Patent application number | Description | Published |
20110063486 | SOLID-STATE IMAGING DEVICE AND METHOD OF MANUFACTURING THE SAME - A solid-state imaging device according o an implementation of the present invention includes a plurality of unit pixels arranged in rows and columns. The unit pixels each include a photodiode which performs photoelectric conversion, a top lens which collects light, and an intralayer lens which collects, onto the photodiode, the light collected by the top lens. A centroid of the photodiode is displaced from the center of the unit pixel in a first direction. The center of the top lens is displaced from the center of the unit pixel in the first direction. A centroid of the intralayer lens is displaced from the center of the unit pixel in the first direction. | 03-17-2011 |
20110080509 | SOLID-STATE IMAGING DEVICE AND METHOD OF MANUFACTURING THE SAME - A solid-state imaging device according to an implementation of the present invention is a solid-state imaging device including a plurality of unit pixels arranged in a matrix, and each of the unit pixels includes a photodiode which performs photoelectric conversion on light so as to convert the light into an electric signal, a top lens which collects incident light, and an intralayer lens which collects, to the photodiode, the incident light collected by the top lens, and a centroid of the photodiode is displaced from a center of the unit pixel into a first direction, the top lens is formed into an asymmetric shape so as to have a centroid displaced from the center of the unit pixel into the first direction, and the intralayer lens is formed to have a centroid displaced from the center of the unit pixel into the first direction. | 04-07-2011 |
20110309460 | SOLID-STATE IMAGING DEVICE INCLUDING A MULTILAYER WIRING LAYER, COLOR FILTERS, AND LENSES, AND MANUFACTURING METHOD FOR THE SAME - The present invention provides a solid-state imaging device comprising: a semiconductor substrate having a pixel region and a peripheral circuit region; a multilayer wiring layer including layers of wiring and an interlayer film interposed therebetween, and disposed above the semiconductor substrate to cover the pixel region and the peripheral circuit region except areas above the photoelectric conversion elements; a waveguide member filling the areas above the photoelectric conversion elements (waveguides) and covering the multilayer wiring layer at least within the pixel region; and an optical structure (composed of a color filter material and a lens material) disposed above the waveguide member within the pixel region, wherein a groove is formed by removing a portion of the waveguide member from an area within the pixel region that is in a border between the pixel region and the peripheral circuit region. | 12-22-2011 |
Patent application number | Description | Published |
20090273388 | MINIATURIZED DEMULTIPLEXER AND ELECTRONIC DEVICE USING SAME - A demultiplexer includes an input terminal for providing an input signal, a plurality of output terminals for outputting the input signal, and a switching circuit coupled among the input terminal and the plurality of output terminals, and outputting the input signal selectively from the plurality of output terminals according to a plurality of control signals provided to a plurality of control terminals. For miniaturizing the demultiplexer, the switching circuit includes one or more switch elements connected between the input terminal and each of the output terminals in series, wherein at least two of the switch elements coupled to different output terminals are simultaneously switched in response to one control signal from the plurality of control terminals. | 11-05-2009 |
20100085286 | ACTIVE MATRIX TYPE DISPLAY DEVICE AND PORTABLE MACHINE COMPRISING THE SAME - An active matrix type display device utilizing multi-bit memory in pixel technology, capable of displaying still and moving pictures are provided. A display device of an embodiment includes a plurality of pixels P | 04-08-2010 |
20130021319 | SWITCH CIRCUIT, PIXEL ELEMENT AND DISPLAY PANEL USING THE SAME - A switch circuit, a pixel element and a display panel are provided. The switch circuit is for the pixel element, and includes switches. A switch is turned on to perform a sample operation on the pixel element. Another switch has a control terminal coupled to an image data storage capacitor of the pixel element via the switch, a data terminal to a corresponding source line, and another data terminal to the image data storage capacitor. During the sample operation, the second switch stores an image data of the image data storage capacitor in a parasitic gate capacitor existing on its control terminal. The parasitic gate capacitor maintains its stored data from the sample operation to a refresh operation in which the pixel element is refreshed. The second switch selectively electrically connects its two data terminals with each other according to stored image data in the parasitic gate capacitor. | 01-24-2013 |
