A comparative study of system-level PMSM models with either current or flux-linkage state variables used for vibro-acoustic computation

This paper explores different high-fidelity, system-level models for permanent magnet synchronous machines. The main attributes examined are electromagnetic torque and forces representing the main contribution sources for noise and vibration in electrical powertrains. First, two types of electromagn...

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Veröffentlicht in:2019 IEEE International Electric Machines & Drives Conference (IEMDC) S. 1881 - 1888
Hauptverfasser: Ciceo, Sebastian, Chauvicourt, Fabien, Gyselinck, Johan, Martis, Claudia
Format: Tagungsbericht
Sprache:Englisch
Veröffentlicht: IEEE 01.05.2019
Schlagworte:
Atmospheric modeling
Computational modeling
force model
look-up table inversion
magnetic co-energy
Magnetostatics
Mathematical model
PMSM
Saturation magnetization
system-level model
Table lookup
Torque
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Zusammenfassung:This paper explores different high-fidelity, system-level models for permanent magnet synchronous machines. The main attributes examined are electromagnetic torque and forces representing the main contribution sources for noise and vibration in electrical powertrains. First, two types of electromagnetic models extracted from finite element analysis are presented: the current and flux-linkage state variable models. Afterwards, two force transformation models used for system-level vibro-acoustic computation are explored and a spectral convergence test is proposed. Procedures regarding model implementation, such as look-up table derivation/inversion are discussed and design trade-offs are analyzed. Finally, the different model results are benchmarked against a finite element model and the real-time performance is presented.
DOI:10.1109/IEMDC.2019.8785326