Grounding Bar Length For Receiving Only Antenna
 

Hello:

Just started to string up the new listening only antenna I purchased from
PAR.

As there is a Balun between the start of the wire antenna, and the coax
feeding the receiver, a ground bar is apparently required.

Am using the typical eight foot long,5/8" diameter Cu plated steel that I
guess is fairly typical for house AC power grounding.

Querstion: At my age, it's a bit of a problem pounding in the six or seven
feet that is commonly mentioned as the "required" length. Certainly, the
more the better, I guess, but what wqould be a reasonable length into the
ground ?
How about 4 to 5 feet ? Again, it's for receiving only.

Thanks,
Bob

Grounding Bar Length For Receiving Only Antenna
 

"Robert11" wrote in message
. ..
Hello:

Just started to string up the new listening only antenna I purchased from
PAR.

As there is a Balun between the start of the wire antenna, and the coax
feeding the receiver, a ground bar is apparently required.

Am using the typical eight foot long,5/8" diameter Cu plated steel that I
guess is fairly typical for house AC power grounding.

Querstion: At my age, it's a bit of a problem pounding in the six or
seven
feet that is commonly mentioned as the "required" length. Certainly, the
more the better, I guess, but what wqould be a reasonable length into the
ground ?
How about 4 to 5 feet ? Again, it's for receiving only.

Thanks,
Bob


you can make a ground rod pounder by coupling several short section of pipe
together. the ground rod is inserted into the pipe which keeps the rod from
bending. as the rod is driven into the ground sections are removed one at a
time until the rod is at sufficient depth.

it's getting it out thats the trickey part :)

Grounding Bar Length For Receiving Only Antenna
 

Hi Bob,

Ground losses aren't extremely important for receiving applications. A
few extra feet of depth of ground rod isn't going to make any
difference, because the RF doesn't flow 8 feet down, or 5 feet down,
but more flows on the surface of the ground and/or some inches down
(depending on your ground conductivity profile)

As such, you could try a 4 or 5 foot ground rod.

If you want a no-pounding solution instead, lay down a few radial
wires. The length and number aren't critical. Try four or eight wires
each 1/8 wavelength long at the lowest frequency of interest.

If the noise in your receiver doesn't increase when you plug the
antenna into the RX , then you may want a better ground system. If the
noise DOES increase, then your noise floor is that of the
natural/artificial noise that your antenna is picking up, and more raw
signal from the antenna won't help anything. (Though moving the
antenna around might).

73,
Dan
N3OX
www.n3ox.net

Grounding Bar Length For Receiving Only Antenna
 

I don't know that I buy your statement that ground losses aren't
extremely important for receiving applications. Antenna systems are
bi-directional. If you lose xdB of transmitted sigal due to ground
losses, then you are also going to lose xdB of received signal due to
ground losses.

A more important issue is that ground losses are very important when
receiving a lightning strike. It may be effective to bury several
runs of bare #6 copper in trenches radiating from your "ground
point". The QTH here is located on a solid rock slab. All grounding
is through buried #6 wires and a few ground rods driven laterally
between the rock layers up by the tower base.

Regards,
Ed

On 11 Apr 2006 12:46:24 -0700, "
wrote:

Hi Bob,

Ground losses aren't extremely important for receiving applications. A
few extra feet of depth of ground rod isn't going to make any
difference, because the RF doesn't flow 8 feet down, or 5 feet down,
but more flows on the surface of the ground and/or some inches down
(depending on your ground conductivity profile)

As such, you could try a 4 or 5 foot ground rod.

If you want a no-pounding solution instead, lay down a few radial
wires. The length and number aren't critical. Try four or eight wires
each 1/8 wavelength long at the lowest frequency of interest.

If the noise in your receiver doesn't increase when you plug the
antenna into the RX , then you may want a better ground system. If the
noise DOES increase, then your noise floor is that of the
natural/artificial noise that your antenna is picking up, and more raw
signal from the antenna won't help anything. (Though moving the
antenna around might).

73,
Dan
N3OX
www.n3ox.net

Grounding Bar Length For Receiving Only Antenna
 

Ed Bailen wrote:
I don't know that I buy your statement that ground losses aren't
extremely important for receiving applications. Antenna systems are
bi-directional. If you lose xdB of transmitted sigal due to ground
losses, then you are also going to lose xdB of received signal due to
ground losses.

Your statement about the "bi-directionality" (usually called
reciprocity) of antennas is true. But what counts when receiving is the
signal to noise ratio. If you lose x dB at the transmitter, the person
receiving the signal gets a signal that's now x dB lower than it was
before, and the noise is the same. So the S/N ratio has been reduced by
x dB. Therefore it's desirable to minimize loss at the transmitter antenna.

But what happens when the receive antenna has x dB loss? At HF, the
dominant source of noise is atmospheric (and QRM). Adding x dB loss at
the receive antenna reduces both the signal *and* the noise by x dB. The
result is the same S/N ratio as before. That's why efficiency isn't
important for HF receiving antennas. Of course, you could reach a point
where the efficiency is so bad that the receiver noise dominates. Beyond
that point, lowering receive antenna efficiency will reduce S/N ratio.
But this point is usually a long way down. Likewise, at VHF and above,
where atmospheric noise is low and receiver noise dominates, high
receive antenna efficiency is desirable. But the original question was,
I believe, in reference to HF receiving.

A more important issue is that ground losses are very important when
receiving a lightning strike. It may be effective to bury several
runs of bare #6 copper in trenches radiating from your "ground
point". The QTH here is located on a solid rock slab. All grounding
is through buried #6 wires and a few ground rods driven laterally
between the rock layers up by the tower base.

Lightning protection and mains safety grounding are separate issues with
somewhat different requirements. Although a good lightning ground
probably usually constitutes a reasonably efficient RF ground, that's
not always the case, and the reverse isn't necessarily true either.

Roy Lewallen, W7EL

Grounding Bar Length For Receiving Only Antenna
 

I disagree about the penetration depth. The depth depnds on frequency and
soil characteristics, but at 160 m the "skin depth" (the point where the
potential has fallen to 1/e of its original value) would normally fall in
the range of 10 - 30 feet.

If you live over a silver mine or the Sahara desert, your mileage will vary.


Chuck

Grounding Bar Length For Receiving Only Antenna
 

I stand corrected!

I should have calculated it.

Sorry for including gross misinformation about MF & HF skin depth in
typical soil.

A modest radial system will whip a deep ground rod, though. I'm about
10% tempted to break out J.D. Jackson' Classical Electrodynamics and
try to calculate the RF resistance vs. depth of a ground rod, but I
know it's going to be hard to deadly.

Quantitative is always best in this sort of discussion, for sure.

Thanks for the response.

Dan,
N3OX

Grounding Bar Length For Receiving Only Antenna
 

Grounding Bar Length For Receiving Only Antenna
 

Roy Lewallen wrote:
Reg is the only one I've seen so far who can come up
with the impedance of a one-terminal device.

How many terminals are there for an EM wave traveling
through empty space?
--
73, Cecil http://www.qsl.net/w5dxp

Grounding Bar Length For Receiving Only Antenna
 

Right, the question of what the RF resistance of a ground rod doesn't
make sense without the antenna.

What happens if you change the ground rod length to 8 feet and feed
each of those antennas against it?

Dan,
N3OX