Ubiquiti Networks PowerBeam ac ISO 500mm 5GHz airMAX Bridge, 27dBi Gain, 5 Pack
Ubiquiti Networks launches the PowerBeam ac ISO, an airMAX ac Bridge that is ideal for deployments requiring maximum performance and RF isolation. Uniform Beamwidth Maximizes Noise Immunity Integrated Isolator Design Improves RF Isolation High-Speed Processor for Superior Performance Improved Noise Immunity The PowerBeam ac ISO directs RF energy in a tighter beamwidth and its integrated isolator design improves RF isolation to spatially filter out interference. With its combination of focused beam directivity and RF isolation, the PowerBeam ac ISO blocks noise to improve noise immunity. This is especially important in an area crowded with other RF signals of the same or similar frequency. Integrated Radio Design Ubiquiti's InnerFeed technology integrates the radio into the feedhorn of an antenna, so there is no need for a cable. This improves performance because it eliminates cable losses. Performance Breakthrough airMAX ac products offer improved latency, noise immunity, scalability and significantly increased throughput performance. Innovative Mechanical Design The integrated isolator design improves RF isolation to spatially filter out interference and the metal-plated interior of the rear housing enhances RF shielding. Superior RF Isolation Compare the two near-field plots and note the superior performance of the integrated RF isolator. Both near-field plots are displayed in watts and use a linear scale. Superior Processing Ubiquiti's airMAX engine with custom IC dramatically improves TDMA latency and network scalability. The custom silicon provides hardware acceleration capabilities to the airMAX scheduler, to support the high data rates and dense modulation used in airMAX ac technology. Advanced Software Technology Ubiquiti's airMAX technology is proven in millions of deployments worldwide, exhibiting outstanding performance in outdoor environments. The TDMA airMAX protocol enables unprecedented scalability, high throughput and low latency in unlicensed, multipoint networks. Ub