Triangular pyramid phased array antenna
First Claim
1. A phased array antenna comprising:
- three triangular shaped antenna faces meeting at a common vertex, each antenna face including an array of antenna elements, said three antenna faces juxtaposed to form a triangular pyramid, said triangular pyramid having a height h and at least one base leg of length B, h and B exhibiting ratio which provides a triangular pyramid shape for said antenna that assures a first antenna aperture at a minimum beam elevation angle that is larger than a second antenna aperture when said beam elevation angle is at zenith, said first aperture and said second aperture exhibiting a ratio of areas that is at least equal to a ratio of additional losses experienced by a beam at said minimum beam elevation angle to additional losses experienced by a beam at a zenith elevation angle, additional losses being the sum of losses resulting from at least rain, path length and atmospheric attenuation.
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Accused Products
Abstract
A phased array antenna (PAA) that is particularly adapted to accommodate communications with low earth orbiting (LEO) satellites includes three antenna faces which comprise a phased array of radiating elements, each antenna face is triangular and the three faces form a triangular pyramid. Each triangular face has a height h and a base length B. B and h are chosen to optimize the antenna'"'"'s gain variation with beam elevation angle to compensate for the path losses dependent on beam elevation angle. At low elevation, increased free space loss in incurred due to longer range to a low earth orbiting satellite, and more rain and atmospheric loss is incurred due to longer path through the atmosphere compared with the losses at higher elevations or at zenith. Since the intrinsic shape compensates for the elevation dependent losses, the PAA design minimizes total array area compared with other known geometries and thus exhibits lower cost.
33 Citations
4 Claims
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1. A phased array antenna comprising:
three triangular shaped antenna faces meeting at a common vertex, each antenna face including an array of antenna elements, said three antenna faces juxtaposed to form a triangular pyramid, said triangular pyramid having a height h and at least one base leg of length B, h and B exhibiting ratio which provides a triangular pyramid shape for said antenna that assures a first antenna aperture at a minimum beam elevation angle that is larger than a second antenna aperture when said beam elevation angle is at zenith, said first aperture and said second aperture exhibiting a ratio of areas that is at least equal to a ratio of additional losses experienced by a beam at said minimum beam elevation angle to additional losses experienced by a beam at a zenith elevation angle, additional losses being the sum of losses resulting from at least rain, path length and atmospheric attenuation. - View Dependent Claims (2, 3, 4)
Specification
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- Resources
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Current AssigneeLockheed Martin Corporation (Martin Marietta Corporation)
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Original AssigneeLoral Aerospace Corp. (MHR Holdings LLC (New York))
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InventorsChethik, Frank
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Primary Examiner(s)Hajec, Donald T.
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Assistant Examiner(s)LE, HOANGANH T
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Application NumberUS08/384,789Time in Patent Office546 DaysField of Search343/700 MS, 343/853, 343/844, 343/878, 343/893, 342/371, 342/372, 342/368, 342/367, 342/355US Class Current343/844CPC Class CodesH01Q 21/28 Combinations of substantial...
