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Wi-Fi antenna postscrip
On Tue, 20 Apr 2010 01:45:27 +0000, Larry wrote:
Bruce wrote in : I ended up building two wi-fi parabolic antenna. the first a 300 mm screen-wire dipper (used for frying bananas) measured 300 mm in diameter and about 90 mm deep. Later built a second dish using a 430 mm aluminum "wok" about 100 mm deep. The first antenna gave a better signal then the adapter but the second antenna gave, using the instruments available to me, approximately 3 times the signal that the bare wi-fi "adapter" had. As I previously mentioned I do not have a signal strength meter and used the standard Linux utility "iwconfig" to produce some sort of data. It gave a reading of 6 for signal strength using the bare adapter and as high as 23 with the wok I can only assume that whatever the value of the increments that the ratio is accurate. As luck would have it, I found an abandoned TV "cable" antenna - as used here "cable" is received on a 3 foot dia. parabolic antenna and I will probably try that at some later date. Cheers, Bruce (bruceinbangkokatgmaildotcom) http://www.turnpoint.net/wireless/has.html http://www.oreillynet.com/cs/weblog/view/wlg/448 http://binarywolf.com/249/pringles_cantenna.htm http://www.netscum.com/~clapp/wireless.html http://www.seattlewireless.net/PringlesCantenna We get about 1.5 miles range from my 200mw hotspot with a 6db antenna 15 meters up in a tree. The whole hotspot is built into an inverted plastic bucket. The pringle's can antennas are very directional and great for point to point work like you're doing.....and can be built and rebuilt for nothing. I was going to built a tin can antenna but the devil is in the details and so far I haven't been able to locate the tiny coax connectors that connect to the wi-fi adapter and as I had read that at wi-fi frequencies the loss in the usually available cable is nearly equal to the gain of the antennas I have been a bit reluctant to try. I am making a trip down to the "electronic district" tomorrow and, after having written the above, will undoubtedly discover a source of not only the connectors but also a coil of low loss cable that I can get free :-) Cheers, Bruce (bruceinbangkokatgmaildotcom) |
Wi-Fi antenna postscrip
Here's a tip. Construct a Tee piece say 2 inch across the top of the tee. Emanating at a 90 degree angle from the center of this 2
inch piece is a straight edge long enough to reach and pass the theoretical focal point....make an educated guess....Mark the center of the parabolic dish with a magic marker. Use a tape measure or fasten a rod of any material perpendicular to the dish center. Place the Tee piece anywhere on the surface of the dish and where the leg of the Tee crosses the center rod is the focal point. Do this several times from different locations on the dish surface and average the crossing point on the perpendicular. Simple. Steve "Bruce" wrote in message ... On Tue, 20 Apr 2010 09:07:53 +0200, "Steve Lusardi" wrote: Bruce, I assume you know how to find the parabola's focal point. I won't bore you with a plan if you already know. Let me know if my assumption is incorrect. Steve Yes, have the formula and know about the reflected sunlight method, although that never seemed to work for me as when I put out a piece of paper to measure the reflection it shaded the dish and the reflected beam was too weak to see :-) I'll have to get a special piece of something transparent to use. "Bruce" wrote in message ... On Mon, 19 Apr 2010 22:28:25 +0200, "Steve Lusardi" wrote: As I stated Bruce, the TV antenna is a good plan. It will be a true parabola and the gain over what you have will be significant. Don't forget about the 30 degree included angle that is built in. You will have to move the detector up to the center for your application. Steve No worry about misalignment a there is no "horn" on it. Just a dish :-) It is currently being used as a "roof" for a well pump and I have some 20 ltr. pails that, with a notch cut in one side to clear the piping will work even better so I reckon a trade can be made... once I and them get back to Phuket. "Bruce" wrote in message ... I ended up building two wi-fi parabolic antenna. the first a 300 mm screen-wire dipper (used for frying bananas) measured 300 mm in diameter and about 90 mm deep. Later built a second dish using a 430 mm aluminum "wok" about 100 mm deep. The first antenna gave a better signal then the adapter but the second antenna gave, using the instruments available to me, approximately 3 times the signal that the bare wi-fi "adapter" had. As I previously mentioned I do not have a signal strength meter and used the standard Linux utility "iwconfig" to produce some sort of data. It gave a reading of 6 for signal strength using the bare adapter and as high as 23 with the wok I can only assume that whatever the value of the increments that the ratio is accurate. As luck would have it, I found an abandoned TV "cable" antenna - as used here "cable" is received on a 3 foot dia. parabolic antenna and I will probably try that at some later date. Cheers, Bruce (bruceinbangkokatgmaildotcom) Cheers, Bruce (bruceinbangkokatgmaildotcom) Cheers, Bruce (bruceinbangkokatgmaildotcom) |
Wi-Fi antenna postscrip
