Systems and methods for constant current control with primary-side sensing and regulation in various operation modes
First Claim
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1. A system for regulating a power converter, the system comprising:
- a voltage-to-current converter configured to generate a first current signal;
a current-signal generator configured to generate a second current signal;
a capacitor coupled to the current-signal generator and the voltage-to-current converter, the capacitor being configured to generate a voltage signal; and
a drive signal generator configured to receive the voltage signal and a sensed signal, generate a drive signal based at least in part on the voltage signal and the sensed signal, and output the drive signal to a switch to affect a primary current of a power converter, the sensed signal being associated with the primary current;
wherein the voltage-to-current converter is further configured to generate the first current signal based at least in part on the voltage signal;
wherein;
the drive signal is associated with at least one or more switching periods, each switching period of the one or more switching periods including at least an on-time period for the switch and a demagnetization period for a demagnetization process; and
the first current signal represents the primary current at an end of the on-time period;
wherein for each switching period of the one or more switching periods,the first current signal discharges or charges the capacitor during only the demagnetization period;
the second current signal charges or discharges the capacitor during the switching period; and
the switching period multiplied by the second current signal is equal to the demagnetization period multiplied by the first current signal in magnitude.
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Abstract
System and method for regulating a power converter. The system includes a first signal processing component configured to receive at least a sensed signal and generate a first signal. The sensed signal is associated with a primary current flowing through a primary winding coupled to a secondary winding for a power converter. Additionally, the system includes a second signal processing component configured to generate a second signal, an integrator component configured to receive the first signal and the second signal and generate a third signal, and a comparator configured to process information associated with the third signal and the sensed signal and generate a comparison signal based on at least information associated with the third signal and the sensed signal.
110 Citations
25 Claims
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1. A system for regulating a power converter, the system comprising:
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a voltage-to-current converter configured to generate a first current signal; a current-signal generator configured to generate a second current signal; a capacitor coupled to the current-signal generator and the voltage-to-current converter, the capacitor being configured to generate a voltage signal; and a drive signal generator configured to receive the voltage signal and a sensed signal, generate a drive signal based at least in part on the voltage signal and the sensed signal, and output the drive signal to a switch to affect a primary current of a power converter, the sensed signal being associated with the primary current; wherein the voltage-to-current converter is further configured to generate the first current signal based at least in part on the voltage signal; wherein; the drive signal is associated with at least one or more switching periods, each switching period of the one or more switching periods including at least an on-time period for the switch and a demagnetization period for a demagnetization process; and the first current signal represents the primary current at an end of the on-time period; wherein for each switching period of the one or more switching periods, the first current signal discharges or charges the capacitor during only the demagnetization period; the second current signal charges or discharges the capacitor during the switching period; and the switching period multiplied by the second current signal is equal to the demagnetization period multiplied by the first current signal in magnitude. - View Dependent Claims (2, 3, 4, 5)
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6. A method for regulating a power converter, the method comprising:
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generating a first current signal and a second current signal; processing the first current signal and the second current signal; generating a voltage signal, by a capacitor, based at least in part on the first current signal and the second current signal; generating a drive signal based at least in part on the voltage signal and a sensed signal, the sensed signal being associated with a primary current of a power converter; and outputting the drive signal to affect the primary current; wherein the generating a first current signal and a second current signal includes generating the first current signal based at least in part on the voltage signal; wherein; the drive signal is associated with at least one or more switching periods, each switching period of the one or more switching periods including at least an on-time period and a demagnetization period; and the first current signal represents the primary current at an end of the on-time period; wherein for each switching period of the one or more switching periods, the processing the first current signal and the second current signal includes; discharging or charging the capacitor with the first current signal during only the demagnetization period; and charging or discharging the capacitor with the second current signal during the switching period; wherein the switching period multiplied by the second current signal is equal to the demagnetization period multiplied by the first current signal in magnitude.
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7. A system for regulating a power converter, the system comprising:
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a first signal generator configured to receive a sensed signal and generate a first current signal, the sensed signal being associated with a primary current of a power converter; a second signal generator configured to receive the sensed signal and generate a second current signal; a current-signal generator configured to generate a third current signal; a capacitor coupled to the current-signal generator, the first signal generator, and the second signal generator, the capacitor being configured to generate a voltage signal; and a drive signal generator configured to generate a drive signal based at least in part on the voltage signal and a ramping signal, and output the drive signal to a switch to affect the primary current; wherein; the drive signal is associated with at least a plurality of switching periods, each switching period of the plurality of switching periods including at least an on-time period for the switch and a demagnetization period for a demagnetization process; the first current signal represents the primary current at a beginning of the on-time period; and the second current signal represents the primary current at an end of the on-time period; wherein for each switching period of the plurality of switching periods, the first current signal and the second current signal discharge or charge the capacitor during only the demagnetization period; and the third current signal charges or discharges the capacitor during the switching period; wherein over the plurality of switching periods, accumulatively, the switching period multiplied by the third current signal is equal to the demagnetization period multiplied by a sum of the first current signal and the second current signal in magnitude. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 17)
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16. The system of claim wherein the on-time period is constant.
