Beam shaping of RF feed energy for reflector-based antennas
First Claim
1. A reflector-based antenna, comprising:
- a primary reflector having a focal point;
an antenna feed spaced from the primary reflector and located at approximately the focal point for illuminating the primary reflector with or receiving from the primary reflector radio frequency (RF) energy, said feed forming a central blockage of the primary reflector along a boresight axis; and
an RF beam-shaping element formed of a dielectric material and located between the primary reflector and the antenna feed, said dielectric material configured with a non-flat front surface facing the primary reflector and a non-flat rear surface facing the antenna feed, said front and rear surfaces having different curvatures such that the dielectric material has non-uniform thickness, said dielectric material being thinner near the boresight axis to steer RF energy from the feed that is transmitted through the dielectric material away from the central blockage towards unblocked regions of the primary reflector such that power radiated toward the central blockage from the feed is reduced and the majority of the radiated power illuminates the unblocked regions of the primary reflector, wherein the curved front and rear surfaces are configured such that RF beam-shaping element is net-divergent in that the element causes more RF energy to diverge away from the boresight axis than to converge towards the boresight axis.
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Accused Products
Abstract
A beam-shaping element is provided to shape RF feed energy for reflector-based antennas. The RF beam-shaping element is located between the primary reflector and the antenna feed and configured to direct RF energy from the feed away from a blockage created by the feed itself towards unblocked regions of the primary reflector. The beam-shaping element allows for a simplified feed design. The feed may comprise one or more feed elements, each comprising a radiating element and a feed to the radiating element such as a cavity-backed slot radiator and stripline trace. In a monopulse tracking system, each quadrant may include only a single feed element. In common aperture systems, the RF beam-shaping element may be formed on only the rear surface of the secondary reflector that allows transmission at the predefined RF wavelength while reflecting energy of a second predetermined wavelength to another sensor.
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Citations
17 Claims
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1. A reflector-based antenna, comprising:
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a primary reflector having a focal point; an antenna feed spaced from the primary reflector and located at approximately the focal point for illuminating the primary reflector with or receiving from the primary reflector radio frequency (RF) energy, said feed forming a central blockage of the primary reflector along a boresight axis; and an RF beam-shaping element formed of a dielectric material and located between the primary reflector and the antenna feed, said dielectric material configured with a non-flat front surface facing the primary reflector and a non-flat rear surface facing the antenna feed, said front and rear surfaces having different curvatures such that the dielectric material has non-uniform thickness, said dielectric material being thinner near the boresight axis to steer RF energy from the feed that is transmitted through the dielectric material away from the central blockage towards unblocked regions of the primary reflector such that power radiated toward the central blockage from the feed is reduced and the majority of the radiated power illuminates the unblocked regions of the primary reflector, wherein the curved front and rear surfaces are configured such that RF beam-shaping element is net-divergent in that the element causes more RF energy to diverge away from the boresight axis than to converge towards the boresight axis. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A reflector-based antenna, comprising:
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a primary reflector having a focal point; an antenna feed spaced from the primary reflector and located approximately at the focal point for illuminating the primary reflector with or receiving from the primary reflector radio frequency (RF) energy of a first predefined RF wavelength; a sensor for receiving or transmitting energy of a second predefined wavelength different from the predefined RF wavelength from the primary reflector; a secondary reflector having a forward surface facing the primary reflector and the sensor and a rear surface facing the antenna feed, said secondary reflector comprising a selective coating on the forward surface that allows transmission energy at the first predefined RF wavelength there through and reflects energy of the second predefined wavelength, said antenna feed, said secondary reflector and said sensor creating a central blockage of the primary reflector along a boresight axis, said forward and rear surfaces having different curvatures such that the dielectric material has non-uniform thickness, said dielectric material being thinner near the boresight axis to steer energy from the feed that is transmitted through the dielectric material away from the central blockage towards unblocked regions of the primary reflector. - View Dependent Claims (14, 15, 16)
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17. A reflector-based antenna, comprising:
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a primary reflector having a focal point; an antenna feed spaced from the primary reflector and located at approximately the focal point for illuminating the primary reflector with or receiving from the primary reflector radio frequency (RF) energy, said feed forming a blockage of the primary reflector; and an RF beam-shaping element located between the primary reflector and the antenna feed, said RF beam shaping element comprising a conical cutout formed in a rear surface of a dielectric material facing the antenna feed that directs RF energy from the feed that is transmitted through the dielectric material away from the blockage towards unblocked regions of the primary reflector.
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Specification