Patents by Inventor Juichi Uno
Juichi Uno 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: 12492917Abstract: A rotation detection device includes: a first comparator configured to generate a first digital signal that indicates a magnitude relationship between a first voltage, which is output from a potentiometer in accordance with an amount of rotation of a rotating body, and a threshold voltage; a second comparator configured to generate a second digital signal that indicates a magnitude relationship between a second voltage, which is obtained by dividing the first voltage, and the threshold voltage; and a controller configured to detect a direction of rotation and a number of complete turns of the rotating body based on transition edges of the first digital signal and transition edges of the second digital signal. By this means, even when the rotating body rotates while not being driven, it is possible to detect the number of complete turns of the rotating body.Type: GrantFiled: June 3, 2022Date of Patent: December 9, 2025Assignee: MINEBEA MITSUMI Inc.Inventors: Jumpei Fujii, Juichi Uno, Haruka Miyaji
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Publication number: 20240369381Abstract: A rotation detection device includes: a first comparator configured to generate a first digital signal that indicates a magnitude relationship between a first voltage, which is output from a potentiometer in accordance with an amount of rotation of a rotating body, and a threshold voltage; a second comparator configured to generate a second digital signal that indicates a magnitude relationship between a second voltage, which is obtained by dividing the first voltage, and the threshold voltage; and a controller configured to detect a direction of rotation and a number of complete turns of the rotating body based on transition edges of the first digital signal and transition edges of the second digital signal. By this means, even when the rotating body rotates while not being driven, it is possible to detect the number of complete turns of the rotating body.Type: ApplicationFiled: June 3, 2022Publication date: November 7, 2024Inventors: Jumpei FUJII, Juichi UNO, Haruka MIYAJI
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Publication number: 20240247927Abstract: A rotation detection device includes: a comparator configured to generate a digital signal that indicates a magnitude relationship between a voltage, which is output from a potentiometer in accordance with an amount of rotation of a rotating body, and a threshold voltage; and a controller configured to detect a number of complete turns of the rotating body based on transition edges of the digital signal. By this means, the number of complete turns of the rotating body can be detected through a simple process, so that the size of the rotation detection program can be reduced.Type: ApplicationFiled: May 23, 2022Publication date: July 25, 2024Inventors: Jumpei FUJII, Juichi UNO
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Patent number: 10432118Abstract: A motor control system, in some embodiments, comprises: a voltage divider circuit having an output node, a voltage on said output node representing a desired motor rotation direction; control logic configured to receive an indication of said voltage; and a motor controller coupled to the control logic, wherein, if said indication of the voltage on the output node falls outside of a predetermined range, the control logic is configured to issue a motor stop signal to the motor controller indicating that at least one resistor of the voltage divider circuit is defective or is missing from the voltage divider circuit.Type: GrantFiled: November 8, 2018Date of Patent: October 1, 2019Assignee: SEMICONDUCTOR COMPONENTS INDUSTRIES, LLCInventors: Takashi Ogawa, Fumio Kumazawa, Satoshi Yokoo, Juichi Uno
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Publication number: 20190074783Abstract: A motor control system, in some embodiments, comprises: a voltage divider circuit having an output node, a voltage on said output node representing a desired motor rotation direction; control logic configured to receive an indication of said voltage; and a motor controller coupled to the control logic, wherein, if said indication of the voltage on the output node falls outside of a predetermined range, the control logic is configured to issue a motor stop signal to the motor controller indicating that at least one resistor of the voltage divider circuit is defective or is missing from the voltage divider circuit.Type: ApplicationFiled: November 8, 2018Publication date: March 7, 2019Applicant: SEMICONDUCTOR COMPONENTS INDUSTRIES, LLCInventors: Takashi OGAWA, Fumio KUMAZAWA, Satoshi YOKOO, Juichi UNO
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Patent number: 10158308Abstract: A motor control system, in some embodiments, comprises: a voltage divider circuit having an output node, a voltage on said output node representing a desired motor rotation direction; control logic configured to receive an indication of said voltage; and a motor controller coupled to the control logic, wherein, if said indication of the voltage on the output node falls outside of a predetermined range, the control logic is configured to issue a motor stop signal to the motor controller indicating that at least one resistor of the voltage divider circuit is defective or is missing from the voltage divider circuit.Type: GrantFiled: June 17, 2016Date of Patent: December 18, 2018Assignee: SEMICONDUCTOR COMPONENTS INDUSTRIES, LLCInventors: Takashi Ogawa, Fumio Kumazawa, Satoshi Yokoo, Juichi Uno
