Patent application number | Description | Published |
20100221587 | WOUND-TYPE ELECTRIC STORAGE DEVICE - A positive electrode sheet including a positive electrode mixture layer formed on one surface is provided at one of the outermost layers of an electrode sheet group, while a positive electrode sheet including a positive electrode mixture layer formed at one surface is provided at the other outermost layer of the electrode sheet group. A negative electrode sheet including negative electrode mixture layers formed on both surfaces is provided between the positive electrode sheets. A lithium electrode sheet including metal lithium foils formed on both surfaces is overlapped onto the electrode sheet group formed by stacking the three sheets. When a wound-type electric storage device is produced, the electrode sheet group is wound together with the lithium electrode sheet. | 09-02-2010 |
20110236763 | ELECTRIC STORAGE DEVICE - In an electric storage device, lithium electrodes are disposed on respective outermost portions of an electrode laminated unit in which a positive electrode and a negative electrode are laminated alternately via positive/negative electrode separators. The lithium electrode includes lithium metal serving as a lithium ion supply source, and a lithium electrode separator (a non-woven fabric separator) constituted by a non-woven fabric that satisfies the following conditions: (a) an average fiber diameter of 0.1 μm to 10 μm; and (b) a thickness of 5 μm to 500 μm is provided. By forming the lithium electrode separator that contacts the lithium electrode including the lithium ion supply source from a non-woven fabric in this manner, a dramatic improvement can be achieved in the cycle characteristic of the electric storage device. | 09-29-2011 |
20120213920 | POSITIVE ELECTRODE ACTIVE MATERIAL, LITHIUM ION ELECTRIC STORAGE DEVICE USING THE SAME, AND MANUFACTURING METHOD THEREOF - Provided are a positive electrode active material, a lithium ion electric storage device using the same, and a manufacturing method thereof. The positive electrode active material contains (1) lithium nickel cobalt manganese oxide, and at least one type of a lithium ion acceptance capacity adjustment compound selected from (2a) lithium vanadium composite oxide, vanadium oxide, lithium vanadium phosphate, and lithium vanadium fluorophosphate and (2b) Nb | 08-23-2012 |
20120295163 | ELECTRIC STORAGE DEVICE AND POSITIVE ELECTRODE - An electric storage device is provided with a positive electrode having a positive-electrode mixture layer including a positive-electrode active material. The positive-electrode active material includes a lithium-vanadium-phosphate from 8% to 70% by mass and a lithium-nickel complex oxide from 20% to 82% by mass. A coating concentration of the positive-electrode mixture layer is from 4 mg/cm | 11-22-2012 |
20130078522 | LITHIUM ION SECONDARY BATTERY - There is provided is a lithium ion secondary battery. The lithium ion secondary battery includes: a positive electrode having a positive electrode active material layer containing a positive electrode active material containing a vanadium-based compound; and a negative electrode having a negative electrode active material layer containing a negative electrode active material into which lithium ions can be inserted/deinserted reversibly. A vanadium-based compound is dispersed in the negative electrode active material layer. As a result, a vanadium-based compound, corresponding to the vanadium-based compound contained in the positive electrode active material is dispersed in the negative electrode active material layer. | 03-28-2013 |
20130084492 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - In a non-aqueous electrolyte secondary battery, a first active material of a positive electrode includes at least one of carbon-coated LiFePO | 04-04-2013 |
20130084499 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - In a non-aqueous electrolyte secondary battery, a positive electrode active material includes a carbon-coated lithium vanadium phosphate and a lithium nickel composite oxide. A negative electrode active material includes a carbon-based active material capable of intercalating and deintercalating lithium ions. When a first charge capacity of a negative electrode per unit area is “x” (mAh/cm | 04-04-2013 |
20130084500 | POSITIVE ELECTRODE MATERIAL - A positive-electrode material includes lithium vanadium phosphate particles having an average primary particle diameter from 0.3 μm to 2.6 μm and crystallite sizes from 24 nm to 33 nm. The lithium vanadium phosphate particles are coated with a conductive carbon of a range of 0.5 mass % to 2.4 mass % with respect to a total lithium vanadium phosphate particles. | 04-04-2013 |
