|
wrote:
The above extract is lost on me as I was looking for maximum gain per unit boom length based on NEC without regard to number of elements required to attain that gain. Thus increases or decreases from critical coupling can be ascertained.. You misunderstand what this curve is telling you. There is a general law that gain is proportional to "aperture area". For something like a dish, "aperture area" is the frontal area of the dish itself (multiplied by an efficiency factor 1). For long yagis, "aperture area" is roughly proportional to boom length. This concept has nothing whatever to do with NEC! But it is the absolute bedrock of all antenna engineering. What you really need right now is to read the first few chapters of Kraus... and understand these most basic principles. NEC calculations will not tell you anything about this. NEC is simply a tool to calculate what the gain of a particular antenna will be (or can be, if you build it as modeled). -- 73 from Ian G3SEK 'In Practice' columnist for RadCom (RSGB) http://www.ifwtech.co.uk/g3sek |
On Sun, 17 Oct 2004 17:01:22 -0400, "G&R" makes a claim and opens
himself up to skewering: |Hi Art, | |While this was the common theory many years ago, there other ways to get |gain from an antenna other than boom length and number of elements. | |ie On 2m we are able to get 11.2 dBd on a 45inch boom with 3 elements |stacked 2 wide. Yes, this is range tested see results at |http://www.csvhfs.org/ant/CSANT04.HTML Uh Oh! The measured data show 11.2 dBd, the advertising shows 13.97 dBd. I thought maybe I went to the Raibeam site by mistake but no, I went he http://www.degendesigns.com/StackedVwave.htm I love that precision BTW. I've done a fair amount of antenna range testing using HP 8510s for measurement receivers and I've never been able to establish gain within 1/100 dB. But you can do it with a ham receiver and "subjective analysis". Congratulations. Since you're using two 45" booms spaced 58" apart, I would argue that you should compare your design to a 148" boom Yagi and see what happens. How about posting your dimensions so we can see what modeling says about them. One further note: The Dataq DI-194 mentioned at: http://www.degendesigns.com/Downloads.htm WILL NOT work with all computers. This device is powered by the serial port and my Toshiba laptops will not drive it. |
Ian, All the points you made are very good especialy when you
stated that gain is ROUGHLY proportional to boom length and then go on to mention "aperture' The question I asked was very specific but not personal like the presidential debates this newsgroup uses the question as the basis for what they want to say. The reason I asked the specific question was to obtain a datum line for antennas relative to gain and a well used term of boom length. NEC programs can provide this basic if the latest revision is used and the program is all encombassing.( Many are not) Mention coupling and some experts go nuts but NEC is all encompassing provides definitive answers that remove measurement errors presently shown and cuts through a lot of garbage. All encompassing is all important in that sufficient segments are available together with the use of variuable dimensions as this gets away from use of methods to get around inadequacy of a particular program. You mention "aperture" but I don.t believe it changes any results given by NEC. Others ridicule the use of the term critical coupling yet NEC shows that element currents can be changed via coupling and it is current placement that we are interested in, so why so much redicule/ The same goes for element diameters NEC provides the correct construction for elements which is another important variable for gain So in other words, a NEC curve would deflect most arguments and personal agenders from the beginning and if one supplies actual measurement that are contrary to those of NEC then we have a basis for truly specific debate. As somebody pointed out, one slanging match has been going on for more than eight years regarding the use of critical coupling, another is the subject of coils, actual measurement versus a manipulated program calculation. I pretty much have had it with excuses regarding inadequecies of some programs, If NEC is a really viable tool; then let us use it as a datum by using a NEC program that is all encompassing to judge measured claims against so hat true specific can be judged. It is possible after all that even NEC may obtain several more revisions over time because of actual measurement which can only aid all in the understanding of antennas and the removal of old wifes tales and private agendas that evolved prior to NEC. Is it auguments that we yearn for on this newsgroup or true resolution of ideas? Art "Ian White, G3SEK" wrote in message ... wrote: I did not want to choose a curve that matches my modelling which you can when presented with three different curves all of which are formulated at different times by different people. I would have thought that the advent of NEC would render these curves redundant ! The plot of many individual yagis does confirm the general idea of gain being roughly proportional to boom length, and that is a very important thing to understand. clip |
Wes,
You make the point quite well that I was trying to make before I read your post (written simultainiously) and at the present time NEC is seen as judge absolute. Yes there are many ways to increase gain but you cannot use a shackled NEC program to authenticate the results and we often use such as a crutch. On the subject of boom length I was basing things on a single boom length where number, position and physical atributes of additionion elements are brought into play to overcome program idequacies and provide correction of assigned dimensions to achieve maximum gain.