The present work deals to investigate the performance of linear switched reluctance motor designed for a sliding door application. The objective of this paper is to develop an analytical model in order to predict the dynamic behaviour of the studied motor. Firstly, the characteristics of the proposed motor in open loop operation was computed.Secondly, the effect of the load on the response of the motor was investigated. In this context, a two technoque in open loop were adopted to solve the error positioning with load and to damp the oscillation observed in the characteristics of the motor in order to obtain a smooth motion.
This paper presents a low-cost positioning application based on Linear Switched Reluctance Motor (LSRM). Design, analysis, modeling, simulation and experimental results are detailed and presented in this work. Open loop control is investigated to control this motor. Matlab Simulink is used as a simulation method in order to prove the developed. PIC18F452 and MOSFET inverter are designed and developed for the implementation of the proposed controls strategy, this solution is characterized by its low cost thing that can help to more integration of this actuator in industrial application. The confrontation between the simulation and experimental results give a good correspondence when it was seen that problems of force and displacement ripples of the LSRM are is solved.
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