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Re: [TowerTalk] 160 radials

To: Hal Kennedy <halken@comcast.net>, towertalk@contesting.com
Subject: Re: [TowerTalk] 160 radials
From: w3kl@w3kl.com
Date: Sat, 6 Dec 2008 05:38:17 -0800 (PST)
List-post: <towertalk@contesting.com">mailto:towertalk@contesting.com>
I'm not disagreeing with the fact that for a small number of wires close to or 
on the ground that they will not have a resonant less than a physical 1/4 
wavelength.  What I am saying is that for a large number of radials, whether 
they are resonant or not is irrelevant since they are now forming a ground 
screen - not a counterpoise.
 
Quoting from ON4UN, fourth edition, page 9-14..."As soon as you use a larger 
number of equally spread radials the resonance effect disappears, and the 
radials form a disk, which becomes a screen with no resonance characteristics. 
In this case, we no longer talk about length of radials, but about the diameter 
of a disk hiding the lossy ground from the antenna...." (emphasis added)
 
Hence the goal in this case should be to create an efficient screen and not 
resonance in the radials.
 
I do agree that for a few radials on the ground or elevated couterpoise 
radials, achieving resonance is important in order for the 1/4 wavelength 
radiator to have something to work against.  However, for muliple ground 
mounted radials, resonance is irrelevant.
 
Of course, one can discuss which works better - a ground screen or a 
counterpoise system.  But that's a whole new can of worms, one that has been 
debated ad nauseum without consensus agreement.
 
73, Jeff
W3KL


Jeffrey K. Okamitsu, PhD, MBA
+1-609-638-5402

--- On Fri, 12/5/08, Hal Kennedy <halken@comcast.net> wrote:

From: Hal Kennedy <halken@comcast.net>
Subject: RE: [TowerTalk] 160 radials
To: w3kl@w3kl.com
Date: Friday, December 5, 2008, 7:44 PM








Nonsense.  Radials on the ground behave as lossy transmission lines and have a 
natural resonant frequency.  Their Vf is approx 0.6
 
Run the experiment.  You will find a nicely defined resonant point on a 10 
meter dipole laying on the ground.  X (or j) will =0 at around 20 meters.  
 
I make no other claim….all the extrapolations of what I said were not said by 
me.  I make no claim regarding efficiency – I just offer up the idea that if 
you want an easier impedance to match you can get it with radials shorter than 
135 feet.  
 
I have supplied more intelligent errata to ON4UN and N6BV on their books than 
most folks…
 
73
Hal
N4GG (several advanced degrees and founder of 14 electronics companies.  I 
consider it superfluous at best to list it all in the context of ham radio 
conversations)
 
 
-----Original Message-----
From: w3kl@w3kl.com [mailto:w3kl@w3kl.com] 
Sent: Friday, December 05, 2008 10:29 PM
To: Hal Kennedy; towertalk@contesting.com
Subject: Re: [TowerTalk] 160 radials
 





For multiple radials laid on the ground or buried just below the ground, there 
is no "resonance" effect - that is, there is no such thing as a tuned radial 
for wires laid on the ground or buried just below the ground.

 

What you are referring to IS true for a counterpoise system - aka "elevated 
radials".

 

When you have multiple (greater than 10 say) radials on the ground they simply 
form a ground screen.  The "need" to extend them 1/4 wavelength out is simply 
to improve the current collection efficiency of the ground screen - it isn't 
because you want them to be resonant.

 

There are volumes written on this.  I recommend ON4UN's book on low band 
DXing.  W8JI's website may also have something on this as well.

 

Finally, in order for your assertion that a length of wire in close proximity 
to the ground has an electrical length greater than it's physical length would 
be true only if the wire and ground formed a transmission line.  This is how a 
Beverage antenna works.

 

However, at HF frequencies (even on 160 m), I think that a wire laid on the 
ground will not form a transmission line since the current and it's image 
current are too close in proximity.   However, again what's important is that 
the radials are forming a ground screen and not the fact that they are or are 
not resonant.

 

Said differently....a quarter wavelengtth radiator has the same radiation 
resistance regardless of the efficiency of the ground.  However, the radiation 
efficiency of the antenna depends on minimizing ground losses.  Installing an 
efficient ground screen (radials) helps reduce the ground loss, thereby 
increasing the radiation efficiency.  This does NOT require the radials to be 
resonant.

 

73, Jeff

Jeffrey K. Okamitsu, PhD, MBA
+1-609-638-5402

--- On Fri, 12/5/08, Hal Kennedy <halken@comcast.net> wrote:

From: Hal Kennedy <halken@comcast.net>
Subject: [TowerTalk] 160 radials
To: towertalk@contesting.com
Date: Friday, December 5, 2008, 5:13 PMFor those who believe they are putting 
1/4 wave radials on the ground -it might be important to know/remember that the 
velocity factor of wireon the ground is approx. 0.5.  Quarter wave radials are 
actually approxa half wave electrically -  which is why it takes so many of 
them to geta monopole down to 35 ohms - each radial presents a high impedance 
ifits 135 ft long and on the ground.  BC stations use quarter 
wavelength(mechanical quarter wave) radials because 120 of them will provide a 
lowimpedance when placed in parallel and current share well since each area 
high impedance.  You can easily prove this to yourself.  Lay an 80 meter (or 
higher inQRG) dipole on the ground and check it with an MFJ.  It will be 
resonantnear 160 meters.  Do it quick with a 10M dipole - it will be 
resonantaround 20M.  You can't do that test with a 160 dipole as it will 
beresonant around 900 KHz and the MFJ won't go that
 low. Want that inverted L impedance down where it should be with very 
fewradials?  Elevate them to eliminate the above effect, or put them on 
theground and make them close to an electrical quarter wave - which isaround 80 
feet long - not 135 ft. Having an inverted L "too long" is just right.  It 
moves the maximumcurrent up off the ground and is easily tuned out with series 
C. 73HalN4GG(Running just great with a low feedpoint impedance from four 80 
footradials under the vertical, on the ground)  
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