1. Radio Direction Finding Scott Honaker N7SS

2. Scott Honaker - N7SS2 Why do we need these skills? ► Locating Harmful Interference  Jammers  Stuck transmitters  Local noise sources ► Search and Rescue  ELT/EPIRBs  FRS/ham radios  Wildlife location ► Navigation

3. Equipment Needed ► Radio receiver and antenna that are directionally sensitive and can receive the signal ► A way to determine your direction ► A map and compass would be nice Scott Honaker - N7SS3

4. ANTENNAS Equipment 4

5. 5 Wire Antenna ► Simple ► Signal strength only ► Directivity via body blocking ► Works better with stronger signal and well shielded receiver ► High skill level required

6. Scott Honaker - N7SS6 Beam/Yagi ► Very accurate bearings ► Requires clean pattern and good front-to-back ratio ► Easily overloaded by strong signals ► Tune to null (sharper than gain) ► Can use front to help find weaker signals but with reduced bearing accuracy

7. Scott Honaker - N7SS7 Loops ► More common on HF frequencies ► Very compact ► Tune to the null ► Bearings not very precise ► Has 180 degree ambiguity

8. ADVANCED EQUIPMENT Equipment Scott Honaker - N7SS8

9. 9 Adcock Device – Handi Finder ► Based on phase difference ► Antenna array MUST be symmetric ► Can’t identify front/back without a third sense antenna ► Tune to no tone (signals in phase) ► Weak signals can be a problem ► Strong signals may cause too much multipath

10. Scott Honaker - N7SS10 “Doppler” DF – DF Jr. ► Not real Doppler – uses a pair of Adcock antennas ► Gives real-time bearings ► Only accurate to ~30 degrees ► Antenna size and spacing are frequency dependant

11. LOCATING THE FOX (TRANSMITTER) Theory Scott Honaker - N7SS11

12. Triangulation ► Doing the Math  α, β and distance AB are already known  C can be calculated by using the distance RC or MC:  RC: Position of C can be calculated using the Law of Sines  RC or MC can be calculated using the Law of Cosines and the Pythagorean theorem Scott Honaker - N7SS12

13. Scott Honaker - N7SS13 Triangulation ► Graphical Approch  Take bearings from three points  90% of contacts will be inside intersecting triangle ► Don’t neglect signal strength info ► Signal strength will depend on terrain

14. Advanced Tools ► Excel + geofunc http://www.afsc.noaa.gov/nmml/software/e xcelgeo.php http://www.afsc.noaa.gov/nmml/software/e xcelgeo.php http://www.afsc.noaa.gov/nmml/software/e xcelgeo.php ► Mapping Tool – Streets and Tips, MapPoint, Street Atlas ► GPS System Scott Honaker - N7SS14

15. Sources of Error ► Operator Error ► Antenna Gain Pattern ► Propagation  Multi Path  Reflection Scott Honaker – N7SS15

16. Scott Honaker - N7SS16 Foxhunting ► Containment Area  Large (county) vs. small (city) or local (park)  Drive times become significant ► Starting location  Together vs. distributed ► Radios/antennas  HTs vs. mobiles ► HTs offer portability but mobile meters are often more accurate  Omni vs. beam ► Even 2m beams are unwieldy, omnis offer some info while driving

17. Scott Honaker - N7SS17 RDF Techniques ► Mapping  Time vs. accuracy  Accurate bearing plotting is time consuming but often valuable ► Terrain  Multipath issues – particularly in urban areas  Reflections can mislead and can be accentuated if the target uses a directional antenna

18. Scott Honaker - N7SS18 RDF Techniques ► Going the last mile  Attenuators for non-Adcock antennas  Removing the antenna when within a couple blocks  Body blocking  Detuning decreases receiver sensitivity  Tune a harmonic (2m 3 rd harmonic on 70cm)  Be aware of local multipath sources

19. Scott Honaker - N7SS19 Resources ► Homing In Site http://members.aol.com/homingin/ ► Tape Measure Yagi http://home.att.net/~jleggio/projects/rdf/tape_bm.htm ► Adjustable Attenuator http://home.att.net/~jleggio/projects/rdf/p_atten.htm ► Arrow Antenna http://www.arrowantennas.com/ ► Ultimate Automated Doppler DF System http://www.ahha-doppler.com/gpss/gpss.html