Matsuta, JP
Hidekazu Matsuta, Osaka JP
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20120088805 | COMPOUND HAVING DETRUSOR MUSCLE-CONTRACTING ACTIVITY AND URETHRAL SPHINCTER MUSCLE-RELAXING ACTIVITY - Since a compound represented by formula (I) wherein all of the symbols are the same as defined in the specification, a salt thereof, a solvate thereof, a prodrug thereof, a mixture with a diastereomer thereof in an arbitrary ratio, or a cyclodextrin clathrate thereof have a contracting activity of bladder detrusor and a relaxing activity of urethral sphincter, they can ameliorate bladder contraction dysfunction and/or urethral relaxation dysfunction, and for example, are effective for underactive bladder. Additionally, the compound of the present invention has little risk of side effects on the urinary system, the circulatory system and the digestive system, and exhibits excellent pharmacokinetics, such as oral absorbability etc. Therefore, the compound of the present invention is useful as a superior agent for preventing, treating and/or ameliorating underactive bladder. | 04-12-2012 |
Katsuji Matsuta, Fukui-Ken JP
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20100052838 | ELECTRONIC COMPONENT - An electronic component is configured to include a laminate disposed between first and second magnetic substrates. The laminate is formed by laminating resin insulating layers, a coil pattern, and a lead pattern. The coil pattern is connected to external electrodes disposed on end surfaces of the laminate by using internal electrodes. The electronic component further includes expansion relaxation portions disposed in the inside of the resin insulating layers and located in the vicinity of connection regions of the internal electrodes and the external electrodes. The expansion relaxation portions are formed by using a magnetic powder resin in which a ferrite powder and a resin material are mixed. | 03-04-2010 |
Kazuhiro Matsuta, Tokyo JP
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20090080803 | IMAGE PROCESSING PROGRAM, COMPUTER-READABLE RECORDING MEDIUM RECORDING THE PROGRAM, IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - Provided is a program that is executed by an image processing apparatus including a memory and a processor, and which generates two-dimensional image data obtained by performing perspective projection to a virtual three-dimensional space on a prescribed perspective projection plane. The program causes the processor to perform processes of (a) arranging a viewpoint in the virtual three-dimensional space, generating basic image data by performing perspective projection on the perspective projection plane set in correspondence to the viewpoint, and storing the basic image data in the memory; (b) setting a concentration map showing a concentration value associated with a partial region of the basic image data, and storing the concentration map in the memory; (c) reading texture data from the memory; and (d) generating the two-dimensional image data by synthesizing the texture data with the basic image data at a ratio according to the concentration value set with the concentration map. | 03-26-2009 |
Shigeki Matsuta, Osaka JP
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20090068560 | Non-aqueous electrolyte secondary battery - A non-aqueous electrolyte secondary battery has a negative electrode, a non-aqueous electrolyte, and a positive electrode containing a positive electrode active material composed of an olivine lithium-containing metal phosphate represented by the general formula Li | 03-12-2009 |
Shigeki Matsuta, Moriguchi-City JP
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20080222881 | Method of producing active material for lithium secondary battery, method of producing electrode for lithium secondary battery, method of producing lithium secondary battery, and method of monitoring quality of active material for lithium secondary battery - A method of producing an active material for a lithium secondary battery, by which impurities causing problems in synthesizing an active material for a lithium secondary battery, including a lithium transition metal oxyanion compound are removed efficiently and enhancement of an energy density is realized, is provided. By cleaning the active material for a lithium secondary battery, including a lithium transition metal oxyanion compound, with a pH buffer solution, for example, it is possible to efficiently remove just only impurities such as Li | 09-18-2008 |
20090008237 | Device for producing active material for lithium secondary battery and method for producing active material for lithium secondary battery, method for manufacturing electrode for lithium secondary battery, and method for manufacturing lithium secondary battery - Provided is a method for producing an active material for a lithium secondary battery to enable efficient removal of iron impurities, which would become a problem in production of an active material for a lithium secondary battery, and attain a high quality. The method includes removing iron impurities in an active material for a lithium secondary battery by means of magnetic force. With this method, use of a magnetic force-generating device within a recess portion, which composes at least one part of the recess portion, enables efficient removal of only iron impurities. Thus, it is expected that a voltage drop caused by dissolution of iron compounds, i.e. impurities in a positive electrode, and their migration to a negative electrode in a battery, and decreases in charge and discharge efficiencies and a voltage drop owing to precipitation of lithium can be suppressed. | 01-08-2009 |
