Patent application number | Description | Published |
20110187267 | THIN-FILM FORMED SUBSTRATE, ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE, COLOR FILTER SUBSTRATE, AND METHOD OF PRODUCING THIN-FILM FORMED SUBSTRATE - The present invention provides a thin-film formed substrate, an organic electroluminescent display device, a color filter substrate, and a method of producing a thin-film formed substrate. The thin-film formed substrate according to the present invention is a thin-film formed substrate provided with a substrate and a thin film formed on the substrate, the substrate comprising a first bank forming a depression on the substrate, and a second bank formed on the first bank, wherein a partitioned region surrounded by the second bank has a plurality of the depressions arranged therein, and the thin film is arranged in each of the depressions. | 08-04-2011 |
20120012834 | ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE, METHOD FOR PRODUCING SAME, COLOR FILTER SUBSTRATE AND METHOD FOR PRODUCING SAME - The present invention provides an organic EL display device and a color filter substrate that can be manufactured inexpensively and easily and that allow reducing the size of pixel regions, and also provides a manufacturing method of the organic EL display device and a manufacturing method of the color filter substrate. The organic EL display device of the present invention is an organic EL display device which comprises a substrate in which a plurality of pixel regions of first to third colors is disposed within a display area, and in which a functional material layer comprising an organic emissive layer is disposed at each of the plurality of pixel regions, wherein first to third partition parts are disposed on the substrate within the display area, first to third frame-like structures are disposed on the substrate outside the display area, the pixel region of the first color is disposed within a first demarcation region demarcated by the first partition part, the pixel region of the second color is disposed within a second demarcation region demarcated by the second partition part, the pixel region of the third color is disposed within a third demarcation region demarcated by the third partition part, the first demarcation region is connected to the interior of the first frame-like structure, the second demarcation region is connected to the interior of the second frame-like structure, and the third demarcation region is connected to the interior of the third frame-like structure. | 01-19-2012 |
20120104429 | ORGANIC EL ELEMENT, METHOD FOR MANUFACTURING THE SAME, AND ORGANIC EL DISPLAY DEVICE - An organic EL element includes a substrate | 05-03-2012 |
20120112618 | ORGANIC ELECTROLUMINESCENCE ILLUMINATING DEVICE AND METHOD FOR MANUFACTURING THE SAME - An organic electroluminescence illuminating device (L) has a structure in which an organic electroluminescence element ( | 05-10-2012 |
20140231785 | ORGANIC ELECTROLUMINESCENCE ILLUMINATING DEVICE AND METHOD FOR MANUFACTURING THE SAME - An organic electroluminescence illuminating device (L) has a structure in which an organic electroluminescence element ( | 08-21-2014 |
Patent application number | Description | Published |
20080309591 | Image Display Method - An image display method for allowing an image display device having a large number of pixels arrayed in a planar form to perform an image display by forming one field period from plural sub-fields for which luminance weights to be displayed are determined, and choosing plural luminances among displayable luminances as luminances for display by combining the luminance weights of the sub-fields, so that the respective pixels are controlled not to emit light or to emit light in each sub-field correspondingly to the luminances for display to be displayed. At least one threshold value is set, and when a pixel is allowed to emit light at a luminance for display at or higher than a first threshold value, which is the smallest threshold value, the pixel is controlled not to emit light constantly or to emit light constantly in a sub-field having the smallest luminance weight. | 12-18-2008 |
20090184953 | PLASMA DISPLAY DEVICE - A plasma display device includes the following elements: an image signal conversion circuit for converting an image signal into an image data; a data electrode driver circuit for driving data electrodes according to the image data; a power calculation circuit for calculating a power consumption of the data electrode driver circuit according to the image data; and a temperature calculation circuit for calculating a temperature of the data electrode driver circuit according to the image data. The image signal conversion circuit converts the image signal into an image data decreasing the power consumption of the data electrode driver circuit at least when the calculated power consumption exceeds a predetermined power threshold value, or when the calculated temperature exceeds a predetermined temperature threshold value. | 07-23-2009 |
20120299981 | PLASMA DISPLAY DEVICE AND METHOD FOR DRIVING A PLASMA DISPLAY PANEL - The present invention allows a plasma display panel to have gradation levels being sufficient in number and to have stable address discharge. In the plasma display apparatus having a panel and a driver circuit, the driver circuit drives the panel on the subfield structure that satisfies the following. One field has a first subfield group and a second subfield group temporally successive to the first subfield group. Each of the subfield groups is formed of a plurality of temporally successive subfields. The luminance weight increases in the order of occurrence of the subfields within each subfield group. The first subfield of the second subfield group has a luminance weight smaller than that of the last subfield of the first subfield group. When a gradation having a level greater than a gradation threshold is displayed, the first subfield of the second subfield group has no light emission. | 11-29-2012 |
Patent application number | Description | Published |
