Masato Yoshida
Masato Yoshida, Osaka JP
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20090215746 | SUBSTITUTED PYRAZOLO[1,5-A]PYRIMIDINES AS CALCIUM RECEPTOR MODULATING AGENTS - There is provided a calcium receptor modulator comprising a compound of the formula (I): | 08-27-2009 |
20100016315 | Iminopyridine Derivative and Use Thereof - Provided are an iminopyridine derivative having a selective α | 01-21-2010 |
20110039846 | IMINOPYRIDINE DERIVATIVES AND USE THEREOF - The present invention aims to provide an iminopyridine derivative compound having an α1D adrenergic receptor antagonistic action, which is useful as an agent for the prophylaxis or treatment of a lower urinary tract disease and the like. The present invention provides a compound represented by the formula wherein each symbol is as defined in the specification, or a salt thereof. | 02-17-2011 |
20110039892 | IMINOPYRIDINE DERIVATIVE AND USE THEREOF - The present invention aims to provide a compound having a superior selective α | 02-17-2011 |
20110124874 | IMINOPYRIDINE DERIVATIVES AND USE THEREOF - The present invention aims to provide an iminopyridine derivative compound having an α | 05-26-2011 |
20110124875 | IMINOPYRIDINE DERIVATIVES AND USES THEREOF - The present invention aims to provide an iminopyridine derivative compound having an α | 05-26-2011 |
20110124876 | IMINOPYRIDINE DERIVATIVES AND USE THEREOF - The present invention aims to provide an iminopyridine derivative compound having an α | 05-26-2011 |
Masato Yoshida, Osaka-Shi JP
Patent application number | Description | Published |
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20090270393 | Iminopyridine Derivatives and Use Thereof - The present invention aims to provide an iminopyridine derivative compound having an α | 10-29-2009 |
20110034464 | IMINOPYRIDINE DERIVATIVES AND USE THEREOF - The present invention aims to provide an iminopyridine derivative compound having an α | 02-10-2011 |
Masato Yoshida, Tsukuba-Shi JP
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20090253355 | CMP ABRASIVE, METHOD FOR POLISHING SUBSTRATE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE USING THE SAME, AND ADDITIVE FOR CMP ABRASIVE - The present invention discloses a CMP abrasive comprising cerium oxide particles, a dispersant, an organic polymer having an atom or a structure capable of forming a hydrogen bond with a hydroxyl group present on a surface of a film to be polished and water, a method for polishing a substrate comprising polishing a film to be polished by moving a substrate on which the film to be polished is formed and a polishing platen while pressing the substrate against the polishing platen and a polishing cloth and supplying the CMP abrasive between the film to be polished and the polishing cloth, a method for manufacturing a semiconductor device comprising the steps of the above-mentioned polishing method, and an additive for a CMP abrasive comprising an organic polymer having an atom or a structure capable of forming a hydrogen bond with a hydroxyl group present on a surface of a film to be polished, and water. | 10-08-2009 |
20110028073 | CMP POLISHING SLURRY AND POLISHING METHOD - The present invention relates to a CMP polishing slurry, comprising cerium oxide particles, a dispersing agent, water-soluble polymer and water, wherein the water-soluble polymer is a compound having a skeleton of any one of an N-mono-substituted product and an N,N-di-substituted product of any one selected from the group consisting of acrylamide, methacrylamide and α-substituted products thereof. The amount of the water-soluble polymer is preferably in the range of 0.01 part or more by weight and 10 parts or less by weight for 100 parts by weight of the polishing slurry. Thus it is possible to provide a polishing slurry and a polishing method which make it possible to polish a film made of silicon oxide or the like effectively and rapidly and further control the process therefor easily in CMP technique for flattening an interlayer insulating film, a BPSG film, an insulator film for shallow trench isolation, and other films. | 02-03-2011 |
20110180137 | PASTE COMPOSITION FOR ELECTRODE AND PHOTOVOLTAIC CELL - The paste composition for an electrode are constituted with metal particles having copper as a main component, a phosphorous-containing compound, glass particles, a solvent, and a resin. Further, the photovoltaic cell has an electrode formed by using the paste composition for an electrode. | 07-28-2011 |
20110180138 | PASTE COMPOSITION FOR ELECTRODE AND PHOTOVOLTAIC CELL - The paste composition for an electrode includes metal particles having copper as a main component, glass particles including diphosphorus pentoxide and divanadium pentoxide and having a content of divanadium pentoxide of 1% by mass or more, a solvent, and a resin. Further, the photovoltaic cell has an electrode formed by using the paste composition for an electrode. | 07-28-2011 |
20110180139 | PASTE COMPOSITION FOR ELECTRODE AND PHOTOVOLTAIC CELL - The paste composition for an electrode of the first aspect of the present invention includes silver alloy particles, glass particles, a resin, and a solvent. The paste composition for an electrode of the second aspect of the present invention includes copper particles, silver or silver alloy particles, glass particles containing P | 07-28-2011 |
20110195540 | COMPOSITION FOR FORMING P-TYPE DIFFUSION LAYER, METHOD FOR FORMING P-TYPE DIFFUSION LAYER, AND METHOD FOR PRODUCING PHOTOVOLTAIC CELL - The composition for forming a p-type diffusion layer in accordance with the present invention contains an acceptor element-containing glass powder and a dispersion medium. A p-type diffusion layer and a photovoltaic cell having a p-type diffusion layer are prepared by applying the composition for forming a p-type diffusion layer, followed by a thermal diffusion treatment. | 08-11-2011 |