20120079712 | METHOD OF PRODUCING AN ELECTRODE FOR A LITHIUM SECONDARY BATTERY, AND METHOD OF PRODUCING A LITHIUM SECONDARY BATTERY - A method of producing an active material for a lithium secondary battery, by which impurities causing problems in synthesizing an active material for a lithium secondary battery, including a lithium transition metal oxyanion compound are removed efficiently and enhancement of an energy density is realized, is provided. By cleaning the active material for a lithium secondary battery, including a lithium transition metal oxyanion compound, with a pH buffer solution, for example, it is possible to efficiently remove just only impurities such as Li | 04-05-2012 |
Shigeki Matsuta, Kobe-City JP
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20110217599 | Nonaqueous electrolyte secondary battery - Disclosed is a nonaqueous electrolyte secondary battery which has a negative electrode containing silicon as a negative active material, a positive electrode containing a positive active material, a nonaqueous electrolyte and a separator. Characteristically, an additive which retards oxidation of silicon during operation of the battery is contained either in an interior or surface portion of the positive electrode, or in an interior or surface portion of the negative electrode, or in an interior or surface portion of the separator. | 09-08-2011 |
20130004837 | NONAQUEOUS ELECTROLYTE SECONDARY BATTERY INCLUDING A NEGATIVE ELECTRODE CONTAINING SILICON AND AN ADDITIVE WHICH RETARDS OXIDATION OF SILICON DURING BATTERY OPERATION - Disclosed is a nonaqueous electrolyte secondary battery which has a negative electrode containing silicon as a negative active material, a positive electrode containing a positive active material, a nonaqueous electrolyte and a separator. Characteristically, an additive which retards oxidation of silicon during operation of the battery is contained either in an interior or surface portion of the positive electrode, in an interior or surface portion of the negative electrode, or in an interior or surface portion of the separator. | 01-03-2013 |
Shigeki Matsuta, Hyogo JP
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20140356685 | ASSEMBLED CELL - To provide an assembled cell in which problems such as the fast deterioration of only some unit cells positioned in a middle part are solved by realizing smooth heat dissipation from the middle part of the cell even if an outer member is made of a flexible material. A first heat transfer member | 12-04-2014 |
Shigeki Matsuta, Kobe-Shi JP
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20090291355 | POSITIVE ELECTRODE FOR NON-AQUEOUS ELECTROLYTE BATTERY, NEGATIVE ELECTRODE FOR NON-AQUEOUS ELECTROLYTE BATTERY, SEPARATOR FOR NON-AQUEOUS ELECTROLYTE BATTERY, AND NON-AQUEOUS ELECTROLYTE BATTERY USING THEM - The present invention provides a non-aqueous electrolyte battery, etc. that can reduce the manufacturing cost of the battery, meet the need for increased battery capacity, and at the same time improve various battery characteristics, such as high-rate charge-discharge capability, high-temperature cycle performance, and storage performance. | 11-26-2009 |
20110129735 | METHOD OF MANUFACTURING ACTIVE MATERIAL FOR A NON-AQUEOUS ELECTROLYTE BATTERY, NEGATIVE ELECTRODE FOR A NON-AQUEOUS ELECTROLYTE BATTERY, AND NON-AQUEOUS ELECTROLYTE BATTERY EMPLOYING THE NEGATIVE ELECTRODE - A method of manufacturing an active material for a non-aqueous electrolyte battery, the active material containing a lithium-containing vanadium oxide, is provided. The active material for a non-aqueous electrolyte battery is washed with water or an acidic aqueous solution. By dissolving pentavalent vanadium, which is toxic, in water or an acidic aqueous solution, the pentavalent vanadium can be removed from the active material. | 06-02-2011 |
20110159344 | NON-AQUEOUS ELECTROLYTE SECONDARY CELL - According to the invention, there can be provided a non-aqueous electrolyte secondary cell whose capacity is hardly decreased even stored at high temperatures in a charged state. | 06-30-2011 |
20120107652 | NONAQUEOUS ELECTROLYTE SECONDARY BATTERY AND METHOD FOR MANUFACTURING THE SAME - A nonaqueous secondary battery includes a current cutoff mechanism that cuts off a current in a short period of time in response to a rise in pressure inside a battery outer body in at least one of a conductive path through which a current is taken out from a positive electrode plate to outside of the battery and a conductive path through which a current is taken out from a negative electrode plate to outside of the battery. At least one type selected from an oligomer containing a cyclohexyl group and a phenyl group, a modified product of the oligomer containing a cyclohexyl group and a phenyl group, a polymer containing a cyclohexyl group and a phenyl group, and a modified product of the polymer containing a cyclohexyl group and a phenyl group is present on the surface of the positive electrode plate. | 05-03-2012 |
Shigeki Matsuta, Moriguchi-Shi JP
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20090119908 | METHOD FOR PRODUCING POSITIVE ELECTRODE FOR NON-AQUEOUS ELECTROLYTE SECONDARY CELL AND METHOD FOR PRODUCING NON-AQUEOUS ELECTROLYTE SECONDARY CELL - A method for producing with a high yield a high performance non-aqueous electrolyte secondary cell with a reduced cost is provided. The method includes the steps of: a baking step of baking a positive electrode active material precursor containing a lithium source and a nickel source in order to render the positive electrode active material precursor a lithium nickel composite oxide; a measuring step of measuring the amount of carbon dioxide gas occurring when the lithium nickel composite oxide is heated to 200° C. or higher and 1500° C. or lower in an inactive gas atmosphere; a selecting step of selecting a lithium nickel composite oxide satisfying the following formulas: | 05-14-2009 |
