About This Part
The Nokia 3AL82155AA is an advanced optical transceiver module, specifically a CFP4 (C form-factor pluggable, generation 4) designed for high-speed data transmission. This module from Nokia supports 100 Gigabit Ethernet (100GbE) applications, adhering to the 100GBASE-LR4 standard for reaches up to 10 kilometers over single-mode fiber (SMF). Furthermore, its "N-CFP4ACO-QAM-S" designation indicates it is a Nokia-specific Analog Coherent Optics (ACO) module, capable of supporting more complex modulation schemes like QAM and potentially higher data rates up to 200G, offering enhanced spectral efficiency and extended reach capabilities beyond standard LR4 for specific coherent applications. It integrates sophisticated digital signal processing (DSP) to enable robust performance in demanding network environments. This versatile Nokia transceiver is primarily deployed in high-capacity network infrastructures, including data center interconnects (DCI), metro networks, and core network aggregation layers. Telecom operators, internet service providers (ISPs), and large enterprise data centers utilize the 3AL82155AA to establish high-bandwidth links, facilitating the seamless transfer of massive data volumes. It is instrumental in upgrading existing 10G or 40G networks to 100G or even 200G, addressing the ever-increasing demand for bandwidth and reducing per-bit transmission costs. Its compact CFP4 form factor enables high-density deployments, optimizing rack space and power consumption within critical network equipment. Revo Distribution Limited specializes in providing cost-effective infrastructure solutions by offering used and refurbished units of high-demand components like the Part Number 3AL82155AA. B2B clients, including telecom operators and data centre providers, can acquire these essential Nokia transceivers at a significant value, enabling them to expand or upgrade their networks efficiently without the prohibitive capital expenditure associated with new equipment. Revo's inventory extends the operational lifecycle of existing infrastructure, promoting sustainability and ensuring that critical network components remain accessible and affordable for ongoing network evolution and maintenance.
