Interplane cross-saturation in multiphase machines

• Published in: IET electric power applications Vol. 13; no. 11; pp. 1812 - 1822
• Main Authors: Jecmenica, Milos, Brkovic, Bogdan, Levi, Emil, Lazarevic, Zoran
• Format: Journal Article
• Language: English
• Published: The Institution of Engineering and Technology 01.11.2019
• Subjects: analytical considerations; asynchronous machines; electric vehicles; electrical machines; finite element analysis; high‐power drives; interplane cross‐saturation; linear magnetic conditions; machine control; magnetic flux; main flux path saturation; multiphase inverters; orthogonal sequence plane; saturated multiphase machines; saturated three‐phase machine models; six‐phase induction machine; Special Issue: Multiphase Electric Drives and Generation Systems; vector space decomposed model; magnetic flux; high-power drives; machine control; saturated multiphase machines; interplane cross-saturation; electric vehicles; multiphase inverters; asynchronous machines; linear magnetic conditions; finite element analysis; orthogonal sequence plane; six-phase induction machine; analytical considerations; main flux path saturation; saturated three-phase machine models; vector space decomposed model; electrical machines
• ISSN: 1751-8660; 1751-8679; 1751-8679
• DOI: 10.1049/iet-epa.2018.5546

The use of electrical machines in electric vehicles and high-power drives frequently requires multiphase machines and multiphase inverters. While appropriate mathematical models under the linear magnetic conditions are readily available for multiphase machines, the same cannot be said for the models of the saturated multiphase machines. This study examines the saturation in an asymmetrical six-phase induction machine under different supply conditions and addresses the applicability of the existing saturated three-phase machine models for the representation of saturated multiphase machines. Specifically, the mutual coupling between different sequence planes in the vector space decomposed model under saturated conditions is analysed. The study relies on analytical considerations, finite element analysis and experimental results. It is shown that the saturation of the main flux path is influenced by the current components in the orthogonal (non-fundamental) sequence plane. This implies the need to develop new multiphase machine models which take this effect into account.