Reflector antenna with improved return loss
First Claim
1. An antenna comprising in combination:
- a main reflector;
an antenna feed physically maintained by a connection to said main reflector, said feed comprising a waveguide feed tube having an end, a subreflector and a connection between said tube and said subreflector, said feed tube for illuminating directly said subreflector with an energy wave; and
a generally conically shaped subreflector for reflecting an energy wave from said waveguide to said main reflector, said subreflector extending beyond the end of said waveguide and having a radial cavity as its primary reflecting surface, said radial cavity being approximately one half wave length in width and having radially spaced-apart, circumferentially extending inner and outer walls and a recessed surface between said walls, said surface having a length between said walls that is greater than the height of said walls, said cavity setting up a standing wave for launching an energy wave to said main reflector.
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Accused Products
Abstract
An improved reflector antenna with far improved return loss than prior art subreflector antennas is disclosed herein. The invention uses a circular waveguide antenna feed employing a non-planar, subreflector having a radial cavity which reflects the energy from the waveguide onto a rotationally symmetrical main reflector. The dimensions of the feed tube, the subflector, and the connection between them are chosen to make the total reflection back into the feed tube very close to zero. The dimensions of the antenna feed are also chosen such that its radiation pattern has an amplitude null along the antenna feed axis. This further improves return loss by minimizing the amount of energy from the main reflector that gets directed back into the feed tube. An alternate embodiment features a feed radiation pattern with an asymmetric amplitude taper for improvement of the sidelobe envelope in a preferred plane.
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Citations
9 Claims
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1. An antenna comprising in combination:
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a main reflector; an antenna feed physically maintained by a connection to said main reflector, said feed comprising a waveguide feed tube having an end, a subreflector and a connection between said tube and said subreflector, said feed tube for illuminating directly said subreflector with an energy wave; and a generally conically shaped subreflector for reflecting an energy wave from said waveguide to said main reflector, said subreflector extending beyond the end of said waveguide and having a radial cavity as its primary reflecting surface, said radial cavity being approximately one half wave length in width and having radially spaced-apart, circumferentially extending inner and outer walls and a recessed surface between said walls, said surface having a length between said walls that is greater than the height of said walls, said cavity setting up a standing wave for launching an energy wave to said main reflector. - View Dependent Claims (2, 3)
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- 4. A symmetrically peaked antenna subreflector having a radial cavity including radially spaced-apart, circumferentially extending inner and outer walls and a recessed surface extending between said walls, said surface having a length between said walls that is greater than the height of said walls, and at least one corrugation, said at least one corrugation being located only at the outer edge of said radial cavity.
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7. An antenna subreflector comprising a circular reflecting element having a primary reflecting surface symmetrically non-planar about a central axis and at least one corrugation, said at least one corrugation located only at the outer edge of said primary reflecting element with the top of said corrugation extending above the primary reflecting surface of said reflecting element a distance less than the radial length of the primary reflecting surface.
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8. A method of using the shape of a non-planar subreflector with at least one corrugation, said at least one corrugation located only at the edge of the subreflector, to guide energy in a desired direction comprising the steps of:
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selecting an axially symmetrical main reflector having a focus; affixing a waveguide feed tube to said main reflector; affixing to an end of said waveguide feed tube, at said focus, a symmetrically peaked subreflector extending beyond the end of the feed tube and having a radial cavity having radially spaced-apart, circumferentially extending inner and outer walls and a recessed surface extending between said walls, said surface having a length between said walls that is greater than the height of said walls, and at least one corrugation located only at the outer edge of said radial cavity; and illuminating said subreflector with an electromagnetic wave from said waveguide feed tube.
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9. A method of illuminating with an energy wave a non-planar subreflector having a radial cavity with radially spaced-apart, circumferentially extending inner and outer walls and a recessed surface extending between said walls, said surface having a length between said walls that is greater than the height of said walls, and at least one corrugation located only at the outer edge of said radial cavity.
Specification