Start-up circuit for an integrated-magnetic power converter
First Claim
1. In a power converter having a switch which is operated in response to the flow of current through secondary winding means of a drive transformer and which when repeatedly closed causes power to be transferred through the converter, the drive transformer having primary winding means which is energized in response to the output of the converter, a circuit comprising:
- another winding on the drive transformer which is transformer coupled to the secondary winding means of the drive transformer;
a capacitor which is charged to a predetermined level by the application of power to the input of the converter; and
means, operated in response to the charging of said capacitor to said predetermined level, for passing a current pulse through said another winding and triggering the converter into operation and for using the flow of current through the primary winding of the drive transformer to prevent said capacitor from thereafter being charged to said predetermined level by discharging said capacitor prior to said predetermined level.
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Accused Products
Abstract
An innovative start-up circuit is disclosed which uses ordinary solid-state components and which may be used with a wide variety of switched mode boost-buck integrated magnetic power converters, including those having only two winding bobbins, a boost section with enhanced gain, and several new and different core arrangements. The start-up circuit comprises a winding which is transformer coupled to the drive transformer, a capacitor which is charged by the application of power to the input of the converter, switching means for switching current from the input of the converter to the drive transformer in response to the charging of the capacitor, and means for preventing the capacitor from operating the switching means after the converter is placed into operation.
31 Citations
24 Claims
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1. In a power converter having a switch which is operated in response to the flow of current through secondary winding means of a drive transformer and which when repeatedly closed causes power to be transferred through the converter, the drive transformer having primary winding means which is energized in response to the output of the converter, a circuit comprising:
- another winding on the drive transformer which is transformer coupled to the secondary winding means of the drive transformer;
a capacitor which is charged to a predetermined level by the application of power to the input of the converter; and
means, operated in response to the charging of said capacitor to said predetermined level, for passing a current pulse through said another winding and triggering the converter into operation and for using the flow of current through the primary winding of the drive transformer to prevent said capacitor from thereafter being charged to said predetermined level by discharging said capacitor prior to said predetermined level.
- another winding on the drive transformer which is transformer coupled to the secondary winding means of the drive transformer;
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2. A start-up circuit for a power converter of the type having a primary side to which power is supplied, having at least one switch which is operated in response to current flowing in a secondary winding of a drive transformer and which controls the flow of current through the converter and having a controller for controlling the flow of current through the primary winding of the drive transformer, comprising:
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(a) another winding which is transformer coupled to the secondary winding of the drive transformer; (b) a capacitor which is charged by application of power to the input of the converter; and (c) switching means, triggered into operation by the charging of said capacitor and connected in series to one end of said another winding, for switching current from the primary side of the converter to said another winding to place said converter in operation, said switching means being triggered into operation when said capacitor is charged to a predetermined level, said switching means including means for preventing said capacitor from triggering said switching means after the converter is in operation by discharging said capacitor before reaching said predetermined level after said controller is in operation. - View Dependent Claims (3, 4, 5, 6, 7, 8)
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9. In a converter having power transformer means including a primary winding and a secondary winding;
- having controller means for generating a train of voltage pulses as a function of the output of the converter;
having switch means for applying at least a portion of the input voltage of the converter across the primary winding; and
having drive means for using the train of voltage pulses to operate said switch means, the drive means comprising a first winding that is adapted to receive the train of voltage pulses from the controller means and a second winding that is transformer coupled to the first winding so as to operate the switch means, a start-up circuit which comprises;
transformer isolated voltage sensing means, utilizing the input to the converter and the train of voltage pulses from the controller means, for applying a transformer isolated voltage pulse to said drive means when said train of voltage pulses from the controller means is absent and when a predetermined voltage level is sensed that is a function of the converter input voltage, said transformer isolated voltage sensing means comprising a third winding that is transformer coupled to the first winding and the second winding such that the application of said voltage pulses to the first winding produces a voltage across the third winding and the second winding. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
- having controller means for generating a train of voltage pulses as a function of the output of the converter;
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19. A start-up circuit for a power converter having at least one switch which rapidly opens and closes in response to a drive transformer and which controls the flow of power from the input to the output of the converter, the drive transformer comprising primary winding means and a secondary winding means, the primary winding means being energized in response to the operation of a controller which senses the flow of power through the converter, the switch being energized in response to the flow of current through the secondary winding means, comprising:
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(a) capacitor means charged to a first level by the application of voltage to the input of the converter; (b) another winding which is transformer coupled to the primary winding means and the secondary winding means of the drive transformer; and (c) switch means, operating in response to the voltage potential across said another winding and the charging of said capacitor means to said first level, for discharging said capacitor means through said another winding when said controller is not operating and for discharging said capacitor before reaching said first level when said controller is operating, said switch means being initially operated by said capacitor means when voltage is applied to said converter input, the flow of current from the discharging of said capacitor inducing a voltage in the secondary of the drive transformer whereby current flows through the converter, the controller is energized, and the primary winding means is energized, the flow of current through the primary winding means inducing a voltage in said another winding to keep said capacitor means from charging so high so as to control the operation of said switch means after the controller is operating. - View Dependent Claims (20, 21, 22, 23)
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24. A start-up circuit for a power converter of the type having at least one switch which is repeatedly operated in response to current flowing in a secondary winding of a drive transformer and which controls the flow of current through the converter, the drive transformer having a primary winding which is energized in response to a controller which is responsive to the output of the converter, comprising:
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(a) another winding which is transformer coupled to the secondary winding of the drive transformer; (b) a capacitor which is charged by application of power to the input of the converter; and (c) switching means triggered into operation by the charging of said capacitor to a predetermined value and connected in series to said another winding, for switching current from the primary of the converter to said another winding to place said converter in operation, said switching means including means for preventing said capacitor from triggering said switching means after the converter is in operation by discharging said capacitor before reaching said predetermined level.
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Specification