MICRO-ELECTRO-MECHANICAL SYSTEM MIRROR AND MICRO-ELECTRO-MECHANICAL SYSTEM REFLECTIVE DEVICE
First Claim
1. A micro-electro-mechanical system (MEMS) mirror comprising:
- a reflective mirror comprising a mirror body and a number of driving shafts, the mirror body comprising a reflective surface, an opposite bottom surface, and a number of side surfaces interconnected between the reflective surface and the bottom surface, the driving shafts extending from the side surfaces and being equidistant from each other around a central axis of the mirror body; and
a number of MEMS driving modules corresponding to each of the driving shafts respectively, each MEMS driving module comprising;
a container comprising a rigid main body defining a cavity, an opening of the cavity, and a through hole communicating with the cavity, the container further comprising a flexible sealing film covering the opening, the flexible sealing film being arranged to face a bottom surface of a corresponding driving shaft adjacent to the bottom surface of the mirror body, the cavity being filled with liquid contacting the sealing film; and
an optical fiber comprising a light incident end arranged toward a light source and a light output end inserted into the through hole, wherein light emitted from the light source enters the optical fiber through the light incident end and out of the optical fiber through the light output end, the liquid in the cavity is heated and expands from the light emitted from the light output end, thereby causing the sealing film to deform and push the corresponding driving shaft causing the mirror body to deflect.
1 Assignment
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Accused Products
Abstract
A micro-electro-mechanical system mirror comprises a reflective mirror and a number of MEMS driving modules. A number of driving shafts extend from a side surface of the mirror body, each driving shaft being connected to a driving module. Each driving module comprises a container of liquid, an optical fiber, and a light source. The container includes a main body having an opening sealed with a film. The sealing film is arranged toward the driving shaft and seals in the liquid in the container. An optical fiber is inserted into the through holes in the main body of the container and a light source is arranged at the other end of the optical fiber. Light arriving through the optical fiber causes the liquid to expand and deform the sealing film to push against and thus orientate the mirror body.
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Citations
16 Claims
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1. A micro-electro-mechanical system (MEMS) mirror comprising:
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a reflective mirror comprising a mirror body and a number of driving shafts, the mirror body comprising a reflective surface, an opposite bottom surface, and a number of side surfaces interconnected between the reflective surface and the bottom surface, the driving shafts extending from the side surfaces and being equidistant from each other around a central axis of the mirror body; and a number of MEMS driving modules corresponding to each of the driving shafts respectively, each MEMS driving module comprising; a container comprising a rigid main body defining a cavity, an opening of the cavity, and a through hole communicating with the cavity, the container further comprising a flexible sealing film covering the opening, the flexible sealing film being arranged to face a bottom surface of a corresponding driving shaft adjacent to the bottom surface of the mirror body, the cavity being filled with liquid contacting the sealing film; and an optical fiber comprising a light incident end arranged toward a light source and a light output end inserted into the through hole, wherein light emitted from the light source enters the optical fiber through the light incident end and out of the optical fiber through the light output end, the liquid in the cavity is heated and expands from the light emitted from the light output end, thereby causing the sealing film to deform and push the corresponding driving shaft causing the mirror body to deflect. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A micro-electro-mechanical system (MEMS) reflective device comprising:
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a number of micro-electro-mechanical system (MEMS) mirror arranged in an array, each micro-electro-mechanical system mirror comprising; a reflective mirror comprising a mirror body and a number of driving shafts, the mirror body comprising a reflective surface, an opposite bottom surface, and a number of side surfaces interconnected between the reflective surface and the bottom surface, the driving shafts extending from the side surfaces and being equidistant from each other around a central axis of the mirror body; and a number of MEMS driving modules corresponding to each of the driving shafts respectively, each MEMS driving module comprising; a container comprising a rigid main body defining a cavity, an opening of the cavity, and a through hole communicating with the cavity, the container further comprising a flexible sealing film covering the opening, the flexible sealing film being arranged to face a bottom surface of a corresponding driving shaft adjacent to the bottom surface of the mirror body, the cavity being filled with liquid contacting the sealing film; and an optical fiber comprising a light incident end arranged toward a light source and a light output end inserted into the through hole, wherein light emitted from the light source enters the optical fiber through the light incident end and out of the optical fiber through the light output end, the liquid in the cavity is heated and expands from the light emitted from the light output end, thereby causing the sealing film to deform and push the corresponding driving shaft causing the mirror body to deflect. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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Specification