Patents by Inventor Yasuyuki Hatsuda
Yasuyuki Hatsuda has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9403446Abstract: A driving-force controller for an electric vehicle including at least two motors that independently drive left and right wheels, includes a detector that detects driving operation by a driver, and a controller that calculates a demand torque Tr of the driver, the torque difference ?T applied to the left and right wheels during cornering, left and right torque-difference maintaining torques TLK and TRK of the motors when generating the demand torque Tr while maintaining the torque difference ?T, and controls the motors based on the torque-difference maintaining torques TLK and TRK. The controller determines the priorities of a demand torque mode that generates the demand torque Tr and a torque difference mode that generates the torque difference ?T depending on the driving operation detected by the detector.Type: GrantFiled: May 27, 2015Date of Patent: August 2, 2016Assignee: MITSUBISHI JIDOSHA KOGYO KABUSHIKI KAISHAInventors: Akira Hashizaka, Toshiyuki Matsumi, Hiroaki Miyamoto, Hideaki Taniguchi, Takanori Sugimoto, Masato Nishida, Toshifumi Mizui, Sosuke Nanbu, Yasuyuki Hatsuda, Tetsuya Furuichi, Ryosuke Koga
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Patent number: 9266467Abstract: A stop lamp lighting control device for an electric vehicle having an electric regenerative braking system includes a calculation unit that converts a first deceleration threshold value for turning on a stop lamp or a second deceleration threshold value for turning off the stop lamp to a first regenerative torque threshold value for turning-on the stop lamp or a second regenerative torque threshold value for turning-off the stop lamp by calculation assumed that a weight of the vehicle is a curb weight or a gross vehicle weight, and a determination unit that performs a comparison between a regenerative torque value generated by the electric regenerative braking system and the first regenerative torque threshold value or the second regenerative torque threshold value and controls the stop lamp to be turned on or turned off based on the comparison result.Type: GrantFiled: December 24, 2014Date of Patent: February 23, 2016Assignee: MITSUBISHI JIDOSHA KOGYO KABUSHIKI KAISHAInventors: Toshifumi Mizui, Toshiyuki Matsumi, Hiroaki Miyamoto, Hideaki Taniguchi, Takanori Sugimoto, Yasuyuki Hatsuda, Akira Hashizaka, Masato Nishida, Sosuke Nanbu
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Patent number: 9266466Abstract: A stop lamp lighting control device for an electric vehicle having an electric regenerative braking system, includes, a first calculation unit that converts a first deceleration threshold value to a first regenerative torque threshold value with a curb weight, a second calculation unit that converting a second deceleration threshold value to a second regenerative torque threshold value with a gross vehicle weight, a third calculation unit that calculates a third regenerative torque threshold value, and a determination unit that controls the stop lamp to be turned on when a regenerative torque value exceeds the first regenerative torque threshold value, the stop lamp to be turned off when the regenerative torque value is equal to or smaller than the second regenerative torque threshold value, and the stop lamp to be turned off when a given state continues.Type: GrantFiled: December 24, 2014Date of Patent: February 23, 2016Assignee: MITSUBISHI JIDOSHA KOGYO KABUSHIKI KAISHAInventors: Toshifumi Mizui, Toshiyuki Matsumi, Hiroaki Miyamoto, Hideaki Taniguchi, Takanori Sugimoto, Yasuyuki Hatsuda, Akira Hashizaka, Masato Nishida, Sosuke Nanbu
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Publication number: 20150352978Abstract: A driving-force controller for an electric vehicle including at least two motors that independently drive left and right wheels, includes a detector that detects driving operation by a driver, and a controller that calculates a demand torque Tr of the driver, the torque difference ?T applied to the left and right wheels during cornering, left and right torque-difference maintaining torques TLK and TRK of the motors when generating the demand torque Tr while maintaining the torque difference ?T, and controls the motors based on the torque-difference maintaining torques TLK and TRK. The controller determines the priorities of a demand torque mode that generates the demand torque Tr and a torque difference mode that generates the torque difference ?T depending on the driving operation detected by the detector.Type: ApplicationFiled: May 27, 2015Publication date: December 10, 2015Applicant: MITSUBISHI JIDOSHA KOGYO KABUSHIKI KAISHAInventors: Akira HASHIZAKA, Toshiyuki MATSUMI, Hiroaki MIYAMOTO, Hideaki TANIGUCHI, Takanori SUGIMOTO, Masato NISHIDA, Toshifumi MIZUI, Sosuke NANBU, Yasuyuki HATSUDA, Tetsuya FURUICHI, Ryosuke KOGA