20110195541 | COMPOSITION FOR FORMING N-TYPE DIFFUSION LAYER, METHOD FOR FORMING N-TYPE DIFFUSION LAYER, AND METHOD FOR PRODUCING PHOTOVOLTAIC CELL - The composition for forming an n-type diffusion layer in accordance with the present invention contains a donor element-containing glass powder and a dispersion medium. An n-type diffusion layer and a photovoltaic cell having an n-type diffusion layer are prepared by applying the composition for forming an n-type diffusion layer, followed by a thermal diffusion treatment. | 08-11-2011 |
20110209751 | PASTE COMPOSITION FOR ELECTRODE AND PHOTOVOLTAIC CELL - The paste composition for an electrode according to the present invention includes metal particles containing copper as a main component, a flux, glass particles, a solvent, and a resin. Further, a photovoltaic cell according to the present invention has an electrode formed by using the paste composition for an electrode. | 09-01-2011 |
20110212564 | METHOD FOR PRODUCING PHOTOVOLTAIC CELL - In a method for producing a photovoltaic cell, the improvement comprising: | 09-01-2011 |
20110256658 | METHOD FOR PRODUCING PHOTOVOLTAIC CELL - In a method for producing a photovoltaic cell, the improvement comprising: | 10-20-2011 |
20110277831 | PASTE COMPOSITION FOR ELECTRODE AND PHOTOVOLTAIC CELL - The paste composition for an electrode are constituted with copper-containing particles having a peak temperature of an exothermic peak showing a maximum area in the simultaneous ThermoGravimetry/Differential Thermal Analysis of 280° C. or higher, glass particles, a solvent, and a resin. Further, the photovoltaic cell has an electrode formed by using the paste composition for a photovoltaic cell electrode. | 11-17-2011 |
20120122263 | METHOD FOR PRODUCING PHOTOVOLTAIC CELL - The method for producing a photovoltaic cell includes applying, on a partial region of one surface side of a semiconductor substrate, a first n-type diffusion layer forming composition including an n-type impurity-containing glass powder and a dispersion medium; applying, on at least a region other than the partial region on the surface of the semiconductor substrate, a second n-type diffusion layer forming composition which includes an n-type impurity-containing glass powder and a dispersion medium and in which a concentration of the n-type impurity is lower than that of the first n-type diffusion layer forming composition, where the first n-type diffusion layer forming composition is applied; heat-treating the semiconductor substrate on which the first n-type diffusion layer forming composition and the second n-type diffusion layer forming composition are applied to form an n-type diffusion layer; and forming an electrode on the partial region. | 05-17-2012 |
20120122264 | METHOD FOR PRODUCING PHOTOVOLTAIC CELL - The method for producing a photovoltaic cell includes applying, on a partial region of one surface side of a semiconductor substrate, a first p-type diffusion layer forming composition including a p-type impurity-containing glass powder and a dispersion medium; applying, on at least a region other than the partial region on the surface of the semiconductor substrate, a second p-type diffusion layer forming composition which includes a p-type impurity-containing glass powder and a dispersion medium and in which a concentration of the p-type impurity is lower than that of the first p-type diffusion layer forming composition, where the first p-type diffusion layer forming composition is applied; heat-treating the semiconductor substrate on which the first p-type diffusion layer forming composition and the second p-type diffusion layer forming composition are applied to form a p-type diffusion layer; and forming an electrode on the partial region. | 05-17-2012 |
20120122265 | METHOD FOR PRODUCING PHOTOVOLTAIC CELL - The method for producing a photovoltaic cell includes applying an n-type diffusion layer forming composition including an n-type impurity-containing glass powder and a dispersion medium onto a first region on one surface side of a semiconductor substrate; applying a p-type diffusion layer forming composition including a p-type impurity-containing glass powder and a dispersion medium onto a second region other than the first region on the surface of the semiconductor substrate where the first region is provided; a thermal diffusion process in which an n-type diffusion layer and a p-type diffusion layer are formed by heat-treating the semiconductor substrate onto which the n-type diffusion layer forming composition and the p-type diffusion layer forming composition are applied; and forming an electrode on each of the first region where the n-type diffusion layer is formed and the second region where the p-type diffusion layer is formed, respectively. | 05-17-2012 |
20120178201 | COMPOSITION FOR FORMING N-TYPE DIFFUSION LAYER, METHOD FOR FORMING N-TYPE DIFFUSION LAYER, AND METHOD FOR PRODUCING PHOTOVOLTAIC CELL - The composition for forming an n-type diffusion layer in accordance with the present invention contains a donor element-containing glass powder and a dispersion medium. An n-type diffusion layer and a photovoltaic cell having an n-type diffusion layer are prepared by applying the composition for forming an n-type diffusion layer, followed by a thermal diffusion treatment. | 07-12-2012 |
20120184062 | COMPOSITION FOR FORMING N-TYPE DIFFUSION LAYER, METHOD FOR FORMING N-TYPE DIFFUSION LAYER, AND METHOD FOR PRODUCING PHOTOVOLTAIC CELL - The composition for forming an n-type diffusion layer in accordance with the present invention contains a donor element-containing glass powder and a dispersion medium. An n-type diffusion layer and a photovoltaic cell having an n-type diffusion layer are prepared by applying the composition for forming an n-type diffusion layer, followed by a thermal diffusion treatment. | 07-19-2012 |
