Direct self control with minimum torque ripple and high dynamics for a double three-level GTO inverter drive

Author

Janßen, Martin ; Steimel, Andreas

Author_Institution

ALSTOM Power Conversion GmbH, Berlin, Germany

Volume

49

Issue

5

fYear

2002

fDate

10/1/2002 12:00:00 AM

Firstpage

1065

Lastpage

1071

Abstract

A highly dynamic control scheme with very low torque ripple-direct self control (DSC) with torque hysteresis control-for very high-power medium-voltage induction motor drives fed by a double three-level inverter (D3LI) is presented. In this arrangement, two three-level inverters that are connected in parallel at their DC sides are feeding the open motor windings. The DSC, well known from two- and three-level inverters, is adapted to the D3LI and optimized for a minimum torque ripple. An 18-corner trajectory is chosen for the stator flux of the induction machine since it is approaching the ideal circle much better than the hexagon known from DSC for two-level inverters, without any detriment to the torque ripple. The machine and inverter control are explained and the proposed torque quality and dynamics are verified by measurements on a 180-kW laboratory drive.

Keywords

induction motor drives; machine control; stators; thyristor convertors; torque control; 180 kW; direct self control; double three-level inverter; highly dynamic control scheme; machine observer; medium-voltage induction motor drives; multilevel converters; open motor windings; parallel connected inverters; stator flux; torque hysteresis control; torque quality; variable-speed drives; very low torque ripple; DC motors; Hysteresis motors; Induction machines; Induction motor drives; Inverters; Laboratories; Medium voltage; Stators; Torque control; Torque measurement;

fLanguage

English

Journal_Title

Industrial Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0278-0046

Type

jour

DOI

10.1109/TIE.2002.803214

Filename

1036801