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Publication number: 20150175062Abstract: A stop lamp lighting control device for an electric vehicle having an electric regenerative braking system includes a calculation unit that converts a first deceleration threshold value for turning on a stop lamp or a second deceleration threshold value for turning off the stop lamp to a first regenerative torque threshold value for turning-on the stop lamp or a second regenerative torque threshold value for turning-off the stop lamp by calculation assumed that a weight of the vehicle is a curb weight or a gross vehicle weight, and a determination unit that performs a comparison between a regenerative torque value generated by the electric regenerative braking system and the first regenerative torque threshold value or the second regenerative torque threshold value and controls the stop lamp to be turned on Or turned off based on the comparison result.Type: ApplicationFiled: December 24, 2014Publication date: June 25, 2015Applicant: MITSUBISHI JIDOSHA KOGYO KABUSHIKI KAISHAInventors: Toshifumi MIZUI, Toshiyuki MATSUMI, Hiroaki MIYAMOTO, Hideaki TANIGUCHI, Takanori SUGIMOTO, Yasuyuki HATSUDA, Akira HASHIZAKA, Masato NISHIDA, Sosuke NANBU
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Publication number: 20150175061Abstract: A stop lamp lighting control device for an electric vehicle having an electric regenerative braking system, includes, a first calculation unit that converts a first deceleration threshold value to a first regenerative torque threshold value with a curb weight, a second calculation unit that converting a second deceleration threshold value to a second regenerative torque threshold value with a gross vehicle weight, a third calculation unit that calculates a third regenerative torque threshold value, and a determination unit that controls the stop lamp to be turned on when a regenerative torque value exceeds the first regenerative torque threshold value, the stop lamp to be turned off when the regenerative torque value is equal to or smaller than the second regenerative torque threshold value, and the stop lamp to be turned off when a given state continues.Type: ApplicationFiled: December 24, 2014Publication date: June 25, 2015Applicant: MITSUBISHI JIDOSHA KOGYO KABUSHIKI KAISHAInventors: Toshifumi MIZUI, Toshiyuki MATSUMI, Hiroaki MIYAMOTO, Hideaki TANIGUCHI, Takanori SUGIMOTO, Yasuyuki HATSUDA, Akira HASHIZAKA, Masato NISHIDA, Sosuke NANBU
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Patent number: 9037372Abstract: An output torque control system includes a control unit which includes an acceleration mode detection unit and an output torque control unit. The acceleration mode detection unit selects a normal acceleration mode which includes output torque information indicating an increased amount of output torque of an electric motor as time elapses or a rapid acceleration mode which includes output torque information indicating the increased amount of output torque of the electric motor as time elapses more largely than in the normal acceleration mode based on a result of a detection by a depressing speed detection unit. The output torque control unit selects one of the output torque information which corresponds to the result of the detection by the acceleration mode detection unit to control the output torque produced by the electric motor based on the selected output torque information.Type: GrantFiled: March 6, 2012Date of Patent: May 19, 2015Assignee: MITSUBISHI JIDOSHA KOGYO KABUSHIKI KAISHAInventors: Akira Hashizaka, Yoshiaki Sano, Hiroaki Miyamoto, Toshiyuki Matsumi, Norihiko Hatsumi, Takanori Sugimoto, Yasuyuki Hatsuda, Noritaka Terakawa, Tsuyoshi Takeo, Yutaka Nakagi
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Patent number: 8956266Abstract: A vehicle driving force control device includes: a brake unit configured to generate a brake force of a vehicle; a stroke amount detecting unit configured to detect a stroke amount of a brake pedal of the vehicle; a monitoring unit configured to monitor whether generation of the brake force of the brake unit is abnormal; and a creep torque controlling unit configured to increase a reduction amount of a creep torque of the vehicle as the stroke amount increases, when the monitoring unit determines that the generation of the brake force in the brake unit is abnormal.Type: GrantFiled: October 19, 2011Date of Patent: February 17, 2015Assignee: Mitsubishi Jidosha Kogyo Kabushiki KaishaInventors: Toshiya Oue, Kazufumi Hayashikawa, Katsutoshi Nagura, Keisuke Imoto, Hiroaki Miyamoto, Yasuyuki Hatsuda, Takanori Sugimoto, Norihiko Hatsumi
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Patent number: 8947025Abstract: A regeneration control device of an electrically powered vehicle includes a motor generator which performs electric power regeneration by braking a driving wheel of the electrically powered vehicle, and a battery to which electric power regenerated by the motor generator is supplied. A monitoring unit includes at least one of a charging rate detection unit configured to detect a charging rate of the battery and a voltage value detection unit configured to detect a voltage value of the battery. A control unit controls the electric power regeneration of the motor generator according to at least one of the charging rate and the voltage value of the battery detected by the monitoring unit. The control unit is configured to decrease regenerative electric current of the motor generator as at least one of the charging rate and the voltage value is increased.Type: GrantFiled: July 13, 2012Date of Patent: February 3, 2015Assignee: Mitsubishi Jidosha Kogyo Kabushiki KaishaInventors: Norihiko Hatsumi, Yoshiaki Sano, Toshiyuki Matsumi, Takanori Sugimoto, Hiroaki Miyamoto, Yasuyuki Hatsuda, Akira Hashizaka, Masanori Watanabe, Nobuaki Ohta