20130021320 | PIXEL ELEMENT, DISPLAY PANEL THEREOF, AND CONTROL METHOD THEREOF - A pixel element, a display panel, and a control method thereof are provided. The method includes a number of steps. An image data is stored in an image data storage capacitor of the display panel. A sample operation is performed to store the image data in a capacitive element. | 01-24-2013 |
20130033509 | DISPLAY PANEL AND OPERATING METHOD THEREOF - A display panel is provided, including an image data storage capacitor, a capacitive element, and four switches. The image data storage capacitor stores an image data. The sample unit has a control terminal for receiving a sample control signal. The capacitive element has a first terminal coupled to a pixel electrode of the image data storage capacitor via the sample unit. The first refresh unit has a control terminal coupled to the first terminal. The second refresh unit has a control terminal for receiving a refresh control signal. The third and first refresh unites are serially coupled with each other between a corresponding source line and the image data storage capacitor for receiving a data signal. The shunt unit has a control terminal coupled to the pixel electrode, a data terminal coupled to the first terminal, and another data terminal for receiving a shunt control signal. | 02-07-2013 |
20130038595 | OPERATING METHOD AND DISPLAY PANEL USING THE SAME - An operating method and a display panel are provided. The method Includes a number steps. A display panel is provided, and has a pixel element, the pixel element including an n-bit memory, n being a positive integer in accordance with image data. The pixel element is driven by using a k-th data voltage, k being smaller than 2 | 02-14-2013 |
Patent application number | Description | Published |
20100148244 | SEMICONDUCTOR ELEMENT AND ELECTRICAL APPARATUS - In a semiconductor element ( | 06-17-2010 |
20100148718 | SEMICONDUCTOR ELEMENT AND ELECTRICAL APPARATUS - A semiconductor element ( | 06-17-2010 |
20110095305 | SEMICONDUCTOR DEVICE - The semiconductor device includes: a substrate | 04-28-2011 |
20110198616 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - Each unit cell includes: a drift layer | 08-18-2011 |
20120205670 | SEMICONDUCTOR DEVICE AND PROCESS FOR PRODUCTION THEREOF - A semiconductor device | 08-16-2012 |
20120205739 | SEMICONDUCTOR DEVICE AND PROCESS FOR PRODUCTION THEREOF - The semiconductor device of this invention has unit cells, each of which includes: a substrate; a drift layer on the substrate; a body region in the drift layer; a first doped region of a first conductivity type in the body region; a second doped region of the first conductivity type arranged adjacent to the body region and in a surface region of the drift layer; a third doped region of the first conductivity type arranged between two adjacent unit cells' second doped region of the first conductivity type and in the surface region of the drift layer to contact with the second doped region of the first conductivity type; a gate insulating film arranged to contact with the surface of the drift layer at least between the first and second doped regions of the first conductivity type; a gate electrode on the gate insulating film; and first and second ohmic electrodes. The dopant concentration of the third doped region of the first conductivity type is lower than that of the second doped region of the first conductivity type and equal to or higher than that of the drift layer. | 08-16-2012 |
20120218717 | POWER MODULE - A reliable power module is realized, in which a good performance of radiating heat of the power semiconductor element is secured and it is hard for the heat of a power semiconductor element to be conducted to a driving element. A power module includes a power semiconductor element mounted on a lead frame, and a driving element mounted on the lead frame, and a heat radiating plate radiating heat which is generated by the power semiconductor element, and a resin holding the power semiconductor element, the driving element, and the heat radiating plate, wherein the heat radiating plate has a portion disposed at a side opposite to a surface of the lead frame where the power semiconductor element is mounted, a portion disposed between the power semiconductor element and the driving element, and a portion disposed below the power semiconductor element, as the portions being in a body. | 08-30-2012 |
