Stator Winding InterTurn Short-Circuit Fault Detection in WRIM Using Rise and Fall Times of Stator Currents.

Autor: Bilal, Habachi, Dyagileva, Svetlana, Heraud, Nicolas, Roy Sambatra, Eric Jean, Ravelo, Blaise
Předmět:
Zdroj: Progress in Electromagnetics Research C; 2024, Vol. 147, p109-116, 8p
Abstrakt: One of the major challenges of today’s rotating machine manufacturing industries is finding effective techniques to prevent early mechanical or electrical failure. Efficient troubleshooting methods must be developed for rotating electrical machines, such as three-phase and multiphase electrical induction or synchronous machines. A novel method for fault detection in a Wound Rotor Induction Machine (WRIM) is presented in this paper. Its originality lies in the determination of current rise and fall times in healthy and InterTurn short-Circuit Fault (ITSCF) cases. The method is based on using the two-current (isd, isq) sigmoid transform (ST) of Park’s vector approach. A WRIM with a nominal power of 0.3 kW is used for the analytical and experimental studies. The type of fault detection being studied is short circuit InterTurns on one phase of the stator winding. The results are promising because the methodology used is simple, fast, and accurate for diagnosing this type of fault, and can detect a low number of short-circuit InterTurns in the stator winding. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index