Title :
High-precision current source using low-loss, single-switch, three-phase AC/DC converter
Author :
Pomilio, José A. ; Spiazzi, Giorgio
Author_Institution :
Sch. of Electr. Eng., Univ. Estadual de Campinas, Sao Paulo, Brazil
fDate :
7/1/1996 12:00:00 AM
Abstract :
A three-phase AC/DC converter based on isolated Cuk topology feeding an inductive load is presented. The main goal is to get a compact, highly stable current source to feed an electromagnet. A high power factor is achieved, at constant duty-cycle and switching frequency, by discontinuous input current mode operation. The converter presents a linear relationship between the duty-cycle and the output current, making it easier to design the control system. Additionally the voltage stress on the power transistor is constant and does not depend on the duty-cycle. An auxiliary circuit allows zero voltage turn-off while limiting the over-voltage on the switch produced by the transformer leakage inductance. Pulse-width modulation (PWM) control is used to reduce sensitivity to line disturbances and to eliminate the 300-Hz ripple on the output current. Experimental measurements taken on a 400-W prototype confirm theoretical forecasts
Keywords :
AC-DC power convertors; PWM power convertors; constant current sources; electromagnets; inductance; magnetic leakage; power supplies to apparatus; switching circuits; transformers; 300 Hz; 400 W; PWM control; auxiliary circuit; constant duty-cycle; discontinuous input current mode operation; duty-cycle; electromagnet; high power factor; high-precision current source; inductive load; isolated Cuk topology; line disturbance sensitivity reduction; low-loss converter; output current; over-voltage limiting; power transistor; pulse-width modulation control; single-switch converter; switching frequency; three-phase AC/DC converter; transformer leakage inductance; voltage stress; zero voltage turn-off; Control systems; DC-DC power converters; Electromagnets; Feeds; Pulse width modulation; Reactive power; Stress; Switches; Switching frequency; Topology;
Journal_Title :
Power Electronics, IEEE Transactions on