20120260981 | PASTE COMPOSITION FOR ELECTRODE, PHOTOVOLTAIC CELL ELEMENT, AND PHOTOVOLTAIC CELL - The present invention provides a paste composition for an electrode, the paste composition including phosphorus-tin-containing copper alloy particles, glass particles, a solvent and a resin. The present invention also provides a photovoltaic cell element having an electrode formed from the paste composition, and a photovoltaic cell. | 10-18-2012 |
20120260982 | PASTE COMPOSITION FOR ELECTRODE, PHOTOVOLTAIC CELL ELEMENT, AND PHOTOVOLTAIC CELL - The present invention provides a paste composition for an electrode, the paste composition comprising phosphorus-containing copper alloy particles, tin-containing particles, glass particles, a solvent and a resin. The present invention also provides a photovoltaic cell element having an electrode formed from the paste composition, and a photovoltaic cell. | 10-18-2012 |
20120260988 | PASTE COMPOSITION FOR ELECTRODE AND PHOTOVOLTAIC CELL - A paste composition for an electrode, the paste composition comprising: phosphorous-containing copper alloy particles in which the content of phosphorous is from 6% by mass to 8% by mass; glass particles; a solvent; and a resin. | 10-18-2012 |
20120313199 | MATERIAL FOR FORMING PASSIVATION FILM FOR SEMICONDUCTOR SUBSTRATE, PASSIVATION FILM FOR SEMICONDUCTOR SUBSTRATE AND METHOD OF PRODUCING THE SAME, AND PHOTOVOLTAIC CELL ELEMENT AND METHOD OF PRODUCING THE SAME - The invention provides a material for forming a passivation film for a semiconductor substrate. The material includes a polymer compound having an anionic group or a cationic group. | 12-13-2012 |
20130025668 | ELEMENT AND PHOTOVOLTAIC CELL - The invention provides an element including a semiconductor substrate and an electrode disposed on the semiconductor substrate, the electrode being a sintered product of a composition for an electrode that includes phosphorus-containing copper alloy particles, glass particles and a dispersing medium, and the electrode includes a line-shaped electrode having an aspect ratio, which is defined as electrode short length:electrode height, of from 2:1 to 250:1. | 01-31-2013 |
20130025669 | PHOTOVOLTAIC CELL SUBSTRATE, METHOD OF PRODUCING PHOTOVOLTAIC CELL SUBSTRATE, PHOTOVOLTAIC CELL ELEMENT AND PHOTOVOLTAIC CELL - The invention provides a photovoltaic cell substrate that is a semiconductor substrate comprising an n-type diffusion layer, an n | 01-31-2013 |
20130025670 | SEMICONDUCTOR SUBSTRATE AND METHOD FOR PRODUCING THE SAME, PHOTOVOLTAIC CELL ELEMENT, AND PHOTOVOLTAIC CELL - The semiconductor substrate of the present invention contains a semiconductor layer and an impurity diffusion layer containing at least one impurity atom selected from the group consisting of an n-type impurity atom and a p-type impurity atom and at least one metallic atom selected from the group consisting of K, Na, Li, Ba, Sr, Ca, Mg, Be, Zn, Pb, Cd, V, Sn, Zr, Mo, La, Nb, Ta, Y, Ti, Ge, Te, and Lu. | 01-31-2013 |
20130042912 | SOLDER BONDED BODY, METHOD OF PRODUCING SOLDER BONDED BODY, ELEMENT, PHOTOVOLTAIC CELL, METHOD OF PRODUCING ELEMENT AND METHOD OF PRODUCING PHOTOVOLTAIC CELL - The solder bonded body according to the present invention contains: an oxide body to be bonded having an oxide layer on the surface thereof; and a solder layer bonded to the oxide layer, which the solder layer is formed by an alloy containing at least two metals selected from the group consisting of tin, copper, silver, bismuth, lead, aluminum, titanium and silicon and having a melting point of lower than 450° C. and has a zinc content of 1% by mass or less. | 02-21-2013 |
20130071968 | COMPOSITION FOR FORMING P-TYPE DIFFUSION LAYER, METHOD OF FORMING P-TYPE DIFFUSION LAYER, AND METHOD OF PRODUCING PHOTOVOLTAIC CELL - The composition for forming a composition for forming a p-type diffusion layer, the composition containing a glass powder and a dispersion medium, in which the glass powder includes an acceptor element and a total amount of a life time killer element in the glass powder is 1000 ppm or less. A p-type diffusion layer and a photovoltaic cell having a p-type diffusion layer are prepared by applying the composition for forming a p-type diffusion layer, followed by a thermal diffusion treatment. | 03-21-2013 |
20130078759 | COMPOSITION FOR FORMING N-TYPE DIFFUSION LAYER, METHOD OF FORMING N-TYPE DIFFUSION LAYER, AND METHOD OF PRODUCING PHOTOVOLTAIC CELL - The composition for forming an n-type diffusion layer in accordance with the present invention contains a glass powder and a dispersion medium, in which the glass powder includes an donor element and a total amount of the life time killer element in the glass powder is 1000 ppm or less. An n-type diffusion layer and a photovoltaic cell having an n-type diffusion layer are prepared by applying the composition for forming an n-type diffusion layer, followed by a thermal diffusion treatment. | 03-28-2013 |
20130118573 | PASTE COMPOSITION FOR ELECTRODE, PHOTOVOLTAIC CELL ELEMENT, AND PHOTOVOLTAIC CELL - The present invention provides a paste composition for an electrode comprising a phosphorus-containing copper alloy particle, a tin-containing particle, a nickel-containing particle, a glass particle, a solvent, and a resin. | 05-16-2013 |
20140060385 | COMPOSITION FOR FORMING N-TYPE DIFFUSION LAYER, METHOD FOR FORMING N-TYPE DIFFUSION LAYER, AND METHOD FOR PRODUCING PHOTOVOLTAIC CELL - The composition for forming an n-type diffusion layer in accordance with the present invention contains a donor element-containing glass powder and a dispersion medium. An n-type diffusion layer and a photovoltaic cell having an n-type diffusion layer are prepared by applying the composition for forming an n-type diffusion layer, followed by a thermal diffusion treatment. | 03-06-2014 |
