Title :
Nonlinear abc-Model for Electrical Machines Using N-D Lookup Tables
Author :
Queval, Loic ; Ohsaki, Hiroyuki
Author_Institution :
Dept. of Adv. Energy, Univ. of Tokyo, Tokyo, Japan
Abstract :
For the simulation of electrical machines and drive systems, the abc-model brings benefits in terms of accuracy, efficiency, and flexibility. In particular, it allows one to naturally include both geometry- and saturation-induced space harmonics. We propose here a novel nonlinear abc-model using current-flux linkage and electromagnetic torque N-dimensional lookup tables (N-D LUTs). The current-flux linkage LUTs are built from the flux linkage-current LUTs using inversion and N-D interpolation. The abc-model is validated by comparison with the circuit-coupled finite-element (FE) model, in both steady and transient state, for balanced and unbalanced operation. It gives the same results as the FE model with a speedup factor of about two orders of magnitude.
Keywords :
finite element analysis; interpolation; synchronous motor drives; table lookup; torque; N-D interpolation; N-D lookup tables; N-dimensional lookup tables; circuit-coupled FEM; current-flux linkage; electrical machines; electromagnetic torque; finite-element model; geometry-induced space harmonics; nonlinear abc-model; saturation-induced space harmonics; Couplings; Inductance; Iron; Mathematical model; Rotors; Table lookup; Torque; abc-model; electric machines; modeling and simulation; nonlinear magnetics;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2014.2358854
