Title :
Optimal shape design of iron core to reduce cogging torque of IPM motor
Author :
Kim, Dong-Hun ; Park, Il-Han ; Lee, Joon-Ho ; Kim, Chang-Eob
Author_Institution :
Dept. of Electr. Eng., Univ. of Southampton, UK
fDate :
5/1/2003 12:00:00 AM
Abstract :
This paper presents a practical design method to dramatically reduce cogging torque of an interior permanent-magnet (IPM) motor without deteriorating other performances. Using the continuum sensitivity analysis combined with the finite-element method (FEM), the optimal shape of a rotor is investigated. The Lagrange sliding interface technique and an objective function expressed in terms of stored system energy allow fast convergence and simple implementation of the optimization algorithm. Experimental results show that the proposed method is very effective in suppressing the cogging torque of an IPM motor.
Keywords :
convergence of numerical methods; finite element analysis; magnetic cores; optimisation; permanent magnet motors; rotors; sensitivity analysis; steel; torque; FEM; FeSi; IPM motor; Lagrange sliding interface technique; cogging torque reduction; continuum sensitivity analysis; design method; fast convergence; finite-element method; interior PM motor; interior permanent-magnet motor; iron core; objective function; optimal shape design; optimization algorithm; rotor optimal shape; shape optimization; stored system energy; Convergence; Design methodology; Finite element methods; Forging; Iron; Lagrangian functions; Rotors; Sensitivity analysis; Shape; Torque;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.810214