20120176355 | Display Device - A plurality of first sensor pixel circuits each sensing light during a sensing period when a backlight is turned on and retaining the amount of sensed light otherwise in accordance with a clock signal and a plurality of second sensor pixel circuits each sensing light during a sensing period when the backlight is turned off and retaining the amount of sensed light otherwise in accordance with a clock signal are arranged in a pixel region. The sensor pixel circuits of two types are connected to different output lines, so that a difference between two output signals is obtained at the outside of the sensor pixel circuit. The sensor pixel circuits described above are used for detecting a difference between an amount of light to be incident when the backlight is turned on and an amount of light to be incident when the backlight is turned off. | 07-12-2012 |
20120176356 | DISPLAY DEVICE - A plurality of sensor pixel circuits are disclosed for detecting a difference between an amount of light when a backlight is turned on and an amount of light when the backlight is turned off are arranged in a pixel region. The backlight is turned on and off a plurality of times, respectively, in a one-frame period. Each of reset for the sensor pixel circuits and read from the sensor pixel circuits is performed in parallel, each in a line sequential manner over almost the one-frame period. A plurality of sensor pixel circuits of two types for separately detecting an amount of light when the backlight is turned on and an amount of light when the backlight is turned off may be arranged in the pixel region, and a difference circuit may be used for obtaining a difference between the two types of amounts of light. | 07-12-2012 |
20120176357 | DISPLAY DEVICE - A plurality of first and second sensor pixel circuits each sensing light during a designated sensing period and retaining the amount of sensed light otherwise are arranged in a pixel region. A backlight is turned on once for a predetermined time in one-frame period. A sensing period when the backlight is turned on and a sensing period when the backlight is turned off are set once, respectively, in the one-frame period. The first sensor pixel circuit is reset. The second sensor pixel circuit is reset. Read from sensor pixel circuits of two types is performed in parallel in a line sequential manner during a period other than the periods and. A difference circuit provided outside of the sensor pixel circuits is used for obtaining a difference between an amount of light when the backlight is turned on and an amount of light when the backlight is turned off. | 07-12-2012 |
20120262424 | Display Device - A plurality of sensor pixel circuits each including two photodiodes, one accumulation node accumulating charge corresponding to an amount of light, and a read transistor having a control terminal connected to the accumulation node are arranged in a pixel region. In accordance with a clock signal, when a backlight is turned on, a transistor turns on, a current flows through the photodiode, and a potential at the accumulation node drops. When the backlight is turned off, a transistor turns on, a current flows through the photodiode, and the potential at the accumulation node rises. Sensitivity characteristics of the two photodiodes may be changed using the clock signal. The sensor pixel circuit described above is used for detecting a difference between an amount of light to be incident when the backlight is turned on and an amount of light to be incident when the backlight is turned off. | 10-18-2012 |
20120268439 | Display Device - A plurality of sensor pixel circuits are disclosed, each including one photodiode, one accumulation node accumulating charge corresponding to an amount of light, a read transistor having a control terminal connected to the accumulation node, and transistors turning on or off in accordance with a clock signal, and switching a path for a current flowing through the photodiode are arranged in a pixel region. In accordance with the clock signal, when a backlight is turned on, a current flows out of the accumulation node, and a potential at the accumulation node drops. When the backlight is turned off, a current flows into the accumulation node, and the potential at the accumulation node rises. | 10-25-2012 |
20130113768 | DISPLAY DEVICE AND DRIVE METHOD FOR SAME - Disclosed is a display device having an optical sensor with increased sensitivity. The display device is provided with: a display panel that includes a plurality of display pixel circuits ( | 05-09-2013 |
Patent application number | Description | Published |
20130315977 | TRANSDERMAL PATCH - The present invention relates to an external preparation for transdermal administration, which remarkably enhances the skin permeability of 2-(4-ethyl-1-piperazinyl)-4-(4-fluorophenyl)-5,6,7,8,9,10-hexahydrocycloocta[b]pyridine (compound A). The adhesive preparation of the present invention has an adhesive layer formed on one surface of a support, and the adhesive layer contains (i) compound A or a physiologically acceptable acid addition salt thereof, (ii) an adhesive, (iii) lactic acid, and (iv) an additive containing a particular permeation enhancer, whereby remarkably superior skin permeability is provided. | 11-28-2013 |
20140023695 | PATCH PREPARATION - A patch preparation containing a support and an adhesive layer formed on one surface of the support, wherein the adhesive layer contains 2-(4-ethyl-1-piperazinyl)-4-(4-fluorophenyl)-5,6,7,8,9,10-hexahydrocycloocta[b]pyridine or a physiologically acceptable acid addition salt thereof, an acrylic polymer, lactic acid, sesame oil and one or more kinds of stabilizers selected from 2-mercaptobenzimidazole, 2,6-di-tert-butyl-4-methylphenol and propyl gallate. | 01-23-2014 |
Patent application number | Description | Published |
20110210488 | LIQUID-SEALED TYPE VIBRATION ISOLATOR - In a liquid-sealed type vibration isolator having a first orifice flow channel | 09-01-2011 |
20120074629 | LIQUID-SEALED ANTIVIBRATION DEVICE - In a liquid-sealed antivibration device | 03-29-2012 |
20120228813 | LIQUID-SEALED ANTIVIBRATION DEVICE - A valve member formed of an elastomeric membrane for opening and closing a second orifice flow passage is mounted on a partition element such that the valve member is arranged orthogonal to the flow direction of the second orifice flow passage. A valve portion for closing openings of the second orifice flow passage due to flexural deformation of a flexible membrane portion caused by liquid flow in the second orifice flow passage is arranged on the flexible membrane, and communication holes for bring the second orifice flow passage into communication are formed in the flexible membrane portion. A cylindrical buffer portion projecting from the flexible membrane portion for surrounding the openings when the flexible membrane portion is deformed by flexure is provided to the valve portion, and a projection height of the cylindrical buffer portion is set larger than a wall thickness thereof. | 09-13-2012 |
