Title :
Model Predictive Direct Current Control: Formulation of the Stator Current Bounds and the Concept of the Switching Horizon
Author_Institution :
Univ. of Auckland in Auckland, Auckland, New Zealand
Abstract :
In this article, a model predictive current controller for multilevel inverters driving electrical machines is proposed. The inverter switch positions are directly set by the controller, thus avoiding the use of a modulator. Admissible switching sequences are enumerated, and a state-space model of the drive is used to predict the drive´s response to each sequence. The predicted short-term switching losses are evaluated and minimized. The concept of extrapolation and the use of bounds achieve an effective prediction horizon of up to 100 time steps despite the short switching horizon.
Keywords :
electric current control; extrapolation; invertors; machine control; position control; predictive control; state-space methods; drive response; extrapolation; inverter switch position; model predictive direct current control; multilevel inverter driving electrical machine; short term switching loss; state-space model; switching sequence; Current control; Extrapolation; Inverters; Predictive models; State-space methods; Stators; Switching loss;
Journal_Title :
Industry Applications Magazine, IEEE
DOI :
10.1109/MIAS.2011.2175518