20150115423 | SEMICONDUCTOR MODULE FOR ELECTRIC POWER - Included are: the third frame which is electrically connected to the first intermediate frame and is arranged above the first frame; the fourth frame which is electrically connected to the second intermediate frame and is arranged above the second frame; the electric source terminal part which is provided on an extension of the first frame; the ground terminal part which is provided on an extension of the fourth frame; and the output terminal part which is provided on an extension to which the second frame and the third frame are electrically joined, wherein the third frame and the fourth frame are arranged in parallel with each other, and the electric source terminal part, the ground terminal part and the output terminal part are arranged in a manner such that induced electric voltages, which are generated in the third frame and the fourth frame, become in reverse directions with each other. | 04-30-2015 |
Patent application number | Description | Published |
20080221278 | Resin Composition and Process for Producing the Same - A particle dispersed resin composition ( | 09-11-2008 |
20090326126 | FLAME-RETARDANT RESIN COMPOSITION, PROCESS FOR PRODUCTION OF THE SAME AND PROCESS FOR MOLDING THEREOF - A resin composition is provided which is made flame retardant using a non-halogen flame retardancy-imparting component, and the resin composition containing HIPS as a resin component is particularly provided. A salt of succinic acid and/or a salt of malic acid or a metal sulfide is used as the flame retardancy-imparting component and this component is kneaded with the resin component such as a polystyrene polymer to produce the resin composition. Further, the resin composition is injection-molded into exterior bodies of home electric appliances. The use of molybdenum disulfide, disodium succinate or dipotassium succinate, as the flame retardancy-imparting component makes it possible to provide the resin composition of excellent flame retardancy as a non-halogen material. | 12-31-2009 |
20110101566 | FLAME-RETARDANT RESIN COMPOSITION, PROCESS FOR PRODUCING THE SAME, METHOD OF MOLDING THE SAME - A flame-retardant composition is obtained wherein at least one resin selected from a biodegradable resin and a plant-based resin or a PS resin is flame retarded by using a non-halogen-based flame retardancy-imparting component. At least one catalyst selected from a catalyst for purifying hydrocarbon, a catalyst for cracking hydrocarbon, a catalyst for synthesizing hydrocarbon and a catalyst for reforming hydrocarbon is used as a component conferring flame retardancy and this catalyst is kneaded with a biodegradable resin or a plant based resin such as polylactic acid and polybutylene succinate or the PS resin so as to give a resin composition. Further, the resin composition is injection-molded to give an exterior body of electric home appliance. Particularly the silica-magnesia catalyst as a flame-retardant component provides a resin composition with excellent flame-retardant characteristics, as a non-halogen-based material, in the case where polylactic acid or the PS resin is made flame retardant. | 05-05-2011 |
20110262713 | DECORATIVE MEMBER AND INJECTION MOLDING METHOD - A decorative member ( | 10-27-2011 |
20110281074 | DECORATIVE MEMBER - A decorative member ( | 11-17-2011 |
20110281075 | DECORATIVE MEMBER - A decorative member composing a casing includes: a resin layer ( | 11-17-2011 |
20120307463 | DISPLAY DEVICE - The display device has a display module, a metal frame, and an exterior cabinet for accommodating the display module. The display module contains a display panel and a circuit board on which a driver circuit for displaying image on the panel is mounted. The metal frame is disposed in the periphery of the display panel. The exterior cabinet has a decorative panel and a back cover. The decorative panel is disposed on a front side of the display panel so as to cover the frame. The back cover covers a back side of the display module. The decorative panel is made of light transmissible colored resin. The decorative panel has an uneven thickness part, where a thickness changes continuously, at the section disposed on the frame. | 12-06-2012 |
20130035450 | OUTER CASING AND METHOD FOR PRODUCING THE SAME - An outer casing for an electric device which is a molded article of a environmental resin wherein poly(lactic acid) and/or a lactic acid copolymer is used, is constituted by molding a flame-retarded resin composition including a resin component containing poly(lactic acid) and/or the lactic acid copolymer as a main ingredient, and silica-magnesia catalyst particles as a flame retardance-imparting component which imparts flame retardance, wherein the content of the silica-magnesia catalyst particles is 0.5% by weight or more and 9.0% by weight or less of the total weight of the flame-retarded resin composition. The silica-magnesia catalyst particles preferably have an average particle diameter of 10 μm or less. | 02-07-2013 |
