Novel discrete-time predictive current regulators far parallel resonant DC link inverter

Author

Kim, K.M. ; Huh, S.-H. ; Choy, I. ; Choi, J.Y. ; Ahn, H.S.

Author_Institution

Korea Inst. of Sci. & Technol., Seoul, South Korea

fYear

1996

fDate

2-6 Dec 1996

Firstpage

625

Lastpage

629

Abstract

This paper presents two kinds of novel discrete-time current control methods for induction motor drives that are fed by a parallel resonant DC link inverter (PRDCLI). The methods are based on using both the modified fixed band hysteresis control and optimal control. Since zero bus voltage intervals are generated on the DC link of PRDCLI, the counter electromotive force of an induction motor and the average value of the DC link voltage can be estimated. Based on the previously estimated values, the proposed current regulators predict the phase currents of one and/or two-step ahead resonant cycles. The computer simulation result shows that the proposed control schemes offer not only the advantage of zero-voltage-switching resonant inverters but also a reduced total harmonic distortion compared with conventional current regulators

Keywords

discrete time systems; electric current control; hysteresis; induction motor drives; invertors; optimal control; predictive control; resonant power convertors; EMF; discrete-time current control; electromotive force; hysteresis control; induction motor drives; optimal control; parallel resonant DC link inverter; phase currents; predictive control; total harmonic distortion; zero bus voltage intervals; zero-voltage-switching resonant inverters; Current control; DC generators; Hysteresis; Induction generators; Induction motor drives; Optimal control; Regulators; Resonance; Resonant inverters; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Industrial Technology, 1996. (ICIT '96), Proceedings of The IEEE International Conference on

Conference_Location

Shanghai

Print_ISBN

0-7803-3104-4

Type

conf

DOI

10.1109/ICIT.1996.601667

Filename

601667