Routing Engine, MCS, and CB Installation Instructions

Size: px
Start display at page:

Download "Routing Engine, MCS, and CB Installation Instructions"

Transcription

1 Part No Revision 1 11 September 2002 This document describes how to remove and replace a Routing Engine on Juniper Networks Internet routers. It also describes how to remove and replace a Miscellaneous Control Subsystem (MCS) on an M40e or M160 router, and a Control Board (CB) on a T320 router or a T640 routing node. For additional installation and configuration information, see the following documentation: M5 and M10 Internet Routers Hardware Guide M20 Internet Router Hardware Guide M40 Internet Router Hardware Guide M40e Internet Router Hardware Guide M160 Internet Router Hardware Guide T320 Internet Router Hardware Guide T640 Internet Routing Node Hardware Guide JUNOS Internet Software Operational Mode Command Reference JUNOS Internet software configuration guides Contents Routing Engine Description... 2 Routing Engine Components... 2 Routing Engine on the M5 and M10 Routers... 4 Routing Engines and Routing Engine Panel on the M20 Router... 5 Routing Engine on the M40 Router... 7 Host Module Components on the M40e and M160 Routers... 7 Host Subsystem Components on a T320 Router and a T640 Routing Node Replace the Routing Engine on an M5 or M10 Router Remove the Routing Engine from an M5 or M10 Router Install the Routing Engine in an M5 or M10 Router Replace the Routing Engine on an M20 Router Switch Routing Engine Mastership on an M20 Router Remove a Routing Engine from an M20 Router Install a Routing Engine in an M20 Router

2 Routing Engine Description 2 Routing Engine Description Routing Engine Components Replace the Routing Engine on an M40 Router Remove the Routing Engine Housing from an M40 Router Remove the Routing Engine from the Housing on an M40 Router Install the Routing Engine in the Housing on an M40 Router Install the Routing Engine Housing in an M40 Router Replace the Host Module Components on an M40e or M160 Router Switch Host Module Mastership on an M40e or M160 Router Replace a Routing Engine on an M40e or M160 Router Replace an MCS on an M40e or M160 Router Replace the Host Subsystem on a T320 Router or a T640 Routing Node Take the Host Subsystem Offline on a T320 Router or T640 Routing Node Replace a Routing Engine on a T320 Router or T640 Routing Node Replace a CB on a T320 Router or T640 Routing Node Contact Juniper Networks The Routing Engine is an Intel-based PCI platform that runs JUNOS Internet software. It maintains the routing tables and manages the routing protocols used on the router. For more information, see the following sections: Routing Engine Components on page 2 Routing Engine on the M5 and M10 Routers on page 4 Routing Engines and Routing Engine Panel on the M20 Router on page 5 Routing Engine on the M40 Router on page 7 Host Module Components on the M40e and M160 Routers on page 7 Host Subsystem Components on a T320 Router and a T640 Routing Node on page 10 Each Routing Engine (shown in Figure 1) is a two-board system with the following components: CPU Runs JUNOS Internet software to maintain the router s routing tables and routing protocols. It has a Pentium-class processor. SDRAM Provides storage for the routing and forwarding tables and for other Routing Engine processes. Compact flash disk Provides primary storage. It can accommodate two software images, two configuration files, and microcode. This disk is fixed and inaccessible from outside the router. Hard disk Provides secondary storage for log files, memory dumps, and rebooting the system if the flash disk fails. PCMCIA card slot Accepts a removable PCMCIA card, which stores software images for system upgrades.

3 Routing Engine Description Interfaces for out-of-band management access Provide information about Routing Engine status to devices that can be attached to external access ports. On the M5, M10, M20, and M40 routers, the access ports are located on the craft interface. On the M40e, M160, T320 routers and the T640 routing node, the access ports are located on the Connector Interface Panel (CIP). For each Routing Engine, there is one 10/100-Mbps Ethernet port for connecting to a management network, and two asynchronous serial ports, one for connecting to a console and one for connecting to a modem or other auxiliary device. EEPROM Stores the serial number of the Routing Engine. LED Indicates disk activity for the internal IDE interface. It does not necessarily indicate routing-related activity. On the M20, M40, M40e, M160, T320 routers and the T640 routing node, the LEDs that report Routing Engine, host module, or host subsystem status are on the craft interface. The M5 and M10 routers do not have Routing Engine LEDs. For more information, see the hardware guide for your router. Reset button Reboots the Routing Engine when pressed. Extractor clips Control the locking system that secures the Routing Engine in the chassis. The appearance and position of electronic components or the PCMCIA card slot on your Routing Engine might differ from those in Figure 1 and other figures in this document. These differences do not affect Routing Engine installation and removal or functionality. For specific information about components in your Routing Engine (for example, the capacity of the hard disk), issue the show chassis routing-engine command. 3

4 Routing Engine Description 4 Figure 1: Routing Engine Routing Engine on the M5 and M10 Routers Figure 2: Rear of M5 or M10 Chassis On the M5 and M10 routers, one Routing Engine installs into the midplane from the rear of the chassis. During normal operation, it is enclosed in a sheet metal cover. Figure 2 shows the rear of the chassis with the Routing Engine cover removed. You must power down the router before removing the Routing Engine (it is not hot-removable, hot-insertable, or hot-pluggable). For replacement instructions, see Replace the Routing Engine on an M5 or M10 Router on page 14. Forwarding Engine Board Power supplies Routing Engine Fan tray assembly 1302

5 Routing Engine Description Routing Engines and Routing Engine Panel on the M20 Router On the M20 router, one or two Routing Engines install into the midplane from the rear of the chassis, as shown in Figure 3. When two Routing Engines are installed, both are powered on, but only one is active (the master); the second Routing Engine is in standby mode and performs no functions. At boot time, the two Routing Engines together determine which is master. By default, it is the Routing Engine in the upper slot (slot 0). The Routing Engines are hot-pluggable. For replacement instructions, see Replace the Routing Engine on an M20 Router on page 17. Removal or failure of the standby Routing Engine does not affect router function. If the master Routing Engine is removed from the chassis, the effect depends on whether two Routing Engines are installed: If there is only one Routing Engine, packet forwarding halts until the Routing Engine is reinstalled and functioning normally. If there are two Routing Engines, forwarding halts while the standby Routing Engine becomes the master and resets the Packet Forwarding Engine. With the default router configuration, if the master Routing Engine experiences a hardware or software failure, you must correct the problem manually. You can issue the appropriate request chassis routing-engine master command to switch mastership to the other Routing Engine, for example (for more information, see the JUNOS Internet Software Operational Mode Command Reference). You can also configure the router so that the standby Routing Engine automatically assumes mastership if it stops receiving keepalive signals from the master. For more information, see the JUNOS Internet Software Configuration Guide: Getting Started. 5

6 Routing Engine Description 6 Figure 3: Rear of M20 Chassis Figure 4: M20 Routing Engine Panel Routing Engines Rear Routing Engine panel Power supplies The M20 router has a Routing Engine panel that is part of the rear fan tray and located immediately to the right of the Routing Engine slots (see Figure 4). The Routing Engine panel contains status LEDs and offline buttons for the Routing Engines. Routing Engine LEDs ONLINE OFFLINE MASTER RE0 RE1 Routing Engine offline switches

7 Routing Engine Description Routing Engine on the M40 Router Figure 5: Rear of M40 Chassis On the M40 router, one Routing Engine resides in a sheet metal housing accessible from the rear of the router, as shown in Figure 5. The Routing Engine is hot-pluggable. For replacement instructions, see Replace the Routing Engine on an M40 Router on page 20. Cooling system exhaust (upper impeller tray) Triple fan assembly Routing Engine housing LS-120 drive Electrostatic discharge point Power supplies Front rack-mounting ear Center rack-mounting ear Host Module Components on the M40e and M160 Routers On the M40e and M160 routers, each Routing Engine is paired with an MCS (Miscellaneous Control Subsystem) in a functional unit called a host module. (For more information about the MCS, see MCS Description on page 8.) One or two host modules can be installed into the midplane from the rear of the chassis, as shown in Figure 6. When two host modules are installed in the router, both are powered on, but only one is active (the master); the second host module is in standby mode and performs no functions. By default, the master host module is the one with components installed in the slots labeled RE0 and MCS0. You can change the default mastership by including the appropriate routing-engine statement at the [edit chassis redundancy] hierarchy level in the configuration, as described in JUNOS Internet Software Configuration Guide: Getting Started

8 Routing Engine Description 8 Figure 6: Rear of M40e or M160 Chassis MCS Description The host module components are hot-pluggable. Removal or failure of either or both components in the standby host module does not affect router function. If one or both components in the master host module is removed from the chassis, the effect depends on whether two host modules are installed: If there is only one host module, packet forwarding halts until both the Routing Engine and MCS are reinstalled and functioning normally. If there are two host modules, packet forwarding halts while the standby host module becomes the master and the new master Routing Engine resets the Packet Forwarding Engine. With the default router configuration, if one or both components in the master host module experiences a hardware or software failure, you must correct the problem manually. You can issue the appropriate request chassis routing-engine master command to switch mastership to the other Routing Engine, for example (for more information, see the JUNOS Internet Software Operational Mode Command Reference). You can also configure the router so that the standby Routing Engine automatically assumes mastership if it stops receiving keepalive signals from the master. For more information, see the JUNOS Internet Software Configuration Guide: Getting Started. SFMs MCS 0 Routing Engines MCS 1 SFM 0 SFM 1 MCS 0 RE 0 RE 1 MCS 1 On the M40e and M160 routers, the Miscellaneous Control Subsystem (MCS) works with its companion Routing Engine to provide control and monitoring functions for router components. It also generates a clock signal for the SONET/SDH interfaces on the router. One or two host modules (paired MCS and Routing Engine) can be installed into the midplane from the rear of the chassis, as shown in Figure 6. Only one host module is active at a time, with the optional second host module in standby mode. For more information about host module interdependence and redundancy, see Host Module Components on the M40e and M160 Routers on page 7. PCG 0 PCG 1 PCGs 1948

