Abstract
Due to the significant share of the induction motor (IM) in the global electricity consumption, the study of the IM and its drive systems in different power supply modes is the aim of this paper. This paper presents the effects of voltage unbalance considering the positive-sequence component on efficiency, power factor, torque ripple, and current total harmonic distortion of the direct matrix converter induction motor drive (DMCIMD). Simulation results have also shown that torque ripple and average current total harmonic distortion increase linearly with increasing voltage unbalance factor (VUF). In the case of voltage unbalance with positive-sequence voltage less than phase voltage, the increase of VUF reduces efficiency and increases the power factor of DMCIMD. Conversely, in the case of voltage unbalance with positive-sequence voltage greater than phase voltage, the increase in VUF increases efficiency and decreases the power factor of DMCIMD.
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Do, N.Y., Ngo, X.C. (2023). Effects of Voltage Unbalance on Matrix Converter Induction Motor Drive. In: Nguyen, D.C., Vu, N.P., Long, B.T., Puta, H., Sattler, KU. (eds) Advances in Engineering Research and Application. ICERA 2022. Lecture Notes in Networks and Systems, vol 602. Springer, Cham. https://doi.org/10.1007/978-3-031-22200-9_53
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