20120248669 | LIQUID-SEALED ANTIVIBRATION DEVICE - A partition element partitions a liquid-sealed chamber into a main liquid chamber and a first sub liquid chamber. A first orifice flow passage for connecting both liquid chambers is provided. A second diaphragm is formed in the partition element. The partition element includes a second sub liquid chamber partitioned from the main liquid chamber by the second diaphragm and a second orifice flow passage for connecting the first and second sub liquid chambers to each other. A valve portion brought into contact with a periphery around an opening of the second orifice flow passage is formed on a flexible membrane portion of the second diaphragm into a surrounding wall shape. A through hole is formed outside the valve portion, and a projection compressed by a counter wall is formed on a membrane surface of the flexible membrane portion on a main liquid chamber side. | 10-04-2012 |
20120292838 | LIQUID-SEALED VIBRATION ISOLATOR - Disclosed is a liquid-sealed vibration isolator ( | 11-22-2012 |
Patent application number | Description | Published |
20100001649 | Electronic Ballast with Lamp End of Life Detection and Protection Circuits - An electronic ballast A includes an inverter circuit for converting a DC voltage into a high-frequency voltage, a resonant circuit which is connected between outputs of the inverter circuit and lights a discharge lamp at a high frequency by a resonant action, a dimming circuit for changing an output voltage to the discharge lamp by changing an operating frequency of the inverter circuit, a DC component detecting circuit for detecting a DC voltage component of the discharge lamp and a control operating circuit which detects an output signal of the DC component detecting circuit for every predetermined period to reduce or stop an output to the discharge lamp in the case where the output signal exceeds a predetermined reference value and to prohibit the protection operation when periodic change amount in the output signal reaches a predetermined value or higher. | 01-07-2010 |
20100001650 | Lamp End of Life Protection Circuit and Method for an Electronic Dimming Ballast - A electronic ballast includes an inverter circuit for converting a DC voltage into a high-frequency voltage, a resonant circuit connected between outputs of the inverter circuit so as to light a discharge lamp by a resonant action, a control circuit for controlling the inverter circuit, a dimming circuit for continuously changing an output voltage to the discharge lamp by changing an operation frequency in the inverter circuit, a DC component detection circuit and a voltage comparator for detecting whether or not the discharge lamp is at the end of the life at predetermined intervals and outputting an end of life detection signal upon detection of the end of the life state, and a frequency control circuit and a driving circuit for reducing or stopping an output to the discharge lamp by controlling switching elements in response to a life end detection signal inputted from the voltage comparator. | 01-07-2010 |
20100033101 | Electronic Ballast with Multimode Lamp Power Control - A control means has an adjustment function in a microprocessor to adjust variations in an output to a discharge lamp due to variations in components by correcting a duty ratio of a PWM signal for varying an operating frequency of an inverter circuit so that a detected value of a second detection circuit falls within a target range. The microprocessor switches paths to transmit the PWM signal between a path passing through a feedback circuit and a path passing through a voltage follower circuit by switches a switch circuit to supply the signal through the path passing through the voltage follower circuit in adjusting output variations in the preheating mode and the starting mode. | 02-11-2010 |
20110095698 | ILLUMINATION LIGHTING APPARATUS, ILLUMINATION APPARATUS, AND ILLUMINATION SYSTEM - An illumination lighting apparatus is connected to, as an external apparatus, any of a human body sensing sensor configured to detect presence/absence of a person, an illuminance sensor configured to detect space illuminance, and a dimmer which arbitrarily adjusts the space illuminance, and is configured to produce an output control signal for controlling an optical output of a light source based on a signal output from the external apparatus. The illumination lighting apparatus includes: an external apparatus determining unit configured to determine which kind of the external apparatus is connected based on the signal output from the external apparatus; and a signal processing unit configured to produce the output control signal based on the signal output from the external apparatus. | 04-28-2011 |
Patent application number | Description | Published |
20110160409 | COMPOSITION FOR THERMOSETTING SILICONE RESIN - The present invention relates to a composition for a thermosetting silicone resin, the composition including: (1) a dual-end silanol type silicone oil; (2) an alkenyl group-containing dialkoxyalkylsilane; (3) an organohydrogensiloxane; (4) a condensation catalyst; and (5) a hydrosilylation catalyst. | 06-30-2011 |
20120010366 | METHOD FOR MANUFACTURING CURED PRODUCT OF THERMOSETTING RESIN COMPOSITION AND CURED PRODUCT OBTAINED THEREBY - The present invention relates to a method for producing a cured product of a thermosetting resin composition, the method including: heating a thermosetting resin composition including the following ingredients (A) to (C) at a temperature of 100 to 200° C. for 1 to 60 minutes; and then further heating the thermosetting resin composition at a temperature of 220 to 350° C. for 10 to 6,000 minutes, thereby curing the thermosetting resin composition: (A) an allylated phenol resin; (B) an epoxy resin; and (C) a curing accelerator. | 01-12-2012 |