20130214462 | PROCESS FOR PRODUCING LITHIUM VANADIUM PHOSPHATE-CARBON COMPOSITE - A process for producing a lithium vanadium phosphate-carbon composite includes a first step that includes mixing a lithium source, a tetravalent or pentavalent vanadium compound, a phosphorus source, and a conductive carbon material source that produces carbon through pyrolysis, in an aqueous solvent to prepare a raw material mixture, a second step that includes heating the raw material mixture to effect a precipitation reaction to obtain a reaction mixture that includes a precipitate, a third step that includes subjecting the reaction mixture that includes the precipitate to wet grinding using a media mill to obtain a slurry that includes ground particles, a fourth step that includes spray-drying the slurry that includes the ground particles to obtain a reaction precursor, and a fifth step that includes calcining the reaction precursor at 600 to 1300° C. in an inert gas atmosphere or a reducing atmosphere. A lithium vanadium phosphate-carbon composite produced by the process may provide a lithium secondary battery with excellent battery performance (e.g., high discharge capacity) when used as a cathode active material. | 08-22-2013 |
Patent application number | Description | Published |
20100104745 | PROCESS FOR PRODUCING POLARIZING ELEMENT - A process for producing a polarizing element which comprises steps of treating a mixture comprising (A) an alkoxysilane and/or a hexaalkoxydisiloxane, (B) water and (C) an alcohol by heating under a condition of at 40 to 120° C. for 0.5 to 24 hours to prepare a coating solution for an alignment film, coating a substrate with the coating solution for an alignment film prepared above to prepare a sol-gel film, treating the sol-gel film by abrasion in a uniaxial direction to form an alignment layer having marks of abrasion in the uniaxial direction, aligning a dichroic coloring agent on the formed alignment layer by deposition to form a polarizing layer, and forming a protective layer for fixing the coloring agent on the formed polarizing layer. A polarizing element can be produced in simple steps, and separation of the polarizing layer in the steps of the production can be prevented. | 04-29-2010 |
20110102892 | POLARIZING ELEMENT AND PROCESS FOR PRODUCING POLARIZING ELEMENT - A polarizing element comprising an alignment layer and a polarizing layer formed by aligning a dichroic coloring agent by deposition which are successively disposed on a substrate, wherein the alignment layer is a sol-gel film formed by using a material comprising at least (A) a sol of an inorganic oxide and (B) an alkoxysilane and/or a hexaalkoxydisiloxane, and the ratio of amounts by mole of Component (B) to solid components in Component (A) [(B)/(A)(solid components)] is 99.9/0.1 to 40/60; and a process for producing the polarizing element. The polarizing element can be produced in simple steps, the treatment of abrasion of the surface necessary for alignment of a dichroic coloring agent by deposition is facilitated, and haze due to formation of cracks is absent. | 05-05-2011 |
20130050823 | DICHROIC DYE-CONTAINING LIQUID, AND POLARIZER - To provide a dichroic dye-containing liquid that is capable of preventing haze without decrease of adhesiveness of a polarizing layer, and a polarizer. | 02-28-2013 |
Patent application number | Description | Published |
20120020451 | X-RAY CT APPARATUS - An X-ray CT apparatus includes a first setting device configured to set on a scout image of a subject, a reconstruction range of a tilt image based on a desired tilt angle such that the tilt image includes a region of interest of the subject, a second setting device configured to set on the scout image a range as a scan range for a non-tilt scan, the range being placed on an inner side of a scan range necessary to reconstruct the tilt image with respect to all scan spaces in the reconstruction range, wherein the range includes the region of interest, a scan execution device configured to execute the non-tilt scan on the scan range, and a reconstruction device configured to reconstruct the tilt image including at least the region of interest with respect to the reconstruction range based on projection data acquired during the non-tilt scan. | 01-26-2012 |
20120213324 | X-RAY CT APPARATUS - An X-ray CT apparatus includes a first setting device configured to set on a scout image of a subject, a reconstruction range of a tilt image based on a desired tilt angle such that the tilt image includes a region of interest of the subject, a second setting device configured to set on the scout image a range as a scan range for a non-tilt scan, the range being placed on an inner side of a scan range necessary to reconstruct the tilt image with respect to all scan spaces in the reconstruction range, wherein the range includes the region of interest, a scan execution device configured to execute the non-tilt scan on the scan range, and a reconstruction device configured to reconstruct the tilt image including at least the region of interest with respect to the reconstruction range based on projection data acquired during the non-tilt scan. | 08-23-2012 |
Patent application number | Description | Published |
20090278204 | SEMICONDUCTOR DEVICE - There is provided a technology which allows improvements in manufacturing yield and product reliability in a semiconductor device having a triple well structure. A shallow p-type well is formed in a region different from respective regions in a p-type substrate where a deep n-type well, a shallow p-type well, and a shallow n-type well are formed. A p-type diffusion tap formed in the shallow p-type well is wired to a p-type diffusion tap formed in a shallow n-type well in the deep n-type well using an interconnection in a second layer. The respective gate electrodes of an nMIS and a pMIS each formed in the deep n-type well are coupled to the respective drain electrodes of an nMIS and a pMIS each formed in the substrate using an interconnection in a second or higher order layer. | 11-12-2009 |
