| CBRITE INC. Patent applications |
| Patent application number | Title | Published |
|---|
| 20110157683 | ELECTRO-OPTIC DISPLAY - An electro-optic display includes a “matrix” for confining moving elements of the display (e.g., rotating or twisting elements). The matrix (or at least the viewable portions thereof) may have a high reflectivity, comparable to that of white paper. This results in an overall “whiter” or brighter display. The matrix may include channels to facilitate inter-cell fluid transport and high-density element packing. In some cases, the matrix elements provide a hexagonal arrangement of cells for holding the rotating elements. The rotating elements of the display may be electrically and optically anisotropic hemispherically coated spheres. The hemispherical coating typically provides the necessary charge to create electrical anisotropy. | 06-30-2011 |
| 20110147761 | TWO-TERMINAL SWITCHING DEVICES AND THEIR METHODS OF FABRICATION - Two-terminal switching devices characterized by high on/off current ratios and by high breakdown voltage are provided. These devices can be employed as switches in the driving circuits of active matrix displays, e.g., in electrophoretic, rotating element and liquid crystal displays. The switching devices include two electrodes, and a layer of a broad band semiconducting material residing between the electrodes. According to one example, the cathode comprises a metal having a low work function, the anode comprises an organic material having a p+ or p++ type of conductivity, and the broad band semiconductor comprises a metal oxide. The work function difference between the cathode and the anode material is preferably at least about 0.6 eV. The on/off current ratios of at least 10,000 over a voltage range of about 15 V can be achieved. The devices can be formed, if desired, on flexible polymeric substrates having low melting points. | 06-23-2011 |
| 20100097687 | Rotating Element Transmissive Displays - A transmissive electro-optic display includes a substantially transparent front plane and back plane element. The back plane element includes a plurality of electrodes distributed in two dimensions on the backplane, each allowing independent control of a discrete region of the display. The front plane element includes at least one electrode disposed opposite the back plane, and is spaced apart from the back plane element by an interior wall defining a plurality of cells therebetween. A plurality of partially conductive and optically anisotropic elements is rotatably disposed in the plurality of cells, together with a dielectric fluid. When an appropriate electric field and/or a magnetic field is applied to the cells, the corresponding anisotropic elements are caused rotate between a “transmissive” state and an “opaque” state. | 04-22-2010 |
| 20100035377 | Transfer Coating Method - A method for partially coating a structure having one or more small protruding features is provided. The method includes: (a) providing a structure comprising a base and a protruding feature attached to the base of the structure, the feature having a diameter or width of about 1 mm or less; (b) contacting the protruding feature with a substantially uniform layer of viscous coating material, the layer having a pre-determined thickness, to transfer at least some of the coating material from the layer of coating material to the protruding feature, without contacting the base of the structure with the layer of viscous coating material; and (c) separating the structure from the layer of coating material to form a substantially uniformly coated protruding feature, wherein the coating occupies a desired pre-determined area on the feature. | 02-11-2010 |
| 20090278277 | MULTILAYER FILMS FOR PACKAGE APPLICATIONS AND METHOD FOR MAKING SAME - A multilayer film formed by a solution process. The multilayer film includes a plurality of basic film structures positioned in contiguous overlying relationship to form a common multilayer film. Each of the plurality of basic film structures includes one of: a first two-layer structure with a first layer including either a polymer material or an organic material and a second layer including a functionalized inorganic material; a second two-layer structure with a first layer including either a polymer material or an organic material and a second layer including either a polymer binder and/or an organic binder; and a three layer structure with a first layer including either a polymer material or an organic material, a second layer including a functionalized inorganic material, and a third layer including one of a polymer binder and/or an organic binder. | 11-12-2009 |
