Title :
Loss-Minimizing Flux Level Control of Induction Motor Drives
Author :
Qu, Zengcai ; Ranta, Mikaela ; Hinkkanen, Marko ; Luomi, Jorma
Author_Institution :
Dept. of Electr. Eng., Aalto Univ., Espoo, Finland
Abstract :
This paper applies a dynamic space-vector model to loss-minimizing control in induction motor drives. The induction motor model, which takes hysteresis losses and eddy-current losses as well as the magnetic saturation into account, improves the flux estimation and rotor-flux-oriented control. Based on the corresponding steady-state loss function, a method is proposed for solving the loss-minimizing flux reference at each sampling period. A flux controller augmented with a voltage feedback algorithm is applied for improving the dynamic operation and field weakening. Both the steady-state and dynamic performance of the proposed method is investigated using laboratory experiments with a 2.2-kW induction motor drive. The method improves the accuracy of the loss minimization and torque production, it does not require excessive computational resources, and it shows fast convergence to the optimum flux level.
Keywords :
eddy current losses; feedback; induction motor drives; machine vector control; magnetic flux; magnetic hysteresis; minimisation; rotors; dynamic space vector model; eddy current loss; hysteresis loss; induction motor drive; laboratory experiment; loss minimizing flux level control; magnetic flux estimation; magnetic saturation; power 2.2 kW; rotor flux oriented control; sampling period; steady-state loss function; torque production; voltage feedback algorithm; Inductance; Magnetic cores; Observers; Rotors; Stator cores; Torque; Control; core losses; efficiency optimization; field weakening; induction machine;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2012.2190818