(Is this to much to ask now that we have the NEC tool/) To often the accusation comes up that computor input was incorrect or not enough segments provided e.t.c. and a datum curve would prove a valuable tool, not only to those that use computor modelling but also to experimentors who seek real world answers and possibly challenge the authenticicity of either methods Thanks for the links,will read them later, have to get a floooooo shot now Art "Wes Stewart" wrote in message ... On Sun, 17 Oct 2004 17:01:22 -0400, "G&R" makes a claim and opens himself up to skewering: |Hi Art, | |While this was the common theory many years ago, there other ways to get |gain from an antenna other than boom length and number of elements. | |ie On 2m we are able to get 11.2 dBd on a 45inch boom with 3 elements |stacked 2 wide. Yes, this is range tested see results at |http://www.csvhfs.org/ant/CSANT04.HTML Uh Oh! The measured data show 11.2 dBd, the advertising shows 13.97 dBd. I thought maybe I went to the Raibeam site by mistake but no, I went he http://www.degendesigns.com/StackedVwave.htm I love that precision BTW. I've done a fair amount of antenna range testing using HP 8510s for measurement receivers and I've never been able to establish gain within 1/100 dB. But you can do it with a ham receiver and "subjective analysis". Congratulations. Since you're using two 45" booms spaced 58" apart, I would argue that you should compare your design to a 148" boom Yagi and see what happens. How about posting your dimensions so we can see what modeling says about them. One further note: The Dataq DI-194 mentioned at: http://www.degendesigns.com/Downloads.htm WILL NOT work with all computers. This device is powered by the serial port and my Toshiba laptops will not drive it. |
Hi Wes,
Yes I am aware of the difference between the advertising on the site and the range results. As you are aware antennas do not have even gain across the entire band. We have designed the antenna to cover the entire 2m band and as a result do see a variation in the perfromance across the band, hence max gain. And before you cut down my comments, the precision on the results are from the softare and we are in the process of redesigning the format to more accurately reflect our actual results both modelled and actual. Unfortunately our business is antennas and web design. The results posted on the CSVHF society are valid as the antenna was tested with a gain of 11.2dBd at 144.18MHz Horiz Polarization. Design Freq is 146.0MHz. We are in the business of designing and selling antennas not developing antennas and giving them away for free. However, if your serious about the data for the antenna contact me directly so that we can discuss the details (email listed below). As to the DATAQ, well I have no answer for that one, as we don't build it or sell it. Our software is designed to with run it. Strange though, my Toshiba does and so does my SONY through a USB to SERIAL converter. One final point, the purpose of the posting was that identify that an antenna does not always need boom length and elements for gain and that there are other ways to achieve this. Respectfully, Guenther VE3CVS www.degendesigns.com "Wes Stewart" wrote in message ... On Sun, 17 Oct 2004 17:01:22 -0400, "G&R" makes a claim and opens himself up to skewering: |Hi Art, | |While this was the common theory many years ago, there other ways to get |gain from an antenna other than boom length and number of elements. | |ie On 2m we are able to get 11.2 dBd on a 45inch boom with 3 elements |stacked 2 wide. Yes, this is range tested see results at |http://www.csvhfs.org/ant/CSANT04.HTML Uh Oh! The measured data show 11.2 dBd, the advertising shows 13.97 dBd. I thought maybe I went to the Raibeam site by mistake but no, I went he http://www.degendesigns.com/StackedVwave.htm I love that precision BTW. I've done a fair amount of antenna range testing using HP 8510s for measurement receivers and I've never been able to establish gain within 1/100 dB. But you can do it with a ham receiver and "subjective analysis". Congratulations. Since you're using two 45" booms spaced 58" apart, I would argue that you should compare your design to a 148" boom Yagi and see what happens. How about posting your dimensions so we can see what modeling says about them. One further note: The Dataq DI-194 mentioned at: http://www.degendesigns.com/Downloads.htm WILL NOT work with all computers. This device is powered by the serial port and my Toshiba laptops will not drive it. |
A graph from NEC data is going to be pretty much like a graph from the ARRL
books. By putting the data in a graphic form your are placing the same limits on the data as they had to in the ARRL books. The ARRL graphs give you a pretty good idea of what goes on when you change element spacing, number of elements and so on. What they dont do is alllow you to perform optimization like the NEC programs . Graphing a NEC program output would be the same as going back to the time all you had was the graphs to go by unless you are willing to do all the calculations on your slide rule or calculator. What I am saying is that you already have this data. No point in reinventing the wheel.Unless you think yiou can get a patent on it. " wrote in message news:65Zcd.150611$He1.116446@attbi_s01... Jimmy, I did not want to choose a curve that matches my modelling which you can when presented with three different curves all of which are formulated at different times by different people. I would have thought that the advent of NEC would render these curves redundant ! Art "Jimmie" wrote in message . com... " wrote in message news:xOzcd.263953$D%.243703@attbi_s51... My ARRL books go back a decade or more and the graph showing gain per boom length has several curves based on different measurements e.t.c. Has a graph been made based solely on NEC program findings over say a perfect ground and at a uniform height? Art They probably have been done but there will not be much difference between them and the ARRL graphs. Its been long known how to calculate antenna gain, computers just take the teadous labor out of it. |