9 Routing Engine Description MCS Components The MCS performs the following functions: Monitoring and control of router components The MCS collects statistics from all sensors in the system. When it detects a failure or alarm condition, it sends a signal to the Routing Engine, which generates control messages or sets an alarm. The MCS also relays control messages from the Routing Engine to the router components. Power-up and power-down of components The MCS controls the power-up sequence of router components as they start, and powers down components when their offline buttons are pressed. Signalling of mastership In a router with more than one host module, the MCS signals to all router components which host module is the master and which is the backup. It relays the mastership signal for the two PFE clock generators (PCGs) as well. Control of FPC resets If the MCS detects an error in an FPC, it attempts to reset the FPC. After three unsuccessful reset attempts, the MCS takes the FPC offline and informs the Routing Engine. Other FPCs are unaffected, and system operation continues. SONET/SDH clock source The MCS generates a MHz SONET/SDH clock signal, along with a signal that indicates which MCS is the master SONET/SDH clock generator (SCG) (if two MCSs are installed). Clock monitoring The MCS monitors several clocks to verify that they are providing the expected signal: the PCG system clock, its own SONET/SDH clock, and external SONET/SDH reference clocks if available. It generates an alarm if a clock signal is incorrect. Each MCS (shown in Figure 7) has the following components: PCI interface Connects the MCS to the Routing Engine. 100-Mbps Ethernet switch Carries signals and monitoring data between router components MHz stratum 3 reference clock Generates clock signal for SONET/SDH PICs. I 2 C controller Monitors the status of router components. Three LEDs Indicate MCS status. There is a blue one labeled MASTER, a green one labeled OK, and an amber one labeled FAIL. Table 1 describes the LED states. Offline button Prepares the MCS for removal from the router when pressed. Extractor clips Control the locking system that secures the MCS in the chassis. 9

10 Routing Engine Description 10 Figure 7: Miscellaneous Control Subsystem Table 1: States for MCS LEDs Extractor clip Host Subsystem Components on a T320 Router and a T640 Routing Node Offline button The host subsystem provides the routing and system management functions of the routing platform. The host subsystem consists of the following components: Routing Engine Control Board (CB) LEDs Extractor clip Label Color State Description MASTER Blue On steadily MCS is master. OK Green On steadily MCS is functioning normally. Blinking MCS is starting up. FAIL Amber On steadily MCS has failed. You can install one or two host subsystems on the routing node or router. Each host subsystem functions as a unit; the Routing Engine requires the corresponding CB to operate, and vice-versa. If the adjacent component is not present, the Routing Engine or CB will not function. Each host subsystem has three LEDs, located on the upper right of the craft interface, which indicate its status. The LEDs labeled HOST0 show the status of the Routing Engine in slot RE0 and the CB in slot CB0. The LEDs labeled HOST1 show the status of the Routing Engine in slot RE1 and the CB in slot CB1. Table 2 describes the functions of the host subsystem LEDs. Figure 8 shows the rear view of a T320 router. Figure 9 shows the rear view of a T640 routing node. 1178

11 Routing Engine Description Figure 8: Rear View of T320 Router Chassis Fan tray Air exhaust CB0 Routing Engines CB1 SCGs SIBs Air filter Power supply PEM 0 Power supply PEM 1 ESD point Grounding points

12 Routing Engine Description 12 Figure 9: Rear View of T640 Routing Node Chassis

13 Routing Engine Description Table 2: Host Subsystem LEDs Control Board (CB) Description Figure 10: CB CB Components Label Color State Description OK Green On steadily Host is online and is functioning normally. FAIL Red On steadily Host is offline. MASTER Green On steadily Host is functioning as master. Each Control Board (CB) works with an adjacent Routing Engine to provide control and monitoring functions for the routing platform (see Figure 10). These include determining Routing Engine mastership, controlling power, reset and SONET clocking for the other routing components, monitoring and controlling fan speed, and monitoring system status using I 2 C controllers. You can install one or two CBs in the routing platform. The CBs install into the upper rear of the chassis in the slots labeled CBO and CB1. If two CBs are installed, one functions as master and the other acts as backup. If the master CB fails or is removed, the backup restarts and becomes master. The CBs are hot-pluggable. Each CB requires a Routing Engine to be installed in the adjacent slot. CB0 installs above RE0, and CB1 installs below RE1. A CB does not function if no Routing Engine is present in the adjacent slot. Each CB consists of the following components: 100-MB Ethernet switch for intermodule communication. PCI bus to the Routing Engines. Processor subsystem (SPMB). 13

14 Replace the Routing Engine on an M5 or M10 Router 14 Table 3: CB LEDs Three LEDs, located on the CB faceplate, indicate the status of the CB. Table 3 describes the functions of the CB LEDs. CB online/offline button, located on the CB faceplate. The online/offline button on the CB is currently non-functional. Label Color State Description OK Green On steadily CB is online and is functioning normally. FAIL Amber On steadily CB has failed. MASTER Blue On steadily CB is functioning as master. Replace the Routing Engine on an M5 or M10 Router On an M5 or M10 router, the Routing Engine is attached to the Forwarding Engine Board (FEB) located on the rear of the chassis, as shown in Figure 2. The Routing Engine weighs approximately 1.5 lb (0.7 kg). You must power down the router before removing the Routing Engine. To replace the Routing Engine, perform the following procedures: Remove the Routing Engine from an M5 or M10 Router on page 14 Install the Routing Engine in an M5 or M10 Router on page 15 Remove the Routing Engine from an M5 or M10 Router To remove the Routing Engine from an M5 or M10 router, follow this procedure (see Figure 11): 1. Place an electrostatic bag or antistatic mat on a flat, stable surface to receive the Routing Engine. 2. Attach an ESD strap to your bare wrist and connect the strap to one of the ESD points on the chassis. 3. On the console or other management device connected to the Routing Engine, enter CLI operational mode and issue the following command. The command shuts down the Routing Engine cleanly, so that its state information is preserved: user@host> request system halt Wait to continue until a message appears on the console confirming that the operating system has halted.

15 Replace the Routing Engine on an M5 or M10 Router 4. Flip the power switch on the power supply faceplate to the OFF (O) position. 5. Using a Phillips screwdriver, unscrew the five screws holding the Routing Engine cover in place, and remove the cover. 6. Using a Phillips screwdriver, loosen the screws on the extractor clips at either end of the Routing Engine faceplate. 7. Flip the ends of the extractor clips outward. 8. Grasp the extractor clips and slide the unit about halfway out of the chassis. 9. Place one hand under the Routing Engine to support it, slide it completely out of the chassis, and place it on the antistatic mat or in the electrostatic bag prepared in Step 1. Figure 11: Remove the Routing Engine from an M5 or M10 Router Install the Routing Engine in an M5 or M10 Router Be careful to slide the Routing Engine straight out of the chassis. Damage can result if it gets lodged because of uneven movement. Extractor clip To install a Routing Engine in an M5 or M10 router, follow this procedure (see Figure 12): 1. Attach an ESD wrist strap to your bare wrist and connect the wrist strap to one of the ESD points on the chassis. 2. Place one hand under the Routing Engine to support it and grasp one of the extractor clips on the faceplate with the other hand

16 Replace the Routing Engine on an M5 or M10 Router Align the rear of the Routing Engine with the guide rails inside the chassis and slide it in completely. 4. Press the extractor clips inward (see Figure 12). 5. Using a Phillips screwdriver, tighten the screws on the extractor clips. Be sure to tighten the screws enough to seat the Routing Engine properly. 6. Press the rear cover into place over the FEB and the Routing Engine, and screw in the five screws to hold it in place. 7. Flip the power switch on the power supply faceplate to the ON ( ) position. 8. After the router boots, verify that neither of the alarm LEDs on the craft interface is lit. If an LED is lit, contact your customer service representative for assistance. You can also issue the following CLI command to verify correct Routing Engine functioning: user@host> show chassis routing-engine Figure 12: Install a Routing Engine in an M5 or M10 Router Be careful to align the Routing Engine correctly with the guide rails and push it in evenly. Damage can result if it gets lodged because of uneven movement. For further information, see the JUNOS Internet Software Operational Mode Command Reference. Extractor clip 1313

17 Replace the Routing Engine on an M20 Router Replace the Routing Engine on an M20 Router On an M20 router, one or two Routing Engines install into the midplane from the rear of the chassis, as shown in Figure 3. Each Routing Engine weighs approximately 1.5 lb (0.7 kg). The Routing Engines are hot-pluggable. For a description of the effect of removing a Routing Engine, see Routing Engines and Routing Engine Panel on the M20 Router on page 5. To replace a Routing Engine, perform the following procedures: Switch Routing Engine Mastership on an M20 Router on page 17 Remove a Routing Engine from an M20 Router on page 18 Install a Routing Engine in an M20 Router on page 19 Switch Routing Engine Mastership on an M20 Router On an M20 router with two Routing Engines installed, you should determine whether the Routing Engine you are removing is the master. If it is, switch mastership to the other Routing Engine before removing the current master. To check and switch mastership, follow this procedure: 1. Use one of the following two methods to determine which Routing Engine is functioning as master: Note which of the Routing Engine MASTER LEDs is lit on the craft interface or Routing Engine panel. Issue the following CLI command: user@host> show chassis routing-engine 2. If you are removing the master Routing Engine, issue the following CLI command to switch mastership to the standby Routing Engine: user@host> request chassis routing-engine master switch Packet forwarding halts while the standby Routing Engine becomes the master and resets the Packet Forwarding Engine. Router performance might change if the standby Routing Engine s configuration differs from the former master s configuration. For the most predictable performance, configure the two Routing Engines identically. 17

