Patents by Inventor Yo-Chan Son
Yo-Chan Son 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: 9897469Abstract: A resolver rotatably coupled to a rotatable member is described, including a method for evaluating an output signal therefrom. This includes supplying an excitation signal to the resolver and dynamically determining corresponding output signals from the resolver. A plurality of datasets are determined, with each dataset including digitized states of the excitation signal supplied to the resolver and corresponding output signals from the resolver. The digitized states of the excitation signal and the corresponding output signals from the resolver for each of the datasets are arithmetically combined, and a moving average thereof is determined. A phase shift error term is determined based upon the moving average, and a phase shift is determined between the excitation signal and the corresponding output signals based upon the phase shift error term.Type: GrantFiled: January 26, 2016Date of Patent: February 20, 2018Assignee: GM Global Technology Operations LLCInventors: Rachel L. Hoener, Yo Chan Son, Milan Ashok Vadera
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Publication number: 20170317631Abstract: A powertrain system including an electric machine rotatably coupled to a crankshaft of an internal combustion engine via a belt is described, wherein the electric machine is disposed to generate torque. A method for controlling the electric machine includes monitoring rotational position of the electric machine, and periodically executing a speed observer to determine a rotational speed of the electric machine based upon the monitored rotational position of the electric machine. An acceleration observer is periodically executed to determine an acceleration rate, wherein the acceleration rate is determined based upon a time-based change in the rotational speed of the electric machine. A virtual inertia term is determined based upon the acceleration rate, and a torque compensation term is determined based upon the virtual inertia term and the acceleration rate. The electric machine is controlled to generate torque based upon the torque compensation term.Type: ApplicationFiled: April 27, 2016Publication date: November 2, 2017Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Young Joo Lee, Bon Ho Bae, Yo Chan Son
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Patent number: 9759737Abstract: A first counter is incremented when a first rotational speed sensing device detects a falling edge of one of the teeth of a single multi-tooth target wheel, a second counter is incremented when a second rotational speed sensing device detects a falling edge of one of the teeth, and a third counter is incremented when either of the first and second rotational speed sensing devices detects either of a rising edge and a falling edge of one of the teeth. A direction of rotation is determined based upon the third counter and a rotational speed of the rotatable member is determined based upon one of the first and second counters. The rotatable member is indicated to be at zero speed when the rotational speed is less than a threshold speed and the direction of rotation changes between a positive direction and a negative direction.Type: GrantFiled: December 4, 2014Date of Patent: September 12, 2017Assignee: GM Global Technology Operations LLCInventors: Leah Dunbar, Yo Chan Son, Martin E. Rosalik, Jr., Justin O. Nielsen
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Publication number: 20170227567Abstract: A device for monitoring a resolver disposed on a rotatable member is described herein, and includes a controller including a microprocessor circuit and an interface circuit connected to the resolver, wherein the microprocessor circuit includes a dual-core central processing unit (CPU), a pulse generator, a sigma-delta analog-to-digital converter (SDADC), a global memory device, an internal communication bus and a direct memory access device (DMA). The microprocessor circuit is disposed to control the pulse generator to generate an excitation pulse transferable to the excitation winding of the resolver, and control the SDADC to capture data from the secondary windings of the resolver and store the captured data in the memory buffer. A control routine is executed to detect an envelope for the captured data, and a rotor position for the resolver is determined based upon the detected envelope.Type: ApplicationFiled: February 4, 2016Publication date: August 10, 2017Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Yo Chan Son, Rachel L. Hoener, Milan Ashok Vadera
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Publication number: 20170211949Abstract: A resolver rotatably coupled to a rotatable member is described, including a method for evaluating an output signal therefrom. This includes supplying an excitation signal to the resolver and dynamically determining corresponding output signals from the resolver. A plurality of datasets are determined, with each dataset including digitized states of the excitation signal supplied to the resolver and corresponding output signals from the resolver. The digitized states of the excitation signal and the corresponding output signals from the resolver for each of the datasets are arithmetically combined, and a moving average thereof is determined. A phase shift error term is determined based upon the moving average, and a phase shift is determined between the excitation signal and the corresponding output signals based upon the phase shift error term.Type: ApplicationFiled: January 26, 2016Publication date: July 27, 2017Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Rachel L. Hoener, Yo Chan Son, Milan Ashok Vadera
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Publication number: 20170077854Abstract: A multi-phase electric machine electrically connected to an inverter is described. A method for controlling the electric machine includes determining an initial current command responsive to a torque command for the electric machine and determining an expected torque ripple associated with operation of the electric machine. A mitigation current command is determined based upon the torque command and the expected torque ripple, and the electric machine is dynamically controlled responsive to the initial current command and the mitigation current command.Type: ApplicationFiled: September 15, 2015Publication date: March 16, 2017Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Yo Chan Son, Brian A. Welchko, Dwarakanath V. Simili, Mohammad Faizul Momen, Aayush Gupta, Chia-Chou Yeh
