Combine multiple airFiber X radios on a single dish antenna for superior noise immunity performance, redundancy, and multi-Gigabit Point-to-Point (PtP) throughput.
Introducing the airFiber NxN, a thoughtfully engineered MIMO multiplexer that increases the amazing throughput of your airFiber link by up to 400%, while simultaneously establishing redundancy without the need of additional antennas.
The airFiber NxN is a scalable MIMO multiplexer that combines multiple airFiber X radios* on a single dish antenna for superior noise immunity performance, redundancy, and multi-Gigabit throughput. Upgrading a 5 GHz airMAX® or airFiber link is fast and easy. Simply attach the airFiber NxN to the fast-mount on the antenna and connect the RF cables.
Features:
8x8 MIMO
Multiplex up to (4) airFiber X radios*
Aggregate Throughput up to 2+ Gbps
Up to 3 Redundant Links
Precise GPS Synchronisation
Using a common GPS timing reference, the airFiber X radios work cohesively to deliver powerful, multi-Gigabit bridging performance for PtP links.
8x8 MIMO Backhaul Technology
Quickly mount multiple airFiber X radios on existing airFiber dish antennas for Plug and Play installation. You can use radio channels of different sizes – even adjacent channels with no guard band – and place them anywhere within the radio band.
Mounting Versatility
The airFiber NxN Multiplexer can be attached to most 5 GHz airFiber X or RocketDish™ antenna models. For any other antenna configuration, you can mount the airFiber NxN Multiplexer on a pole.
Reduced Tower Costs
Mounting multiple airFiber X radios on a single dish antenna maximizes throughput and capacity in a clean, compact tower footprint, minimising tower costs.
True Redundancy
Multiple airFiber X radios with multiple carriers on multiple frequency bands provide the ultimate noise immunity and link redundancy performance.
Paired with the EdgePoint for Superior Performance
The EdgePoint™ provides powerful configuration features, including radio-link load balancing and advanced reliability for optical fibre deployments.