Title :
Adaptive SVM to compensate DC-link voltage ripple for four-switch three-phase voltage-source inverters
Author :
Blaabjerg, Frede ; Neacsu, Dorin O. ; Pedersen, John K.
Author_Institution :
Inst. of Energy Technol., Aalborg Univ., Denmark
fDate :
7/1/1999 12:00:00 AM
Abstract :
An adaptive space vector modulation (SVM) approach to compensate the DC-link voltage ripple in a B4 inverter is proposed and examined in detail. The theory, design, and performance of this pulsewidth modulation (PWM) method are presented, and the method effectiveness is demonstrated by extensive simulations and experiments. High-quality output currents are guaranteed by this approach even with substantial DC-voltage variations that might be caused by an unbalanced AC supply system, the diode rectification of the line voltages, and circulation of one output phase current through the split capacitor bank. The application of this approach to induction machine drives is also discussed. It is concluded that the DC-voltage ripple effect on the B4 inverter output can be minimized by an adaptive SVM algorithm with the advantage of improving the response of the DC-link filter and the output quality of the inverter becoming high
Keywords :
PWM invertors; capacitor storage; compensation; induction motor drives; rectification; B4 inverter; DC-link filter; DC-link voltage ripple compensation; DC-voltage variations; PWM method; adaptive SVM; diode rectification; four-switch three-phase voltage-source inverters; high-quality output currents; induction machine drives; line voltages; output phase current circulation; pulsewidth modulation; split capacitor bank; unbalanced AC supply system; Adaptive filters; Capacitors; Diodes; Drives; Induction machines; Pulse width modulation; Pulse width modulation inverters; Space vector pulse width modulation; Support vector machines; Voltage;
Journal_Title :
Power Electronics, IEEE Transactions on