20140065761 | COMPOSITION FOR FORMING P-TYPE DIFFUSION LAYER, METHOD OF FORMING P-TYPE DIFFUSION LAYER, AND METHOD OF PRODUCING PHOTOVOLTAIC CELL - The composition for forming a composition for forming a p-type diffusion layer, the composition containing a glass powder and a dispersion medium, in which the glass powder includes an acceptor element and a total amount of a life time killer element in the glass powder is 1000 ppm or less. A p-type diffusion layer and a photovoltaic cell having a p-type diffusion layer are prepared by applying the composition for forming a p-type diffusion layer, followed by a thermal diffusion treatment. | 03-06-2014 |
20140076396 | SEMICONDUCTOR SUBSTRATE AND METHOD FOR PRODUCING THE SAME, PHOTOVOLTAIC CELL ELEMENT, AND PHOTOVOLTAIC CELL - The semiconductor substrate of the present invention contains a semiconductor layer and an impurity diffusion layer containing at least one impurity atom selected from the group consisting of an n-type impurity atom and a p-type impurity atom and at least one metallic atom selected from the group consisting of K, Na, Li, Ba, Sr, Ca, Mg, Be, Zn, Pb, Cd, V, Sn, Zr, Mo, La, Nb, Ta, Y, Ti, Ge, Te, and Lu. | 03-20-2014 |
20140120648 | COMPOSITION FOR FORMING N-TYPE DIFFUSION LAYER, METHOD OF FORMING N-TYPE DIFFUSION LAYER, AND METHOD OF PRODUCING PHOTOVOLTAIC CELL - The composition for forming an n-type diffusion layer in accordance with the present invention contains a glass powder and a dispersion medium, in which the glass powder includes an donor element and a total amount of the life time killer element in the glass powder is 1000 ppm or less. An n-type diffusion layer and a photovoltaic cell having an n-type diffusion layer are prepared by applying the composition for forming an n-type diffusion layer, followed by a thermal diffusion treatment. | 05-01-2014 |
20140158196 | ELEMENT AND PHOTOVOLTAIC CELL - An element of the present invention includes a silicon substrate; an electrode which is provided on the silicon substrate and which is a sintered product of a paste composition for an electrode containing a phosphorus-containing copper alloy particle, a glass particle, a solvent and a resin; and a solder layer containing a flux, which is provided on the electrode. | 06-12-2014 |
20140242741 | MATERIAL FOR FORMING PASSIVATION FILM FOR SEMICONDUCTOR SUBSTRATE, PASSIVATION FILM FOR SEMICONDUCTOR SUBSTRATE AND METHOD OF PRODUCING THE SAME, AND PHOTOVOLTAIC CELL ELEMENT AND METHOD OF PRODUCING THE SAME - The invention provides a material for forming a passivation film for a semiconductor substrate. The material includes a polymer compound having an anionic group or a cationic group. | 08-28-2014 |
20150017754 | COMPOSITION FOR FORMING N-TYPE DIFFUSION LAYER, METHOD FOR PRODUCING SEMICONDUCTOR SUBSTRATE HAVING N-TYPE DIFFUSION LAYER, AND METHOD FOR PRODUCING SOLAR CELL ELEMENT - The invention provides composition for forming an n-type diffusion layer, the composition comprising a compound containing a donor element, a dispersing medium, and an organic filler; a method for producing a semiconductor substrate having an n-type diffusion layer; and a method for producing a photovoltaic cell element. | 01-15-2015 |
20150099352 | COMPOSITION FOR FORMING n-TYPE DIFFUSION LAYER, METHOD OF PRODUCING n-TYPE DIFFUSION LAYER, AND METHOD OF PRODUCING PHOTOVOLTAIC CELL ELEMENT - A composition for forming an n-type diffusion layer includes a glass powder containing P | 04-09-2015 |
20150111085 | Separator for Electrochemical Element and Fabrication Method for Same - The present invention provides a novel separator which has a high heat resistance property and excels in flexibility, and a fabrication method of the separator. The present invention relates to a separator for an electrochemical element consisting of a porous base material containing inorganic fibers and an organic substance, wherein a part or all of the inorganic fibers are covered with the organic substance, and the inorganic fibers are bound through the organic substance. | 04-23-2015 |
20150214390 | COMPOSITION FOR FORMING N-TYPE DIFFUSION LAYER, METHOD OF FORMING N-TYPE DIFFUSION LAYER, AND METHOD OF PRODUCING PHOTOVOLTAIC CELL - The composition for forming an n-type diffusion layer in accordance with the present invention contains a glass powder and a dispersion medium, in which the glass powder includes an donor element and a total amount of the life time killer element in the glass powder is 1000 ppm or less. An n-type diffusion layer and a photovoltaic cell having an n-type diffusion layer are prepared by applying the composition for forming an n-type diffusion layer, followed by a thermal diffusion treatment. | 07-30-2015 |
20150214418 | COMPOSITION FOR FORMING P-TYPE DIFFUSION LAYER, METHOD OF FORMING P-TYPE DIFFUSION LAYER, AND METHOD OF PRODUCING PHOTOVOLTAIC CELL - The composition for forming a composition for forming a p-type diffusion layer, the composition containing a glass powder and a dispersion medium, in which the glass powder includes an acceptor element and a total amount of a life time killer element in the glass powder is 1000 ppm or less. A p-type diffusion layer and a photovoltaic cell having a p-type diffusion layer are prepared by applying the composition for forming a p-type diffusion layer, followed by a thermal diffusion treatment. | 07-30-2015 |
20160035915 | SEMICONDUCTOR SUBSTRATE AND METHOD FOR PRODUCING THE SAME, PHOTOVOLTAIC CELL ELEMENT, AND PHOTOVOLTAIC CELL - The semiconductor substrate of the present invention contains a semiconductor layer and an impurity diffusion layer containing at least one impurity atom selected from the group consisting of an n-type imparity atom and a p-type impurity atom and at least one metallic atom selected from the group consisting of K, Na, Li, Ba, St, Ca, Mg, Be, Zn, Pb, Cd, V, Sn, Zr, Mo, La, Nb, Ta, Y, Ti, Ge, Te, and Lu. | 02-04-2016 |
