Start-up and running circuit for resonant transition power converters
First Claim
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1. A start-up and running circuit for a switch mode converter connected to a load, comprising:
- a) a pair of switching elements connected at a junction in a bridge mode configuration;
b) control means for controlling the switching operation of said switching elements;
c) resonant network means having at least an inductor and an output capacitor;
d) transformer means having a primary winding and a secondary winding, wherein the primary winding is parallel to said output capacitor and the secondary winding is connected to said load;
e) snubber capacitor means connected to the junction of said switching elements for generating AC current responsive to operation of said switching elements;
f) rectifying means including a first rectifier for rectifying the AC current generated by said snubber capacitor means;
g) storage capacitor means for storing charges corresponding to said AC current rectified by said rectifying means;
h) resistor means for supplying an initial charge to said storage capacitor means; and
i) voltage sensing switch means with hysteresis, connected to said resistor means and storage capacitor means for applying power to said control means when the voltage on said storage capacitor means reaches a predetermined threshold voltage.
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Abstract
The start-up circuit comprises a large valued resistor and a storage capacitor. A voltage sensing switch is connected to the junction of the resistor and storage capacitor on one hand and a voltage doubler on another. The voltage doubler is fed through a capacitor driven by a pair of switching elements arranged in a bridge configuration. The switching elements are driven by a control circuit which is supplied by the start-up and run circuitry. The output of the bridge feeds a resonant tank which is parallel loaded through the resonant capacitor by means of a transformer.
16 Citations
4 Claims
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1. A start-up and running circuit for a switch mode converter connected to a load, comprising:
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a) a pair of switching elements connected at a junction in a bridge mode configuration; b) control means for controlling the switching operation of said switching elements; c) resonant network means having at least an inductor and an output capacitor; d) transformer means having a primary winding and a secondary winding, wherein the primary winding is parallel to said output capacitor and the secondary winding is connected to said load; e) snubber capacitor means connected to the junction of said switching elements for generating AC current responsive to operation of said switching elements; f) rectifying means including a first rectifier for rectifying the AC current generated by said snubber capacitor means; g) storage capacitor means for storing charges corresponding to said AC current rectified by said rectifying means; h) resistor means for supplying an initial charge to said storage capacitor means; and i) voltage sensing switch means with hysteresis, connected to said resistor means and storage capacitor means for applying power to said control means when the voltage on said storage capacitor means reaches a predetermined threshold voltage. - View Dependent Claims (3)
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2. A start-up and running circuit for a switch mode converter connected to a load, comprising:
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a) a pair of switching elements connected at a junction in a bridge mode configuration; b) control means for controlling the switching operation of said switching elements; c) resonant network means having at least an inductor and an output capacitor; d) transformer means having a primary winding and a secondary winding, wherein the primary winding is parallel to said output capacitor and the secondary winding is connected to said load; e) snubber capacitor means connected to the junction of said switching elements for generating AC current responsive to operation of said switching elements; f) coupling capacitor means connected to the primary winding of said transformer for coupling said AC current; g) rectifying means including a first rectifier for rectifying the AC current generated by said coupling capacitor means; h) storage capacitor means for storing charges corresponding to said AC current rectified by said rectifying means; i) resistor means for supplying an initial charge to said storage capacitor means; and j) voltage sensing switch means with hysteresis, connected to said resistor means and storage capacitor means for applying power to said control means when the voltage on said storage capacitor means reaches a predetermined threshold voltage. - View Dependent Claims (4)
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Specification