Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide May 24, 2013 Cisco Systems, Inc. www.cisco.com Cisco has more than 200 offices worldwide. Addresses, phone numbers, and fax numbers are listed on the Cisco website at www.cisco.com/go/offices.
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CONTENTS Preface CHAPTER 1 vii Introducing the Cisco Wide Area Virtualization Engine 594 and 694 Supported Products 1-1 1-1 Hardware Features 1-1 Front Panel Components and LEDs 1-2 Back Panel Components and LEDs 1-4 Location of Ports and Connectors 1-5 Connecting a Console Terminal 1-6 Cabling 1-6 Installing the Cisco USB Driver 1-6 CHAPTER 2 Preparing to Install the WAVE-594 and WAVE-694 Safety Warnings and Cautions 2-1 Safety Guidelines 2-2 General Precautions 2-4 System Reliability Considera
Contents CHAPTER Installing Hardware Options for the WAVE-594 and WAVE-694 4 Installing a Cisco WAVE Interface Module 4-1 Replacing a Hard Disk Drive/Solid State Drive Replacing a Fan 4-5 Installing Memory 4-6 Removing the Cover 4-6 Installing Memory Modules WAVE Interface Modules 5 4-2 4-4 Replacing a Power Supply CHAPTER 4-1 4-7 5-1 Interface Module Descriptions 5-1 Gigabit Ethernet Interface Module—Copper 5-1 Gigabit Ethernet Interface Module—Fiber Optic 5-2 10 Gigabit Ethernet Interface
Contents Temperature B-2 Humidity B-2 Altitude B-2 Dust and Particles B-3 Corrosion B-3 Electrostatic Discharge B-3 Electromagnetic and Radio Frequency Interference Magnetism B-4 Shock and Vibration B-4 Power Source Interruptions B-5 B-4 Using Power Protection Devices B-5 Surge Protectors B-6 Line Conditioners B-6 Uninterruptible Power Supplies B-6 INDEX Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide OL-24619-02 v
Contents Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide vi OL-24619-02
Preface This preface describes the purpose of the Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide, who should read it, how it is organized, and its document conventions.
Organization This guide is organized as follows: Chapter Title Description Chapter 1 Introducing the Cisco Wide Area Describes the physical properties and provides a Virtualization Engine 594 and functional overview of the WAVE-594 and WAVE-694. 694 Chapter 2 Preparing to Install the WAVE-594 and WAVE-694 Describes safety considerations and gives an overview of the installation and procedures that you should perform before the actual installation.
Screen examples use the following conventions: Convention screen font boldface screen Description Terminal sessions and information the system displays are in screen font. Information you must enter is in boldface screen font. font italic screen font Variables for which you supply values are in italic screen font. ^ The symbol ^ represents the key labeled Control—for example, the key combination ^D in a screen display means hold down the Control key while you press the D key.
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.
Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide OL-24619-02 xi
Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide xii OL-24619-02
Related Documentation The WAVE-594 and WAVE-694 appliance supports the Cisco Wide Area Application Services software (WAAS) and can function as either a WAAS Central Manager or as an Application Acceleration Engine.
The documentation for this product also includes the following hardware-related document: • Regulatory Compliance and Safety Information for the Cisco Wide Area Virtualization Engines 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.
CH A P T E R 1 Introducing the Cisco Wide Area Virtualization Engine 594 and 694 This chapter provides a basic functional overview of the Cisco Wide Area Virtualization Engine 594 and 694 (WAVE-594 and WAVE-694) appliance and describes the hardware, major components, and front and back panel indicators and controls.
Chapter 1 Introducing the Cisco Wide Area Virtualization Engine 594 and 694 Hardware Features Front Panel Components and LEDs Figure 1-1 shows the front panel components.
Chapter 1 Introducing the Cisco Wide Area Virtualization Engine 594 and 694 Hardware Features Figure 1-2 shows the front panel LEDs. Front Panel LEDs 246570 Figure 1-2 Cisco Wide Area Virtualization Engine 594 7 8 1 2 3 4 5 6 9 Table 1-1 describes the front panel LEDs and their functions.
