Kirino
Hideki Kirino, Tokyo JP
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20110043423 | HIGH FREQUENCY WAVEGUIDE, ANTENNA DEVICE, AND ELECTRONIC APPARATUS WITH ANTENNA DEVICE - In a waveguide structure ( | 02-24-2011 |
20110187614 | HIGH-FREQUENCY WAVEGUIDE AND PHASE SHIFTER USING SAME, RADIATOR, ELECTRONIC DEVICE WHICH USES THIS PHASE SHIFTER AND RADIATOR, ANTENNA DEVICE, AND ELECTRONIC DEVICE EQUIPPED WITH SAME - This high-frequency waveguide is formed by first and second conductors ( | 08-04-2011 |
Hideki Kirino, Kagawa JP
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20090278744 | PHASED ARRAY ANTENNA - There is provided a phased array antenna having variable phase shifters constituted by using a variable dielectric-constant dielectric substance whose dielectric constant varies according to an applied electric field, which antenna can dispense with a DC blocking element that causes mismatch, and reduce deformation of the beam shape even when beam tilt occurs, in the case where the variable phase shifters are divided into those for right-side tilt and those for left-side tilt and the phase shift amounts thereof are independently controlled. | 11-12-2009 |
Kiyoshi Kirino, Yokohama JP
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20100308874 | CLOCK SWITCH CIRCUIT AND CLOCK SWITCH METHOD OF THE SAME - A clock switch circuit includes a frequency divide circuit which divides a frequency of a basic clock to generate a plurality of frequency-divided clocks, an output select signal generation circuit which outputs an output select signal according to a clock select signal, and an output select circuit which switches a clock to be output according to the output select signal, in which the frequency divide circuit outputs a plurality of frequency-divided count values indicating the number of clocks of the basic clock from start of one cycle of each of the frequency-divided clocks, and the output select signal generation circuit switches a value of the output select signal at timings at which start timings of cycles of frequency-divided clocks before and after switch operation are matched based on a frequency-divided count value corresponding to a current selection clock among the plurality of frequency-divided count values. | 12-09-2010 |
Koji Kirino, Ichinomiya-Shi JP
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20130272021 | DECORATION DEVICE AND GAME MACHINE - A decoration device ( | 10-17-2013 |
Manabu Kirino, Kanagawa JP
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20140329926 | CURABLE RESIN COMPOSITION - An object of the present invention is to provide a curable resin composition capable of being quickly cured at a low temperature by irradiation of an active energy ray such as light and having excellent storage stability, and a curing method. Furthermore, in the curable resin composition of the present invention, which uses a component (D) in combination, the active energy ray curability is more improved. Provided is a curable composition containing components (A) to (C) described below: | 11-06-2014 |
Manabu Kirino, Tokyo JP
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20120095124 | BASE AND RADICAL GENERATOR, COMPOSITION USING SAME AND METHOD FOR CURING SAME - The present invention relates to an aminimide compound having a structure represented by the following general formula (I) in the molecule thereof, relates to a curable composition using the aminimide compound and relates to a method for curing the composition; | 04-19-2012 |
20120316285 | TEMPORARY FIXING COMPOSITION - In the past, it was difficult to fix an adherend sufficiently during polishing processing and to peel off the adherend conveniently. | 12-13-2012 |
20140114007 | TEMPORARY FIXING COMPOSITION - The present invention provides a temporary fixing composition capable of fixing wafers and the like and metals with high adhesive strength and removing easily and completely the wafers and the like and the metals without breakage thereof. The temporary fixing composition used for flat surface polishing includes the following components (A) to (C): Component (A): a thermoplastic resin polymerized from an α-olefin having 16 to 35 carbon atoms alone; Component (B): a hydrogenated tackifier; and Component (C): a hydrocarbon compound which is in the state of a solid at 25° C., and having a melt viscosity of 1 to 5000 mPa·s at 100° C. and a Shore D hardness of 30 to 100. | 04-24-2014 |
Shumya Kirino, Tokyo JP
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20090124835 | PROCESSES FOR PRODUCTION OF ISOBUTENE AND TERTIARY BUTANOL - An object of the present invention is to provide, for the production of isobutene, a high-yielding, highly-selective, and long-term stable production process of isobutene from TBA. With respect to the production of TBA, an object of the present invention is to provide a TBA production process in which, through long-term stable maintenance of a high reaction activity, long-term continuous operation is enabled and the productivity is improved. The present invention discloses a process for producing isobutene that employs a dehydration temperature of from 200 to 450° C. in use of an alumina catalyst that contains a Na content of 0.6% by weight or less in terms of NaO | 05-14-2009 |
