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@0 Meter Vertical Collinear
I was looking through some of my old antenna books and came across an
article from K6TS about building a 20 Meter Collinear antenna. Has anyone ever built one, or have any input on if it would be worthwhile to pursue. Weather is getting warm here, so I was looking for another antenna project. 20 meters, vertical and ground mounted. So I was thinking about 1/2 Wave, 5/8 wave or the collinear. Ken |
@0 Meter Vertical Collinear
On 24 feb, 17:45, Ken Slimmer wrote:
* I was looking through some of my old antenna books and came across an article from K6TS about building a 20 Meter Collinear antenna. *Has anyone ever built one, or have any input on if it would be worthwhile to pursue. *Weather is getting warm here, so I was looking for another antenna project. *20 meters, vertical and ground mounted. *So I was thinking about 1/2 Wave, 5/8 wave or the collinear. Ken Hello Ken, I would not use the 5/8 wave antenna, unless you can make a dipole of 1.25lambda. The 5/8 wave vertical only gives the published gain over a large good conducting ground plane. 3 or 4 quarter wave radials may provide a reasonable floating ground for feeding the antenna, but it is not a large ground plane. Using a half wave has the disadvantage of the more complicated feeding network. You may expect impedances up to kOhm range (depending in thickness of the radiating element), so you need some high voltage evaluation of your structure in case of 100W input power. The advantage is the low requirement for the (floating) ground at the feed point. Just 1 or 2 quarter wave radials are sufficient. These radial wires may also slope down, as they carry low current, hence do not have large influence on radiation pattern. When you have some metal structure around you, you can use that as ground, eliminating the need for radials. When you look to half wave CB antennas, most ones do not have radials at all. When you want to use horizontal polarization, a full wave center fed dipole or 1.25lambda center fed antenna can be nice. Of course you have to make something to rotate it…. When you want to design a vertical HW antenna from the ground up, I have a document on my website dedicated to HW end-fed antenna design. It also addresses high voltage issues. http://www.tetech.nl/divers/HWmonopoleNL1.pdf. It is in Dutch language, but all comment in illustrations and formulas is in English, so it can be helpful. Best regards, Wim PA3DJS www.tetech.nl without abc, the mail is OK. |
@0 Meter Vertical Collinear
Wim;
Thanks for your input, I just noticed that I had my finger on the shift key when I posted the subject, so it came out as @0 meter.. :-) I don't ever plan on running high power, 100 watts is about my limit. I do want to stick to putting a vertical up. I have an old 1/4 wave 40 meter vertical that I was going to scrounge parts from. Ken On Tue, 24 Feb 2009 10:19:14 -0800, wimabctel wrote: On 24 feb, 17:45, Ken Slimmer wrote: Â* I was looking through some of my old antenna books and came across Â* an article from K6TS about building a 20 Meter Collinear antenna. Â*Has anyone ever built one, or have any input on if it would be worthwhile to pursue. Â*Weather is getting warm here, so I was looking for another antenna project. Â*20 meters, vertical and ground mounted. Â*So I was thinking about 1/2 Wave, 5/8 wave or the collinear. Ken Hello Ken, I would not use the 5/8 wave antenna, unless you can make a dipole of 1.25lambda. The 5/8 wave vertical only gives the published gain over a large good conducting ground plane. 3 or 4 quarter wave radials may provide a reasonable floating ground for feeding the antenna, but it is not a large ground plane. Using a half wave has the disadvantage of the more complicated feeding network. You may expect impedances up to kOhm range (depending in thickness of the radiating element), so you need some high voltage evaluation of your structure in case of 100W input power. The advantage is the low requirement for the (floating) ground at the feed point. Just 1 or 2 quarter wave radials are sufficient. These radial wires may also slope down, as they carry low current, hence do not have large influence on radiation pattern. When you have some metal structure around you, you can use that as ground, eliminating the need for radials. When you look to half wave CB antennas, most ones do not have radials at all. When you want to use horizontal polarization, a full wave center fed dipole or 1.25lambda center fed antenna can be nice. Of course you have to make something to rotate it…. When you want to design a vertical HW antenna from the ground up, I have a document on my website dedicated to HW end-fed antenna design. It also addresses high voltage issues. http://www.tetech.nl/divers/HWmonopoleNL1.pdf. It is in Dutch language, but all comment in illustrations and formulas is in English, so it can be helpful. Best regards, Wim PA3DJS www.tetech.nl without abc, the mail is OK. |
