Title :
Effects of Rotor Bar Shape for Squirrel Cage Induction Motor in Transient State Using Moving Band Technique
Author_Institution :
Dept. of Electr. & Electron. Eng., Joongbu Univ., Geumsan, South Korea
Abstract :
This paper presents a dynamics analysis algorithm and the effect of rotor bar shape in the transient characteristics of the squirrel cage induction motor, in which the aluminum, copper, and silicon-copper are used for the conductor bars. The electromagnetic field, stator, and rotor circuit equations are coupled to analyze the motor performance in time domain using finite element method. The generated torque is calculated using the relationship of input and output power. Also, motion equation is used to find the next position of the rotor. Moving band technique is used to move the rotor of the motor in irregular intervals. In order to know the starting characteristics, various rotor slot shapes are analyzed and the results are compared with experiments to evaluate its torque performance by using the proposed method.
Keywords :
aluminium; copper; electromagnetic fields; finite element analysis; rotors; silicon; squirrel cage motors; stators; time-domain analysis; Al; FEM; Si-Cu; conductor bars; dynamics analysis algorithm; electromagnetic field; finite element method; motion equation; moving band technique; rotor bar shape; rotor circuit equations; rotor slot shapes; squirrel cage induction motor; starting characteristics; stator; time domain; torque performance; transient state; Equations; Induction motors; Mathematical model; Rotors; Shape; Torque; Transient analysis; Moving band technique; shape effect; squirrel cage induction motor (SCIM); time domain finite-element method (FEM); transient state;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2013.2292072