" wrote in message news:t4bdd.277152$D%.236528@attbi_s51... Ian, All the points you made are very good especialy when you stated that gain is ROUGHLY proportional to boom length and then go on to mention "aperture' The question I asked was very specific but not personal like the presidential debates this newsgroup uses the question as the basis for what they want to say. The reason I asked the specific question was to obtain a datum line for antennas relative to gain and a well used term of boom length. NEC programs can provide this basic if the latest revision is used and the program is all encombassing.( Many are not) Mention coupling and some experts go nuts but NEC is all encompassing provides definitive answers that remove measurement errors presently shown and cuts through a lot of garbage. All encompassing is all important in that sufficient segments are available together with the use of variuable dimensions as this gets away from use of methods to get around inadequacy of a particular program. You mention "aperture" but I don.t believe it changes any results given by NEC. Others ridicule the use of the term critical coupling yet NEC shows that element currents can be changed via coupling and it is current placement that we are interested in, so why so much redicule/ The same goes for element diameters NEC provides the correct construction for elements which is another important variable for gain So in other words, a NEC curve would deflect most arguments and personal agenders from the beginning and if one supplies actual measurement that are contrary to those of NEC then we have a basis for truly specific debate. As somebody pointed out, one slanging match has been going on for more than eight years regarding the use of critical coupling, another is the subject of coils, actual measurement versus a manipulated program calculation. I pretty much have had it with excuses regarding inadequecies of some programs, If NEC is a really viable tool; then let us use it as a datum by using a NEC program that is all encompassing to judge measured claims against so hat true specific can be judged. It is possible after all that even NEC may obtain several more revisions over time because of actual measurement which can only aid all in the understanding of antennas and the removal of old wifes tales and private agendas that evolved prior to NEC. Is it auguments that we yearn for on this newsgroup or true resolution of ideas? Art "Ian White, G3SEK" wrote in message ... wrote: I did not want to choose a curve that matches my modelling which you can when presented with three different curves all of which are formulated at different times by different people. I would have thought that the advent of NEC would render these curves redundant ! The plot of many individual yagis does confirm the general idea of gain being roughly proportional to boom length, and that is a very important thing to understand. clip There is no direct connection between boom length and gain. This is because lengthing the boom also implies one has added elements and possibly made adjustments to element spacing. A good source of the data you seek may be an antenna catalog(or manufacturers web site). compare the published gains of the different length antennas. |
"Jimmie" wrote in message . com... A graph from NEC data is going to be pretty much like a graph from the ARRL books. Come on Jimmy,' pretty much like' doesn't cut it on this newsgroup or in any of the professions The same as pretty close is not accepted when doing math at college. The curves in the ARRL book were done on 'standard' yagis measured in the field, at least two of the curves therefore have measuring errors, and possibly three of those do not match NEC formulated curves. Since you do not want to reinvent the wheel which curve or formula do YOU want all to follow for short boom antennas i.e. which curve, and there are many, represents the "wheel" . that can be specifically used as the datum curve in response to my specific request? Note, a NEC produced gragh will produce a scattering of points for different yagi's but only ONE point for MAX GAIN PER UNIT LENGTH OF BOOM regardless of how many elements are used which when used on short booms produce coupling effects which change current flow, an effect not generally seen when elements are not critically coupled as in the standard yagi.. Thus the reason I was specific in my request which should have removed comments such as 'Patents" from those who seek arguments . Art By putting the data in a graphic form your are placing the same limits on the data as they had to in the ARRL books. The ARRL graphs give you a pretty good idea of what goes on when you change element spacing, number of elements and so on. What they dont do is alllow you to perform optimization like the NEC programs . Graphing a NEC program output would be the same as going back to the time all you had was the graphs to go by unless you are willing to do all the calculations on your slide rule or calculator. What I am saying is that you already have this data. No point in reinventing the wheel.Unless you think yiou can get a patent on it Geez Jimmy you are just not reading posts of others ! If you have the requested data then point to a link, if I had the data already I wouldn't ask for help seeking it,. Art " wrote in message news:65Zcd.150611$He1.116446@attbi_s01... Jimmy, I did not want to choose a curve that matches my modelling which you can when presented with three different curves all of which are formulated at different times by different people. I would have thought that the advent of NEC would render these curves redundant ! Art "Jimmie" wrote in message . com... " wrote in message news:xOzcd.263953$D%.243703@attbi_s51... My ARRL books go back a decade or more and the graph showing gain per boom length has several curves based on different measurements e.t.c. Has a graph been made based solely on NEC program findings over say a perfect ground and at a uniform height? Art They probably have been done but there will not be much difference between them and the ARRL graphs. Its been long known how to calculate antenna gain, computers just take the teadous labor out of it. |
Jimmie wrote:
The plot of many individual yagis does confirm the general idea of gain being roughly proportional to boom length, and that is a very important thing to understand. clip There is no direct connection between boom length and gain. This is because lengthing the boom also implies one has added elements and possibly made adjustments to element spacing. Sorry, I should have said that boom length is roughly proportional to the *available* gain, if the whole length of the boom is populated with elements in such a manner as to optimize the gain. That requirement is usually taken as understood. -- 73 from Ian G3SEK 'In Practice' columnist for RadCom (RSGB) http://www.ifwtech.co.uk/g3sek |
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