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Contents of this page.
1. Ground mounted vertical
antenna notes
2. Modifying a 27MHz CB Ringo antenna for
80-6Mtrs
3. 40Mtr Ground Mounted 1/4 wave
Ground Mounted Vertical Antenna Notes for 7MHz and below
* Correctly configured ground
mounted vertical antennas for 7MHz
and below will
out perform horizontal antennas for DX work.
* A horizontally polarized antenna is better for local contacts up to approximately 1000km.
* A good ground plane is essential for a vertical to perform well.
* A vertical antenna has a lower radiation angle than a horizontal antenna.
* A good ground system has a
critical angle of about 10 degrees,
where a bad ground will give a higher angle of about 30 degrees.
* Good ground systems have a low angle of radiation and greater field strength.
* Bad ground systems have a
higher angle of radiation and up to 4dB poorer
field strength
than an antenna with an excellent ground system.
* Tuned radials (i.e. ¼ wave
for example) are the best choice and ½ wave
length radials
will be an advantage over the ¼ wave.
* The more radials the better,
although 120 radials seems to be the
maximum needed.
At least try for 24 to 48 radials if possible.
* If you haven’t got the room
to lay the radials straight, then bending them
around objects or trees
is ok.
* A horizontally polarized
antenna at frequencies above 7MHz maybe equivalent to,
but is normally a better performer than a vertical antenna.
* A tin roof with about 20-30
degrees sloop makes an excellent ground plane when
the vertical antenna is mounted on its peak.
Modifying a 27MHz CB Ringo Antenna for 80–6Mtrs
More Pictures added 22/8/09
Click here to download PDF document.
A
27MHz Ringo has been collecting dust in the shed for years, and after
successfully
constructing a vertical for 6 meters, it was time to put the Ringo to good
use.
The plan is to remove the ring and connect 4 x ¼wavelength radials for
each band.
The center of the SO239 connector is connected to the 5.3 meter driven
element
via a short piece of aluminum. The driven element is already a
1/4wavelength on 20
meters. A bracket was made from aluminum strip to bolt the radials to and
was
screwed to the existing earth bracket left over after removal of the ring.
A
50mm x 500mm pipe is hammered into the ground leaving 200mm above the
ground
for the base of the vertical to slip into. Radials were cut from 2.5mm
diameter
aluminum wire scavenged from old power line cable.
Initially the 10 and 20 meter radials were bolted to the earth bracket.
A random length of RG58 coax was run from the antenna to the shack where a
dip
meter coil was screwed on. One would have thought that 20 meters would
have
tuned/dipped perfectly being a 1/4wavelength vertical. But not so.
Adjusting
the length of the antenna had no real effect on the reading of 18MHz dip.
After several
failed attempts on other frequencies, the coax was tested resulting in
– yes – a 18MHz dip. (It is interesting to note that the coax had little
effect on
resonance when the antenna was setup for a 1/4wavelength
on 28MHz, but played
havoc when used for other wavelengths and/or bands.) A new 27.85 meter
length
of coax was cut and terminated with PL259 plugs. This cable now
dipped on the
amateur bands and was duly
plugged into the
antenna. Hey presto, a perfect VSWR
was obtained on 14MHz as expected. The length of coax cut is the only
length of
cable that is resonant on all HF ham bands. One could cut a single
1/4wavelength
piece
to match one band but the aim here was to use all bands with one vertical.
Two radials for 7MHz were now attached and laid out across the ground.
(The other
two are yet to be cut.) 10cm of each end was bent down and pushed into the
soil to
hold them in place till a proper burial can take place. Further testing
confirmed the
entire 14MHz band was 1:1 and 1.4:1 on 6 meters. With the aid of an ATU,
all other
bands were tunable including 80 meters. Yet to add is 2 more radials for 7
MHz,
and radials for 21MHz. It will be interesting to see what improvements, if
any, take
place once they are in place.
The following table was used as a guide for
measurements.
Radials were cut using the measurements in the 1/4wavelength
column.
|
300 |
Wavelength |
||||||
|
|
FULL |
5/8TH |
3/4. |
1/2. |
1/4. |
1/8. |
1/16. |
|
Freq |
1.000 |
0.625 |
0.750 |
0.500 |
0.250 |
0.125 |
0.0625 |
|
52.000 |
5.769 |
3.606 |
4.327 |
2.885 |
1.442 |
0.721 |
0.361 |
|
28.000 |
10.714 |
6.696 |
8.036 |
5.357 |
2.679 |
1.339 |
0.670 |
|
21.000 |
14.286 |
8.929 |
10.714 |
7.143 |
3.571 |
1.786 |
0.893 |
|
14.000 |
21.429 |
13.393 |
16.071 |
10.714 |
5.357 |
2.679 |
1.339 |
|
7.000 |
42.857 |
26.786 |
32.143 |
21.429 |
10.714 |
5.357 |
2.679 |
|
3.570 |
84.034 |
52.521 |
63.025 |
42.017 |
21.008 |
10.504 |
5.252 |
|
1.825 |
164.384 |
102.740 |
123.288 |
82.192 |
41.096 |
20.548 |
10.274 |
|
|
|
|
|
|
|
|
|
|
|
Antenna length = 5.3mtrs |
|
|
|
|
||
Performance
VK4 to ZL tests on 20mtrs were 1 to 2 S points lower from the vertical
than the
TH6DXX beam. Feeding the antenna with RG213 instead of RG58 would give
better results due to lower line losses.
At around 0510z I worked VK7XX and the vertical was 1 to 2 S points better
than
the beam. At 0530 the signal to VK7 was identical off both antennas. A VK3 joined
the now expanding group and comparisons were 1 S point in
favour
of the beam. Seems
polarisation must have played a role here.
Tests returned good results on all other bands.
In conclusion the ‘all band’ CB antenna with 1/4wavelength radials for
each band
surprised
initial contacts on its performance and simplicity. It is small enough for
confined
spaces and the longer radials can be bent around if insufficient space
exists to
lay them out straight.
Good DX.
Alan, VK4SN
1 December 2008
========================================================
The Upgrade to a 40mtr 1/4Wave
After the success of the above antenna, I have now replaced it with a 40mtr 1/4 wave.
The bottom
section is made of 50mm square aluminum and the top half is light duty
round 50mm.
I had enough to make the full 10.3 meters in length. The bottom is
hinged via a bolt through a
'u' shaped steel bracket. Another bracket on top of the post is used to
hold it in place.
Hoping for lots of rain to soften the topsoil so I can bury the radials.
 |
 |
| Above picture
shows the radials completely buried. Yep, the grass is dead due to drought! I didn't have a full length of 10.3mtr aluminium so I improvised using one 2" square heavy walled piece, one thin walled 2" round that just didn't make the height, so then I tek screwed a smaller piece to it. All this was laying around collecting dust and dirt, so it was good to put it to use. It looks like crap but it works a treat. |
 |
Updated 3rd November 2009