Chapter 1 Introducing the Cisco Wide Area Virtualization Engine 594 and 694 Hardware Features Back Panel Components and LEDs Figure 1-3 shows the back panel components. Note To monitor the boot process in normal operation, use a console port. Figure 1-3 Back Panel Components 1 2 3 4 5 1 Power supply 1 5 Fan 4 2 Power supply 0 6 Fan 3 3 Fan 6 7 Fan 2 4 Fan 5 8 Fan 1 6 7 8 Figure 1-4 shows the back panel LEDs.
Chapter 1 Introducing the Cisco Wide Area Virtualization Engine 594 and 694 Hardware Features Table 1-2 Back Panel LEDs (continued) LED 3-8 Fan status Color State Description Orange On Alarm. Orange Blinking Alarm. Fan speed too low. — Off Normal state. Location of Ports and Connectors The WAVE appliance supports two Ethernet connectors and two Console ports on the front of the appliance. Figure 1-3 shows the back panel ports and connectors.
Chapter 1 Introducing the Cisco Wide Area Virtualization Engine 594 and 694 Connecting a Console Terminal Figure 1-5 Ethernet Port Connector Speed LED 330210 Link/Activity LED 8 1 Console Port Connector The WAVE-594 and WAVE-694 appliance has two console port connectors, serial and mini-USB (see Figure 1-1). Use a console port connector to access the command-line interface (CLI) for controlling the WAVE appliance.
Chapter 1 Introducing the Cisco Wide Area Virtualization Engine 594 and 694 Connecting a Console Terminal • Vista—32-bit, Business edition • Vista—64-bit • Windows 7—32-bit and 64-bit To install the Cisco Microsoft Windows USB driver, perform the following steps: Note Do not connect the cable from the Windows PC to the WAVE appliance until after the driver is installed. Step 1 Load the DVD that came with your WAVE appliance and double-click the CUSBInst.exe file.
Chapter 1 Introducing the Cisco Wide Area Virtualization Engine 594 and 694 Connecting a Console Terminal Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide 1-8 OL-24619-02
CH A P T E R 2 Preparing to Install the WAVE-594 and WAVE-694 This chapter contains important safety information that you should know before you work with the WAVE-594 and WAVE-694. Use the guidelines in this chapter to ensure your own personal safety and to help protect your appliance from potential damage.
Chapter 2 Preparing to Install the WAVE-594 and WAVE-694 Safety Guidelines Warning This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority or an electrician if you are uncertain that suitable grounding is available. Statement 1024 Warning This unit might have more than one power supply connection. All connections must be removed to de-energize the unit.
Chapter 2 Preparing to Install the WAVE-594 and WAVE-694 Safety Guidelines • System Reliability Considerations, page 2-5 • Protecting Against Electrostatic Discharge, page 2-5 Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide OL-24619-02 2-3
Chapter 2 Preparing to Install the WAVE-594 and WAVE-694 Safety Guidelines General Precautions Observe the following general precautions for using and working with the WAVE-594 and WAVE-694: • Observe and follow service markings. Do not service any Cisco product except as explained in your system documentation. Opening or removing covers that are marked with the triangular symbol with a lightning bolt may expose you to electrical shock.
Chapter 2 Preparing to Install the WAVE-594 and WAVE-694 Understanding the Environmental Requirements System Reliability Considerations To help ensure proper cooling and system reliability, make sure that the following occurs: • Each of the hard drive bays has either a drive or a filler panel installed. • The Interface Module bay has either a Cisco Interface Module or a filler panel installed. • Each power supply bay has either a power supply of filler panel installed.
Chapter 2 Preparing to Install the WAVE-594 and WAVE-694 Understanding the Power Requirements Understanding the Power Requirements Installation of this equipment must comply with local and regional electrical regulations governing the installation of information technology equipment by licensed electricians.
CH A P T E R 3 Installing the WAVE-594 and WAVE-694 This chapter describes how to install a WAVE-594 and WAVE-694 in an equipment rack.
Chapter 3 Installing the WAVE-594 and WAVE-694 Rack Mounting and Cabling the WAVE-594 and WAVE-694 Caution Always use filler panels to fill empty vertical spaces in the rack. This arrangement ensures proper airflow. Using a rack without filler panels results in improper cooling that can lead to thermal damage.