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Patent number: 9517706Abstract: A method for controlling a powertrain system includes deactivating a motor disconnect clutch during vehicle operation. Motor speed is decreased to a first inactive speed threshold and an inverter circuit is controlled to an inactive state while monitoring the motor speed. The inverter circuit is deactivated, and when the motor speed decreases to a second inactive speed threshold, the inverter circuit is pulse-activated to operate the electric machine to increase motor speed to the first inactive speed threshold, and then deactivated. The inverter circuit is activated to increase the motor speed to synchronize with speed of the driveline prior to activating the motor disconnect clutch.Type: GrantFiled: May 12, 2015Date of Patent: December 13, 2016Assignee: GM Global Technology Operations LLCInventors: Min-Joong Kim, Yo Chan Son, Norman K. Bucknor, R Travis Schwenke
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Publication number: 20160332534Abstract: A method for controlling a powertrain system includes deactivating a motor disconnect clutch during vehicle operation. Motor speed is decreased to a first inactive speed threshold and an inverter circuit is controlled to an inactive state while monitoring the motor speed. The inverter circuit is deactivated, and when the motor speed decreases to a second inactive speed threshold, the inverter circuit is pulse-activated to operate the electric machine to increase motor speed to the first inactive speed threshold, and then deactivated. The inverter circuit is activated to increase the motor speed to synchronize with speed of the driveline prior to activating the motor disconnect clutch.Type: ApplicationFiled: May 12, 2015Publication date: November 17, 2016Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Min-Joong Kim, Yo Chan Son, Norman K. Bucknor, R. Travis Schwenke
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Patent number: 9283952Abstract: A powertrain system includes a torque machine rotatably coupled to an internal combustion engine via a pulley mechanism. The torque machine and the internal combustion engine are configured to transfer torque to a driveline and include a first sensor configured to monitor rotation of the engine and a second sensor configured to monitor rotation of the torque machine. The first sensor signally connects to a controller configured to control operation of the torque machine. A method for operating the powertrain system includes employing a signal output from the first sensor to monitor rotation of the torque machine to control operation thereof, said signal output from the first sensor adjusted for a pulley ratio of the pulley mechanism upon detecting a fault associated with the second sensor.Type: GrantFiled: July 16, 2013Date of Patent: March 15, 2016Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Bon Ho Bae, Jihoon Jang, Yo Chan Son, Silva Hiti
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Publication number: 20160054351Abstract: A first counter is incremented when a first rotational speed sensing device detects a falling edge of one of the teeth of a single multi-tooth target wheel, a second counter is incremented when a second rotational speed sensing device detects a falling edge of one of the teeth, and a third counter is incremented when either of the first and second rotational speed sensing devices detects either of a rising edge and a falling edge of one of the teeth. A direction of rotation is determined based upon the third counter and a rotational speed of the rotatable member is determined based upon one of the first and second counters. The rotatable member is indicated to be at zero speed when the rotational speed is less than a threshold speed and the direction of rotation changes between a positive direction and a negative direction.Type: ApplicationFiled: December 4, 2014Publication date: February 25, 2016Inventors: Leah Dunbar, Yo Chan Son, Martin E. Rosalik, JR., Justin O. Nielsen
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Publication number: 20150229249Abstract: A method can be used to control an electric motor-generator in order to avoid demagnetization of the permanent magnets in the electric motor-generator. The method includes the following steps: (a) receiving, via a control module, a torque command input; (b) determining, via the control module, an available torque of the electric motor-generator based, at least in part, on a rotor temperature and a magnitude of an electric current in the stator; (c) determining, via the control module, a torque command based, at least in part, on the available torque and the torque command input; and (d) commanding, via the control module, the electric motor-generator to generate torque in accordance with the torque command in order to avoid demagnetization of the permanent magnets.Type: ApplicationFiled: February 13, 2014Publication date: August 13, 2015Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Jihoon Jang, Yo Chan Son, Ronghui Li, Reynaldo Arturo Suazo Zepeda
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Patent number: 9106177Abstract: Methods and systems for controlling an electric motor are provided. An estimated rotor flux angular position error is generated based on estimated back electromotive force (EMF) values, and based on the estimated rotor flux angular position error, an estimated rotor flux angular position, an estimated electrical synchronous frequency and/or an estimated rotor frequency can be generated.Type: GrantFiled: January 5, 2012Date of Patent: August 11, 2015Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Yo Chan Son, Leah Dunbar, Silva Hiti
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Patent number: 9093933Abstract: A method for monitoring an electric motor employing a pulse-type rotational position sensor includes monitoring a signal output from the pulse-type rotational position sensor and a reference signal associated with a control signal for the electric motor. A position of a rotor of the electric motor coincident with the reference signal is determined based upon a nominal rotor position, a nominal rotational speed of the rotor and a time between the reference signal and a falling edge of the signal output from the pulse-type rotational position sensor. The electric motor is controlled based upon the position of the rotor.Type: GrantFiled: August 27, 2013Date of Patent: July 28, 2015Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Jihoon Jang, Yo Chan Son, Steven E. Schulz, Leah Dunbar, Terry Murrell, Daniel L. Kowalewski, Silva Hiti