20160099361 | ELEMENT AND PHOTOVOLTAIC CELL - The invention provides an element including a semiconductor substrate and an electrode disposed on the semiconductor substrate, the electrode being a sintered product of a composition for an electrode that includes phosphorus-containing copper alloy particles, glass particles and a dispersing medium, and the electrode includes a line-shaped electrode having an aspect ratio, which is defined as electrode short length : electrode height, of from 2:1 to 250:1. | 04-07-2016 |
Masato Yoshida, Aichi JP
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20100236578 | CYLINDER HEAD CLEANING METHOD AND CYLINDER HEAD CLEANING DEVICE - A cylinder head cleaning method capable of cleaning a cylinder head with an enhanced foreign matter removing rate. The method is used to clean a cylinder head having therein a water jacket including a narrow space portion having a narrow flow path and a large space having a flow path wider than the narrow space portion, and the cylinder head further including holes communicating with the water jacket. Cleaning nozzles are inserted into the water jacket from the holes selected from the holes, clearing liquid is ejected from the cleaning nozzles toward the narrow space portion, and the cleaning liquid flowing from the narrow space portion to the large space is discharged to the outside of the cylinder head from the hole communicating with the space. | 09-23-2010 |
Masato Yoshida, Tokyo JP
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20090230568 | Adhesive Film for Semiconductor and Semiconductor Device Therewith - There is provided an adhesive film for a semiconductor, comprising a thermoplastic resin (A), an epoxy resin (B) and a curing agent (C), wherein a minimum melt viscosity of said adhesive film for a semiconductor is 0.1 Pa·s to 500 Pa·s both inclusive in a temperature range of 50° C. to 180° C. both inclusive at a temperature-rise rate of 10° C./min from room temperature and a content of volatile component is 5.0% or less. | 09-17-2009 |
20100173164 | ADHESIVE FILM AND SEMICONDUCTOR DEVICE HAVING THE SAME - The adhesive film of the present invention is adapted to be used for bonding a semiconductor element and a substrate together or bonding semiconductor elements together. The adhesive film is formed of a resin composition containing an epoxy resin, an acrylic resin, and an acrylic oligomer having a weight average molecular weight of 6,000 or less. The resin composition is characterized in that in the case where an amount of the acrylic resin contained in the resin composition is defined as Wa and an amount of the acrylic oligomer contained therein is defined as Wb, a ratio of Wa/Wb is in the range of 0.5 to 4. Further, the semiconductor device of the present invention is characterized in that a semiconductor element and a substrate or semiconductor elements are bonded together using the above mentioned adhesive film. | 07-08-2010 |
20110291300 | DICING SHEET-ATTACHED FILM FOR FORMING SEMICONDUCTOR PROTECTION FILM, METHOD FOR PRODUCING SEMICONDUCTOR DEVICE USING THE SAME, AND SEMICONDUCTOR DEVICE - The present invention includes a dicing sheet-attached film for forming a semiconductor protection film ( | 12-01-2011 |
Masato Yoshida, Nagoya-City JP
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20090082959 | In-vehicle information apparatus and in-vehicle navigation apparatus - From among high upland area determination data stored in a hard disk drive, only a portion corresponding to a required segmental region is read into an external memory along with traveling of a vehicle. Determining of a high upland area is then executed based on the portion of the high upland determination in the external storage device. When a high-upland division is present in a vicinity of a present position, a portion of the high upland area determination data is read into the external memory. The read portion of the high upland area determination data corresponds to a high upland area, which covers all the high-upland divisions adjacently existing starting from the high-upland division in the vicinity of the present position. When a high-upland division is not present in the vicinity of the present position, a portion of the high upland area determination data corresponding to a segmental region having a predetermined minimum range centering on the present position is read into the external memory. | 03-26-2009 |
20100100846 | Navigation apparatus - A navigation apparatus is disclosed. The navigation apparatus includes a remote control device having a manipulation member and a force generator. The manipulation member is movable in response to user's manipulation and enables the user to point to a position on a display screen of the display device remotely. The force generator applies a force to the manipulation member against the manipulation of the manipulation member. The navigation apparatus sets content of the force based on an arrangement of an item image on the display screen, so that the force causes the pointed position to be attracted toward a fixed item image when the pointed position is located around the fixed item image, while the first force does not cause the pointed position to be attracted toward an on-map item image, which is superimposed on a map image. | 04-22-2010 |
Masato Yoshida, Sendai, JP
