Cambridge Consultants has launched a reference design for low cost, high performance radio microphones using the Digital Enhanced Cordless Telecommunications (DECT) platform. By taking advantage of DECT, the radio microphone design delivers higher audio quality with no interference and quadruples the range of existing radio microphone technology, whilst also lowering the total bill of materials (BOM) costs to under $12 for each microphone.
The microphone design deploys the company's DECT-based Salix audio distribution platform, delivering high quality 15 kHz audio bandwidth with automated set-up and frequency management. DECT has a dedicated license-exempt band in most countries worldwide and also ensures that the microphone platform has high spectral density, allowing up to 40 microphones in a single space without mutual interference or spurious effects. It also extends the range of radio microphones up to 100 metres without requiring line of sight to the transmitter, as opposed to existing technologies that typically allow a range of 25 metres. DECT's automatic frequency band allocation ensures that the the microphones can be 'paired' with the receiver(s) with a simple button press.
"Many users of radio microphones are faced with significant frequency management issues that are difficult to solve with limited budgets or in-house expertise. Consequently, we have designed our new platform specifically to enable 'fit and forget' deployment - saving set-up time and cost whilst at the same time delivering significantly improved audio performance and range," commented Tim Whittaker, System Architect in Cambridge Consultants' Wireless Division.
The tested and proven microphone system reference design is available as a hardware documentation package including photoplot and assembly information, with executable software for both transmitter and receiver ends. Alternatively, source code licensing is available for custom design. It comprises a transmitter board of suitable size to fit within a handheld microphone or belt-pack transmitter, and a receiver board with diversity antennas. Pairing a microphone to a receiver is by a simple one-step user process. A modern high quality, low latency music codec delivers audio with a 15 kHz bandwidth.
Tim Whittaker from Cambridge Consultants will be demonstrating the Salix-based microphones as well as audio distribution systems at Integrated Systems Europe (ISE), Amsterdam, 31st January – 2nd February 2012.
For further information: http://www.cambridgeconsultants.com.
This article originally appeared on EE Times Europe.