| Abstract |
Self-commutated rectifiers for power factor correction are time-variant and nonlinear systems. Due to this fact, it is disadvantageous to model and control the rectifier by using the linear-time invariant control theory. In this article, a multivariable state-feedback controller for a Vienna Rectifier has been developed by using the Pole-Restraining approach. The results have been verified by measurements on a power electronic test bench. For this, a rapid-control-prototyping system has been used, on which the control algorithm was executed. The results proof the excellent dynamic behavior of the control concept. |
