Title :
Numerical Design Compatibility of Induction Motor With Respect to Voltage and Current Sources
Author :
Jihyun Ahn ; Dongsu Lee ; Gyeong-Jae Park ; Yong-Jae Kim ; Jinsung Kim ; Sang-Yong Jung
Author_Institution :
Sch. of Electron. & Electr. Eng., Sungkyunkwan Univ., Suwon, South Korea
Abstract :
In this paper, the optimal driving point of induction motor is selected for guaranteeing torque production, which is fed by d-q current combination, and numerical design compatibility employing current source FEM is verified via comparison with the one employing voltage source method. In particular, vector control considering voltage and current constraints has been implemented numerically with FEM when selecting the optimal driving point. Moreover, comparative analysis is performed for the design results, such as magnetic saturation and iron loss, according to driving points selected in designing procedure. With the identified results, the design compatibility of FEM engaged with the current source is validated with comparison of the one obtained by FEM and equivalent circuit method engaged with the voltage source.
Keywords :
constant current sources; equivalent circuits; finite element analysis; induction motors; machine vector control; FEM; current sources; d-q current combination; equivalent circuit method; induction motor; iron loss; magnetic saturation; numerical design compatibility; optimal driving point; torque production; vector control; voltage source method; Electronic countermeasures; Finite element analysis; Induction motors; Iron; Saturation magnetization; Torque; Voltage control; Current source; FEM; equivalent circuit method (ECM); induction motor; vector control; voltage source;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2279717