20120010373 | METHOD FOR MANUFACTURING CURED PRODUCT OF THERMOSETTING RESIN COMPOSITION AND CURED PRODUCT OBTAINED THEREBY - The present invention relates to a method for producing a cured product of a thermosetting resin composition, the method including: heating a thermosetting resin composition including the following ingredients (A) to (C) at a temperature of 100 to 200° C. for 1 to 60 minutes; and then further heating the thermosetting resin composition at a temperature of 220 to 350° C. for 10 to 6,000 minutes, thereby curing the thermosetting resin composition: (A) an allyletherified phenol resin; (B) an epoxy resin; and (C) a curing accelerator. | 01-12-2012 |
20130012619 | EPOXY RESIN COMPOSITION FOR ELECTRONIC COMPONENT ENCAPSULATION AND ELECTRONIC COMPONENT DEVICE USING THE SAME - The present invention relates to an epoxy resin composition for electronic component encapsulation, including the following components (A) to (D): (A) an epoxy resin; (B) a curing agent: an allylated phenol resin containing a structural unit (1) shown below and a structural unit (2) shown below, in which a molar ratio [structural unit (1)/[structural unit (1)+structural unit (2)]×100] of the structural unit (1) to a total amount of the structural unit (1) and the structural unit (2) is from 40 to 100%; (C) a curing accelerator; and (D) an inorganic filler, in which the allylated phenol resin as the component (B) has a glass transition temperature of −5° C. to 70° C. as measured by a differential scanning calorimetry (DSC) method: | 01-10-2013 |
20130115844 | ELECTRICALLY INSULATING RESIN COMPOSITION AND LAMINATE SHEET - The present invention provides an electrically insulating resin composition including a polysulfone resin including a plurality of sulfonyl groups in the molecule and a polyamide resin, wherein the proportion of the polyamide resin is 1 to 45% by mass. The present invention also provides a laminate sheet obtained by bonding a plurality of sheet materials with a resin composition layer interposed therebetween, wherein the resin composition layer includes a polysulfone resin including a plurality of sulfonyl groups in the molecule and a polyamide resin, and the proportion of the polyamide resin is 1 to 45% by mass. | 05-09-2013 |
Patent application number | Description | Published |
20080258541 | Bearing Device for Wheel - A wheel bearing apparatus includes a roller bearing, an inner shaft having an outer circumferential surface to which an inner ring of the roller bearing is installed, a coupler ring attached to an end portion of the inner shaft, and a caulked portion provided in an end portion of the inner shaft so as to fix the coupler ring and the roller bearing to the inner shaft so as to be immovable in an axial direction of the inner shaft. An outer diameter of the coupler ring is set smaller than a diameter of a shoulder portion of the inner ring. Alternatively, a protruding portion is provided in any one of opposing end surfaces of the coupler ring and the inner ring, whereby the coupler ring is arranged away from a seal member. Accordingly, it is possible to avoid an interference of the coupler ring with the seal member. | 10-23-2008 |
20140373899 | CONCENTRATOR PHOTOVOLTAIC SYSTEM, METHOD FOR DETECTING TRACKING DEVIATION, METHOD FOR CORRECTING TRACKING DEVIATION, CONTROL DEVICE, PROGRAM FOR DETECTING TRACKING DEVIATION, AND, PROGRAM FOR CORRECTING TRACKING DEVIATION - Provided is a concentrator photovoltaic system including: a concentrator photovoltaic panel; a driving device configured to cause the concentrator photovoltaic panel to perform operation of tracking the sun; and a control device configured to detect a change pattern repeatedly occurring in temporal change in generated power of the concentrator photovoltaic panel, and configured to compare the detected change pattern with a form characteristic to deviation in an azimuth and a form characteristic to deviation in an elevation, to detect the presence/absence of deviation in tracking. | 12-25-2014 |
Patent application number | Description | Published |
20090110418 | Image forming apparatus and image forming method - An image forming apparatus, such as a printer, includes an image forming unit forming a toner image on an image carrier, a transfer unit for transferring the toner image onto a recording medium, a pair of a fusing rotating body and a pressure rotating body, a fusing unit for fusing the toner image on the recording medium, a temperature detecting unit for detecting the temperature on the surface of the fusing rotating body, and a control unit. An amount of decrease in the temperature of the fusing rotating body surface is measured at a predetermined time, and the time between an image formation request and the arrival of the recording medium, with the toner image formed thereon, at a fusing/nipping portion formed between the fusing rotating body and the pressure rotating body is extended when the temperature decrease amount is greater than a threshold value. | 04-30-2009 |
20090290893 | Temperature control method for fixing device and image forming apparatus incorporating same - A temperature control method for use in a fixing device that fixes a toner image on a recording sheet by passing the recording sheet through a fixing nip defined between a fixing member and a pressure member includes temperature detection, heater control, and duty control execution. The temperature detection detects a temperature of the fixing member with a temperature detector. The heater control controls operation of a heater of the fixing device by changing a duty thereof according to the detected temperature. The duty control execution executes a heater duty control to change a heater duty for a current control cycle discontinuously from that for a previous control cycle when the current control cycle precedes entry of the recording sheet into the fixing nip by a given period of time. | 11-26-2009 |
20120020681 | Fixing device and image forming apparatus incorporating same - A fixing device includes a separator presser that presses against a plurality of separators to separate the plurality of separators from a fixing rotary body that contacts an opposed rotary body to form a fixing nip therebetween through which a recording medium bearing a toner image passes. A single driver is connected to the separator presser to separate the separator presser from the plurality of separators. An entering recording medium detector is disposed upstream from the fixing nip in a conveyance direction of the recording medium to detect the recording medium. A controller is connected to the driver to control the driver based on a detection signal sent from the entering recording medium detector to change a contact time period for which the plurality of separators contacts the fixing rotary body. | 01-26-2012 |