Shunya Kirino, Tokyo JP
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20140107387 | PROCESSES FOR PRODUCTION OF ISOBUTENE AND TERTIARY BUTANOL - An object of the present invention is to provide, for the production of isobutene, a high-yielding, highly-selective, and long-term stable production process of isobutene from TBA. With respect to the production of TBA, an object of the present invention is to provide a TBA production process in which, through long-term stable maintenance of a high reaction activity, long-term continuous operation is enabled and the productivity is improved. The present invention discloses a process for producing isobutene that employs a dehydration temperature of from 200 to 450° C. in use of an alumina catalyst that contains a Na content of 0.6% by weight or less in terms of NaO | 04-17-2014 |
Takashi Kirino, Suita-Shi JP
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20120223338 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device includes the steps of forming a silicon oxide film on a silicon carbide substrate, annealing the silicon carbide substrate and the silicon oxide film in gas containing hydrogen, and forming an aluminum oxynitride film on the silicon oxide film after the annealing of the silicon carbide substrate and the silicon oxide film. | 09-06-2012 |
Takashi Kirino, Osaka JP
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20140138708 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device includes the steps of forming a silicon oxide film on a silicon carbide substrate, annealing the silicon carbide substrate and the silicon oxide film in gas containing hydrogen, and forming an aluminum oxynitride film on the silicon oxide film after the annealing of the silicon carbide substrate and the silicon oxide film. | 05-22-2014 |
Tomoaki Kirino, Tokyo JP
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20090137731 | Surface-Modified Carbon Black and Dispersion Thereof - Surface-modified carbon black which exhibits excellent dispersibility in a silicone oil (non-polar medium) and a dispersion of the surface-modified carbon black are disclosed. The surface-modified carbon black includes an isocyanate compound having isocyanate groups on both ends and chemically bonded to a functional group on the surface of the carbon black, the isocyanate compound being chemically bonded to a reactive silicone polymer. The surface-modified carbon black dispersion is produced by dissolving an isocyanate compound having isocyanate groups on both ends in a solvent, adding carbon black to the solution, mixing the components so that one of the isocyanate groups is bonded to the surface of the carbon black via a urethane bond, removing an unreacted isocyanate compound, dispersing the carbon black in a silicone oil, and adding a reactive silicone polymer to the dispersion, followed by mixing and deaeration. | 05-28-2009 |
20090286923 | Carbon Black Pigment for Electronic Paper, Dispersion of the Pigment, and Process for Production of the Pigment - A surface-modified carbon black pigment suitable as electronic paper black particles, a silicone oil dispersion of the carbon black pigment, and a process for producing the carbon black pigment are disclosed. The carbon black pigment includes surface-modified carbon black, a diphenylmethane group that is bonded to the carbon black via a urethane bond through a functional group on the surface of the carbon black being bonded to a polysiloxane group. The carbon black dispersion includes a silicone oil and the carbon black pigment, the carbon black pigment being dispersed in the silicone oil at a concentration of 1 to 20 wt %. The process for producing a carbon black pigment for electronic paper includes reacting a functional group on the surface of carbon black with a diphenyl compound having isocyanate groups on both ends in a non-reactive organic solvent so that a diphenylmethane group is bonded to the surface of the carbon black via a urethane bond, and causing the diphenylmethane group to be bonded to a polysiloxane in a silicone oil. | 11-19-2009 |
20100120997 | DISPERSIBLE SURFACE-MODIFIED CARBON BLACK - Dispersible surface-modified carbon black that is surface-modified by causing a functional group on the surface of the carbon black to be bonded to a diol-modified end-containing polymer through a triisocyanate compound exhibits excellent dispersibility in a non-polar solvent, a low-polar solvent, and a resin. The dispersible surface-modified carbon black is characterized in that a surface functional group of the carbon black is bonded to one isocyanate end group of a triisocyanate compound having three isocyanate end groups, and the remaining two isocyanate end groups are respectively bonded to hydroxyl groups of a diol-modified end-containing polymer. | 05-13-2010 |
20140000488 | METHOD FOR PRODUCING AQUEOUS DISPERSION OF SURFACE-TREATED CARBON BLACK PARTICLES AND AQUEOUS DISPERSION OF SURFACE-TREATED CARBON BLACK PARTICLES | 01-02-2014 |