20090120163 | METHOD FOR JUDGING QUALITY OF LITHIUM NICKEL COMPOSITE OXIDE AND POSITIVE ELECTRODE USING LITHIUM NICKEL COMPOSITE OXIDE - A positive electrode active material quality judgment method that can easily and accurately judge the quality of a positive electrode active material used in a non-aqueous electrolyte secondary cell without having to complete the positive electrode. The positive electrode active material quality judgment method includes: heating a positive electrode active material mainly made of a lithium nickel composite oxide to a temperature x (° C.) of 200° C. or higher and 1500° C. or lower; measuring the amount of carbon dioxide gas occurring from the heating; and the positive electrode active material as a suitable positive electrode active material when the positive electrode active material satisfies formulas 1 and 2: | 05-14-2009 |
20120180549 | METHOD FOR JUDGING QUALITY OF LITHIUM NICKEL COMPOSITE OXIDE AND POSITIVE ELECTRODE USING LITHIUM NICKEL COMOPOSITE OXIDE - A positive electrode active material quality judgment method that can easily and accurately judge the quality of a positive electrode active material used in a non-aqueous electrolyte secondary cell without having to complete the positive electrode. The positive electrode active material quality judgment method includes: heating a positive electrode active material mainly made of a lithium nickel composite oxide to a temperature x (° C.) of 200° C. or higher and 1500° C. or lower; measuring the amount of carbon dioxide gas occurring from the heating; and the positive electrode active material as a suitable positive electrode active material when the positive electrode active material satisfies formulas 1 and 2: | 07-19-2012 |
20120280172 | METHOD FOR PRODUCING POSITIVE ELECTRODE FOR NON-AQUEOUS ELECTROLYTE SECONDARY CELL AND METHOD FOR PRODUCING NON-AQUEOUS ELECTROLYTE SECONDARY CELL - A method for producing a non-aqueous electrolyte secondary cell by preparing a positive electrode by applying a positive electrode mixture onto a positive electrode core material, the mixture containing a positive electrode active material mainly made of a lithium nickel composite oxide and a binding agent containing polyvinylidene fluoride; measuring the amount of carbon dioxide gas generated when a layer of the positive electrode mixture is removed out of the positive electrode and the layer is heated to 200° C. or higher and 400° C. or lower in an inactive gas atmosphere; selecting a positive electrode satisfying the following formulas: | 11-08-2012 |
Shigetoshi Matsuta, Miyagi-Ken JP
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20100304671 | ELECTRONIC APPARATUS FOR ELECTRIC FIELD COMMUNICATION - A casing contains a circuit substrate. A signal electrode for transmitting and/or receiving an electronic field signal is arranged on a first surface side of the casing. The signal electrode is electrically connected to a conductor, which is an apparatus component, of the circuit substrate. A battery and a reference electrode having an electric field reference potential, which are apparatus components, are arranged on the second surface side of the casing. The sum (Cst) of a capacitance between the signal electrode and the transmission medium and a capacitance between the apparatus component and the transmission medium generated while the first surface is facing the transmission medium is approximately equal to the sum (Cgt) of capacitances between the apparatus components and the transmission medium generated while the second surface is facing the transmission medium. | 12-02-2010 |
20110294420 | COMMUNICATION SYSTEM - A communication system includes a transmitter that applies an electric field, obtained by modulating an information signal for wideband communication, to a transmission medium. The transmitter includes a transmission electrode, a transmission circuit that outputs the information signal for the wideband communication, and a first band controller that controls a band of the information signal for the wideband communication. When the transmission medium is in contact with the transmission electrode and the transmission medium and the transmission electrode are capacitively coupled to each other, the first band controller performs control to provide a band that is necessary for a receiver to perform demodulation for the wideband communication, and when the transmission medium is not in contact with the transmission electrode, the first band controller performs control to provide a narrower band than the band that is necessary for the wideband communication. | 12-01-2011 |
20110294421 | COMMUNICATION SYSTEM - A communication system according to the present invention includes a transmitter | 12-01-2011 |
Takahisa Matsuta, Aichi JP
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20120032644 | BATTERY SYSTEM, VEHICLE, AND BATTERY-MOUNTING DEVICE - Disclosed is a battery system that, in a laminated part of a power generating element in a lithium ion rechargeable battery, can properly detect a temperature and the distribution of a temperature change occurring in a positive-negative extending direction and can utilize the detected data in the control of the battery. Also disclosed are a vehicle and a battery-mounting device comprising the battery system. A battery system comprises a lithium ion rechargeable battery. The lithium ion rechargeable battery comprises a power generating element comprising a laminated part, a positive electrode extended part, and a negative electrode extended part. The battery system further comprises a control means and a central temperature detecting means that detects the temperatures of a central laminated part in the laminated part, and at least one of a positive-side temperature detecting means that detects the temperatures of a positive-side laminated part in the laminated part and a negative-side temperature detecting means that detects the temperatures of a negative-side laminated part in the stacked part. The control means controls the lithium ion rechargeable battery using the temperature of the central laminated part, and at least one of the temperature of the positive-side laminated part and the temperature of the negative-side laminated part. | 02-09-2012 |