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OK, let's discuss dipoles vs length
"Lostgallifreyan" wrote in message me, and is the one I need most to solve in my next efforts). What is this NEC program, and where can I find it? Sorry, but I have to ask, or Google will likely flood me with Nippon Electric Company details. Start here for the explination. Near the bottom are some places to download it. There are many versions and variations by slightly differant names. Some free and some you have to buy. http://en.wikipedia.org/wiki/Numeric...magnetics_Code --- This email is free from viruses and malware because avast! Antivirus protection is active. http://www.avast.com |
OK, let's discuss dipoles vs length
On Sat, 11 Oct 2014 21:49:11 -0000, wrote:
Jeff Liebermann wrote: On Sat, 11 Oct 2014 11:47:22 -0500, John S wrote: Unless I have done something wrong, I see that a dipole that is .05 wavelengths long is within 20% of being as efficient as a half-wave dipole. Even including wire resistance. Sounds about right except that it doesn't include any losses introduced by the necessary matching network and real ground losses at HF frequencies. Expanding my table to include radiation efficiency: There is no feed because it is the ANTENNA that is being analyzed, not an antenna SYSTEM. And while I don't know if the simulation included it, NEC can include the ground losses for the ANTENNA. I used a perfect ground for the monopoles. The NEC deck is shown below the charts on each page. For example: http://802.11junk.com/jeffl/antennas/Monopole/monopole_0_050/slides/monopole_0_050.html http://802.11junk.com/jeffl/antennas/Monopole/monopole_0_125/slides/monopole_0_125.html http://802.11junk.com/jeffl/antennas/Monopole/monopole_0_250/slides/monopole_0_250.html etc. Only the length of the monopole changes. Ground and I^2R losses of the antenna are shown by NEC. Matching losses are NOT part of the antenna. Agreed. I used a perfect ground and ideal conductors in my very simplistic models. The idea was to demonstrate that there is nothing inherent in the length of the antenna that would have a major effect on the gain. I threw in the other losses because I wanted to offer reasons for why short antennas are not particularly popular. It's not the antenna that's the problem. It's all the stuff that goes around the antenna (matching loss, balun loss, combiner loss, tuner loses, resistive losses, height above ground, counterpoise/ground losses, mounting structures, feed line losses, feed line radiation, etc). Yep, and once the issue of size versus efficieny is put to rest, it would not be a bad idea to look at the real effects of ground, both in terms of height in wavelengths and soil quality. Yep. I threw those into the discussion without providing anything in the model to demonstrate their effects. I could/should do that, but I'm busy/lazy this weekend. -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
OK, let's discuss dipoles vs length
Jeff Liebermann wrote:
On Sat, 11 Oct 2014 18:04:07 -0000, wrote: Jeff Liebermann wrote: snip Speaking of dipole antennas, I did this study a while back: http://802.11junk.com/jeffl/antennas/vertical-dipole/index.html Animated version: http://802.11junk.com/jeffl/antennas/vertical-dipole/slides/animated-v-dipole.html It's a 1/2 wave dipole at various heights above a real ground. Any semblance to textbook dipole pattern is long gone. Yep, ground has a huge effect on some types of antennas. An instructive slide show would be the vertical pattern of a horizontal 1/2 dipole at .1, .2, ... .5 wavelengths over ground. Another one would be a 3 element beam at those heights. I can do both of these, but I'm busy/lazy this weekend. I also can't find the program I used to create the annimated GIF file. Argh. It would also be helpful if someone would specify the frequency range of interest. It doesn't matter if everything is done in wavelengths. I guess there are some who would want to see that a 160 meter dipole at say .2 wavelengths high has the same pattern as a 2 meter dipole at .2 wavelengths if for no other reason than to be assured the effects are frequency independant. -- Jim Pennino |
OK, let's discuss dipoles vs length
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OK, let's discuss dipoles vs length
wrote in :
Look at this for an overview of NEC. http://en.wikipedia.org/wiki/Numeric...magnetics_Code At the bottom under External links you will find both free and commercial implementations. EZNEC by W7EL is popular among hams and has a free demo version that is fully functional but limited in how complex a model you can generate. NEC itself just crunches and produces numbers, but there are several versions, including EZNEC, which have graphical interfaces to make it easier to build the model and view the results. I've used EZNEC+ for years. Thanks again, I'll use that if it runs on W98. (Long story, but I decided to stay with it for too many reasons not to do so). Graphic representations will help me a lot. (There is a tool for laser beam optics that used graphical feedback of inputs to demonstrate predictions, if it's anything like that one it will be indispensible). |
OK, let's discuss dipoles vs length
"Ralph Mowery" wrote in
: "Lostgallifreyan" wrote in message me, and is the one I need most to solve in my next efforts). What is this NEC program, and where can I find it? Sorry, but I have to ask, or Google will likely flood me with Nippon Electric Company details. Start here for the explination. Near the bottom are some places to download it. There are many versions and variations by slightly differant names. Some free and some you have to buy. http://en.wikipedia.org/wiki/Numeric...magnetics_Code Thankyou. Fortunately this looks like it will be easier than finding certain versions of the CGG compiler... :) |
OK, let's discuss dipoles vs length
On 10/12/2014 6:54 AM, Lostgallifreyan wrote:
"Ralph Mowery" wrote in : "Lostgallifreyan" wrote in message me, and is the one I need most to solve in my next efforts). What is this NEC program, and where can I find it? Sorry, but I have to ask, or Google will likely flood me with Nippon Electric Company details. Start here for the explination. Near the bottom are some places to download it. There are many versions and variations by slightly differant names. Some free and some you have to buy. http://en.wikipedia.org/wiki/Numeric...magnetics_Code Thankyou. Fortunately this looks like it will be easier than finding certain versions of the CGG compiler... :) Also try EZNEC. They both use the NEC engine but EZNEC provides a different interface to the modeling. http://eznec.com/ |
OK, let's discuss dipoles vs length
John S wrote in :
Also try EZNEC. They both use the NEC engine but EZNEC provides a different interface to the modeling. Already did. :) EXNEC v5 demo. I really like the first impression I get, Runs on all Win32 (very respectable), and I like the way I can grab the 3D plot and rotate it like a SketchUp image to get a proper look at it. I mentioned a laser beam tool (called PSST) that graphically models laser cavities, hoping this EXNEC might be an antenna maker's equivalent. It is. :) It will take me a while to understand it though. |
OK, let's discuss dipoles vs length
On 10/12/2014 7:38 AM, Lostgallifreyan wrote:
John S wrote in : Also try EZNEC. They both use the NEC engine but EZNEC provides a different interface to the modeling. Already did. :) EXNEC v5 demo. I really like the first impression I get, Runs on all Win32 (very respectable), and I like the way I can grab the 3D plot and rotate it like a SketchUp image to get a proper look at it. I mentioned a laser beam tool (called PSST) that graphically models laser cavities, hoping this EXNEC might be an antenna maker's equivalent. It is. :) It will take me a while to understand it though. These are complex applications which someone with a mindset not like yours has produced. There will be a learning curve. The important thing is to not get frustrated and give up. If you need help, ask. Cheers. |
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