This study is dealt with fault tolerant control of five phase permanent magnet (PM) machines. The main objectives are to increase the output power while eliminating the generated torque ripples. As a new aspect, the effect of available neutral connection is evaluated on the output power and torque ripples
The paper focuses on the fault detection of a five-phase Permanent-Magnet (PM) machine. This machine...
Multi-phase permanent magnet synchronous machines (PMSMs) propose an improved alternative to convent...
AbstractThis paper proposes a novel fault tolerant control with torque limitation based on the fault...
This study is dealt with fault tolerant control of five phase permanent magnet (PM) machines. The ma...
In this paper, research into torque ripple production has been undertaken for both the healthy and o...
Equipped with appropriate control strategies, permanent magnet (PM) machines are becoming one of the...
When a short-circuit fault occurs in a phase, the faulty phase needs to be removed artificially from...
This paper deals with the current control strategies in case of one-phase or two-phase fault of five...
Abstract—A faulted phase in fault-tolerant permanent-magnet brushless machine can result in signific...
This paper proposes a novel fault tolerant control with torque limitation based on the fault mode fo...
Efficiency improvement under faulty conditions is one of the main objectives of fault tolerant PM dr...
This paper discusses the suitability of four-phase, five-phase, and six-phase modular machines, for ...
International audienceThis paper presents new fault-tolerant control strategies for field-oriented c...
The necessary reliability of a safety critical drive system is often partly achieved by using fault...
This paper proposes a new fault tolerant control strategy for a five-phase permanent magnet synchron...
The paper focuses on the fault detection of a five-phase Permanent-Magnet (PM) machine. This machine...
Multi-phase permanent magnet synchronous machines (PMSMs) propose an improved alternative to convent...
AbstractThis paper proposes a novel fault tolerant control with torque limitation based on the fault...
This study is dealt with fault tolerant control of five phase permanent magnet (PM) machines. The ma...
In this paper, research into torque ripple production has been undertaken for both the healthy and o...
Equipped with appropriate control strategies, permanent magnet (PM) machines are becoming one of the...
When a short-circuit fault occurs in a phase, the faulty phase needs to be removed artificially from...
This paper deals with the current control strategies in case of one-phase or two-phase fault of five...
Abstract—A faulted phase in fault-tolerant permanent-magnet brushless machine can result in signific...
This paper proposes a novel fault tolerant control with torque limitation based on the fault mode fo...
Efficiency improvement under faulty conditions is one of the main objectives of fault tolerant PM dr...
This paper discusses the suitability of four-phase, five-phase, and six-phase modular machines, for ...
International audienceThis paper presents new fault-tolerant control strategies for field-oriented c...
The necessary reliability of a safety critical drive system is often partly achieved by using fault...
This paper proposes a new fault tolerant control strategy for a five-phase permanent magnet synchron...
The paper focuses on the fault detection of a five-phase Permanent-Magnet (PM) machine. This machine...
Multi-phase permanent magnet synchronous machines (PMSMs) propose an improved alternative to convent...
AbstractThis paper proposes a novel fault tolerant control with torque limitation based on the fault...