18 Replace the Routing Engine on an M20 Router 18 Remove a Routing Engine from an M20 Router To remove a Routing Engine from an M20 router, follow this procedure: 1. Place an electrostatic bag or antistatic mat on a flat, stable surface to receive the Routing Engine. 2. Attach an ESD strap to your bare wrist and connect the strap to one of the ESD points on the chassis. 3. If two Routing Engines are installed, check whether the Routing Engine you are removing is the master. If so, switch mastership to the standby Routing Engine. For instructions, see Switch Routing Engine Mastership on an M20 Router on page There are two options for requesting the system halt on the M20 router: a. Press the square RE0 or RE1 button to the right of the routing engine. This shuts down the Routing Engine cleanly, so that its state information is preserved. b. On the console or other management device connected to the Routing Engine, enter CLI operational mode and issue the following command. The command shuts down the Routing Engine cleanly, so that its state information is preserved: user@host> request system halt Wait to continue until a message appears on the console confirming that the operating system has halted. 5. Using a Phillips screwdriver, loosen the screws on the extractor clips at either end of the Routing Engine faceplate (see Figure 13). 6. Flip the ends of the extractor clips outward. 7. Grasp the extractor clips and slide the unit about halfway out of the chassis. Be careful to slide the Routing Engine straight out of the chassis. Damage can result if it gets lodged because of uneven movement. 8. Place one hand under the Routing Engine to support it, slide it completely out of the chassis, and place it on the antistatic mat or in the electrostatic bag prepared in Step 1.

19 Replace the Routing Engine on an M20 Router Figure 13: Remove a Routing Engine from an M20 Router Install a Routing Engine in an M20 Router To install a Routing Engine in an M20 router, follow this procedure (see Figure 14): 1. Attach an ESD wrist strap to your bare wrist and connect the wrist strap to one of the ESD points on the chassis. 2. Place one hand under the Routing Engine to support it and grasp one of the extractor clips on the faceplate with the other hand. 3. Align the rear of the Routing Engine with the guide rails inside the chassis and slide it in completely. 4. Press the extractor clips inward. Rear Routing Engine panel Routing Engine Extractor clip Be careful to align the Routing Engine correctly with the guide rails and push it in evenly. Damage can result if it gets lodged because of uneven movement

20 Replace the Routing Engine on an M40 Router Using a Phillips screwdriver, tighten the screws on the extractor clips. Be sure to tighten the screws enough to seat the Routing Engine properly. 6. Check the Routing Engine LEDs on the craft interface to verify that the appropriate green LED labeled ONLINE is lit. Figure 14: Install a Routing Engine in an M20 Router You can also issue the following CLI command to verify correct Routing Engine functioning: user@host> show chassis routing-engine <slot> For further information, see the JUNOS Internet Software Operational Mode Command Reference. Replace the Routing Engine on an M40 Router Rear Routing Engine panel Routing Engine Extractor clip On the M40 router, one Routing Engine installs into the housing that is accessible from the rear of the chassis as shown in Figure 5. The Routing Engine weighs approximately 1.5 lb (0.7 kg). The Routing Engine is hot-pluggable. To replace it, perform the following procedures: Remove the Routing Engine Housing from an M40 Router on page 21 Remove the Routing Engine from the Housing on an M40 Router on page 22 Install the Routing Engine in the Housing on an M40 Router on page 23 Install the Routing Engine Housing in an M40 Router on page

21 Replace the Routing Engine on an M40 Router Remove the Routing Engine Housing from an M40 Router The Routing Engine resides in a metal housing in the rear of the chassis, below the fans. To replace the Routing Engine, you must first remove the Routing Engine housing. Follow this procedure (see Figure 15): 1. On the console or other management device connected to the Routing Engine, enter CLI operational mode and issue the following command. The command shuts down the Routing Engine cleanly, so that its state information is preserved: user@host> request system halt Wait to continue until a message appears on the console confirming that the operating system has halted. 2. Attach an ESD wrist strap to your bare wrist and connect the wrist strap to one of the ESD points on the chassis. 3. Unscrew the thumbscrews along the left and right edges of the Routing Engine housing (three on each side). 4. Grasp the handles located at either side of the Routing Engine housing, and slide the unit about halfway out of the chassis. 5. Move one hand underneath the housing to support it, and slide it completely out of the chassis. Figure 15: Remove the Routing Engine Housing from an M40 Router 21

22 Replace the Routing Engine on an M40 Router 22 Remove the Routing Engine from the Housing on an M40 Router To remove the Routing Engine from the housing on an M40 router, follow this procedure: 1. Place an electrostatic bag or antistatic mat on a flat, stable surface to receive the Routing Engine. 2. Attach an ESD strap to your bare wrist and connect the strap to one of the ESD points on the chassis. 3. Locate the Routing Engine inside the Routing Engine housing, using Figure 16 as a guide. 4. Using a Phillips screwdriver, loosen the screws on the extractor clips at either end of the Routing Engine faceplate. 5. Flip the ends of the extractor clips outward. 6. Grasp the extractor clips and slide the unit about halfway out of the housing. Be careful to slide the Routing Engine straight out of the slot in the housing. Damage can result if it gets lodged because of uneven movement. 7. Place one hand under the Routing Engine to support it, slide it completely out of the chassis, and place it on the antistatic mat or in the electrostatic bag prepared in Step 1.

23 Replace the Routing Engine on an M40 Router Figure 16: Remove the Routing Engine from Its Housing on an M40 Router RST IDE JUNOS PC CARD LABEL THIS WAY PC CARD Install the Routing Engine in the Housing on an M40 Router To install the Routing Engine into the Routing Engine housing on an M40 router, follow this procedure: 1. Attach an ESD wrist strap to your bare wrist and connect the wrist strap to one of the ESD points on the chassis. 2. Place one hand under the Routing Engine to support it and grasp one of the extractor clips on the faceplate with the other hand. 3. Align the rear of the Routing Engine with the edges of the slot in the Routing Engine housing and slide it in completely. Figure 16 shows the position of the Routing Engine slot in the housing Be careful to align the Routing Engine correctly and push it in evenly. Damage can result if it gets lodged in the slot because of uneven movement. 23

24 Replace the Routing Engine on an M40 Router Press the extractor clips inward. 5. Using a Phillips screwdriver, tighten the screws on the extractor clips. Be sure to tighten the screws enough to seat the Routing Engine properly. Install the Routing Engine Housing in an M40 Router To reinstall the Routing Engine housing into the rear of the M40 chassis, follow this procedure (see Figure 17): 1. Attach an ESD wrist strap to your bare wrist and connect the wrist strap to one of the ESD points on the chassis. 2. Place one hand underneath the housing to support it and grasp one of the handles on the front of the unit with the other hand. 3. Align the rear of the unit with the slide guides inside the chassis. 4. Slide the unit completely into the chassis. 5. Tighten the six thumbscrews at the left and right edges of the Routing Engine housing. 6. Verify that the green Routing Engine LED labeled OK on the craft interface is lit. You can also issue the following CLI command to verify correct Routing Engine functioning: user@host> show chassis routing-engine For further information, see the JUNOS Internet Software Operational Mode Command Reference. Figure 17: Reinstall the Routing Engine Housing in an M40 Router 1055

25 Replace the Host Module Components on an M40e or M160 Router Replace the Host Module Components on an M40e or M160 Router On an M40e or M160 router, one or two host modules install into the midplane from the rear of the chassis, as shown in Figure 6. Each host module consists of a paired Routing Engine and MCS installed in adjacent slots (labeled MCS0 and RE0 or RE1 and MCS1 from top to bottom). The host module components are hot-pluggable. For a description of the effect of removing one or both components, see Host Module Components on the M40e and M160 Routers on page 7. To replace a host module component, use the procedures in the following sections: Switch Host Module Mastership on an M40e or M160 Router on page 25 Replace a Routing Engine on an M40e or M160 Router on page 26 Replace an MCS on an M40e or M160 Router on page 29 Switch Host Module Mastership on an M40e or M160 Router On an M40e or M160 router with two host modules installed, you should determine whether the component you are removing belongs to the master host module. If it does, switch mastership to the other host module before removing the component. To check and switch host module mastership, follow this procedure: 1. Use one of the following two methods to determine which host module is functioning as master: Note which of the green host module MASTER LEDs is lit on the craft interface. Issue the following CLI command: user@host> show chassis routing-engine 2. If you are removing a component that belongs to the master host module, issue the following CLI command to switch mastership to the standby host module: user@host> request chassis routing-engine master switch Packet forwarding halts while the standby host module becomes the master and the new master Routing Engine resets the Packet Forwarding Engine. Router performance might change if the standby Routing Engine s configuration differs from the former master s configuration. For the most predictable performance, configure the two Routing Engines identically. 25

26 Replace the Host Module Components on an M40e or M160 Router 26 Replace a Routing Engine on an M40e or M160 Router The router can have a Routing Engine in each of the slots labeled RE0 and RE1 at the rear of the chassis, as shown in Figure 6. Each Routing Engine weighs approximately 1.5 lb (0.7 kg). The Routing Engines are hot-pluggable. For a description of the effect of removing a Routing Engine, see Host Module Components on the M40e and M160 Routers on page 7. To replace a Routing Engine, perform the following procedures: Remove a Routing Engine from an M40e or M160 Router on page 26 Install a Routing Engine in an M40e or M160 Router on page 27 Remove a Routing Engine from an M40e or M160 Router To remove a Routing Engine from an M40e or M160 router, follow this procedure: 1. Place an electrostatic bag or antistatic mat on a flat, stable surface to receive the Routing Engine. 2. Attach an ESD strap to your bare wrist and connect the strap to one of the ESD points on the chassis. 3. Remove the rear component cover by loosening the thumbscrews at the corners of the cover and pulling it straight off of the chassis. 4. If two host modules are installed, check whether the Routing Engine you are removing belongs to the master host module. If so, switch mastership to the standby host module. For instructions, see Switch Host Module Mastership on an M40e or M160 Router on page On the console or other management device connected to the Routing Engine that you are removing, enter CLI operational mode and issue the following command. The command shuts down the Routing Engine cleanly, so that its state information is preserved: user@host> request system halt Wait to continue until a message appears on the console confirming that the operating system has halted. 6. Using a Phillips screwdriver, loosen the screws on the extractor clips on either side of the Routing Engine faceplate (see Figure 18). 7. Flip the ends of the extractor clips outward.

