| Patent application number | Description | Published |
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| 20080252756 | Circuit and method for correction of defect pixel - A semiconductor integrated circuit includes a check unit which compares a value of a pixel of interest with values of neighboring pixels contained in an image signal supplied from an image sensor, and determines based on the comparison whether the pixel of interest is defective, and a defect correcting unit which corrects the value of the pixel of interest by using values of surrounding pixels in response to the determination by the check unit that the pixel of interest is defective. | 10-16-2008 |
| 20080296643 | SOLID STATE IMAGE SENSING DEVICE - A solid state image sensing device in which many pixels are disposed in a matrix on a two-dimensional plane comprises a plurality of light receiving devices disposed in such a way that a center interval may periodically change in a column direction and/or a row direction, and a plurality of micro-lenses, for collecting an incident light of each light receiving device, wherein a center interval periodically changes in accordance with the periodic change of the center interval of the light receiving device. | 12-04-2008 |
| 20080297631 | SOLID-STATE IMAGING CIRCUIT AND CAMERA SYSTEM - A solid-state imaging circuit is formed by including an imaging unit and an image processing unit. The imaging unit is formed by including a pixel array in which plural pixel circuits performing a photoelectric conversion of an optical image image-formed by a photographic optical system are arranged. The image processing unit performs a first shading correction using plural first correction factors having extreme-value positions at positions different from a position corresponding to an optical axis of the photographic optical system, for a two-dimensional image obtained by the imaging unit. | 12-04-2008 |
| 20090207267 | METHOD FOR CALCULATING SHIFT AMOUNT OF IMAGE PICKUP ELEMENT AND IMAGE PICKUP ELEMENT - A method for calculating a shift amount of a microlens from a position of a light receiving element arranged in a pixel of an image pickup element is provided. The microlens collects incident light from an image pickup lens. The method comprises: acquiring an incident angle characteristic value indicating a relation between an arranged position of the pixel and an incident angle of the incident light to the pixel; calculating a sampled shift amount of the microlens from the position of the light receiving element corresponding the incident angle characteristic value based on light collection efficiency of the incident light; approximating the sampled shift amount by a second or higher order function to calculate a shift amount characteristic function indicating a relation between the arranged position and the shift amount; and calculating the shift amount of the pixel using the shift amount characteristic function. | 08-20-2009 |
| 20090284616 | IMAGE SIGNAL PROCESSING CIRCUIT - A signal processing circuit for processing a luminance signal received from an image sensor, including: a correction circuit correcting characteristics of a luminance signal from the image sensor in reverse relation to luminance characteristics of a display device; and a gain control section performing gain control of the luminance signal from the image sensor based on the luminance signal from the image sensor, wherein the gain control section receives an input signal corresponding to the luminance signal before correction in the correction circuit. | 11-19-2009 |
| Patent application number | Description | Published |
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| 20080231773 | Surface light source which selectively irradiates two linearly polarized light beams in polarized states different from each other and liquid crystal display apparatus using the same - A surface light source includes a light source which selectively irradiates two polarized light beams in polarized states different from each other, a light guide plate which includes a transparent plate having two plate surfaces facing each other and end faces surrounding the plate surfaces, and irradiates the two polarized light beams form an irradiation surface, and an optical element which irradiates irradiated light from the irradiation surface of the light guide plate toward a direction substantially normal to the light guide plate upon changing the propagation direction of the irradiated light. A liquid crystal display apparatus includes this surface light source, a polarization control element which is placed on the observation side of the surface light source and rotates the polarization plane of linearly polarized light transmitted through one of partitioned first and second areas through a predetermined angle, and a liquid crystal display device placed on the observation side. | 09-25-2008 |
| 20090174700 | ILLUMINATOR FOR EMITTING AT LEAST TWO LIGHTS HAVING DIRECTIVITY AND DISPLAY APPARATUS USING SAME - A display apparatus includes a liquid crystal display panel and an illuminator disposed at the back of the panel for emitting at least two illumination lights having directivities in different directions toward the panel. The illuminator includes a light guide plate made of transparent material whose one end surface serves as a light entrance end surface, whose one plate surface serves as a light exit surface, and whose other plate surface serves as a light direction changing surface for changing the advancing direction of light entering from the light entrance end surface. The light direction changing surface has a plurality of circular-arcing slanted surfaces shaped into semicircles formed on concentric circles centered at the center of the longer dimension of the light entrance end surface. Light emitting elements are disposed on the light entrance end surface at two positions on left and right sides of the center equidistantly apart therefrom. | 07-09-2009 |
| 20090213300 | SURFACE LIGHT SOURCE CAPABLE OF CHANGING RANGE OF SPREAD ANGLE OF EXIT LIGHT, AND LIQUID CRYSTAL DISPLAY APPARATUS USING THIS SURFACE LIGHT SOURCE - A surface light source includes first and second light sources that emit lights, and an optical deflection element. The optical deflection element changes light emitted from the first light source into first illumination light having a maximum value of an exit light intensity present in a direction parallel to a normal line of the surface light source, a spread angle range, and high directivity in a direction of the normal line and allows the changed light to exit therefrom. The optical deflection element also changes light emitted from the second light source into second illumination light having a maximum value of an exit light intensity in an oblique direction inclined at an angle with respect to the normal line and a spread angle range wider than that of the first illumination light and allows the changed light to exit therefrom. | 08-27-2009 |
| 20100073601 | LIQUID CRYSTAL DISPLAY APPARATUS CAPABLE OF LIMITING VIEW ANGLE - A liquid crystal display apparatus has a liquid crystal display device, a surface light source, and a view angle limiting device arranged between the surface light source and the liquid crystal display device. The view angle limiting device includes first and second transparent plates facing each other with a gap therebetween, a plurality of first ½ retardation layers having a predetermined shape formed to be spaced apart from each other on one of the facing inner surfaces of the first and second transparent plates, a plurality of second ½ retardation layers formed on the other inner surface at regions corresponding to the regions between the first ½ retardation layers, and a polarizing film provided at the outer surface of one of the first and second transparent plates that faces the surface light source. | 03-25-2010 |
| 20100213360 | PRESSURE SENSOR AND PRESSURE MEASUREMENT METHOD OF PRESSURE SENSOR - Disclosed is a pressure sensor comprising: a substrate; a pressure reception plate which is provided in a state of facing the substrate, the pressure reception plate comprising in a surface which faces the substrate, a low reflection region, and a high reflection region having a relatively higher reflection ratio compared to the low reflection region; a support portion to change a distance between the substrate and the pressure reception plate when a pressure is applied to the pressure reception plate, the support portion being provided in between the substrate and the pressure reception plate; and a plurality of light receiving elements which are respectively provided on the substrate in positions facing the low reflection region and in positions facing the high reflection region, of the pressure reception plate. | 08-26-2010 |
