A FAULT TOLERANT CONTROL STRATEGY FOR A FLUX-SWITCHING PERMANENT MAGNET MOTOR DRIVE UNDER OPEN PHASE FAULTS

A FAULT TOLERANT CONTROL STRATEGY FOR A FLUX-SWITCHING PERMANENT MAGNET MOTOR DRIVE UNDER OPEN PHASE FAULTS

Paper in proceedings (conference paper)

The aim of this paper is to describe the implementation of a fault tolerant vector control scheme applied to a dual-fed Flux-Switching Permanent Magnet Synchronous Machine (FS-PMSM). The continuous operation of the motor drive system is maintained during open circuit faults by adopting the appropriate control strategies. The control scheme is verified by both simulations and experimental results. Experimental result backing simulation studies will illustrate the robustness of this drive topology to operate in safety critical applications.

The aim of this paper is to describe the implementation of a fault tolerant vector control scheme applied to a dual-fed Flux-Switching Permanent Magnet Synchronous Machine (FS-PMSM). The continuous operation of the motor drive system is maintained during open circuit faults by adopting the appropriate control strategies. The control scheme is verified by both simulations and experimental results. Experimental result backing simulation studies will illustrate the robustness of this drive topology to operate in safety critical applications.

Fault Tolerant, Open-circuit fault, Fieldoriented control (FOC), FS-PMSM, Multiphase drive, and Pulsewidth-modulation voltage-source inverter (PWM VSI).

Fault Tolerant, Open-circuit fault, Fieldoriented control (FOC), FS-PMSM, Multiphase drive, and Pulsewidth-modulation voltage-source inverter (PWM VSI).

ABOELHASSAN, M.; SKALICKÝ, J.

2012

07.11.2011

Brno, Czech Republic

978-80-214-4362-4

XI. International Conference on Low Voltage Electrical Machines - LVEM2011

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