About This Part
The Nokia 3AL82070ADAA is a high-performance SFP+ (Small Form-Factor Pluggable Plus) optical transceiver engineered for robust 10 Gigabit Ethernet (10GbE) and Common Public Radio Interface (CPRI) applications. This module operates at a precise 1530nm wavelength, designated as CWDM Channel 53, facilitating efficient Coarse Wavelength Division Multiplexing over single-mode fiber. Designed to support CPRI Rate 7, it is critical for high-bandwidth, low-latency fronthaul and midhaul connections in modern mobile networks. Its compact SFP+ form factor ensures high port density in switches, routers, and base station equipment, while delivering reliable, full-duplex optical communication over specified distances. This Nokia SFP+ transceiver is primarily deployed in demanding telecom environments, connecting Remote Radio Units (RRUs) to Baseband Units (BBUs) in 4G and 5G radio access networks. Its CPRI 7 compatibility makes it indispensable for mobile network operators seeking to expand capacity and enhance coverage. Furthermore, the 1530nm CWDM capability allows for the multiplexing of multiple 10G services onto a single fiber pair, significantly optimizing fiber infrastructure utilization in metropolitan networks, enterprise data centers, and campus backbones. It serves as a vital component for upgrading existing network segments to 10Gbps speeds, ensuring future-proof connectivity and supporting the increasing demand for data. Acquiring new, high-specification telecom hardware like the Part Number 3AL82070ADAA can represent a substantial capital expenditure for B2B clients. Revo Distribution Limited addresses this challenge by offering meticulously tested, used, and refurbished units of this Nokia SFP+ transceiver. Our rigorous quality assurance processes ensure that every module meets stringent performance and reliability standards, providing a cost-effective alternative without compromising network integrity. By sourcing from Revo, telecom operators and data centre providers can efficiently expand or upgrade their networks, leveraging premium equipment at a fraction of the new cost. This approach not only enables sustainable infrastructure development but also extends the operational lifecycle of existing network investments, contributing to a more circular economy in the telecom sector.
