Title :
Research on Dynamic Characteristics Optimization via Analytical Modeling for Typical Rotational Electromagnetic System
Author :
Wenying Yang ; Peng Liu ; Yingqi Wang ; Ruyao Li ; Guofu Zhai
Author_Institution :
Harbin Inst. of Technol., Harbin, China
Abstract :
As an analytical method with lumped parameters, the magnetic equivalent circuit method is usually constrained by its incapability of flux leakage and magnetic saturation compared with finite element (FE) method. We propose a new approach introducing compensation matrix Cm×n to combine both methods. It requires a certain number of feature points by FE to compensate flux leakage at different positions and saturation extents at different coil currents, result precision within 5% and only second time consumed. Then, the approach is applied in dynamic modeling, design refinement, and performance optimization, where repetitive calculation of electromagnetic character is needed, and the results indicate the feasibility of the approach.
Keywords :
electromagnetic field theory; equivalent circuits; finite element analysis; magnetic circuits; matrix algebra; FEM; analytical modeling method; coil currents; compensation matrix; design refinement; dynamic characteristic optimization; electromagnetic character; finite element method; flux leakage compensation; lumped parameters; magnetic equivalent circuit method; magnetic saturation; performance optimization; rotational electromagnetic system; Analytical models; Coils; Electromagnetics; Iron; Magnetic circuits; Optimization; Saturation magnetization; Compensation matrix; dynamic character; finite element (FE); magnetic equivalent circuit (MEC); magnetic refinement; optimization;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2332069