@0 Meter Vertical Collinear
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@0 Meter Vertical Collinear
On Feb 24, 2:44*pm, Ken Slimmer wrote:
Wim; * * *Thanks for your input, I just noticed that I had my finger on the shift key when I posted the subject, so it came out as @0 meter.. *:-) * * *I don't ever plan on running high power, 100 watts is about my limit. *I do want to stick to putting a vertical up. *I have an old 1/4 wave 40 meter vertical that I was going to scrounge parts from. * If you already have a 32 ft radiator, I would go with the half wave. Feeding one is simple. I prefer the "gamma loop" type of feed. I've built many of those, and they are simple to get going, and work well. The antenna as it is does not require radials to function as a "complete" antenna. Most will work fine as is, with no radials. But if one wants to further improve one, they can be further decoupled from the feedline using decoupling sections. The way I usually decouple a base fed half wave is to use a 1/4 wave length of coax dropping down the supporting mast to a union which I clamp a set of quarter wave radials. The shield of the coax is bonded to the radial set. That will do a pretty good job of decoupling the feed line, if common mode current ends up a problem. But like I say, I've never had any problems using one with no radials. I consider the decoupling as optional. A 5/8 wave GP would be nice, but that will take a pretty tall radiator on 20m, and may be unpractical. Also, I don't use 1/4 wave radials under 5/8 verticals. This page explains my position on that issue.. http://home.comcast.net/~nm5k/acompari.htm If you want to avoid the funky high angle lobe you often see on poorly designed 5/8 wl antennas, use 5/8, or 3/4 wave radials. I've done very extensive testing of all the usual types of verticals on 10m, and the 5/8 GP is the best performer of the bunch, even with it's supposed warts. Even the 1/2 waves I used with decoupling sections were never as good as the 5/8 GP when working far off space wave stations. But like I say, a 5/8 GP on 20m could end up being a real pain to deal with. You are talking a 41 ft radiator, and that needs a supporting mast under it. Radials under it too. BTW, a 1/4 wl GP is not a bad antenna if you want to take the easy way out. Needs radials though. I haven't looked at the collinear design, but sounds like more trouble than it's worth. Would be tall too. Most higher gain collinear antennas used on 20m would probably be horizontal wire affairs. |
@0 Meter Vertical Collinear
On 25 feb, 00:10, Richard Clark wrote:
On Tue, 24 Feb 2009 10:19:14 -0800 (PST), wrote: Hello Ken, I would not use the 5/8 wave antenna, unless you can make a dipole of 1.25lambda. The 5/8 wave vertical only gives the published gain over a large good conducting ground plane. 3 or 4 quarter wave radials may provide a reasonable floating ground for feeding the antenna, but it is not a large ground plane. This and other points are deceptive. First, the performance you site is indeed due to the plane of ground (not to be confused with our usage of the term ground plane) to the extent of the conductivity of ground out about 5 to 10 wavelengths away from the antenna. No practical ground system is going to impact that. The ground system placed below the antenna WILL impact gain, only insofar as it shields the ground's loss contribution. Hence the large number of radials. Using a half wave has the disadvantage of the more complicated feeding network. You may expect impedances up to kOhm range (depending in thickness of the radiating element), so you need some high voltage evaluation of your structure in case of 100W input power. The advantage of the half wave is exactly for its high impedance in relation to the loss of ground. The far ground still dominates low angle launch characteristics, but if (like the large number of radials offers) you lose less to ground, you have more in the air in all directions. That advantage of high impedance is also the disadvantage, 1500 Ohm end-fed impedance, or higher, is not uncommon. With 400W input power, this leads to 1100Vp voltage (at 1500 Ohms). Without careful construction, E-field at sharp edges will exceed 3000V/mm easily. This will not result in full air breakdown (due to strong nun-uniformity of E-field, but will result in undesired corona discharge. The advantage is the low requirement for the (floating) ground at the feed point. Just 1 or 2 quarter wave radials are sufficient. These radial wires may also slope down, as they carry low current, hence do not have large influence on radiation pattern. If there is just 1, or if the 2 are not symmetrical, then the DO contribute to the radiation pattern lobe shape. As to the degree or