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20100067100 | LASER OSCILLATOR - A laser oscillator includes a ring resonator. The ring resonator includes an optical circulator having first, second, third, and fourth ports and a first optical amplification fiber connected to the optical circulator. Light incident on the first port is exited from the second port, and light incident on the second port is exited from the third port. The fourth port provides an exciting light and injects the exciting light into the ring resonator through the first port. The first optical amplification fiber amplifies light exited from the third port with the exciting light provided by the fourth port. The laser oscillator also includes an optical member connected to the optical circulator. The optical member reflects at least a part of the light exited from the second port and injects the same into the second port again. | 03-18-2010 |
Masato Yoshida, Miyagi JP
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20100061408 | LASER APPARATUS - Provided is a laser apparatus including: a DFB fiber laser | 03-11-2010 |
Masato Yoshida, Kanagawa JP
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20090198841 | INTERFACE DETECTING CIRCUIT AND INTERFACE DETECTING METHOD - An interface detecting circuit and interface detecting method are provided, whereby operations can be carried out depending on peripheral devices connected to USB terminals, and whereby the system can be simplified and software load can be reduced. A pull-down resistor is connected to an ID terminal of a Mini-A receptacle of a peripheral device, the voltage generated by the pull-down resistor, which is pulled down by the ID terminal of the Mini-A receptacle of the peripheral device, and a pull-up resistor, which is pulled up by the ID terminal of a Mini-B receptacle of a device, is detected in an analog fashion, using a detecting section comprised of comparators, and, via a logic section, a logic output is subjected to noise cancellation in a filter section and is memorized in a register section. The operations of other devices are determined according to the states memorized in the register section. | 08-06-2009 |
20150045349 | HETEROCYCLIC COMPOUND - The present invention provides an agent for the prophylaxis or treatment of autoimmune diseases (e.g., psoriasis, rheumatoid arthritis, inflammatory bowel disease, Sjogren's syndrome, Behcet's disease, multiple sclerosis, systemic lupus erythematosus etc.) and the like, which has a superior Tyk2 inhibitory action. | 02-12-2015 |
20150133451 | HETEROCYCLIC COMPOUND - The present invention provides a heterocyclic compound having an IRAK-4 inhibitory action, which is useful for the prophylaxis or treatment of inflammatory disease, autoimmune disease, osteoarticular degenerative disease, neoplastic disease and the like, and a medicament containing thereof. The present invention relates to a compound represented by the formula (I): | 05-14-2015 |
20160039811 | HETEROCYCLIC COMPOUND - Provided is a compound or a salt thereof, which has an excellent JAK inhibitory action, and is useful as a prophylactic or therapeutic agent for autoimmune diseases (rheumatoid arthritis, psoriasis, inflammatory bowel disease, Sjogren's syndrome, Behcet's syndrome, multiple sclerosis, systemic lupus erythematosus, etc.), cancer (leukemia, uterine leiomyosarcoma, prostate cancer, multiple myeloma, cachexia, myelofibrosis, etc.) and the like. The present invention relates to a compound represented by the formula (I) | 02-11-2016 |
Masato Yoshida, Ibaraki-Ken JP
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20080271383 | ABRASIVE, METHOD OF POLISHING TARGET MEMBER AND PROCESS FOR PRODUCING SEMICONDUCTOR DEVICE - To polish polishing target surfaces of SiO | 11-06-2008 |
20110312251 | Abrasive, Method of Polishing Target Member and Process for Producing Semiconductor Device - To polish polishing target surfaces of SiO | 12-22-2011 |
20120227331 | ABRASIVE, METHOD OF POLISHING TARGET MEMBER AND PROCESS FOR PRODUCING SEMICONDUCTOR DEVICE - To polish polishing target surfaces of SiO | 09-13-2012 |
Masato Yoshida, Ibaraki JP
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20080214093 | CMP polishing slurry and polishing method - The present invention relates to a CMP polishing slurry, comprising cerium oxide particles, a dispersing agent, a water-soluble polymer and water, wherein the water-soluble polymer is a compound having a skeleton of any one of an N-mono-substituted product and an N,N-di-substituted product of any one selected from the group consisting of acrylamide, methacrylamide and α-substituted products thereof. The amount of the water-soluble polymer is preferably in the range of 0.01 part or more by weight and 10 parts or less by weight for 100 parts by weight of the polishing slurry. Thus it is possible to provide a polishing slurry and a polishing method which make it possible to polish a film made of silicon oxide or the like effectively and rapidly and further control the process therefor easily in CMP technique for flattening an interlayer insulating film, a BPSG film, an insulator film for shallow trench isolation, and other films. | 09-04-2008 |
20150179829 | COMPOSITION FOR FORMING PASSIVATION LAYER, SEMICONDUCTOR SUBSTRATE WITH PASSIVATION LAYER, METHOD OF PRODUCING SEMICONDUCTOR SUBSTRATE WITH PASSIVATION LAYER, PHOTOVOLTAIC CELL ELEMENT, METHOD OF PRODUCING PHOTOVOLTAIC CELL ELEMENT AND PHOTOVOLTAIC CELL - The composition for forming a passivation layer includes an organic aluminum compound represented by Formula (I) and an organic compound represented by Formula (II). In Formula (I), each R | 06-25-2015 |
20150228812 | COMPOSITION FOR FORMING PASSIVATION LAYER, SEMICONDUCTOR SUBSTRATE HAVING PASSIVATION LAYER, METHOD OF PRODUCING SEMICONDUCTOR SUBSTRATE HAVING PASSIVATION LAYER, PHOTOLOLTAIC CELL ELEMENT, METHOD OF PRODUCING PHOTOVOLTAIC CELL ELEMENT, AND PHOTOVOLTAIC CELL - A composition for forming a passivation layer, including a resin and a compound represented by Formula (I): M(OR | 08-13-2015 |
