Voltage converter circuit
First Claim
1. A voltage converter circuit having an input and an output and one or more stages for increasing the voltage between the input and the output, each stage comprising:
- a first and second capacitor;
a transistor interposed between the first and second capacitors; and
a plurality of diodes interconnected among the transistor and the first and second capacitors, the plurality of diodes being configured to respond to a voltage applied to the input so that when a voltage is present at the input the first and second capacitors are effectively connected in parallel across the input, the plurality of diodes being further configured to respond to a voltage applied to the input so that when the voltage applied to the input is near zero, the first and second capacitors are effectively connected in series relationship through the transistor, so that a voltage across each of the first and second capacitors is added and applied to the output.
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Abstract
A voltage converter circuit and method are provided. The circuit includes an input and an output, and has one or more stages that operate to increase the voltage between the input and the output. In one embodiment, each of these stages includes a first and second charging capacitor, and a transistor interposed between the first and second charging capacitors. In addition, a plurality of diodes are interconnected among the transistor and the first and second charging capacitors. The diodes are specifically configured to respond to a voltage applied to the input so that when a voltage is present at the input, the first and second charging capacitors are effectively connected in parallel across the input. However, when the voltage applied to the input is near zero, the diodes serve to effectively connect the first and second charging capacitors in series relationship through the transistor, so that the voltage across each of the first and second charging capacitors is added and applied to the output. The method includes the steps of providing a time-varying voltage to a circuit input, configuring a plurality of charging capacitors in parallel fashion across the input, when a voltage is present across the input, in order to charge the charging capacitors, and reconfiguring the plurality of charging capacitors in series relationship, in response to a change in the magnitude of the input voltage, to transfer the cumulative charge of the charging capacitors to an output.
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Citations
25 Claims
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1. A voltage converter circuit having an input and an output and one or more stages for increasing the voltage between the input and the output, each stage comprising:
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a first and second capacitor; a transistor interposed between the first and second capacitors; and a plurality of diodes interconnected among the transistor and the first and second capacitors, the plurality of diodes being configured to respond to a voltage applied to the input so that when a voltage is present at the input the first and second capacitors are effectively connected in parallel across the input, the plurality of diodes being further configured to respond to a voltage applied to the input so that when the voltage applied to the input is near zero, the first and second capacitors are effectively connected in series relationship through the transistor, so that a voltage across each of the first and second capacitors is added and applied to the output. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A voltage converter circuit comprising:
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input terminals for receiving an input voltage; output terminals for delivering a high voltage pulsed output; a circuit interconnected between the input terminals and the output terminals having a plurality of charging capacitors; at least one switching means responsive to a voltage across the input terminals, the switching means being interposed between two of the plurality of the charging capacitors, the switching means being configured to electrically interconnect the two of the plurality of charging capacitors in parallel when the a voltage is present at the input terminals, the switching means being further configured to electrically interconnect the two of the plurality of charging capacitors in series when the voltage at the input terminals is near zero, the circuit being configured so that the voltages across the two of the plurality of charging capacitors is added and placed across the output terminals. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19)
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20. A method for increasing a voltage comprising the steps of:
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applying a time-varying voltage to an input; configuring a plurality of charging capacitors in parallel fashion across the input, when a voltage is present across the input, to charge the charging capacitors; reconfiguring the plurality of charging capacitors in series relationship, in response to a change in the magnitude of the input voltage, and applying the cumulative charge of the charging capacitors to an output. - View Dependent Claims (23, 24, 25)
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21. The method as defined in step 20, further including the step of charging a tank capacitor connected across the output by oscillating the time varying input voltage to repeatedly execute the configuring and reconfiguring steps.
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22. The method as defined in step 20, wherein the step of reconfiguring the charging capacitors is responsive to a change in the magnitude of the input voltage to a near zero value.
Specification