The Cisco WAN Interface Card DSL modem, part number WIC-1SHDSL-V3=, is a single-port interface card designed for use with Cisco routers, providing efficient and robust DSL connectivity. This card supports Symmetric High Bit Rate DSL (SHDSL), allowing reliable two-way data transmission, with a streamlined interface for enhanced networking performance. It is compatible with Cisco 2600, 3600, and 3700 series routers, providing flexibility in deployment for both branch offices and enterprise environments.
The design of the WIC-1SHDSL-V3= enables high-speed connectivity, with up to 2.3 Mbps upstream and downstream symmetrical rates, making it a versatile solution for mission-critical communications. The card supports both point-to-point and point-to-multipoint configurations, giving it the capability to meet varying network topologies depending on business needs. This makes it especially useful for organisations requiring secure, remote site connections with reliable bandwidth.
One of its prominent features is the use of G.SHDSL technology, which allows the modem to deliver efficient data transmission across copper lines, reducing operational expenses and eliminating the need for more costly leased line services. The card offers two-wire and four-wire support, accommodating different physical setups while optimising connectivity based on distance and required bandwidth.
The WIC-1SHDSL-V3= is also equipped with compatibility for Cisco IOS software, ensuring a smooth configuration and monitoring process, as well as advanced security options, such as firewall integration and VPN support. These features contribute to creating a stable and secure wide-area network (WAN) link for businesses with multiple office locations.
EOL Technology Services provides reliable support, professional services, and replacement parts for the Cisco WAN Interface Card DSL modem WIC-1SHDSL-V3=. Whether you need new installations or maintenance, our team ensures you have access to expert assistance and relevant part replacements for your network's optimal performance.