27 Replace the Host Module Components on an M40e or M160 Router 8. Grasp the extractor clips and slide the unit about halfway out of the chassis. 9. Place one hand under the Routing Engine to support it, slide it completely out of the chassis, and place it on the antistatic mat or in the electrostatic bag prepared in Step 1. Figure 18: Remove a Routing Engine from an M40e or M160 Router Install a Routing Engine in an M40e or M160 Router SFM 0 SFM 1 MCS 0 RE 0 RE 1 Be careful to slide the Routing Engine straight out of the chassis. Damage can result if it gets lodged because of uneven movement. To install a Routing Engine in an M40e or M160 router, follow this procedure: 1. Attach an ESD strap to your bare wrist and connect the strap to one of the ESD points on the chassis. 2. Place one hand under the Routing Engine to support it and grasp one of the extractor clips on the faceplate with the other hand. PCG 0 PCG 1 Extractor clip

28 Replace the Host Module Components on an M40e or M160 Router Align the rear of the Routing Engine with the guide rails inside the chassis and slide it in completely. See Figure Press the extractor clips on the left and right sides of the Routing Engine inward. 5. Using a Phillips screwdriver, tighten the screws on the extractor clips. Be sure to tighten the screws enough to seat the Routing Engine properly. 6. Check the host module LEDs on the craft interface to verify that the green LED labeled ONLINE is lit for the host module to which the Routing Engine belongs. You can also issue the following CLI command to verify correct Routing Engine functioning: user@host> show chassis routing-engine For further information, see the JUNOS Internet Software Operational Mode Command Reference. 7. Reinstall the rear component cover and tighten the thumbscrews at the corners to secure it to the chassis. Figure 19: Install a Routing Engine in an M40e or M160 Router SFM 0 SFM 1 MCS 0 RE 0 RE 1 Be careful to align the Routing Engine correctly with the guide rails and push it in evenly. Damage can result if it gets lodged because of uneven movement. PCG 0 PCG 1 Extractor clip 1951

29 Replace the Host Module Components on an M40e or M160 Router Replace an MCS on an M40e or M160 Router The router can have an MCS in each of the slots labeled MCS0 and MCS1 at the rear of the chassis, as shown in Figure 6. Each MCS weighs approximately 2.5 lb (1 kg). The MCSs are hot-pluggable. For a description of the effect of removing an MCS, see Host Module Components on the M40e and M160 Routers on page 7. To replace an MCS, perform the following procedures: Remove an MCS from an M40e or M160 Router on page 29 Install an MCS in an M40e or M160 Router on page 30 Remove an MCS from an M40e or M160 Router To remove an MCS from an M40e or M160 router, follow this procedure: 1. Place an electrostatic bag or antistatic mat on a flat, stable surface to receive the MCS. 2. Attach an ESD strap to your bare wrist and connect the strap to one of the ESD points on the chassis. 3. Remove the rear component cover by loosening the thumbscrews at the corners of the cover and pulling it straight off of the chassis. 4. If two host modules are installed, check whether the MCS you are removing belongs to the master host module. If so, switch mastership to the standby host module. For instructions, see Switch Host Module Mastership on an M40e or M160 Router on page On the console or other management device connected to the Routing Engine that is paired with the MCS you are removing, enter CLI operational mode and issue the following command. The command shuts down the Routing Engine cleanly, so its state information is preserved: user@host> request system halt Wait to continue until a message appears on the console confirming that the operating system has halted. 6. Flip the ends of the extractor clips outward, as shown in Figure Grasp the extractor clips and slide the unit about halfway out of the chassis. 8. Place one hand under the MCS to support it, slide it completely out of the chassis, and place it on the antistatic mat or in the electrostatic bag prepared in Step 1. 29

30 Replace the Host Module Components on an M40e or M160 Router 30 Figure 20: Remove an MCS from an M40e or M160 Router SFM 0 SFM 1 MCS 0 Install an MCS in an M40e or M160 Router RE 0 RE 1 MCS 1 SFM 2 To install an MCS in an M40e or M160 router, follow this procedure: 1. Attach an ESD strap to your bare wrist and connect the strap to one of the ESD points on the chassis. 2. Place one hand under the MCS to support it and grasp one of the extractor clips on the faceplate with the other hand. 3. Align the rear of the MCS with the guides inside the chassis and slide it in completely (see Figure 21). 4. Press the extractor clips on the left and right sides of the MCS inward. PCG 0 PCG 1 5. Verify that the green LED labeled OK on the MCS faceplate is lit. Also check the host module LEDs on the craft interface to verify that the green LED labeled ONLINE is lit for the host module to which the MCS belongs. You can also issue the following CLI command to verify correct Routing Engine functioning: user@host> show chassis environment mcs Extractor clip For further information, see the JUNOS Internet Software Operational Mode Command Reference. 6. Reinstall the rear component cover and tighten the thumbscrews at the corners to secure it to the chassis. 1928

31 Replace the Host Subsystem on a T320 Router or a T640 Routing Node Figure 21: Install an MCS in an M40e or M160 Router SFM 0 SFM 1 MSC 0 RE 0 RE 1 MSC 1 SFM 2 SFM 3 Replace the Host Subsystem on a T320 Router or a T640 Routing Node On a T320 or T640 routing platform, one or two host subsystems install in the chassis. Each host subsystem consists of a paired Routing Engine and CB installed in adjacent slots (labeled HOST0 and RE0 or HOST1 and RE1 from top to bottom). The host subsystem components are hot-pluggable. For a description of the effect of removing one or both components, see Host Subsystem Components on a T320 Router and a T640 Routing Node on page 10. To replace host subsystem components, use the procedures in the following sections: Take the Host Subsystem Offline on a T320 Router or T640 Routing Node on page 31 Replace a Routing Engine on a T320 Router or T640 Routing Node on page 32 Replace a CB on a T320 Router or T640 Routing Node on page 36 Take the Host Subsystem Offline on a T320 Router or T640 Routing Node PCG 0 PCG 1 Extractor clip The host subsystem is taken offline and brought online as a unit. Before you replace a Routing Engine or a CB, you take the host subsystem offline. The host subsystem is hot-pluggable. Normally, if two host subsystems are installed in the chassis, HOST0 functions as the master and HOST1 functions as the backup. You can remove the backup host subsystem (or either of its components) without interrupting the functioning of the platform. If you take the master host subsystem offline, the platform reboots and the backup host subsystem becomes master. If the platform has only one host subsystem, taking the host subsystem offline causes the platform to shut down

32 Replace the Host Subsystem on a T320 Router or a T640 Routing Node 32 To take a host subsystem offline, follow this procedure: 1. Determine whether the host subsystem is functioning as master or as backup, using one of the two following methods: Check the host subsystem LEDs on the craft interface. If the green MASTER LED is lit, the corresponding host subsystem is functioning as master. Display which host subsystem is functioning as master, using the following CLI command: user@host> show chassis routing-engine 2. If the host subsystem is functioning as master, switch it to backup, using the following CLI command: user@host> request chassis routing-engine master switch When you switch the host subsystem from master to backup, the functioning of the platform is interrupted for up to several minutes as the system reboots and the new master host subsystem downloads software to the SIBs. Replace a Routing Engine on a T320 Router or T640 Routing Node The chassis can have one or two Routing Engines. They are located in the upper rear of the chassis in the slots marked RE0 and RE1. Each Routing Engine weighs approximately 1.9 lb (0.9 kg). To replace a Routing Engine, use the following procedures: Remove a Routing Engine from a T320 Router or T640 Routing Node on page 32 Install a Replacement Routing Engine on page 34 Verify That the Routing Engine is Installed Correctly on page 35 Remove a Routing Engine from a T320 Router or T640 Routing Node To remove a Routing Engine, follow this procedure (see Figure 23): 1. Have ready an antistatic mat, placed on a flat, stable surface. 2. Attach an ESD wrist strap to your bare wrist, and connect the wrist strap to one of the ESD points on the chassis. 3. Check whether the Routing Engine is functioning as backup or as master. If necessary, take the host subsystem offline. 4. Loosen the captive screws on the corners of the Routing Engine cover. 5. Grasping the Routing Engine cover by its edges, pull it free from the chassis (see Figure 22).