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Patent number: 8694188Abstract: A motor torque control device of an electrically-driven vehicle equipped with a motor serving as a driving source, is configured to limit an output of the motor when both a brake pedal and an accelerator pedal of the electrically-driven vehicle are stepped. A motor limit torque, which is an upper limit value of a command torque for the motor, is changed depending on a vehicle velocity of the electrically-driven vehicle detected by a vehicle velocity detecting unit and a stepping amount of the brake pedal detected by a brake pedal stepping amount detecting unit.Type: GrantFiled: October 18, 2011Date of Patent: April 8, 2014Assignee: Mitsubishi Jidosha Kogyo Kabushiki KaishaInventors: Hiroaki Miyamoto, Yoshiaki Sano, Akira Hashizaka, Yasuyuki Hatsuda, Toshiyuki Matsumi, Norihiko Hatsumi, Takanori Sugimoto
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Patent number: 8439795Abstract: In a vehicle that generates creep torque using an electric motor, a controlling means that causes, on the basis of the results of the detecting by the vehicle speed detecting means and the braking operation detecting means, the electric motor to generate the creep torque, wherein if the brake is operated when the creep torque is generated, the controlling means decreases the creep torque by a first level, if the brake is not operated when the creep torque is generated, the controlling means increases or decrease the creep torque in a level range on the basis of the speed of the vehicle detected by the vehicle speed detecting means, and the first level is a decreasing level larger than a possible maximum decreasing level in the level range.Type: GrantFiled: August 15, 2011Date of Patent: May 14, 2013Assignee: Mitsubishi Jidosha Kogyo Kabushiki KaishaInventors: Hiroaki Miyamoto, Yoshiaki Sano, Takanori Sugimoto, Norihiko Hatsumi, Yasuyuki Hatsuda, Akira Hashizaka, Toshiyuki Matsumi
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Publication number: 20130015791Abstract: A regeneration control device of an electrically powered vehicle includes a motor generator which performs electric power regeneration by braking a driving wheel of the electrically powered vehicle, and a battery to which electric power regenerated by the motor generator is supplied. Monitoring means includes at least one of charging rate detection means configured to detect a charging rate of the battery and voltage value detection means configured to detect a voltage value of the battery. Control means controls the electric power regeneration of the motor generator according to at least one of the charging rate and the voltage value of the battery detected by the monitoring means. The control means is configured to decrease regenerative electric current of the motor generator as at least one of the charging rate and the voltage value is increased.Type: ApplicationFiled: July 13, 2012Publication date: January 17, 2013Inventors: Norihiko HATSUMI, Yoshiaki Sano, Toshiyuki Matsumi, Takanori Sugimoto, Hiroaki Miyamoto, Yasuyuki Hatsuda, Akira Hashizaka, Masanori Watanabe, Nobuaki Ohta
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Publication number: 20120232735Abstract: An output torque control system includes a control unit which includes an acceleration mode detection unit and an output torque control unit. The acceleration mode detection unit selects a normal acceleration mode which includes output torque information indicating an increased amount of output torque of an electric motor as time elapses or a rapid acceleration mode which includes output torque information indicating the increased amount of output torque of the electric motor as time elapses more largely than in the normal acceleration mode based on a result of a detection by a depressing speed detection unit. The output torque control unit selects one of the output torque information which corresponds to the result of the detection by the acceleration mode detection unit to control the output torque produced by the electric motor based on the selected output torque information.Type: ApplicationFiled: March 6, 2012Publication date: September 13, 2012Inventors: Akira Hashizaka, Yoshiaki Sano, Hiroaki Miyamoto, Toshiyuki Matsumi, Norihiko Hatsumi, Takanori Sugimoto, Yasuyuki Hatsuda, Noritaka Terakawa, Tsuyoshi Takeo, Yutaka Nakagi
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Publication number: 20120100958Abstract: A vehicle driving force control device includes: a brake unit configured to generate a brake force of a vehicle; a stroke amount detecting unit configured to detect a stroke amount of a brake pedal of the vehicle; a monitoring unit configured to monitor whether generation of the brake force of the brake unit is abnormal; and a creep torque controlling unit configured to increase a reduction amount of a creep torque of the vehicle as the stroke amount increases, when the monitoring unit determines that the generation of the brake force in the brake unit is abnormal.Type: ApplicationFiled: October 19, 2011Publication date: April 26, 2012Inventors: Toshiya OUE, Kazufumi HAYASHIKAWA, Katsutoshi NAGURA, Keisuke IMOTO, Hiroaki MIYAMOTO, Yasuyuki HATSUDA, Takanori SUGIMOTO, Norihiko HATSUMI