20120020690 | FIXING DEVICE AND IMAGE FORMING APPARATUS INCORPORATING SAME - A fixing device includes a fixing rotary body and a pressing member each of which includes a waveform elastic layer having at least one wave crest and at least one wave trough to form a waveform face between the fixing rotary body and the pressing member pressed against each other. A controller identifies a temperature differential between a first temperature of the wave crest of the fixing rotary body detected by a first temperature detector and a second temperature of the wave trough of the fixing rotary body detected by a second temperature detector and adjusts an amount of heat stored from a heater into the fixing rotary body based on the identified temperature differential. | 01-26-2012 |
20130142530 | IMAGE FORMING APPARATUS - An image forming apparatus includes a rotatable photoconductor, a charging unit, an exposure unit to expose the photoconductor to reduce an electrical potential at the photoconductor, a developing unit to charge the toner held on a toner bearing member with friction and attract the toner to the exposed portion on the photoconductor by supplying a development voltage from a first power source and using an electrical potential difference between the toner bearing member and the photoconductor in the development area, a reverse development voltage controller to supply a reverse development voltage while a non-charged portion on the photoconductor passes the development area, and a developer reducing potential applier to supply a development restraining potential and an absolute value smaller than a target charging potential to the photoconductor while the reverse development voltage is supplied. | 06-06-2013 |
20130336686 | FIXING DEVICE AND IMAGE FORMING APPARATUS INCORPORATING SAME - A fixing device includes a plurality of separation assemblies disposed opposite a fixing rotary body to separate a recording medium from the fixing rotary body. Each separation assembly includes a separator separatably contacting the fixing rotary body, a contact biasing member anchored to the separator to bias the separator against the fixing rotary body, an arm separatably contacting the separator to isolate the separator from the fixing rotary body, and an actuator connected to the arm to separate the arm from the separator. A controller is operatively connected to the actuator of each separation assembly to control the actuator of at least one of the plurality of separation assemblies to separate the arm from the separator so as to bring the separator into contact with the fixing rotary body by the contact biasing member. | 12-19-2013 |
Patent application number | Description | Published |
20100063104 | NITROGEN-CONTAINING HETEROCYCLIC COMPOUND AND PHARMACEUTICAL APPLICATION THEREOF - It is intended to provide a compound represented by the formula (I): | 03-11-2010 |
20130079327 | PURINONE DERIVATIVE - Compounds represented by general formula (I) (all of the symbols in the formula conform to the definitions in the Description) are compounds that, in addition to having a Btk-selective inhibitory activity, exhibit an excellent metabolic stability and can avoid hepatotoxicity or the like, and as a consequence can provide safe therapeutic agents for diseases in which B cells or mast cells participate. | 03-28-2013 |
20130217880 | PURINONE DERIVATIVE - Compounds represented by general formula (I) (all of the symbols in the formula conform to the definitions in the Description) are compounds that, in addition to having a Btk-selective inhibitory activity, exhibit an excellent metabolic stability and can avoid hepatotoxicity or the like, and as a consequence can provide safe therapeutic agents for diseases in which B cells or mast cells participate. | 08-22-2013 |
20140330015 | PURINONE DERIVATIVE HYDROCHLORIDE - The purinone derivative 6-amino-9-[(3R)-1-(2-butynoyl)-3-pyrrolidinyl]-7-(4-phenoxyphenyl)-7,9-dihydro-8H-purin-8-one hydrochloride has Btk-selective inhibitory activity and, in addition to having excellent metabolic stability, it is a compound that exhibits a high level of solubility and absorption with respect to the free base and can be crystallized, hence it can serve as a therapeutic agent for diseases involving B cells and mast cells. | 11-06-2014 |
Patent application number | Description | Published |
20110156853 | REACTOR-USE COMPONENT AND REACTOR - A reactor-use component which provides improved workability in assembling into a reactor, and a reactor using the component are provided. The reactor-use component is for structuring a reactor including a coil | 06-30-2011 |
20120092120 | REACTOR - A compact reactor with excellent productivity and heat dissipation is provided. Reactor | 04-19-2012 |
20130038415 | REACTOR - A reactor including an assembly of a coil, a magnetic core on which the coil is disposed, and a case that houses the assembly. The case includes an installation face, a side wall that is removably attached to the installation face and surrounds the periphery of the assembly, and a heat dissipation layer formed on the inner face of the installation face and interposed between the installation face and the installation-side face of the coil. The installation face consists of aluminum, the side wall consists of an insulating resin, and the heat dissipation layer consists of an adhesive with high thermal conductivity and excellent insulation. The installation face is separate from the side wall, making it easy to form the heat dissipation layer, and having excellent heat dissipation. The side wall consists of an insulating resin, thus reducing the gap between it and the coil. | 02-14-2013 |
20130099887 | REACTOR - Provided are a reactor which can perform step-up/step-down operations and soft switching with a small size and a smaller leakage inductance, and a method of adjusting a leakage inductance of the reactor. A reactor | 04-25-2013 |
Patent application number | Description | Published |