33 33 Replace the Host Subsystem on a T320 Router or a T640 Routing Node Figure 22: Remove the Routing Engine Cover 6. Press the red tabs on the extractor clips on both sides of the Routing Engine faceplate. 7. Flip the extractor clips outwards to unseat the Routing Engine. 8. Grasping the Routing Engine by the extractor clips, slide it about halfway out of the chassis. 9. Move one of your hands underneath the Routing Engine to support it and slide it completely out of the chassis. Figure 23: Remove a Routing Engine

34 Replace the Host Subsystem on a T320 Router or a T640 Routing Node 34 Install a Replacement Routing Engine Figure 24: Install a Replacement Routing Engine To install a replacement Routing Engine, follow this procedure (see Figure 24): 1. Attach an ESD wrist strap to your bare wrist, and connect the wrist strap to one of the ESD points on the chassis. 2. Remove the replacement Routing Engine from its electrostatic bag. 3. Hold the Routing Engine by placing one hand underneath to support it and with the other hand grasp one of the extractor clips on the faceplate. 4. Carefully align the sides of the Routing Engine with the guides inside the chassis. 5. Slide the Routing Engine into the chassis until you feel resistance, then press the Routing Engine by its faceplate until it engages the midplane connectors. 6. Press both the extractor clips inwards to seat the Routing Engine. 7. Press the Routing Engine cover into place, then tighten the captive screws on the corners of the cover to secure it to the chassis (see Figure 25).

35 Replace the Host Subsystem on a T320 Router or a T640 Routing Node Figure 25: Reinstall the Routing Engine Cover Verify That the Routing Engine is Installed Correctly To verify that the Routing Engine is installed correctly, check the HOST LEDs on the craft interface as soon as you have installed the Routing Engine. If the system is operational and the Routing Engine is functioning properly, the green OK LED is on. If the red FAIL LED is on instead, the Routing Engine is not functioning properly. Contact your customer support representative if the Routing Engine is not functioning properly. To check the status of the Routing Engine, use the CLI command: user@host> show chassis routing-engine For more information about using the CLI, see the JUNOS Internet software manuals. 35

36 Replace the Host Subsystem on a T320 Router or a T640 Routing Node 36 Replace a CB on a T320 Router or T640 Routing Node Remove a CB Figure 26: Remove a CB The CBs are hot-pluggable. To replace a CB, use the following procedures: Remove a CB on page 36 Install a Replacement CB on page 37 Verify That the CB Is Installed Correctly on page 37 The router can have one or two CBs. They are located in the upper rear of the chassis in the slots marked CB0 and CB1. Each CB weighs approximately 5 lb (2.3 kg). To remove a CB, follow this procedure (see Figure 26): 1. Have ready an antistatic mat, placed on a flat, stable surface. 2. Attach an ESD wrist strap to your bare wrist, and connect the wrist strap to one of the ESD points on the chassis. 3. Check whether the CB is functioning as backup or as master. If necessary, take the host subsystem offline as described in Replace the Host Subsystem on a T320 Router or a T640 Routing Node on page Loosen the captive screws on the ejector handles on both sides of the CB faceplate. 5. Flip the ejector handles outwards to unseat the CB. 6. Grasp the ejector handles and slide the CB about halfway out of the chassis. 7. Move one of your hands underneath the CB to support it, and slide it completely out of the chassis. 2019

37 Replace the Host Subsystem on a T320 Router or a T640 Routing Node Install a Replacement CB Figure 27: Install a Replacement CB To install a replacement CB, follow this procedure (see Figure 27): 1. Attach an ESD wrist strap to your bare wrist, and connect the wrist strap to one of the ESD points on the chassis. 2. Remove the replacement CB from its electrostatic bag. 3. Carefully align the sides of the CB with the guides inside the chassis. 4. Slide the CB all the way into the chassis. Verify That the CB Is Installed Correctly 5. Grasp both ejector handles and press them inwards to seat the CB. 6. Tighten the captive screws on the ejector handles. 7. To bring the CB online, press the online/offline button until the green ONLINE LED lights. To verify that the CB is functioning normally, check the LEDs on its faceplate. The green ONLINE LED should light steadily. To check the status of the CB, use the following CLI command: user@host> show chassis environment cb 37

38 Contact Juniper Networks 38 Contact Juniper Networks For technical support, contact Juniper Networks at If you are reporting a software problem, please issue the following command from the CLI before contacting support: user@host> request support information save filename For documentation issues, contact Juniper Networks at tech-doc@juniper.net. At the request of the Juniper Networks Technical Assistance Center, you might be asked provide a core file to Juniper Networks for analysis. To create the core file: gzip the file, rename the file to include your company name, copy it to ftp.juniper.net:pub/incoming, and then send the filename, along with software version information (the output of the show version command) and the configuration, to support@juniper.net. Juniper Networks is registered in the U.S. Patent and Trademark Office and in other countries as a trademark of Juniper Networks, Inc. Broadband Cable Processor, ERX, ESP, G10, Internet Processor, JUNOS, JUNOScript, M5, M10, M20, M40, M40e, M160, MRX, M-series, NMC-RX, SDX, ServiceGuard, T320, T640, T-series, UMC, and Unison are trademarks of Juniper Networks, Inc. All other trademarks, service marks, registered trademarks, or registered service marks are the property of their respective owners.

M-series and T-series Routing Engine and MCS Installation Instructions

M-series and T-series Routing Engine and MCS Installation Instructions M-series and T-series Routing Engine and MCS Installation Instructions 9 January 2006 Part No: 530-012980-01 Revision 2 This document describes how to remove and replace a Routing Engine on a Juniper Networks

More information

M-series, MX-series, and T-series Routing Engine and MCS Installation Instructions

M-series, MX-series, and T-series Routing Engine and MCS Installation Instructions M-series, MX-series, and T-series Routing Engine and MCS Installation Instructions 7 November 2008 Part Number: 530-023242-01 Revision 2 This document describes how to remove and replace a Routing Engine

More information

Switch Interface Board (SIB) Installation Instructions

Switch Interface Board (SIB) Installation Instructions Part No. 530-008050-01 Revision 1 8 July 2002 SIB Description This document describes how to remove and replace a Switch Interface Board (SIB) on a Juniper Networks T320 Internet router. For additional

More information

M40e and M160 CIP Installation Instructions

M40e and M160 CIP Installation Instructions Part No. 530-005365-01 Revision 2 23 January 2002 CIP Description This document describes how to remove and replace the Connector Interface Panel (CIP) on a Juniper Networks M40e Internet router or M160

More information

SDRAM Installation Instructions

SDRAM Installation Instructions 25 May 2005 Part No: 530-013694-01 Revision 2 This document describes how to remove and install a new DIMM module in a Juniper Networks Routing Engine. Contents Routing Engine Description... 2 Routing

More information

SRX 5600 and SRX 5800 Services Gateway Routing Engine Installation Instructions

SRX 5600 and SRX 5800 Services Gateway Routing Engine Installation Instructions SRX 5600 and SRX 5800 Services Gateway Routing Engine Installation Instructions August 2008 Part Number: 530-023532-01 Revision 02 This document describes how to remove and replace a routing engine (SCB)

More information

Removing Components from the MX480 Chassis Before Installing It Without a Lift

Removing Components from the MX480 Chassis Before Installing It Without a Lift Removing Components from the MX480 Chassis Before Installing It Without a Lift If you cannot use a mechanical lift to install the router (the preferred method), you can install it manually. To make the

More information

M5 and M10 Routers Power Supply and Power Cord Component Replacement Instructions

M5 and M10 Routers Power Supply and Power Cord Component Replacement Instructions M5 and M10 Routers Power Supply and Power Cord Component Replacement Instructions Part No. 530-003244-01 Revision 1 27 July 2000 This document describes how to remove and replace the AC and DC power supplies,

More information

Removing Components from the MX960 Chassis Before Installing It Without a Lift

Removing Components from the MX960 Chassis Before Installing It Without a Lift Removing Components from the MX6 Chassis Before Installing It Without a Lift If you cannot use a mechanical lift to install the router (the preferred method), you can install it manually. Before installing

More information

PIC and Transceiver Installation Instructions

PIC and Transceiver Installation Instructions PIC and Transceiver Installation Instructions 28 January 2008 Part Number: 530-017281-01 Revision 5 This document describes how to remove and replace Physical Interface Cards (PICs) and transceivers in

More information

M160 Internet Router Release Notes

M160 Internet Router Release Notes 25 May 2004 Part No: 530 001337 01 Revision 2 These release notes accompany the release of the Juniper Networks M160 Internet router. They describe the documentation for the router and known issues with

More information

Quick Start. M160 Internet Router. Juniper Networks, Inc North Mathilda Avenue Sunnyvale, CA USA

Quick Start. M160 Internet Router. Juniper Networks, Inc North Mathilda Avenue Sunnyvale, CA USA M160 Internet Router Quick Start Juniper Networks, Inc. 1194 North Mathilda Avenue Sunnyvale, CA 94089 USA 408-745-2000 www.juniper.net Part Number: 530-012435-01, Revision 2 This Quick Start contains

More information

Maintaining the ERX System

Maintaining the ERX System 7 This chapter describes the procedures that you must perform to maintain the ERX system and its components. Other maintenance procedures must be performed by an authorized Juniper Networks technician.

