Title :
Dynamic model of induction machine with faulty rotor in field reference frame
Author :
Ambrozic, V. ; Fiser, R. ; Nemec, M. ; Drobnic, K.
Author_Institution :
Fac. of Electr. Eng., Univ. of Ljubljana, Ljubljana, Slovenia
Abstract :
This paper presents a control model of squirrel cage induction machine with broken rotor bars. The basis for model´s equations is the fact that this type of faults inevitably alters the rotor parameters. Both the resistance and inductance take a sinusoidal shape, being a function of rotor angle, almost regardless of the configuration of fault. Differing from previous work, in this paper a model has been developed in rotor field coordinates, being this the preferable reference frame for machine control and thus easier for control engineers to grasp, especially in closed-looped systems. The approach has been tested on laboratory models of two different induction machines connected to the grid with completely different severities of faults. The results show a very good agreement between measurements and simulations.
Keywords :
bars; closed loop systems; electric resistance; fault diagnosis; inductance; machine vector control; power grids; rotors; squirrel cage motors; broken rotor bar; closed loop system; dynamic model; field reference frame; grid connection; inductance; machine control; model equation; resistance; rotor angle; rotor fault; rotor field coordinate; squirrel cage induction machine; Circuit faults; Equations; Mathematical model; Resistance; Rotors; Stator windings; Control engineering; fault diagnosis; induction motors;
Conference_Titel :
Diagnostics for Electric Machines, Power Electronics and Drives (SDEMPED), 2013 9th IEEE International Symposium on
Conference_Location :
Valencia
DOI :
10.1109/DEMPED.2013.6645709
