Re: [TowerTalk] 4 square for 80

To:	Jeff AC0C <keepwalking188@ac0c.com>
Subject:	Re: [TowerTalk] 4 square for 80
From:	"Joe Giacobello, K2XX via TowerTalk" <towertalk@contesting.com>
Reply-to:	k2xx@swva.net
Date:	Fri, 23 Sep 2016 16:09:30 -0400
List-post:	<towertalk@contesting.com">mailto:towertalk@contesting.com>

Jeff, that appears to be an article by N6LF and not N6BT. I wasn't ableto download the article, but on N6LF's website(http://rudys.typepad.com/files/qex-ground-systems-part-3.pdf) he showsthe results of an experiment with elevated radials on 7.2 MHz. Hecompared four elevated radials to 64 ground mounted radials and foundthe elevated system had equivalent gain if the radials were elevated aminimum of four feet above the ground. I know I had at one timeconsidered an equivalent 160M vertical and was planning on elevatingthem at 18 feet.


73, Joe
K2XX

Jeff AC0C <mailto:keepwalking188@ac0c.com>
Friday, September 23, 2016 3:00 PM
I see this a lot - need to get the elevated radials up xx feet orwhatever. But I don't know how to square that with the N6BT QEX datawhich shows a improvement in efficiency as the radial is lifted upjust slightly from the ground (per QEX Mar/Apr 2012 page 39, figure16, it's 0.0005 WL approx) - with the slope of improvement flatteningout beyond that.
Either the QEX data is wrong, or it's not applicable for some reasonin the special case of a 4-square (the article is about a singlevertical with elevated radials), or the claims of "moving the radialsup made a big difference" are subjective.
73/jeff/ac0c
www.ac0c.com
alpha-charlie-zero-charlie

-----Original Message----- From: Jim Brown
Sent: Friday, September 23, 2016 1:46 PM
To: towertalk@contesting.com
Subject: Re: [TowerTalk] 4 square for 80



Excellent post, Tor. I'm not so sure that I agree with this paragraph
though. While elevating radials DOES reduce the effective height of the
radiator, and thus radiation resistance, elevating radials reduces
ground losses for the same number of radials. In essence, efficiency is
the voltage divider ratio between Rr and Rg + Rr, where Rr is the
radiation resistance and Rg is the ground loss. So it can be a tradeoff,
depending on what's practical at your QTH and how good your soil is.

Based on my 160M experience (4 radials up about 20 ft on a full size
vertical), I'd guess that 8 ft is pretty good for 80M. Those 4 radials
at 6 ft had way too much ground loss. On advice from N6BT, raising them
to 20 ft helped a lot. The feedpoint for those verticals is about 2-3 ft
high, and the radials rise quickly as they go away from the feedpoint in
a "gull wing" configuration.

73, Jim K9YC

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Jim Brown <mailto:jim@audiosystemsgroup.com>
Friday, September 23, 2016 2:46 PM
Excellent post, Tor. I'm not so sure that I agree with this paragraphthough. While elevating radials DOES reduce the effective height ofthe radiator, and thus radiation resistance, elevating radials reducesground losses for the same number of radials. In essence, efficiencyis the voltage divider ratio between Rr and Rg + Rr, where Rr is theradiation resistance and Rg is the ground loss. So it can be atradeoff, depending on what's practical at your QTH and how good yoursoil is.
Based on my 160M experience (4 radials up about 20 ft on a full sizevertical), I'd guess that 8 ft is pretty good for 80M. Those 4 radialsat 6 ft had way too much ground loss. On advice from N6BT, raisingthem to 20 ft helped a lot. The feedpoint for those verticals is about2-3 ft high, and the radials rise quickly as they go away from thefeedpoint in a "gull wing" configuration.
73, Jim K9YC

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RT Clay <mailto:rt_clay@bellsouth.net>
Friday, September 23, 2016 2:15 PM
Interesting comments re 4-squares. I currently have up a "wirecompromise in the woods" 4 square for 80 that seems to work quitewell. Here's what I have done:
In the center of the 4-square is a 69 foot R25 tower withnon-conducting guys. On the tower are two 15m yagis and a 6m yagi. My4-square verticals are wires. They go vertical for 48 feet and thenhead towards the top of the tower- like inverted L's, except thehorizontal part of the L slopes upwards. There are ropes tied out totrees to keep them up. Radials are on the ground. I use a Comtekhybrid coupler.
I detuned the tower by dropping a wire from about 20 feet up on asidearm. This loop is tuned to resonance with a capacitor. I see abouta 1 ohm difference in the resistive part of each vertical's Z with thedetuning in vs. out.
As far as performance, the 4-square is always better than a dipole(nearly flat) at 90 feet for dx stations. For the USA west coast the 4square is also quite a bit better than the dipole (the dipole favorsNE/SW). Even for working W1 from my qth (MS) I often use the 4-square.
Various comments:
The reason I chose inverted-L-like elements was that they are easy tomake exactly identical, and I get the maximum height possible. Withthis geometry, the pull-out ropes going to trees don't have to all beat the same height.
In my opinion, if you are height limited, you want to stay away fromelevated radials. If you elevate your radials, you are giving upvaluable vertical distance which will further lower the feedpoint Zand increase ground losses.
I don't think the advice to model the central tower is very helpful.Modeling the typical tower is nearly impossible. Just getting theeffective diameter of a triangular tower is nontrivial. Plus addstacked yagis, insulated/noninsulated yagi elements on top, etc. Justplan on detuning anyway.
I thought that the hybrid-type controllers (at least the Comtek Ihave) were really meant to work at 50 ohms. Then for a fullsizevertical, 36 ohms + some ground loss is not too far from 50. Obviouslythey seem to work ok over a reasonable range.
Tor
N4OGW
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