More information

Maintaining E-Series Routers

Maintaining E-Series Routers Maintaining E-Series Routers 9 This chapter lists the tools, items, and steps needed for installing and uninstalling E-series components. Other maintenance procedures must be performed by an authorized

More information

IDENTIFICATION OF VOLATILE AND NON-VOLATILE STORAGE AND SANITIZATION OF SYSTEM COMPONENTS JUNIPER NETWORKS SRX SERIES SERVICES GATEWAY SRX650

IDENTIFICATION OF VOLATILE AND NON-VOLATILE STORAGE AND SANITIZATION OF SYSTEM COMPONENTS JUNIPER NETWORKS SRX SERIES SERVICES GATEWAY SRX650 UNCLASSIFIED IDENTIFICATION OF VOLATILE AND NON-VOLATILE STORAGE AND SANITIZATION OF SYSTEM COMPONENTS JUNIPER NETWORKS SRX SERIES SERVICES GATEWAY SRX650 REVISION 1.0 May 12, 2011 UNCLASSIFIED TABLE OF

More information

Conversion Instructions for SSG 300M-series Security Devices and J-series Services Routers

Conversion Instructions for SSG 300M-series Security Devices and J-series Services Routers Conversion Instructions for SSG 300M-series Security Devices and J-series Services Routers Follow these instructions to convert an SSG 300M-series security device to a J-series Services Router by changing

More information

Maintaining the ERX System

Maintaining the ERX System Maintaining the ERX System 7 This chapter describes the procedures that you must complete to maintain the ERX system and its components. Other maintenance procedures must be performed by an authorized

More information

SRP Field Upgrade Installation Instructions

SRP Field Upgrade Installation Instructions SRP Field Upgrade Installation Instructions 03 November 2004 Part No: 162-00982-00 Revision A01 This document describes installation procedures for upgrading switch route processor (SRP) modules, I/O modules,

More information

Maintaining the Cisco Catalyst 5500 Multiswitch Router

Maintaining the Cisco Catalyst 5500 Multiswitch Router 7 CHAPTER Maintaining the Cisco Catalyst 5500 Multiswitch Router Revised: December 3, 2009, This chapter contains recommended hardware maintenance procedures for the Cisco Catalyst 5500 Multiswitch Routers

More information

This section describes the software and hardware requirements for the module.

This section describes the software and hardware requirements for the module. CHAPTER 2 This chapter describes the requirements to support the Catalyst 6500 series and Cisco 7600 series and Catalyst 6000 family NAM, and how to install and remove the NAM, and includes these sections:

More information

SRX 5600 Services Gateway DC Power Supply Installation Instructions

SRX 5600 Services Gateway DC Power Supply Installation Instructions SRX 5600 Services Gateway DC Power Supply Installation Instructions August 2008 Part Number: 530-023496-01 Revision 01 This document describes how to remove and replace a DC power supply on a Juniper Networks

More information

Catalyst 6500 Series Wireless LAN Services Module Installation and Verification Note

Catalyst 6500 Series Wireless LAN Services Module Installation and Verification Note Catalyst 00 Series Wireless LAN Services Module Installation and Verification Product number: WS-SVC-WLAN--K This document provides installation procedures for the Catalyst 00 series Wireless LAN Services

More information

Installing the MWAM CHAPTER

Installing the MWAM CHAPTER CHAPTER This chapter provides information about installing the MWAM in a Catalyst 600/Cisco 7600 chassis and includes the following topics: Safety Recommendations, page -2, page - Verifying the Installation,

More information

Installing and Removing SDRAM and DRAM

Installing and Removing SDRAM and DRAM CHAPTER 4 This chapter explains how to remove and replace the main memory modules on the network processing engine or network services engine. For the location of the memory module you are replacing, find

More information

Replacement Instructions

Replacement Instructions apple Xserve Memory Replacement Instructions Follow the instructions in this sheet carefully. Failure to follow these instructions could damage your equipment and void its warranty. Note: Online instructions

More information

Installing the Cisco ADE 2130 and 2140 Series Appliance Hardware Options

Installing the Cisco ADE 2130 and 2140 Series Appliance Hardware Options CHAPTER 4 Installing the Cisco ADE 2130 and 2140 Series Appliance Hardware Options This chapter provides instructions for installing, replacing, and removing various hardware options in your Cisco ADE

More information

Conversion Instructions for SSG 500M-series Security Devices and J-series Services Routers

Conversion Instructions for SSG 500M-series Security Devices and J-series Services Routers Conversion Instructions for SSG 500M-series Security Devices and J-series Services Routers Follow these instructions to convert an SSG 500M-series security device to a J-series Services Router by changing

More information

Removing and Installing the ISA and the ISM

Removing and Installing the ISA and the ISM CHAPTER This chapter describes how to remove the ISA or ISM from supported platforms and also how to install a new or replacement ISA or ISM. This chapter contains the following sections: Handling the

More information

Quick Start. This document describes how to install the Juniper Networks PTX5000 Packet Transport

Quick Start. This document describes how to install the Juniper Networks PTX5000 Packet Transport PTX5000 Packet Transport Router Quick Start September 2017 Part Number: 530-066788 Revision 01 This document describes how to install the Juniper Networks PTX5000 Packet Transport Router. Contents Quick

More information

apple Service Source Xserve RAID 17 March Apple Computer, Inc. All rights reserved.

apple Service Source Xserve RAID 17 March Apple Computer, Inc. All rights reserved. apple Service Source Xserve RAID 17 March 2003 2003 Apple Computer, Inc. All rights reserved. apple Service Source Basics Xserve RAID 2003 Apple Computer, Inc. All rights reserved. Overview Xserve RAID

More information

apple Service Source Xserve RAID Xserve RAID and Xserve RAID (SFP) Updated: 25 May Apple Computer, Inc. All rights reserved.

apple Service Source Xserve RAID Xserve RAID and Xserve RAID (SFP) Updated: 25 May Apple Computer, Inc. All rights reserved. apple Service Source Xserve RAID Xserve RAID and Xserve RAID (SFP) Updated: 25 May 2004 2003 Apple Computer, Inc. All rights reserved. apple Service Source Basics Xserve RAID 2003 Apple Computer, Inc.

More information

QFX10008 Switch Quick Start Guide

QFX10008 Switch Quick Start Guide QFX10008 Switch Quick Start Guide January 2014 Part Number: 530-068237 Revision 01 This document describes how to install the Juniper Networks QFX10008 Switch Chassis. Contents Quick Start Description...............................................

More information

E320 Quick Start Guide

E320 Quick Start Guide E-series Routing Platforms E320 Quick Start Guide Release 7.0.x Juniper Networks, Inc. 1194 North Mathilda Avenue Sunnyvale, CA 94089 USA 408-745-2000 www.juniper.net Part Number: 162-01171-00, Revision

More information

J-series Services Router Crypto Accelerator Module Installation Instructions

J-series Services Router Crypto Accelerator Module Installation Instructions J-series Services Router Crypto Accelerator Module Installation Instructions 11 October 2006 Part No: 530-016661-01 Revision 1 This document describes how to remove and install a Crypto Accelerator module

More information

Installing Power Modules

Installing Power Modules This chapter contains the procedures for installing cards and modules into the chassis after the chassis has been installed into a rack. This chapter also describes how to connect cables to RSP, RP, alarm,

More information

IDENTIFICATION OF VOLATILE AND NON-VOLATILE STORAGE AND SANITIZATION OF SYSTEM COMPONENTS JUNIPER NETWORKS SRX-SERIES SRX210B

IDENTIFICATION OF VOLATILE AND NON-VOLATILE STORAGE AND SANITIZATION OF SYSTEM COMPONENTS JUNIPER NETWORKS SRX-SERIES SRX210B UNCLASSIFIED IDENTIFICATION OF VOLATILE AND NON-VOLATILE STORAGE AND SANITIZATION OF SYSTEM COMPONENTS JUNIPER NETWORKS SRX-SERIES SRX210B REVISION 1.0 February 11, 2010 UNCLASSIFIED TABLE OF CONTENTS

More information

Oracle <Insert Picture Here>

Oracle <Insert Picture Here> Slide 1 Oracle Slide 2 WZT-6509 version B Sun Fire Nehalem and Westmere Rack-Mount Server Installation and Replacement Welcome to the installation and replacement

More information

Storage/Control I/O Module

Storage/Control I/O Module CHAPTER 4 The performs two functions: to connect outside interfaces to the system controller and to house the hard disk drive. It plugs into the back of the VCO/4K system and provides the I/O interfaces

More information

Maintaining the Cisco Internet Router

Maintaining the Cisco Internet Router CHAPTER 5 Maintaining the Cisco 12404 Internet Router Overview This chapter contains safety at the field replaceable unit (FRU) level, removal and replacement instructions for FRUs and procedures to troubleshoot

More information

Replacing the RAID Battery Backup Unit Assembly on Series 3 FireSIGHT 3500 Defense Centers, Version 5.x

Replacing the RAID Battery Backup Unit Assembly on Series 3 FireSIGHT 3500 Defense Centers, Version 5.x Replacing the RAID Battery Backup Unit Assembly on Series 3 FireSIGHT 3500 Defense Centers, Version 5.x Last Updated: December 4, 2014 Use these instructions to replace the RAID battery backup unit (BBU)

More information

Managing Individual Components

Managing Individual Components CHAPTER 3 This chapter describes how to install the Field Replaceable Units (FRUs) in the Cisco SFS 7008P system. About the Field Replaceable Units The following Field Replaceable Units (FRUs) are a part

More information

Field Service Guide Supplement for the NS 7000/030

Field Service Guide Supplement for the NS 7000/030 AUSPEX Field Service Guide Supplement for the NS 7000/030 Copyright 1998, Auspex Systems, Inc. All rights reserved. Part number 850550. Important Notice The installation or replacement procedures in this

More information

Voice Feature Card. Overview CHAPTER

Voice Feature Card. Overview CHAPTER CHAPTER 6 This chapter describes the voice feature card and includes the following sections: Overview, page 6-1 Online Insertion and Removal of the, page 6-3 Replacing PVDM2 Modules in the, page 6-8 Getting

