The Voyager fibre optic matrix allows system designers and installers tremendous flexibility as each port can be configured as an input or output and is expandable beyond 2,000 ports. The live demonstration also showcases the CORIO2 4-Window Multiviewer high resolution video processor with tvONE’s exclusive technology along with the CORIOmaster mini Video Wall Processor. With the incorporation of the new Voyager USB 2.0 Fiber Optic KVM extender, tvONE introduces a complete video and AV signal switching system independently distributing Video, Audio and USB all over fiber and all on the same matrix.

“The new Voyager USB 2.0 Fiber Optic KVM Extender has allowed us to expand the capabilities of Voyager,” said Mark Armon, Product Manager at tvONE. “Our ProAV customers can now extend USB and distribute it independently of Audio, Video, and RS232 by using our Voyager Matrix. This is just one more reason that makes Voyager the world’s most flexible fibre optic matrix.”

The all new Voyager USB 2.0 Fiber Optic KVM Extender enables users to extend USB 2.0 up to 500 meters from a computer using multi-mode fibre. Distances up to 10KM can be reached using single-mode fibre and upgraded SFPs. The Voyager USB 2.0 Fiber Optic KVM extender is composed of two individual units: the CPU Transceiver and the Remote Transceiver.

The Voyager USB is ideal for extending USB peripherals including: keyboards, mice, interactive whiteboards, touchscreens, flash drives, hard drives, audio devices, cameras and any other USB device across a dedicated multimode or singlemode fiber connection. And each pair can accommodate up to 14 different USB devices at one time. When used in combination with Magenta Voyager Matrix routers, such as the VG-48 and VG-160, designers can build remote managed computer/video applications with thousands of endpoints on a security-isolated fibre infrastructure over a 10km radius.

For a demonstration of the new Voyager USB 2.0 Fiber Optic KVM Extender visit the tvONE stand 1-M45 throughout the entirety of the ISE Exhibition