Chapter 3 Installing the WAVE-594 and WAVE-694 Rack Mounting and Cabling the WAVE-594 and WAVE-694 Warning 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 WAVE-594 and WAVE-694 Rack Mounting and Cabling the WAVE-594 and WAVE-694 Step 4 Attach the rear mount bracket holders (item #3 in Table 3-1) to the rear rack posts using four appropriate rack screws (item #6 or #7 in Table 3-1). (see Figure 3-2) Attaching Rear Rack Mount to the Rack 330142 Figure 3-2 Step 5 Insert the chassis between the mounting posts and secure (see Figure 3-3): a.
Chapter 3 Installing the WAVE-594 and WAVE-694 Rack Mounting and Cabling the WAVE-594 and WAVE-694 Rack-Mounting the Chassis 330145 Figure 3-3 Step 6 Verify that the chassis is securely installed in the rack. Front-Mounting in a 2-Post Rack Follow these steps to front-mount the WAVE appliance in a 2-post rack: Note There must be an empty 1RU space in the rack directly below the chassis to allow space for the back edge to sag. A sag of up to 1/2RU (7/8”) is acceptable.
Chapter 3 Installing the WAVE-594 and WAVE-694 Rack Mounting and Cabling the WAVE-594 and WAVE-694 Figure 3-4 Step 3 Attaching the Front Brackets Insert the chassis between the mounting posts and secure (see Figure 3-5): a. Align the mounting holes in the front brackets with the mounting holes in the equipment rack. b. Secure the chassis using four (two on each side) rack screws (item #6 or #7 in Table 3-1) through the holes in the front brackets and into the threaded holes in the mounting post.
Chapter 3 Installing the WAVE-594 and WAVE-694 Rack Mounting and Cabling the WAVE-594 and WAVE-694 Figure 3-5 Step 4 Rack-mounting the Chassis Verify that the chassis is securely installed in the rack. Cabling Use the following information (see Figure 3-6) when connecting peripheral cables to the WAVE appliance. Warning To reduce the risk of electric shock, fire, or damage to the equipment, do not plug telephone or telecommunications connectors into RJ-45 connectors.
Chapter 3 Installing the WAVE-594 and WAVE-694 Connecting Power and Booting the System Figure 3-6 2 3 4 5 330060 1 Cable Connections—Front 1 Console port (mini-USB) 4 10/100/1000 GE 0/1 connector 2 Console port (RJ-45) 5 External USB port 3 10/100/1000 GE 0/0 connector Connecting Power and Booting the System To connect power to your system, follow these steps: Step 1 Review the information in the “Safety Guidelines” section on page 2-2.
Chapter 3 Installing the WAVE-594 and WAVE-694 Removing or Replacing a WAVE Appliance Removing or Replacing a WAVE Appliance To remove a WAVE appliance from your network, power it down, disconnect the power cords and network cables, and physically remove the chassis from the rack. The WAVE appliance is in constant communication with the router on your network. When the router notices that the WAVE appliance is no longer responding to it, the router stops sending requests to the WAVE appliance.
Chapter 3 Installing the WAVE-594 and WAVE-694 Removing or Replacing a WAVE Appliance Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide 3-10 OL-24619-02
CH A P T E R 4 Installing Hardware Options for the WAVE-594 and WAVE-694 This chapter provides basic instructions for installing hardware options in your WAVE-594 and WAVE-694. These instructions are intended for technicians who are experienced with setting up Cisco WAVE-594 and WAVE-694 hardware.
Chapter 4 Installing Hardware Options for the WAVE-594 and WAVE-694 Replacing a Hard Disk Drive/Solid State Drive Step 1 Review the information in the “Safety Warnings and Cautions” section on page 2-1 and the “Safety Guidelines” section on page 2-2. Step 2 Power down the appliance. Note Step 3 You must power down the appliance before installing or removing an Interface Module. Interface Modules are not hot-swappable.
Chapter 4 Installing Hardware Options for the WAVE-594 and WAVE-694 Replacing a Hard Disk Drive/Solid State Drive Note The WAVE-594 supports both Solid State Drives and Hard Disk Drives. You cannot mix HDD and SSD in the same chasis. For details about the WAVE-594 appliance specifications, see Appendix A, “Appliance Specifications”. Hard drives are hot-swappable therefore it is not necessary to power the system down before installing or replacing.
