Abstract
ABSTRACTThis paper presents a proposed design of an axially-laminated self-starting synchronous reluctance motor. The proposed synchronous reluctance motor has a stator of originally three-phase squirrel-cage induction motor. The experimental axially-laminated rotor is made of solid-steel laminations and built with dimensions to fit into a standard stator frame. The proposed rotor is equipped with a cage winding in order to provide a starting torque. An accurate analysis with which the performance characteristics of the proposed synchronous reluctance motor can be successfully predicted under different operating conditions is also presented. The proposed analysis is based on the system qd-axis model. The qd-axes are attached to rotor and hence, they rotate at the rotor speed, ɷr. Some comparisons between the simulation and experimental results are illustrated to demonstrate the accuracy of the proposed design and the developed system model. High agreement between experimental and simulated results has been observed, which supports the validity of the proposed design and analysis.
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