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| 20080246955 | Method of detecting alcohol concentration and alcohol concentration detecting apparatus - In a detection of an alcohol concentration, a first light and a second light are irradiated to a mixed liquid including a fossil fuel, an alcohol, and water, and the alcohol concentration is calculated based on amounts of the first light and the second light permeated through the mixed liquid. In the detection, a difference of a transmittance of the fossil fuel with respect to the first light and each transmittance of the alcohol and water with respect to the first light is larger than a first value. In addition, a difference of a transmittance of water with respect to the second light and each transmittance of the fossil fuel and the alcohol with respect to the second light is larger than a second value. | 10-09-2008 |
| 20090000603 | FUEL VAPOR TREATMENT SYSTEM - An ECU computes a transit time from a time when the fuel vapor passes the purge valve right after the purge valve is opened until a time when the fuel vapor reaches a vicinity of the fuel injector. Further more, the ECU computes a fuel vapor concentration at the vicinity of the fuel injector after the transit time has elapsed based on a first-order lag curve which is defined by a maximum variation of the fuel vapor concentration and a time constant. Correcting the fuel injection quantity according to the fuel vapor concentration at the vicinity of the injector restricts a disturbance of air-fuel ratio at a time of starting purge process. | 01-01-2009 |
| 20090015822 | FUEL PROPERTY DETECTION DEVICE - A fuel property detection device for detecting a property of fuel based on a detection signal output from a photoreceptor includes a light guiding member having a reflecting surface located in direct contact with the fuel. The light guiding member includes a light emitting surface through which measurement light from a light source is emitted from the light guiding member into the fuel, a light incident surface through which the measurement light emitted from the light emitting surface and passing through the fuel enters again the light guiding member, and the reflecting surface from which the measurement light incident from the light incident surface is reflected toward the photoreceptor. The light incident surface and the light emitting surface are opposite to each other to have a space therebetween in the light guiding member, and the space is provided to be filled with the fuel. | 01-15-2009 |
| 20090133673 | FUEL VAPOR TREATMENT SYSTEM - A fuel vapor treatment system is mounted on a hybrid vehicle having an internal combustion engine and an electric motor. Even when an internal combustion engine is stopped, a discharge of fuel vapor from a first canister to atmosphere can be detected. When the discharge of the fuel vapor from the first canister is detected, the internal combustion engine is started to perform a purge process. When it is detected that the purge process in the first canister is finished, the internal combustion engine is stopped to terminate the purge process. | 05-28-2009 |
| 20100059020 | FUEL SUPPLY SYSTEM AND FUEL SUPPLY CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - At the time of shifting a fuel property value associated with a first imaginary passage cell as a fuel property value associated with a second imaginary passage cell located on the downstream side thereof, the fuel property value associated with the second imaginary passage cell is corrected in a controller by computing a difference between the fuel property value associated with the first imaginary passage cell and the fuel property value associated with the second imaginary passage cell and multiplying the difference by a correction coefficient. A stoichiometric air/fuel ratio is computed in the controller based on the fuel property value, which is associated with a last one of the imaginary passage cells. Fuel injection of an injector is controlled by the controller based on a computed injection quantity of fuel, which is computed based on the stoichiometric air/fuel ratio. | 03-11-2010 |
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| 20090318688 | METHOD FOR PREPARING PHENYLALANINE DERIVATIVES HAVING QUINAZOLINE-DIONE SKELETON AND INTERMEDIATES FOR USE IN THE PREPARATION OF DERIVATIVES - A method for preparing a phenylalanine derivative having a quinazoline-dione ring represented by the following formula (1) or a pharmaceutically acceptable salt thereof, comprising the following steps (a), (b) and (c): | 12-24-2009 |
