The torque produced by a synchronous reluctance machine (including the PM assisted configuration) is studied analytically, to the aim of characterizing the effect of the position of the flux-barriers on the torque ripple. It is verified that the position of the flux-barrier ends highly influences the torque waveform. To the aim of reducing the torque harmonic contents, a new strategy is proposed based on the choice of couples of flux-barriers of different shapes. The couples of the flux-barriers are chosen so as to obtain compensation between the torque harmonics produced by each couple of them. Experimental results on two prototypes confirm the analytical predictio
The aim of this paper is to optimize the design of multiple flux barriers Synchronous Reluctance Mot...
A design approach oriented to minimization of torque-ripple is presented, for synchronous reluctance...
The paper presents new designs for synchronous reluctance motors that have external rotor (segment-s...
Abstract—The torque produced by a synchronous reluctance machine (including the permanent-magnet-as...
This paper deals with the design of the rotor of synchronous reluctance machines, characterized by a...
The torque behavior of a synchronous reluctance machine (including the PM assisted configuration) is...
Synchronous Reluctance (SyR) machines are a viable alternative to other kinds of electrical machines...
In this paper, an improved rotor structure with cross-shaped flux-barriers was proposed to improve t...
The rotor design of Synchronous Reluctance Motors (SynRMs) has a large effect on their efficiency, t...
In this paper a design method for ferrite assisted synchronous reluctance machine is proposed in ord...
The main drawback of reluctance machines is a high torque ripple, due to the interaction between the...
The paper focuses on studying the external-rotor synchronous reluctance motor. The analysis is perfo...
International audienceThe research about synchronous reluctance machine (SynRM) has been revived in ...
International audienceThe torque ripple limits the performances of synchronous reluctance machine (S...
International audienceThis paper studies the impact of current harmonics on the synchronous reluctan...
The aim of this paper is to optimize the design of multiple flux barriers Synchronous Reluctance Mot...
A design approach oriented to minimization of torque-ripple is presented, for synchronous reluctance...
The paper presents new designs for synchronous reluctance motors that have external rotor (segment-s...
Abstract—The torque produced by a synchronous reluctance machine (including the permanent-magnet-as...
This paper deals with the design of the rotor of synchronous reluctance machines, characterized by a...
The torque behavior of a synchronous reluctance machine (including the PM assisted configuration) is...
Synchronous Reluctance (SyR) machines are a viable alternative to other kinds of electrical machines...
In this paper, an improved rotor structure with cross-shaped flux-barriers was proposed to improve t...
The rotor design of Synchronous Reluctance Motors (SynRMs) has a large effect on their efficiency, t...
In this paper a design method for ferrite assisted synchronous reluctance machine is proposed in ord...
The main drawback of reluctance machines is a high torque ripple, due to the interaction between the...
The paper focuses on studying the external-rotor synchronous reluctance motor. The analysis is perfo...
International audienceThe research about synchronous reluctance machine (SynRM) has been revived in ...
International audienceThe torque ripple limits the performances of synchronous reluctance machine (S...
International audienceThis paper studies the impact of current harmonics on the synchronous reluctan...
The aim of this paper is to optimize the design of multiple flux barriers Synchronous Reluctance Mot...
A design approach oriented to minimization of torque-ripple is presented, for synchronous reluctance...
The paper presents new designs for synchronous reluctance motors that have external rotor (segment-s...