Abstract: The magnitude and wave shape of instantaneous power draw from a single phase alternating current power source to a power converter is controlled by a closed loop power control scheme independent of the direct current output voltage of the converter. A fast averaging methodology for the value of control magnitude and wave shape of the instantaneous power draw by the converter from the alternating current source can be used in the closed loop power control scheme to limit the magnitude of power draw.
Abstract: A high voltage pulse generator utilizes an even number of Marx cells using L-C inversion topology. Each Marx cell is associated with an individual inverter transformer having a primary winding connected to the output of an ac power supply such as a series resonant inverter. The secondary of each inverter transformer is half-wave rectified to charge the energy storage capacitors in each Marx cell. A distributed voltage sensing scheme can be provided for accurate feedback to the inverter's controller. An inductive element can be used to achieve a magnetic diode effect in the L-C inversion circuit to reduce component stress and improve efficiency. A transformer-coupled floating gate drive circuit is used to provide local power conditioning and trigger timing for discharge of the energy storage capacitors.
Abstract: An apparatus and process are provided for detecting whether a corona discharge has occurred external or internal to equipment in which a broadband optical spectra sensor is placed. The broadband optical spectra sensor senses both the ultraviolet energy of the corona discharge and the infrared energy of afterglow of the discharge when the discharge occurs internal to the equipment. The sensed broadband optical spectra signal is processed and a determination is made as to whether the corona discharge occurred external or internal to the equipment from the pulse width of the sensed energy pulse.
Abstract: A precision voltage regulator is provided for a capacitor-charging power supply. Both the power supply output and the load capacitor are shunted at the same time by a shunt control circuit. The load capacitor shunt is maintained for a period of time determined by the hysteresis of a precision comparator that compares the voltage across the capacitor with a program voltage that has been adjusted for the power supply's instantaneous current. The regulator is particularly applicable to high power applications with a high repetition rates.
Type:
Grant
Filed:
October 26, 1999
Date of Patent:
September 5, 2000
Assignee:
Kaiser Systems, Inc.
Inventors:
Lawrence L. Simpson, Adrian C. Delforge, Yuri Botnar