| 20100137593 | CRYSTALS OF PHENYLALANINE DERIVATIVES AND PRODUCTION METHODS THEREOF - The present invention provides crystals of phenylalanine derivatives of the formula (I): | 06-03-2010 |
| 20100204505 | METHODS FOR PRODUCING PHENYLALANINE DERIVATIVES HAVING A QUINAZOLINEDIONE SKELETON AND INTERMEDIATES FOR PRODUCTION THEREOF - The present invention provides a method for producing a phenylalanine derivative(s) having a quinazolinedione ring of formula (5), including steps comprising of reacting an acylphenylalanine derivative(s) of formula (1) with a carbonyl group-introducing reagent(s) and a derivative(s) of anthranilic acid to form an asymmetric urea intermediate(s); making the asymmetric urea intermediate(s) into a quinazolinedione compound(s) of formula (4) in the presence of a base(s); and N-alkylating quinazolinedione ring amide of the obtained quinazolinedione compounds with N-alkylation agents. This production method is an industrially applicable method for producing phenylalanine derivatives having a quinazolinedione skeleton, which are compounds highly useful as drugs having α 4 integrin inhibiting activity. In the formulae (1) and (5), R1 represents a phenyl group having a substituent(s) and the like, R2 represents an alkyl group and the like, R3 represents a dialkylamino group and the like, and R4 represents an alkyl group and the like. | 08-12-2010 |
| 20110009434 | CRYSTALS OF ISOPROPYL ESTER OF N-(2,6-DICHLOROBENZOYL)-4-[6-(METHYLAMINO)METHYL -1-METHYL-2,4-DIOXO-1,4-DIHYDROQUINAZOLINE-3(2H)-YL]-L- PHENYLALANINE HYDROCHLORIDE, PRODUCTION METHOD THEREOF AND USE THEREOF - Crystals of isopropyl ester of N-(2,6-dichlorobenzoyl)-4-[6-(methylamino)methyl-1-methyl-2,4-dioxo-1,4-dihydroquinazoline-3(2H)-yl]-L-phenylalanine hydrochloride are useful as α4 integrin inhibitors. | 01-13-2011 |
| 20110313154 | METHOD FOR PREPARING PHENYLALANINE DERIVATIVES HAVING QUINAZOLINE-DIONE SKELETON AND INTERMEDIATES FOR USE IN THE PREPARATION OF THE DERIVATIVES - A method for preparing a phenylalanine derivative having a quinazoline-dione ring represented by the following formula (1) or a pharmaceutically acceptable salt thereof, comprising the following steps (a), (b) and (c): | 12-22-2011 |
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| 20080316120 | ELECTRONIC APPARATUS - According to one embodiment, an electronic apparatus includes a housing, an inner conductor member provided inside the housing, a conductor part with which the housing is provided, and which restrains undesired electromagnetic radiation from leaking from inside the housing to the outside, and an antenna including an antenna element that is provided on an outer surface of the housing, the antenna using the conductor part as an antenna ground. The housing includes a non-conductor part that is out of the conductor part at least at a part of a region in which the antenna element is provided. When the antenna is viewed from a direction in which the antenna element and the housing overlap each other, a size of a part of the antenna element overlapping the non-conductor part is larger than a part of the antenna element overlapping the conductor part. | 12-25-2008 |
| 20080318447 | Electronic Apparatus - According to one embodiment, an electronic apparatus includes a conductive layer provided on an outer surface of a housing, a conductive member provided inside the housing, and a connecting component attached to the housing. The housing is provided with a through hole which causes the inside of the housing to communicate with the outside. The connecting component has conductivity, and is provided with a major diameter section and a minor diameter section. The major diameter section is formed larger than the through hole, is opposed to the conductive layer from outside the housing, and is electrically connected to the conductive layer. The minor diameter section is formed smaller than the through hole, is inserted in the through hole to reach the inside of the housing, and is electrically connected to the conductive member. | 12-25-2008 |
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| 20090197944 | AGENT FOR IMPROVING MUSCLE FORCE - Provision of an agent for improving muscle force and for improving exercise effect. An agent for improving muscle force containing a catechin as an effective ingredient. | 08-06-2009 |
| 20090281174 | SENESCENCE INHIBITOR - Provision of a drug, a quasi-drug, and a food or beverage, which are effective for senescence inhibition, mitochondrial function improvement, muscle dysfunction inhibition, muscular atrophy inhibition, prevention of a bedridden state, muscle senescence inhibition, or motor function improvement. A senescence inhibitor, a mitochondrial function-improving agent, a muscle dysfunction inhibitor, a muscular atrophy inhibitor, and an agent for preventing a bedridden state, containing a catechin as an effective ingredient. A muscle senescence inhibitor and a motor function-improving agent, containing a catechin and an amino acid as effective ingredients. | 11-12-2009 |
