Patents by Inventor Philip K. Schneider
Philip K. Schneider 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: 7668690Abstract: A motor control system and method are provided for detecting current ripple in a commutated DC motor and further determining position and speed of the motor based on the detected ripple current. Ripples in the motor current are detected and a ripple frequency is calculated based on the time between successive ripples. A ripple count between successive frequencies is determined and the ripple count is compared to a threshold value, and an estimated ripple frequency is determined from a motor model when the ripple count exceeds the threshold value. A corrected ripple count is calculated from a ratio of the calculated ripple frequency and the estimated ripple frequency, and motor position and motor speed are determined based on the corrected ripple count.Type: GrantFiled: May 14, 2008Date of Patent: February 23, 2010Assignee: Delphi Technologies, Inc.Inventors: Philip K. Schneider, Salvador A. Canales
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Publication number: 20090254300Abstract: A motor control system and method are provided for detecting current ripple in a commutated DC motor and further determining position and speed of the motor based on the detected ripple current. Ripples in the motor current are detected and a ripple frequency is calculated based on the time between successive ripples. A ripple count between successive frequencies is determined and the ripple count is compared to a threshold value, and an estimated ripple frequency is determined from a motor model when the ripple count exceeds the threshold value. A corrected ripple count is calculated from a ratio of the calculated ripple frequency and the estimated ripple frequency, and motor position and motor speed are determined based on the corrected ripple count.Type: ApplicationFiled: May 14, 2008Publication date: October 8, 2009Inventors: Philip K. Schneider, Salvador A. Canales
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Patent number: 7589487Abstract: A system and method is provided for improved monitoring and controlling of mechanically commutated DC motors. The system and method include DC motors, pulse-count driver circuitry for driving the motors, motor position sensing circuitry, and motor control circuitry. The system and method provide for improved motor current waveform sensing that is able to effectively reject false brake pulses, avoid erroneous processing due to fluctuating battery voltage levels, and reduce the sensitivity to variations in motor current signals due to dynamic motor load, manufacturing variation, system aging, temperature, brush bounce, EMI, and other factors. The system and method also include an improved ability to multiplex additional external motor drivers to the motor control circuitry, select between sequential and simultaneous drive modes using an SPI bit, and monitor the system controller for an error condition and simultaneously driver motors in response to the error condition.Type: GrantFiled: February 27, 2006Date of Patent: September 15, 2009Assignee: Delphi Technologies, Inc.Inventors: David D. Moller, Philip K. Schneider, Dennis W. Berryman
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Patent number: 7538500Abstract: A system and method is provided for improved monitoring and controlling of mechanically commutated DC motors. The system and method include DC motors, pulse-count driver circuitry for driving the motors, motor position sensing circuitry, and motor control circuitry. The system and method provide for improved motor current waveform sensing that is able to effectively reject false brake pulses, avoid erroneous processing due to fluctuating battery voltage levels, and reduce the sensitivity to variations in motor current signals due to dynamic motor load, manufacturing variation, system aging, temperature, brush bounce, EMI, and other factors. The system and method also include an improved ability to multiplex additional external motor drivers to the motor control circuitry, select between sequential and simultaneous drive modes using an SPI bit, and monitor the system controller for an error condition and simultaneously driver motors in response to the error condition.Type: GrantFiled: July 17, 2008Date of Patent: May 26, 2009Assignee: Delphi Technologies, Inc.Inventors: David D. Moller, Philip K. Schneider, Oscar M. Alcantara, Salvador A. Canales
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Patent number: 7474068Abstract: A system and method is provided for improved monitoring and controlling of mechanically commutated DC motors. The system and method include DC motors, pulse-count driver circuitry for driving the motors, motor position sensing circuitry, and motor control circuitry. The system and method provide for improved motor current waveform sensing that is able to effectively reject false brake pulses, avoid erroneous processing due to fluctuating battery voltage levels, and reduce the sensitivity to variations in motor current signals due to dynamic motor load, manufacturing variation, system aging, temperature, brush bounce, EMI, and other factors. The system and method also include an improved ability to multiplex additional external motor drivers to the motor control circuitry, select between sequential and simultaneous drive modes using an SPI bit, and monitor the system controller for an error condition and simultaneously driver motors in response to the error condition.Type: GrantFiled: February 27, 2006Date of Patent: January 6, 2009Assignee: Delphi Technologies, Inc.Inventors: David D. Moller, Philip K. Schneider, Oscar M. Alcantara, Salvador A. Canales