20120014004 | LENS BARREL SUPPORT STRUCTURE AND OPTICAL DEVICE - A lens barrel support structure is provided that includes a base frame and a lens barrel. The base frame includes a first support portion, a second support portion, a third support portion, and a stopper. The lens barrel includes a substantially cylindrical shape body frame configured to accommodate at least part of an optical system, a first attachment portion fixedly coupled to the body frame and to the first support portion, a second attachment portion fixedly coupled to the body frame and to the second support portion, a third attachment portion fixedly coupled to the body frame and to the third support portion, and a receiver fixedly coupled to the body frame. The receiver and the stopper are disposed spaced apart and define a gap that extends along a first direction parallel to an optical axis of the optical system to allow the receiver to contact the stopper. | 01-19-2012 |
20130077237 | ELECTRONIC DEVICE AND IMAGING DEVICE - An electronic device includes a housing, a slide cover and a restricting member. The housing includes a plate-like member. The plate-like member has a guide member protruding from an outer face of the plate-like member. The slide cover is disposed on the outer face of the plate-like member. The slide cover includes a slot-shaped guide rail guided by the guide member. The guide member is inserted into the guide rail. The restricting member is disposed on the outer face of the plate-like member. The restricting member is configured to restrict the position of the slide cover so as to maintain a state in which the guide member is inserted into the guide rail and the slide cover does not move away from the plate-like member. | 03-28-2013 |
20130148215 | IMAGING DEVICE - A digital camera comprising a lens barrel linking plate, a frame unit, and first and second lens barrels. The frame unit has first to third bosses that are linked to the lens barrel linking plate. The first and second lens barrels are disposed between the lens barrel linking plate and the frame unit. The first to third bosses are each disposed around the outer periphery of the first lens barrel. | 06-13-2013 |
20130194489 | IMAGING DEVICE - An imaging device includes a flat printed substrate, a first lens barrel, a second lens barrel, a first rigid flexible substrate and a second rigid flexible substrate. The first rigid flexible substrate has a first flexible component, a first rigid component and a first electronic circuit component. The first flexible component is connected to the first imaging element and the first connector. The first rigid component is disposed in the rear of the first lens barrel. The first electronic circuit component is supported by the first rigid component. At least part of the first flexible component and/or the first electronic circuit component is disposed in front of the rear face of the flat printed substrate. At least part of the second flexible component and/or the second electronic circuit component is disposed in front of the rear face of the flat printed substrate. | 08-01-2013 |
Patent application number | Description | Published |
20100080291 | MOVING PICTURE ENCODING APPARATUS AND MOVING PICTURE DECODING APPARATUS - A prediction control unit determines whether to use intra-prediction method or a method of prediction based on reduced image in which a predicted image is generated using a locally decoded image of a block as an object of coding that has been coded and reduced, according to the amount of high-frequency component contained in the block as the object of coding. When use of intra-prediction method is determined, locally decoded images of previously-encoded neighboring blocks stored in a frame memory are down-sampled by a down-sampling unit and subjected to intra-prediction by an intra-prediction unit, and coding is done using the prediction data. When use of prediction method based of reduced image is determined, inter-layer prediction is done using neighboring images obtained by reading locally decoded images resulting from a process of a lower layer from the frame memory, and coding is done using the prediction data. | 04-01-2010 |
20100290532 | MOVING IMAGE ENCODER AND MOVING IMAGE DECODER - A moving image encoder includes a luminance variation detection/compensation section ( | 11-18-2010 |
20110135006 | MOVING IMAGE ENCODING DEVICE AND MOVING IMAGE DECODING DEVICE - This invention corrects a motion-compensated image by a method suitable for the local characteristics of the moving image, while preventing an increase in an amount of encoded data. A moving image encoding device of this invention includes three motion-compensated image correcting sections ( | 06-09-2011 |
20110235931 | IMAGE ENCODER AND IMAGE DECODER - A division mode adapted to the characteristic of an image is enabled to be selected from among a plurality of the division modes while suppressing an increase in side information. An image encoder ( | 09-29-2011 |
20120033731 | VIDEO ENCODING APPARATUS AND VIDEO DECODING APPARATUS - While maintaining a high degree of freedom in choosing partition sizes and transformation sizes adapted for local characteristics of videos, the amount of metadata is decreased. A video encoding apparatus ( | 02-09-2012 |
20140348235 | VIDEO ENCODING APPARATUS AND VIDEO DECODING APPARATUS - While maintaining a high degree of freedom in choosing partition sizes and transformation sizes adapted for local characteristics of videos, the amount of metadata is decreased. A video encoding apparatus ( | 11-27-2014 |
Patent application number | Description | Published |
20090120566 | FORMING MEMBER FOR ANTIREFLECTION STRUCTURE, TRANSFER MATERIAL EMPLOYED IN THE SAME, OPTICAL APPARATUS EMPLOYING ANTIREFLECTION STRUCTURE, AND MANUFACTURING METHOD FOR THE SAME - A forming member for antireflection structure according to the present invention comprises a transfer material and a to-be-transferred material, wherein: the transfer material can be peeled off from the to-be-transferred material; the transfer material is constructed such that a structure having a reversal shape of an antireflection structure in which structural units are arranged in a shape of an array at a period smaller than a minimum wavelength of light whose reflection should be prevented and which has an aspect ratio of unity or greater is formed on a principal surface of a base substrate part having flexibility; the to-be-transferred material is a structure formed from a resin and having the same shape as the antireflection structure; and the transfer material and the to-be-transferred material are arranged such that the structure having the same shape as the antireflection structure fills up the structure having a reversal shape of the antireflection structure. Thus, even in the inside of an assembled optical apparatus, an antireflection structure can easily be formed at a predetermined position. Further, the optical characteristics of the optical apparatus itself is not affected. | 05-14-2009 |
