Patents by Inventor Mingming Mao
Mingming Mao 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: 8553439Abstract: An example controller for a switched mode power supply includes a drive signal generator and a zero-crossing detector. The drive signal generator is to be coupled to control switching of a switch included in the power supply to regulate an output of the power supply. The zero-crossing detector is coupled to the drive signal generator and coupled to receive a current sense signal representative of a switch current flowing through the switch. The zero-crossing detector generates a zero-crossing signal in response to comparing the current sense signal with a reference signal representative of a zero-crossing current threshold. The zero-crossing signal indicates when a zero-crossing condition of an ac line input voltage of the power supply exists.Type: GrantFiled: February 9, 2010Date of Patent: October 8, 2013Assignee: Power Integrations, Inc.Inventors: Yury Gaknoki, Mingming Mao, Tiziano Pastore
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Publication number: 20130250457Abstract: This relates to detecting unwanted couplings between a protected terminal and other terminals in an integrated controller of a power supply. Offset and clamp circuitry may apply a positive or negative offset voltage and clamp current to one or more terminals of the controller. In the event that a terminal having the offset voltage and clamp current is accidentally coupled to the protected terminal, the offset voltage and clamp current may be applied to the protected terminal. The protected terminal may be coupled to a fault detection circuitry operable to detect a fault signal at the protected terminal. The fault detection circuitry of the controller may cause the power supply to shut down in response to a detection of the fault signal at the protected terminal or may cause the power supply to shut down in response to a detection of a predefined threshold number of cycles in which the fault signal is detected.Type: ApplicationFiled: May 13, 2013Publication date: September 26, 2013Applicant: POWER INTEGRATIONS, INC.Inventors: Yury GAKNOKI, Yue ZHANG, Mingming MAO
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Publication number: 20130241440Abstract: An example switched mode power supply includes a timer, a threshold adjust circuitry, a comparator, and a control circuitry. The timer times a duration between crossings of a phase-dimmed signal across a first threshold. The threshold adjust circuitry adjusts a second threshold representative of a desired output of the switched mode power supply, where the second threshold is adjusted responsive to the timed duration between crossings. The comparator compares a feedback signal with the second threshold and generates a comparison result. The control circuitry controls switching of a power switch responsive to the comparison result to regulate the output of the switched mode power supply.Type: ApplicationFiled: May 2, 2013Publication date: September 19, 2013Applicant: Power Integrations, Inc.Inventors: Yury Gaknoki, Mingming Mao, Tiziano Pastore
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Patent number: 8531133Abstract: An example controller for a switched mode power supply includes a comparator, a drive logic, and an on-time extension block. The comparator has an output indicating whether the current through a switch of the power supply exceeds a zero-crossing current threshold. The drive logic is to generate a drive logic output signal in response to the current sense signal and in response to a feedback signal, where the drive logic output signal is representative of an on-time of the switch to regulate the output of the power supply. The on-time extension block is coupled to control switching of a switch and to extend the on-time until the output of the comparator indicates that the current sense signal reaches the zero-crossing current threshold or until the on-time of the switch reaches a zero-crossing time threshold.Type: GrantFiled: September 26, 2012Date of Patent: September 10, 2013Assignee: Power Integrations, Inc.Inventors: Yury Gaknoki, Mingming Mao, Tiziano Pastore
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Patent number: 8467157Abstract: This relates to detecting unwanted couplings between a protected terminal and other terminals in an integrated controller of a power supply. Offset and clamp circuitry may apply a positive or negative offset voltage and clamp current to one or more terminals of the controller. In the event that a terminal having the offset voltage and clamp current is accidentally coupled to the protected terminal, the offset voltage and clamp current may be applied to the protected terminal. The protected terminal may be coupled to a fault detection circuitry operable to detect a fault signal at the protected terminal. The fault detection circuitry of the controller may cause the power supply to shut down in response to a detection of the fault signal at the protected terminal or may cause the power supply to shut down in response to a detection of a predefined threshold number of cycles in which the fault signal is detected.Type: GrantFiled: July 28, 2011Date of Patent: June 18, 2013Assignee: Power Integrations, Inc.Inventors: Yury Gaknoki, Yue Zhang, Mingming Mao
