Alteros Uses Direct-to-Fiber Range With Digital Wireless

The Alteros GTX 6.5 GHz Ultra Wide Band digital wireless microphone system has been successfully deployed and proven in high-profile broadcast event and live production environments. Alteros now introduces the direct-to-fiber extension to the system, providing radically enhanced range and flexibility to the system. 

Alteros, an Audio-Technica Company, said the standard GTX system allows up to 32 GTX32 transceivers to each be connected to a 3U GTX3224 control unit with up to 1000 feet of Cat 5 cable, creating a L.A.W.N. (local area wireless microphone network) system to communicate bidirectionally with up to 24 GTX24 wireless microphone transmitters – 24 microphone channels and 24 talkback channels with an additional eight group channels.

With the introduction of the GTX3224F control unit version, 16 rear-panel Cat 5 transceiver ports are replaced with six fiber ports. Fiber connections measured in miles instead of feet can connect the control unit to up to six GTX-FX8 8-port fiber breakout nodes for remote Cat 5 connection to the network and power for to up to 48 GTX32 transceivers (up to 16 GTX32s can be connected directly to the GTX3224F by Cat 5 for a total capability of 64).

The result is a system that can cover extremely large venues, and multiple locations within a venue, as was proven with ESPN’s successful deployment of the Alteros Direct-to-Fiber GTX system for coverage of the 2018 US Open Tennis Championships.

“To take advantage of IP-based workflow efficiency, fiber infrastructure is being adopted in new and retrofitted production facility and event venue construction,” said Jackie Green, Alteros president. The Alteros direct-to-fiber system communicates directly on such networks without conversion.

While other manufacturers of wireless systems are beginning to deploy RF over fiber, those systems require an RF to fiber conversion. “Any time there is a conversion,” said Green, “the system suffers from possible jitter, resolution degradation, signal loss, increased latency and generally negative effects on the sound quality. Our system is already natively digital, and we communicate directly without the need for conversion and the potential for negative conversion artifacts. Using our wireless microphone system over fiber will result in sound quality at the system output that is superior to RF over fiber and even over direct-wire analog.”

Given the sweeping changes in RF allocations in the television spectrum, where traditional wireless microphone technologies are facing a spectrum squeeze, the Alteros GTX system provides fresh innovation and solutions. Operating in interference-free spectrum using true-digital, UWB pulse signals and state-of-the-art MESH and network technology, solid and reliable performance is achieved with no continuous carrier and no intermodulation distortion.

A 500 MHz signal bandwidth allows uncompromised and unprecedented sound quality. With the addition of the Alteros direct-to-fiber system, GTX technology can now be applied to an enormously extended range of applications.

The GTX3224F and GTX-8 hardware will be available November, 2018.

Let us know what you think…

Log-in or Register for free to post comments…

You might also like...

Special Report: Super Bowl LIII – The Technology Behind the Broadcast

New England Patriot quarterback, Tom Brady, entered Mercedes Benz stadium in Atlanta, GA on February 3rd having already won five Super Bowl games. And through four-quarters of play, all delivered by a television crew of hundreds of technicians, sports casters…

eBook:  Preparing for Broadcast IP Infrastructures

This FREE to download eBook is likely to become the reference document you keep close at hand, because, if, like many, you are tasked with Preparing for Broadcast IP Infrastructures. Supported by Riedel, this near 100 pages of in-depth guides, illustrations,…

Practical Broadcast Storage - Part 3

Artificial Intelligence (AI) has made its mark on IT and is rapidly advancing into mainstream broadcasting. By employing AI methodologies, specifically machine learning, broadcasters can benefit greatly from the advances in IT infrastructure innovation and advanced storage designs.

An Insider’s Guide to Object Storage

As the IP revolution continues to gain momentum and more broadcast facilities take advantage of the fantastic and unprecedented opportunities IT delivers, administrators and system designers must master the complex aspects of data storage.

IP Control Uncovered

As broadcasters continue to successfully migrate video and audio to IP, attention soon turns to control, interoperability, and interconnectivity to improve reliability and efficiency. In this article, we investigate IP control as we move to IP infrastructures.