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Predictive Torque Control With Reduced Voltage Vectors for Voltage Source Inverter Driven Induction Motor Drives

Author Affiliations
Rajshahi University of Engineering and Technology, University of Wollongong, Deakin University, Federation University
Published InIEEE Transactions on Applied Superconductivity
Year2024
Citations4

Abstract

Conventional finite state predictive torque control (FS-PTC) suffers from increased computational complexity, torque ripple, and switching losses due to using all the available voltage vectors for prediction and estimation. This paper presents an enhanced FS-PTC algorithm for two-level voltage source inverter (VSI) driven induction motor drives (IMDs). The proposed method significantly reduces computational complexity by optimizing the voltage vector selection process. Based on motor operating conditions and stator current position, this reduces the number of evaluated vectors from eight to five. This optimization achieves a 24% reduction in execution time to 29.03 μs, compared to 36.06 μs for conventional FS-PTC, while maintaining excellent dynamic response. Additionally, the proposed approach reduces inverter switching losses and demonstrates improved performance metrics, including reduced…
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