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G8MNY  > TECH     30.06.20 08:48l 147 Lines 6226 Bytes #999 (0) @ WW
BID : 61038_GB7CIP
Read: DF7EAV GUEST DJ6UX OE7FMI
Subj: Doppler DF Aerial Design
Path: DB0FHN<DB0RBS<DB0ERF<OK0NAG<OK0NBR<F3KT<CX2SA<ED1ZAC<GB7CIP
Sent: 200630/0737Z @:GB7CIP.#32.GBR.EURO #:61038 [Caterham Surrey GBR]
From: G8MNY@GB7CIP.#32.GBR.EURO
To  : TECH@WW

By G8MNY                            (Updated Sep 11)
(8 Bit ASCII graphics use code page 437 or 850, Terminal Font)

THE DOPPLER DF PRINCIPLE
By switching between 2 identical aerials at a fast audio rate, any amplitude or
phase difference seen between the 2 aerial signals will show up in the Rx as a
Tone in AM/SSB/FM mode.
 
Rx Ant1 *                 Tx                * Rx Ant1
        |                 *                  \
Rx Ant2 *                                     * Rx Ant2
    Identical                            Difference in
 Aerial signals                           phase of aerials

The only time no tone will be detected is when both aerials have identical
signals, which in an even RF field only occurs when the aerials are equal
distance from the source. This happens however strong or overloading the signal
in the Rx is! (using a Rx on the 3rd hamonic can be a solution to overload)

AERIAL LAYOUT

 DIPOLE A  <--------- Greater than 1/4 wave --------->  DIPOLE B
    ³                                                      ³
    ³ choke                           ferrite        choke ³
    ³ balun                            ring          balun ³
    ³ | /\ring    wooden  /\  DOPPLER  /\            /\  | ³
     =@==================== & PHASING ===================@=
    ³   \/ UR43   boom    \/  CIRCUIT  \/  UR43      \/    ³
    ³     COAX           ring  <!!>        COAX     ring   ³
    ³                           !! ring                    ³
    ³ coat hanger          UR43 !!                         ³
      wire element         COAX !!
                                !!
                              To Rig.

For 2m, the 2 dipoles (A & B) consist of 101cm long coat hanger wire (2x 52cm
per 1/4 wave) rods mounted into 2 holes drilled close, but not touching, in
each end of the wooden boom 84cm apart. The rods are connected (soldered) to
coax, with a coiled coax choke balun. The balun is a coil of coax just shorter
than a 1/4 wave, tightly coiled & as close as possible to the aerial feed point
& taped/cable tied to the boom @ 90ø to the dipole rods & so it does not couple
to the aerial! I also fitted small ferrite rings to reduce the effect of the
unbalanced coax on the measured RF field.

ADDING A ZL AERIAL SYSTEM
The drawback to a simple 2 aerial Doppler system is that it cannot give the
direction "SENSE" of the source just the line it is on, as there are 2
identical positions of tone nulls in 360ø. So conversion of the 2 aerials into
a simple ZL type phased beam is needed as well, as this will give a cardioid
polar response, with a sharp null of the back of the beam. But this will become
unusable for DFing with a very strong signal! Details of how to, later.

     Null
    /~\/~\  Cardioid
   ³      ³ Polar
    \    /  Diagram
     ~--~

ADDED ADVANTAGE OF USING BOTH SYSTEMS
Using both systems together, if you get a poor correlation of the headings
between them, then the RF field being sampled is poor (has reflections). So
that is a bad RF location, because the aerial is turned through 90ø & you are
seeing an uneven RF field, so the 2 results cannot be trusted.
Repeating the tests just a few metres or so away normally solve this. (away
from overhead lines & metal poles)

A label like this may be helpfull..

   A            Doppler /³\     B
   *    /_ ZL    Tone    ³      *
        \ Null   Nulls  \³/


THE CIRCUIT

      DIODE SW A
A Ant ÄÄÂÄÄÄÄÂÄÄÄÄ´>ÃÄÂÄÄÄÄÄÄÄÄÄÄÄÂÄÄÄÄÄÄÄÄÄÂÄÄÄÄCOAX TO RX
 Coax  _³_   L1       ³          _³_        L   ³
    ³  /_\   ³  ÚÄ´<ÃÄÙ          /_\        ÃÄÄÄÙ
 GNDÃÄÄÄ´   4k7 ³                 ³        GND
    ³  _³_   ÀÄÄ)ÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄ)ÄÄÄÄ¿
    ³  /_\DIODE ³     SWITCH C    ³    ³
B Ant   ³  SW B ³              3T ³    ³
 Coax ÄÄÁÄÂÄÄÄÄÄÁÄ´ÃÄÂÄÄ´>ÃÄÄÄÂÄLÄ´    ³
         L2    1n   L3        ³   ³    ³
          ³          ³    18p=== ===   ³
         4K7        4k7  GNDÄÄÁÄÄÄÙ18p ³
          ³          ³        DELAY    ³
          ³          ÃÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄ)ÄÄÂÄÄ¿
          ³         47k                ³  ³  ³ ZL MODE
          ³         _³_                ³  o  o (null carrier)
          ³         \_/                ³       
          ³          ÃÄÄij>ÃÄÄGND      ÀÄÄo  oÄÄÄÄ+9V
          ³      u1 ===                    \  \  (center off) 
          ÃÄÄÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄo  o
          ³  4ÚÄÄÄÂÄÄÄÄÄÂÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÙ
          ³  ÚÁÄÄÄÁ¿8  6k8                     DOPPLER MODE
      4u7=== ³     ÃÄÄÄÄ´                      (null tone)
         +³  ³ LM  ³7  100ê
         3ÀÄÄ´ 555 ÃÄÄÄÄ´
             ³     ³6   ³
             ³     ÃÄÄÄÄ´
             ÀÄÄÂÄÄÙ2   ³
               1³      === u1
          GNDÄÄÄÁÄÄÄÄÄÄÄÙ

HOW THE CIRCUIT WORKS
The 2 aerial inputs each see a diode switch (A & B) using 1N4148 type diodes.
The Ls are several turns on ferrite cores or beads, but if in series with 4K7
(L1-3) then they can be left out. Construction is on a PCB ground plain either
by knife etching circuitry or ugly.

Aerial switch C is used to join the 2 aerials together, but with aerial B via a
lumped delay line (or use a length of coax approx the same as the A-B gap) this
L is about 3 turns 6mm dia & Cs used for this are set up to cause a signal null
in one direction.

In ZL mode, diode switch B is off & switch C is on, passing the combined
signal.

When the mode switch is in Doppler mode, the control of the A & B diode
switches is from a 555 square wave astable running at about 1kHz. With a diode
pump circuit to completely bias off the C switch path.

In the off position there is no through path!

It is possible to Tx up to 2W into the unit without damage, but only a small
amount of power passes through to the aerial!

IN USE
This aerial, FT290, & Map, have won quite few of DF fox hunts, but it has
occasionally failed to find fox too! The strangest was when the Fox man was
well hidden behind a metal bus shelter, the signal seen by several DFers as a
source 10m or so away! I have also been beaten by a barking dog & owner that
found the fox due to barks on the fox AF.


See my tech bul "2M DF ing with just a FT290r", & "4 Aerial Doppler RDF".

 
Why Don't U send an interesting bul?

73 de John, G8MNY @ GB7CIP


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