Design of a pulsewidth-modulated resonant converter for a high-output-voltage power supply
Abstract
The design and fabrication of a parallel resonant converter circuit and a high-frequency step-up transformer used to supply an adjustable dc voltage to a load is described. The 500-W system is operated from 115/230 V single-phase 60Hz power, which is rectified and filtered to form a 310-V dc link. A two-transistor half-bridge circuit operating at a fixed frequency above the ciruits resonant frequency converts the dc voltage to an ac voltage at approximately 20 kHx. This high-frequency voltage is transformed with a low-capacitance oil-impregnated ferrite transformer. The output voltage is rectified to form a dc voltage with a maximum value of 90-kV peak. The output voltage is adjustable using pulsewidth modulation of the conduction time of the two transistors in the power circuit. The energy stored in the resonant circuit provides a sinusoidal transformer voltage at fixed frequency over a wide range of control. The system is provided with a closed-loop peak-voltage regulator and an on-off capability from the control electronics. The transformer is designed for a specific value of inductance and capacitance to operate at the desired resonant frequency and characteristic impedance.
- Publication:
-
IEEE Transactions on Industry Applications
- Pub Date:
- December 1987
- Bibcode:
- 1987ITIA...23.1016T
- Keywords:
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- Current Converters (Ac To Dc);
- Electric Power Supplies;
- Power Converters;
- Pulse Duration;
- Resonant Frequencies;
- Amorphous Materials;
- Dielectrics;
- Pulse Modulation;
- Electronics and Electrical Engineering