PA8W Amateur Radio

Wil, PA8W,  E-mail: PA8W@upcmail.nl           
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Some thoughts on Doppler Antenna Arrays

In a doppler RDF system the Antenna array must be well designed for the frequency band you are going to monitor, and for the specific type of use.
Therefore, we are going to zoom in at  some specific applications.
A few design parameters are:
1, The array should have a clean omnidirectional radiation pattern, so all switched-off elements should be much shorter than 1/2 lambda to prevent them acting like parasytic elements.
2, The array should  be sensitive enough to receive weak signals, especially in mobile applications.
3, The array should be reasonably tolerant to strong signals, especially in fixed applications.

Mobile UHF:
A mobile UHF is relatively small in size, so it can be designed as a single ground plate with four whip antennas attached on it.
The size (50x50cm or a little smaller) allows to simply tape it to a car roof in which case the car roof extends the ground surface enhancing the performance of the antennas.
My favourite desing uses preamped switchers with about 13dB gain, which is more than welcome on UHF.
On the other hand, excessive gain and the open, unfiltered antenna design will make it a bit sensitive to very strong signals.
13dB gain has proven to be a fair compromise.
A mobile UHF array can be used on VHF as well, but obviously with reduced accuracy and sensitivity.
Here's the design:
http://members.chello.nl/~w.hofman/pa8w/MobileUHFArray.htm

Mobile VHF:
For VHF we generally use magnet mounts and passive switchers. 
The magnet mounts should be big enough to ensure a good capacitive coupling with the car roof.
Sirio has some very good sizes which can be opened for adding our switching components.
The antennas are 2mm steel whips, wavelength long,  soldered into a PL259 connector. (50cm long for 2m)
Here's the design:
http://members.chello.nl/~w.hofman/pa8w/MobileArray.htm

Mobile VHF+UHF:
If one would use the preamped switchers in these magnet mounts, one could have an extra set of shorter UHF whips to use the same magnet mounts in a smaller square footprint for UHF.
That way a magnet mount array would be a good compromise suitable for both VHF and UHF, though a bit more of a hassle to put up compared to the ground plate design.


Fixed UHF:

Fixed dipole arrays are generally passive, since the field strength at the higher antenna position generally is sufficient plus a preamped version may have issues in high-level RF fields.
Also, these preamps may not survive thunderstrikes in the direct vicinity.
So, we use PIN diodes for switching.
In case where extra gain is desired it is more elegant to have a preamp added in the combiners output, fed over spare wires in the control cable or even fed over coax.
The combiner is prepared for the addition of a ERA3 or similar MMIC preamp.

Fixed VHF:
The same counts for VHF, though switching can be done using small signal diodes like the 1N4148.
Preamps are  generally not necessary for fixed VHF RDF work.
Here 's the design:
http://members.chello.nl/~w.hofman/pa8w/HomebaseArray.htm

Fixed dual band:
We can’t have a top performance UHF/VHF combination in one array.
The VHF sections of the array would heavily distort the radiation pattern on UHF.
So we need two separate arrays on a distance of several meters to prevent coupling,
Or, much more elegant, we can use the same vertical mast to have a VHF array plus a UHF array on top of  it.
If we would use a vertical spacing of at least 1 meter between the centers of the arrays the spacing between the VHF and UHF antennas would be about 33cm vertically.
That is sufficient to reduce coupling between both arrays to the point that it can be neglected.
We can even hardwire the antenna control cables so both arrays would “rotate” simultaneously.
Using a double L/C  series networks, the output of both arrays can be coupled into the same coax cable running down to the shack. 

Here 's the design:
http://members.chello.nl/~w.hofman/pa8w/DualArray.htm



73, Wil.


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