Series-parallel switchable capacitor charging system
First Claim
1. Method of charging a capacitor, comprising:
- providing two rectified current supplies;
providing switching means, consisting essentially of two diodes and a single switch connected to the two rectified current supplies;
switching the rectified current supplies into a parallel connected configuration, by causing the switch to be open, and charging a capacitor; and
switching the rectified current supplies into a series connected configuration, by causing the switch to be closed, and further charging the capacitor;
wherein during charging and further charging of the capacitor, a load is imposed on the two rectified current supplies and the load is shared equally by each of the two rectified current supplies;
further comprising;
providing two additional rectified current supplies, the two additional rectified current supplies sharing equally in the load with each other and with the two rectified current supplies;
providing additional switching means consisting essentially of two additional diodes and an additional switch connected to the two additional rectified current supplies;
switching the two additional rectified current supplies into a parallel connected configuration, by causing the additional switch to be open, for charging the capacitor; and
switching the additional rectified current supplies into a series connected configuration, by causing the additional switch to be closed, for further charging the capacitor.
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Accused Products
Abstract
In a capacitor charging system having multiple rectified outputs of secondary (transformer) windings, the rectified outputs are connected in parallel for enhanced charging of an energy-storage capacitor below a threshold voltage, and are connected in series above the threshold voltage. In the parallel mode, forward biased diodes connected from rectifier-to-rectifier effect the parallel connection. In the series mode, a switch closure effectively connects the rectifiers in series, which reverse biases the diodes. For switching two or more rectified outputs, the number of switch closures required is one less than the secondary windings. Multiple windings (and rectifiers) can be paired and switched, and two or more thresholds can be employed.
85 Citations
19 Claims
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1. Method of charging a capacitor, comprising:
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providing two rectified current supplies; providing switching means, consisting essentially of two diodes and a single switch connected to the two rectified current supplies; switching the rectified current supplies into a parallel connected configuration, by causing the switch to be open, and charging a capacitor; and switching the rectified current supplies into a series connected configuration, by causing the switch to be closed, and further charging the capacitor; wherein during charging and further charging of the capacitor, a load is imposed on the two rectified current supplies and the load is shared equally by each of the two rectified current supplies; further comprising; providing two additional rectified current supplies, the two additional rectified current supplies sharing equally in the load with each other and with the two rectified current supplies; providing additional switching means consisting essentially of two additional diodes and an additional switch connected to the two additional rectified current supplies; switching the two additional rectified current supplies into a parallel connected configuration, by causing the additional switch to be open, for charging the capacitor; and switching the additional rectified current supplies into a series connected configuration, by causing the additional switch to be closed, for further charging the capacitor. - View Dependent Claims (2, 3)
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4. Power supply for charging a capacitor, comprising:
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a transformer having a primary winding and having a number, at least two, of secondary windings; means for providing an alternating current driving waveform across the primary winding of the transformer; a number, at least two, of rectifiers of the single-junction type, wherein the number of rectifiers is equal to the number of secondary windings, each one of the at least two rectifiers connected to rectify alternating current from a respective one of the secondary windings, each one of the at least two rectifiers providing a respective positive output, and each one of the at least two rectifiers providing a respective negative output; one of the positive outputs being a positive charging output, all but the one of the positive outputs being remaining positive outputs, wherein there is a number, at least one, of remaining positive outputs; one of the negative outputs being a negative charging output, all but the one of the negative outputs being remaining negative outputs, wherein there is a number, at least one, of remaining negative outputs; a first number of first current rectifying devices, equal in number to the number of remaining positive outputs, each of the first current rectifying devices connected by an anode terminal to a respective one of the remaining positive outputs and connected by a cathode terminal to the positive charging output, wherein, in the case of there being three or more secondary windings, a first portion of the first number of the first current rectifying devices being a pair of diodes connected in series with one another, a second portion of the first number of the first current rectifying device being single diodes; a second number of second current rectifying devices, equal in number to the number of remaining negative outputs, each of the second current rectifying devices connected by a cathode terminal to a respective one of the remaining negative outputs and connected by an anode terminal to the negative charging output, wherein, in the case of there being three or more secondary windings, a first portion of the second number of the second current rectifying devices being a pair of diodes connected in series with one another, a second portion of the second number of the second current rectifying device being single diodes; a number, one less than the number of secondary windings, of control switches, each control switch having a first terminal and a second terminal; and for each of the control switches, the first terminal is connected to one of the remaining positive outputs associated with a first selected one of the rectifiers, and the second terminal is connected to one of the remaining negative outputs associated with a second selected one of the rectifiers. - View Dependent Claims (5, 6, 7, 8)
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9. Method of charging a capacitor, comprising:
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providing at least two rectified current supplies; providing switching means, consisting essentially of two diodes and a single switch connected to the two rectified current supplies; switching the rectified current supplies into a parallel connected configuration, and charging a capacitor; switching the rectified current supplies into a series connected configuration, and further charging the capacitor; providing at least two additional rectified current supplies; providing additional switching means consisting essentially of two additional diodes and an additional switch connected to the two additional rectified current supplies; switching the additional rectified current supplies into a parallel connected configuration, by causing the additional switching means to be open, for charging the capacitor; and switching the additional rectified current supplies into a series connected configuration, by causing the additional switching means to be closed, for further charging the capacitor. - View Dependent Claims (10, 11)
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12. Power supply for charging a capacitor, comprising:
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a transformer having a primary winding and having a number of secondary windings, wherein the number of secondary windings is at least two; means for providing an alternating current driving waveform across the primary winding of the transformer; a number of rectifiers, equal in number to the number of secondary windings, each rectifier connected to a respective one of the secondary windings to rectify alternating current from the secondary winding, thereby each rectifier providing a positive output and a negative output associated with each secondary winding; a first selected one of the positive outputs being a positive charging output, all other positive outputs being remaining positive outputs; a first selected one of the negative outputs being a negative charging output, all other negative outputs being remaining negative outputs; first at least one first current rectifying devices, equal in number to the number of remaining positive outputs, each first current rectifying device connected by an anode terminal to a respective remaining positive output and by a cathode terminal to the first selected one of the positive outputs, wherein, in the case of there being three or more secondary windings, a first portion of the first at least one first current rectifying devices being a pair of diodes connected in series with one another, a second portion of the first at least one first current rectifying devices being single diodes; second at least one second current rectifying devices, equal in number to the number of remaining negative outputs, each second current rectifying device connected by a cathode terminal to a respective remaining negative output and by an anode terminal to the first selected one of the negative outputs, wherein, in the case of there being three or more secondary windings, a first portion of the second at least one second current rectifying devices being a pair of diodes connected in series with one another, a second portion of the second at least one second current rectifying devices being single diodes; and a number of control switches, one less in number than the number of secondary windings, each of the control switches having two terminals, a first terminal and a second terminal, wherein the number of control switches is at least one; wherein; for each of the control switches, the first terminal is connected to a selected one of the remaining positive outputs of a first selected one of the rectifiers; for each of the control switches, the second terminal is connected to a selected one of the remaining negative outputs of a second selected one of the rectifiers. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19)
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Specification