| 20120010285 | AGENT FOR PROMOTING ENERGY CONSUMPTION - Provision of a pharmaceutical product, a quasi-drug, a food, a beverage, a pet food, a feed, and others which are highly safe, have excellent action of promoting energy consumption, promoting fat burning, promoting carbohydrate burning, or improving an effect of exercise, and which are effective for the prevention or amelioration of obesity or metabolic syndrome or the improvement of motor functions. | 01-12-2012 |
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| 20090065474 | LIQUID-EJECTION HEAD AND METHOD FOR MANUFACTURING LIQUID-EJECTION HEAD SUBSTRATE - A method for manufacturing a liquid-ejection head substrate including a silicon substrate having a supply port for supplying liquid is provided. The method includes: forming an etching mask layer on a surface of the silicon substrate, the etching mask layer having an opening in a portion corresponding to the supply port; forming a first recess in the surface of the silicon substrate by anisotropically etching the silicon substrate through the opening in the etching mask layer; forming a second recess that extends toward the other surface of the silicon substrate, in a surface of the first recess in the silicon substrate; and forming the supply port by anisotropically etching the silicon substrate from the surface provided with the second recess. | 03-12-2009 |
| 20090302502 | PROCESS OF PRODUCING LIQUID DISCHARGE HEAD - Provided is a process of producing a liquid discharge head having a substrate, a passage-forming member, and a patterned layer. The process includes providing a resin layer on a substrate; providing a resist pattern on the resin layer for patterning the resin layer; forming a patterned layer by patterning the resin layer using the resist pattern as a mask; providing a layer for forming a passage pattern having a shape of passage on the resist pattern lying on the patterned layer; forming a passage pattern by patterning the layer for forming a passage pattern; removing the resist pattern; providing a passage-forming member so as to cover the passage pattern and the patterned layer; and removing the passage pattern to give the passage. | 12-10-2009 |
| 20110107598 | LIQUID EJECTION HEAD AND METHOD FOR MANUFACTURING LIQUID EJECTION HEAD - A liquid ejection head and a method of forming the same. The liquid ejection head includes a substrate, an ejection port, a liquid channel, and a supply port. The substrate has, above one side thereof, an energy generating element configured to generate energy used to eject liquid. The ejection port, from which a liquid is ejected, is located at a position corresponding to the energy generating element. The liquid channel communicates with the ejection port and penetrates the substrate from the one side to another side of the substrate. The supply port communicates with the liquid channel. The substrate has a projecting layer extending inward of an inner peripheral portion of an opening in the supply port in the one side, and the projecting layer and the energy generating element are formed of the same material. | 05-12-2011 |
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| 20110094445 | APPARATUS FOR MANUFACTURING THIN-FILM SOLAR CELL - An apparatus for manufacturing a thin film solar cell of the present invention includes a film forming chamber in which a film is formed on a film formation face of a substrate using a CVD method; an electrode unit including a cathode unit having cathodes to which voltages are to be applied arranged on both sides thereof, and a pair of anodes each of which is arranged to face a different one of the cathodes, at a separation distance therefrom; a mask for covering a peripheral edge portion of the substrate; and a discharge duct installed around the cathode unit. A film formation space is formed between the cathode unit and the substrate installed on the side of the anode, an evacuation passage is formed between the mask and the cathode unit, the discharge duct and the film formation space are connected together via the evacuation passage, and a film forming gas introduced into the film formation space is evacuated from the discharge duct through the evacuation passage. | 04-28-2011 |