On Tue, 20 Apr 2010 21:34:52 +0200, "Steve Lusardi"
wrote: Here's a tip. Construct a Tee piece say 2 inch across the top of the tee. Emanating at a 90 degree angle from the center of this 2 inch piece is a straight edge long enough to reach and pass the theoretical focal point....make an educated guess....Mark the center of the parabolic dish with a magic marker. Use a tape measure or fasten a rod of any material perpendicular to the dish center. Place the Tee piece anywhere on the surface of the dish and where the leg of the Tee crosses the center rod is the focal point. Do this several times from different locations on the dish surface and average the crossing point on the perpendicular. Simple. Steve The point where a number of lines drawn at right angle to parabolic dish intersect a line drawn at 90 degrees from the center of the dish. I'm still going to get a sheet of Plexiglas, or something and try focusing the dish, if for no other reason then to say that I did it :-) "Bruce" wrote in message ... On Tue, 20 Apr 2010 09:07:53 +0200, "Steve Lusardi" wrote: Bruce, I assume you know how to find the parabola's focal point. I won't bore you with a plan if you already know. Let me know if my assumption is incorrect. Steve Yes, have the formula and know about the reflected sunlight method, although that never seemed to work for me as when I put out a piece of paper to measure the reflection it shaded the dish and the reflected beam was too weak to see :-) I'll have to get a special piece of something transparent to use. "Bruce" wrote in message ... On Mon, 19 Apr 2010 22:28:25 +0200, "Steve Lusardi" wrote: As I stated Bruce, the TV antenna is a good plan. It will be a true parabola and the gain over what you have will be significant. Don't forget about the 30 degree included angle that is built in. You will have to move the detector up to the center for your application. Steve No worry about misalignment a there is no "horn" on it. Just a dish :-) It is currently being used as a "roof" for a well pump and I have some 20 ltr. pails that, with a notch cut in one side to clear the piping will work even better so I reckon a trade can be made... once I and them get back to Phuket. "Bruce" wrote in message ... I ended up building two wi-fi parabolic antenna. the first a 300 mm screen-wire dipper (used for frying bananas) measured 300 mm in diameter and about 90 mm deep. Later built a second dish using a 430 mm aluminum "wok" about 100 mm deep. The first antenna gave a better signal then the adapter but the second antenna gave, using the instruments available to me, approximately 3 times the signal that the bare wi-fi "adapter" had. As I previously mentioned I do not have a signal strength meter and used the standard Linux utility "iwconfig" to produce some sort of data. It gave a reading of 6 for signal strength using the bare adapter and as high as 23 with the wok I can only assume that whatever the value of the increments that the ratio is accurate. As luck would have it, I found an abandoned TV "cable" antenna - as used here "cable" is received on a 3 foot dia. parabolic antenna and I will probably try that at some later date. Cheers, Bruce (bruceinbangkokatgmaildotcom) Cheers, Bruce (bruceinbangkokatgmaildotcom) Cheers, Bruce (bruceinbangkokatgmaildotcom) Cheers, Bruce (bruceinbangkokatgmaildotcom) |
Wi-Fi antenna postscrip
On Wed, 19 May 2010 09:32:26 -0700, John Navas
wrote: On Mon, 19 Apr 2010 22:28:25 +0200, "Steve Lusardi" wrote in : As I stated Bruce, the TV antenna is a good plan. It will be a true parabola and the gain over what you have will be significant. Don't forget about the 30 degree included angle that is built in. You will have to move the detector up to the center for your application. The shape of the antenna is not critical -- in practice a typical curved bowl will work pretty much the same as a carefully constructed parabola. Since I wrote the original I have done more research and it appears that the current favorite is the offset feed dishes. One article has a method of calculating the reflection angle and then cutting a string for the far side of the dish and a second for the near side and mount the feed at the point that the two strings meet. Also I found several articles abut the construction of double quad antennas and one of the articles showed the graphs of test with 12 db gain. I may change to the quad if I can get that much gain from a smaller antenna as none of the tests I saw indicated that the dish produced really astonishing gain. Cheers, Bruce (bruceinbangkokatgmaildotcom) |
Wi-Fi antenna postscrip
In article ,
John Navas wrote: The shape of the antenna is not critical -- in practice a typical curved bowl will work pretty much the same as a carefully constructed parabola. It is a "Good Thing" you do NOT design Antenna Systems for a living, because you would be out of business in a week. Don't give up your DAY JOB. |
Wi-Fi antenna postscrip
Bruce wrote in
