The Cisco expansion module, part number NM-CEM-4TE1=, is a highly reliable network module designed for Cisco routers. This module provides 4 ports and can support T1/E1 connectivity, making it suitable for various professional networking environments that require efficient data transmission. The four T1/E1 interfaces allow for the connection of either T1 (1.544 Mbps) or E1 (2.048 Mbps) lines and can be used in diverse applications such as voice, data, and video transmission through leased line WAN connections.
This network module works seamlessly with selected Cisco platforms and is ideal for expanding the existing capability of routers to accommodate additional circuit connections. The module is designed to optimize flexibility and performance, allowing the user to leverage the advantages of T1/E1 technology in their networking infrastructure. Additionally, the use of standard encapsulation protocols ensures this module can communicate effectively across various network layers.
The NM-CEM-4TE1= includes high port density, enabling organisations to scale their network operations without needing numerous individual pieces of hardware. This capability leads to simplified network management, reducing operational complexities. Some of its important features also include support for both data and voice transmission, allowing it to serve dual functions within a single network infrastructure. This feature reduces resource redundancy and delivers improved operational efficiency.
Overall, this Cisco expansion module is a versatile and scalable solution that integrates smoothly with Cisco's robust network products, making it an excellent choice for businesses with demands for high-quality communication and networking solutions.
EOL Technology Services offers tailored support for part number NM-CEM-4TE1=. Whether you're looking for professional services, technical assistance, or replacement parts, we provide reliable resources that suit your specific equipment needs. Our experienced team ensures that your hardware operates smoothly throughout its lifecycle.