More information

Dell Inspiron XPS and Inspiron 9100 Service Manual

Dell Inspiron XPS and Inspiron 9100 Service Manual Dell Inspiron XPS and Inspiron 9100 Service Manual Dell Inspiron XPS and Inspiron 9100 Service Manual Before You Begin Memory Module, Mini PCI Card, and Devices System Components Subwoofer Bluetooth Card

More information

HP P6300/P6500 EVA Fibre Channel Controller Replacement Instructions

HP P6300/P6500 EVA Fibre Channel Controller Replacement Instructions HP P6300/P6500 EVA Fibre Channel Controller Replacement Instructions About this document For the latest documentation, go to http:// www.hp.com/support/manuals, and select your product. The information

More information

H3C SecPath M9000-S NSQM2MPUD0 main processing unit

H3C SecPath M9000-S NSQM2MPUD0 main processing unit H3C SecPath M9000-S NSQM2MPUD0 main processing unit 1 Identifier The module identifier NSQM2MPUD0 is at the upper right corner of the front panel. 2 The NSQM2MPUD0 MPU has a console port, a USB port, a

More information

Serial ATA Hot Swap Drive Cage Upgrade Kit for: Intel Server Chassis SC5200 Intel Server Chassis SC5250-E

Serial ATA Hot Swap Drive Cage Upgrade Kit for: Intel Server Chassis SC5200 Intel Server Chassis SC5250-E Serial ATA Hot Swap Drive Cage Upgrade Kit for: Intel Server Chassis SC5200 Intel Server Chassis SC5250-E A Guide for Technically Qualified Assemblers of Intel Identified Subassemblies/Products Order Number:

More information

TX Matrix Cable Shelf Assembly Installation Instructions

TX Matrix Cable Shelf Assembly Installation Instructions TX Matrix Cable Shelf Assembly Installation Instructions 3 December 2004 Part No: 530 011964 01 Revision 2 This document describes how to install the cable shelf assembly for the Juniper Networks. For

More information

Replacing Cisco ASR 9000 Series Router Components

Replacing Cisco ASR 9000 Series Router Components Replacing Cisco ASR 9000 Series Router Components The router is equipped as ordered and is ready for installation and startup when it is shipped. As network requirements change, you may need to upgrade

More information

IDENTIFICATION OF VOLATILE AND NON-VOLATILE STORAGE AND SANITIZATION OF SYSTEM COMPONENTS JUNIPER NETWORKS SRX-SERIES SRX240H

IDENTIFICATION OF VOLATILE AND NON-VOLATILE STORAGE AND SANITIZATION OF SYSTEM COMPONENTS JUNIPER NETWORKS SRX-SERIES SRX240H UNCLASSIFIED IDENTIFICATION OF VOLATILE AND NON-VOLATILE STORAGE AND SANITIZATION OF SYSTEM COMPONENTS JUNIPER NETWORKS SRX-SERIES SRX240H REVISION 2.0 May 12, 2011 UNCLASSIFIED TABLE OF CONTENTS 1 Introduction...

More information

Port Type Link Status (Left Side LED) Speed (Right Side LED) Green solid: Link detected/no activity Off: No link/card offline

Port Type Link Status (Left Side LED) Speed (Right Side LED) Green solid: Link detected/no activity Off: No link/card offline C-Series FlexMedia Card: 36 Ports 10/100/1000 Base-T Ethernet (PoE and non-poe), 8 Ports 1G, 2 Ports 10G Feature Highlights and Installation Instructions Feature Highlights There are two versions of the

More information

Replacement Instructions. Backplane PCA for the HP Router 650

Replacement Instructions. Backplane PCA for the HP Router 650 Replacement Instructions Backplane PCA for the HP Router 650 Copyright Hewlett-Packard Company 1994. All rights reserved. Publication Number 5962-8369 Edition 1, August 1994 Printed in USA This guide provides

More information

Cisco UBR-MC20X20V Cable Interface Line Card Quick Start Guide

Cisco UBR-MC20X20V Cable Interface Line Card Quick Start Guide Cisco UBR-MC20X20V Cable Interface Line Card Quick Start Guide First Published: November 16, 2009 Last Updated: May 10, 2010, Overview The Cisco UBR-MC20X20V cable interface line card transmits and receives

More information

Installing the Interface Line Card in the Cisco cbr Chassis 6

Installing the Interface Line Card in the Cisco cbr Chassis 6 Installing the Interface Line and PIC Cards in the Cisco cbr Chassis Installing the Interface Line and PIC Cards 2 Installing PICs in the Cisco cbr Chassis 2 Installing the Interface Line Card in the Cisco

More information

Thank you for purchasing this Factory Service Manual CD/DVD from servicemanuals4u.com.

Thank you for purchasing this Factory Service Manual CD/DVD from servicemanuals4u.com. Thank you for purchasing this Factory Service Manual CD/DVD from servicemanuals4u.com. Please check out our ebay auctions for more great deals on Factory Service Manuals: servicemanuals4u Dell Inspiron

More information

RMX 2000 MPM to MPM+ Migration Procedure

RMX 2000 MPM to MPM+ Migration Procedure RMX 2000 MPM to MPM+ Migration Procedure When upgrading from version 2.x/3.x or 4.0.x, the migration procedure involves two main steps: Upgrading from version 2.x/3.x to version 4.1.1 (described in this

More information

Maintaining the Avaya S8800 Server for Avaya Aura SIP Enablement Services

Maintaining the Avaya S8800 Server for Avaya Aura SIP Enablement Services Maintaining the Avaya S8800 Server for Avaya Aura SIP Enablement Services 03-603448 Issue 1 November 2009 2011 Avaya Inc. All Rights Reserved. is 1-800-242-2121 in the United States. For additional support

More information

HP VISUALIZE B2000 UNIX Workstations

HP VISUALIZE B2000 UNIX Workstations HP VISUALIZE B2000 UNIX Workstations Parts Removal/Replacement Guide Manufacturing Part Number: HP Part No. A5983-90060 Edition E0100 Copyright 2000 Hewlett-Packard Company Notice UNIX is a registered

More information

H3C S12500 Routing Switch Series

H3C S12500 Routing Switch Series H3C S12500 Routing Switch Series Quick Installation Guide Hangzhou H3C Technologies Co., Ltd. http://www.h3c.com Document version: APW201-20131030 Copyright 2013, Hangzhou H3C Technologies Co., Ltd. and

More information

Installing the A4505A PCI Module Upgrade. HP Part No. A Edition E0297 Printed in U.S.A.

Installing the A4505A PCI Module Upgrade. HP Part No. A Edition E0297 Printed in U.S.A. Installing the A4505A PCI Module Upgrade HP Part No. A4500-90603 Edition E0297 Printed in U.S.A. Hewlett-Packard Co. 1997 Printing History First Printing: February 1997 UNIX is a registered trademark in

More information

Installing IDS Introducing IDS-4215 CHAPTER

Installing IDS Introducing IDS-4215 CHAPTER CHAPTER 3 This chapter describes IDS-4215 and how to install it. It also describes the accessories and how to install them. This chapter contains the following sections: Introducing IDS-4215, page 3-1

More information

Customer Replacement Procedure

Customer Replacement Procedure Customer Replacement Dell EMC Unity Family Dell EMC Unity All Flash and Unity Hybrid Replacing a faulted 80-drive DAE cooling module 302-003-777 REV 01 July 2017 This document describes how to replace

More information

XTM 1050 Replacement Parts Installation

XTM 1050 Replacement Parts Installation XTM 1050 Replacement Parts Installation Instructions to replace or install: Power Supply Chassis Fan Fiber Card 10 Gb Interface Module WARNING! Do not open the XTM 1050 or try to replace or install any

More information

SwitchBlade Switch Controller Quick Install Guide

SwitchBlade Switch Controller Quick Install Guide SwitchBlade Switch Controller Quick Install Guide SwitchBlade Switch Controller Quick Install Guide Document Number. Copyright 2002-2005 Allied Telesyn International, Corp. 19800 North Creek Parkway, Suite

More information

Cisco Internet Router Chassis and Backplane Replacement Instructions

Cisco Internet Router Chassis and Backplane Replacement Instructions Cisco 12404 Internet Router Chassis and Backplane Replacement Instructions Product Number: GSR04-CHASSIS= Document Order Number: DOC-7813612= Overview This document gives you instructions for replacing

More information

Quantum DXi4700 Capacity Upgrade Guide

Quantum DXi4700 Capacity Upgrade Guide Quantum DXi4700 Capacity Upgrade Guide This document contains the following topics: Introduction 2 Preparing for the Capacity Upgrade 6 Capacity Upgrade Overview 7 Determining the DXi4700 Model 9 Unpacking

More information

Installing a Network Module

Installing a Network Module 3 CHAPTER This chapter describes how to install and connect a network module. Overview, page 3-1 in the Switch, page 3-4 SFP and SFP+ Modules, page 3-7 Finding the Network Module Serial Number, page 3-9

More information

Installing the Cisco Unified Videoconferencing 3545 MCU

Installing the Cisco Unified Videoconferencing 3545 MCU CHAPTER 2 Installing the Cisco Unified Videoconferencing 3545 MCU The Cisco Unified Videoconferencing 3545 MCU works together with a Cisco Unified Videoconferencing 3545 EMP Enhanced Media Processor (EMP)

More information

Adding or Replacing a PCI Card

Adding or Replacing a PCI Card Caution There are static-sensitive electronics inside the unit. Before you handle any parts, make sure you are working at a static-controlled workstation and that you are properly grounded. Three PCI cards

More information

Rack Installation Instructions

Rack Installation Instructions Rack Installation Instructions Review the documentation that comes with your rack cabinet for safety and cabling information. When installing your server in a rack cabinet, consider the following: v Two

More information

IBM. Rack Installation Instructions

IBM. Rack Installation Instructions IBM Rack Installation Instructions Review the documentation that comes with your rack cabinet for safety and cabling information. When installing your server in a rack cabinet, consider the following:

More information

apple Service Source Xserve Xserve, Xserve (Slot Load), and Xserve (Cluster Node) Updated: 7 May Apple Computer, Inc. All rights reserved.

apple Service Source Xserve Xserve, Xserve (Slot Load), and Xserve (Cluster Node) Updated: 7 May Apple Computer, Inc. All rights reserved. apple Service Source Xserve Xserve, Xserve (Slot Load), and Xserve (Cluster Node) Updated: 7 May 2003 2003 Apple Computer, Inc. All rights reserved. apple Service Source Take Apart Xserve 2003 Apple Computer,

More information

E-Series Maintaining E2800 Hardware

E-Series Maintaining E2800 Hardware E-Series Maintaining E2800 Hardware September 2018 215-13051_A0 doccomments@netapp.com Table of Contents 3 Contents Batteries... 6 Overview and requirements... 6 Battery overview... 6 Requirements for

More information

Thank you for purchasing this Factory Service Manual CD/DVD from servicemanuals4u.com.

