Patents by Inventor Liangwei Sun
Liangwei Sun 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: 10110124Abstract: A control circuit for a switching regulator can include: an ON signal generator that generates an ON signal; an OFF signal generator that generates a first control signal according to an input voltage and an output voltage of the switching regulator; an on time regulator that generates an adjustment signal according to a switching signal and the first control signal; and a logic circuit configured to generate an off signal according to the first control signal, and to generate the switching signal according to the ON signal and the OFF signal, where the on time of the first switch is regulated according to the off time of the first switch when the off time of the first switch is less than the reference time, in order to regulate a duty cycle of the switching signal.Type: GrantFiled: May 1, 2017Date of Patent: October 23, 2018Assignee: Silergy Semiconductor Technology (Hangzhou) LTDInventor: Liangwei Sun
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Patent number: 10003263Abstract: In one embodiment, a method of over voltage protection control can include: (i) determining whether an output voltage of a buck-boost converter is in an over voltage condition, where the buck-boost converter includes a first switch coupled to an input terminal and an inductor, a second switch coupled to ground and a common node of the first switch and the inductor, a third switch coupled to ground and a common node of a fourth switch and the inductor, where the fourth switch is coupled to an output terminal of the buck-boost converter; and (ii) simultaneously controlling the first, second, third, and fourth switches in the buck-boost converter by turning on the second and third switches, and turning off the first and fourth switches, in response to the over voltage condition.Type: GrantFiled: November 11, 2016Date of Patent: June 19, 2018Assignee: Silergy Semiconductor Technology (Hangzhou) LTDInventors: Kailang Hang, Liangwei Sun
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Publication number: 20170338738Abstract: A control circuit for a switching regulator can include: an ON signal generator that generates an ON signal; an OFF signal generator that generates a first control signal according to an input voltage and an output voltage of the switching regulator; an on time regulator that generates an adjustment signal according to a switching signal and the first control signal; and a logic circuit configured to generate an off signal according to the first control signal, and to generate the switching signal according to the ON signal and the OFF signal, where the on time of the first switch is regulated according to the off time of the first switch when the off time of the first switch is less than the reference time, in order to regulate a duty cycle of the switching signal.Type: ApplicationFiled: May 1, 2017Publication date: November 23, 2017Inventor: Liangwei Sun
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Publication number: 20170194857Abstract: A voltage regulation circuit can include: a power stage circuit with a single inductor and a plurality of output circuits; each output circuit having an output control switch configured to control a duration of an on time of the output circuit, and an output switch control circuit configured to control the output control switch in accordance with an output voltage sampling signal, a reference current signal that represents an output current of the output circuit, and a clock signal, in order to maintain an output voltage of the output circuit as constant and to decrease interference from load variations of any other of the plurality of output circuits; and where the output control switches are controlled to be on in sequence in each switching period.Type: ApplicationFiled: December 22, 2016Publication date: July 6, 2017Inventors: Kailang Hang, Liangwei Sun
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Publication number: 20170063238Abstract: In one embodiment, a method of over voltage protection control can include: (i) determining whether an output voltage of a buck-boost converter is in an over voltage condition, where the buck-boost converter includes a first switch coupled to an input terminal and an inductor, a second switch coupled to ground and a common node of the first switch and the inductor, a third switch coupled to ground and a common node of a fourth switch and the inductor, where the fourth switch is coupled to an output terminal of the buck-boost converter; and (ii) simultaneously controlling the first, second, third, and fourth switches in the buck-boost converter by turning on the second and third switches, and turning off the first and fourth switches, in response to the over voltage condition.Type: ApplicationFiled: November 11, 2016Publication date: March 2, 2017Inventors: Kailang Hang, Liangwei Sun
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Patent number: 9559591Abstract: A multi-phase interleaved converter can include: (i) a plurality of phases, where each phase of the multi-phase interleaved converter includes a buck-type power stage having a power switch, a freewheeling switch and an inductor, a switching control circuit and a reference signal generator, and where each switching control circuit includes: (ii) an adder that receives a ramp signal and a feedback signal that represents an output voltage, and generates a feedback voltage signal; (iii) a comparator that receives the feedback voltage signal and a reference voltage signal, and generates a comparator output signal; and (iv) a logic circuit that receives the comparator output signal and an output from an on time control circuit, and controls a switching operation of the power switch.Type: GrantFiled: November 12, 2015Date of Patent: January 31, 2017Assignee: Silergy Semiconductor Technology (Hangzhou) LTDInventors: Kailang Hang, Liangwei Sun