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Patent number: 8462523Abstract: An example controller for a switched mode power supply includes a zero-crossing detector and a drive signal generator. The zero-crossing detector is coupled to generate a zero-crossing signal representative of a phase angle of a dimmer output voltage for a half line cycle of the power supply. The drive signal generator controls switching of a switch to regulate an output of the power supply in response to a feedback signal representative of the output. The drive signal generator further controls switching of the switch to adjust dimming of the output of the power supply in response to the phase angle indicated by the zero-crossing signal.Type: GrantFiled: December 20, 2011Date of Patent: June 11, 2013Assignee: Power Integrations, Inc.Inventors: Yury Gaknoki, Mingming Mao, Tiziano Pastore
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Publication number: 20130100714Abstract: A power converter control circuit includes a ramp signal circuit, a blanking circuit, and a pulse driver circuit. The ramp signal circuit provides a ramp signal in response to a power converter feedback signal and an enable signal. The blanking circuit provides a blanking signal in response to the ramp signal and a clock signal. The blanking signal is provided when both the ramp signal is increasing in value and the enable signal indicates a light load operating condition. The pulse driver circuit provides a power switch control pulse in accordance with the clock signal and in the absence of the blanking signal.Type: ApplicationFiled: October 20, 2011Publication date: April 25, 2013Applicant: Power Integrations, Inc.Inventors: Guangchao Zhang, Yury Gaknoki, Mingming Mao
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Publication number: 20130083566Abstract: An example controller for a power converter includes a track and hold circuit, a sample and hold circuit, and drive logic. The track and hold circuit receives a signal from a terminal of the controller that is representative of an output voltage of the power converter. The track and hold circuit includes a first capacitor that provides a first voltage that tracks the signal and then holds the first voltage. The sample and hold circuit samples the first voltage when the first voltage is held on the first capacitor. The sample and hold circuit includes a second capacitor coupled to hold a second voltage representative of the first voltage after a sample period, where the second capacitor has a capacitance value larger than that of the first capacitor. The drive logic controls the first switch to regulate an output of the power converter in response to the second voltage.Type: ApplicationFiled: September 30, 2011Publication date: April 4, 2013Applicant: Power Integrations, Inc.Inventors: Yury Gaknoki, Mingming Mao, Michael Yue Zhang
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Publication number: 20130077357Abstract: Methods and apparatuses are disclosed for generating an adjustable bias current. The value of the adjustable bias current may be determined based in part on an error signal representative of a difference between an actual output value and a desired output value of a power converter. When the error signal is below a lower threshold voltage, the adjustable bias current may be set to a first value. When the error signal is above an upper threshold voltage, the adjustable bias current may be set to a second, higher value. When the error signal is between the lower threshold voltage and the upper threshold voltage, the adjustable bias current may change linearly with the error signal.Type: ApplicationFiled: September 23, 2011Publication date: March 28, 2013Applicant: Power Integrations, Inc.Inventors: Michael Zhang, Yury Gaknoki, Mingming Mao
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Publication number: 20130077350Abstract: An example power supply controller includes a signal separator circuit that generates a feedback signal. An error signal generator generates an error signal in response to the feedback signal. A control circuit generates a drive signal in response to the error signal. The drive signal controls switching of a switch. A multi-cycle modulation circuit is included in the control circuit and generates a skip signal in response to a start skip signal, a stop skip signal and a skip mask signal. The skip mask signal is generated in response to the skip signal. The start skip and stop skip signals cause the drive signal to start skipping or stop skipping, respectively, on-time intervals of cycles. The skip mask signal disables the start skip signal from causing the drive signal to start skipping the on-time intervals of cycles.Type: ApplicationFiled: September 23, 2011Publication date: March 28, 2013Applicant: POWER INTEGRATIONS, INC.Inventor: Mingming Mao
