Takado
Hisashi Takado, Kawasaki-Shi JP
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20160044259 | SOLID-STATE IMAGING APPARATUS, IMAGING SYSTEM, AND METHOD FOR DRIVING SOLID-STATE IMAGING APPARATUS - A solid-state imaging apparatus includes a first light-shielded pixel region including two or more rows of pixels each including a photoelectric converter which is shielded from light, an aperture pixel region including pixels each including a photoelectric converter which is not shielded from light, and a control unit configured to perform control such that a charge accumulation period for the pixels in the first light-shielded pixel region is longer than a charge accumulation period for the pixels in the aperture pixel region and time to read signals from the pixels in a first row of the first light-shielded pixel region is different from time to read signals from the pixels in a second row different from the first row of the first light-shielded pixel region. | 02-11-2016 |
Junji Takado, Wako-Shi JP
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20090257895 | ELECTRIC COMPRESSOR - An electric turbo compressor is an air compressor to be used in a fuel cell system, and includes a housing comprised o a compression casing, a motor casing, and a canceller casing, and the housing houses therein an impeller, a rotary shaft, a thrust canceller (a load cancellation section), and a motor unit. The rotary shaft is supported by a thrust air bearing in its thrust direction, and is axially supported by a radial air bearing in its rotating direction. A thrust load is generated at the rotary shaft when the number of rotations of the impeller increases. The pressure of the compressed air acts to the pressure chamber from the compressed air lead-out section of the compression casing via the compressed air passage, and this pressure acts on the canceller flange of the canceller shaft so as to generate a load towards the rear of the rotary shaft. Therefore, the thrust load is cancelled out. | 10-15-2009 |
20120219439 | ELECTRIC COMPRESSOR - An electric turbo compressor is an air compressor to be used in a fuel cell system, and includes a housing comprised of a compression casing, a motor casing, and a canceller casing, and the housing houses therein an impeller, a rotary shaft, a thrust canceller (a load cancellation section), and a motor unit. The rotary shaft is supported by a thrust air bearing in its thrust direction, and is axially supported by a radial air bearing in its rotating direction. A thrust load is generated at the rotary shaft when the number of rotations of the impeller increases. The pressure of the compressed air acts to the pressure chamber from the compressed air lead-out section of the compression casing via the compressed air passage, and this pressure acts on the canceller flange of the canceller shaft so as to generate a load towards the rear of the rotary shaft. Therefore, the thrust load is cancelled out. | 08-30-2012 |
Junji Takado, Hiki-Gun JP
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20110097222 | SUPERCHARGER - A supercharger includes a centrifugal compressor having an impeller, a rotational shaft coupled to the impeller, a motor having a stator and a rotor housed in a casing, and a journal air bearing supporting the rotational shaft. The journal air bearing includes a hollow cylindrical member having an inner space therein and a heat transfer member fitted in the inner space. The heat transfer member is made of a material which is less rigid and has a greater coefficient of thermal conductivity than the hollow cylindrical member. The impeller radiates heat transferred through the heat transfer member into ambient air. | 04-28-2011 |
Makoto Takado, Oshu-Shi JP
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20140209021 | RAW MATERIAL GAS SUPPLY DEVICE, FILM FORMING APPARATUS, FLOW RATE MEASURING METHOD, AND NON-TRANSITORY STORAGE MEDIUM - Provided is a raw material gas supply device which includes: a raw material container; a carrier gas supply unit configured to supply a carrier gas into the container via a carrier gas flow path; a first flow rate measurement unit configured to measure a flow rate of the carrier gas flowing therethrough and output the same as a first flow rate measurement value; a raw material gas supply path configured to supply a raw material gas containing a vaporized raw material into a film forming apparatus; a second flow rate measurement unit configured to measure a flow rate of the raw material gas flowing therethrough and output the same as a second flow rate measurement value; and a flow rate calculation unit configured to calculate a difference between the first and second flow rate measurement values and to convert the difference into a vaporization flow rate of the raw material. | 07-31-2014 |
20140209022 | RAW MATERIAL GAS SUPPLY DEVICE, FILM FORMING APPARATUS, RAW MATERIAL GAS SUPPLY METHOD, AND NON-TRANSITORY STORAGE MEDIUM - Provided is a raw material gas supply device for use in a film forming apparatus, which includes: a raw material container configured to accommodate a solid raw material; a carrier gas supply unit configured to supply a carrier gas to the container; a raw material gas supply path configured to supply a raw material gas containing a vaporized raw material from the container to the film forming apparatus; a flow rate measurement unit configured to measure a flow rate of the vaporized raw material; a pressure control unit configured to control an internal pressure of the container; and a control unit configured to control the pressure control unit to increase the internal pressure of the container when the measured flow rate of the vaporized raw material is higher than a predetermined target value, and to decrease the internal pressure when the measured flow rate is lower than the target value. | 07-31-2014 |
