In this paper an optimal disturbance-free control strategy suitable for open-phase fault operation of multi-phase current regulated motor drives, is presented and tested. The proposed strategy, which is based on the multiple space vector representation of multi-phase systems, minimizes the stator copper losses either in transient or steady-state operating conditions. The effectiveness of the proposed fault tolerant control strategy is verified for a five-phase permanent magnet motor using a finite element analysis. Furthermore, some experimental tests have been carried out on a seven-phase asynchronous motor drive prototype available in laboratory.
D. Casadei, M. Mengoni, G. Serra, A. Tani, L. Zarri (2008). Optimal Fault-Tolerant Control Strategy for Multi-Phase Motor Drives Under an Open Circuit Phase Fault Condition. s.l : s.n [10.1109/ICELMACH.2008.4800094].
Optimal Fault-Tolerant Control Strategy for Multi-Phase Motor Drives Under an Open Circuit Phase Fault Condition
CASADEI, DOMENICO;MENGONI, MICHELE;SERRA, GIOVANNI;TANI, ANGELO;ZARRI, LUCA
2008
Abstract
In this paper an optimal disturbance-free control strategy suitable for open-phase fault operation of multi-phase current regulated motor drives, is presented and tested. The proposed strategy, which is based on the multiple space vector representation of multi-phase systems, minimizes the stator copper losses either in transient or steady-state operating conditions. The effectiveness of the proposed fault tolerant control strategy is verified for a five-phase permanent magnet motor using a finite element analysis. Furthermore, some experimental tests have been carried out on a seven-phase asynchronous motor drive prototype available in laboratory.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
