Description
Product Details of the Juniper PE-1CHOC3-SMIRQPP
The PE-1CHOC3-SMIRQPP Juniper 1-Port Channelized OC-3 IQ PIC Module is a high-performance network interface card that provides a single port for channelized OC-3 connections. It is designed for use with Juniper Networks M-series and T-series routers and provides fast, reliable connectivity for high-bandwidth applications.
Channelized OC-3 Connectivity
The PE-1CHOC3-SMIRQPP Juniper 1-Port Channelized OC-3 IQ PIC Module provides a single port for channelized OC-3 connectivity. This means that the module can be used to connect multiple devices to the network using a single OC-3 connection. Channelized OC-3 connections are ideal for high-bandwidth applications such as video streaming, VoIP, and data transfer.
High-Performance
The PE-1CHOC3-SMIRQPP Juniper 1-Port Channelized OC-3 IQ PIC Module is designed to provide high-performance connectivity for demanding network applications. It uses advanced technology to ensure fast and reliable data transfer, and supports a range of protocols including SONET/SDH, ATM, and PPP. This makes it an ideal choice for businesses that require high-speed, reliable connectivity for their network applications.
Flexible Deployment
The PE-1CHOC3-SMIRQPP Juniper 1-Port Channelized OC-3 IQ PIC Module is designed for use with Juniper Networks M-series and T-series routers. It can be deployed in a range of configurations, depending on the specific requirements of the network. This flexibility makes it easy to integrate the module into existing network infrastructures, and to scale the network as needed to meet changing business needs.
Easy Management
The PE-1CHOC3-SMIRQPP Juniper 1-Port Channelized OC-3 IQ PIC Module is designed for easy management, with a range of features that make it simple to configure and monitor. It supports Juniper Networks’ Junos operating system, which provides a consistent and intuitive interface for managing network devices. Additionally, the module can be managed using a web-based interface or a command line interface, depending on the preferences of the network administrator.
Reliability
The PE-1CHOC3-SMIRQPP Juniper 1-Port Channelized OC-3 IQ PIC Module is designed for high reliability, with a range of features that help to ensure that the network remains up and running even in the event of hardware failures. These features include support for hot-swappable components, redundant power supplies, and advanced diagnostics and monitoring capabilities.
Scalability
The PE-1CHOC3-SMIRQPP Juniper 1-Port Channelized OC-3 IQ PIC Module is designed for scalability, with the ability to add additional modules to the network as needed to meet changing business needs. This makes it easy to expand the network as the business grows, without the need for major infrastructure upgrades.
Compatibility
The PE-1CHOC3-SMIRQPP Juniper 1-Port Channelized OC-3 IQ PIC Module is designed to be compatible with a range of other Juniper Networks products, including M-series and T-series routers. This ensures seamless integration with existing network infrastructure, and makes it easy to expand the network as needed.
Overall, the PE-1CHOC3-SMIRQPP Juniper 1-Port Channelized OC-3 IQ PIC Module is an advanced network interface card that provides reliable, high-performance connectivity for demanding network applications. With its support for channelized OC-3 connections, flexible deployment options.
General Information about
the Juniper PE-1CHOC3-SMIRQPP
- Manufacturer: Juniper
- Part Number or SKU# PE-1CHOC3-SMIRQPP
- Product Type: Interface Module
Technical Information
- Application/Usage: Data Networking
- Data Transfer Rate: 155 MBPS OC-3
Interfaces/Ports
- Interfaces/Ports Details: 1 X SC Duplex OC-3
- Interfaces/Ports: 1 X OC-3
- Management: Diagnostics: Bert, Local And Remote Loopback Per Queue And Per Channel Counters.
Media & Performance
- Connectivity Media:Optical Fiber
- Data Transfer Rate:155 MBPS OC-3
Miscellaneous
- Channelization: DS3, DS1, DS0
- Encapsulations: Frame Relay, HDLC, MPLS CCC, PPP
- Encoding: M13/C-Bit Parity Encoding.