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Publication number: 20120095634Abstract: A motor torque control device of an electrically-driven vehicle equipped with a motor serving as a driving source, is configured to limit an output of the motor when both a brake pedal and an accelerator pedal of the electrically-driven vehicle are stepped. A motor limit torque, which is an upper limit value of a command torque for the motor, is changed depending on a vehicle velocity of the electrically-driven vehicle detected by a vehicle velocity detecting unit and a stepping amount of the brake pedal detected by a brake pedal stepping amount detecting unit.Type: ApplicationFiled: October 18, 2011Publication date: April 19, 2012Inventors: Hiroaki MIYAMOTO, Yoshiaki SANO, Akira HASHIZAKA, Yasuyuki HATSUDA, Toshiyuki MATSUMI, Norihiko HATSUMI, Takanori SUGIMOTO
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Publication number: 20120071296Abstract: In a vehicle that generates creep torque using an electric motor, a controlling means that causes, on the basis of the results of the detecting by the vehicle speed detecting means and the braking operation detecting means, the electric motor to generate the creep torque, wherein if the brake is operated when the creep torque is generated, the controlling means decreases the creep torque by a first level, if the brake is not operated when the creep torque is generated, the controlling means increases or decrease the creep torque in a level range on the basis of the speed of the vehicle detected by the vehicle speed detecting means, and the first level is a decreasing level larger than a possible maximum decreasing level in the level range.Type: ApplicationFiled: August 15, 2011Publication date: March 22, 2012Applicant: MITSUBISHI JIDOSHA KOGYO KABUSHIKI KAISHAInventors: Hiroaki MIYAMOTO, Yoshiaki SANO, Takanori SUGIMOTO, Norihiko HATSUMI, Yasuyuki HATSUDA, Akira HASHIZAKA, Toshiyuki MATSUMI
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Patent number: 7712303Abstract: A degradation estimating apparatus for an unburned fuel component adsorption catalyst, which is connected with an internal combustion engine and has an unburned fuel component adsorbent and an oxygen storage component is provided. The apparatus includes a degradation estimating unit for making estimation for a degradation of the unburned fuel component adsorption catalyst on the basis of a first term and a second term. The first term is from the cancellation of the fuel supply to detecting a variation of an upstream side air-fuel ratio occurring due to the increase of the reductant quantity in the exhaust gas. The second term is from the cancellation of the fuel supply to detecting of a variation of the downstream side air-fuel ratio due to an increase of the reductant quantity.Type: GrantFiled: April 20, 2006Date of Patent: May 11, 2010Assignee: Mitsubishi Jidosha Kogyo Kabushiki KaishaInventors: Hiroshi Tanada, Yasuyuki Hatsuda, Takehisa Fujita, Takaharu Hashimoto, Keisuke Tashiro, Mizuki Anai, Mitsutaka Kojima, Masayuki Yamashita, Katsuhiko Miyamoto
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Publication number: 20060236678Abstract: The present invention relates to a degradation estimating apparatus for an unburned fuel component adsorption catalyst, which is connected with an internal combustion engine and has an unburned fuel component adsorbent and an oxygen storage component. The apparatus includes a degradation estimating unit for making estimation for a degradation of the unburned fuel component adsorption catalyst on the basis of a first term and a second term. The first term that is from the cancellation of the fuel supply to detecting a variation of an upstream side air-fuel ratio occurring due to the increase of the reductant quantity in the exhaust gas. The second term that is from the cancellation of the fuel supply to detecting of a variation of the downstream side air-fuel ratio due to an increase of the reductant quantity.Type: ApplicationFiled: April 20, 2006Publication date: October 26, 2006Inventors: Hiroshi Tanada, Yasuyuki Hatsuda, Takehisa Fujita, Takaharu Hashimoto, Keisuke Tashiro, Mizuki Anai, Mitsutaka Kojima, Masayuki Yamashita, Katsuhiko Miyamoto
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Patent number: 4823753Abstract: Disclosed herein is an ignition timing controller for a sparing engine. The controller is equipped with a variable swirl forming device for changing over the state of swirling of air, which is flowing into an intake port, in accordance with the operation zone of the engine, so that an optimal control of ignition timing is assured even at the time of malfunction of the variable swirl forming device or during a transition period such as a delay in response by the variable swirl device.Type: GrantFiled: October 28, 1987Date of Patent: April 25, 1989Assignee: Mitsubishi Jidosha Kogyo Kabushiki KaishaInventors: Nobuaki Murakami, Yasuyuki Hatsuda