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Exploring Antennas. Van Warren AE5CC. Exploring Antennas: Pattern. D esign S imulate M easure R efine. Exploring Antennas: Rule 1. Don’t reinvent the wheel. Explore and understand successful designs before inventing new ones. Exploring Antennas: 2m.
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Exploring Antennas Van Warren AE5CC
Exploring Antennas: Pattern D esign S imulate M easure R efine
Exploring Antennas: Rule 1 Don’t reinvent the wheel. Explore and understand successful designs before inventing new ones.
Exploring Antennas: 2m Single Most Important Parameter: Wavelength Middle of band is 146 MHz Middle of CW band is 144.05 MHz
Exploring Antennas: 2m Middle of band is 146 MHz 146 MHz = 2.053 meters = 6.7 feet = 80.83 inches Full Wavelength
Exploring Antennas: 2m General Purpose 2m Antenna in free space.
Exploring Antennas: 2m General Purpose 2m Antenna with Ground Plane (-5 Hz shift)
Exploring Antennas: 2m General Purpose Ground Plane Antenna.
Exploring Antennas: 2m General Purpose Antenna at 144 MHz In Free Space
Exploring Antennas: 2m General Purpose Antenna with Ground Plane at 144 MHz
Exploring Antennas: 2m Same Antenna at 900 MHz (33 cm band).
Exploring Antennas: Loops Now duplicate argument using tetrahedral geometry reasoning from the simplex argument and minimal materials and tesselation of sphere for balloon borne 2m antenna. Also reduce to ¼ wave and compare gain with full wavelength cases.
Exploring Antennas: Loops Design Antenna Simulate Antenna Measure Antenna Improve
Design Antenna: Requirements Use 42 AWG DX: 1 – 1000 MHz TX: 80 – 2m 50 watts Aesthetic, preferably invisible Low Lightning Hazard Low Structural Hazard Easily Relocated Inexpensive
Design First Pass: Wire Loop 0.0025 in diameter Materials 42 AWG DX: 1 – 1000 MHz TX: 80 – 2m Aesthetic, preferably invisible Low Lightning Hazard Low Structural Hazard Easily Relocated Inexpensive
Design Pass: Vary Parameters - Start: 42 AWG - 0.00125” radius Observe Effects of: Wire Diameter Variation Frequency Variation Loop Geometry Variation add recursive elements in plane/out of plane elements - 160, 80, 40, 20, 10, 6, 2, 0.7, 0.3 meters - 1.9, 3.5, 7, 14, 28, 50, 144, 420, 902 MHz
“Large” Circular loop has relatively flat frequency response, but surprisingly, high directionality! (front/side ratio) This borders on discovery! Compare with microphone gain patterns and yagi’s or “beam” antennas. Total gain @ 20 MHz Results suggest a wire loop Can be “aimed” by simply Changing the feed point. Suggests a new radar antenna. Stationary loop, moving feed point. What is radiative efficiency?
Need a program that will let me preprogram a series of mouse positions, clicks and key presses, to create animations of the gain patterns of these loop antennas. These are necessary and wonderful animations.