Makoto Takado, Iwate JP
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20140290752 | PROCESSING METHOD AND PROCESSING APPARATUS - A processing method is provided in which an object to be processed is processed within a processing container connected to a gas supply system, an exhaust system and an opening degree variable valve by using a processing gas in a plurality of sequential processing steps. The processing method includes: an acquisition process for acquiring an opening degree of the opening degree variable valve corresponding to a target pressure value within the processing container under a predetermined processing condition for at least one of the plurality of sequential processing steps; and an execution process for executing the at least one of the plurality of sequential processing steps for which the opening degree has been acquired by the acquisition process with the opening degree. | 10-02-2014 |
20150140694 | GAS SUPPLY DEVICE, FILM FORMING APPARATUS, GAS SUPPLY METHOD, AND STORAGE MEDIUM - A gas supply device for intermittently supplying raw material gas into a film forming process unit that includes a raw material container for accommodating a raw material, a carrier gas supply unit for supplying carrier gas to evaporate the raw material, a raw material gas supply path for supplying the raw material gas and the carrier gas into the film forming process unit, a flow rate detector, a flow rate regulating valve, a raw material supply and block unit for supplying and blocking the raw material gas into the film forming process unit, and a control unit for outputting a control signal for intermittently supplying the raw material gas into the film forming process unit. | 05-21-2015 |
Naoyuki Takado, Machida JP
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20150146836 | NUCLEAR REACTOR POWER REGULATOR - A reactor power regulator that adjusts an output of a reactor on a basis of an operation pattern or a reactor output target value and a reactor output change rate that are input by a central load dispatching center or an operator, including: a reactor output calculating device that performs computation based on a thermal equilibrium from various necessary plant state quantities to calculate a reactor output signal; a correcting device that corrects a continuously obtained reactor output equivalent signal that is considered to be equivalent to a reactor output at a calculation interval of the reactor output signal, for each calculation interval in the reactor output calculating device so that the reactor output equivalent signal coincides with the reactor output signal calculated by the reactor output calculating device, and calculates a continuous corrected reactor output equivalent signal; a reactor output controlling device that calculates at least one type of reactor output control signal for controlling the output of the reactor, using the corrected reactor output equivalent signal, the reactor output target value, and the reactor output change rate; and a reactor output controller that is actuated on a basis of the reactor output control signal. | 05-28-2015 |
Shinya Takado, Kyoto JP
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20110272665 | Nitride semiconductor device - An inventive nitride semiconductor device includes: a substrate; a first buffer layer provided on the substrate, and having a superlattice structure which includes two types of Group III nitride semiconductor sublayers having different compositions and alternately stacked in pairs; a second buffer layer provided on the first buffer layer in contact with the first buffer layer, and having a superlattice structure which includes two types of Group III nitride semiconductor sublayers having different compositions and alternately stacked in pairs; and a device operation layer of a Group III nitride semiconductor provided on the second buffer layer; wherein an average lattice constant LC | 11-10-2011 |
20120119219 | NITRIDE SEMICONDUCTOR ELEMENT AND NITRIDE SEMICONDUCTOR PACKAGE - A nitride semiconductor element capable of accommodating GaN electron transfer layers of a wide range of thickness, so as to allow greater freedom of device design, and a nitride semiconductor element package with excellent voltage tolerance performance and reliability are provided. On a substrate ( | 05-17-2012 |
20120213242 | SEMICONDUCTOR LASER DEVICE - A semiconductor laser device includes a nitride semiconductor laminate structure including an n-type clad layer, an n-type guide layer formed on the n-type clad layer, a light emitting layer formed on the n-type guide layer and a p-type semiconductor layer formed on the light emitting layer. The nitride semiconductor laminate structure does not include a p-type semiconductor clad layer. The semiconductor laser device further includes an upper clad layer formed on the p-type semiconductor layer. The upper clad layer includes a first conductive film made of an indium oxide-based material and a second conductive film formed on the first conductive film and made of a zinc oxide-based material, a gallium oxide-based material or a tin oxide-based material. | 08-23-2012 |
20130016751 | SEMICONDUCTOR LASER DEVICEAANM TAKADO; ShinyaAACI KyotoAACO JPAAGP TAKADO; Shinya Kyoto JPAANM Kashiwagi; JunichiAACI KyotoAACO JPAAGP Kashiwagi; Junichi Kyoto JP - A semiconductor laser device generates blue-violet light with an emission wavelength of 400 to 410 nm. The device includes an n-type group III nitride semiconductor layer, an active layer laminated on the n-type semiconductor layer and having an InGaN quantum well layer, a p-type group III nitride semiconductor layer laminated on the active layer, and a transparent electrode contacting the p-type semiconductor layer and serving as a clad. The n-type semiconductor layer includes an n-type clad layer and an n-type guide layer disposed between the clad layer and the active layer. The guide layer includes a superlattice layer in which an InGaN layer and an Al | 01-17-2013 |