Chapter 4 Installing Hardware Options for the WAVE-594 and WAVE-694 Replacing a Fan Step 4 Within one minute, insert the new drive into the same slot by aligning the replacement drive assembly with guide rails in the bay and sliding the drive assembly into the bay until it stops. Make sure that the drive is properly seated in the bay. Step 5 Close the drive handle. Step 6 Check the hard disk drive status LED after the system has booted to verify that the hard disk drive is operating correctly.
Chapter 4 Installing Hardware Options for the WAVE-594 and WAVE-694 Replacing a Power Supply Figure 4-3 Fan Assembly 1 246554 2 Step 3 Within one minute, insert the new fan with the surface marked “TOP” facing up and verify that the latch is engaged. Step 4 Check the power LED to verify that the new fan is receiving power.
Chapter 4 Installing Hardware Options for the WAVE-594 and WAVE-694 Installing Memory Step 3 Disengage the latch and pull the power supply out by the handle. (See Figure 4-4.) Power Supply Assembly 246692 Figure 4-4 Step 4 Within one minute, insert the new power supply with the surface marked “TOP” facing up and verify that the latch is engaged. Step 5 Insert the power cord into the replacement power supply. Step 6 Check the power LED to verify that the new power supply is receiving power.
Chapter 4 Installing Hardware Options for the WAVE-594 and WAVE-694 Installing Memory Caution Do not operate the WAVE appliance with the access panel open or removed. Operating the WAVE appliance in this manner results in improper airflow and improper cooling that can lead to thermal damage. To remove the appliance cover, follow these steps: Step 1 Review the information in the “Safety Warnings and Cautions” section on page 2-1 and the “Safety Guidelines” section on page 2-2.
Chapter 4 Installing Hardware Options for the WAVE-594 and WAVE-694 Installing Memory Figure 4-5 Memory Slot Mapping 330139 A3 A2 A1 B3 B2 B1 Table 4-1 and Table 4-2 list the RDIMM configurations available for the WAVE-594 and WAVE-694 appliance.
Chapter 4 Installing Hardware Options for the WAVE-594 and WAVE-694 Installing Memory Step 1 Power down the WAVE appliance. Step 2 Remove the WAVE appliance from the rack. Step 3 Remove the primary access panel (See the “Removing the Cover” section on page 4-6). Step 4 Open the DIMM slot latches for slots A1, A2, B1, and B2 and remove the existing memory modules. Note All existing memory must be removed and replaced by the RDIMMS contained in the Cisco upgrade kit.
Chapter 4 Installing Hardware Options for the WAVE-594 and WAVE-694 Installing Memory Caution Do not leave open spaces above or below an installed appliance in the rack cabinet. To help prevent damage to appliance components, always install a filler panel to cover the open space and to help ensure proper air circulation. See the documentation that comes with your rack cabinet for more information. Step 10 Connect the cables and power cords.
CH A P T E R 5 WAVE Interface Modules This chapter describes Cisco WAVE Interface Modules and contains the following sections: • Interface Module Descriptions, page 5-1 • Ports and LED Indicators, page 5-5 • Network Adapter Cabling Requirements, page 5-8 • Installation Scenarios and Cabling Examples for Fast Ethernet Connections, page 5-10 For information on installing an inline adapter in your WAVE-594 and WAVE-694, see the “Installing a Cisco WAVE Interface Module” section on page 4-1.
Chapter 5 WAVE Interface Modules Interface Module Descriptions Gigabit Ethernet Interface Module—4-Port Copper Figure 5-2 Gigabit Ethernet Interface Module—8-Port Copper 246687 246685 Figure 5-1 Gigabit Ethernet Interface Module—Fiber Optic The fiber optic Gigabit Ethernet Interface Module is available in 4 ports. This model supports bypass. (See Figure 5-3.
Chapter 5 WAVE Interface Modules Interface Module Descriptions Gigabit Ethernet Interface Module—4-Port Fiber Optic 246686 Figure 5-3 10 Gigabit Ethernet Interface Module—Fiber Optic SFP+ The fiber optic Gigabit Ethernet Interface Module is available in 2 ports. This model does not support bypass. (See Figure 5-4.
