ETC DF100

Norfolk Amateur Radio Club
DF100 direction finder project for “Foxhunting”
I ntroduction
The DF100 is a simple direction finder designed for ‘Fox Hunt’ events on 2 metres, although could
be adapted for other bands. Basically it works by using 2 identical Dipoles parallel with each other and
alternately switched so that the signal picked up by each can be heard alternately by the receiver. As
the Dipole is rotated there comes a point in which the signal reaching both dipoles is exactly the same
and in this way the direction can be ascertained. Although simple in design the circuit is remarkably
effective, the only real flaw being that the signal direction could be either in front or behind the
dipole! By using a reflector (even your body!) and a careful ear the real direction can be discovered
and there is plenty of scope for experimentation in this and other aspects of the design. For more
information on Fox hunting/DF equipment check out the web - there's plenty there!
We hope this NARC kit with encourage members to venture both into some construction work and
also take part in the fun event that is fox hunting - it does not have to be just a once a year event!
Making it easy......
A NARC club kit of the all electronic parts, including PCB, is available as a service to club members the other materials required to make the Dipole etc are readily available DIY materials you will probably
already have at home. The kit of parts is entirely optional - you can just have all the information if you
want to make it entirely yourself, including PCB artwork (although it should also work on veroboard).
What the NARC kit contains:
1 x NE555 Timer
1 x IC socket
1 x 1K resistor
1 x 100K resistor
4 x 470R resistor
2 x 10nF capacitors
3 x 1nF capacitors
2 x 1N916 equiv diodes
1 x 2 Pole 3 position centre off toggle switch
1 x PP3 Battery clip
1 x DF100 PCB (needs to be drilled)
1 x BNC plug prewired to long length of RG58 50Ω coax (connection to receiver)
Coax cable to link Dipoles to PCB - these are made from the ample
Cost for kit of parts as above £5
What you need to provide:
Handheld or other portable 2M radio receiver or transceiver
1 x Tobacco tin or similar (Mustard?) for case (must be metal for screening)
4 x Lengths of stiff wire for Dipoles (eg wire coat hanger)
Wood for mounting Dipoles
Wood screws
Small pieces of scrap copper clad PCB for Dipole connections
General information
Whilst the club is able to loan basic hand and soldering tools we ask members to bring as much of
their own equipment as possible so that those without tools can take part. We have permission to do
basic electronic assembly at the club QTH but ‘hardware’ work like drilling and wood cutting must be
done at home.
DF100 Direction finder concept and design by Doug G3HUL
Engineering and club project coordinator David Palmer G7URP
Home 01953 457322 / Office 01953 458844 / eMail [email protected]
Version 1.2 26.5.03 (coax braids reversed)
Publication © David Palmer G7URP
1
NARC DF100 PCB construction
Notes for construction:
We suggest you start by forming the resistor and diode leads first and then mounting and
soldering the ‘lowest’ components first.
Note that the tracks and pads on the PCB may have a protective clear lacquer which melts away
when soldered, so on these you will not need to clean the copper first. When soldering the
switch you will need to use quite a bit of heat to solder the legs properly but be careful not to
apply heat for too long. It is better to use a hotter iron for less time than a cool iron for longer!
The 555 timer integrated circuit is not especially static sensitive but should still be inserted last.
To protect the PCB pads you are strongly recommended NOT to fit and solder the coax cables
until you have constructed the wooden T support, aerials and mounted the metal case/tin.
Qty
1
1
1
4
2
2
4
1
1
1
1
Component Value
1K CR25 resistor (Brown Black Red Gold)
wire link (use one of the cut off resistor legs)
100K CR25 resistor (Brown Black Yellow Gold)
470R CR25 resistor (Yellow Violet Brown, Gold)
1N4148 / 1N916 equiv diodes (Note polarity line)
10nF capacitors (marked 103)
1nF capacitors (marked 102)
8 pin IC socket
2 Pole 3 position centre off toggle switch
PP3 Battery clip
NE555 Timer (fits into socket)
Top (Component) View
1nF
Centre-off
DPDT toggle
Switch
1kΩ
Black
470Ω
1nF
1
470Ω
555 IC
100kΩ
1N4148
470Ω
Red
10nF
1nF
1nF
10nF
1N4148
wire link
470Ω
Simple test
You may want to give your completed board a basic test before final assembly - if you have
access to an oscilloscope you can do this easily. After thoroughly checking all parts are located
and the battery clip is wired correctly connect a battery to the clips and an oscilliscope test probe
to pin 3 of the 555 IC and the ground lead of the scope probe to the Black/negative battery wire.
With the toggle switch in either the up or down position the scope should display a square wave
oscillation. The rest of the circuit is hard to test but as long as it has been assembled correctly it
should all work on completion
2
Connection plate made of scrap
piece of plain copper clad PCB
under each dipole/screw
ENLARGED VIEW
Pin or screw to help hold PCB in
place
Bend dipole element wire into 3/4 loop and clamp under head of
screw or nut and bolt with washer to cover (with optional spring)
Distance between Dipoles 710mm (approx 29”)
Dipole element length: 480mm (appx19”) not critical but must all be same
Ensure ends not sharp -add tape or cap to protect damage to eyes etc
NARC DF100 Casing and final construction
Single wire to link
case to PCB ground
Switch up = DF mode
These two coax
feeders must be
the same length
Switch down = monitor mode
Metal tin
(eg tobacco,
mustard etc)
All 3 coax connections:
Core to top hole
Braid to bottom hole
PP3
Battery
Case Finishing:
• Drill 3 holes for RG58 coax
RG58 is typically 5mm ø
diameter - ideally add grommets.
BNC plug to
receiver
• Drill 6mmø hole for Toggle
switch (which also holds PCB)
3
NARC DF100 Aerial Switcher
Monitor
OFF
DF
C3
1nF
R1
1K
8
4
7
9 Volt
‘PP3’ type
Battery
R3
470R
R2
100
K
2
6
R5
470R
1N916
Monitor
IC1
NE555N
Timer IC
C6
1nF
OFF
To
Receiver
3
DF
5
R4
470R
1
C4
1nF
C5
1nF
Dipole 1
Dipole 2
C2
10nF
C1
10nF
1N916
R6
470R
Basic circuit description:
Power is provided by a PP3 9 volt battery switched via a 2 pole 3 position toggle switch wired
so that in either top or bottom positions power is connected. IC1 is a 555 Timer IC wired in
astable configuration as a square wave oscillator with frequency and mark space ratio
defined by R1/R2/C1/C2. The output from pin 3 is fed, via the switch in ‘DF position’ to a
network of 2 diode switches which are connected to the 2 Dipoles. The diode networks are
alternately switched (reverse biased) by the square wave output of the 555 so that the signals
from two matched dipoles are alternately passed to the output to receiver
The ‘Mon’ switch position simply connects a positive voltage from the battery to switch one of
the dipoles only on all of the time in order that one of the dipoles can act as a normal aerial in
order to monitor normal audio transmissions.
G3HUL Test Beacon
This is the circuit diagram for a simple Test beacon suitable for testing the DF100. Please note
that Construction details and Technical support are not included!
For more information see Doug Mallett G3HUL.
C4
10nF
L2
(6t)
R2
10K
C1
100pF
TR1
BSX20
C2
100pF
L1
(10t)
R3
4K7
Xtal 1
12MHz
R1
560R
C3
68pF
4
R4
470R
9 Volt
‘PP3’ type
Battery