Originally posted by: Talcite
Lol, oh I know i don't need alot of coverage for a dorm room... the problem comes when I get bored and decide the ENTIRE dorm should have wireless internet =p. I was actually hoping for some of the area outside the dorm, that way I can be outside and stuff have the luxury of wireless.
Anyways, I looked up yagi in wiki, and there's ALOT more than I thought there would be. I'm seriously confused now, because I have no idea what all those wire configurations in wiki were. Btw, what frequency am I looking for? I know it's the 2.4GHz range, but the exact frequency?
Btw, I don't want to spend TOO much, because the entire campus will be wireless by 2009... plus residence is only for 1 year. anyways, there's still 3 years to go! =o. Lol I'll be on fiber by then... (seriously, the campus is upgrading right now 0.o)
Well, the way I envisioned you using the Yagi was that it was attached to an access point in your room and directed to another access point elsewhere in the dorm that also has a Yagi antenna for receiving (and transmitting) that you wanted to hook up to. If you are transmitting wireless for a general device, like your laptop, then such a highly directionalized antenna would not be too useful since you would only be able to get a signal at a specific place. So if this is not your intended usage then you may want to abandon using a directional antenna. Except if you want to go outside and have line of sight from your window. Then it would be easy to direct the antenna to a chosen spot and then head out there.
I think the easiest solution would be one of the cantennas since they are easy to build and there is a lot of information already out on the web. The Yadi Uda project would only be something to consider if you are really interested in doing an EE project.
Paper
Thesis
The linked paper is an example of a printed Yagi Uda dipole. You would basically lay out a design of copper in a PCB program like Eagle and then you can send that design to be fabricated on PCB like FR4 (this would be like $30). Then solder a SMT coax connector and you are done. One thing though, a Yagi Uda is basically a dipole antenna with dummy dipoles in front of the radiating element (to act as directors) and a dummy dipole behind the radiating element (to act as a reflector). So for a dipole antenna, you need to have a balanced signal. Normal signals are unbalanced, the signal is referenced to the ground. In a balanced signal, the signal on the signal line is 180 degrees out of phase with the "ground" signal. You can easily just put what is called a balun down on the PCB as well to take an unbalanced signal, to make it balanced, and then feed it to your Yagi Uda. Page 40 of the thesis (which is based upon the linked paper) has a picture of a Yagi Uda printed on a dielectric with a balun.
It seems to me that the output to the antenna for your router would be balanced, so you do not need to worry about that. You could just do a wire Yagi Uda antenna instead of printing one on PCB. You could easily use NEC to simulate and fine tune your wire antenna. The advantage of the PCB printed antenna was that you would be able to precisely simulate it in something like HFSS or ADS Momentum and the resulting printed antenna would be very close to your simulations since they can control the dimensions of the result to a high degree.
Example
For frequency range, I think you need from 2.4 GHz to 2.9 GHz. Basically this would just require scaling a design since it really all based upon wavelengths. I think the book I was thinking of was the ARRL Handbook. In there I would expect them to have an example printed Yagi Uda antenna that you could adapt (or at least a wire antenna design).
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