Ubiquiti AirFibre 24
The AirFibre 24 wireless solution can deliver an outstanding wireless throughput of over 1.4 Gbps, which surpasses the performance of many wired, conventional backhauls. It is robust and can continue to perform, even in harsh and extreme radio frequency noise environments and is able to deliver an efficient and superior performance compared to real-world, 13+ km links. With Frequency Division Duplexing (FDD) support for when it operates in full-duplex mode for <1 ms latency, giving further increased efficiency, the airFibre 24 can operate in license-free 24GHz frequencies worldwide and can be deployed almost anywhere according to the needs of the user (subject to your local regulations).
How does airFibre 24 work?
Ubiquiti AirFibre is able to transmit data synchronously without any waiting period, foregoing the usual route of enforcing a latency where packets are received before they’re is transmitted. It also comes with traditional FDD and TDD operation modes alongside the proprietary HDD (Hybrid Division Duplexing) mode, which features performance breakthroughs in spectral efficiency and range performance.
The radio’s on the airFibre can calculate the propagation delay using Ubiquiti’s patent-pending technology and understand when the radio’s are ready receive and transmit, so packets are sent in synchronisation, thus virtually eliminating packet transmission latency.
Typically, systems for millimetre‑wave frequencies can experience losses in Radio Frequency- this happens when parts of the radio frequency become lost or hidden in the filters and switches. With the airFibre, this has been eliminated, providing a more robust link budget and allows airFibre to have higher transmit power efficiency, as well as an improved noise figure.
Interested in building-to-building connectivity?
Call us on 0845 075 8880 to discuss with Staveley Communications the wireless solutions which could be right for your business.
Alternatively, get in touch using our contact form at the side of this page and request a demo.