| Patent application number | Description | Published |
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| 20090128873 | LIGHT VALVE ASSEMBLY WITH A HOLOGRAPHIC OPTICAL ELEMENT AND A METHOD OF MAKING THE SAME - A light valve assembly comprises a holographic optical element and a light valve that comprises an array of individually addressable pixels. The light valve assemblies can be fabricated on the die level or on a wafer-level. | 05-21-2009 |
| 20090140757 | Microdisplay Assemblies and Methods of Packaging Microdisplays - Microdisplay assemblies, methods of packaging microdisplays, and methods of testing microdisplays are disclosed. In accordance with one embodiment, a microdisplay assembly includes a support and a microdisplay disposed on the support. The microdisplay includes a semiconductor workpiece mounted to the support and an optical device region disposed over the semiconductor workpiece. A plurality of contacts is disposed over a portion of the semiconductor workpiece, wherein each of the plurality of contacts comprises a protruding feature. | 06-04-2009 |
| 20100164081 | Micro-Optical Device Packaging System - According to one embodiment, a micro-optical device includes an electro-optical circuit and an annular frame disposed on a surface of a substrate. The electro-optical circuit has an active region that is encapsulated by a window and an interconnect region adjacent at least one edge of the electro-optical circuit. The annular frame extends around an outer periphery of the window and is separated from the window by a gap, the annular frame and the electro-optical circuit form a cavity for placement of a plurality of bonding wires the interconnect that electro-optical circuit to the substrate. | 07-01-2010 |
| 20110204464 | Micro-Optical Device Packaging System - According to one embodiment, a micro-optical device includes an electro-optical circuit and an annular frame disposed on a surface of a substrate. The electro-optical circuit has an active region that is encapsulated by a window and an interconnect region adjacent at least one edge of the electro-optical circuit. The annular frame extends around an outer periphery of the window and is separated from the window by a gap, the annular frame and the electro-optical circuit form a cavity for placement of a plurality of bonding wires the interconnect that electro-optical circuit to the substrate. | 08-25-2011 |
| Patent application number | Description | Published |
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| 20080311363 | METAL FIBER COATED SUBSTRATE AND METHOD OF MAKING - The disclosed metalized article comprises a substrate, a base binder, and a plurality of loose metal fibers secured to the substrate by the base binder. The method of making the disclosed metalized article comprises providing a substrate, providing a plurality of loose metal fibers on at least a portion of the substrate, and securing the metal fibers to the substrate with a base binder. | 12-18-2008 |
| 20090236033 | CLEANING WIPE AND METHOD OF MANUFACTURE - A cleaning wipe including a fiber web and a tacky material. The fiber web defines opposing surfaces and an intermediate region between the opposing surfaces. In this regard, at least one of the opposing surfaces serves as a working surface for the cleaning wipe. The tacky material is applied to the web such that a level of tacky material is greater in the intermediate region than at the working surface. In one embodiment, the amount of tacky material per area of web material is greater in the intermediate region than at either of the opposing surfaces. In another embodiment, the fiber web is a nonwoven fiber web. | 09-24-2009 |
| 20100044909 | LOFTY, TACKIFIED NONWOVEN SHEET AND METHOD OF MAKING - A method of making a tackified nonwoven sheet that includes forming a densified, tackified web by providing a rebulkable nonwoven fiber web and applying an adhesive to the nonwoven web. The densified, tackified web is rebulked to an open, lofty form by exposing the densified, tackified web to a temperature of at least 225° F. Finally, a sheet is formed from the rebulked, tackified web. In some embodiments, the so-formed sheet is a cleaning wipe configured for picking up diverse debris such as sand, dust, hair, and/or food particles. In other embodiments, the method further includes the rebulked, tackified web having an increased degree of loftiness as compared to a degree of loftiness of the densified, tackified web prior to rebulking. | 02-25-2010 |
| 20100139021 | WIPE - A wipe for cleaning a surface is disclosed that includes a working surface that is a single unitary web including a plurality of peaks each separated from one another by a plurality of valleys. The valleys connect in a rectilinear array. The wipe further comprises an adhesive at the working surface of each valley. The working surface of each peak is substantially free of adhesive. | 06-10-2010 |
| 20100192321 | HAIR AND LINT CLEANING TOOL - A flexible and conformable cleaning tool is disclosed that includes a foam body with a first working surface, wherein the foam body has a shore hardness less than 40. The cleaning tool further comprises a cleaning material on at least a portion of the first working surface, wherein the cleaning material includes an array of 20 to 1000 upstanding stems per square centimeter, wherein each stem has a height from 0.2 and 2.0 millimeters and a shore hardness less than 105 A, wherein the cleaning material is wiped over a surface to be cleaned to gather debris, lint, or hair. | 08-05-2010 |
