Title :
Three-Phase, Three-Wire, Five-Level Cascaded Shunt Active Filter for Power Conditioning, Using Two Different Space Vector Modulation Techniques
Author :
Massoud, Ahmed M. ; Finney, Stephen J. ; Cruden, Andrew J. ; Williams, Barry W.
Author_Institution :
Strathclyde Univ., Glasgow
Abstract :
The three-phase, three-wire, five-level cascaded Inverter is used as a medium-voltage shunt active power filter. The capacitor voltage-control technique used as a harmonic current extraction method for the two-level inverter is extended to the five-level shunt active power filter, with a technique proposed for balancing capacitor voltages. Predictive current control based on the supply current (not the active filter current) is employed. Two different space vector modulation (SVM) techniques viz., phase-shifted SVM and hybrid SVM, are used for multilevel inverter pulsewidth-modulation generation. The proposed five-level shunt active power filter is validated by simulation and practically for both modulation techniques. The proposed technique results in the same software and hardware requirements for any m-level inverter.
Keywords :
PWM power convertors; active filters; power harmonic filters; voltage control; capacitor voltage control; cascaded shunt active filter; five-level cascaded inverter; harmonic current extraction; multilevel inverter pulsewidth modulation; power conditioning; predictive current control; shunt active power filter; space vector modulation; supply current; three-phase cascaded inverter; three-wire cascaded inverter; Active filters; Capacitors; Current control; Inverters; Medium voltage; Power conditioning; Power harmonic filters; Power system harmonics; Pulse modulation; Support vector machines; Active filter; multilevel inverter; power quality (PQ);
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2007.905447