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Publication number: 20150207444Abstract: A vehicle includes a motor having a rotor shaft, a transmission having a gear set directly or selectively connected to the motor, a resolver circuit, and a controller. The resolver circuit includes a resolver that measures an absolute position of the shaft, and a resolver-to-digital converter (RDC) which receives the absolute position and generates, via a tracking loop, a raw position signal. The controller includes recorded predetermined frequency characteristics of the RDC and method instructions which cause the controller to receive the raw position signal from the RDC and create a lookup table describing position wobble. The controller compensates for the position wobble at all rotational speeds of the rotor shaft by applying the predetermined frequency characteristics to the position wobble to derive a compensated position signal. The controller also uses the compensated position signal to control an operation of the electric motor.Type: ApplicationFiled: January 21, 2014Publication date: July 23, 2015Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Yo Chan Son, Bon Ho Bae, Steven E. Schulz, Leah Dunbar
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Patent number: 9000701Abstract: Methods, systems and apparatus are provided for generating voltage commands used to control operation of a permanent magnet machine. For example, a control system is provided that generates voltage command signals for controlling a permanent magnet machine during a transition from an initial operating condition to a final operating condition. The control system includes a processor configured to execute software instructions, and a memory configured to store software instructions accessible by the processor. The software instructions comprise a voltage command generator module. Based on an electrical angular frequency of the permanent magnet machine, and synchronous reference frame current signals, the voltage command generator module is configured to generate ramped voltage command signals that each change linearly in accordance with a slope during a transition period that is set to a rise time.Type: GrantFiled: December 4, 2012Date of Patent: April 7, 2015Assignee: GM Global Technology Operations LLCInventors: Steven E. Schulz, Bon Ho Bae, Konstantin S. Majarov, Yo Chan Son
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Publication number: 20150061563Abstract: A method for monitoring an electric motor employing a pulse-type rotational position sensor includes monitoring a signal output from the pulse-type rotational position sensor and a reference signal associated with a control signal for the electric motor. A position of a rotor of the electric motor coincident with the reference signal is determined based upon a nominal rotor position, a nominal rotational speed of the rotor and a time between the reference signal and a falling edge of the signal output from the pulse-type rotational position sensor. The electric motor is controlled based upon the position of the rotor.Type: ApplicationFiled: August 27, 2013Publication date: March 5, 2015Applicant: GM Global Technology Operations LLCInventors: JIHOON JANG, YO CHAN SON, STEVEN E. SCHULZ, LEAH DUNBAR, TERRY MURRELL, DANIEL L. KOWALEWSKI, SILVA HITI
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Publication number: 20150025720Abstract: A powertrain system includes a torque machine rotatably coupled to an internal combustion engine via a pulley mechanism. The torque machine and the internal combustion engine are configured to transfer torque to a driveline and include a first sensor configured to monitor rotation of the engine and a second sensor configured to monitor rotation of the torque machine. The first sensor signally connects to a controller configured to control operation of the torque machine. A method for operating the powertrain system includes employing a signal output from the first sensor to monitor rotation of the torque machine to control operation thereof, said signal output from the first sensor adjusted for a pulley ratio of the pulley mechanism upon detecting a fault associated with the second sensor.Type: ApplicationFiled: July 16, 2013Publication date: January 22, 2015Inventors: BON HO BAE, JIHOON JANG, YO CHAN SON, SILVA HITI
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Patent number: 8664901Abstract: Methods, systems and apparatus are provided for estimating electrical angular speed of a permanent magnet machine based on two-phase stationary reference frame feedback stator current samples, and a dimensionless gain (K) that is computed based on a sampling time (T) and machine parameters.Type: GrantFiled: February 15, 2012Date of Patent: March 4, 2014Assignee: GM Global Technology Operations LLCInventors: Milun Perisic, Yo Chan Son, Gabriel Gallegos-Lopez, Silva Hiti
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Publication number: 20130207579Abstract: Methods, systems and apparatus are provided for estimating electrical angular speed of a permanent magnet machine based on two-phase stationary reference frame feedback stator current samples, and a dimensionless gain (K) that is computed based on a sampling time (T) and machine parameters.Type: ApplicationFiled: February 15, 2012Publication date: August 15, 2013Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: MILUN PERISIC, YO CHAN SON, GABRIEL GALLEGOS-LOPEZ, SILVA HITI
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Patent number: 8487575Abstract: A temperature estimation controller and methods are provided for estimating stator winding temperature over a full range of motor operating speeds. In one implementation, the angular velocity of a motor is determined along with a total power loss for each phase of said motor. The total power loss in each phase comprises stator winding power loss and a core power loss. Stator winding temperatures for each phase of motor can then estimated based on the total power loss in that phase, and a combined thermal impedance for that phase. The combined thermal impedance comprises a first thermal impedance between the stator winding and the stator core, and a second thermal impedance between the stator core and the motor coolant.Type: GrantFiled: September 28, 2009Date of Patent: July 16, 2013Assignee: GM Global Technology Operations LLCInventors: Chia-Chou Yeh, Nitinkumar R. Patel, Yo Chan Son, Steven E. Schulz