Active bootstrapped-supply generator
US-2024429816-A1 · Dec 26, 2024 · US
Controller and controlling method of switching power supply
US2016156259A1 · US · A1
| Field | Value |
|---|---|
| Publication number | US-2016156259-A1 |
| Application number | US-201514953793-A |
| Country | US |
| Kind code | A1 |
| Filing date | Nov 30, 2015 |
| Priority date | Nov 28, 2014 |
| Publication date | Jun 2, 2016 |
| Grant date | — |
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- Title
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Abstract
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The present disclosure relates to a controller and a controlling method of a switching power supply. The controller of the switching power supply is used for turning on and off a power transistor so that inductor current flows through an inductor which is connected in series with the power transistor. The controller includes a frequency-jittering signal generating circuit, a superimpose circuit and a first comparator. The frequency-jittering signal generating circuit generates a frequency-jittering signal variable over time. The superimpose circuit superimposes the frequency-jittering signal on a sampling signal of the inductor current to generate a superimposed signal. The first comparator compares the superimposed signal with a control voltage to generate an OFF signal for turning off the power transistor. The controller of the switching power supply reduces conducted electromagnetic interference by a frequency-jittering control on the sampling signal of the inductor current.
First claim
Opening claim text (preview).
What is claimed is: 1 . A controller of a switching power supply for turning on and off a power transistor so that an inductor current flows through an inductor which is connected in series with said power transistor, comprising: a frequency-jittering signal generating circuit configured to generate a frequency-jittering signal variable over time; a superimpose circuit configured to superimpose said frequency-jittering signal on a sampling signal of said inductor current to generate a superimposed signal; and a first comparator configured to compare said superimposed signal with a control voltage to generate an OFF signal for turning off said power transistor. 2 . The controller according to claim 1 , further comprising: an ON signal generating circuit configured to generate an ON signal; an RS flip-flop configured to receive said ON signal at a set terminal and said OFF signal at a reset terminal, and generate a switching control signal at an output terminal; and a driving circuit configured to generate a driving signal for said power transistor in accordance with said switching control signal. 3 . The controller according to claim 2 , wherein said ON signal generating circuit is a timing circuit. 4 . The controller according to claim 2 , wherein said ON signal generating circuit comprises: a second comparator configured to compare a voltage feedback signal representing an output voltage of said controller of said switching power supply with a reference signal to generate a zero-crossing reference signal; and a delay circuit configured to generate a valid ON signal when a predetermined time period has elapsed after said voltage feedback signal crosses zero. 5 . The controller according to claim 4 , wherein said predetermined time period is a time period from said time when said voltage feedback signal crosses zero to said time when said voltage feedback signal decreases and reaches a minimum value. 6 . The controller according to claim 2 , wherein said frequency-jittering signal is one of a triangular wave and a sinusoidal wave. 7 . The controller according to claim 2 , wherein said superimpose circuit changes an initial value of said superimposed signal in accordance with said frequency-jittering signal over time, which initial value is a value when said power transistor is turned on after being turned off. 8 . The controller according to claim 2 , wherein said superimpose circuit changes a slope of said superimposed signal in accordance with said frequency-jittering signal over time, which slope is a rate of change of said superimposed signal when said power transistor is turned on. 9 . The controller according to claim 2 , wherein said frequency-jittering signal generating circuit comprises: a first current source and a first switch which are connected in series between said output terminal and ground; a second current source and a second switch which are connected in series between said output terminal and ground; and a capacitor which is connected between said output terminal and ground, wherein said first current source and said second current source provide currents flowing in opposite directions, and said first switch and said second switch are turned on alternatively. 