High voltage power supply having multiple high voltage generators
First Claim
1. A high voltage power supply for generating a controlled current in a load having component parts, comprising:
- (a) a timing generator producing a repetitive timing signal, wherein during each repetition of the timing signal the power supply cycles through a driving mode and a tracking mode;
(b) a first voltage generator connected to the timing generator and producing a tracking voltage during the tracking mode;
(c) a second voltage generator and the timing generator and coupled in cascode with the first voltage generator, the second voltage generator producing a base voltage during the driving mode and the tracking mode; and
(d) a third voltage generator connected to the timing generator and coupled in cascode with the first and second voltage generators, the third voltage generator producing an accelerator voltage during the driving mode, wherein an output voltage produced by the power supply is equal to the sum of the tracking voltage, the base voltage, and the accelerator voltage produced by the first voltage generator, the second voltage generator, and the third voltage generator so that during the driving mode the output voltage from the power supply induces an increasing voltage in the lead to raise the current in the load to a desired level, and during the tracking mode the output voltage from the power supply maintains the current in the load at substantially the desired level.
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Accused Products
Abstract
A high voltage power supply (40) having a plurality of high voltage generators (50a, 50b, . . . 50j) that produce a controlled current in a load (24) having a capacitive component. Each high voltage generator consists of a pulsewidth-modulated (PWM) inverter, a high voltage transformer, and a high voltage full bridge rectifier. The high voltage generators are divided into three groups: Group I, Group II, and Group III. During a driving mode of power supply operation, the Group I, Group II, and Group III high voltage generators produce an output voltage (Vgen) from the power supply which exceeds a voltage (Vc) across the capacitive component of the load, causing the current in the load to increase. When the current in the load reaches a desired value, the power supply enters a tracking mode of operation. During the tracking mode, the Group I and Group II high voltage generators produce an output voltage (Vgen) from the power supply which equals the voltage (Vc) across the capacitive component of the load. The current through the load remains constant while the power supply tracks the voltage across the capacitive component of the load. The driving mode and the tracking mode are repeatedly performed, as the high voltage generators are driven by a square wave voltage (Vsw) produced by a timing generator (66). A control circuit (56) is also provided in the power supply to enable or disable additional Group II high voltage generators in response to fluctuations in the voltage across the load.
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Citations
23 Claims
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1. A high voltage power supply for generating a controlled current in a load having component parts, comprising:
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(a) a timing generator producing a repetitive timing signal, wherein during each repetition of the timing signal the power supply cycles through a driving mode and a tracking mode; (b) a first voltage generator connected to the timing generator and producing a tracking voltage during the tracking mode; (c) a second voltage generator and the timing generator and coupled in cascode with the first voltage generator, the second voltage generator producing a base voltage during the driving mode and the tracking mode; and (d) a third voltage generator connected to the timing generator and coupled in cascode with the first and second voltage generators, the third voltage generator producing an accelerator voltage during the driving mode, wherein an output voltage produced by the power supply is equal to the sum of the tracking voltage, the base voltage, and the accelerator voltage produced by the first voltage generator, the second voltage generator, and the third voltage generator so that during the driving mode the output voltage from the power supply induces an increasing voltage in the lead to raise the current in the load to a desired level, and during the tracking mode the output voltage from the power supply maintains the current in the load at substantially the desired level. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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20. A high voltage power supply for generating a controlled current in a lead having varying inductive, capacitive, and resistive components, comprising:
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(a) a DC power source; (b) a timing generator producing a repetitive timing signal, wherein during each repetition of the timing signal the power supply cycles through a driving mode sod a tracking mode; and (c) a plurality of high voltage generators coupled in cascode to the lead such that the output voltages produced by the plurality of high voltage generators are summed with one another, wherein during the driving mode of operation the high voltage generators produce an output voltage exceeding a voltage across the capacitive component of the lead, thereby causing an increasing current in the load until the current reaches a desired level, after which the high voltage generators enter the tracking mode of operation wherein the high voltage generators produce an output voltage substantially equal to the voltage across the capacitive component of the load, thereby causing a current in the load to remain at the desired level, each of the plurality of high voltage generators comprising; (i) an inverter having an input connected to said DC power source and an input coupled to said timing generator and producing an AC voltage in synchronism with the timing signal; (ii) a transformer coupled to the inverter for stepping up the AC voltage produced by the inverter; and (iii) a rectifier coupled to the inverter for rectifying the AC voltage produced by the inverter.
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21. A high voltage power supply for generating a controlled current in a load having a capacitive component, comprising:
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(a) a timing circuit generating a periodic bi-polar timing signal; and (b) a voltage generator for generating a voltage during each polarity of the periodic bi-polar timing signal, the voltage generator comprising; (i) a first generator coupled to the load and to the timing circuit, the first generator generating and applying to the load a driving voltage synchronously with each transition of the periodic bi-polar timing signal, wherein the driving voltage induces an increasing current in the load, the driving voltage being applied until the current in the load reaches a desired magnitude; and (ii) a second generator coupled to the load and to the timing circuit, the second generator generating and applying to the load a tracking voltage following the generation of the driving voltage by the first generator, wherein the tracking voltage is equal to a voltage measured across the capacitive component of the load so that the current in the load is maintained at a nearly constant level. - View Dependent Claims (22, 23)
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Specification