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Publication number: 20170025955Abstract: A converter can include: (i) a first switch having a first terminal for receiving an input voltage, and a second terminal coupled to a first terminal of a second switch; (ii) an inductor having a first terminal coupled to a common node of the first and second switches, and a second terminal coupled to a first terminal of a third switch, where second terminals of the second and third switches are coupled to ground; and (iii) a plurality of output channels coupled to a common node of the inductor and the third switch, where the converter operates in a buck-boost mode, a buck mode, or a boost mode based on the relationship between the input voltage and output voltages of the plurality of output channels.Type: ApplicationFiled: June 27, 2016Publication date: January 26, 2017Inventors: Kailang Hang, Liangwei Sun
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Patent number: 9543822Abstract: In one embodiment, a method of over voltage protection control can include: (i) determining whether an output voltage of a buck-boost converter is in an over voltage condition, where the buck-boost converter includes a first switch coupled to an input terminal and an inductor, a second switch coupled to ground and a common node of the first switch and the inductor, a third switch coupled to ground and a common node of a fourth switch and the inductor, where the fourth switch is coupled to an output terminal of the buck-boost converter; and (ii) simultaneously controlling the first, second, third, and fourth switches in the buck-boost converter by turning on the second and third switches, and turning off the first and fourth switches, in response to the over voltage condition.Type: GrantFiled: November 5, 2014Date of Patent: January 10, 2017Assignee: Silergy Semiconductor Technology (Hangzhou) LTDInventors: Kailang Hang, Liangwei Sun
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Publication number: 20160211745Abstract: A multi-phase parallel converter can include: sampling circuits corresponding to power stage circuits to form a plurality of phases of the multi-phase parallel converter, where each sampling circuit samples an inductor current of a corresponding power stage circuit, and generates a sense signal; a current-sharing circuit that generates a current-sharing control signal according to a superimposed signal that is generated by adding the sense signal to a bias voltage signal; switching control circuits corresponding to the power stage circuits, where each switching control circuit receives the current-sharing control signal, and controls a switching operation of a corresponding power stage circuit; and a bias voltage generator that generates the bias voltage signal to gradually increase/decrease when a selected phase is to be disabled/enabled.Type: ApplicationFiled: December 14, 2015Publication date: July 21, 2016Inventors: Kailang Hang, Liangwei Sun
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Patent number: 9385603Abstract: In one embodiment, a method of controlling a switching power supply can include: (i) generating an ideal on time signal according to an input voltage and an output voltage of the switching power supply; (ii) generating a ripple voltage signal having a predetermined constant value when a power switch of the switching power supply is on, and a linearly decreasing value when the power switch is off; (iii) generating a regulating voltage signal according to an output voltage sense signal and the ripple voltage signal; (iv) generating a regulating control signal by comparing the regulating voltage signal against a first reference signal; (v) generating an on time control signal according to the regulating control signal and the ideal on time signal; and (vi) generating a driving signal according to the on time control signal for driving the power switch.Type: GrantFiled: November 18, 2014Date of Patent: July 5, 2016Assignee: Silergy Semiconductor Technology (Hangzhou) LTDInventors: Kailang Hang, Liangwei Sun
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Publication number: 20160164414Abstract: A multi-phase interleaved converter can include: (i) a plurality of phases, where each phase of the multi-phase interleaved converter includes a buck-type power stage having a power switch, a freewheeling switch and an inductor, a switching control circuit and a reference signal generator, and where each switching control circuit includes: (ii) an adder that receives a ramp signal and a feedback signal that represents an output voltage, and generates a feedback voltage signal; (iii) a comparator that receives the feedback voltage signal and a reference voltage signal, and generates a comparator output signal; and (iv) a logic circuit that receives the comparator output signal and an output from an on time control circuit, and controls a switching operation of the power switch.Type: ApplicationFiled: November 12, 2015Publication date: June 9, 2016Inventors: Kailang Hang, Liangwei Sun
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Patent number: 9130460Abstract: The present invention relates to a master-slave interleaved BCM PFC controller for controlling a PFC circuit with master and slave channels. In one embodiment, the PFC controller can include: a master channel controller that generates a master channel control signal and an inverted master channel control signal; a first phase shifter that provides a first phase shift for the master channel control signal, and generates a delayed opening signal therefrom; a second phase shifter that provides a second phase shift for the inverted master channel control signal, and generates a delayed shutdown signal therefrom; a slave channel controller that receives the delayed opening signal, the delayed shutdown signal, and a slave channel inductor current zero-crossing signal, and generates a slave channel control signal therefrom.Type: GrantFiled: March 18, 2014Date of Patent: September 8, 2015Assignee: Silergy Semiconductor Technology (Hangzhou) LTDInventors: Liangwei Sun, Qiukai Huang