: On Wed, 19 May 2010 09:32:26 -0700, John Navas wrote: On Mon, 19 Apr 2010 22:28:25 +0200, "Steve Lusardi" wrote in : As I stated Bruce, the TV antenna is a good plan. It will be a true parabola and the gain over what you have will be significant. Don't forget about the 30 degree included angle that is built in. You will have to move the detector up to the center for your application. The shape of the antenna is not critical -- in practice a typical curved bowl will work pretty much the same as a carefully constructed parabola. Since I wrote the original I have done more research and it appears that the current favorite is the offset feed dishes. One article has a method of calculating the reflection angle and then cutting a string for the far side of the dish and a second for the near side and mount the feed at the point that the two strings meet. Also I found several articles abut the construction of double quad antennas and one of the articles showed the graphs of test with 12 db gain. I may change to the quad if I can get that much gain from a smaller antenna as none of the tests I saw indicated that the dish produced really astonishing gain. Cheers, Bruce (bruceinbangkokatgmaildotcom) All of this discussion is MOST commendable, however it is also most moot. All the gain in the world isn't going to overcome the natural signal to noise ratio problem of inverse square law propagation from the router's antenna against the intense solar and thermal noise of a sunny day and a hot parking lot. The routers were specifically designed to limit range to approximately 100 meters by reducing their power output to a pittance, like your sellphone. Some routers only run 10-20mw into horrible antennas made of a piece of pc board. The best ones only run 200mw tops into a 3db whip with space diversity receivers to hear your 20mw powerful beast coming back to them. Highly directional antennas, just as with UHF analog TV and its "ghosting" problem, do help reduce multipath propagation IF the antenna is very tight patterned with very little back pattern, such as the Pringle's Cantenna we've been building for years. http://www.turnpoint.net/wireless/has.html http://www.turnpoint.net/wireless/cantennahowto.html These waveguide antennas have no rear radiation as the back of them is solid metal. Antennas designed around HF, VHF even UHF are of little use on microwaves, however cute. Waveguide antennas are used for radar for a reason. http://www.oreillynet.com/lpt/wlg/448 As you can see, their signal to noise ratio is quite impressive, much more impressive than an open HF/VHF/UHF design. "The test partner (AP side) signal results were virtually the same. Interestingly, even at only 0.6 mile, we saw some thermal fade effect; as the evening turned into night, we saw about 3db gain across the board (it had been a particularly hot day: almost 100 degrees. I don't know what the relative humidity was, but it felt fairly dry.)" Our measurements between my hotspot 20 meters up an oak tree under an inverted plastic bucket and the USAF enlisted barracks (I support the troops) are very similar. Some days the combination of high humidity and high temperature obscure my 200mw into a 6db co-linear quite badly over the 1.2km path length to the roof of the 4 story barracks building where the Pingle's Cantennas are mounted on various pipes to hide them from paranoid schitzophrenic inspections. Sky News in London gave the Pringle's Cantenna a boost, recently: http://www.youtube.com/watch?v=xO-KO3McAOY of course, blaming it for hacking, to infer it should be outlawed by the UK nanny state. http://www.youtube.com/results?searc...n+antenna&aq=f There's lots of great videos from the "hackers". Oddly, most of them look like anyone in your neighborhood, not some dangerous cyber criminals. I'm sure the news paranoids will win, at some point, and we'll all be arrested by Homeland Security in the USA. -- Creationism is to science what storks are to obstetrics. Larry |
Wi-Fi antenna postscrip
John Navas wrote in
news:51gav5tq7615kpj02tdpkjh9fe9c9kq4if@navasgroup .com: http://www.ab9il.net/wlan-projects/wifi1.html We've tried his type of UHF antennas. The signal to noise ratio in daylight is horrible from all the back pattern and many side lobes of these designs for lower frequencies. A yagi isn't a good microwave antenna when multipath reflections are eating up your data with odd pulsewidths and pulses and the sun is boiling the molecules in the parking lot. You can even see the S/N ratio drop by turning on a nearby incandescent light bulb! Microwave antennas for both 2400 and 5200 Mhz (N band) are too easy to build out of a Pringle's can or old juice can that can reduce background radiation and thermal noise by a huge margin. It's like looking at a distant object with your naked eye in bright sunlight, squinting because of the glare (noise)......then, looking at the same object through a paper towel cardboard tube that's been painted flat black inside (pringle's cantenna). Without all the noise, the object is much easier to look at. The same is true of these little round microwave antennas, with or without the internal washer-made yagis to improve the tuning and bandwidth. -- Creationism is to science what storks are to obstetrics. Larry |
Wi-Fi antenna postscrip
On Thu, 20 May 2010 06:59:35 -0700, John Navas
wrote: http://www.ab9il.net/wlan-projects/wifi1.html Thanks for that URL, I hadn't seen it. The Linux hacks are interesting. Cheers, Bruce (bruceinbangkokatgmaildotcom) |
Wi-Fi antenna postscrip
rOn Thu, 20 May 2010 23:30:20 +0000, Larry wrote:
