Voltage control circuit for a multiple stage DC power supply, and applications thereof
First Claim
1. A voltage controller circuit, comprising:
- first and second output terminals;
at least three energy storage devices;
at least three solid state switch devices respectively connected in series between a first said energy storage device and a second said energy storage device, between the second said energy storage device and a third said energy storage device, and between the third said energy storage device and the second output terminal of the controller;
driver circuit means for switching said solid state switch devices on or off to respectively series connect said first energy storage device to said second energy storage device, said second energy storage device to said third energy storage device, and said third energy storage device to the second output terminal;
a general control solid state switch connected in series between the first output terminal and the first said energy storage device;
a first diode connected in parallel with said series connected first energy storage device and first solid state switch device, a second diode connected in parallel with said series connected second energy storage device and second solid state switch device, a third diode connected in parallel with said series connected first solid state switch device and second energy storage device, and a fourth diode connected in parallel with said second solid state switch device and third energy storage device,and means for controlling said switches to alternately select one of at least three output voltage levels to form a pulse width modulated staircase voltage, whereinthe first voltage step is obtained by opening each of said solid state switch devices to initially connect each of the energy storage devices in parallel through said diodes, subsequently disconnecting said energy storage devices from the output terminals by opening the general control solid state switch, and then repeatedly closing and opening the general control solid state switch to connect and disconnect the parallel connected energy storage devices to and from the output terminals to obtain a pulse train the height of which is the height of said first voltage step,the second voltage step is obtained by initially opening one of said solid state switch devices to series-connect two of the energy storage devices so as to obtain a two-fold increase in output voltage, closing said one of said solid state switch devices to disconnect the two energy storage devices from each other, and then repeatedly opening and closing said one said solid state switch devices to obtain a train of pulses the bases of which are at the level of said first voltage step and the peaks of which form said second voltage step, andthe third voltage step is obtained by closing each of said solid state switch devices to connect three of the energy storage devices in series so as to obtain a three-fold increase in voltage, opening all but said one of said solid state switch devices which connects two of the energy storage devices in series, and then repeatedly opening and closing said all but said one of said solid state switch devices to form a train of pulses the base of which is at said second voltage step and the peaks of which form said third voltage step.
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Abstract
A voltage controller capable of generating a staircase voltage is made up of a plurality of energy storage devices series connected with respective solid state switch devices. The solid state switch devices can be turned on or off to connect different combinations of the batteries in series with the output of the controller, the voltage output being proportional to the number of batteries connected in series in any particular combination. By cycling between different switch combinations, and reversing the polarity of the output once every cycle, an approximated sine wave output can be obtained. By providing a voltage input, the device can also function as a voltage converter or transformer-like device. Individual steps can be pulse width modulated simply by controlling the switch combinations, and by adding a linear switch device at the input, analog modulation of the step voltages can be obtained.