Chapter 5 WAVE Interface Modules Interface Module Descriptions Inline Interface When you configure the WAVE appliance for inline interception mode, you can set attributes to control which interfaces are to be used over which VLANs. By default, the module operates on all inline-capable interfaces and VLANs. You can configure the inline redirection feature using the WAAS CLI or the WAAS Central Manager GUI.
Chapter 5 WAVE Interface Modules Ports and LED Indicators Ports and LED Indicators Figure 5-5 shows the 4-port Copper Gigabit Ethernet Interface Module port numbers, interface designations, and LEDs. Figure 5-6 shows the same information for the 8-port adapter.
Chapter 5 WAVE Interface Modules Ports and LED Indicators Figure 5-7 Copper Interface Module—Gigabit Ethernet LEDs Speed LED 330210 Link/Activity LED 8 1 Table 5-2 describes the Gigabit Ethernet port LEDs. Table 5-2 Copper Interface Module—Gigabit Ethernet LEDs Name Color State Description NIC link/activity Green On Link exists. Green Blinking Activity exists. — Off No link detected. — Off 10Mbps connection. Green On 100Mbps connection. Yellow On 1000Mbps connection.
Chapter 5 WAVE Interface Modules Ports and LED Indicators Table 5-3 2 Fiber Optic Interface Module—Power and Status LEDs Activity 3 Bypass status Green On Link exists. Green Blinking Transmitting. — Off No link detected. Green Normal Indicates the inline port pair is in interception mode. Amber Bypass Indicates the inline port pair is in bypass mode. Figure 5-9 shows the 2-port Fiber Optic 10 Gibabit Ethernet SFP+ Interface Module port numbers, interface designations, and LEDs.
Chapter 5 WAVE Interface Modules Network Adapter Cabling Requirements Table 5-4 Inline Network Adapter LEDs (continued) LED Name Color State Description 3 Speed — Off No link is detected. Green On 10 Gigabit Ethernet connection. Yellow On 1 Gigabit Ethernet connection. Network Adapter Cabling Requirements Gigabit Ethernet—Copper The Interface Module ships with two types of cables: crossover and straight-through.
Chapter 5 WAVE Interface Modules Network Adapter Cabling Requirements Some switches support automatic medium-dependent interface crossover (MDIX). You can configure MDIX by using the mdix auto global configuration switch command. If your switch supports MDIX, you do not need to follow these cabling rules because MDIX automatically adjusts transmit and receive pairs when an incorrect cable type (crossover or straight-through) is installed on a 10/100 Fast Ethernet port.
Chapter 5 WAVE Interface Modules Installation Scenarios and Cabling Examples for Fast Ethernet Connections Step 2 Connect Fast Ethernet ports on both the LAN and the WAN sides of the WAVE inline appliance by using the following cable types: • On the LAN side of the connection, use a straight-through cable between the WAVE inline appliance and the network device.
Chapter 5 WAVE Interface Modules Installation Scenarios and Cabling Examples for Fast Ethernet Connections Two WAVE appliances with inline network adapters can also be installed back-to-back in a serial fashion between two network devices for failover purposes. In this serial cluster configuration, if one WAVE appliance fails, the other WAVE appliance can provide optimization. (See Figure 5-11.
Chapter 5 WAVE Interface Modules Installation Scenarios and Cabling Examples for Fast Ethernet Connections Figure 5-11 Cabling for Serial Cluster Inline WAVEs with a Single WAN Connection MGMT LAN switch 1 1 2 3 WAVE1 Router B WAVE2 2 Connection: WAVE 1 to LAN switch Fast Ethernet: LAN0 (InlinePort 1/0/lan) 243289 WAN Connection: WAVE 1 to WAVE 2 Fast Ethernet: WAVE1 WAN0 (InlinePort 1/0/wan) to WAVE 2 LAN0 (InlinePort 1/0/lan) Cable type: Straight-through Cable type: Crossover 3 Connec
Chapter 5 WAVE Interface Modules Installation Scenarios and Cabling Examples for Fast Ethernet Connections 1 Connection: WAVE 1 to LAN switch Fast Ethernet: WAVE 1 LAN0 (InlinePort 1/0/lan) Cable type: Straight-through 2 Connection: WAVE 1 to WAVE 2 Fast Ethernet: WAVE 1 WAN0 (InlinePort 1/0/wan) to WAVE 2 LAN0 (InlinePort 1/0/lan) Cable type: Crossover 3 Connection: WAVE 2 to WAN router Fast Ethernet: WAVE 2 WAN0 (InlinePort 1/0/wan) Cable type: Crossover Cisco Wide Area Virtualization Engine 594 a
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CH A P T E R 6 Troubleshooting the System Hardware This chapter provides basic troubleshooting information to help you identify some common problems that might occur with your WAVE-594 and WAVE-694.
