LF: RE: Top-fed LF antenna idea

To:	<[email protected]>
Subject:	LF: RE: Top-fed LF antenna idea
From:	"james moritz" <[email protected]>
Date:	Fri, 23 Jun 2006 18:19:57 +0100
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Dear Peter, LF Group,

As I recall, G0MRF's first trans-atlantic transmission was done from the top
of a tower block with a down-sloping wire as "top loading" - Perhaps David
would care to fill in the details...

Cheers, Jim Moritz
73 de M0BMU

-----Original Message-----
From: [email protected]
[mailto:[email protected]] On Behalf Of Peter Martinez
Sent: 23 June 2006 17:38
To: [email protected]
Subject: LF: Top-fed LF antenna idea

>>From G3PLX:

Some of you may have seen my letter in the current RadCom, which suggests 
that reports of unusually good performance of the electrically-small 'EH' 
antennas may be the result of them being mounted on top of a tall structure,

and are effectively top-feeding the whole thing.

It occurs to me that this might be a useful experiment to try on 136kHz if 
someone is able to operate 'portable' from the top of a suitable structure, 
like a telecom tower or the Eifel or Blackpool towers. What would be needed 
would be some sort of capacity-hat, such as a fishing rod (or two) sticking 
out into clear space from the top of the tower. It need not be vertical, so 
long as most of it was clear of the structure. This would then be resonated 
at the operating frequency and the whole thing fed against some metallic 
part of the structure. Assuming the tower is one with public access, there 
should be AC power up there from which to run the equipment, and the safety 
ground wire of this should be sufficient, or there may be an acessible 
lightning conductor.

The capacity hat would inevitably be quite small and therefore the inductor 
losses will be high, but against that there will be an enormous benefit 
because a lot of the 'resistance' in the ground connection will be good 
quality radiation resistance. We should be able to calculate what this is 
from the height of the structure, and remember that we can assume that the 
current up the tower will be fairly constant and not dropping linearly to 
zero at the top like a base-fed tower would be, so the effective height is 
the actual height, not half of it. The e.m.r.p. can then be calculated from 
the product of this radiation resistance and the square of the current 
flowing into the capacity hat.

I am sure the principle is sound. Is it worth a try?

73
Peter

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