Multiple beam planar array with parasitic elements
First Claim
1. An antenna system comprising:
- a reference surface;
a plurality of radiating structures disposed substantially parallel to and a predetermined first distance from said reference surface, each radiating structure of said plurality of radiating structures being spaced substantially equidistant from and parallel to a next adjacent radiating structure; and
a first plurality of passive structures disposed at predetermined positions substantially parallel to and a predetermined second distance from said reference surface, wherein said passive structures provide remediation of the radiation pattern of said antenna system, wherein each passive structure of said plurality of passive structures is disposed parallel to a next adjacent passive structure, wherein said first plurality of passive structures include at least an intermediate passive structure, said intermediate passive structure being disposed substantially equidistant from two next adjacent radiating structures of said plurality of radiating structures.
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Accused Products
Abstract
A multiple beam antenna array utilizing strategically placed parasitic elements to control side lobe levels is disclosed. Two specific arrangements of such parasitic elements are taught. A first preferred arrangement of parasitic elements provides for their placement between a ground plane and a plane of active antenna elements. An alternative preferred arrangement of parasitic elements provides for their placement both between a ground plane and a plane of active antenna elements, as well as in front of the active antenna elements. Both such embodiments provide improved side lobe control over a similar antenna system without parasitic elements. Moreover, the characteristics of the main lobe are improved by both embodiments.
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Citations
31 Claims
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1. An antenna system comprising:
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a reference surface; a plurality of radiating structures disposed substantially parallel to and a predetermined first distance from said reference surface, each radiating structure of said plurality of radiating structures being spaced substantially equidistant from and parallel to a next adjacent radiating structure; and a first plurality of passive structures disposed at predetermined positions substantially parallel to and a predetermined second distance from said reference surface, wherein said passive structures provide remediation of the radiation pattern of said antenna system, wherein each passive structure of said plurality of passive structures is disposed parallel to a next adjacent passive structure, wherein said first plurality of passive structures include at least an intermediate passive structure, said intermediate passive structure being disposed substantially equidistant from two next adjacent radiating structures of said plurality of radiating structures. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for constructing an antenna array having at least one reduced side lobe when said antenna array is excited utilizing uniform aperture distribution, said antenna array having a plurality of substantially parallel active antenna elements disposed a predetermined distance from a ground surface, said method comprising the steps of:
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determining an arrangement of a plurality of parasitic antenna elements wherein energy reradiated by said parasitic antenna elements will be utilized to sum with energy propagating from said active antenna elements to reduce said side lobe; determining a distance from said ground surface to provide said plurality of parasitic antenna elements wherein at least a portion of energy reflected from said ground surface is directed by said parasitic antenna elements to reduce said side lobe; and equipping said planar antenna array with said plurality of parasitic antenna elements disposed said determined distance in front of said ground surface and arranged in said determined arrangement. - View Dependent Claims (13, 14, 15, 16)
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17. A method for reducing at least one side lobe of a radiation pattern resulting from uniform aperture distribution excitation of a planar antenna array having a plurality of substantially parallel active antenna columns disposed a predetermined distance from a ground surface, said method comprising the steps of:
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arranging a set of parasitic antenna columns such that energy reradiated by said parasitic antenna columns will be utilized to sum with energy propagating from said active antenna columns to reduce said at least one side lobe, said arranging step including the step of; positioning ones of said parasitic columns a determined distance from said ground surface wherein at least a portion of energy reflected from said ground surface is directed by said parasitic antenna columns to reduce said at least one side lobe, wherein said determined distance is less than said predetermined distance and said ones of said parasitic antenna columns are disposed between said ground plane and said active antenna columns; and deploying said planar antenna array with ones of said parasitic antenna columns disposed said determined distance in front of said ground surface and said plurality of parasitic antenna columns arranged in said determined arrangement, wherein said deployed planar antenna array is excited with a uniform aperture distribution. - View Dependent Claims (18, 19, 20, 21, 22, 23)
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24. A system for reducing at least one side lobe of a radiation pattern of a planar antenna array having a plurality of substantially parallel active antenna columns disposed a predetermined distance from a ground surface, said system comprising:
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means for positioning a set of parasitic antenna columns such that energy reradiated by said parasitic antenna columns will be utilized to sum with energy propagating from said active antenna columns to reduce said at least one side lobe, said positioning means also for positioning said parasitic columns a determined distance from said ground surface wherein at least a portion of energy reflected from said ground surface is directed by said parasitic antenna columns to reduce said at least one side lobe, wherein said positioning means provides a determined arrangement of said parasitic antenna columns and said active antenna columns including interleaved placement of said parasitic antenna columns and said active antenna columns when said planar antenna array is viewed from the broadside; and means for equipping said planar antenna array with said plurality of parasitic antenna columns disposed said determined distance in front of said ground surface and arranged in said determined arrangement. - View Dependent Claims (25, 26, 27, 28, 29)
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30. A planar antenna system adapted to provide an antenna beam propagating in a predetermined direction having acceptably low side lobe levels when excited through the use of uniform aperture distribution, said antenna system comprising:
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a back plane surface; a plurality of antenna elements disposed in a plane substantially parallel to and a predetermined distance from said back plane surface, each antenna element of said plurality of antenna elements being spaced substantially equidistant from and parallel to a next adjacent antenna element; a plurality of passive elements, each disposed parallel to a next adjacent passive element to form a plane substantially parallel to and disposed approximately equidistant from said antenna elements and said back plane surface; and said plurality of passive elements including at least two edge passive elements and an intermediate passive element disposed between said edge passive elements, said edge passive elements being disposed directly behind an antenna element of said plurality of antenna elements and said intermediate passive element being disposed to be interleaved with two antenna elements of said plurality of antenna elements when said antenna system is viewed from the broadside.
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31. A planar antenna system adapted to provide an antenna beam propagating in a predetermined direction having acceptably low side lobe levels when excited through the use of uniform aperture distribution, said antenna system comprising:
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a back plane surface; a plurality of antenna elements disposed in a plane substantially parallel to and a predetermined distance from said back plane surface, each antenna element of said plurality of antenna elements being spaced substantially equidistant from and parallel to a next adjacent antenna element; a plurality of passive elements arranged to form at least a first plane and a second plane of passive elements, said first plane of passive elements being substantially parallel to and approximately equidistant from said back plane surface and said antenna elements, and said second plane of passive elements being substantially parallel to and approximately the same distance from said plane of antenna elements as said first plane of passive elements; and said first and second planes of passive elements arranged in a substantially identical pattern of passive elements, wherein said passive elements are disposed to be interleaved with said plurality of antenna elements when said antenna system is viewed from the broadside.
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Specification