisor Engine in slot 1 only. On the Catalyst 4507R-E switch, you install the primary supervisor engine in slot 3, and you can install an optional redundant supervisor engine in slot 4. On the 4510R-E switch, you install the primary supervisor engine in slot 5, and you can install an optional redundant supervisor engine in slot 6.
Appendix D Module Overview and Specifications Supervisor Engines Front-Panel Components The following connectors, LEDs, and buttons are located on the front panel of the supervisor engine: • The STATUS LED, which indicates the operating state of the module • Four SFP Gigabit uplinks ports (via the Twin Gig converter) or 2 10-Gigabit X2 uplink ports • Eight unmarked switch load indicator LEDs, which provide an approximation of the current traffic across the backplane • A console port (RJ-45) • An
Appendix D Module Overview and Specifications Switching Modules Ethernet Management Port The WS-X4013+10GE supervisor engine modules have a 10/100/1000BASE-T Ethernet management port. Supervisor engines use an RJ-45 connector on the front panel with a link status LED. For the location of the port, see Figure D-1 (WS-X4516-10GE). TCP/IP-based management services available through inband access also are provided through this port (Telnet and SNMP). This management port also supports image download.
Appendix D Module Overview and Specifications Switching Modules WS-X4606-X2-E The WS-X4606-X2-E 6-Port 10GbE (X2) switching module (see Figure D-2) has the following specifications: Specification Description Module type 10Gig X2 or TwinGig fiber Ethernet switching module Port duplex mode Full duplex mode Port speed 10 Gbps or 2 Gbps when using a Cisco TwinGig converter and 2 SFPs Number of ports 6 Connector type SC type Cable type MMF or SMF WS-X4606-GB 6-Port Gigabit Ethernet Switching Modul
Appendix D Module Overview and Specifications Switching Modules WS-X4548-GB-RJ45V-E 48-Port IEEE-Compliant PoE 10/100/1000BASE-T Switching Module 211398 Figure D-3 To provide PoE with the 48-port PoE 10/100/1000BASE-T switching module in a Catalyst 4500 E-series switch, you must have an PoE-enabled power supply. All power supplies support PoE except the 1000 W and 1400 W AC power supplies. Note Auto MDIX is supported on this PoE enabled switching module.
Appendix D Module Overview and Specifications Switching Modules Switching Module LEDs Each switching module has one LED labeled STATUS that provides information about the module and one numbered LED labeled LINK for each port on the module. Figure D-5 shows the Gigabit Ethernet port and status LEDs. Figure D-6 shows the 10/100BASE-T port LEDs. Table D-3 describes the switching module LEDs.
Appendix D Module Overview and Specifications Hot-Swapping Feature Table D-3 LED Switching Module LEDs (continued) Color/State Description Flashing orange The link has been disabled due to a hardware failure. Off No signal is detected. 1. Used on the WS-X4232-L3 Ethernet routing module. 2. LEDs labeled 1 through the number of ports on the switching module are the individual port link LEDs.
I N D EX description Numerics 1-25 environmental monitoring 10/100BASE-T figure Ethernet management port port LEDs D-4 1000BASE-T interfaces 1-3, 1-6, 1-10, 1-14 1000BASE-X 1-17 4-6 removing 4-4 replacing 4-6 troubleshooting port and status LEDs (figure) 5-8, D-7 power cord plugs 4-7 See also DC-input power supplies 2-4 power cords (table) ACTIVE LED 2-5 description (table) 100BASE-T 1-22 air-conditioning requirements 1-3, 1-6, 1-10, 1-14 Ethernet management ports D-4 1-3, 1-6
Index Catalyst 4503-E switches chassis dimensions features console port connecting to A-2 description 1-3 front view power requirements warnings 2-3 -x B-1 specifications A-1 D Catalyst 4506-E switches attaching cable guides (figure) chassis dimensions features D-4 conventions 1-2 repacking C-2 3-4 DC-input power supplies A-3 connecting system ground 1-6 front view description 1-5 power requirements repacking 1-25 environmental monitoring installing in racks (figure) 3-5 fi
Index description D-4 G Ethernet management ports LEDs Gigabit Ethernet 5-3 network switching not supported (note) troubleshooting See 1000BASE-T D-4 See 1000BASE-X 5-3 GOOD LEDs checking F 4-7 troubleshooting verifying power supply status FAIL LEDs checking connecting systems 4-13 figure 5-2 Catalyst 4503-E switches (figure) 1-3 Catalyst 4506-E switches (figure) 1-6 Catalyst 4507 switches (figure) installing 4-10 H 1-10, 1-14 heat dissipation 1-24 4-14 power supplies 1-28
Index installing O AC-input power supplies 4-4 to 4-8 DC-input power supplies 4-8 to 4-13 fan assemblies OUTPUT FAIL LED environmental monitoring 4-13 to 4-15 installing switches in racks 1-29 3-2 to 3-7 P L packaging materials port status LEDs labels, chassis serial number LEDs LEDs checking power supplies C-3 power 5-3 checking supervisor engines requirements 5-2 See AC-input power cords See also specific types of LEDs power supplies D-7 switch load indicators LEDs D-3 5-3
Index Catalyst 4510R supported S LEDs serial numbers 5-18 D-3 B-1 show port command D-8 show system command T 4-8 site planning checklist D-7 switch load indicators shipping instructions 1-15 TAC 2-11 contacting slots 5-18 temperature Catalyst 4503-E switches (figure) 1-2 Catalyst 4503-E switches A-1 Catalyst 4506-E switches (figure) 1-5 Catalyst 4506-E switches A-2 Catalyst 4507 switches (figure) 1-9, 1-13 specifications Catalyst 4507 switches terminal-emulation software C
Index Catalyst 4500 E-Series Switches Installation Guide IN-6 OL-13972-01