10 . The controller according to claim 9 , wherein said first current source and said second current source are both voltage-controlled current sources, and said frequency-jittering signal generating circuit further comprises: a third comparator configured to compare said control voltage and said reference voltage to generate said switching control signal; a third switch configured to be turned on and off in accordance with said switching control signal, wherein said third switch provides said control voltage to control terminals of said first current source and said second current source to change current values of said first current source and said second current source when said third switch is turned on. 11 . The controller according to claim 10 , further comprising a voltage feedback circuit configured to adjust said voltage feedback signal to obtain said control voltage which represents an output voltage of said switching power supply. 12 . The controller according to claim 10 , wherein said frequency-jittering signal generating circuit does not output a frequency-jittering signal when said control voltage is smaller than said reference voltage. 13 . The controller according to claim 10 , wherein said frequency-jittering signal generating circuit outputs said frequency-jittering signal having a maximum value in a range of 10 percent and 20 percent of a maximum value of said sampling signal of said inductor current when said control voltage is larger than said reference voltage. 14 . The controller according to claim 2 , wherein said superimpose circuit is a voltage-controlled gain amplifier circuit. 15 . The controller according to claim 14 , wherein said superimpose circuit comprises a first input terminal for receiving said sampling signal of said inductor current, a second input terminal for receiving said frequency-jittering signal and an output terminal for providing said superimposed signal. 16 . The controller according to claim 15 , wherein said superimpose circuit further comprises: a transistor and a plurality of divider resistors, which are connected in series between a supply voltage and ground; a selection circuit configured to connect one of nodes between adjacent ones of said divider resistors with said output terminal; and a comparator configured to compare said sampling signal of said inductor current with said reference voltage to control current flowing through said transistor, wherein said reference voltage is a voltage at one of said nodes between adjacent ones of said divider resistors, and said plurality of divider resistors have different resistance values. 17 . The controller according to claim 16 , wherein said resistance values of said plurality of divider resistors gradually increases or decreases from a power supply terminal to ground. 18 . A controlling method of said switching power supply for turning on and off a power transistor so that an inductor being connected in series with said power transistor generates an inductor current, comprising: generating a frequency-jittering signal variable over time; superimposing a sampling signal of said inductor current on said frequency-jittering signal to generate a superimposed signal; and comparing said superimposed signal with a control voltage to generate an OFF signal for turning off said power transistor. 19 . The controlling method according to claim 18 , further comprising: generating an ON signal; generating a switching control signal in accordance with said ON signal and said OFF signal; and generating a driving signal for said power transistor in accordance with said switching control signal. 20 . The controlling method according to claim 19 , wherein said step of generating said ON signal comprises: generating said ON signal by a timing circuit. 21 . The controlling method according to claim 19 , wherein said step of generating said ON signal comprises: comparing a voltage feedback signal corresponding to a voltage across said power transistor with a reference signal to generate a zero-crossing reference signal; and generating a valid ON signal when a predetermined time period has elapsed after said voltage feedback signal crosses zero.
Assignees
Inventors
Classifications
- H02M1/08Primary
Circuits specially adapted for the generation of control voltages for semiconductor devices incorporated in static converters · CPC title
with galvanic isolation between input and output of both the power stage and the feedback loop · CPC title
Circuits or arrangements for compensating for electromagnetic interference in converters or inverters · CPC title
Details of control, feedback or regulation circuits · CPC title
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Frequently asked questions
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- What does patent US2016156259A1 cover?
- The present disclosure relates to a controller and a controlling method of a switching power supply. The controller of the switching power supply is used for turning on and off a power transistor so that inductor current flows through an inductor which is connected in series with the power transistor. The controller includes a frequency-jittering signal generating circuit, a superimpose circuit…
- Who is the assignee on this patent?
- Silergy Semiconductor Technology Hangzhou Ltd
- What technology area does this patent fall under?
- Primary CPC classification H02M1/08. Mapped technology areas include Electricity.
- When was this patent published?
- Publication date Thu Jun 02 2016 00:00:00 GMT+0000 (Coordinated Universal Time) (A1). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 8 related publications on this page (citations in our corpus or others sharing the same primary CPC).