Nokia 473841101

The Nokia Part Number 473841101 is a high-performance SFP+ (Small Form-Factor Pluggable Plus) optical transceiver engineered for robust 10 Gigabit Ethernet (10GbE) applications. This module operates at a wavelength of 1310nm, facilitating reliable data transmission over single-mode fiber optic cables for distances up to 30 kilometers. Designed to support a data rate of 10Gbps, it ensures high-bandwidth connectivity crucial for modern network architectures. Its compact SFP+ form factor allows for high port density in switches, routers, and other network devices, while its LC duplex connector interface ensures standard compatibility and ease of deployment in existing fiber infrastructures. This Nokia transceiver is a vital component for extending high-speed optical links across significant distances within a network. This SFP+ transceiver is primarily deployed in data centers, large enterprise networks, and telecom access/metro networks where high-speed, long-distance connectivity is paramount. It is commonly installed in 10GbE switches, routers, and network interface cards to establish inter-rack, inter-building, or campus-wide links. The Nokia 473841101 solves the critical challenge of extending 10Gbps bandwidth over distances that copper cabling cannot support, providing a cost-effective and high-performance alternative. It is essential for operators and industries requiring robust backhaul, aggregation, or core network links, enabling seamless upgrades from slower 1GbE connections or replacing multiple lower-capacity links with a single, high-throughput solution. At Revo Distribution Limited, we specialize in providing B2B clients with cost-effective solutions for their telecom and data centre infrastructure needs. Our inventory includes used and refurbished units of the Part Number 473841101, offering a sustainable and economical alternative to new equipment. By sourcing and supplying high-quality, pre-owned transceivers, Revo enables telecom operators and data centre providers to expand or upgrade their networks efficiently without compromising on performance or reliability. This approach not only delivers significant cost savings but also extends the operational lifecycle of existing infrastructure, supporting environmentally responsible practices within the industry and ensuring continued network functionality.