20110024847 | SEMICONDUCTOR DEVICE - There is provided a technology which allows improvements in manufacturing yield and product reliability in a semiconductor device having a triple well structure. A shallow p-type well is formed in a region different from respective regions in a p-type substrate where a deep n-type well, a shallow p-type well, and a shallow n-type well are formed. A p-type diffusion tap formed in the shallow p-type well is wired to a p-type diffusion tap formed in a shallow n-type well in the deep n-type well using an interconnection in a second layer. The respective gate electrodes of an nMIS and a pMIS each formed in the deep n-type well are coupled to the respective drain electrodes of an nMIS and a pMIS each formed in the substrate using an interconnection in a second or higher order layer. | 02-03-2011 |
20110266631 | SEMICONDUCTOR DEVICE - There is provided a technology which allows improvements in manufacturing yield and product reliability in a semiconductor device having a triple well structure. A shallow p-type well is formed in a region different from respective regions in a p-type substrate where a deep n-type well, a shallow p-type well, and a shallow n-type well are formed. A p-type diffusion tap formed in the shallow p-type well is wired to a p-type diffusion tap formed in a shallow n-type well in the deep n-type well using an interconnection in a second layer. The respective gate electrodes of an nMIS and a pMIS each formed in the deep n-type well are coupled to the respective drain electrodes of an nMIS and a pMIS each formed in the substrate using an interconnection in a second or higher order layer. | 11-03-2011 |
Patent application number | Description | Published |
20080251741 | READING SYSTEM FOR RADIATION IMAGE CONVERSION PANEL AND RADIATION IMAGE CONVERSION PANEL - A reading system for reading information recorded in a radiation image conversion panel containing a flexible substrate having thereon a phosphor layer containing a columnar crystal phosphor, wherein the reading system has a transport section to transport the radiation image conversion panel with curvature when the radiation image conversion panel is transported in the reading system, provided that the radiation image conversion panel has a curvature radius of from 50 to 500 mm during transportation by the transport section in the reading system. | 10-16-2008 |
20090008574 | RADIATION IMAGE CONVERSION PANEL AND PREPARATION METHOD THEREOF - Disclosed is a method of preparing a radiation image conversion panel comprising a substrate and a phosphor layer, the method comprising heating an evaporation source containing a phosphor raw material to evaporate the raw material and depositing an evaporated material on the substrate to form the phosphor layer, while the substrate being heated, wherein in (ii), a temperature of the substrate increases at a rate of 0 to 5° C./min, and falling within a range of from 60 to 110° C. | 01-08-2009 |
20090078887 | RADIATION IMAGE CONVERSION PANEL AND PREPARATION METHOD THEREOF - There is provided a radiation image conversion panel having strong resistance to physical impact, and in which enhanced sharpness and adhesion are balanced, especially, enhanced adhesion of a photostimulable phosphor layer onto a support is achieved, and a preparation method of the radiation image conversion panel. The radiation image conversion panel comprising on a support a sublayer and at least one photostimulable phosphor layer in this order from the support, featured in that the photostimulable phosphor layer is formed by a gas phase method and has a thickness of not less than 50 μm, and the sublayer comprises a thermoplastic resin and the thickness of the central portion in an image area of the sublayer is greater than that of the peripheral portion of the image area. | 03-26-2009 |
20090250633 | RADIATION IMAGE CONVERSION PANEL AND MANUFACTURING METHOD THEREOF - An objective is to provide a high quality radiation image conversion panel and a manufacturing method thereof in which strength and heat resistance of an undercoat resin layer, and no cracks are generated in a stimulable phosphor layer. Disclosed is a radiation image conversion panel comprising a support and provided thereon, a stimulable phosphor layer, wherein a crosslinked undercoat resin layer that is formed between the support and the stimulable phosphor layer has a chemical bonding intensity ratio of NCO group/methyl group of 0.2-2.0. | 10-08-2009 |
