Add to ORKGThis paper deals with control strategies when a sevenphase axial-flux brushless DC machine operates in one opencircuited phase fault by considering constraints on voltage and current. The constraints are related to the converter and machine design in terms of peak values of non-sinusoidal voltage and current. In addition, the sensitivity of the torque control on parameters of new imposed current references under the base speed and in the flux-weakening region is analyzed. The current references taking into account only first and third harmonics in healthy phases are proposed to ensure the torque optimization while phase currents and voltages are within their limits. The usefulness of the control strategies and the parameter analyses are ver...
This paper proposes an auto-adaptive current control that makes possible to reduce torque ripples of...
A faulted phase in a fault-tolerant permanent-magnet brushless machine can result in significant tor...
This paper discusses the suitability of four-phase, five-phase, and six-phase modular machines, for ...
This paper deals with control strategies when a sevenphase axial-flux brushless DC machine operates ...
This paper proposes several easy-to-implement control strategies when seven-phase axial flux brushle...
This paper presents new fault-tolerant control strategies for field-oriented control of 7-phase non-...
Compared to sinusoidal machines, a bi-harmonic machine (with only two harmonics of similar value in ...
In the context of future Permanent Magnet Synchronous Machines (PMSMs) with a high number of phases ...
Equipped with appropriate control strategies, permanent magnet (PM) machines are becoming one of the...
Version éditeur disponible à l'adresse suivante : http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arn...
For a particular five-phase synchronous machine, this paper investigates the sensitivity of a vector...
Describes a novel optimal torque control strategy for fault-tolerant permanent magnet brushless ac d...
This paper proposes a novel variable speed control strategy of a particular 5-phase Permanent Magnet...
This paper presents a vector control of a 5-phase drive composed of a 5-leg Pulse Width Modulation (...
This paper proposes an auto-adaptive current control that makes possible to reduce torque ripples of...
A faulted phase in a fault-tolerant permanent-magnet brushless machine can result in significant tor...
This paper discusses the suitability of four-phase, five-phase, and six-phase modular machines, for ...
This paper deals with control strategies when a sevenphase axial-flux brushless DC machine operates ...
This paper proposes several easy-to-implement control strategies when seven-phase axial flux brushle...
This paper presents new fault-tolerant control strategies for field-oriented control of 7-phase non-...
Compared to sinusoidal machines, a bi-harmonic machine (with only two harmonics of similar value in ...
In the context of future Permanent Magnet Synchronous Machines (PMSMs) with a high number of phases ...
Equipped with appropriate control strategies, permanent magnet (PM) machines are becoming one of the...
Version éditeur disponible à l'adresse suivante : http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arn...
For a particular five-phase synchronous machine, this paper investigates the sensitivity of a vector...
Describes a novel optimal torque control strategy for fault-tolerant permanent magnet brushless ac d...
This paper proposes a novel variable speed control strategy of a particular 5-phase Permanent Magnet...
This paper presents a vector control of a 5-phase drive composed of a 5-leg Pulse Width Modulation (...
This paper proposes an auto-adaptive current control that makes possible to reduce torque ripples of...
A faulted phase in a fault-tolerant permanent-magnet brushless machine can result in significant tor...
This paper discusses the suitability of four-phase, five-phase, and six-phase modular machines, for ...