Title :
Fully digital, vector-controlled PWM VSI-fed AC drives with an inverter dead-time compensation strategy
Author :
Sukegawa, Takashi ; Kamiyama, Kenzo ; Mizuno, Katsuhiro ; Matsui, Takayuki ; Okuyama, Toshiaki
Author_Institution :
Hitachi Ltd., Ibaraki, Japan
Abstract :
A dead-time compensation method in vector-controlled pulse width modulator (PWM) voltage source inverters (VSIs) is proposed. The method is based on a feedforward approach that produces compensating signals obtained from the Id-Iq current and inverter output angular frequency references in the rotating reference (d-q) frame. It provides excellent inverter output voltage distortion correction for both fundamental and harmonic components. The correction is not affected by the magnitude of the inverter output voltage or current distortions. Since this dead-time compensation method allows current loop calculations in the d- q frame at a slower sampling rate, with a conventional microprocessor than calculations in the stationary reference frame, a fully digital. vector-controlled speed regulator with just a component current control loop is realized for PWM VSIs. Simulations and test results obtained for the compensation method are also described
Keywords :
AC motors; compensation; digital control; electric current control; harmonics; invertors; machine control; microcomputer applications; pulse width modulation; variable speed drives; velocity control; AC motors; MRACS; PWM; angular frequency; current; current control loop; dead-time compensation strategy; digital control; feedforward; fundamental; harmonic; machine control; microprocessor; references; sampling rate; variable speed drives; vector control; voltage distortion correction; voltage source inverters; Current control; Frequency; Harmonic distortion; Microprocessors; Pulse inverters; Pulse width modulation; Pulse width modulation inverters; Regulators; Sampling methods; Voltage;
Journal_Title :
Industry Applications, IEEE Transactions on
