FibeAir IP-20C

All-outdoor, compact, all-IP multicore node

wireless backhaul node



The FibeAir IP-20C is a highly versatile, compact and all-outdoor wireless backhaul node that suits any network deployment scenario, from aggregation sites to small cell backhaul, at LTE, LTE-Advanced pro and 5G mobile network, as well as any vertical application, and is designed to help you meet a wide variety of challenges throughout your network deployment.

Designed with flexibility to meet a wide variety of challenges throughout your network deployment, the IP-20C-HP enables 1Gbps radio capacity over a single 28MHz channel or 2Gbps over a single 56MHz channel.

The FibeAir IP-20C operates within the entire microwave communication spectrum, offering high spectral efficiency across licensed and license-exempt microwave communications frequency bands (6-42GHz).

With its multicore technology, the FibeAir IP-20C allows you to continuously increase your operational efficiency and provide better quality of experience to your customers.

Product Features

The FibeAir IP-20C is an all-packet point-to-point wireless backhaul node and is MEF 2.0 certified. It is offered with a basic security package. For a comprehensive set of security capabilities, please refer to the FibeAir IP-20 Assured Platform.


Using Ceragon’s unique multicore technology you can:

  • Double wireless backhaul capacity via remote activation of another radio carrier with no site visits required
  • Deliver the needed wireless backhaul capacity at as little as ¼ of the spectrum otherwise needed with Ceragon’s field-proven LoS MIMO 4×4 technology – enabling 1Gbps radio capacity over a single 30MHz channel or 2Gbps over a single 60MHz
  • Deploy sites where needed, removing congested wireless backhaul constraints by doubling the reuse of microwave frequency channels and using Advanced Frequency Reuse technology embedded in the multicore technology
  • Reduce energy costs by up to 40%
  • Reduce tower or roof-top equipment footprint by 50% in dual carrier configurations