20150303317 | SEMICONDUCTOR SUBSTRATE PROVIDED WITH PASSIVATION FILM AND PRODUCTION METHOD, AND PHOTOVOLTAIC CELL ELEMENT AND PRODUCTION METHOD THEREFOR - The invention provides a method of producing a semiconductor substrate provided with a passivation film, the method including: forming an electrode on a semiconductor substrate; applying a composition for forming a semiconductor substrate passivation film onto a surface, on which the electrode is formed, of the semiconductor substrate to form a composition layer, the composition containing an organic aluminum compound; and heat-treating the composition layer to form a passivation film. | 10-22-2015 |
20150303318 | COMPOSITION FOR FORMING PASSIVATION FILM, SEMICONDUCTOR SUBSTRATE PROVIDED WITH PASSIVATION FILM AND PRODUCTION METHOD THEREFOR, AND PHOTOVOLTAIC CELL ELEMENT AND PRODUCTION METHOD THEREFOR - The invention provides a composition for forming a passivation film, including: an organic aluminum compound represented by General Formula (I); and a resin, wherein R | 10-22-2015 |
Masato Yoshida, Tsukuba JP
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20120125670 | Cu-Al ALLOY POWDER, ALLOY PASTE UTILIZING SAME, AND ELECTRONIC COMPONENT - In an electronic component having a wiring and/or an electrode prepared through firing of a paste or in an electronic component having a wiring in contact with a glass or glass ceramic member, provided is an electronic component using a Cu-based wiring material which less suffers from increase in electric resistance due to oxidation, which less causes bubbles in the glass or glass ceramic, and has satisfactory migration resistance. The Cu—Al alloy powder includes a Cu—Al alloy powder including Cu and, preferably, 50 percent by weight or less of Al; and an aluminum oxide film having a thickness of 80 nm or less and being present on the surface of the Cu—Al alloy powder. The powder, when compounded with a glass or glass ceramic material to give a paste, can be used to form wiring (interconnections), electrodes, and/or contact members. | 05-24-2012 |
Masato Yoshida, Saitama-Ken JP
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20120168215 | CURABLE RESIN COMPOSITION - Provided is a curable resin composition which exhibits improved developability even in through holes and can suppress the generation of development residue and which can yield a cured product with excellent heat resistance and hardness. A curable resin composition which comprises a carboxyl-containing resin, a photopolymerization initiator, and barium sulfate that has been pretreated with a dispersant having an acid group and/or a dispersant having a block copolymer structure, a graft polymer structure, and/or a star polymer structure. | 07-05-2012 |
Masato Yoshida, Nagaokakyo-Shi JP
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20130020119 | CIRCUIT MODULE - A circuit module includes a substrate that has a substantially rectangular parallelepiped shape and includes a plurality of inner conductive layers, an electronic component disposed on a first main surface of the substrate, an insulating layer disposed on the first main surface of the substrate so as to cover the electronic component, a shielding layer disposed on a surface of the insulating layer, and a ground electrode connected to the plurality of inner conductive layers. At least two of the inner conductive layers are directly connected to the shielding layer. | 01-24-2013 |
20130063902 | POWER SUPPLY CONTROL CIRCUIT MODULE - A power supply control IC is mounted on a surface of a multilayer body that defines a power supply control circuit module. A first inner-layer electrode connecting an inductor element and a switching regulator element for the power supply control IC, another first inner-layer electrode connecting the inductor element and a capacitor element, and still another first inner-layer electrode connecting the switching regulator element and the capacitor element are located on upper layer regions of the multilayer body and are routed in between a mounting area of the power supply control IC and a peripheral wall of the multilayer body. The first inner-layer electrodes have widths that are wider than those of second inner-layer electrodes which are located near a center region of the multilayer body and transmit control signals. | 03-14-2013 |
20130063913 | POWER SOURCE CONTROL CIRCUIT MODULE - In a power source control circuit module, switching regulator devices and a linear regulator device are mounted on a surface of a laminated body so as to be spaced from each other. In an interface between dielectric layers of the laminated body, first to fifth internal ground electrodes separated by an electrode non-formation portion are provided. The first, second, fourth, and fifth internal ground electrode are connected to the respective switching regulator devices. The third internal ground electrode is connected to the linear regulator device. The first to fifth internal ground electrodes are connected to respective different external ground terminals. | 03-14-2013 |
Masato Yoshida, Shinagawa-Ku JP
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20130026648 | FILM FOR FORMING SEMICONDUCTOR PROTECTION FILM, AND SEMICONDUCTOR DEVICE - Disclosed is a film for forming a semiconductor protection film, which protects a surface of a semiconductor element that is mounted on a structure such as a substrate and is located on the outermost side, the surface being on the reverse side of the surface at which the semiconductor element is mounted on the structure, and the resin composition constituting the film for forming a semiconductor protection film contains (A) a thermosetting component and (B) an inorganic filler. | 01-31-2013 |
Masato Yoshida, Nissin-Shi JP
