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Dumb question about EZNEC
Hi- was searching Amazon , and see several books on Strip Line Antennas
my biggie is: Eznec will take WIRE DIA, and Dial. Constant, and Thickness in inches of that dialectric. Does this mean that EZNEC is useable to substrate material (G-10, Teflon, ect) to model Printed Circuit antennas? IF so, how do you go from a WIRE Diameter, to a Rectangular wire, (say 3 MM X width of 5 MM,by x cm long), on a plane of G-10 ? Or is this beyond its capabilities? Just curious if can handle this! Maybe am halucinateing, again! Comments, please! Jim NN7K |
Dumb question about EZNEC
Jim-NN7K wrote:
Hi- was searching Amazon , and see several books on Strip Line Antennas my biggie is: Eznec will take WIRE DIA, and Dial. Constant, and Thickness in inches of that dialectric. Does this mean that EZNEC is useable to substrate material (G-10, Teflon, ect) to model Printed Circuit antennas? No. . . . Roy Lewallen, W7EL |
Dumb question about EZNEC
Jim-NN7K wrote:
Hi- was searching Amazon , and see several books on Strip Line Antennas my biggie is: Eznec will take WIRE DIA, and Dial. Constant, and Thickness in inches of that dialectric. Does this mean that EZNEC is useable to substrate material (G-10, Teflon, ect) to model Printed Circuit antennas? IF so, how do you go from a WIRE Diameter, to a Rectangular wire, (say 3 MM X width of 5 MM,by x cm long), on a plane of G-10 ? Or is this beyond its capabilities? Just curious if can handle this! Maybe am halucinateing, again! Comments, please! Jim NN7K Imagine attempting to model these masks of DLM antennas: http://assemblywizard.fr33webhost.com/masklayout.pdf ;-) Regards, JS |
Dumb question about EZNEC
Thanks- just was curious- while still working had sites with wedge
shaped antennas- one broke its ray-dome - these (Scala?) were on 960MHz , and the antenna itself appeared to be a Log-Periodic , on a double sided Printed Circuit board- Just curious as to the effects on impedence, and element lengths-spacing , as to how this antenna was designed. Jim NN7K Roy Lewallen wrote: Jim-NN7K wrote: Hi- was searching Amazon , and see several books on Strip Line Antennas my biggie is: Eznec will take WIRE DIA, and Dial. Constant, and Thickness in inches of that dialectric. Does this mean that EZNEC is useable to substrate material (G-10, Teflon, ect) to model Printed Circuit antennas? No. . . . Roy Lewallen, W7EL |
Dumb question about EZNEC
"John Smith" wrote in message ... Jim-NN7K wrote: Hi- was searching Amazon , and see several books on Strip Line Antennas my biggie is: Eznec will take WIRE DIA, and Dial. Constant, and Thickness in inches of that dialectric. Does this mean that EZNEC is useable to substrate material (G-10, Teflon, ect) to model Printed Circuit antennas? IF so, how do you go from a WIRE Diameter, to a Rectangular wire, (say 3 MM X width of 5 MM,by x cm long), on a plane of G-10 ? Or is this beyond its capabilities? Just curious if can handle this! Maybe am halucinateing, again! Comments, please! Jim NN7K Imagine attempting to model these masks of DLM antennas: http://assemblywizard.fr33webhost.com/masklayout.pdf ;-) Regards, JS So how would they be fed? Monopole needs a GP or fed as doublet. I have anxiety just looking at it. Inverted L is soo much easier. |
Dumb question about EZNEC
JB wrote:
"John Smith" wrote in message ... Jim-NN7K wrote: Hi- was searching Amazon , and see several books on Strip Line Antennas my biggie is: Eznec will take WIRE DIA, and Dial. Constant, and Thickness in inches of that dialectric. Does this mean that EZNEC is useable to substrate material (G-10, Teflon, ect) to model Printed Circuit antennas? IF so, how do you go from a WIRE Diameter, to a Rectangular wire, (say 3 MM X width of 5 MM,by x cm long), on a plane of G-10 ? Or is this beyond its capabilities? Just curious if can handle this! Maybe am halucinateing, again! Comments, please! Jim NN7K Imagine attempting to model these masks of DLM antennas: http://assemblywizard.fr33webhost.com/masklayout.pdf ;-) Regards, JS So how would they be fed? Monopole needs a GP or fed as doublet. I have anxiety just looking at it. Inverted L is soo much easier. They would be fed though a series capacitance to a tap on the lower coil, at a point to obtain a 50 ohm feed point, generally ... and considering the 1/2 wave design. A 1/4 wave design would simply be fed at the base of the lower coil with a sufficient ground plane provided ... .... in the monopole models. A T or Delta match could/would be implemented on a dipole version. Regards, JS |
Dumb question about EZNEC
On Tue, 26 Aug 2008 10:05:19 -0700, Jim-NN7K .
