Heat rejecting spacecraft array antenna
First Claim
1. An array antenna including a plurality of elemental antennas, for transducing electromagnetic fields, said array comprising;
- a substantially planar dielectric substrate which is transparent to visible light and to infrared light, said substrate defining a first surface, and also defining a second surface parallel to said first surface;
an electrically conductive layer of light-reflecting mirror lying on said second surface of said dielectric substrate, said layer of mirror defining a pattern of a plurality of apertures exposing said substrate, which apertures define said elemental antennas, and across which the electric component of said electromagnetic fields may extend in the plane of said mirror;
a support structure mechanically coupled to said second surface of said dielectric substrate, for supporting said dielectric substrate and said mirror;
whereby insolation falling upon said array antenna and passing through said dielectric substrate tends to be reflected by said mirror layer in those regions about said apertures, but insolation falling upon said dielectric substrate at said apertures tends to pass through said apertures, and may be absorbed by said support structure, thereby undesirably tending to raise the temperature of said support structure and substrate; and
a thin layer of semiconductor material covering said second surface of said substrate in the region of said apertures, and in contact with said second surface of said substrate, said layer of semiconductor material tending to reflect visible light components of said insolation, and to radiate infrared energy arising from heating of said support structure.
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Accused Products
Abstract
An antenna array for use in space includes an optical solar reflector (OSR)-like structure (310, 510), with sheet of transparent dielectric material (320, 520) and a metallic mirror (322, 522) formed on the sheet. In order to allow the individual antenna elements to radiate electromagnetic energy, the metallic mirror contains apertures (330, 530) which, in one embodiment, define the antenna elements, and which, in another embodiment, are registered with the antenna elements of the array. Where the mirror exists, insolation is reflected, and the heat gain from insolation is minimized. At the locations of the apertures in the mirror, insolation passes through the OSR-like structure, which may tend to increase the temperature of the structure. According to the invention, the apertures are covered with a thin layer (370, 570) of semiconductor material such as germanium or silicon, which does not affect the electromagnetic energy flow. The semiconductor tends to reflect visible light, thereby restoring a substantial amount of the function of the OSR. The semiconductor also emits heat energy, which allows heat to radiate from the apertures to aid in controlling temperatures.
43 Citations
11 Claims
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1. An array antenna including a plurality of elemental antennas, for transducing electromagnetic fields, said array comprising;
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a substantially planar dielectric substrate which is transparent to visible light and to infrared light, said substrate defining a first surface, and also defining a second surface parallel to said first surface; an electrically conductive layer of light-reflecting mirror lying on said second surface of said dielectric substrate, said layer of mirror defining a pattern of a plurality of apertures exposing said substrate, which apertures define said elemental antennas, and across which the electric component of said electromagnetic fields may extend in the plane of said mirror; a support structure mechanically coupled to said second surface of said dielectric substrate, for supporting said dielectric substrate and said mirror; whereby insolation falling upon said array antenna and passing through said dielectric substrate tends to be reflected by said mirror layer in those regions about said apertures, but insolation falling upon said dielectric substrate at said apertures tends to pass through said apertures, and may be absorbed by said support structure, thereby undesirably tending to raise the temperature of said support structure and substrate; and a thin layer of semiconductor material covering said second surface of said substrate in the region of said apertures, and in contact with said second surface of said substrate, said layer of semiconductor material tending to reflect visible light components of said insolation, and to radiate infrared energy arising from heating of said support structure. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An array antenna, comprising:
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a substantially planar printed circuit board defining a plurality of elemental antennas; a plurality of feed means coupled to said printed circuit board, for transducing signals with said elemental antennas; support means for supporting at least said printed circuit board; optical solar reflection means mechanically located adjacent a first side of said printed circuit board, said optical solar reflection means comprising a substantially planar sheet of dielectric material, which is transparent to visible light, and to RF electromagnetic radiation, said optical solar reflection means also including a metallic mirror layer on a side of said sheet of dielectric material, for reflecting visible light, heat energy, and RF electromagnetic radiation, said metallic mirror defining apertures registered with said elemental antennas, to thereby allow electromagnetic radiation generated by said elemental antennas to flow through said aperture and said sheet of dielectric material and away from said array antenna, whereby said apertures in said metallic mirror allow insolation to heat said support means; and a layer of semiconductor material covering, and in contact with, said sheet of dielectric material at said apertures in said metallic mirror, to thereby tend to reflect insolation at said apertures to reduce insolation heating, and to allow heat energy from said printed circuit board and said support structure to pass through said apertures, to enhance radiant cooling. - View Dependent Claims (9, 10, 11)
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Specification