Conformal cold baffle for optical imaging systems
First Claim
1. An imaging system comprising:
- an entrance aperture for allowing light from a scene to enter the imaging system;
a refrigeration subsystem for cooling components of the imaging system;
a detection element for detecting the light from the scene; and
a baffle between the entrance aperture and the detection element and cooled by the refrigeration subsystem, the baffle comprising a tapered shroud enclosing an envelope of light rays between the entrance aperture and the detection element, the shroud having a blackened inner surface being shaped such that space between the envelope of light rays and an inner surface of the shroud is minimized.
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Accused Products
Abstract
A cooled stray light baffle for use in an imaging system such as an infrared camera is disclosed. The baffle includes a tapered shroud portion which is shaped to just enclose the envelope of light rays which pass through the baffle. That is, space between the envelope of light rays and the inner surface of the baffle is minimized. This results in minimization of the overall surface area and mass of the baffle, which in turn results in a minimization of the refrigeration load of the system. The lower refrigeration load requires a smaller refrigerator which results in reduced system size, power consumption, vibration, cool-down time and cost of operation. The outer surface of the baffle is covered with a reflective material to reflect light photons. The inner surface is roughened and blackened to absorb stray light photons which enter the baffle.
40 Citations
44 Claims
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1. An imaging system comprising:
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an entrance aperture for allowing light from a scene to enter the imaging system; a refrigeration subsystem for cooling components of the imaging system; a detection element for detecting the light from the scene; and a baffle between the entrance aperture and the detection element and cooled by the refrigeration subsystem, the baffle comprising a tapered shroud enclosing an envelope of light rays between the entrance aperture and the detection element, the shroud having a blackened inner surface being shaped such that space between the envelope of light rays and an inner surface of the shroud is minimized. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of imaging a scene with an imaging system comprising:
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allowing light from the scene to enter the imaging system through an entrance aperture; detecting light from the scene with a detection element; cooling components of the imaging system with a refrigeration subsystem; and coupling a cooled baffle between the entrance aperture and the detection element to block stray light from the detection element, the baffle comprising a tapered shroud enclosing an envelope of light rays between the entrance aperture and the detection element, the shroud being shaped such that space between the envelope of light rays and an inner surface of the shroud is minimized and blackening an inner surface of the shroud. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A method of reducing a cooling load on a refrigeration subsystem of an imaging system comprising:
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allowing light from a scene to pass through an entrance aperture of the imaging system to a detection element of the imaging system; and coupling a baffle cooled by the refrigeration subsystem between the entrance aperture and the detection element, the baffle comprising a tapered shroud enclosing an envelope of light rays between the entrance aperture and the detection element, the shroud being shaped such that space between the envelope of light rays and an inner surface of the shroud is minimized and blackening an inner surface of the shroud. - View Dependent Claims (17, 18, 19, 20, 21, 22)
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23. An imaging system comprising:
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an entrance aperture for allowing light from a scene to enter the imaging system; a refrigeration subsystem for cooling components of the imaging system; a detection element for detecting the light from the scene; and a baffle between the entrance aperture and the detection element and cooled by the refrigeration subsystem, the baffle comprising a tapered shroud enclosing an envelope of light rays between the entrance aperture and the detection element, the shroud having a roughened inner surface being shaped such that space between the envelope of light rays and an inner surface of the shroud is minimized. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30)
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31. A method of imaging a scene with an imaging system comprising:
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allowing light from the scene to enter the imaging system through an entrance aperture; detecting light from the scene with a detection element; cooling components of the imaging system with a refrigeration subsystem; and coupling a cooled baffle between the entrance aperture and the detection element to block stray light from the detection element, the baffle comprising a tapered shroud enclosing an envelope of light rays between the entrance aperture and the detection element, the shroud being shaped such that space between the envelope of light rays and an inner surface of the shroud is minimized and roughening an inner surface of the shroud. - View Dependent Claims (32, 33, 34, 35, 36, 37)
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38. A method of reducing a cooling load on a refrigeration subsystem of an imaging system comprising:
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allowing light from a scene to pass through an entrance aperture of the imaging system to a detection element of the imaging system; and coupling a baffle cooled by the refrigeration subsystem between the entrance aperture and the detection element, the baffle comprising a tapered shroud enclosing an envelope of light rays between the entrance aperture and the detection element, the shroud being shaped such that space between the envelope of light rays and an inner surface of the shroud is minimized and roughening an inner surface of the shroud. - View Dependent Claims (39, 40, 41, 42, 43, 44)
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Specification