These last several months I, along with 3 other seniors here at Oregon State University, have been working on a wireless digital audio project. I've done all the design, and most of the assembly. (The other guys are doing simulation, documentation, and some assembly.) I need to have it finished by May 7th, so as you can imagine I haven't really had time to work on much else. Just a couple hours ago I got the transmitter to talk to the receiver totally isolated from each other and actually heard recognizable audio for the first time. After that I decided to take a break, and that's why I'm typing this...
It's actually pretty revolutionary if it can be made cheap enough. Imagine a device similar to a home audio receiver (or actually built into it) where you connect all your audio devices such as satellite, DVD, CD player, radio, VCR, etc. This is our transmitter. It could use a regular remote control to select which input is currently being transmitted.
The receiver section can be built into virtually any audio device, speakers, headphones, etc. The receiver can select between multiple transmitters (kind of like channels, if more than one transmitter is present). What makes this device special is that it is sending 16 bit, 48 kHz sampling rate digital stereo audio (slightly better than CD quality). If I were to build on what I've got, you could place any device with a receiver anywhere within about 100m or so away from the transmitter and get CD quality sound without any wires. If it were built into a set of headphones, you could walk around anywhere within your house and it would be just like you were plugged into a CD player.
To be able to send digital audio at this quality level, I need a lot of bandwidth. (Specifically 6.144 Megabits/second.) 802.11b (11 Mb/s) or better yet 802.11a (54 Mb/s) can handle it. Unfortunately, I can't afford the development kits for the more common 802.11b chipsets, so at this point I use a sort of turbocharged infrared setup. That means I only have a range of about 10 feet, but it's a LOT cheaper. It does serve as a proof of concept though. I'm sure as the cost of 802.11b chipsets, the same system that is used for wireless computer networks, come down in price I will be able to do it that way economically, I designed the system to be able to use any method of transmission capable of handling this data rate. (Our group is currently calling it a HAN - home audio network.) I think there is a good chance that you might start seeing similar systems to this within the next 5 years or so as the cost of components necessary come down in price and shrink in size and power consumption. Currently it would cost around $400 for one transmitter and one receiver if I used 802.11b. (The receiver can drain a 9V battery, if it's driving headphones directly, in about an hour... ) With IR it's *only* cost me about $150. I wish I could have afforded to use RF, rather than IR, but I don't have that kind of money laying around.
This is what our group choose as a senior project, which I need to complete my Electrical Engineering degree. I've spent the better part of a year working on this. As you can imagine, I'm pretty excited to have actually gotten the thing working nearly perfectly about an hour ago.
You really just can't imagine how good it sounds unless you can actually experience it. It's just like hearing sound out of a CD player, but there are no wires connecting the speakers to the CD player. I've only got a couple known small bugs left to work out and it will be ready for demonstration. I think this may have actually been the very first time this has been done with this high of a bit rate, there is certainly nothing directly comparable on the market like this that I am aware of.
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I know this has nothing to do with AH, but I'm sure many of you know how it feels to have spent months of your time on something to see it finally come to life and actually work. For me, seeing something I designed and built come to life and work is one of the best feelings in the world. After working 5 - 6 hours a day for the last 2 weeks straight on this it was such a relief to have it finally working. (I'm also very happy to know that I will be able to graduate this term...
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