20100034351 | RADIATION IMAGE CONVERSION PANEL, ITS MANUFACTURING METHOD, AND X-RAY RADIOGRAPHIC SYSTEM - Disclosed are a radiation image conversion panel, which provides high luminance, an image without white or black defects, an image free from cracks and an image with reduced unevenness, and its manufacturing method. Also disclosed is an X-ray radiographic system employing the radiation image conversion panel. The radiation image conversion panel of the invention comprises a substrate and provided thereon, a reflection layer, a phosphor layer and a protective layer in that order, wherein the phosphor layer is composed of a phosphor crystal in the form of column, and the reflection layer is formed by vapor phase deposition of two or more kinds of metals. | 02-11-2010 |
20100117005 | CLEANING METHOD OF RADIATION IMAGE CONVERSION PANEL, AND METHOD OF READING IMAGE INFORMATION AND IMAGE INFORMATION READING APPARATUS - It is a feature that in the present invention, provided is a method of cleaning a radiation image conversion panel possessing a substrate and provided thereon, a phosphor layer, and further possessing a protective layer provided on the phosphor layer, wherein a surface of the protective layer is cleaned by moving a cleaning member, while applying a pressure of 1 mN/cm | 05-13-2010 |
20110121185 | RADIATION IMAGE DETECTING APPARATUS - There is disclosed a radiation image detecting apparatus which has achieved enhanced moisture resistance of a scintillator and enhanced image quality such as sharpness of a radiation image. The radiation image detecting apparatus is provided with a scintillator panel comprising a phosphor layer on a substrate and a photoelectric conversion panel, in which the scintillator panel is held between the photoelectric conversion panel and an opposed base material, and the periphery of the photoelectric conversion panel adheres to the periphery of the opposed base material with an adhesive, and pressure of a gas in the space between the photoelectric conversion panel and the opposed base material being lower than an atmospheric pressure. | 05-26-2011 |
20120068074 | METHOD OF MANUFACTURING SCINTILLATOR PANEL, SCINTILLATOR PANEL, AND RADIATION IMAGE DETECTOR - A method of manufacturing a scintillator panel in which no dust is generated when improving protrusions on the phosphor surface, resulting in no generation of image defects caused by the dust, to-provide a scintillator panel exhibiting excellent image quality and a radiation image detector thereof. The scintillator panel includes a support having a phosphor layer formed thereon. The method includes forming the phosphor layer on the support, and subsequently heat-treating the support and the phosphor layer which are sandwiched by two rigid plates under applied pressure. | 03-22-2012 |
20150048259 | HARD COAT FILM, AND RADIATION IMAGE CONVERSION PANEL USING THE SAME - A hard coat film includes: a transparent base material; and a hard coat layer formed on the transparent base material, wherein the hard coat layer includes a cured product obtained by curing a composition including: an ultraviolet curable acrylate resin including one or more types of multifunctional acrylate; first microparticles having an average particle diameter of 5 nm or more and 100 nm or less; and a thermoplastic polyester resin. | 02-19-2015 |
Patent application number | Description | Published |
20090280191 | PREVENTIVE REMEDIAL THERAPEUTIC AGENT FOR PHOSPHORUS IMPAIRMENT, ORAL AGENT FOR ADSORBING PHOSPHATE ION CONTAINED IN FOOD, BEVERAGE AND CHEMICAL, AND PROCESS FOR PRODUCING THEM - The present invention provides agents for preventing, improving or treating phosphorus-related disorders and oral preparations; agents high in biosafety and phosphorus adsorptive power, which contain, as an active ingredient, ferric hydroxide as produced under such conditions that a ferrous species is present. | 11-12-2009 |
20100230360 | Anion adsorbent, water or soil cleanup agent and process for producing the same - A novel anion adsorbent with extremely high anion adsorptive power, composed mainly of iron as a metal excellent in biosafety, is provided. The anion adsorbent contains, as an active ingredient, amorphous ferric hydroxide produced under such conditions that a ferrous species is present. | 09-16-2010 |
20120100226 | PREVENTIVE REMEDIAL THERAPEUTIC AGENT FOR PHOSPHORUS IMPAIRMENT, ORAL AGENT FOR ADSORBING PHOSPHATE ION CONTAINED IN FOOD, BEVERAGE AND CHEMICAL, AND PROCESS FOR PRODUCING THEM - The present invention provides agents for preventing, improving or treating phosphorus-related disorders and oral preparations; agents high in biosafety and phosphorus adsorptive power, which contain, as an active ingredient, ferric hydroxide as produced under such conditions that a ferrous species is present. | 04-26-2012 |
Patent application number | Description | Published |
