Plural frequency patch antenna assembly
First Claim
1. A microstrip patch antenna comprising:
- a ground-plane element;
a first dielectric layer and a second dielectric layer disposed on opposite sides of said ground-plane element;
feed means disposed on a side of said first dielectric layer opposite said ground-plane element for applying signals at plural frequencies to said antenna;
patch radiator means disposed on a surface of said second dielectric layer opposite said ground-plane element; and
slot means disposed in said ground-plane element in registration with said feed means, a portion of said slot means extending beyond an edge of said radiator means to couple radiation for exciting said radiator means at said plural frequencies; and
wherein said radiator means resonates at each of said plurality of frequencies, said radiator means providing a common radiating aperture of said antenna for radiations at each of said plurality of frequencies;
said patch radiator means comprises a single rectangular patch radiator having a first pair of opposed sides and a second pair of opposed sides with a side of said first pair being longer than a side of said second pair; and
said slot means comprises a pair of slots, a first of said slots being located to extend partially beyond an edge of said radiator at a side of said first pair of sides, and a second of said slots being located to extend partially beyond an edge of a side of said second pair of sides.
2 Assignments
0 Petitions
Accused Products
Abstract
A microstrip patch antenna assembly (20, 52, 106) is formed of a patch radiator (24, 58) and a feed structure (26, 64) of microstrip feed elements (48, 50, 66, 68) disposed on opposite sides of a ground-plane element (22, 54) and spaced apart therefrom by layers (28, 30, 72, 74) of dielectric material. A single slot (108) or a pair of orthogonally positioned slots (44, 46, 82, 84) within the ground-plane element couples linearly or circularly polarized microwave power from the feed structure to the patch radiator. Additional radiators (60, 62) may be stacked above the foregoing radiator, the radiators being separated by further layers (76, 78) of dielectric material. A plurality of square-shaped raidators (58, 60, 62) may be employed for multiple-frequency operation in which case the radiator size and the thickness of dielectric material between the radiator and the ground-plane element establish a resonant frequency. A single radiator (24) of rectangular shape may be employed for radiation at dual frequencies wherein short and long edges of the radiator are each equal to one-half of the respective wavelengths in the dielectric material. An array (124) of the antenna assemblies can be constructed in monolithic form for development of a steerable beam of electromagnetic radiation.
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Citations
4 Claims
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1. A microstrip patch antenna comprising:
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a ground-plane element; a first dielectric layer and a second dielectric layer disposed on opposite sides of said ground-plane element; feed means disposed on a side of said first dielectric layer opposite said ground-plane element for applying signals at plural frequencies to said antenna; patch radiator means disposed on a surface of said second dielectric layer opposite said ground-plane element; and slot means disposed in said ground-plane element in registration with said feed means, a portion of said slot means extending beyond an edge of said radiator means to couple radiation for exciting said radiator means at said plural frequencies; and wherein said radiator means resonates at each of said plurality of frequencies, said radiator means providing a common radiating aperture of said antenna for radiations at each of said plurality of frequencies; said patch radiator means comprises a single rectangular patch radiator having a first pair of opposed sides and a second pair of opposed sides with a side of said first pair being longer than a side of said second pair; and said slot means comprises a pair of slots, a first of said slots being located to extend partially beyond an edge of said radiator at a side of said first pair of sides, and a second of said slots being located to extend partially beyond an edge of a side of said second pair of sides. - View Dependent Claims (2)
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3. An array antenna comprising a plurality of antenna elements and a common ground-plane element, each of said antenna elements being disposed on said ground-plane element;
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wherein each of said antenna elements comprises; a first dielectric layer and a second dielectric layer disposed on opposite sides of said ground-plane element; feed means disposed on a side of said first dielectric layer opposite said ground-plane element for applying signals at a plurality of frequencies to said antenna; patch radiator means disposed on a surface of said second dielectric layer opposite said ground-plane element, said radiator means resonating at each of said plurality of frequencies, said radiator means providing a common radiating aperture of said antenna for radiations at each of said plurality of frequencies; slot means disposed in said ground-plane element in registration with said feed means, a portion of said slot means extending beyond an edge of said radiator means to couple radiation for exciting said radiator means at said plural frequencies; wherein said array antenna further comprises drive circuitry formed within said first dielectric layer and coupled to said feed means in each of said antenna elements for generating a beam of radiation from said array antenna; and in each of said antenna elements said patch radiator means comprises a single rectangular patch radiator having a first pair of opposed sides and a second pair of opposed sides with a side of said first pair being longer than a side of said second pair; and said slot means comprises a pair of slots, a first of said slots being located to extend partially beyond an edge of said radiator at a side of said first pair of sides, and a second of said slots being located to extend partially beyond an edge of a side of said second pair of sides. - View Dependent Claims (4)
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Specification