Title :
Effective optimal design of 3-D magnetic device having complicated coil using edge element and Biot-Savart method
Author :
Ohnishi, Takuma ; Takahashi, Norio
Author_Institution :
Dept. of Electr. & Electron. Eng., Okayama Univ., Japan
fDate :
3/1/2002 12:00:00 AM
Abstract :
It is troublesome and time consuming to treat a coil of complicated shape with optimization methods using edge elements, because the current vector potential in the coil of changed shape (changed mesh) should be calculated at each iteration of the optimization. In this paper, an effective optimal design method using the Biot-Savart method (As method) and the evolution strategy is investigated. As it is not necessary to generate a mesh for the coil by using the As method, the mesh becomes simple and, moreover, it is not necessary to calculate the current vector potential in the changed coil at each iteration in order to give the current vector potential in the coil. The usefulness of the proposed method is illustrated by applying it to the optimal design of a deflection coil for a cathode-ray tube
Keywords :
cathode-ray tubes; coils; electromagnetic field theory; electronic design automation; finite element analysis; iterative methods; optimisation; 3D magnetic device; As method; Biot-Savart method; cathode-ray tube; changed mesh; coil; coil current vector potential; coil mesh; coil shape; coil shape change; current vector potential; deflection coil; edge elements; evolution strategy; finite element method; iteration; optimal design; optimal design method; optimization iteration; optimization method; Central Processing Unit; Coils; Design methodology; Equations; Finite element methods; Genetic mutations; Magnetic devices; Mesh generation; Optimization methods; Shape;
Journal_Title :
Magnetics, IEEE Transactions on
