LED lighting systems and methods for constant current control in various operation modes
First Claim
1. A system for providing at least an output current to one or more light emitting diodes, the system comprising:
- a first sampling-and-holding and voltage-to-current-conversion component configured to receive at least a sensed signal and generate a first current signal, the sensed signal being associated with an inductor current flowing through an inductor coupled to a first switch;
a second sampling-and-holding and voltage-to-current-conversion component configured to receive at least the sensed signal and generate a second current signal;
a signal-amplification and voltage-to-current-conversion component configured to receive at least the sensed signal and generate a third current signal;
a current-signal generator configured to generate a fourth current signal;
a capacitor coupled to the current-signal generator, coupled through a second switch to the first sampling-and-holding and voltage-to-current-conversion component and the second sampling-and-holding and voltage-to-current-conversion component, and coupled through a third switch to the signal-amplification and voltage-to-current-conversion component, the capacitor being configured to generate a first voltage signal;
a multiplier component configured to process information associated with the first voltage signal and a second voltage signal and generate a multiplication signal based on at least information associated with the first voltage signal and the second voltage signal;
a comparator configured to receive the multiplication signal and the sensed signal and generate a comparison signal based on at least information associated with the multiplication signal and the sensed signal;
a modulation-signal generator configured to receive at least the comparison signal and generate a modulation signal; and
a gate driver configured to receive the modulation signal and output a drive signal to the first switch;
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 first switch and a demagnetization period for a demagnetization process;
the first current signal represents the inductor current at the beginning of the on-time period;
the second current signal represents the inductor current at an end of the on-time period; and
the third current signal represents the inductor current;
wherein for each switching period of the plurality of switching periods,the first current signal and the second current signal are configured to discharge or charge the capacitor during only the demagnetization period;
the third current signal is configured to discharge or charge the capacitor during only the on-time period; and
the fourth current signal is configured to charge or discharge the capacitor during the switching period.
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Accused Products
Abstract
System and method for providing at least an output current to one or more light emitting diodes. The system includes a control component configured to receive at least a demagnetization signal, a sensed signal and a reference signal and to generate a control signal based on at least information associated with the demagnetization signal, the sensed signal and the reference signal, and a logic and driving component configured to receive at least the control signal and output a drive signal to a switch based on at least information associated with the control signal. The switch is connected to a first diode terminal of a diode and a first inductor terminal of an inductor. The diode further includes a second diode terminal, and the inductor further includes a second inductor terminal.
111 Citations
14 Claims
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1. A system for providing at least an output current to one or more light emitting diodes, the system comprising:
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a first sampling-and-holding and voltage-to-current-conversion component configured to receive at least a sensed signal and generate a first current signal, the sensed signal being associated with an inductor current flowing through an inductor coupled to a first switch; a second sampling-and-holding and voltage-to-current-conversion component configured to receive at least the sensed signal and generate a second current signal; a signal-amplification and voltage-to-current-conversion component configured to receive at least the sensed signal and generate a third current signal; a current-signal generator configured to generate a fourth current signal; a capacitor coupled to the current-signal generator, coupled through a second switch to the first sampling-and-holding and voltage-to-current-conversion component and the second sampling-and-holding and voltage-to-current-conversion component, and coupled through a third switch to the signal-amplification and voltage-to-current-conversion component, the capacitor being configured to generate a first voltage signal; a multiplier component configured to process information associated with the first voltage signal and a second voltage signal and generate a multiplication signal based on at least information associated with the first voltage signal and the second voltage signal; a comparator configured to receive the multiplication signal and the sensed signal and generate a comparison signal based on at least information associated with the multiplication signal and the sensed signal; a modulation-signal generator configured to receive at least the comparison signal and generate a modulation signal; and a gate driver configured to receive the modulation signal and output a drive signal to the first switch; 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 first switch and a demagnetization period for a demagnetization process; the first current signal represents the inductor current at the beginning of the on-time period; the second current signal represents the inductor current at an end of the on-time period; and the third current signal represents the inductor current; wherein for each switching period of the plurality of switching periods, the first current signal and the second current signal are configured to discharge or charge the capacitor during only the demagnetization period; the third current signal is configured to discharge or charge the capacitor during only the on-time period; and the fourth current signal is configured to charge or discharge the capacitor during the switching period. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for providing at least an output current to one or more light emitting diodes, the method comprising:
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receiving at least a sensed signal, the sensed signal being associated with an inductor current flowing through an inductor coupled to a switch; processing information associated with the sensed signal; generating a first current signal, a second current signal, and a third current signal based on at least information associated with the sensed signal; generating a fourth current signal; processing information associated with the first current signal, the second current signal, the third current signal, and the fourth current signal; generating a first voltage signal, by at least a capacitor, based on at least information associated with the first current signal, the second current signal, the third current signal, and the fourth current signal; processing information associated with the first voltage signal and a second voltage signal; generating a multiplication signal based on at least information associated with the first voltage signal and the second voltage signal; receiving the multiplication signal and the sensed signal; generating a comparison signal based on at least information associated with the multiplication signal and the sensed signal; receiving at least the comparison signal; generating a modulation signal based on at least information associated with the comparison signal; receiving the modulation signal; and outputting a drive signal based on at least information associated with the modulation 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; the first current signal represents the inductor current at the beginning of the on-time period; the second current signal represents the inductor current at an end of the on-time period; and the third current signal represents the inductor current; wherein for each switching period of the plurality of switching periods, the process for processing information associated with the first current signal, the second current signal, the third current signal, and the fourth current signal includes; discharging or charging the capacitor with the first current signal and the second current signal during only the demagnetization period; discharging or charging the capacitor with the third current signal during only the on-time period; and charging or discharging the capacitor with the fourth current signal during the switching period. - View Dependent Claims (14)
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Specification