Patent application number | Description | Published |
20080196814 | SPATIAL LIGHT MODULATOR WITH MULTI-LAYER LANDING STRUCTURES - A method of fabricating a spatial light modulator. The method includes providing a first substrate including a first bonding surface, forming a first layer coupled to the bonding surface, wherein the first layer is characterized by a first set of material parameters, and forming a second layer coupled to the first layer, wherein the second layer is characterized by a second set of material parameters. The method also includes patterning the first layer and the second layer to form a plurality of landing structures extending to a first distance from the bonding surface of the first substrate. The method further includes providing a second substrate including a second bonding surface, joining the first bonding surface of the first substrate to the second bonding surface of the second substrate, and forming a plurality of moveable mirrors from the second substrate. During operation, the moveable mirrors make contact with the second layer. | 08-21-2008 |
20090002805 | PROJECTION DISPLAY SYSTEM INCLUDING A HIGH FILL RATIO SILICON SPATIAL LIGHT MODULATOR - A display system includes a light source and a first optical system coupled to the light source and adapted to provide an illumination beam along an illumination path. The display system also includes a spatial light modulator positioned in the illumination path. The spatial light modulator includes a semiconductor substrate including a plurality of electrode devices and a hinge structure coupled to the semiconductor substrate. The hinge structure includes silicon material. The spatial light modulator also includes a mirror post coupled to the hinge structure and extending to a predetermined distance from the semiconductor substrate and a mirror plate coupled to the mirror post and overlying the plurality of electrode devices. The display system further includes a second optical system coupled to the spatial light modulator and adapted to project an image onto a projection surface. | 01-01-2009 |
20090231671 | METHOD AND SYSTEM FOR OPTICAL MEMS WITH FLEXIBLE LANDING STRUCTURES - An optical deflection device for a display application includes a semiconductor substrate comprising an upper surface region defining an upper surface plane. The optical deflection device also includes one or more electrode devices provided overlying the upper surface region and a hinge device including a silicon material and coupled to the upper surface region at a predetermined height above the upper surface plane. The optical deflection device further comprises a plurality of landing pads including a silicon material and coupled to the upper surface region at the predetermined height from the upper surface plane and a mirror structure. The mirror structure includes a post portion coupled to the hinge device and a mirror plate portion coupled to the post portion. | 09-17-2009 |
20090233244 | METHOD AND SYSTEM FOR OVERLAY CORRECTION DURING PHOTOLITHOGRAPHY - A method of performing overlay error correction includes forming a photoresist layer over a substrate and exposing a first set of apertures to incident radiation. The method also includes determining an overlay error associated with the first set of apertures and determining an overlay correction as a function of the determined overlay error. The method further includes exposing a data area and a second set of apertures. The data area and the second set of apertures are exposed based, in part, on the determined overlay correction. Moreover, the method includes verifying the determined overlay correction. | 09-17-2009 |
20100112492 | FABRICATION OF A HIGH FILL RATIO SILICON SPATIAL LIGHT MODULATOR - A method for forming an optical deflection device includes providing a semiconductor substrate comprising an upper surface region and a plurality of drive devices within one or more portions of the semiconductor substrate. The upper surface region includes one or more patterned structure regions and at least one open region to expose a portion of the upper surface region to form a resulting surface region. The method also includes forming a planarizing material overlying the resulting surface region to fill the at least one open region and cause formation of an upper planarized layer using the fill material. The method further includes forming a thickness of silicon material at a temperature of less than 300° C. to maintain a state of the planarizing material. | 05-06-2010 |
20110059565 | METHOD AND APPARATUS FOR MEMS OSCILLATOR - A resonator includes a CMOS substrate having a first electrode and a second electrode. The CMOS substrate is configured to provide one or more control signals to the first electrode. The resonator also includes a resonator structure including a silicon material layer. The resonator structure is coupled to the CMOS substrate and configured to resonate in response to the one or more control signals. | 03-10-2011 |
20110111544 | MEMS MIRROR SYSTEM FOR LASER PRINTING APPLICATIONS - A MEMS mirror for a laser printing application includes providing a CMOS substrate including a pair of electrodes, and providing a reflecting mirror moveable over the substrate and the electrodes. Voltages applied to the electrodes create an electrostatic force causing an end of the mirror to be attracted to the substrate. A precise position of the mirror can be detected and controlled by sensing a change in capacitance between the mirror ends and the underlying electrodes. | 05-12-2011 |
20110186839 | Method and System for Hermetically Sealing Packages for Optics - A system for hermetically sealing devices includes a substrate, which includes a plurality of individual chips. Each of the chips includes a plurality of devices and each of the chips are arranged in a spatial manner as a first array. The system also includes a transparent member of a predetermined thickness, which includes a plurality of recessed regions arranged in a spatial manner as a second array and each of the recessed regions are bordered by a standoff region. The substrate and the transparent member are aligned in a manner to couple each of the plurality of recessed regions to a respective one of said plurality of chips. Each of the chips within one of the respective recessed regions is hermetically sealed by contacting the standoff region of the transparent member to the plurality of first street regions and second street regions using at least a bonding process to isolate each of the chips within one of the recessed regions. | 08-04-2011 |
20120034724 | METHOD AND APPARATUS FOR MEMS OSCILLATOR - A resonator includes a CMOS substrate having a first electrode and a second electrode. The CMOS substrate is configured to provide one or more control signals to the first electrode. The resonator also includes a resonator structure including a silicon material layer. The resonator structure is coupled to the CMOS substrate and configured to resonate in response to the one or more control signals. | 02-09-2012 |
20120171623 | FABRICATION OF A HIGH FILL RATIO SILICON SPATIAL LIGHT MODULATOR - A method for forming an optical deflection device includes providing a semiconductor substrate comprising an upper surface region and a plurality of drive devices within one or more portions of the semiconductor substrate. The upper surface region includes one or more patterned structure regions and at least one open region to expose a portion of the upper surface region to form a resulting surface region. The method also includes forming a planarizing material overlying the resulting surface region to fill the at least one open region and cause formation of an upper planarized layer using the fill material. The method further includes forming a thickness of silicon material at a temperature of less than 300° C. to maintain a state of the planarizing material. | 07-05-2012 |