20150036709 | SEMICONDUCTOR LASER DEVICE - A semiconductor laser device generates blue-violet light with an emission wavelength of 400 to 410 nm. The device includes an n-type group III nitride semiconductor layer, an active layer laminated on the n-type semiconductor layer and having an InGaN quantum well layer, a p-type group III nitride semiconductor layer laminated on the active layer, and a transparent electrode contacting the p-type semiconductor layer and serving as a clad. The n-type semiconductor layer includes an n-type clad layer and an n-type guide layer disposed between the clad layer and the active layer. The guide layer includes a superlattice layer in which an InGaN layer and an Al | 02-05-2015 |
Tomoaki Takado, Osaka-Shi JP
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20150248989 | ION GENERATION APPARATUS AND ELECTRIC EQUIPMENT - Each of first to fourth needle-like electrodes is arranged such that a direction of extension thereof is parallel, and generates ions by discharge. Through a space, a gas for conveying the ions generated by the first to fourth needle-like electrodes flows. Needle tips of the first needle-like electrode and the second needle-like electrode protrude from a first wall surface that forms the space, are spaced apart from each other, and are arranged in line in the space. Needle tips of the third needle-like electrode and the fourth needle-like electrode protrude from a second wall surface that forms the space and faces the first wall surface, are spaced apart from each other, and are arranged in line in the space. The first needle-like electrode and the fourth needle-like electrode generate positive ions, and the second needle-like electrode and the third needle-like electrode generate negative ions. | 09-03-2015 |
Tomoaki Takado, Osaka JP
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20120028561 | ION GENERATOR AND AIR CONDITIONER | 02-02-2012 |
Urara Takado, Tokyo JP
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20110184086 | RUBBER COMPOSITION AND TIRE USING THE SAME - This invention relates to a rubber composition which has an excellent processability but also improves a storage modulus (G′) and loss tangent (tan δ) at a low temperature and further improves a wear resistance, and more particularly to a rubber composition characterized by compounding more than 1 part by mass but less than 30 parts by mass of a low-molecular weight polymer component (B) having an amount of an aromatic vinyl compound bonded of less than 30 mass % and a weight average molecular weight as converted to polystyrene of 0.2×10 | 07-28-2011 |
Yuji Takado, Matsumoto-Shi JP
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20100259732 | LIGHT SOURCE DEVICE AND PROJECTOR - A light source device includes a light emitting tube having a light emitting section that emits light, a first sealing section on one side of the light emitting section formed integrally with the light emitting section, and a second sealing section on the other side of the light emitting section formed integrally with the light emitting section. A secondary reflecting mirror having a secondary reflecting surface covers part of a periphery of the light emitting section and reflects light emitted from the light emitting section. A primary reflecting mirror having a primary reflecting surface reflects the light emitted from the light emitting section and the light reflected by the secondary reflecting mirror. The secondary reflecting mirror has a first reference plane defined by a first boundary line as a boundary between the light emitting section and the first sealing section, which does not intersect with the secondary reflecting surface | 10-14-2010 |
20100321645 | LIGHT SOURCE UNIT AND PROJECTOR - A light source unit includes: an arc tube having a light-emitting portion; a secondary reflector covering part of the periphery of the light-emitting portion and being provided with a secondary reflecting surface for reflecting light emitted from the light-emitting portion; a primary reflector having a primary reflecting surface for reflecting the light emitted from the light-emitting portion and the light reflected from the secondary reflector; a first electrode; and a second electrode; wherein the second electrode is arranged at a position which causes an ionic wind to be induced by applying a voltage between the second electrode and the first electrode and causes air between the secondary reflecting surface and the light-emitting portion to flow, and either one of the first electrode or the second electrode is arranged between the arc tube and the secondary reflector. | 12-23-2010 |
20110242505 | LIGHT SOURCE DEVICE AND PROJECTOR - A light source device includes an arc tube having a tube spherical portion containing a light emission portion and a pair of sealing portions, a reflector and a sub mirror having a reflecting portion and a fixing portion. The reflector is so shaped that at least an end on one side is removed in a cross-sectional view cut along a predetermined plane containing a revolution center axis. The fixing portion of the sub mirror is so constructed as to cover at least the sealing portion as one of the pair of the sealing portions of the arc tube through an area larger than the half of the outer circumference of the sealing portion. | 10-06-2011 |