Peak current controlled converter with additional current threshold control level to limit current tailout during overload conditions
First Claim
1. A power converter circuit comprisinginput means for accepting a DC voltage,output means for accepting a load,a power switch connected to couple the input means to the output means,means for periodically initiating conduction in the power switch,means for sensing a current in the power switch,means for sensing a voltage at the output means,means for comparing a voltage of said means for sensing a voltage and generating an error voltage,means for converting a current at said means for sensing a current to a representative voltage,means for comparing the error voltage with the representative voltage and generating a stop signal when the representative voltage equals the error voltage to achieve voltage regulation,means for terminating conduction in the power switch in response to the stop signal of the means for comparing,means for establishing a current regulation voltage,means for comparing the current regulation voltage with the representative voltage and generating a second stop signal when the current regulation voltage equals the representative voltage to achieve current regulation,means for establishing a tailout control voltage,means for comparing the representative voltage with the tailout control voltage and generating a disable signal when the representative voltage is greater than the tailout control voltage, andmeans for inhibiting operation of the means for periodically initiating conduction in the power switch in response to the disable signal.
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Accused Products
Abstract
A power converter circuit, which is voltage-regulated and current-limited by a peak current control circuit, significantly reduces the current tailout effect by decreasing the frequency of operation of the converter during low voltage output current-limited operation by increasing the nonconduction interval of the power switch while maintaining a fixed conduction interval.
The peak current control circuit periodically initiates current conduction in the power switch in response to a clock pulse, and terminates conduction when a peak current level is attained. The peak current control includes circuitry to compare decaying current in the filter circuit during nonconducting intervals with a preset current tailout threshold level. The periodic triggering of the power switch into conduction is inhibited until current has decayed to this current tailout threshold level.
38 Citations
6 Claims
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1. A power converter circuit comprising
input means for accepting a DC voltage, output means for accepting a load, a power switch connected to couple the input means to the output means, means for periodically initiating conduction in the power switch, means for sensing a current in the power switch, means for sensing a voltage at the output means, means for comparing a voltage of said means for sensing a voltage and generating an error voltage, means for converting a current at said means for sensing a current to a representative voltage, means for comparing the error voltage with the representative voltage and generating a stop signal when the representative voltage equals the error voltage to achieve voltage regulation, means for terminating conduction in the power switch in response to the stop signal of the means for comparing, means for establishing a current regulation voltage, means for comparing the current regulation voltage with the representative voltage and generating a second stop signal when the current regulation voltage equals the representative voltage to achieve current regulation, means for establishing a tailout control voltage, means for comparing the representative voltage with the tailout control voltage and generating a disable signal when the representative voltage is greater than the tailout control voltage, and means for inhibiting operation of the means for periodically initiating conduction in the power switch in response to the disable signal.
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4. A power converter comprising:
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input and output means a power switching device coupling the input and output means and periodically initiated into conduction in response to a periodic pulse source, means for sensing a current in the power switching device and generating a representative voltage of a magnitude of the current, voltage regulation means for generating a first control voltage, current regulation means for generating a second control voltage, means for terminating conduction in the power switching device when the representative voltage equals one of the first and second control voltages, a threshold voltage source and means for inhibiting periodic initiation of conduction of the power switching device while the current regulation means is operative by disabling the periodic pulse source initiating conduction in the power switching device until the representative voltage is less than a voltage of the threshold voltage source, whereby the power switching device has extended intervals of nonconduction when the second control voltage is less than the threshold voltage. - View Dependent Claims (5, 6)
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Specification