The paper focuses on the fault detection of a five-phase Permanent-Magnet (PM) machine. This machine has been de- signed for fault tolerant applications, and it is characterised by a mutual inductance equal to zero and a high self inductance, with the purpose to limit the short circuit current. The effects of a limited number of short-circuited turns were investigated by theoretical and Finite Element (FE) analysis, and then a procedure for fault detection has been proposed, focusing on the severity of the fault (i.e. the number of short- circuited turns and the related current)
Owing to the increasing concern on the environmental protection and the growing interest on the rene...
Over the past decade, permanent magnet synchronous machines (PMSMs) have gained significant populari...
This paper presents a general analytical fault model in a compact matrix form for surface-mounted pe...
The paper focuses on the fault detection of a five-phase permanent-magnet (PM) machine. This machine...
The paper focuses on the fault detection of a five-phase Permanent-Magnet (PM) machine. This machine...
The paper focuses on a new diagnostic index for fault detection of a five-phase permanent-magnet mac...
Five-phase permanent magnet synchronous motors (PMSMs) have inherent fault-tolerant capabilities. Th...
This paper deals with the effects of inter-turn short circuit faults in five-phase permanent magnet ...
This paper deals with the current control strategies in case of one-phase or two-phase fault of five...
Thanks to its high-torque density and high efficiency, the Permanent Magnet Synchronous Machine (PMS...
This paper presents a systematic study on turn-turn short circuit fault and ways to manage them to p...
The condition monitoring of magnets status in permanent magnet synchronous motors is critical for in...
In this paper an investigation on the fault tolerance capability of the five-phase permanent magnet ...
Abstract—The reported work is the design of a Fault Detection system for permanent magnet synchronou...
This paper analyzes partial demagnetization faults in a five-phase permanent magnet assisted synchro...
Owing to the increasing concern on the environmental protection and the growing interest on the rene...
Over the past decade, permanent magnet synchronous machines (PMSMs) have gained significant populari...
This paper presents a general analytical fault model in a compact matrix form for surface-mounted pe...
The paper focuses on the fault detection of a five-phase permanent-magnet (PM) machine. This machine...
The paper focuses on the fault detection of a five-phase Permanent-Magnet (PM) machine. This machine...
The paper focuses on a new diagnostic index for fault detection of a five-phase permanent-magnet mac...
Five-phase permanent magnet synchronous motors (PMSMs) have inherent fault-tolerant capabilities. Th...
This paper deals with the effects of inter-turn short circuit faults in five-phase permanent magnet ...
This paper deals with the current control strategies in case of one-phase or two-phase fault of five...
Thanks to its high-torque density and high efficiency, the Permanent Magnet Synchronous Machine (PMS...
This paper presents a systematic study on turn-turn short circuit fault and ways to manage them to p...
The condition monitoring of magnets status in permanent magnet synchronous motors is critical for in...
In this paper an investigation on the fault tolerance capability of the five-phase permanent magnet ...
Abstract—The reported work is the design of a Fault Detection system for permanent magnet synchronou...
This paper analyzes partial demagnetization faults in a five-phase permanent magnet assisted synchro...
Owing to the increasing concern on the environmental protection and the growing interest on the rene...
Over the past decade, permanent magnet synchronous machines (PMSMs) have gained significant populari...
This paper presents a general analytical fault model in a compact matrix form for surface-mounted pe...