The Cisco Inline Network Adapter (part number WAVE-INLN-2CG=) is a highly reliable and efficient network adapter designed to enhance connectivity in various networking environments. This adapter is designed with 2 Gigabit Ethernet ports, allowing for robust and fast network connections. The adapter strengthens network performance by enhancing data throughput, ensuring reduced latency, and providing reliable transmission of data packets. Its two-port design supports flexible deployment, allowing for multiple network setups and configurations.
This network adapter is primarily used in inline network deployment scenarios where intermediate network devices like firewalls, security appliances, or WAN optimisation appliances are required. The adapter is compatible with Cisco’s WAVE (Wide Area Virtualisation Engine) platform, making it especially suited for working within Cisco’s advanced networking and optimisation infrastructure. Its design is tailored to ensure high availability and resilient network performance even in demanding environments.
The WAVE-INLN-2CG= model features energy-efficient Ethernet compatibility, helping reduce power consumption while ensuring maximum network performance. The use of Gigabit Ethernet ports ensures that the device can handle high-speed data transmission, making it ideal for users who need bandwidth-intensive or mission-critical applications to function seamlessly.
Complemented by its sleek and durable form factor, the Cisco Inline Network Adapter is easy to integrate into existing systems. Designed with versatility in mind, IT professionals will appreciate its flexibility in deployment scenarios and its ease of management when included in a larger networking setup.
EOL Technology provides reliable support for Cisco components, including parts such as the WAVE-INLN-2CG network adapter. Our team offers professional services, repairs, and quality replacement parts for organisations seeking to maintain or upgrade their Cisco networking infrastructure. You can count on us to ensure your systems remain operational and efficient.
