Waveguide feed structures for reconfigurable antenna
First Claim
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1. A reconfigurable holographic antenna comprising:
- a double-ridge waveguide including a first ridge and a second ridge disposed on a floor of the double-ridge waveguide, wherein the first ridge is configured to facilitate a first communication signal and the second ridge is configured to facilitate a second communication signal; and
a metamaterial layer coupled to the double-ridge waveguide as a top lid of the double-ridge waveguide disposed opposite the floor of the double-ridge waveguide, the metamaterial layer including;
a first array of tunable slots configurable to form first holographic diffraction patterns to generate a steered first communication signal in response to the first communication signal, wherein the first array of tunable slots is located along the first ridge; and
a second array of tunable slots configurable to form second holographic diffraction patterns to generate a steered second communication signal in response to the second communication signal, wherein the second array of tunable slots is located along the second ridge, and wherein a reactance of each tunable slot in the first and second array of tunable slots is individually tunable, and further wherein the first and second ridges are configured to reduce mutual coupling between proximate tunable slots in the first and second arrays of tunable slots when a received feed wave propagates through the double-ridge waveguide.
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Abstract
A reconfigurable holographic antenna includes a waveguide and a metamaterial layer. The metamaterial layer includes an array of tunable slots. In one embodiment, the array of tunable slots is configurable to generate holographic diffraction pattern(s) to steer received communication signals.
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Citations
16 Claims
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1. A reconfigurable holographic antenna comprising:
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a double-ridge waveguide including a first ridge and a second ridge disposed on a floor of the double-ridge waveguide, wherein the first ridge is configured to facilitate a first communication signal and the second ridge is configured to facilitate a second communication signal; and a metamaterial layer coupled to the double-ridge waveguide as a top lid of the double-ridge waveguide disposed opposite the floor of the double-ridge waveguide, the metamaterial layer including; a first array of tunable slots configurable to form first holographic diffraction patterns to generate a steered first communication signal in response to the first communication signal, wherein the first array of tunable slots is located along the first ridge; and a second array of tunable slots configurable to form second holographic diffraction patterns to generate a steered second communication signal in response to the second communication signal, wherein the second array of tunable slots is located along the second ridge, and wherein a reactance of each tunable slot in the first and second array of tunable slots is individually tunable, and further wherein the first and second ridges are configured to reduce mutual coupling between proximate tunable slots in the first and second arrays of tunable slots when a received feed wave propagates through the double-ridge waveguide. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A reconfigurable holographic antenna comprising:
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a first narrow-wall waveguide configured to generate a first magnetic field in response to receiving a feed wave; a second narrow-wall waveguide configured to generate a second magnetic field in response to receiving the feed wave, the second magnetic field having a same direction as the first magnetic field; a broadwall waveguide disposed between the first narrow-wall waveguide and the second narrow-wall waveguide, wherein the broadwall waveguide is configured to generate a third magnetic field in response to receiving the feed wave, the third magnetic field being orthogonal to the first and second magnetic field; and a metamaterial layer including an array of tunable slots, wherein a reactance of each of the tunable slots in the array of tunable slots is individually tunable, and wherein the first narrow-wall waveguide, the second narrow-wall waveguide, and the broadwall waveguide are conductively coupled to the metamaterial layer, the array of tunable slots including; a first, second, third, and fourth sub-array of tunable slots, wherein the first and second sub-array are positioned to constructively interfere to generate a first circularly polarized wave in response to the feed wave and the third and fourth sub-array are positioned to constructively interfere to generate a second circularly polarized wave in response to the feed wave, the first sub-array of tunable slots being disposed above the first narrow-wall waveguide, the second and third sub-array of tunable slots being disposed above the broadwall waveguide, and the fourth sub-array of tunable slots being disposed above the second narrow-wall waveguide. - View Dependent Claims (12, 13, 14, 15, 16)
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Specification