Title :
A new input-voltage feedforward harmonic-injection technique with nonlinear gain control for single-switch, three-phase, DCM boost rectifiers
Author :
Jang, Yungtaek ; Jovanovic, Milan M.
Author_Institution :
Power Electron. Lab., Delta Products Corp., Research Triangle Park, NC, USA
fDate :
3/1/2000 12:00:00 AM
Abstract :
A new input-voltage feedforward harmonic-injection technique for a single-switch, three-phase, discontinuous-conduction-mode boost rectifier is introduced. With this technique, rectification with a low total harmonic distortion that meets the IEC555-2 requirements can be achieved. In addition, the rectifier shows an excellent transient performance which dramatically reduces the rectifier´s output voltage overshoots during line-voltage step-up transients. Moreover, by the addition of a nonlinear gain-control circuit, the DC gain of the DCM boost rectifier at light load is adaptively reduced so that the stability of the rectifier at light load is achieved. The performance of the proposed injection technique was verified on a 6 kW prototype rectifier
Keywords :
gain control; harmonic distortion; nonlinear control systems; power conversion harmonics; rectifying circuits; 6 kW; IEC555-2 requirements; discontinuous-conduction-mode boost rectifier; input-voltage feedforward harmonic-injection technique; light load; line-voltage step-up transients; low total harmonic distortion; nonlinear gain control; nonlinear gain-control circuit; output voltage overshoots reduction; proposed injection technique; single-switch three-phase DCM boost rectifier; transient performance; Circuit stability; Feedback control; Gain control; Lighting control; Power system harmonics; Pulse width modulation; Rectifiers; Switches; Total harmonic distortion; Voltage control;
Journal_Title :
Power Electronics, IEEE Transactions on