20130040086 | OUTER CASING AND METHOD FOR PRODUCING THE SAME - An outer casing for an electric device which is a molded article of a environmental resin wherein poly(lactic acid) and/or a lactic acid copolymer is used, is constituted by molding a flame-retarded resin composition including a resin component containing poly(lactic acid) and/or the lactic acid copolymer as a main ingredient, and silica-magnesia catalyst particles as a flame retardance-imparting component which imparts flame retardance, wherein an organometallic compound is attached to a part of surfaces or the entire surfaces of the silica-magnesia catalyst particles. The organometallic compound is preferably a titanium-based coupling agent or a zirconium-based coupling agent. | 02-14-2013 |
20130203923 | OUTER CASING FOR ELECTRIC DEVICE - An outer casing for an electric device is obtained by molding a flame-retarded resin composition including a resin component containing 50% by weight or more of poly(lactic acid) and/or a lactic acid copolymer, of which each is an environmental resin, and silica-magnesia catalyst particles and a polyphosphate salt as flame retardance-imparting components which impart flame retardancy, wherein the combined content of the silica-magnesia catalyst particles and the polyphosphate salt is 10% by weight or less of the total weight of the flame-retarded resin composition. | 08-08-2013 |
20140015817 | INFORMATION DISPLAY DEVICE - An information display device includes: a display unit including a display panel and a drive circuit portion, arranged on a back side of the display panel, for displaying information on the display panel; and a front panel arranged on a display surface side of the display panel and larger than an outside dimension of the display panel. The front panel has a shape in which curves are formed in corner portions at four corners thereof. A long decoration member having flexibility is arranged in a winding manner so as to cover an entirety of outer peripheral surfaces of four sides of the display unit including an outer peripheral surface of the front panel. The decoration member includes an adhesive layer bonded to the outer peripheral surface of the display unit such that the decoration member is in close contact with the outer peripheral surface of the front panel. | 01-16-2014 |
Patent application number | Description | Published |
20110015913 | Simulation Method, Simulation Apparatus, Biological Treatment Method, and Biological Treatment Apparatus - Provided is a simulation method, whereby the calibration operation load can be reduced while minimizing a lowering in prediction accuracy, and a simulation apparatus. It is also intended to provide a biological treatment method, whereby the required operation load can be reduced, and a biological treatment apparatus. These problems can be solved by employing as parameters the maximum reaction speed in the reaction of decomposing a material to be treated with a bacterium and the amount of the above-described material to be treated that is loaded per bacterial cell in a unit time during the biological treatment process or the amount of the above-described material that has been treated per bacterial cell in a unit time in a state where these parameters are in a definite functional relation. | 01-20-2011 |
20120061316 | BIOLOGICAL TREATMENT METHOD - The present invention provides a biological treatment method of biologically treating the subject water containing phenol, thiocyanate and the like, which improves the quality of treated water, while suppressing a reduction in treatment efficiency. As a means for achieving the aforementioned object, the present invention relates to a biological treatment method including introducing subject water containing a COD component, wherein the COD component is at least one of phenol and thiocyanate, into a biological treatment tank containing sludge containing bacteria capable of decomposing the COD component to thereby biologically treat the COD component with the bacteria, wherein, before the introduction of the subject water into the biological treatment tank, a step of counting the total number of bacteria contained in the sludge is carried out, so that the amount of the COD component loaded on a single bacterium per unit time can be controlled within a predetermined range. | 03-15-2012 |