The FirePWR 2-Port 10Gbps SR Fibre Network Module with Bypass (FPNM-2SR-10G-BP=) is designed to enhance high-speed communication within complex network systems. This module offers two 10Gbps SR fibre ports, enabling fast and reliable data transfer for intensive networking applications. Two ports are ideal for environments demanding high-bandwidth capabilities and multiple data channels in order to handle extensive data loads effectively.
One of the key features of this module is the integrated bypass functionality. This ensures network continuity even during maintenance or hardware failure, improving overall network uptime and reliability. The bypass feature allows seamless rerouting of traffic to ensure systems remain operational without disruption. It’s a critical feature for businesses that rely on uninterrupted service, such as data centres and enterprises dealing with mission-critical operations.
Additionally, this module uses Short Reach (SR) fibre technology, optimised for communication over shorter distances. SR fibre connections typically support distances up to a few hundred meters, making this module suitable for intra-building networks or low-to-medium range deployments. The use of SR fibre ensures both high-speed data transfer and minimal latency, crucial for environments where timing is essential.
This particular unit is marked as RFB (Refurbished). Refurbished equipment offers a more cost-effective solution compared to new units, while still maintaining the manufacturer’s quality standards. The FPNM-2SR-10G-BP= comes fitted with the necessary ports that are compatible with 10 Gbps networks, making it highly suitable for various networking infrastructure setups.
EOL Technology Services offers professional support for the FPNM-2SR-10G-BP=, providing expert advice and replacement parts. Their services are tailored to help clients maintain their network performance by supplying the necessary modules or conducting repairs when needed, ensuring consistent network functionality even after the product's official end-of-life cycle.