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I'm not sure about your 50 + j43 for a 0.26 wave. Is that from EZNEC? With
what kind of ground? Yes it was EZNEC, ground type real/Mininec. 73 Gary N4AST |
"Larry D" wrote in message ... I want to construct a 5/8 wave ground plane for 24 MHz. I am OK with the dimensions, but I can't get a grip on what the impedance at the feedpoint will be. Even the ARRL antenna book hasn't been much help. Can anyone tell me the impedance I can expect to see, also any tips on matching it? Thanks! Larry DiGioia N8KU N8KU at longwire.com Larry, its been a while since I built one but I usually wind an 1/8 to 3/16wl of wire on my matching coil and feed this in series with as one would a base loaded antenna then start triming the coil for lowest SWR. I have one I built like that now on 10M SWR is about 1.5:1 . Cant say for sure but think the feed point impedance is above 50 or about 75 ohms at resonance. Have built these using the same technique for 6 and 2 . Seems like the impedance on these can vary quite a bit depending on the materials you build the antenna from. Thicker materials seems to give a lower impedance and a better match to 50 ohms. Ive never really gone into what was going on with the antenna that much and may be all wrong but right or wrong my way of doing it seems to get the job done for me. Perhaps some of the gurus around here would like to provide some more insight. |
Dave Shrader wrote:
Z is close to +58-j138 ohms. A small inductor of 0.88 uH in series with the antenna should provide a pretty good match to 50 ohm coax. Larry D wrote: I want to construct a 5/8 wave ground plane for 24 MHz. Wow, after all that, a simple answer. Thanks! The reason I wanted to try 5/8 wave is because I have had the Solarcon A99 1/2-wave ground plane for 10 meters up for about 5 years, and it is an excellent antenna for DX. This is, according to the product blurb, a "1/2 wave, voltage-fed" design. The radiation patterns in the antenna book give the impression that 5/8 wave should be "even better" for DX. Of course, a lot of that performance had to do with who is on 10 meters in the first place, and conditions over the past 5 years as well. It is finally falling apart (radials coming loose,) and the prospects for 10m in the next few years don't look so good. I wanted to switch to a similar antenna, but for 24 MHz. I notice that some of the answers here were geared toward a ground-mount, which is not what I meant by "ground plane," this antenna will be at 30', and probably will have full-size, 1/4 wave (?) sloping radials. As it turns out, at the antenna forum in Dayton, Dean Straw, the author of the ARRL antenna book, talked me out of using 5/8 wave. He feels that it will not appreciably enhance DX, compared to 1/4 wave. He also talked me into getting the latest version of the antenna book, which alas, still does not mention doing what you suggest, not even in the VHF section, as one person mentioned, but at least I have the answer now. Thanks again. Larry DiGioia N8KU |
Larry D. wrote:
"The reason I wanted to try 5/8 wave is because I have had the Solarcon A 99 1/2 wave ground plane for 10 meters up for about 5 years and it is an excellent antenna for DX." OK. A comparison of unattenuated field strengths at one mile from various verticals is given on page 20 of the "Vertical Antenna Handbook" by Capt. Paul H. Lee, USNR, K6TS: 1/4-wave, 196 mv/m 1/2-wave, 236 mv/m 5/8-wave, 276 mv/m Power varies as the square of the voltage. One can see the difference in the field strength is hardly worth the effort for an amateur to try to increase the length of his antenna. It`s about a 3 dB gain from 1/4-wave to 5/8 wave. A 5/8-wave at 10 meters is 1/2-wave at 12.5-meters (24 MHz). A 1/2-wave at 10-meters is 0.4 wavelength at 12.5-meters (24 MHz). One could resonate it with a series capacitance at the antenna. Best regards, Richard Harrison, KB5WZI |
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Dan Richardson wrote in message . ..
On Mon, 17 May 2004 10:42:49 -0500, (Richard Harrison) wrote: [snip] Power varies as the square of the voltage. One can see the difference in the field strength is hardly worth the effort for an amateur to try to increase the length of his antenna. It`s about a 3 dB gain from 1/4-wave to 5/8 wave. [snip] The 3 dB gain figure is valid when mounted on theoretical perfect ground. For a ground-plane elevated above real ground you'll find the gain to be rarely greater than 1 dB. Dunno. My real world tests don't quite agree. In using 30 mile ground wave tests across town, I tested 1/4 GP's, 1/2 waves including decoupling sections, and a 5/8 GP with 3/4 wave radials. All at 36 ft. The 5/8 ate the 1/4 GP for lunch. Probably 2 plus S units better than the 1/4 GP. The 5/8 beat the 1/2 wave by 1.5 S units. And this was tested and repeated over a period of months. Never varied. Ground wave testing is quite stable, and accurate for those low angles involved. Much more accurate than trying to compare using constantly varying skywaves. In real world gains, thats more than 1 db. 5/8 antennas are weird animals. On 2m, they suck. On HF, they can do fairly well, cuz the angles involved are not as critical. I used a 5/8 GP on 17m for 2-3 years. "also at 36 ft at the base". It mangled every other antenna I had on that band. On 10m, the 5/8 beat any other length radiator quite handily. Again, on the critical 2m band, peeeyooooo.....they stink. BTW, on skywave, using a quick A/B test, all preferred the 5/8, over the other antennas. So it wasn't a low angle ground wave fluke. MK |
Dan Richardson wrote in message . ..
On Mon, 17 May 2004 10:42:49 -0500, (Richard Harrison) wrote: [snip] Power varies as the square of the voltage. One can see the difference in the field strength is hardly worth the effort for an amateur to try to increase the length of his antenna. It`s about a 3 dB gain from 1/4-wave to 5/8 wave. [snip] The 3 dB gain figure is valid when mounted on theoretical perfect ground. For a ground-plane elevated above real ground you'll find the gain to be rarely greater than 1 dB. Modeling 1/4 & 5/8-wave ground planes at 30 feet above ground (@ 24 MHz) as was described earlier NEC reports the following maximum gain: 1/4-wave 2.35 dB 5/8-wave 3.06 dB Then howcum my 5/8 wave mag mount 2m mobile antenna very significantly outperforms the 1/4 wave mag mount antenna I used to use? Same ground condx, same power, same feeder length, same vehicle, etc. I suspect it's in the differences in the TO angles. 73 Danny, K6MHE Brian w3rv |
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I agree completely. Question is, if modeling and prediction is so unreliable
why do we bother? "Dan Richardson @mendolink.com" ChangeThisToCallSign wrote in message ... On 18 May 2004 06:19:50 -0700, (Brian Kelly) wrote: Then howcum my 5/8 wave mag mount 2m mobile antenna very significantly outperforms the 1/4 wave mag mount antenna I used to use? .... My previous response was for a ground plan antenna mounted above ground and you are addressing a mobile installation. They are different. ... I found that the vehicle's size, shape and whip location plays a major part in performance. .... it was possible to find azimuth directions that a 5/8-wave would produced almost 3 db gain over itself .... I don't feel you can accurately predict how a the whips will perform on a vehicle based upon operation on another vehicle.... |
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