Chapter 6 Troubleshooting the System Hardware Checking Connections and Switches Step 5 Power up the appliance. Step 6 If the self-diagnostic programs were completed successfully and you still suspect a problem, see the “Undetermined Problems” section on page 6-4. Step 7 Check the system error log to see if an error was recorded by the system.
Chapter 6 Troubleshooting the System Hardware Troubleshooting the Ethernet Controller • Network Connection Problems, page 6-3 • Ethernet Controller Troubleshooting Chart, page 6-3 Network Connection Problems If the Ethernet controller cannot connect to the network, check the following conditions: • Make sure that the cable is installed correctly. The network cable must be securely attached at all connections. If the cable is attached but the problem remains, try a different cable.
Chapter 6 Troubleshooting the System Hardware Undetermined Problems Table 6-1 Ethernet Troubleshooting Chart Ethernet Controller Problem Ethernet link status LED does not work. Actions Check the following: • Make sure that the switch to which the WAVE appliance is connected is powered on. • Check all connections at the Ethernet controller and the switch. • Use another port on the switch.
Chapter 6 Troubleshooting the System Hardware Problem-Solving Tips Check the system LEDs for the power supplies (see the “Back Panel Components and LEDs” section on page 1-4). If the LEDs indicate the power supplies are working correctly, follow these steps: Step 1 Power down the appliance. Step 2 Be sure the appliance is cabled correctly.
Chapter 6 Troubleshooting the System Hardware Error Symptoms – BIOS level • WAAS system software type and version level To eliminate confusion, identical systems are considered identical only if they meet all these conditions: • Are the exact machine type and models • Have the same BIOS level • Have the same devices or attachments in the same locations • Have the same cabling • Have the same WAAS software versions and levels • Have the same configuration options set in the system • Have th
Chapter 6 Troubleshooting the System Hardware Error Symptoms Table 6-4 Intermittent Problems Symptom Cause and Action A problem occurs only occasionally and is difficult to detect. 1. Verify the following items: a. All cables and cords are connected securely to the rear of the appliance and attached hardware options. b. When the appliance is powered on, air is flowing from the rear of the appliance at the fan grille. If there is no airflow, the fans are not working.
Chapter 6 Troubleshooting the System Hardware Error Symptoms Table 6-7 Power Problems Symptom FRU or Action The power-control button does not work (the appliance does not start). Note The power-control button will not function until 20 seconds after the appliance has been connected to power. The appliance does not power down. 1. Verify the following items: a. The power cables are properly connected to the appliance. b. The electrical outlet functions properly. 2.
A P P E N D I X A WAVE-594 and WAVE-694 Hardware Specifications This appendix provides hardware specifications for the WAVE-594 and WAVE-694 appliance. It contains the following sections: • Appliance Specifications, page A-1 • Interface Module Specifications, page A-3 Appliance Specifications Table A-1 provides a summary of the features and specifications of the WAVE-594 and WAVE-694.
Appendix A WAVE-594 and WAVE-694 Hardware Specifications Appliance Specifications Table A-1 WAVE-594 and WAVE-694 Features and Specifications (continued) Specification Description Dimensions Weight • Height: 42 mm (1.69 in) • Depth: 516 mm (20.33 in); includes power supply handles • Width: 429 mm (16.89 in) Maximum Weight (no carton): 10.21 kg (22.51 lb) (Includes the weight of one Cisco Interface Module, one power supply, and two hard disk drives.
Appendix A WAVE-594 and WAVE-694 Hardware Specifications Interface Module Specifications Interface Module Specifications Table A-2 describes the Interface Module technical and general specifications. Table A-2 Inline Network Adapter Specifications Specification Description Copper Gigabit Ethernet Bypass (4-port and 8-port) IEEE standard Gigabit Ethernet, 1000BASE-T, IEEE 802.3-2000 Fast Ethernet, 100BASE-T, IEEE 802.3-2000 Ethernet, 10BASE-T, IEEE 802.