| 20110094446 | THIN-FILM SOLAR CELL MANUFACTURING APPARATUS - A thin-film solar cell manufacturing apparatus, includes: a film formation space in which a substrate is disposed so that a film formation face of the substrate is substantially parallel to a direction of gravitational force, and in which a desired film is formed on the film formation face by a CVD method; a cathode unit including cathodes to which a voltage is applied, and two or more power feeding points, the cathodes being disposed at both sides of the cathode unit; and an anode distantly disposed so as to face the cathodes that are disposed at both sides of the cathode unit. | 04-28-2011 |
| 20110100296 | FILM FORMATION APPARATUS - A film formation apparatus includes: a film forming chamber in which a desired film is formed on a substrate in a vacuum; a loading-ejecting chamber fixed to the film forming chamber with a first opening-closing section interposed therebetween, being capable of reducing a pressure inside the loading-ejecting chamber so as to form a vacuum atmosphere; a second opening-closing section provided at a face opposite to the face of the loading-ejecting chamber on which the first opening-closing section is provided; and a carrier holding the substrate so that a film formation face of the substrate is substantially parallel to a direction of gravitational force, wherein the carrier or the substrate passes through the second opening-closing section, and is transported to the loading-ejecting chamber and is transported from the loading-ejecting chamber; a plurality of carriers is disposed in the loading-ejecting chamber in parallel to each other; the plurality of carriers is transported in parallel between the loading-ejecting chamber and the film forming chamber; and a film is simultaneously formed on a plurality of substrates that is held by the plurality of carriers in the film forming chamber. | 05-05-2011 |
| 20110100297 | THIN-FILM SOLAR CELL MANUFACTURING APPARATUS - A thin-film solar cell manufacturing apparatus includes a film forming chamber that is evacuated to a reduced pressure and forms a film on a substrate using a CVD method; a loading-ejecting chamber that is connected to the film forming chamber via a first opening-closing part and that is switchable between atmospheric pressure and reduced pressure; transfer rail that is laid at the film forming chamber and the loading-ejecting chamber; a carrier that holds the substrate and moves along the transfer rail; and a carrier transfer mechanism that transfers the carrier, wherein, the carrier transfer mechanism is provided in the loading-ejecting chamber to transfer the carrier between the film forming chamber and the loading-ejecting chamber. | 05-05-2011 |
| 20110107969 | APPARATUS FOR MANUFACTURING THIN-FILM SOLAR CELL - An apparatus for manufacturing a thin film solar cell of the present invention has a film forming chamber in which a substrate is arranged so that the film formation face of the substrate is substantially parallel to the direction of gravitational force and a film is formed on the film formation face by a CVD method; an electrode unit including a cathode unit having cathodes to which voltages are to be applied arranged on both sides thereof, and a pair of anodes each of which is arranged to face the cathodes, respectively, at a separation distance therefrom; and a conveying part which supports the substrate and conveys the substrate to between the cathode and the anode facing the cathode. The separation distance is variable. | 05-12-2011 |
| 20110120370 | THIN-FILM SOLAR CELL MANUFACTURING APPARATUS - A thin-film solar cell manufacturing apparatus includes a film forming chamber which stores a substrate; and an electrode unit which performs film formation using a CVD method on the substrate in the film forming chamber. The electrode unit has an anode and a cathode; and a side wall portion which holds the anode and the cathode and forms a part of a wall portion of the film forming chamber, and is attachable to and detachable from the film forming chamber. | 05-26-2011 |
| 20110189384 | THIN-FILM SOLAR CELL MANUFACTURING APPARATUS - A thin-film solar cell manufacturing apparatus includes a film forming chamber that is evacuated to a reduced pressure and forms a film on a substrate using a CVD method; a loading-ejecting chamber that is connected to the film forming chamber via a first opening-closing part and that is switchable between atmospheric pressure and reduced pressure; a first carrier that holds a pre-processed substrate; and a second carrier that holds a post-processed substrate, wherein the loading-ejecting chamber simultaneously stores the first carrier and the second carrier. | 08-04-2011 |
