Hayward, CA (April 15, 2009)--Wohler Technologies Inc. has introduced the AMP2-16-3G, a 3Gbps-capable 16-channel audio monitor, to address broadcasters' migration to HD and their increasing reliance on higher-capacity 3Gbps video transport infrastructures.
"The AMP2-16-3G offers functionality critical to monitoring in complex HD broadcast operations, handling numerous audio channels, providing support for advanced infrastructures, and giving operators flexibility in selecting input types according to the changing needs of the business and workflow," said Kim Templeman-Holmes, vice president of global sales and marketing at Wohler.
Wohler's AMP2-16-3G provides simultaneous display for up to 16 channels of embedded audio within a single multirate 3Gbps signal. Equipped with five card slots, the audio monitor allows users to "pick and mix" inputs and adapt the AMP2-16-3G to the evolving needs of the broadcast operation. This same functionality also enables users of Wohler's AMP2-16MSDI system, available with Audio Engineering Society (AES) and Dolby E options, to upgrade their systems with the addition of a 3Gbps card.
The AMP2-16-3G audio monitor addresses issues in DTV audio delivery, providing measurement of program loudness in adherence with ITU-1770/1771, which is displayed on the unit's LCD status screen.
Built on a fully digital system architecture featuring multiple high-fidelity class D amplifiers, the AMP2-16-3G provides near-field monitoring for any mix of stereo and mono sources in a 2RU design. The monitor includes demuxed outputs of eight AES pairs on BNC connectors and also provides a reclocked loop output of the 3Gbps signal.
The monitor's high-resolution LCD display has 210-segment high-resolution bar graph level meters. Colors and settings for scale and range are user-selectable, along with several predefined scales and ballistics, including AES, BBC and Nordic. Each displayed meter set indicates the phase for stereo sources prior to output on the speakers.
The AMP2-16-3G will be available in July 2009.
Wohler Technologies Inc.