Title :
Direct AC/DC Rectifier With Mitigated Low-Frequency Ripple Through Inductor-Current Waveform Control
Author :
Sinan Li ; Guo-Rong Zhu ; Siew-Chong Tan ; Hui, S.Y.
Author_Institution :
Dept. of Electr. & Electron. Eng., Univ. of Hong Kong, Hong Kong, China
Abstract :
In a rectification system with unity power factor, the input power consists of a dc and a double-line frequency power component. Traditionally, an electrolytic capacitor (E-Cap) is used to buffer the double-line frequency power such that the dc output presents a small voltage ripple. The use of E-Cap significantly limits the lifetime of the rectifier system. In this paper, a differential ac/dc rectifier based on the use of an inductor-current waveform control methodology is proposed such that a single-stage direct ac/dc rectification without the need of an E-Cap for buffering the double-line frequency power, and a front-stage diode rectifier circuit can be achieved. The feasibility of the proposal has been practically confirmed in an experimental prototype.
Keywords :
electric current control; electrolytic capacitors; electrolytic rectifiers; power factor; rectification; AC-DC rectifier; E-Cap; diode rectifier circuit; double-line frequency power component; electrolytic capacitor; inductor-current waveform control; low-frequency ripple; rectification system; unity power factor; Capacitors; Educational institutions; Electronic mail; Light emitting diodes; Reactive power; Rectifiers; Topology; E-capless; LED; low-frequency ripple; rectifier; single-stage; waveform control;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2014.2360209
