[Stephen Thomas Cole[_3_]]

John S wrote:
On 11/30/2015 11:35 AM, Spike wrote:
On 29/11/2015 23:24, wrote:

OK, I added radials for a total of 5 in a 45 degree spread and optimized
for minimum reactance.

radiator: 203 inches, radial: 186 inches, R: 52.4 Ohms, X: 0.4 Ohms

SWR: 1.1, Maximum gain: -.18 dBi in the direction of the radial and
an elevation
angle of 30 degrees, Reverse gain: -3.7 dBi

Note with one radial the F/B ratio is about 5 dB and with five radials
it is about 3dB.

About the only thing I can see worth noting about this antenna is that
it shows more radials are better, but everyone already knows that.

Imagine a case whereby someone digs up the soil around the base of a
vertical antenna, a couple of feet deep and as far out as the antenna is
tall. Into this they mix 2 percent of high-aspect-ratio thin conducting
fibres, say about a foot long, and then replace the soil. 2 percent of
conducting fibres in an essentially non-conducting medium is about the
minimum proportion necessary to reach the percolation threshold..

What results from your modelling exercise do you get in this case?

Are you unable to model this yourself or are you just trolling?

Spike's a long time and well known troll, yes.

--
STC // M0TEY // twitter.com/ukradioamateur

[[email protected]]

In rec.radio.amateur.antenna Spike wrote:
On 29/11/2015 23:24, wrote:

OK, I added radials for a total of 5 in a 45 degree spread and optimized
for minimum reactance.

radiator: 203 inches, radial: 186 inches, R: 52.4 Ohms, X: 0.4 Ohms

SWR: 1.1, Maximum gain: -.18 dBi in the direction of the radial and an elevation
angle of 30 degrees, Reverse gain: -3.7 dBi

Note with one radial the F/B ratio is about 5 dB and with five radials
it is about 3dB.

About the only thing I can see worth noting about this antenna is that
it shows more radials are better, but everyone already knows that.

Imagine a case whereby someone digs up the soil around the base of a
vertical antenna, a couple of feet deep and as far out as the antenna is
tall. Into this they mix 2 percent of high-aspect-ratio thin conducting
fibres, say about a foot long, and then replace the soil. 2 percent of
conducting fibres in an essentially non-conducting medium is about the
minimum proportion necessary to reach the percolation threshold..

What results from your modelling exercise do you get in this case?

Modeling thing buried in the soil requires professional software that
costs on the order of $1,000.

To do this with reasonably priced (for a hobby) software requires that
effective soil conductivity be determined.

Send me either $1,000.00 or the effective soil conductivity and I'll
be glad to do it.


--
Jim Pennino

[[email protected]]

In rec.radio.amateur.antenna Wayne wrote:


wrote in message ...

In rec.radio.amateur.antenna wrote:
In rec.radio.amateur.antenna Wayne wrote:


wrote in message ...

In rec.radio.amateur.antenna gareth wrote:
Spike recently commented upon his success with DX by implementing at
the base of his vertical antenna a fan
of 300 ground wires pointing in the direction that he wished to work.

I've not seen my suggestion before, but why could one not just have
a 1/4 wave vertical, with the other 1/4 wave making up the dipole
being rotatable for the desired direction of working?

Out of curiousity, I modeled the following:

freq: 14.2 MHz

radial height: 3 inches

Material: #12 copper

ground: average

I optimized the radiator and radial lengths for minimum reactance and
got:

radiator: 196 inches

radial: 190.6 inches

R: 75 Ohms

X: -0.4 Ohms

SWR: 1.5

Maximum gain: -1.8 dBi in the direction of the radial and an elevation
angle of 30 degrees

Reverse gain: -6.8 dBi

Polarization: primarily vertical with horizontal lobes 90 degrees to the
radial a -15 dB down from the max vertical gain.

Cool. Any idea what the numbers would be for the 300 radial
configuration?

Likely not a lot of difference.

I could add a few, but not going to spend the time to add 300.


# OK, I added radials for a total of 5 in a 45 degree spread and optimized
# for minimum reactance.

# radiator: 203 inches

# radial: 186 inches

# R: 52.4 Ohms

# X: 0.4 Ohms

# SWR: 1.1

# Maximum gain: -.18 dBi in the direction of the radial and an elevation
# angle of 30 degrees

# Reverse gain: -3.7 dBi

# Note with one radial the F/B ratio is about 5 dB and with five radials
# it is about 3dB.

# About the only thing I can see worth noting about this antenna is that
# it shows more radials are better, but everyone already knows that.