Appendix A WAVE-594 and WAVE-694 Hardware Specifications Interface Module Specifications Table A-2 Inline Network Adapter Specifications (continued) Specification Description Operating humidity 10 to 90% RH (non-condensing) Operating temperature 0 to 40 ºC (32 to 104 ºF) Operating altitude 3,050 m (10,000 ft) Non-operating temperature -30 to 60 ºC (-22 to 140 ºC) Non-operating humidity 5 to 95% RH (non-condensing) Non-operating altitude 4,572 m (15,000 ft) Cisco Wide Area Virtualization E
A P P E N D I X B Maintaining the WAVE-594 and WAVE-694 Proper use of preventive maintenance procedures can keep the WAVE-594 and WAVE-694 in good operating condition and minimize the need for costly, time-consuming service procedures. This chapter contains maintenance procedures that you should perform regularly.
Appendix B Maintaining the WAVE-594 and WAVE-694 Maintaining Your Site Environment Temperature Temperature extremes can cause a variety of problems, including premature aging and failure of chips or mechanical failure of appliances. Extreme temperature fluctuations can cause chips to become loose in their sockets and can cause expansion and contraction of disk drive platters, resulting in read or write data errors.
Appendix B Maintaining the WAVE-594 and WAVE-694 Maintaining Your Site Environment Each system is designed to operate at a maximum altitude of 3000 meters (9,843 feet) with some de-rating of maximum operating temperature (see Appendix A, “WAVE-594 and WAVE-694 Hardware Specifications”) and can be stored at a maximum altitude of 4572 meters (15,000 feet).
Appendix B Maintaining the WAVE-594 and WAVE-694 Maintaining Your Site Environment Electromagnetic and Radio Frequency Interference Electromagnetic interference (EMI) and radio frequency interference (RFI) from a system can adversely affect devices such as radio and television (TV) receivers operating near the system. Radio frequencies emanating from a system can also interfere with cordless and low-power telephones.
Appendix B Maintaining the WAVE-594 and WAVE-694 Using Power Protection Devices Power Source Interruptions Systems are especially sensitive to variations in voltage supplied by the AC power source. Overvoltage, undervoltage, and transients (or spikes) can erase data from memory or even cause components to fail.
Appendix B Maintaining the WAVE-594 and WAVE-694 Using Power Protection Devices Surge Protectors Surge protectors are available in a variety of types and usually provide a level of protection commensurate with the cost of the device. Surge protectors prevent voltage spikes, such as those caused during an electrical storm, from entering a system through the electrical outlet.
INDEX A E AC power electromagnetic interference specifications See EMI A-2 electrostatic discharge altitude guidelines See ESD B-2 EMI preventing effects of C B-4 environment maintaining cabling requirements inline network adapter preventing damage 5-10 2-5, B-3 Ethernet controller connections power ESD 5-8 inline network adapter (examples) B-1 troubleshooting 3-8 troubleshooting troubleshooting (chart) 6-2 locations console port connector pinouts 5-5, 5-6, 5-7 1-6 prevent
Index humidity N maintenance guidelines B-2 network connection problems I 6-3 removing WAVE from I/O connectors 3-9 1-5 inline network adapter P cabling examples 5-10 cabling requirements 5-8 ports Interface Module installation warnings serial 2-1 5-5, 5-6, 5-7 1-6 power installing drives connecting to system 4-3 problems Interface Module description preventing damage from A-3 B-5 power supplies intermittent problems troubleshooting 6-8 power source interruptions 5-1 sp
Index shock W preventing damage B-4 warnings site environment maintenance factors solid state drive installation B-1 WAVE 4-2 installing surge protectors using 2-1 3-2 maintaining B-6 B-1 removing or replacing switches troubleshooting 3-9 6-2 system problems identifying 6-1 system reliability 2-5 T temperature maintenance guidelines B-2 troubleshooting connections 6-2 Ethernet controller 6-2 network connections switches 6-3 6-2 system hardware 6-1 undetermined problems
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