Performance Evaluation of a Vector-Control Fault-Tolerant Flux-Switching Motor Drive

Performance Evaluation of a Vector-Control Fault-Tolerant Flux-Switching Motor Drive

Peer-reviewed article not indexed in WoS or Scopus

A novel fault-tolerant flux-switching permanentmagnet synchronous machine drive topology is presented, which is able to operate during open- and short-circuit winding and converter faults. The scheme is based on a dual winding motor supplied from two separate vector-controlled voltage-sourced inverter drives. The windings are arranged in a way so as to form two independent and isolated sets. Simulation and experimental work will detail the drive performance during both healthy and faulty scenarios including short-circuit faults and will show the drive robustness to operate in these conditions.

A novel fault-tolerant flux-switching permanentmagnet synchronous machine drive topology is presented, which is able to operate during open- and short-circuit winding and converter faults. The scheme is based on a dual winding motor supplied from two separate vector-controlled voltage-sourced inverter drives. The windings are arranged in a way so as to form two independent and isolated sets. Simulation and experimental work will detail the drive performance during both healthy and faulty scenarios including short-circuit faults and will show the drive robustness to operate in these conditions.

Aerospace; fault tolerant; flux switching; multiphase

Aerospace; fault tolerant; flux switching; multiphase

ABOELHASSAN, M.; RAMINOSOA, T.; GOODMAN, A.; DE LILLO, L.; GERADA, C.

2014

11.04.2013

0278-0046

IEEE Transactions on Industrial Electronics

60

8

United States of America

2997

3006

10