Thank you for purchasing this Factory Service Manual CD/DVD from servicemanuals4u.com. Thank you for purchasing this Factory Service Manual CD/DVD from servicemanuals4u.com. Please check out our ebay auctions for more great deals on Factory Service Manuals: servicemanuals4u Dell Latitude

More information

ReadyNAS OS 6 Rack-Mount Hardware Manual

ReadyNAS OS 6 Rack-Mount Hardware Manual Rack-Mount Hardware Manual Model ReadyNAS 2120 ReadyNAS 2120 v2 ReadyNAS 3130 ReadyNAS 3138 ReadyNAS 3220 ReadyNAS 3312 ReadyNAS 4220 ReadyNAS 4312 ReadyNAS 4360 April 2017 202-11272-08 350 E. Plumeria

More information

Dell Inspiron N5110 Service Manual

Dell Inspiron N5110 Service Manual Dell Inspiron N5110 Service Manual Regulatory model: P17F Regulatory type: P17F001 Notes, Cautions, and Warnings NOTE: A NOTE indicates important information that helps you make better use of your computer.

More information

RMX 2000/4000 MPMx Migration Procedure

RMX 2000/4000 MPMx Migration Procedure RMX 2000/4000 MPMx Migration Procedure Prior to initiating this procedure make sure you are entitled to version 7.0 in your Support Agreement. The MPMx requires software version 7.0 installed. First complete

More information

PIX 520. PIX 520 Product Overview CHAPTER

PIX 520. PIX 520 Product Overview CHAPTER CHAPTER 5 PIX 520 This chapter guides you through the installation of the PIX 520, and includes the following sections: PIX 520 Product Overview, page 5-1 Installing the PIX 520, page 5-4 PIX 520 Feature

More information

Installing and Upgrading Memory and Virtual Private Network Modules

Installing and Upgrading Memory and Virtual Private Network Modules APPENDIX C Installing and Upgrading Memory and Virtual Private Network Modules This chapter tells how to install or upgrade memory and how to install a Virtual Private Network (VPN) module in your Cisco

More information

PIX 515/515E. PIX 515/515E Product Overview CHAPTER

PIX 515/515E. PIX 515/515E Product Overview CHAPTER CHAPTER 4 PIX 515/515E This chapter describes how to install the PIX 515/515E, and includes the following sections: PIX 515/515E Product Overview Installing a PIX 515/515E PIX 515/515E Feature Licenses

More information

SCv3000 and SCv3020 Storage System. Owner s Manual

SCv3000 and SCv3020 Storage System. Owner s Manual SCv3000 and SCv3020 Storage System Owner s Manual Notes, Cautions, and Warnings NOTE: A NOTE indicates important information that helps you make better use of your product. CAUTION: A CAUTION indicates

More information

RMX 2000/4000 MPMx Migration Procedure

RMX 2000/4000 MPMx Migration Procedure RMX 2000/4000 MPMx Migration Procedure Prior to initiating this procedure make sure you are entitled to version 7.x. in your Support Agreement. Version 7.0.x requires that the Control Unit memory size

More information

ERX System Overview. The ERX System. This chapter provides information about the system.

ERX System Overview. The ERX System. This chapter provides information about the system. ERX System Overview 1 This chapter provides information about the system. Topic Page The ERX System 1-1 Where the ERX System Fits In 1-6 ERX System Modules 1-7 Network Management Tools 1-11 Redundancy

More information

H4 Series Hardware Replacement Guide

H4 Series Hardware Replacement Guide Machine type: 10059/7723 10060/7724 10068/7752 10080/3099/1194 10091/2558/1196 H4 Series Hardware Replacement Guide Version 3.0 2011.08 31500379 Hardware Replacement Guide Copyright Lenovo 2011. All rights

More information

EMC VNXe. Adding input/output modules to a disk processor enclosure REV 03. July, 2015

EMC VNXe. Adding input/output modules to a disk processor enclosure REV 03. July, 2015 EMC VNXe Adding input/output modules to a disk processor enclosure 302-000-206 REV 03 July, 2015 This document describes how to add input/output (I/O) modules to a DPE (disk processor enclosure). The printed

More information

120Ra-1 Pentium III Processor Installation Insert

120Ra-1 Pentium III Processor Installation Insert 120Ra-1 Pentium III Processor Installation Insert PN: 455-01614-000 Proprietary Notice and Liability Disclaimer The information disclosed in this document, including all designs and related materials,

More information

Removing and Replacing FRUs from the Cisco ASR 1001-X Router

Removing and Replacing FRUs from the Cisco ASR 1001-X Router Removing and Replacing FRUs from the Cisco ASR 1001-X Router This chapter describes procedures for removing and replacing field-replaceable units (FRUs) from Cisco ASR 1001-X Routers. This chapter contains

More information

Juniper Secure Analytics Quick Start Guide

Juniper Secure Analytics Quick Start Guide Juniper Secure Analytics Quick Start Guide The instructions in this guide help you connect the Juniper Secure Analytics (JSA) appliance to your network. For details, see the JSA Hardware Guide at http://www.juniper.net/techpubs/en_us/release-independent/jsa/information-products/p

More information

Important Information

Important Information Important Information Documentation Resources and Considerations for Check Point IP1220 and IP1260 ADP Services Modules Because this document provides important information that you need to know before

More information

EXN4000 Storage Expansion Unit Installation and Setup Instructions

EXN4000 Storage Expansion Unit Installation and Setup Instructions IBM System Storage EXN4000 Storage Expansion Unit Installation and Setup Instructions GC27-2079-02 IBM System Storage EXN4000 Storage Expansion Unit Installation and Setup Instructions GC27-2079-02 Notices

More information

Next Generation Firewall

Next Generation Firewall Next Generation Firewall Hardware Guide Model 6205 Revision A Contents Introduction on page 2 Find product documentation on page 2 Model 6205 features on page 3 Supported interface modules on page 6 Precautions

More information

Dell XPS L702X Service Manual

Dell XPS L702X Service Manual Dell XPS L702X Service Manual Regulatory model: P09E series Regulatory type: P09E002 Notes, Cautions, and Warnings NOTE: A NOTE indicates important information that helps you make better use of your computer.

More information

MX240 3D Universal Edge Router Quick Start

MX240 3D Universal Edge Router Quick Start MX240 3D Universal Edge Router Quick Start January 2015 Part Number: 530-040793 Revision 01 This document describes how to install the Juniper Networks MX240 3D Universal Edge Router. Contents MX240 Quick

More information

Replacing a 3.5-inch disk drive

Replacing a 3.5-inch disk drive EMC VNXe Replacing a 3.5-inch disk drive 302-000-213 REV 02 July, 2015 This document describes how to replace a disk drive in a supported 12-slot disk enclosure: 12-slot disk processor enclosure (DPE)

More information

Removing and Replacing Parts

Removing and Replacing Parts Removing and Replacing Parts Preparing to Work Inside the Computer Recommended Tools Screw Identification System Components Hard Drive Fixed Optical Drive Media Bay Devices Memory Modules Mini PCI Card

More information

Removing and Replacing Chassis Components

Removing and Replacing Chassis Components This chapter provides instructions on how to remove and replace components from the Cisco NCS 4016 chassis., on page 1 Removing a Line Card This section describes how to remove a line card from the Cisco

More information

Installing the Server into a Rack

Installing the Server into a Rack Installing the Server into a Rack Note These instructions apply to multiple models; illustrations may vary slightly. Rack Mount Kit Inventory Before installing the chassis on a standard 4-post rack, make

More information

Contivity Extranet Switch Installing Hardware Options Guide

Contivity Extranet Switch Installing Hardware Options Guide Contivity Extranet Switch Installing Hardware Options Guide Part Number 302283-B Rev.00 Installing LAN and WAN Option Cards...2 System Board Layouts... 2 Removing the 4500 Option Card Tray... 5 4500 Option

More information

Installation Job Aid for Avaya Virtual Services Platform 8400

Installation Job Aid for Avaya Virtual Services Platform 8400 Installation Job Aid for Avaya Virtual Services Platform 8400 Support Release 4.2 NN47227-305 Issue 01.06 June 2015 Go to the Avaya Support website at http://support.avaya.com for the most up-to-date documentation,

More information

Installing and Replacing Hardware Options

Installing and Replacing Hardware Options CHAPTER 4 This chapter provides instructions for installing and replacing the hardware components and field replaceable units (FRUs) in your Cisco NAM 2220 appliance. These instructions are intended for

More information