20090257127 | IMAGING OPTICAL SYSTEM - An imaging optical system according to the present invention is provided with at least one lens element and comprises: an optical surface through which incident light transmits; and an antireflection structure provided in at least part of a peripheral region located in the periphery of a center region containing the center of an optical surface in one or more optical surfaces, wherein the peripheral region is within an optical effective diameter, and wherein the antireflection structure is a structure in which structural units having a predetermined shape are arranged periodically in the form of an array at a period smaller than a minimum wavelength of light whose reflection should be prevented in the incident light. | 10-15-2009 |
20100178462 | ANTIREFLECTION STRUCTURE, LENS BARREL INCLUDING ANTIREFLECTION STRUCTURE, METHOD FOR MANUFACTURING ANTIREFLECTION STRUCTURE - An antireflection structure that can be formed in a desired shape, and a method for manufacturing the same are provided. An antireflection structure | 07-15-2010 |
Patent application number | Description | Published |
20120068202 | ACTIVE MATRIX SUBSTRATE, METHOD OF MANUFACTURING THE SAME AND DISPLAY EQUIPMENT USING ACTIVE MATRIX SUBSTRATE MANUFACTURED BY THE SAME METHOD - The present invention provides an active matrix substrate and a method of manufacturing the same by decreasing the number of photolithographic processes to reduce the manufacturing cost. The invention also provides a display device using an active matrix substrate manufactured by said manufacturing method. In a process for preparing pixels on an active substrate, which constitutes a display device, a bank or an etching pattern is formed by performing half-tone exposure on a photo resist film or on a black color photo resist film where an active matrix and a display electrode are prepared by coating, and an insulator film is fabricated, and a transparent conductive film and a color filter are prepared by inkjet method. | 03-22-2012 |
20120100675 | MANUFACTURING METHOD OF MICROCRYSTALLINE SILICON FILM AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - To provide a manufacturing method of a microcrystalline silicon film having both high crystallinity and high film density. In the manufacturing method of a microcrystalline silicon film according to the present invention, a first microcrystalline silicon film that includes mixed phase grains is formed over an insulating film under a first condition, and a second microcrystalline silicon film is formed thereover under a second condition. The first condition and the second condition are a condition in which a deposition gas containing silicon and a gas containing hydrogen are used as a first source gas and a second source gas. The first source gas is supplied under the first condition in such a manner that supply of a first gas and supply of a second gas are alternately performed. | 04-26-2012 |
20120237669 | Successive Deposition Apparatus and Successive Deposition Method - A successive deposition apparatus by which a reduction in the luminous efficiency of a light-emitting element can be suppressed even in high-speed deposition of a light-emitting layer thereof is provided. The apparatus includes: a second deposition chamber; a third deposition chamber coupled to the second deposition chamber; a transfer unit for transferring a substrate from second deposition chamber to third deposition chamber; plural third deposition sources arranged in the substrate transfer direction in the second deposition chamber; and a fourth and fifth deposition sources alternately arranged in the transfer direction in the third deposition chamber. In the third deposition chamber, the fourth deposition source is placed nearest to the second deposition source. The fourth deposition source contains a host material, and the fifth deposition source contains a dopant material. The HOMO level of a material of the third deposition source is adjusted to that of the host material. | 09-20-2012 |
20120270383 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE AND PLASMA OXIDATION TREATMENT METHOD - Provided is a method for manufacturing a semiconductor device, in which a degradation of characteristics of a thin film transistor can be suppressed by performing plasma oxidation treatment on a gate insulating film containing nitrogen. An embodiment of the present invention is a method for manufacturing a semiconductor device comprising a thin film transistor including a gate electrode, a gate insulating film containing nitrogen, and a channel region in microcrystalline semiconductor films. The method includes the steps of performing plasma treatment on the gate insulating film in an oxidizing gas atmosphere containing hydrogen and an oxidizing gas containing an oxygen atom, and forming the microcrystalline semiconductor film over the gate insulating film. Formula (1), a/b≧2, and Formula (2), b>0, are satisfied, where the amount of hydrogen and the amount of the oxidizing gas in the oxidizing gas atmosphere are a and b, respectively. | 10-25-2012 |
20120298997 | SEMICONDUCTOR DEVICE - One embodiment of the present invention is a semiconductor device which includes a gate electrode; a gate insulating film formed to cover the gate electrode; a semiconductor layer formed over the gate insulating film and placed above the gate electrode; a second insulating film formed over the semiconductor layer; a first insulating film formed over a top surface and a side surface of the second insulating film, a side surface of the semiconductor layer, and the gate insulating film; silicon layers and which are formed over the first insulating film and electrically connected to the semiconductor layer; and a source electrode and a drain electrode which are formed over the silicon layers. The source electrode and the drain electrode are electrically separated from each other over the first insulating film. The semiconductor layer is not in contact with each of the source electrode and the drain electrode. | 11-29-2012 |
