Juniper Networks M40e installation instructions Remove an FPC from an M20 Router

Page 9

Replace an FPC in an M20 Router

Replace an FPC in an M20 Router

 

 

 

On an M20 router, the FPCs are hot-insertable and hot-removable, so you can remove and

replace them without powering down the router. When you remove an FPC, the router

continues to function, but the PICs installed on the FPC do not receive or transmit data.

 

 

 

For instructions, see the following sections:

 

 

 

! Remove an FPC from an M20 Router on page 9

 

 

 

! Install an FPC in an M20 Router on page 10

 

 

 

 

 

 

Remove an FPC from an M20 Router

 

 

 

The FPCs on an M20 router are located on the front of the chassis below the craft interface.

Each FPC, fully configured with four PICs, weighs about 3 lbs (1.5 kg).

 

 

 

To remove an FPC from an M20 router, follow this procedure:

 

 

 

1. Place a antistatic foam mat on a flat, stable surface to receive the FPC. If a foam mat is

not available, substitute a standard flat antistatic mat but use extra care when laying the

FPC on it to avoid damaging the electrical components. If any of the PICs on the FPC use

fiber-optic cable, also have ready a rubber safety cap for each transceiver and cable.

 

 

 

2. Attach an ESD strap to your bare wrist and connect the strap to one of the ESD points on

the chassis.

 

 

 

3. Label the cables connected to each PIC on the FPC so that you can reconnect the cables

to the correct PICs.

 

 

 

4. Take the FPC offline by pressing and holding its offline button for 5 seconds or until the

green OK LED next to the button goes out. The FPC offline buttons are located in a

column at the right side of the craft interface.

 

 

 

5. Disconnect the cables from the PICs on the FPC. If a PIC uses fiber-optic cable,

immediately cover each transceiver and the end of each cable with a rubber safety cap.

Carefully drape each disconnected cable over the covered metal hooks in the cable

management system at the top of the chassis front, to prevent the cables from

developing stress points.

 

 

 

 

 

 

 

 

 

 

Do not look directly into the ends of fiber-optic cables or

 

 

into the transceivers on the PIC faceplate. Single-mode

 

 

fiber-optic cable and the PICs that use it (such as ATM and

 

 

SONET/SDH interfaces) emit laser light that can damage

 

 

your eyes.

 

 

 

 

 

Do not leave a transceiver uncovered. The safety cap keeps

 

 

the port clean and prevents accidental exposure to laser

 

 

light.

 

 

 

 

 

 

 

6. Unscrew the thumbscrews at the left and right ends of the FPC.

 

 

 

7. Pull the ends of the extractor clips, which are adjacent to the thumbscrews, away from

the face of the FPC.

 

 

 

 

 

 

FPC Installation Instructions

9

 

Image 9
Contents FPC Installation Instructions FPC Description M20 FPC Description M20 Router with Four FPCs InstalledM40 FPC Description M40 Router with FPC Installed in Slot FPC7M40e FPC1 M40e FPC2 M40e FPCs DescriptionM40e Router with an M40e-FPC1 Installed in Slot FPC0 FPC M160 FPCs DescriptionTools and Parts Required M160 Router with an FPC1 Installed in Slot FPC0Remove an FPC from an M20 Router Remove an FPC from an M20 Router Install an FPC in an M20 RouterReplace an FPC in an M20 Router Remove an FPC from an M40 Router Replace an FPC in an M40 RouterReplace an FPC in an M40 Router Remove an FPC from an M40 Router Install an FPC in an M40 RouterInstall an FPC in an M40 Router Remove an FPC from an M40e or M160 Router Replace an FPC in an M40e or M160 RouterReplace an FPC in an M40e or M160 Router Remove an FPC from an M40e or M160 Router Install an FPC in an M40e or M160 RouterReplace an FPC in an M40e or M160 Router Levers Replace a PIC in an M40e-FPCRemove a PIC from an M40e-FPC Install a PIC in an M40e-FPCPIC Software Configuration PIC Software Configuration

M40e, M40 specifications

Juniper Networks M40 and M40e are high-performance, modular routers designed to provide scalability, flexibility, and advanced capabilities for service providers and large enterprises. These platforms have made a significant impact in the networking industry due to their robust architecture and rich feature set.

The Juniper M40 was introduced as a key player in the routing landscape, emphasizing performance and reliability. It is based on the innovative Junos operating system, which enables operators to manage network resources effectively. The M40 router features a flexible modular design, allowing for the installation of various interface cards that support multiple protocols and speeds. This versatility is crucial for adapting to evolving network demands.

One of the standout features of the M40 is its high throughput capability, supporting up to 40 Gbps with exceptional performance under heavy loads. This is complemented by advanced queuing and scheduling options that ensure efficient traffic management. The M40 also implements sophisticated routing protocols, such as BGP, OSPF, and MPLS, enabling service providers to enhance their network infrastructure with robust routing features.

The M40e variant enhances the original model with additional features and improved performance metrics. It is built for even greater scalability, supporting more interface types and higher capacities. The enhanced hardware of the M40e allows it to process data packets with lower latency, ensuring optimized performance for real-time applications such as voice and video.

Both M40 and M40e routers utilize a redundant architecture, providing high availability and fault tolerance. This is crucial for mission-critical applications where downtime can lead to significant operational disruptions and financial losses. The routers also boast advanced security features, including support for IPsec and various access control mechanisms, ensuring data integrity and confidentiality across the network.

In summary, the Juniper Networks M40 and M40e routers represent a significant evolution in networking technology. Their modular architecture, high throughput capabilities, advanced routing protocols, and robust security features make them ideal choices for service providers and enterprises looking to build resilient and high-performance networks. With their proven reliability and performance, these routers continue to serve as a foundation for modern networking solutions.