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Publication number: 20130077358Abstract: Methods and apparatuses are disclosed for generating a temperature independent current limit. The value of the temperature independent current limit may be determined based in part on an error signal representative of a difference between an actual output value and a desired output value of a power converter. When the error signal is below a lower threshold voltage, the temperature independent current limit may be set to a first value. When the error signal is above an upper threshold voltage, the temperature independent current limit may be set to a second, higher value. When the error signal is between the lower threshold voltage and the upper threshold voltage, the temperature independent current limit may change linearly with the error signal. The error signal may be adjusted to compensate for changes in the system caused by a change in temperature.Type: ApplicationFiled: September 23, 2011Publication date: March 28, 2013Applicant: Power Integrations, Inc.Inventors: Yury Gaknoki, Mingming Mao, Michael Y. Zhang
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Publication number: 20130027990Abstract: An example integrated circuit controller for use in a switching power supply includes a pulse width modulation (PWM) circuit and a timing circuit. The PWM circuit controls a switch to regulate an output of the power supply in response to a switch current flowing through the switch and in response to a clock signal having a switching period. The timing circuit provides the clock signal and increases the switching period in response to an on time of the switch exceeding a threshold time.Type: ApplicationFiled: July 28, 2011Publication date: January 31, 2013Applicant: POWER INTEGRATIONS, INC.Inventors: Stefan Bäurle, Guangchao Darson Zhang, Arthur B. Odell, Mingming Mao, Michael Yue Zhang, Edward Deng
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Publication number: 20130027815Abstract: This relates to detecting unwanted couplings between a protected terminal and other terminals in an integrated controller of a power supply. Offset and clamp circuitry may apply a positive or negative offset voltage and clamp current to one or more terminals of the controller. In the event that a terminal having the offset voltage and clamp current is accidentally coupled to the protected terminal, the offset voltage and clamp current may be applied to the protected terminal. The protected terminal may be coupled to a fault detection circuitry operable to detect a fault signal at the protected terminal. The fault detection circuitry of the controller may cause the power supply to shut down in response to a detection of the fault signal at the protected terminal or may cause the power supply to shut down in response to a detection of a predefined threshold number of cycles in which the fault signal is detected.Type: ApplicationFiled: July 28, 2011Publication date: January 31, 2013Applicant: Power Integrations, Inc.Inventors: Yury Gaknoki, Yue Zhang, Mingming Mao
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Publication number: 20120320640Abstract: A power converter controller is disclosed. An example controller includes a control circuit coupled to receive a feedback signal representative of an output of the power converter. The control circuit coupled to control a switching of a power switch of the power converter in response to the feedback signal to control a transfer of energy from an input of the power converter to the output of the power converter. An internal programming interface circuit is coupled to the control circuit. A coupling switcher is coupled to the internal programming interface circuit. An external programming terminal is selectively coupled to the internal programming interface circuit through the coupling switcher. An external programming circuit coupled to the external programming terminal is coupled to the internal programming interface circuit through the coupling switcher during a startup programming condition and during a fault condition of the power converter.Type: ApplicationFiled: June 15, 2011Publication date: December 20, 2012Applicant: POWER INTEGRATIONS, INC.Inventors: Stefan Bäurle, Guangchao Darson Zhang, Mingming Mao
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Patent number: 8310845Abstract: A method of operation for flyback power converter includes operating a controller of the flyback power converter in a regulation mode when a control signal is below a first threshold. The control signal is provided as an input to a terminal of the flyback power converter. When the control signal is below a second threshold and above the first threshold, the controller is operated in a limiting mode. The controller is operated in an external command mode when the control signal is below a third threshold and above the second threshold. Lastly, when the control signal is above the third threshold, the controller is operated in a protection mode.Type: GrantFiled: February 10, 2010Date of Patent: November 13, 2012Assignee: Power Integrations, Inc.Inventors: Yury Gaknoki, Tiziano Pastore, Mingming Mao, David Michael Hugh Matthews
