Title :
Finite-element-aided design optimization of a shaded-pole induction motor for maximum starting torque
Author :
Zhou, Dawei ; Rajanathan, Chinniah B. ; Sapeluk, Andrew T. ; Özveren, Cüneyt S.
Author_Institution :
Sch. of Sci. & Eng., Abertay Dundee Univ., UK
fDate :
9/1/2000 12:00:00 AM
Abstract :
A method of optimizing the design of a shaded-pole induction motor for maximum starting torque with the aid of finite element modeling and a modified hybrid global-local search method combining the niching genetic algorithm with a direct search method is presented. By invoking the genetic algorithm and the deterministic method in turn, the solution with the global minimum is secured while simultaneously improving the convergence speed. The performance of the hybrid search method is demonstrated with an ideal mathematical problem first, before applying it to the shaded-pole motor design
Keywords :
finite element analysis; genetic algorithms; induction motors; machine theory; search problems; starting; torque; convergence speed improvement; deterministic method; direct search method; finite element modeling; finite-element-aided design optimization; global minimum; hybrid global-local search method; maximum starting torque; niching genetic algorithm; shaded-pole induction motor; Algorithm design and analysis; Design methodology; Design optimization; Equivalent circuits; Finite element methods; Genetic algorithms; Induction motors; Search methods; Switches; Torque;
Journal_Title :
Magnetics, IEEE Transactions on