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Publication number: 20080272715Abstract: A system and method is provided for improved monitoring and controlling of mechanically commutated DC motors. The system and method include DC motors, pulse-count driver circuitry for driving the motors, motor position sensing circuitry, and motor control circuitry. The system and method provide for improved motor current waveform sensing that is able to effectively reject false brake pulses, avoid erroneous processing due to fluctuating battery voltage levels, and reduce the sensitivity to variations in motor current signals due to dynamic motor load, manufacturing variation, system aging, temperature, brush bounce, EMI, and other factors. The system and method also include an improved ability to multiplex additional external motor drivers to the motor control circuitry, select between sequential and simultaneous drive modes using an SPI bit, and monitor the system controller for an error condition and simultaneously driver motors in response to the error condition.Type: ApplicationFiled: July 17, 2008Publication date: November 6, 2008Inventors: David D. Moller, Philip K. Schneider, Oscar M. Alcantara, Salvador A. Canales
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Patent number: 7352145Abstract: A system and method is provided for improved monitoring and controlling of mechanically commutated DC motors. The system and method include DC motors, pulse-count driver circuitry for driving the motors, motor position sensing circuitry, and motor control circuitry. The system and method provide for improved motor current waveform sensing that is able to effectively reject false brake pulses, avoid erroneous processing due to fluctuating battery voltage levels, and reduce the sensitivity to variations in motor current signals due to dynamic motor load, manufacturing variation, system aging, temperature, brush bounce, EMI, and other factors. The system and method also include an improved ability to multiplex additional external motor drivers to the motor control circuitry, select between sequential and simultaneous drive modes using an SPI bit, and monitor the system controller for an error condition and drive the connected motors in response to the error condition.Type: GrantFiled: February 27, 2006Date of Patent: April 1, 2008Assignee: Delphi Technologies, Inc.Inventors: David D. Moller, Philip K. Schneider, Salvador A. Canales
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Patent number: 7180257Abstract: A system and method is provided for improved monitoring and controlling of mechanically commutated DC motors. The system and method include DC motors, pulse-count driver circuitry for driving the motors, motor position sensing circuitry, and motor control circuitry. The system and method provide for improved motor current waveform sensing that is able to effectively reject false brake pulses, avoid erroneous processing due to fluctuating battery voltage levels, and reduce the sensitivity to variations in motor current signals due to dynamic motor load, manufacturing variation, system aging, temperature, brush bounce, EMI, and other factors. The system and method also include an improved ability to multiplex additional external motor drivers to the motor control circuitry, select between sequential and simultaneous drive modes using an SPI bit, and monitor the system controller for an error condition and simultaneously driver motors in response to the error condition.Type: GrantFiled: February 27, 2006Date of Patent: February 20, 2007Assignee: Delphi Technologies, Inc.Inventors: Philip K. Schneider, David D. Moller
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Patent number: 6987223Abstract: A thermopile structure containing improved heat sinks for thermocouples in the detectors is described. The heat sinks are provided without additional processing. The heat sinks are added by using “dummy traces” to the polysilicon mask. The “dummy traces” act as heat sinks to transfer of thermal energy from the narrow metallic traces used in the thermocouple. The “dummy traces” are not electrically connected to the thermopile, therefore they do not affect the electrical resistance of the thermopile. Also, the “dummy trace” does not add significant mass to the thermopile/membrane system; therefore they do not adversely affect the thermal conductance of the system.Type: GrantFiled: August 28, 2002Date of Patent: January 17, 2006Assignee: Delphi Technologies, Inc.Inventor: Philip K. Schneider
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Publication number: 20040040592Abstract: A thermopile structure containing improved heat sinks for thermocouples in the detectors is described. The heat sinks are provided without additional processing. The heat sinks are added by using “dummy traces” to the polysilicon mask. The “dummy traces” act as heat sinks to transfer of thermal energy from the narrow metallic traces used in the thermocouple. The “dummy traces” are not electrically connected to the thermopile, therefore they do not affect the electrical resistance of the thermopile. Also, the “dummy trace” does not add significant mass to the thermopile/membrane system; therefore they do not adversely affect the thermal conductance of the system.Type: ApplicationFiled: August 28, 2002Publication date: March 4, 2004Applicant: Delphi Technologies Inc.Inventor: Philip K. Schneider