Fiberoptic face plate stop for digital micromirror device projection system
First Claim
1. An imaging system comprising:
- an array of mirrors, each mounted for tilting between an OFF position in which the mirror lies in a mirror plane that is parallel to a first plane and an ON position in which the mirror lies in a mirror plane that is parallel to a second plane that extends at an angle to said first plane,a drive for tilting selected ones of said mirrors between said ON and OFF positions, anda bundle of mutually parallel optical fibers having optical fiber axes perpendicular to said second plane, said bundle being positioned to direct input light through said fibers to said array of mirrors, and to direct light retroreflected from mirrors in said ON position back through said fibers, said fibers blocking light reflected from mirrors in said OFF position.
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Accused Products
Abstract
A digital micromirror device projection system employs an array of digitally operable micromirrors that are individually and selectively tiltable between ON and OFF positions. The array of mirrors is illuminated by a high intensity light source, and light reflected from those mirrors selectively driven to the ON tilted position is reflected to a projection lens for projection onto a screen. Concomitantly, light reflected from those of the mirrors in the OFF position are blocked by a system stop. The system stop is formed by a wedge-shaped bundle of optical fibers positioned immediately adjacent the mirror array. The fiber axes are all mutually parallel and are perpendicular to the mutually parallel planes of those of the mirrors that are tilted to the ON position so that the illuminating light is incident upon the mirrors in a perpendicular relationship and is retroreflected back through the optical fibers to the projection lens of the system. The optical fibers have a very small numerical aperture and act as a system stop to block light from those mirrors that are in OFF position. Light from the illuminating source passing through the fiberoptic face plate and impinging upon the OFF position mirrors is reflected back at an angle to the axes of the fibers that is not within the acceptance angle of the fibers.
43 Citations
15 Claims
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1. An imaging system comprising:
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an array of mirrors, each mounted for tilting between an OFF position in which the mirror lies in a mirror plane that is parallel to a first plane and an ON position in which the mirror lies in a mirror plane that is parallel to a second plane that extends at an angle to said first plane, a drive for tilting selected ones of said mirrors between said ON and OFF positions, and a bundle of mutually parallel optical fibers having optical fiber axes perpendicular to said second plane, said bundle being positioned to direct input light through said fibers to said array of mirrors, and to direct light retroreflected from mirrors in said ON position back through said fibers, said fibers blocking light reflected from mirrors in said OFF position. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. In an imaging system wherein mirrors of a mirror array are each tiltable between an OFF position in which each mirror lies in a mirror plane parallel to a first plane and an ON position in which each mirror lies in a mirror plane that is parallel to a second plane that extends at an angle to the first plane, wherein an illumination beam is projected from a light source to said mirrors for reflection from mirrors in said ON position as an output beam to a projection lens which projects the output beam upon a screen, an improved method for blocking light reflected from said mirrors in said OFF position, said improved method comprising the steps of:
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forming a bundle of optical fibers, positioning said bundle of fibers adjacent said array with the axes of said fibers all parallel to one another and perpendicular to said second plane, directing light from said light source through said optical fibers to said array of mirrors, and directing light retroreflected from said mirrors in said ON position back through said fibers to said projection lens. - View Dependent Claims (11, 12)
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13. An imaging system comprising:
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an array of tiltably mounted mirrors, drive means for selectively and individually tilting each of said mirrors between ON and OFF positions, each of said mirrors in its OFF position lying in a plane parallel to a first plane that extends at an angle to the plane of said array, and in its ON position lying in a second plane that extends at an angle to the plane of said array and to said first plane, a light source configured and arranged to project an illuminating light beam toward said array, a projection lens configured and arranged to receive light reflected from said array and to project the received reflected light or an image beam upon a screen, a wedge-shaped optical fiber face plate having an inner face positioned closely adjacent and extending parallel to said array and having an outer face lying in a plane parallel to said second plane, said face plate comprising a plurality of straight optical fibers extending between said inner and outer faces of said face plate, and means for separately directing said illuminating beam and image beam along different optical paths. - View Dependent Claims (14, 15)
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Specification