Nederlandse Organisatie voor toegepast-natuurwetenschappelijk Onderzoek TNO
대리인 / 주소
Leydig, Voit & Mayer, Ltd.
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A star tracker is used to measure the direction of stars. Preferably a wide imaging range is provided so that a reliable orientation of the star tracker can be computed from measurements of the directions of star at substantially different directions. The star tracker comprises a light baffle and lo
A star tracker is used to measure the direction of stars. Preferably a wide imaging range is provided so that a reliable orientation of the star tracker can be computed from measurements of the directions of star at substantially different directions. The star tracker comprises a light baffle and located between the light baffle and an image sensing arrangement. The light baffle comprises an array of walls, including sidewalls and at least one internal wall between the sidewalls. Preferably, the side walls and the at least one internal wall are oriented at mutually different orientations emanating from a virtual line of intersection of the planes of the walls. Thus a range of star directions can be imaged with constant sensitivity.
대표청구항▼
1. A star tracker, comprising: an image sensing arrangement,optics configured to image incoming light on the image sensing arrangement, anda light baffle, the optics being located between the light baffle and the image sensing arrangement, the light baffle comprising an array of walls, including sid
1. A star tracker, comprising: an image sensing arrangement,optics configured to image incoming light on the image sensing arrangement, anda light baffle, the optics being located between the light baffle and the image sensing arrangement, the light baffle comprising an array of walls, including sidewalls and at least one internal wall between the sidewalls, the internal wall separating a space between the sidewalls into separate subspaces. 2. A star tracker according to claim 1, wherein the sidewalls and the at least one internal wall are directed at mutually different angles relative to a viewing direction of the star tracker. 3. A star tracker according to claim 2, wherein the at least one internal wall separates a pair of successive ranges of angles from which the image sensing arrangement is able to sense light along at least part of the pair of successive ranges of angles and wherein the at least one internal wall has an orientation corresponding to substantially meeting ends of these ranges. 4. A star tracker according to claim 1, wherein the sidewalls and the at least one internal wall lie in virtual planes that have a common line of intersection. 5. A star tracker according to claim 1, wherein the at least one internal wall comprises protrusions transverse to a main plane of the internal wall at the end of the internal wall that extends towards the image sensing arrangement. 6. A star tracker according to claim 2, wherein the sidewalls are oriented along directions from which light is imaged to an edge of an area of the image sensing arrangement from which image data is sensed, the internal wall or walls being oriented so that the internal wall or walls subdivide a range of orientations between the orientations of the sidewalls into equal sized sub-ranges. 7. A star tracker according to claim 1, wherein the internal walls separate the light baffle into compartments, and wherein the optics comprise a single common objective for imaging light passed by different ones of the compartments onto the image sensing arrangement. 8. A star tracker according to claim 7, wherein the sidewalls extend to edges of an aperture stop of the common objective. 9. A star tracker according to any one of claims 1 to 8, wherein the internal walls separate the light baffle into compartments, the optics comprising a plurality of lenses, each for a respective one of the compartments, located at ends of the sidewalls and the internal walls, that extend towards the image sensing arrangement and bound the respective one of the compartments. 10. A star tracker according to claim 1, wherein the internal walls separate the light baffle into compartments, and wherein the image sensing arrangement comprises an integrated circuit with a matrix of light sensing elements located to receive imaged light from all compartments. 11. A star tracker according to claim 1, wherein the internal walls separate the light baffle into compartments, and wherein the image sensing arrangement comprises a plurality of separate matrixes of light sensing elements, each matrix being located to receive imaged light from a respective compartment. 12. A star tracker according to claim 1, comprising an orientation computing circuit, configured to compute an orientation of the star tracker relative to a combination of celestial objects, from measured positions of the celestial objects in one or more images sensed by the image sensing arrangement at a common orientation of the image sensing arrangement relative to the celestial objects. 13. A method of measuring directions towards celestial objects, the method comprising baffling light before imaging the light onto an image sensing arrangement, using a light baffle that comprises an array of walls, including sidewalls and at least one internal wall between the sidewalls, the internal wall separating a space between the sidewalls into separate subspaces. 14. A star tracker according to claim 3, wherein the sidewalls are oriented along directions from which light is imaged to an edge of an area of the image sensing arrangement from which image data is sensed, the internal wall or walls being oriented so that the internal wall or walls subdivide a range of orientations between the orientations of the sidewalls into equal sized sub-ranges.
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이 특허에 인용된 특허 (7)
Bell, John A.; Schuster, John J., Optical receiver having baffle including a plurality of apertures.
Appelbaum Joseph (Raanana ILX) Weiss Reuven (Bat Yam ILX), Solar radiation sensor and system including same for measuring solar radiation distribution.
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