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Publication number: 20120280629Abstract: A switching power supply includes a switch and a controller for dimming control of the switching power supply. The controller includes a phase angle measurement block and a drive logic block. The phase angle measurement block is coupled to receive an input sense signal. The phase angle measurement block generates a phase angle signal representative of a phase angle of an input voltage of the power supply in response to the input sense signal. The drive logic block is coupled to control switching of the switch. The drive logic block controls the switch in a closed loop dimming control when the phase angle is less than or equal to a phase threshold and in a open loop dimming control when the phase angle is greater than the phase threshold.Type: ApplicationFiled: July 16, 2012Publication date: November 8, 2012Applicant: POWER INTEGRATIONS, INC.Inventors: Yury Gaknoki, Mingming Mao
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Patent number: 8300434Abstract: An example controller includes a feedback sensor circuit that receives a feedback signal representative of an output of a power converter. A feedback sampling signal generator is coupled to generate a feedback sampling signal. The feedback sensor circuit samples the feedback signal in response to the feedback sampling signal. A state machine controls switching of a switch of a power converter circuit according to one of a plurality of operating condition states in response to the feedback sensor circuit. Each of the plurality of operating condition states includes a substantially fixed switch on time. A feedback time period signal generator generates a feedback time period signal received by the state machine. A period of the feedback time period signal is substantially greater than a period of the feedback sampling signal. The state machine is updated in response to the feedback time period signal.Type: GrantFiled: December 8, 2011Date of Patent: October 30, 2012Assignee: Power Integrations, Inc.Inventors: Yury Gaknoki, Mingming Mao, David Michael Hugh Matthews, Tiziano Pastore
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Patent number: 8299730Abstract: An example controller for a switched mode power supply includes a zero-crossing detector, drive logic, and an on-time extension block. The zero-crossing detector is coupled to generate a first signal prior to a zero-crossing of an input voltage of the power supply. The drive logic is to generate a drive logic output signal in response to a feedback signal, where the drive logic output signal is representative of an initial on-time. The on-time extension block is coupled to the zero-crossing detector and to the drive logic to generate a drive signal in response to the drive logic output signal. The drive signal controls switching of a switch to remove charge from a filter capacitor of the power supply. The drive signal is representative of a total on-time of the switch equal to a sum of the initial on-time and an extended on-time, where the extended on-time is responsive to the first signal.Type: GrantFiled: February 9, 2010Date of Patent: October 30, 2012Assignee: Power Integrations, Inc.Inventors: Yury Gaknoki, Mingming Mao, Tiziano Pastore
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Patent number: 8242766Abstract: A controller for dimming control of a switching power supply includes a phase angle measurement block and a drive logic block. The phase angle measurement block is to be coupled to receive an input sense signal. The phase angle measurement block generates a phase angle signal representative of a phase angle of an input voltage of the power supply in response to the input sense signal. The drive logic block is to be coupled to control switching of a switch included in the power supply. The drive logic block controls the switch in a closed loop dimming control when the phase angle is less than or equal to a phase threshold and in a open loop dimming control when the phase angle is greater than the phase threshold.Type: GrantFiled: April 20, 2010Date of Patent: August 14, 2012Assignee: Power Integrations, Inc.Inventors: Yury Gaknoki, Mingming Mao
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Publication number: 20120092902Abstract: An example controller for a switched mode power supply includes a zero-crossing detector and a drive signal generator. The zero-crossing detector is coupled to generate a zero-crossing signal representative of a phase angle of a dimmer output voltage for a half line cycle of the power supply. The drive signal generator controls switching of a switch to regulate an output of the power supply in response to a feedback signal representative of the output. The drive signal generator further controls switching of the switch to adjust dimming of the output of the power supply in response to the phase angle indicated by the zero-crossing signal.Type: ApplicationFiled: December 20, 2011Publication date: April 19, 2012Applicant: POWER INTEGRATIONS, INC.Inventors: Yury Gaknoki, Mingming Mao, Tiziano Pastore