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The Adcock antenna
Adcock antenna
is an antenna array consisting of four equidistant vertical elements which can be used to transmit or receive directional radio waves. The Adcock array was invented and patented by British engineer Frank Adcock in 1919 as British Patent
Patent
No. 130,490, and has been used for a variety of applications, both civilian and military, ever since.[1][2][3] Although originally conceived for receiving Low Frequency (LF) waves, it has also been used for transmitting, and has since been adapted for use at much higher frequencies, up to Ultra High Frequency (UHF).[4][5] In the early 1930s, the Adcock antenna
Adcock antenna
(transmitting in the LF/MF bands) became a key feature of the newly created radio navigation system for aviation. The Low Frequency radio range
Low Frequency radio range
(LFR) network, which consisted of hundreds of Adcock antenna
Adcock antenna
arrays, defined the airways used by aircraft for instrument flying. The LFR remained as the main aerial navigation technology until it was replaced by the VOR system in the 1950s and 1960s. The Adcock antenna
Adcock antenna
array has been widely used commercially, and implemented in vertical antenna heights ranging from over 130 feet (40 meters) in the LFR network, to as small as 5 inches (13 cm) in tactical direction finding applications (receiving in the UHF band).[5][6]

Contents

1 Radio direction finding 2 Low Frequency radio range 3 See also 4 References

Radio direction finding[edit]

Diagram from Adcock's 1919 patent, depicting a four-element monopole antenna array; active antenna segments are marked in red.[1]

90-foot (27 m) diagonal spacing Japanese Adcock direction finder installation for 2MHz in Rabaul

Frank Adcock originally used the antenna as a receiving antenna, to find the azimuthal direction a radio signal was coming from in order to find the location of the radio transmitter; a process called radio direction finding. Prior to Adcock's invention, engineers had been using loop antennas to achieve directional sensitivity. They discovered that due to atmospheric disturbances and reflections, the detected signals included significant components of electromagnetic interference and distortions: horizontally polarized radiation contaminating the signal of interest and reducing the accuracy of the measurement. Adcock—who was serving as an Army officer in the British Expeditionary Force in wartime France at the time he filed his invention—solved this problem by replacing the loop antennas with symmetrically inter-connected pairs of vertical monopole or dipole antennas of equal length.[1] This created the equivalent of square loops, but without their horizontal members, thus eliminating sensitivity to much of the horizontally polarized distortion. The same principles remain valid today, and the Adcock antenna
Adcock antenna
array and its variants are still used for radio direction finding.[7][8] Low Frequency radio range[edit] Main article: Low Frequency radio range In the late 1920s, the Adcock antenna
Adcock antenna
was adopted for aerial navigation, in what became known as the Low Frequency radio range (LFR), or the "Adcock radio range". Hundreds of transmitting stations, each consisting of four or five Adcock antenna
Adcock antenna
towers,[9] were constructed around the U.S. and elsewhere. The result was a network of electronic airways, which allowed pilots to navigate at night and in poor visibility, under virtually all weather conditions. The LFR remained as the main aerial navigation system in the U.S. and other countries until the 1950s, when it was replaced by VHF-based VOR technology. By the 1980s all LFR stations were decommissioned. See also[edit]

Direction finding Radio direction finder Huff-Duff

References[edit]

^ a b c GB 130490, Frank Adcock, "Improvements in Means for Determining the Direction of a Distant Source of Electro-magnetic Radiation", published 1919-08-07, issued 1919-08-07  (Note: The patent lawyer's name appears as inventor, with "F. Adcock" in parentheses, since Lt. Adcock, RE was serving in wartime France at the time.) ^ "Quadrupole adcock direction finder and antenna therefor (U.S. Patent
Patent
3939477)". USPTO
USPTO
(on freepatents.com). February 17, 1976.  ^ Beauchamp, K. G. (2001). History of telegraphy. IET. p. 367. ISBN 0-85296-792-6.  ^ "Adcock DF Antenna 20-1000 MHz" (PDF). Poynting Antennas. Retrieved 2009-07-29.  ^ a b "MA1410 Mobile DF Antenna" (PDF). CUBIC Defense Applications, Inc. Archived from the original (PDF) on 2010-08-27. Retrieved 2009-07-29.  ^ "BLIND FLYING ON THE BEAM: AERONAUTICAL COMMUNICATION, NAVIGATION AND SURVEILLANCE: ITS ORIGINS AND THE POLITICS OF TECHNOLOGY" (PDF). Journal of Air Transportation. 2003.  ^ Antenna engineering handbook. McGraw-Hill Professional. 1993. pp. 39–20.  ^ "BASICS OF THE WATSON-WATT RADIO DIRECTION FINDING TECHNIQUE" (PDF). RDF PRODUCTS. Retrieved 2009-07-29.  ^ A fifth tower was often added in the center of the square for voice transmissions.

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Antenna types

Isotropic

Isotropic radiator

Omnidirectional

Batwing antenna Biconical antenna Cage aerial Choke ring antenna Coaxial antenna Crossed field antenna Dielectric resonator antenna Dipole antenna Discone antenna Folded unipole antenna Franklin antenna Ground-plane antenna Halo antenna Helical antenna Hentenna J-pole antenna Mast radiator Monopole antenna Random wire antenna Rubber ducky antenna Turnstile antenna T2FD antenna T-antenna Umbrella antenna Whip antenna

Directional

Adcock antenna AS-2259 Antenna AWX antenna Beverage antenna Cantenna Cassegrain antenna Collinear antenna array Conformal antenna Corner reflector antenna Curtain array Dipole antenna Folded inverted conformal antenna Fractal antenna G5RV antenna Gizmotchy Helical antenna Horn antenna Inverted-F antenna Inverted vee antenna Log-periodic antenna Loop antenna Microstrip antenna Moxon antenna Offset dish antenna Patch antenna Phased array Planar array Parabolic antenna Plasma antenna Quad antenna Reflective array antenna Regenerative loop antenna Rhombic antenna Sector antenna Short backfire antenna Sloper antenna Slot antenna Sterba antenna Vivaldi antenna WokFi Yagi–Uda antenna

Application-specific

ALLISS Evolved antenna Ground dipole Reconfigurable antenna Rectenna Reference antenna Wullenweber

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