Yonemori, JP
Kazuko Yonemori, Kanagawa JP
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20120142714 | BICYCLIC COMPOUND - The present invention provides a compound having an ACC inhibitory action, which is useful as an agent for the prophylaxis or treatment of obesity, diabetes and the like, and having superior efficacy. | 06-07-2012 |
20140163001 | HETEROCYCLIC COMPOUND - Provided is a heterocyclic compound having an RORĪ³t inhibitory activity. A compound represented by the formula (I): | 06-12-2014 |
20140243310 | BICYCLIC COMPOUND - The present invention provides a compound represented by the formula (I): | 08-28-2014 |
Kei Yonemori, Hiroshima JP
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20100214055 | ELECTRIC VEHICLE INVERTER APPARATUS AND PROTECTION METHOD THEREFOR - In an electric vehicle inverter apparatus | 08-26-2010 |
Kei Yonemori, Hiroshima-Shi JP
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20080315803 | HYBRID ELECTRIC VEHICLE - A hybrid electric vehicle includes, in one example, a motor-generator driven by an engine to generate alternating current, wherein the motor-generator is further configured to start the engine, a motor for driving the vehicle, a diode rectifier to rectify alternating current generated by the motor-generator, an inverter connected to a feed circuit between the diode rectifier and the motor to convert direct current in the feed circuit into alternating current, a power supply connected to a line connecting the diode rectifier with the inverter, a first feed circuit to supply current to the motor to drive the vehicle through the diode rectifier and the inverter in series a second feed circuit to connect the motor-generator with the power supply while bypassing at least the diode rectifier, and an alternating current converter provided in the second feed circuit. | 12-25-2008 |
20080315817 | CONTROL SYSTEM FOR A HYBRID ELECTRIC VEHICLE AND A METHOD FOR CONTROLLING A HYBRID ELECTRIC VEHICLE - A control system and method for a hybrid electric vehicle. One example control system includes a current calculating module to calculate a current, the current being at least one of a current to drive a motor of the vehicle and a current generated by the motor, and a feed controller to selectively implement a first mode when the calculated current is below a predetermined current value and to selectively implement a second mode when the calculated current is more than the predetermined current value, wherein either the first feed circuit or the second feed circuit is used in the first mode and both the first feed circuit and the second feed circuit are used in the second mode. | 12-25-2008 |
20090143930 | HYBRID ELECTRIC VEHICLE - A hybrid electric vehicle and method for controlling a hybrid electric vehicle are disclosed. The method may include determining a vehicle operating condition of a hybrid electric vehicle, determining at least a phase of a primary alternating current, determining at least a phase of a driving current to be supplied to a motor of the hybrid electric vehicle on the basis of said operating condition, determining whether or not a phase of said primary alternating current is the same as a phase of a driving current, and supplying at least part of said primary alternating current from a generator to the motor via a second feed circuit when the phase of said primary alternating current is the same as the phase of said driving current. | 06-04-2009 |
20100082191 | MOTOR CONTROL METHOD FOR ELECTRIC-POWERED VEHICLE AND DRIVING APPARATUS FOR ELECTRIC-POWERED VEHICLE - Disclosed is a motor control method for an electric-powered vehicle ( | 04-01-2010 |
Shigeaki Yonemori, Kanagawa JP
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20120059137 | MONODISPERSE CHLOROMETHYLSTYRENE POLYMER AND PRODUCING METHOD THEREOF - Provided is a monodisperse polymer of chloromethylstyrene as a bifunctional compound. Chloromethylstyrene is purified to a purity of at least 99% and polymerized preferably using a RAFT reagent. | 03-08-2012 |
Tatsuya Yonemori, Misato-Shi JP
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20080259391 | RECORDING SYSTEM, CONTROL PROGRAM, AND RECORDING DEVICE - Recording data generated by a recording data generation PC ( | 10-23-2008 |
Tsuyoshi Yonemori, Osaka JP
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20090151377 | Refrigeration System and Refrigeration System Analyzer - In a refrigeration system ( | 06-18-2009 |
20100244863 | FLUID SENSOR, REFRIGERANT LEAKAGE DETECTION DEVICE, REFRIGERATION SYSTEM, AND REFRIGERANT LEAKAGE DETECTION METHOD - It is possible to detect refrigerant leakage while pinpointing the location where refrigerant leakage is occurring in a refrigerant circuit of a refrigeration system. A fluid sensor ( | 09-30-2010 |
20110174059 | LEAKAGE DIAGNOSIS APPARATUS, LEAKAGE DIAGNOSIS METHOD, AND REFRIGERATION APPARATUS - A leakage diagnosis apparatus for diagnosing presence/absence of refrigerant leakage in a refrigerant circuit performing a refrigeration cycle, wherein refrigerant leakage diagnosis using the amount of refrigerant exergy loss in a circuit component of the refrigerant circuit is realized. In a leakage diagnosis apparatus, an exergy calculation section calculates a leakage index value which changes in accordance with the amount of refrigerant leaking out of a refrigerant circuit based on the amount of refrigerant exergy loss in the circuit component. Then, a leakage determination section determines whether there is refrigerant leakage in the refrigerant circuit based on the leakage index value calculated by the exergy calculation section. | 07-21-2011 |
Yuuichi Yonemori, Tokyo JP
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20100302238 | IMAGE GENERATION SYSTEM, IMAGE GENERATION METHOD, AND COMPUTER PROGRAM PRODUCT - An image generation system includes a character control section, a virtual camera control section, an image generation section, and a motion mode switch section. The motion mode switch section switches a motion mode of a character from a free-move mode to a battle mode when an encounter event between the character and another character has occurred in the free-move mode, the free-move mode being a mode in which the character moves on a field in an object space, and the battle mode being a mode in which the character battles the other character. The character control section moves the character on the field in a direction indicated by direction instruction information from a direction instruction section of an operation section in the free-move mode, and causes the character to make a battle motion indicated by the direction instruction information from the direction instruction section in the battle mode. | 12-02-2010 |