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20130292893 | JIG FOR FIXING CYLINDER BLOCK - The present invention addresses the issue of providing a jig for fixing a cylinder block, said jig being capable of stably fixing a cylinder block and contributing to a reduction of the size of the whole equipment including a processing tool. A jig for fixing a cylinder block of the present invention is used for the purpose of fixing a cylinder block, and is provided with a table having the cylinder block placed thereon such that the crank cases of the cylinder block are positioned on the lower side, and a clamping device, which can project upward from the upper surface of the table, and which clamps a journal wall that separates the crank cases of the cylinder block from each other. | 11-07-2013 |
Masato Yoshida, Hyogo JP
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20140155416 | SUBSTITUTED PYRAZOLO[1,5-A] PYRIMIDINES AS CALCIUM RECEPTOR MODULATING AGENTS - There is provided a calcium receptor modulator comprising a compound of the formula (I): | 06-05-2014 |
Masato Yoshida, Kobe-Shi JP
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20150176912 | HEAT EXCHANGER AND PRODUCTION METHOD THEREOF - The heat exchanger wherein each end of a plurality of heat transfer tubes is connected to an end wall of a bulging portion provided at a side wall of a case, an open edge of a header is fitted onto the bulging portion, and a chamber connecting with each heat transfer tube is formed. For jointing the header to the side wall, an inner circumferential end of the open edge of the header is formed as a first curved surface with a convex section, an outer face of the circumferential wall of the bulging portion is formed as a second curved surface with a concave section, the first curved surface and the second curved surface contact each other, and the surface-contact portion and the area therearound are welded. The number of the members is reduced, the structure is simplified, and the production cost of the heat exchanger is reduced. | 06-25-2015 |
Masato Yoshida, Kyoto JP
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20150366063 | MODULE, MODULE COMPONENT COMPOSING THE MODULE, AND METHOD OF MANUFACTURING THE MODULE - To provide a compact module that is capable of achieving a low profile and that has excellent high-frequency characteristics, a module includes a parent board; first and second child boards arranged so as to face the parent board; multiple electronic components that include first electrodes and second electrodes electrically connected to the first electrodes, respectively, on both opposing faces, the first electrodes being connected to the first child board, the second electrodes being connected to the parent board; and multiple electronic components that include first electrodes and second electrodes electrically connected to the first electrodes, respectively, on both opposing faces, the first electrodes being connected to the second child board, the second electrodes being connected to the parent board. | 12-17-2015 |
Masato Yoshida, Fujisawa-Shi, Kanagawa JP
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20160033361 | RADIAL ROLLING-BEARING TESTING DEVICE - A radial rolling-bearing testing device includes a rotary shaft which an inner ring of a radial rolling bearing is fitted, a rotational driving section which rotates a rotary shaft, a lubricant reservoir which is configured so as to retain lubricant in which a portion of the radial rolling bearing is immersed, and a load applying section which is configured so as to apply a radial load to the radial rolling bearing. A bottom surface of the lubricant reservoir is a curved concave surface which has a partially cylindrical form which is concentric to a central axis of the rotary shaft. An entirety of a housing which supports the rotary shaft may be integrally formed. | 02-04-2016 |
20160033362 | METHOD FOR TESTING LIFE OF RADIAL-ROLLING BEARING AND RADIAL ROLLING-BEARING TESTING DEVICE - A method for testing a life of a radial rolling bearing and a radial rolling-bearing testing device. According to the method for testing the life of the radial rolling bearing and the radial rolling-bearing testing device, a portion of the radial rolling bearing is immersed in lubricant, and a bearing life is tested by rotating an outer ring and an inner ring relative to each other in a state where a radial load is applied to the radial rolling bearing. The radial load is applied in a horizontal direction. | 02-04-2016 |
20160054198 | ROLLING-BEARING TESTING DEVICE - A radial rolling-bearing testing device includes a housing, a lubricant reservoir provided inside the housing and configured so as to retain lubricant in which a portion of a radial rolling bearing is immersed, a rotary shaft which is supported so as to freely rotate inside the housing and which an inner ring of the radial rolling bearing is fitted outside, a rotational driving section which is configured so as to rotate the rotary shaft, a load applying section which has a pressurizing device and is configured so as to apply a load to the radial rolling bearing, and a vibration sensor configured so as to detect a vibration in the radial rolling bearing. The vibration sensor is provided on an outside of the housing, and between the pressurizing device and the radial rolling bearing in a direction in which the load applies. | 02-25-2016 |
Masato Yoshida, Tsukuba-Shi, Ibaraki JP
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20160118513 | COMPOSITION FOR FORMING ELECTRODE, PHOTOVOLTAIC CELL ELEMENT AND PHOTOVOLTATIC CELL - A composition for forming an electrode includes a phosphorus-containing copper alloy particle, a tin-containing particle, a specific metal element M-containing particle, a glass particle, a solvent and a resin, in which M is at least one selected from the group consisting of Li, Be, Na, Mg, K, Ca, Rb, Sr, Cs, Ba, Fr, Ra, Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Zr, Nb, Mo, Tc, Ru, Pd, Ag, Cd, La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu, Hf, Ta, W, Re, Os, Ir, Pt, Au, Hg, Al, Ga, Ge, In, Sb, Tl, Pb, Bi and Po. | 04-28-2016 |