20120298999 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object is to reduce off-state leakage current between a source electrode and a drain electrode. One embodiment of the present invention is a semiconductor device including a gate electrode, gate insulating films and formed to cover the gate electrode, an active layer formed over the gate insulating films and located above the gate electrode, silicon layers and formed over side surfaces of the active layer and the gate insulating films, and a source electrode and a drain electrode formed over the silicon layers. The active layer is not in contact with each of the source electrode and the drain electrode. | 11-29-2012 |
20120299006 | SEMICONDUCTOR DEVICE - An object is to prevent light leakage caused due to misregistration even when the width of a black matrix layer is not expanded to a designed value or larger. One embodiment of the present invention is a semiconductor device including a single-gate thin film transistor in which a first semiconductor layer is sandwiched between a bottom-gate electrode and a first black matrix layer. The first semiconductor layer and the first black matrix layer overlap with each other. | 11-29-2012 |
20120299074 | SEMICONDUCTOR DEVICE - A semiconductor device in which light leakage due to misalignment is prevented even when a black matrix layer is not expanded to a designed value or more is provided. In a semiconductor device including a dual-gate thin film transistor in which a semiconductor layer is sandwiched between a bottom gate electrode and a top gate electrode, the top gate electrode is formed of a first black matrix layer, and the top gate electrode overlaps with the semiconductor layer. | 11-29-2012 |
20130082247 | Light-Emitting Device - To provide a light-emitting device which can emit bright light without increasing the projected area of a light-emitting element and be manufactured with high yield. A light-emitting device of one embodiment of the present invention includes a plurality of projections; a first electrode formed along the plurality of projections; a layer containing a light-emitting organic compound formed along the plurality of projections and over the first electrode; and a second electrode formed along the plurality of projections and over the layer containing a light-emitting organic compound. Further, the plurality of projections each have a bottom surface having a side in contact with a bottom surface of an adjacent projection; a plurality of side surfaces each having a certain angle greater than 0° and less than or equal to 80° with respect to the bottom surface; and a vertex having a first continuously curved surface. | 04-04-2013 |
20130228774 | SEMICONDUCTOR DEVICE - To inhibit a metal element contained in a glass substrate from being diffused into a gate insulating film or an oxide semiconductor film. A semiconductor device includes a glass substrate, a base insulating film formed using metal oxide over the glass substrate, a gate electrode formed over the base insulating film, a gate insulating film formed over the gate electrode, an oxide semiconductor film which is formed over the gate insulating film and overlapping with the gate electrode, and a source electrode and a drain electrode which are electrically connected to the oxide semiconductor film. In a region of the base insulating film that is present in a range of 3 nm or less from a surface of the base insulating film, the concentration of a metal element contained in the glass substrate is less than or equal to 1×10 | 09-05-2013 |
Patent application number | Description | Published |
20120300450 | Variable color light emitting device and illumination apparatus using the same - A variable color light emitting device includes first, second and third light sources differing in chromaticity of emission light; and a driver for changing light outputs. The chromaticities of the second and third light sources are selected such that, on straight lines passing through reference chromaticities of the second and third light sources and a chromaticity of an arbitrary color temperature on the blackbody locus, a ratio of a distance between the chromaticity of the second light source and the chromaticity on the blackbody locus to a distance between the chromaticity of the third light source and the chromaticity on the blackbody locus becomes equal to a ratio of a distance between the reference chromaticity of the second light source and the chromaticity on the blackbody locus to a distance between the reference chromaticity of third light source and the chromaticity on the blackbody locus. | 11-29-2012 |
20140209943 | LIGHT EMITTING MODULE, LIGHTING APPARATUS, AND LIGHTING FIXTURE - A light emitting module is provided in which color unevenness of illumination light is difficult to occur. An optical member formed from a translucent material having a refractive index higher than air is interposed between a first light emitting part and a second light emitting part. A side surface of the optical member has a region facing a first sealing member, and the region is at least partially in contact with a surface of the first sealing member. The side surface of the optical member has a region facing a second sealing member, and the region is at least partially in contact with a surface of the second sealing member. In plan view, an upper surface of the optical member does not substantially overlap either of an upper surface of a first light emitting element or an upper surface of a second light emitting element. | 07-31-2014 |
20150029712 | LIGHT-EMITTING MODULE AND LIGHTING APPARATUS - A light-emitting module includes: a board; and a plurality of light sources arranged in a two-dimensional array on the board and including a plurality of color temperatures. In a first direction of the two-dimensional array, light sources having a uniform color temperature are successively arranged. The number of light sources having a uniform color temperature and successively arranged in each array line in the first direction is less than or equal to half of the total number of light sources in the array line in the first direction. | 01-29-2015 |