34 Citations
11 Claims
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1. A voltage controller circuit, comprising:
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first and second output terminals; at least three energy storage devices; at least three solid state switch devices respectively connected in series between a first said energy storage device and a second said energy storage device, between the second said energy storage device and a third said energy storage device, and between the third said energy storage device and the second output terminal of the controller; driver circuit means for switching said solid state switch devices on or off to respectively series connect said first energy storage device to said second energy storage device, said second energy storage device to said third energy storage device, and said third energy storage device to the second output terminal; a general control solid state switch connected in series between the first output terminal and the first said energy storage device; a first diode connected in parallel with said series connected first energy storage device and first solid state switch device, a second diode connected in parallel with said series connected second energy storage device and second solid state switch device, a third diode connected in parallel with said series connected first solid state switch device and second energy storage device, and a fourth diode connected in parallel with said second solid state switch device and third energy storage device, and means for controlling said switches to alternately select one of at least three output voltage levels to form a pulse width modulated staircase voltage, wherein the first voltage step is obtained by opening each of said solid state switch devices to initially connect each of the energy storage devices in parallel through said diodes, subsequently disconnecting said energy storage devices from the output terminals by opening the general control solid state switch, and then repeatedly closing and opening the general control solid state switch to connect and disconnect the parallel connected energy storage devices to and from the output terminals to obtain a pulse train the height of which is the height of said first voltage step, the second voltage step is obtained by initially opening one of said solid state switch devices to series-connect two of the energy storage devices so as to obtain a two-fold increase in output voltage, closing said one of said solid state switch devices to disconnect the two energy storage devices from each other, and then repeatedly opening and closing said one said solid state switch devices to obtain a train of pulses the bases of which are at the level of said first voltage step and the peaks of which form said second voltage step, and the third voltage step is obtained by closing each of said solid state switch devices to connect three of the energy storage devices in series so as to obtain a three-fold increase in voltage, opening all but said one of said solid state switch devices which connects two of the energy storage devices in series, and then repeatedly opening and closing said all but said one of said solid state switch devices to form a train of pulses the base of which is at said second voltage step and the peaks of which form said third voltage step. - View Dependent Claims (2, 3)
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4. A voltage controller circuit comprising:
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first and second output terminals; at least three energy storage devices; at least three solid state switch devices respectively connected in series between a first said energy storage device and a second said energy storage device, between the second said energy storage device and a third said energy storage device, and between the third said energy storage device and the second output terminal of the controller; driver circuit means for switching said solid state switch devices on or off to respectively series connect said first energy storage device to said second energy storage device, said second energy storage device to said third energy storage device, and said third energy storage device to the second output terminal; a general control solid state switch connected in series between the first output terminal and the first said energy storage device; a first diode connected in parallel with said series connected first energy storage device and first solid state switch device, a second diode connected in parallel with said series connected second energy storage device and second solid state switch device, a third diode connected in parallel with said series connected first solid state switch device and second energy storage device, and a fourth diode connected in parallel with said second state switch device and third energy storage device, means for controlling said switch devices to select one of at least three output voltage steps to form a staircase voltage by opening selected ones of said switch devices to initially connect each of the energy storage devices in parallel, to then series-connect two of the energy storage devices so as to obtain a two-fold increase in output voltage, and to then connect three of the energy storage devices in series so as to obtain a three-fold increase in voltage, and means for varying a timing of said output voltage steps to form a half-wave output, the voltage controller increasing the voltage level supplied to said terminals in steps from zero to a high level, and then decreasing it back to zero. - View Dependent Claims (5, 6)
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7. A voltage controller circuit, comprising:
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first and second output terminals; at least three energy storage devices; at least three solid state switch devices respectively connected in series between a first said energy storage device and a second said energy storage device, between the second said energy storage device and a third said energy storage device, and between the third said energy storage device and the second output terminal of the controller; driver circuit means for switching said solid state switch devices on or off to respectively series connect said first energy storage device to said second energy storage device, said second energy storage device to said third energy storage device, and said third energy storage device to the second output terminal; a general control solid state switch connected in series between the first output terminal and the first said energy storage device; a first diode connected in parallel with said series connected first energy storage device and first solid state switch device, a second diode connected in parallel with said series connected second energy storage device and second solid state switch device, a third diode connected in parallel with said series connected first solid state switch device and second energy storage device, and a fourth diode connected in parallel with said second solid state switch device and third energy storage device, and means for controlling said switch devices to select one of at least three output voltage levels to form a staircase voltage by opening selected ones of said switch devices to initially connect each of the energy storage devices in parallel, to then series-connect two of the energy storage devices so as to obtain a two-fold increase in output voltage, and to then connect three of the energy storage devices in series so as to obtain a three-fold increase in voltage, and wherein the controller is connected to voltage input means for permitting a charging input to be applied to the energy storage devices through said terminals. - View Dependent Claims (8, 9, 10, 11)
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Specification