Interesting. Doesn't seem like it would be worth the effort to add radials
in this case.

More radials in the fan, no, but more radials around the antenna, yes.


--
Jim Pennino

[Spike[_3_]]

On 30/11/2015 18:34, wrote:
In rec.radio.amateur.antenna Spike wrote:

Imagine a case whereby someone digs up the soil around the base of a
vertical antenna, a couple of feet deep and as far out as the antenna is
tall. Into this they mix 2 percent of high-aspect-ratio thin conducting
fibres, say about a foot long, and then replace the soil. 2 percent of
conducting fibres in an essentially non-conducting medium is about the
minimum proportion necessary to reach the percolation threshold..

What results from your modelling exercise do you get in this case?

Modeling thing buried in the soil requires professional software that
costs on the order of $1,000.

To do this with reasonably priced (for a hobby) software requires that
effective soil conductivity be determined.

Send me either $1,000.00 or the effective soil conductivity and I'll
be glad to do it.

The effective soil conductivity will be close to the fully conductive
value of the fibres - that's what percolation does. The high aspect
ratio fibres are a method of achieving that in a poorly conductive
medium such as soil.


--
Spike

"Crime butchers innocence to secure a throne, and innocence struggles
with all its might against the attempts of crime"

- Maximilien Robespierre

[[email protected]]

In rec.radio.amateur.antenna Spike wrote:
On 30/11/2015 18:34, wrote:
In rec.radio.amateur.antenna Spike wrote:

Imagine a case whereby someone digs up the soil around the base of a
vertical antenna, a couple of feet deep and as far out as the antenna is
tall. Into this they mix 2 percent of high-aspect-ratio thin conducting
fibres, say about a foot long, and then replace the soil. 2 percent of
conducting fibres in an essentially non-conducting medium is about the
minimum proportion necessary to reach the percolation threshold..

What results from your modelling exercise do you get in this case?

Modeling thing buried in the soil requires professional software that
costs on the order of $1,000.

To do this with reasonably priced (for a hobby) software requires that
effective soil conductivity be determined.

Send me either $1,000.00 or the effective soil conductivity and I'll
be glad to do it.

The effective soil conductivity will be close to the fully conductive
value of the fibres - that's what percolation does. The high aspect
ratio fibres are a method of achieving that in a poorly conductive
medium such as soil.

One can not enter text into a model; numbers please.


--
Jim Pennino

[Spike[_3_]]

On 30/11/2015 23:53, wrote:
In rec.radio.amateur.antenna Spike wrote:

The effective soil conductivity will be close to the fully conductive
value of the fibres - that's what percolation does. The high aspect
ratio fibres are a method of achieving that in a poorly conductive
medium such as soil.

One can not enter text into a model; numbers please.

Much of this has already been done, 'this' meaning studying the effects
of ground conductivity and number of radials (going up to 64) by N6LF in
QEX with the latest version being published in September/October this year.

Note for Brian Howie: the study encompasses 472 kHz, and it should be
noted that below 1MHz the soil electromagnetic parameters diverge
significantly from HF values. This implies that a different approach is
needed, and one of the articles looks at this - you might find this of
interest.


--
Spike

"Crime butchers innocence to secure a throne, and innocence struggles
with all its might against the attempts of crime"

- Maximilien Robespierre

[Brian Howie]

In message , Spike
writes
On 30/11/2015 23:53, wrote:
In rec.radio.amateur.antenna Spike wrote:

The effective soil conductivity will be close to the fully conductive
value of the fibres - that's what percolation does. The high aspect
ratio fibres are a method of achieving that in a poorly conductive
medium such as soil.

One can not enter text into a model; numbers please.

Much of this has already been done, 'this' meaning studying the effects
of ground conductivity and number of radials (going up to 64) by N6LF
in QEX with the latest version being published in September/October
this year.

Note for Brian Howie: the study encompasses 472 kHz, and it should be
noted that below 1MHz the soil electromagnetic parameters diverge
significantly from HF values. This implies that a different approach is
needed, and one of the articles looks at this - you might find this of
interest.

Thanks I've had a look at them . If I ever get round to transmitting
there, I'll need a lot of earth.

I'm still using my 5 foot loop for receive, but it's now series tuned,
rather than parallel with a coupling loop and seems to work a bit
better.