wrote: Thanks- just was curious- while still working had sites with wedge shaped antennas- one broke its ray-dome - these (Scala?) were on 960MHz , and the antenna itself appeared to be a Log-Periodic , on a double sided Printed Circuit board- Just curious as to the effects on impedence, and element lengths-spacing , as to how this antenna was designed. Jim NN7K Would a photo help? This is the guts of a Sinclair SRL441-2P: http://11junk.com/jeffl/antennas/Sinclair%20SRL441-2P/index.html Data sheet at: http://www.sinclairtechnologies.com/catalog/product.aspx?id=962 -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
Dumb question about EZNEC
Jeff Liebermann wrote:
On Tue, 26 Aug 2008 10:05:19 -0700, Jim-NN7K . wrote: Thanks- just was curious- while still working had sites with wedge shaped antennas- one broke its ray-dome - these (Scala?) were on 960MHz , and the antenna itself appeared to be a Log-Periodic , on a double sided Printed Circuit board- Just curious as to the effects on impedence, and element lengths-spacing , as to how this antenna was designed. Jim NN7K Would a photo help? This is the guts of a Sinclair SRL441-2P: http://11junk.com/jeffl/antennas/Sinclair%20SRL441-2P/index.html Data sheet at: http://www.sinclairtechnologies.com/catalog/product.aspx?id=962 Yep, Thats the Beast! These used by railroad, for double track installations, for boxcar readers (Automatic Equipment Identification) and mounted at ground level, aimed up about 30 degree angle,to read ID tags. Thanks, Jim NN7K |
Dumb question about EZNEC
On Wed, 27 Aug 2008 08:26:23 -0700, Jim-NN7K .
wrote: Jeff Liebermann wrote: On Tue, 26 Aug 2008 10:05:19 -0700, Jim-NN7K . wrote: Thanks- just was curious- while still working had sites with wedge shaped antennas- one broke its ray-dome - these (Scala?) were on 960MHz , and the antenna itself appeared to be a Log-Periodic , on a double sided Printed Circuit board- Just curious as to the effects on impedence, and element lengths-spacing , as to how this antenna was designed. Jim NN7K Would a photo help? This is the guts of a Sinclair SRL441-2P: http://11junk.com/jeffl/antennas/Sinclair%20SRL441-2P/index.html Data sheet at: http://www.sinclairtechnologies.com/catalog/product.aspx?id=962 Yep, Thats the Beast! These used by railroad, for double track installations, for boxcar readers (Automatic Equipment Identification) and mounted at ground level, aimed up about 30 degree angle,to read ID tags. Thanks, Jim NN7K We'll, there's not much that I can tell you about the design. It's a log-periodic antenna built onto a PCB. It's not G10/FR4 and might be Polysulfone. Like the LPDA acronym suggests, it's nothing but a mess of dipoles at varying frequencies, which results in lots of bandwidth and not much gain. This might help with the numbers: http://www.changpuak.ch/electronics/lpda.html Use Frequency 800-1000MHz and 180mm boom length. It's not exactly the same as the Sinclair LPDA uses staggered elements. Other calculators: http://www.fortunecity.com/skyscraper/jolt/345/LogCalc.html LPDA Excel Spreadsheet calcs: http://www.astro.hr/ucionica/radioastronomy/antenna/lpda.zip Another LPDA calculator (that I haven't tried): http://www.astro.hr/ucionica/radioastronomy/antenna/lpcad23.zip More light reading: http://www.wolfgang-rolke.de/antennas/ant_400.htm http://en.wikipedia.org/wiki/Log-periodic_antenna A $40 commerical LPDA for 400-1000GHz. http://www.ramseyelectronics.com/cgi-bin/commerce.exe?preadd=action&key=LPY41 If you want to see the effects of juggling spacing, element count, and boom length, it's probably best to use an antenna modeling program. Looks like you have EZNEC, which will work. If you download the 4NEC2 antenna modeling program, you'll also get a mess of example NEC2 files. There's a directory under: c:\4nec2\models\logper\ with 4 log periodic antennas, mostly for HF. EZNEC can read them. I can probably conjur my bad guess of a model of the Sinclair antenna, but I'm playing vacation and would rather be doing something else. -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
Dumb question about EZNEC
I routinely use EZNEC to design antennas printed on a substrate. I do