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18. A method for regulating a power converter, the method comprising:
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receiving a sensed signal, the sensed signal being associated with a primary current of a power converter; generating a first current signal and a second current signal based at least in part on the sensed signal; generating a third current signal; processing information associated with the first current signal, the second current signal and the third current signal; generating a voltage signal, by at least a capacitor, based at least in part on the first current signal, the second current signal and the third current signal; generating a drive signal based at least in part on the voltage signal and a ramping signal; and outputting the drive signal to affect the primary current; wherein; the drive signal is associated with at least a plurality of switching periods, each switching period of the plurality of switching periods including at least an on-time period and a demagnetization period; the first current signal represents the primary current at a beginning of the on-time period; and the second current signal represents the primary current at an end of the on-time period; wherein for each switching period of the plurality of switching periods, the processing information associated with the first current signal, the second current signal and the third current signal includes; discharging or charging the capacitor with the first current signal and the second current signal during only the demagnetization period; and charging or discharging the capacitor with the third current signal during the switching period; wherein over the plurality of switching periods, accumulatively, the switching period multiplied by the third current signal is equal to the demagnetization period multiplied by a sum of the first current signal and the second current signal in magnitude.
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19. A system for regulating a power converter, the system comprising:
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a voltage-to-current converter configured to generate a first current signal; a current-signal generator configured to generate a second current signal; a capacitor coupled to the current-signal generator and the voltage-to-current converter, the capacitor being configured to generate a voltage signal; a multiplication signal generator configured to generate a multiplication signal based at least in part on the voltage signal and an input signal, the input signal being related to a primary winding; and a drive signal generator configured to receive the multiplication signal and a sensed signal, generate a drive signal based at least in part on the multiplication signal and the sensed signal, and output the drive signal to a switch to affect a primary current flowing through the primary winding; wherein the voltage-to-current converter is further configured to process information associated with the multiplication signal and generate the first current signal based on at least information associated with the multiplication signal; wherein; the drive signal is associated with at least a plurality of switching periods, each switching period of the plurality of switching periods including at least an on-time period for the switch and a demagnetization period for a demagnetization process; and the first current signal represents the primary current at an end of the on-time period; wherein for each switching period of the plurality of switching periods, the first current signal discharges or charges the capacitor during only the demagnetization period; and the second current signal charges or discharges the capacitor during the switching period; wherein over the plurality of switching periods, accumulatively, the switching period multiplied by the second current signal is equal to the demagnetization period multiplied by the first current signal in magnitude. - View Dependent Claims (20, 21, 22, 23, 24)
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25. A method for regulating a power converter, the method comprising:
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generating a first current signal and a second current signal; processing the first current signal and the second current signal; generating a voltage signal, by at least a capacitor, based at least in part on the first current signal and the second current signal; generating a multiplication signal based at least in part on the voltage signal and an input signal, the input signal being related to a primary winding; generating a drive signal based at least in part on the multiplication signal and a sensed signal; and outputting the drive signal to affect a primary current flowing through the primary winding; wherein the generating a first current signal and a second current signal includes generating the first current signal based at least in part on the multiplication signal; wherein; the drive signal is associated with at least a plurality of switching periods, each switching period of the plurality of switching periods including at least an on-time period and a demagnetization period; and the first current signal represents the primary current at an end of the on-time period; wherein for each switching period of the plurality of switching periods, the processing the first current signal and the second current signal includes; discharging or charging the capacitor with the first current signal during only the demagnetization period; and charging or discharging the capacitor with the second current signal during the switching period; wherein over the plurality of switching periods, accumulatively, the switching period multiplied by the second current signal is equal to the demagnetization period multiplied by the first current signal in magnitude.
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Specification
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Current AssigneeGuangzhou On-Bright Electronics Co., Ltd
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Original AssigneeGuangzhou On-Bright Electronics Co., Ltd
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InventorsFang, Lieyi, Lin, Guo Wei
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Primary Examiner(s)Berhane, Adolf
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Assistant Examiner(s)DEMISSE, AFEWORK S
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Application NumberUS15/707,184Publication NumberTime in Patent Office456 DaysField of SearchUS Class CurrentCPC Class CodesH02M 1/0009 Devices or circuits for det...H02M 1/08 Circuits specially adapted ...H02M 3/33507 with automatic control of t...H02M 3/33515 with digital controlY02B 70/10 Technologies improving the ...
