Ultra-broadband impedance matched electrically small complementary signal radiating structures using thin wire elements and an impedance optimizing feed circuit
First Claim
1. An antenna system including an electrically complementary pair element group comprising:
- electrically complementary pair elements mounted on a conductive material ground plane;
with at least one of said electrically complementary pair elements an equivalent sheet monopole simulated by dual radiating whips;
insulation mounting means mounting said dual radiating whips to extend upward away from and insulated from said ground plane;
a horizontal feed bar interconnecting said dual radiating whips;
signal power feed means connected through opening means is said ground plane to the center portion of said horizontal feed bar interconnecting said dual radiating whips; and
hybrid feed circuit means connected to feed signal power to both said elements of said electrically complementary pair elements mounted on said conductive material ground plane;
wherein said electrically complementary pair elements are configured in an endfire complementary element structure, with a set of feed cables leading from the feed hybrid to the front element and to the rear element of said endfire complementary element structure of such average length (L1 +L2)/2 is equal to an optimum number selected to achieve a maximum impedance bandwidth and a minimum mismatch (VSWR) over a maximum frequency range;
wherein said optimum average length is every other odd multiple of an eighth of a wavelength such that Lavg. =(2N+1)×
λ
o/8, where N2, 4, 6 etc. and where λ
o is the wavelength at the center of the band.
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Abstract
Ultra-broadband impedance matched electrically small complementary-pair antennas using thin wire elements with impedance optimizing feed are presented. Efficiencies are determined by achieveable loss resistances in the radiating structure itself, rather than the (limited) quality of an external loading coil; and by energy channeled into the difference port of the feed hybrid, that is used to match two complementary impedances. Broad and impedance loci are achieved for the thin radiators by horizontal feed bars placed prior to the complementarizing circuit. Impedance matching is then accomplished in a standard broadband hybrid or "Magic Tee" feed circuit, which combines either two identical elements, where one has been "complementarized", or there are twoself-complementary elements, such as a monopole and a half-loop.
21 Citations
7 Claims
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1. An antenna system including an electrically complementary pair element group comprising:
electrically complementary pair elements mounted on a conductive material ground plane;
with at least one of said electrically complementary pair elements an equivalent sheet monopole simulated by dual radiating whips;
insulation mounting means mounting said dual radiating whips to extend upward away from and insulated from said ground plane;
a horizontal feed bar interconnecting said dual radiating whips;
signal power feed means connected through opening means is said ground plane to the center portion of said horizontal feed bar interconnecting said dual radiating whips; and
hybrid feed circuit means connected to feed signal power to both said elements of said electrically complementary pair elements mounted on said conductive material ground plane;
wherein said electrically complementary pair elements are configured in an endfire complementary element structure, with a set of feed cables leading from the feed hybrid to the front element and to the rear element of said endfire complementary element structure of such average length (L1 +L2)/2 is equal to an optimum number selected to achieve a maximum impedance bandwidth and a minimum mismatch (VSWR) over a maximum frequency range;
wherein said optimum average length is every other odd multiple of an eighth of a wavelength such that Lavg. =(2N+1)×
λ
o/8, where N2, 4, 6 etc. and where λ
o is the wavelength at the center of the band.- View Dependent Claims (2, 3, 4, 5, 6, 7)
Specification