Add to ORKGIn this paper a five phase fault tolerant converter is proposed for permanent magnet (PM) drives. The proposed configuration is an extension of conventional three phase double switch redundant topologies. In contrast to three phase systems,the proposed configuration has more flexibility and reliability regarding simultaneous faults in more than one phase. Different faulty cases are explained. Optimal reconfiguration strategies are derived under several faulty conditions. Design criteria are defined and a comparative loss analysis is conducted on converter behavior under various conditions. Simulation results are included to validate the theory
In this paper an optimal disturbance-free control strategy suitable for open-phase fault operation o...
This report proposes an approach to implement improved Fault Tolerant (FT) control in a modular Open...
The necessary reliability of a safety critical drive system is often partly achieved by using fault...
In this paper a five phase fault tolerant converter is proposed for permanent magnet (PM) drives. Th...
The authors would like to thank the ADEME for the funding of the MHYGALE project.Multi-phase machine...
This paper deals with the current control strategies in case of one-phase or two-phase fault of five...
Multi-phase permanent magnet synchronous machines (PMSMs) propose an improved alternative to convent...
International audienceMulti-phase machines are well-known for their fault tolerant capability. Star-...
The paper describes an investigation of fault tolerant control strategies for permanent magnet synch...
This paper proposes two fault tolerant power converter permanent magnet synchronous motor (PMSM) dri...
Reliability is a fundamental requirement in electric propulsion systems, involving a particular appr...
Recently, multiphase permanent magnet synchronous motor drives have gained attention in applications...
In this study, fault tolerance and redundancy capabilities of different phase and winding configurat...
The need for efficiency, reliability and continuous operation has lead over the years to the develop...
Multi-phase motors are gaining more attention due to the advantages of good fault tolerance capabili...
In this paper an optimal disturbance-free control strategy suitable for open-phase fault operation o...
This report proposes an approach to implement improved Fault Tolerant (FT) control in a modular Open...
The necessary reliability of a safety critical drive system is often partly achieved by using fault...
In this paper a five phase fault tolerant converter is proposed for permanent magnet (PM) drives. Th...
The authors would like to thank the ADEME for the funding of the MHYGALE project.Multi-phase machine...
This paper deals with the current control strategies in case of one-phase or two-phase fault of five...
Multi-phase permanent magnet synchronous machines (PMSMs) propose an improved alternative to convent...
International audienceMulti-phase machines are well-known for their fault tolerant capability. Star-...
The paper describes an investigation of fault tolerant control strategies for permanent magnet synch...
This paper proposes two fault tolerant power converter permanent magnet synchronous motor (PMSM) dri...
Reliability is a fundamental requirement in electric propulsion systems, involving a particular appr...
Recently, multiphase permanent magnet synchronous motor drives have gained attention in applications...
In this study, fault tolerance and redundancy capabilities of different phase and winding configurat...
The need for efficiency, reliability and continuous operation has lead over the years to the develop...
Multi-phase motors are gaining more attention due to the advantages of good fault tolerance capabili...
In this paper an optimal disturbance-free control strategy suitable for open-phase fault operation o...
This report proposes an approach to implement improved Fault Tolerant (FT) control in a modular Open...
The necessary reliability of a safety critical drive system is often partly achieved by using fault...