Patent application number | Description | Published |
20090290128 | Tiled color filter for a projection system - A controllable reflecting device having an array of mirrors that is combined with a tiled color filter such that each micro mirror reflects a single primary color is described. The tiled color filter, in the light path between a light source and the mirror array, images one micro mirror wide primary color stripes on the micro mirror array in a repeating sequence (for example RGBRGB etc.). A movable mirror or lens in the optics path between the micro mirror array and a projection screen is moved to displace the image formed by the micro mirror array and projected to the screen such that for each image all pixel positions at the screen sequentially see a micro mirror of each primary color. | 11-26-2009 |
20100103499 | BIAXIAL MIRROR COLOR SELECTING MICRO MIRROR IMAGER - A controllable reflecting device having an array of bi-axial mirrors that are capable of pivoting in at least four directions is described. Each micro-mirror of the micro-mirror array is supported through a torsion pivot by a yoke attached by a second coplanar orthogonal torsion pivot to the mirror array support. The mirror and yoke are electrically conductive to a common node on the mirror array support shared by all the mirror/yoke assemblies. Under each mirror/yoke assembly the mirror array support has four plate areas electrically isolated from each other and the mirror/yoke assembly. In response to electrical signals from driver switches integrated in the mirror array support, these plate areas, driven in pairs, selectively provide an electric field with respect to the common node. This electric field attracts the mirror and yoke to facilitate movement of the mirror/yoke assembly to a desired reflecting state. | 04-29-2010 |
20100110529 | BIAXIAL MIRROR COLOR SELECTING MICRO IMAGER - A controllable reflecting device having an array of bi-axial mirrors that are capable of pivoting in at least four directions is described. At least three primary colored light beams are directed at each of the bi-axial mirror in three of the four pivoting directions, one for each of the primary colored light beams and a single colored beam is reflected and directed toward a projection lens. In the fourth pivoting direction, no color beam is directed to the projection lens and black is projected. | 05-06-2010 |
Patent application number | Description | Published |
20100312396 | ENVIRONMENT CONTROL SYSTEM - A control system for governing temperature and humidity levels within a confined space including a controller communicatively coupled to a cooling system, a heating system, a duct system, a plurality of environmental sensors for detecting temperature and humidity levels within the confined space and external to the confined space, and an external air intake for introducing air external to the confined space to within the confined space. The control system may further include predictive heating and predictive cooling configurations having a computing device communicatively connected to the controller and to an environmental forecast source. | 12-09-2010 |
20100312397 | ENVIRONMENT CONTROL SYSTEM - A control system for governing temperature and humidity levels within a confined space including a controller communicatively coupled to a cooling system, a heating system, a duct system, a plurality of environmental sensors for detecting temperature and humidity levels within the confined space and external to the confined space, and an external air intake for introducing air external to the confined space to within the confined space. The control system may further include predictive heating and predictive cooling configurations having a computing device communicatively connected to the controller and to an environmental forecast source. | 12-09-2010 |
20130274930 | ENVIRONMENT CONTROL SYSTEM - A control system for governing temperature and humidity levels within a confined space including a controller communicatively coupled to a cooling system, a heating system, a duct system, a plurality of environmental sensors for detecting temperature and humidity levels within the confined space and external to the confined space, and an external air intake for introducing air external to the confined space to within the confined space. The control system may further include predictive heating and predictive cooling configurations having a computing device communicatively connected to the controller and to an environmental forecast source. | 10-17-2013 |
Patent application number | Description | Published |
20140259576 | REMOVABLE CUSTOMIZABLE CASKET PANEL - Caskets, cap panel assemblies for a casket, and methods for manufacturing cap panel assemblies are described. A casket may include a casket shell, at least one casket cap pivotally mounted on the casket shell, and a cap panel assembly mounted in the at least one casket cap. The cap panel assembly may include a cap panel, a puffing member attached to each edge of the cap panel, and a cap panel insert. The cap panel insert is fastened to the cap panel using pins. The cap panel insert can include a frame, fabric, filler, and a backing board. The cap panel insert can include elastic or ribbon-shaped straps positioned on a front face of the cap panel insert. The elastic or ribbon-shaped straps can be positioned in a lattice or grid-like arrangement. The cap panel insert can include a mounting bracket or a screw and wire assembly for mounting the cap panel insert on a wall. | 09-18-2014 |
