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This paper presents the dynamic modeling of a linear switched reluctance motor. This modeling is based on the exploitation of the magneto-static finite elements model built for the studied motor. The static characteristics of flux and forces, determined by the two dimensional finite element simulations are grouped into response surfaces. These surfaces are used, under low operating speed conditions,...
This paper deals with the modelling and control of a single sided linear switched reluctance actuator. This study provide a presentation of modelling and proposes a study on open and closed loop controls for the studied motor. From the proposed model, its dynamic behavior is described and discussed in detail. In addition, a simpler controller based on PID regulator is employed to upgrade the dynamic...
This paper presents the dynamic modeling of a linear switched reluctance motor. This modeling is based on the exploitation of the magneto-static finite elements model built for the studied motor. The static characteristics of flux and forces, determined by the two dimensional finite element simulations are grouped into response surfaces. These surfaces are used, under low operating speed conditions,...
This paper deals with a magneto dynamic modeling approach developed for a linear switched reluctance actuator. This approach is based on the exploitation of the magnetostatic finite elements model built for the studied actuator. The static characteristics of flux and forces, determined by the finite element simulations, for different positions of the moving part and different supply current levels,...
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