Title :
Fast current control for low harmonic distortion at low switching frequency
Author :
Khambadkone, Ashwin M. ; Holtz, Joachim
Author_Institution :
Queensland Univ., Brisbane, Qld., Australia
fDate :
10/1/1998 12:00:00 AM
Abstract :
The structure of the current control loop of an induction machine drive determines decisively the dynamic performance of the overall system. Fast current control is a prerequisite for dynamic decoupling between the torque and the flux commands. Standard solutions are well established for drives in the low- and medium-power ranges. The low switching frequency of high-power pulsewidth modulation inverters calls for a tradeoff in controller design between the low harmonic losses and torque ripple in the steady state on one hand, and fast dynamic response during the transients on the other. The problem is developed in detail. A variable-structure approach is proposed as the solution
Keywords :
PWM invertors; electric current control; feedback; harmonic distortion; induction motor drives; machine control; nonlinear control systems; variable structure systems; controller design tradeoff; current control loop structure; dynamic decoupling; dynamic performance; fast current control; fast dynamic response; feedback PWM; flux command; high power drives; high-power pulsewidth modulation inverters; induction motor drives; low harmonic distortion; low harmonic losses; low switching frequency; nonlinear current control; steady state; torque command; torque ripple; variable-structure control; Current control; Feedback; Harmonic distortion; Power harmonic filters; Pulse modulation; Pulse width modulation; Sampling methods; Space vector pulse width modulation; Steady-state; Switching frequency;
Journal_Title :
Industrial Electronics, IEEE Transactions on