20150020355 | REMOVABLE CUSTOMIZABLE CASKET PANEL - Caskets, cap panel assemblies for a casket, and methods for manufacturing cap panel assemblies are described. A casket may include a casket shell, at least one casket cap pivotally mounted on the casket shell, and a cap panel assembly mounted in the at least one casket cap. The cap panel assembly may include a cap panel, a puffing member attached to each edge of the cap panel, a cap panel insert positioned in-line with the cap panel, and a plurality of resilient members positioned on a front face of the cap panel insert. The plurality of resilient members may be tensioned, for example, to hold keepsakes, memorabilia, or other types of objects on or in the cap panel insert. The cap panel insert can include a mounting bracket or a screw and wire assembly for mounting the cap panel insert on a wall. | 01-22-2015 |
Patent application number | Description | Published |
20100329951 | Test Sensor Package - A fluid sensor comprises a formed plastic body and a reagent. The body has a top face with an integral first surface. The body also has a bottom face opposed to the first surface and a sidewall that extends from the periphery of the top face. The first surface is adapted to accept a fluid sample. The reagent is disposed on the integral first surface and causes a color change detectable on the bottom face when the reagent reacts with an analyte in the fluid sample. | 12-30-2010 |
20110061458 | Methods Of Using An Electrochemical Biosensor - According to one embodiment of the present invention, an electrochemical sensor ( | 03-17-2011 |
20120132542 | Methods Of Using An Electrochemical Biosensor - According to one embodiment of the present invention, an electrochemical sensor ( | 05-31-2012 |
20130161206 | METHODS OF USING AN ELECTROCHEMICAL BIOSENSOR - According to one embodiment of the present invention, an electrochemical sensor ( | 06-27-2013 |
20130177993 | Light Guide Test Sensor - An optic light guide test sensor comprises a light guide, a reagent-coated membrane, and a mesh layer. The reagent-coated membrane and the mesh layer are attached to the light guide at an output end of the light guide. The light guide test sensor is adapted to be used to test the level of an analyte in a biological fluid sample when used with a readhead. A method of manufacturing the light guide test sensor involves providing a plurality of light guides, providing a strip of reagent-coated membrane, and providing a strip of mesh layer. The reagent-coated membrane and mesh layer are attached to the light guides by ultrasonic welding. The reagent-coated membrane and mesh layer may also be attached to the light guides by adhesive. | 07-11-2013 |
20130343963 | TEST SENSOR PACKAGE - A fluid sensor comprises a formed plastic body and a reagent. The body has a top face with an integral first surface. The body also has a bottom face opposed to the first surface and a sidewall that extends from the periphery of the top face. The first surface is adapted to accept a fluid sample. The reagent is disposed on the integral first surface and causes a color change detectable on the bottom face when the reagent reacts with an analyte in the fluid sample. | 12-26-2013 |
20140193894 | SENSOR AND PACKAGE - A fluid sensor comprises a formed plastic body and a reagent. The body has a top face with an integral first surface. The body also has a bottom face opposed to the first surface and a sidewall that extends from the periphery of the top face. The first surface is adapted to accept a fluid sample. The reagent is disposed on the integral first surface and causes a color change detectable on the bottom face when the reagent reacts with an analyte in the fluid sample. | 07-10-2014 |
20140202881 | Electrochemical Biosensor - According to one embodiment of the present invention, an electrochemical sensor ( | 07-24-2014 |
20150098866 | Light Guide Test Sensor - An optic light guide test sensor comprises a light guide, a reagent-coated membrane, and a mesh layer. The reagent-coated membrane and the mesh layer are attached to the light guide at an output end of the light guide. The light guide test sensor is adapted to be used to test the level of an analyte in a biological fluid sample when used with a readhead. A method of manufacturing the light guide test sensor involves providing a plurality of light guides, providing a strip of reagent-coated membrane, and providing a strip of mesh layer. The reagent-coated membrane and mesh layer are attached to the light guides by ultrasonic welding. The reagent-coated membrane and mesh layer may also be attached to the light guides by adhesive. | 04-09-2015 |