Bruce wrote in : On Wed, 19 May 2010 09:32:26 -0700, John Navas wrote: On Mon, 19 Apr 2010 22:28:25 +0200, "Steve Lusardi" wrote in : As I stated Bruce, the TV antenna is a good plan. It will be a true parabola and the gain over what you have will be significant. Don't forget about the 30 degree included angle that is built in. You will have to move the detector up to the center for your application. The shape of the antenna is not critical -- in practice a typical curved bowl will work pretty much the same as a carefully constructed parabola. Since I wrote the original I have done more research and it appears that the current favorite is the offset feed dishes. One article has a method of calculating the reflection angle and then cutting a string for the far side of the dish and a second for the near side and mount the feed at the point that the two strings meet. Also I found several articles abut the construction of double quad antennas and one of the articles showed the graphs of test with 12 db gain. I may change to the quad if I can get that much gain from a smaller antenna as none of the tests I saw indicated that the dish produced really astonishing gain. Cheers, Bruce (bruceinbangkokatgmaildotcom) All of this discussion is MOST commendable, however it is also most moot. All the gain in the world isn't going to overcome the natural signal to noise ratio problem of inverse square law propagation from the router's antenna against the intense solar and thermal noise of a sunny day and a hot parking lot. The routers were specifically designed to limit range to approximately 100 meters by reducing their power output to a pittance, like your sellphone. Some routers only run 10-20mw into horrible antennas made of a piece of pc board. The best ones only run 200mw tops into a 3db whip with space diversity receivers to hear your 20mw powerful beast coming back to them. Highly directional antennas, just as with UHF analog TV and its "ghosting" problem, do help reduce multipath propagation IF the antenna is very tight patterned with very little back pattern, such as the Pringle's Cantenna we've been building for years. http://www.turnpoint.net/wireless/has.html http://www.turnpoint.net/wireless/cantennahowto.html These waveguide antennas have no rear radiation as the back of them is solid metal. Antennas designed around HF, VHF even UHF are of little use on microwaves, however cute. Waveguide antennas are used for radar for a reason. http://www.oreillynet.com/lpt/wlg/448 As you can see, their signal to noise ratio is quite impressive, much more impressive than an open HF/VHF/UHF design. "The test partner (AP side) signal results were virtually the same. Interestingly, even at only 0.6 mile, we saw some thermal fade effect; as the evening turned into night, we saw about 3db gain across the board (it had been a particularly hot day: almost 100 degrees. I don't know what the relative humidity was, but it felt fairly dry.)" Our measurements between my hotspot 20 meters up an oak tree under an inverted plastic bucket and the USAF enlisted barracks (I support the troops) are very similar. Some days the combination of high humidity and high temperature obscure my 200mw into a 6db co-linear quite badly over the 1.2km path length to the roof of the 4 story barracks building where the Pingle's Cantennas are mounted on various pipes to hide them from paranoid schitzophrenic inspections. Sky News in London gave the Pringle's Cantenna a boost, recently: http://www.youtube.com/watch?v=xO-KO3McAOY of course, blaming it for hacking, to infer it should be outlawed by the UK nanny state. http://www.youtube.com/results?searc...n+antenna&aq=f There's lots of great videos from the "hackers". Oddly, most of them look like anyone in your neighborhood, not some dangerous cyber criminals. I'm sure the news paranoids will win, at some point, and we'll all be arrested by Homeland Security in the USA. Generally I agree with you (hard to argue with facts :-) but the point is, if with Antenna X, you have a very low signal strength and with Antenna Y you have a much stronger signal then antenna Y will. in nearly all cases, give better results. All of the high gain wi-fi antennas, that I have looked at, mainly the cans, quad, corner reflector, etc., which have high gain also have good signal/noise ratios and are highly directive. In addition, from the reading I have done, all of the high frequency antennas are sensitive to the accuracy with which they are built - tests I have seen on various cans showed a difference in gain that was probably caused by fractions of a millimeter in inaccuracy. Likely I could beg/buy/make a signal strength meter and SWR meter and set up a proper antenna test range and spend days building a perfect, antenna, but I'm not interested in that and all I want to do is log on the Internet and read RBE. The dish I built gave me a much better signal than the wifi adapter alone however SHMBO is not happy with a wok hung on the wall - says it does nothing for the decor and in Thailand a wok belongs in the kitchen, so I am trying to build something that gives approximately the same gain, or better, as the dish and is not so weird looking hanging on the bed-sitter wall.. Cheers, Bruce (bruceinbangkokatgmaildotcom) |
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