20110316458 | THREE-PHASE MOTOR CONTROLLER, THREE-PHASE MOTOR SYSTEM, THREE-PHASE MOTOR CONTROL METHOD AND PROGRAM - A three-phase motor control apparatus 4 controlling a driver which drives a three-phase motor includes: a desired rotation angle generation section 5 which generates a desired rotation angle; a rotation angle detector 2 which detects a detected rotation angle which is the rotation angle of said three phase motor; a feedback controller 6 which generates a q-axis command reference value which controls the q-axis voltage or the q-axis current of the three-phase motor 1 in response to the desired rotation angle and the detected rotation angle; a drive torque correction section and an adder 10 which generate a q-axis command value by correcting the q-axis command reference value; and a two-phase to three-phase transformation section 8 which generates a control signal which controls the driver circuit 3 which drives the three-phase motor in response to the q-axis command. The drive torque correction section 7 includes an angle look-up table 11 which contains elements respectively associated with angle ranges defined for the rotation angle of the three-phase motor, and selects any of the elements in response to the detected rotation angle. The q-axis command is generated by correcting the q-axis command reference value based on the value of the selected element. | 12-29-2011 |
20130026966 | MOTOR CONTROL APPARATUS, MOTOR CONTROL METHOD, MOTOR SYSTEM, AND COMPUTER-READABLE MEDIUM - A motor control apparatus that controls the rotational angle of a motor ( | 01-31-2013 |
20130057596 | Projector, Projector System, and Image Correcting Method - A projector that can solve a problem in which a projection image is disturbed due to deviation of incident positions of projection light to a screen is provided. Projection section | 03-07-2013 |
20130229580 | MULTI-PROJECTION DISPLAY SYSTEM AND METHOD OF ADJUSTING BRIGHTNESS THEREOF - A multi-projection display system is provided with a plurality of sensor units corresponding to projector units. The sensor units detect brightness for each color in a projected image that is projected on a screen and supply the detection results. The projector unit generates a brightness correction table on the basis of the image signal of a specific picture element of the projected image realized by an adjacent projector unit and on the basis of the brightness of the specific picture element of the projected image of the adjacent projector unit that is detected by a sensor unit for matching the brightness of the image projected by its own projector unit with that of the adjacent projector unit, refers to the brightness correction table to correct brightness for each color of the image signals that are received as input, and projects onto a screen the light of each color in accordance with the corrected image signals. | 09-05-2013 |
20130229630 | PROJECTOR AND CONTROL METHOD - A projector includes a screen which has color stripes that are periodically arranged and that generate visible light corresponding to incident light. A laser light source section emits a light beam. A laser scanning section scans the light beam on a region of the color stripes arranged on the screen. A light detection section detects feedback light radiated from the screen corresponding to the light beam. A control section adjusts a light emission timing and a light emission period of the laser light source section based on a detection result of the light detection section and causes the laser light source section to emit the light beam such that light pulses enter the individual color stripes. | 09-05-2013 |
20130278906 | PROJECTOR AND CONTROL METHOD - A projector includes a screen having a periodic array of color stripes for producing visible light depending on incident light, a light source that remits a light beam, a projection unit that scans an area of the screen where the color stripes are disposed, with the light beam in a direction across the color stripes, to display an image on the screen, a detector that detects the visible light from each of the color stripes as a feedback light pulse, and a controller that adjusts a start-of-emission timing of the light source based on a start-of-detection timing at which the feedback light pulse is detected by the detector and a detection period during which the feedback light pulse is detected by the detector, and controlling the light source to emit the light beam in order to apply light pulses to the color stripes within boundaries thereof. | 10-24-2013 |
20130335390 | Multi-projection Display and Brightness Adjustment Method Thereof - A multi-projection display includes: a plurality of projector units; a plurality of optical sensors that are provided corresponding to each of the projector units; and a main control unit that both causes adjustment images to be projected by each of the projector units and vertically synchronizes each projected adjustment image. Each projector unit acquires by a respective optical sensor brightness values of the picture elements that are adjacent between the adjustment image that is projected by the projector unit and the adjustment images that are projected by other projector units and adjusts the brightness of the projected image based on the differences in the acquired brightness values. | 12-19-2013 |
20130335641 | Projection System, Projection-type Image Display Device, and Multi-Projection System - A projection screen includes: phosphor regions arranged cyclically in an in-plane direction of a display region; a plurality of black stripes and reference black stripes that partition the display region into the phosphor regions; and an optical information formation unit that is provided in a specific position within the display region and that generates readable optical information. | 12-19-2013 |