By coincidence my morning training run took me near the EDN NDB

http://www.b-howie.demon.co.uk/lfbcon.htm

It's a top loaded vertical, but looking over the fence, I could see a
lot green earth wire radials on the surface. It's possible there are
buried ones too , but there are only about 6 and they can't be more than
15ft long,

Brian
--
Brian Howie

[Spike[_3_]]

On 03/12/2015 12:45, Brian Howie wrote:
In message , Spike
writes

Note for Brian Howie: the study encompasses 472 kHz, and it should be
noted that below 1MHz the soil electromagnetic parameters diverge
significantly from HF values. This implies that a different approach
is needed, and one of the articles looks at this - you might find
this of interest.

Thanks I've had a look at them . If I ever get round to transmitting
there, I'll need a lot of earth.

I guess it will need a lot of planning! And wire...

I'm still using my 5 foot loop for receive, but it's now series tuned,
rather than parallel with a coupling loop and seems to work a bit better.

Do you find the S/N is improved with a loop? Have you thought of trying
a shielded loop?

By coincidence my morning training run took me near the EDN NDB

http://www.b-howie.demon.co.uk/lfbcon.htm

It's a top loaded vertical, but looking over the fence, I could see a
lot green earth wire radials on the surface. It's possible there are
buried ones too , but there are only about 6 and they can't be more than
15ft long,

For the beacon to be of maximum use, they'll need a good sky-wave
signal; it sounds like the visible radials are there to provide a DC
path to earth probably in association with a ground spike, rather than
for getting the main lobe lowered.


--
Spike

"Crime butchers innocence to secure a throne, and innocence struggles
with all its might against the attempts of crime"

- Maximilien Robespierre

[[email protected]]

In rec.radio.amateur.antenna Spike wrote:
On 03/12/2015 12:45, Brian Howie wrote:
In message , Spike
writes

Note for Brian Howie: the study encompasses 472 kHz, and it should be
noted that below 1MHz the soil electromagnetic parameters diverge
significantly from HF values. This implies that a different approach
is needed, and one of the articles looks at this - you might find
this of interest.

Thanks I've had a look at them . If I ever get round to transmitting
there, I'll need a lot of earth.

I guess it will need a lot of planning! And wire...

I'm still using my 5 foot loop for receive, but it's now series tuned,
rather than parallel with a coupling loop and seems to work a bit better.

Do you find the S/N is improved with a loop? Have you thought of trying
a shielded loop?

By coincidence my morning training run took me near the EDN NDB

http://www.b-howie.demon.co.uk/lfbcon.htm

It's a top loaded vertical, but looking over the fence, I could see a
lot green earth wire radials on the surface. It's possible there are
buried ones too , but there are only about 6 and they can't be more than
15ft long,

For the beacon to be of maximum use, they'll need a good sky-wave
signal; it sounds like the visible radials are there to provide a DC
path to earth probably in association with a ground spike, rather than
for getting the main lobe lowered.

Sky wave propagation doesn't happen at those frequencies for all practical
purposes.

Sky wave propagation was discovered when amateurs started using frequencies
greater than 200 meters.



--
Jim Pennino

[Spike[_3_]]

On 05/12/2015 03:40, wrote:
In rec.radio.amateur.antenna Spike wrote:
On 03/12/2015 12:45, Brian Howie wrote:

By coincidence my morning training run took me near the EDN NDB

http://www.b-howie.demon.co.uk/lfbcon.htm

It's a top loaded vertical, but looking over the fence, I could see a
lot green earth wire radials on the surface. It's possible there are
buried ones too , but there are only about 6 and they can't be more than
15ft long,

For the beacon to be of maximum use, they'll need a good sky-wave
signal; it sounds like the visible radials are there to provide a DC
path to earth probably in association with a ground spike, rather than
for getting the main lobe lowered.

Sky wave propagation doesn't happen at those frequencies for all practical
purposes.

That's amazing. So all those aircraft at 35000 feet in its service area
can't hear the beacon? If it didn't have sky wave, it would merely be a
ground-wave beacon, not much use as there aren't that many airports
within 35 miles of Edinburgh, and the aircraft captains would know where
they were anyway.

Sky wave propagation was discovered when amateurs started using frequencies
greater than 200 meters.

What's interesting here is now much of the radiated power goes
sky-wards, and how much goes into surface wave. But apparently no-one's
ever thought to determine this, so it'll remain a mystery.


--
Spike

"Crime butchers innocence to secure a throne, and innocence struggles
with all its might against the attempts of crime"

- Maximilien Robespierre