notice, that is variable to the user/listener. End fed impedance for 3cm thick radiator is about 1500 Ohms, hence radiator current (middle) is about 5 times higher then feed current to the quarter wave radial. Therefore current*length product for radiator is 10 times as high as for the radial. When the radial is vertically oriented (worst case situation) influence on field from radiator is +/- 10%. So very worst case you are talking of 1dB. When the radial runs horizontally, the effect on the vertical component under low elevation angle is negligible. As the original question relates to amateur service, mentioning: "hence do not have large influence on radiation pattern" is justified, in my opinion. When you have some metal structure around you, you can use that as ground, eliminating the need for radials. When you look to half wave CB antennas, most ones do not have radials at all. They probably rely on the coax shield as a return path, which makes it notoriously unreliable in its state of tune. Mostly CB antennas are mounted on a metal mast, so part of the return current goes through the mast. You are right, in some cases this may lead to significant common mode current, but looking to my experience, this seldom resulted in untunable systems when lambda/dradiator is high. I did experience problems in antennas for VHF where thickness of radiator is no longer thin to wavelength. Fortunately, at such frequencies a simple ground is easy to make. 73's Richard Clark, KB7QHC Wim PA3DJS |
@0 Meter Vertical Collinear
On 25 feb, 09:10, wrote:
On Feb 24, 2:44*pm, Ken Slimmer wrote: Wim; * * *Thanks for your input, I just noticed that I had my finger on the shift key when I posted the subject, so it came out as @0 meter.. *:-) * * *I don't ever plan on running high power, 100 watts is about my limit. *I do want to stick to putting a vertical up. *I have an old 1/4 wave 40 meter vertical that I was going to scrounge parts from. * If you already have a 32 ft radiator, I would go with the half wave. Feeding one is simple. I prefer the "gamma loop" type of feed. I've built many of those, and they are simple to get going, and work well. The antenna as it is does not require radials to function as a "complete" antenna. Most will work fine as is, with no radials. But if one wants to further improve one, they can be further decoupled from the feedline using decoupling sections. The way I usually decouple a base fed half wave is to use a 1/4 wave length of coax dropping down the supporting mast to a union which I clamp a set of quarter wave radials. The shield of the coax is bonded to the radial set. That will do a pretty good job of decoupling the feed line, if common mode current ends up a problem. But like I say, I've never had any problems using one with no radials. I consider the decoupling as optional. A 5/8 wave GP would be nice, but that will take a pretty tall radiator on 20m, and may be unpractical. Also, I don't use 1/4 wave radials under 5/8 verticals. This page explains my position on that issue..http://home.comcast.net/~nm5k/acompari.htm If you want to avoid the funky high angle lobe you often see on poorly designed 5/8 wl antennas, use 5/8, or 3/4 wave radials. I've done very extensive testing of all the usual types of verticals on 10m, and the 5/8 GP is the best performer of the bunch, even with it's supposed warts. Even the 1/2 waves I used with decoupling sections were never as good as the 5/8 GP when working far off space wave stations. But like I say, a 5/8 GP on 20m could end up being a real pain to deal with. You are talking a 41 ft radiator, and that needs a supporting mast under it. Radials under it too. BTW, a 1/4 wl GP is not a bad antenna if you want to take the easy way out. Needs radials though. I haven't looked at the collinear design, but sounds like more trouble than it's worth. Would be tall too. Most higher gain collinear antennas used on 20m would probably be horizontal wire affairs. Nice simulations, and nice results also! Best regards, Wim PA3DJS www.tetech.nl the mail is ok when you remove abc. |
@0 Meter Vertical Collinear
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@0 Meter Vertical Collinear
Jim Lux wrote:
breakdown? Is there some distinction to "full?") One often makes a distinction between a corona discharge which exists as a steady state sort of thing and the streamers which precede a "spark". Both are air breakdown phenomena, but qualitatively different, and both are different from a low pressure discharge like that found in a fluorescent lamp or neon bulb, or from phenomena like St Elmo's Fire. . . . Most interesting. I've always thought that St. Elmo's fire was a corona discharge, and a quick web search indicates that it's apparently a very widely held misconception. What's the difference? Roy Lewallen, W7EL |
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