Transient modeling and analysis of induction motors with position effects in stator turn faults

Transient modeling and analysis of induction motors with position effects in stator turn faults

Stator turn faults are among the most common electrical faults in induction machines. They are usually caused by the short-circuit of a few turns of a stator winding, and are difficult to locate within the winding. Because of the distributed stator windings used in induction motors, motor behavior u...

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Bibliographische Detailangaben
Hauptverfasser: Patel, Dhaval C, Chandorkar, M C
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Circuit faults
Coils
Fault location
Induction machines
Induction motors
load emulation
machine modeling
Machine windings
Rotors
Stator turn faults
Stator windings
Steady-state
Transient analysis
transient simulation
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Beschreibung
Zusammenfassung:Stator turn faults are among the most common electrical faults in induction machines. They are usually caused by the short-circuit of a few turns of a stator winding, and are difficult to locate within the winding. Because of the distributed stator windings used in induction motors, motor behavior under these faults depends upon fault location and number of short-circuited turns. This paper is concerned with transient modeling of induction machines, explicitly considering both, stator fault position and extent. The model lends itself to transient and steady-state analysis, as well as to simulation. The paper introduces a method to map the positive and negative sequence stator current information onto a polar plot, which brings into focus both, the fault position and extent. This method is suitable for on-line monitoring of motor drives. The paper also provides experimental results, obtained with an intentionally faulted machine.
DOI:10.1109/ICIT.2010.5472619