the basic design then apply a fudge factor to the conductor width and length derived from comparisons between model results and measurements of real antennas. Final designs usually take some adjustment even at that. However, I haven't tried this for any antenna that depends strongly on coupling between elements, such as a Yagi, because the mutual coupling will also be affected by the substrate and won't be so easy to approximate. In the case of a log periodic, I'd adjust the model transmission line to try and get the same Z0 and velocity factor as the line on the substrate, which you might have to determine by measurement. That would help, but you'd still be lacking accurate mutual coupling information. At best, I think, a model would get you in the ballpark, with a final design requiring some tweaking. Roy Lewallen, W7EL |
Dumb question about EZNEC
On Wed, 27 Aug 2008 09:34:38 -0700, Jeff Liebermann
wrote: I can probably conjur my bad guess of a model of the Sinclair antenna, but I'm playing vacation and would rather be doing something else. No, I can't. Neither EZNEC or 4NEC2 will model dielectrics. Also, this might be useful: http://www.antennex.com/shack/Feb06/lpcad.html LPCAD 3.0 will generate an NEC file that can be analyzed by your favorite modeling program. -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
Dumb question about EZNEC
On Wed, 27 Aug 2008 10:22:19 -0700, Roy Lewallen
wrote: I routinely use EZNEC to design antennas printed on a substrate. I do the basic design then apply a fudge factor to the conductor width and length derived from comparisons between model results and measurements of real antennas. Final designs usually take some adjustment even at that. However, I haven't tried this for any antenna that depends strongly on coupling between elements, such as a Yagi, because the mutual coupling will also be affected by the substrate and won't be so easy to approximate. I once tried scaling a similar antenna for a PCB dielectric and ran into that problem. I had G10 on one side of the elements and air on the other, each with its own dielectric constant. Another version used glass as a substrate. I made a simple breadboard for testing and found that a good first guess was the geometric average (sqrt of the sum of the squares) of the dielectric constants. However, when I actually built the antenna, I had to do considerable tweaking and guesswork. It's been many years, but I don't think my models and reality ever agreed. I also tried to use MSTRIP40 for modeling a dipole array on a PCB. http://rze-falbala.rz.e-technik.fh-kiel.de/~splitt/html/mstrip.htm It's intended to do patch and panel antennas, and works well for those. It can also do a dielectric sandwitch, which might be handy. However, when I tried to do a simple dipole array, I got bizarre results, probably due to some mistakes on my part. A single dipole works fine (it's supplied as a sample file), but I just couldn't get arrays to work. I just noticed there's a later version available, so I may try again. However, I'm playing vacation this week so it will have to wait. In the case of a log periodic, I'd adjust the model transmission line to try and get the same Z0 and velocity factor as the line on the substrate, which you might have to determine by measurement. That would help, but you'd still be lacking accurate mutual coupling information. At best, I think, a model would get you in the ballpark, with a final design requiring some tweaking. Did you notice the odd patches at the ends of the elements in the photographs? http://11junk.com/jeffl/antennas/Sinclair%20SRL441-2P/index.html Methinks Sincair may have also done some tweaking. Thanks for the hints. Roy Lewallen, W7EL -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
Dumb question about EZNEC
Thanks folks Got me curious about adapting this to 1296, or 2404 MHz for quick and dirty antenna to use in contests! tho its an interesting design, by the time you create this, feed this, and with the loss's envolved, probably NOT worth the effort! An interesting use of PC material, non -the-less ! Maybe the Log Periodiotic is less critical to Board Xc, and Spaceing, then other antenna types? But, then the (stripline) feedline loss's alone would probably cancel any gain from the antenna. Again folks , thanks! When I start thinking- it gets Dangerous out there! Jeff Liebermann wrote: On Wed, 27 Aug 2008 10:22:19 -0700, Roy Lewallen wrote: I routinely use EZNEC to design antennas printed on a substrate. I do the basic design then apply a fudge factor to the conductor width and length derived from comparisons between model results and measurements of real antennas. Final designs usually take some adjustment even at that. However, I haven't tried this for any antenna that depends strongly on coupling between elements, such as a Yagi, because the mutual coupling will also be affected by the substrate and won't be so easy to approximate. |
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