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Publication number: 20170366122Abstract: A motor control system, in some embodiments, comprises: a voltage divider circuit having an output node, a voltage on said output node representing a desired motor rotation direction; control logic configured to receive an indication of said voltage; and a motor controller coupled to the control logic, wherein, if said indication of the voltage on the output node falls outside of a predetermined range, the control logic is configured to issue a motor stop signal to the motor controller indicating that at least one resistor of the voltage divider circuit is defective or is missing from the voltage divider circuit.Type: ApplicationFiled: June 17, 2016Publication date: December 21, 2017Applicant: SEMICONDUCTOR COMPONENTS INDUSTRIES, LLCInventors: Takashi OGAWA, Fumio KUMAZAWA, Satoshi YOKOO, Juichi UNO
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Patent number: 7570026Abstract: A protection circuit comprising: a second circuit to be connected to a first circuit, the first circuit including: a first reference voltage generating circuit configured to generate a first reference voltage; a first comparing voltage generating circuit configured to generate a first comparing voltage; a first comparator configured to output a first comparing output voltage; and a first control circuit, the second circuit including: a second comparing voltage generating circuit configured to be input with the first reference voltage and to generate a second comparing voltage to be compared with a battery voltage based on the first reference voltage; a second comparator configured to output a second comparing output voltage corresponding to relation in magnitude between the second comparing voltage and the battery voltage; and a second control circuit configured to control the supply of the charging voltage to the secondary battery corresponding to the second comparing output voltage.Type: GrantFiled: June 13, 2007Date of Patent: August 4, 2009Assignee: Sanyo Electric Co., Ltd.Inventor: Juichi Uno
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Publication number: 20080310064Abstract: A protection circuit comprising: a second circuit to be connected to a first circuit, the first circuit including: a first reference voltage generating circuit configured to generate a first reference voltage; a first comparing voltage generating circuit configured to generate a first comparing voltage a first comparator configured to output a first comparing output voltage and a first control circuit the second circuit including: a second comparing voltage generating circuit configured to be input with the first reference voltage and to generate a second comparing voltage to be compared with a battery voltage based on the first reference voltage; a second comparator configured to output a second comparing output voltage corresponding to relation in magnitude between the second comparing voltage and the battery voltage; and a second control circuit configured to control the supply of the charging voltage to the secondary battery corresponding to the second comparing output voltage.Type: ApplicationFiled: June 13, 2007Publication date: December 18, 2008Applicant: Sanyo Electric Co., Ltd.Inventor: Juichi Uno
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Patent number: 7049772Abstract: A motor drive circuit which have a first source-side transistor and a first sink-side transistor connected in series; a second source-side transistor and a second sink-side transistor connected in series; and a control circuit supplying the first source-side transistor, the first sink-side transistor, the second source-side transistor, and the second sink-side transistor with control signals for supplying a current in one direction or the opposite direction to a coil connected between a connection point of the first source-side transistor and the first sink-side transistor and a connection point of the second source-side transistor and the second sink-side transistor based on a plurality of input signals that complementarily change at a predetermined frequency. The control circuit, during each time period between timings of complementary switching of the plurality of input signals, outputs control signals for turning on and off the transistors in a predetermined manner.Type: GrantFiled: July 29, 2004Date of Patent: May 23, 2006Assignee: Sanyo Electric Co., Ltd.Inventors: Juichi Uno, Kazuyoshi Ishikawa
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Publication number: 20050029973Abstract: A motor drive circuit which have a first source-side transistor and a first sink-side transistor connected in series; a second source-side transistor and a second sink-side transistor connected in series; and a control circuit supplying the first source-side transistor, the first sink-side transistor, the second source-side transistor, and the second sink-side transistor with control signals for supplying a current in one direction or the opposite direction to a coil connected between a connection point of the first source-side transistor and the first sink-side transistor and a connection point of the second source-side transistor and the second sink-side transistor based on a plurality of input signals that complementarily change at a predetermined frequency. The control circuit, during each time period between timings of complementary switching of the plurality of input signals, outputs control signals for turning on and off the transistors in a predetermined manner.Type: ApplicationFiled: July 29, 2004Publication date: February 10, 2005Inventors: Juichi Uno, Kazuyoshi Ishikawa