Finisar FTLX8571D3BCL0N743D

The Finisar FTLX8571D3BCL0N743D is a high-performance SFP+ (Small Form-Factor Pluggable Plus) transceiver, engineered for robust 10 Gigabit Ethernet (10GbE) applications. This module operates as a short-reach (SR) optical transceiver, typically utilizing an 850nm wavelength over multimode fiber (MMF) to achieve data rates of 10Gbps. Its compact SFP+ form factor ensures compatibility with a wide array of networking equipment, providing a reliable and efficient solution for high-density network deployments. As a product from Finisar, a renowned leader in optical communication technology, this transceiver adheres to industry standards, featuring a duplex LC connector for seamless integration into existing fiber optic infrastructures. This Part Number FTLX8571D3BCL0N743D is primarily deployed in demanding network environments such as data centers, large enterprise networks, and telecom central offices. It serves as a critical component for inter-rack connectivity, server-to-switch links, and high-bandwidth uplinks within network core and aggregation layers. Supporting various network platforms including Ethernet switches, routers, and network interface cards (NICs), it enables telecom operators, cloud service providers, and financial institutions to overcome bandwidth bottlenecks. This Finisar SFP+ module is an ideal solution for upgrading existing 1GbE infrastructure to 10GbE, facilitating faster data transfer and improved network performance without extensive overhauls. Revo Distribution Limited specializes in providing B2B clients with cost-effective, high-quality used and refurbished telecom and data centre equipment, including units of the FTLX8571D3BCL0N743D. Our inventory empowers telecom operators and data centre providers to expand or upgrade their networks efficiently, offering a sustainable alternative to new hardware procurement. By sourcing and supplying meticulously tested refurbished modules, Revo helps businesses reduce capital expenditure while maintaining operational excellence. This approach not only delivers significant cost savings but also extends the lifecycle of existing infrastructure, contributing to a more sustainable and resource-efficient global network ecosystem.