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Publication number: 20150145490Abstract: In one embodiment, a method of controlling a switching power supply can include: (i) generating an ideal on time signal according to an input voltage and an output voltage of the switching power supply; (ii) generating a ripple voltage signal having a predetermined constant value when a power switch of the switching power supply is on, and a linearly decreasing value when the power switch is off; (iii) generating a regulating voltage signal according to an output voltage sense signal and the ripple voltage signal; (iv) generating a regulating control signal by comparing the regulating voltage signal against a first reference signal; (v) generating an on time control signal according to the regulating control signal and the ideal on time signal; and (vi) generating a driving signal according to the on time control signal for driving the power switch.Type: ApplicationFiled: November 18, 2014Publication date: May 28, 2015Inventors: Kailang Hang, Liangwei Sun
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Publication number: 20150123631Abstract: In one embodiment, a method of over voltage protection control can include: (i) determining whether an output voltage of a buck-boost converter is in an over voltage condition, where the buck-boost converter includes a first switch coupled to an input terminal and an inductor, a second switch coupled to ground and a common node of the first switch and the inductor, a third switch coupled to ground and a common node of a fourth switch and the inductor, where the fourth switch is coupled to an output terminal of the buck-boost converter; and (ii) simultaneously controlling the first, second, third, and fourth switches in the buck-boost converter by turning on the second and third switches, and turning off the first and fourth switches, in response to the over voltage condition.Type: ApplicationFiled: November 5, 2014Publication date: May 7, 2015Inventors: Kailang Hang, Liangwei Sun
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Publication number: 20140198546Abstract: The present invention relates to a master-slave interleaved BCM PFC controller for controlling a PFC circuit with master and slave channels. In one embodiment, the PFC controller can include: a master channel controller that generates a master channel control signal and an inverted master channel control signal; a first phase shifter that provides a first phase shift for the master channel control signal, and generates a delayed opening signal therefrom; a second phase shifter that provides a second phase shift for the inverted master channel control signal, and generates a delayed shutdown signal therefrom; a slave channel controller that receives the delayed opening signal, the delayed shutdown signal, and a slave channel inductor current zero-crossing signal, and generates a slave channel control signal therefrom.Type: ApplicationFiled: March 18, 2014Publication date: July 17, 2014Applicant: Silergy Semiconductor Technology (Hangzhou) LTDInventors: Liangwei Sun, Qiukai Huang
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Patent number: 8736236Abstract: The present invention relates to a master-slave interleaved BCM PFC controller for controlling a PFC circuit with master and slave channels. In one embodiment, the PFC controller can include: a master channel controller that generates a master channel control signal and an inverted master channel control signal; a first phase shifter that provides a first phase shift for the master channel control signal, and generates a delayed opening signal therefrom; a second phase shifter that provides a second phase shift for the inverted master channel control signal, and generates a delayed shutdown signal therefrom; a slave channel controller that receives the delayed opening signal, the delayed shutdown signal, and a slave channel inductor current zero-crossing signal, and generates a slave channel control signal therefrom.Type: GrantFiled: August 24, 2012Date of Patent: May 27, 2014Assignee: Silergy Semiconductor Technology (Hangzhou) Ltd.Inventors: Liangwei Sun, Qiukai Huang
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Publication number: 20130063180Abstract: The present invention relates to a master-slave interleaved BCM PFC controller for controlling a PFC circuit with master and slave channels. In one embodiment, the PFC controller can include: a master channel controller that generates a master channel control signal and an inverted master channel control signal; a first phase shifter that provides a first phase shift for the master channel control signal, and generates a delayed opening signal therefrom; a second phase shifter that provides a second phase shift for the inverted master channel control signal, and generates a delayed shutdown signal therefrom; a slave channel controller that receives the delayed opening signal, the delayed shutdown signal, and a slave channel inductor current zero-crossing signal, and generates a slave channel control signal therefrom.Type: ApplicationFiled: August 24, 2012Publication date: March 14, 2013Applicant: SILERGY SEMICONDUCTOR TECHNOLOGY (HANGZHOU) LTDInventors: Liangwei Sun, Qiukai Huang