Stator inter-turn fault detection for the converter-fed induction motor based on the adjacent-current phase-shift

Abstract: This paper presents a sensorless on-line Motor Current Signature Analysis (MCSA) method to detect and locate an inter-turn short-circuited fault in the stator winding of the induction machine (IM). It is appropriate for the monitoring of Volts/Hertz controlled inverter-fed systems. The phase-shifts between adjacent line currents of both fundamental harmonic and principal slot harmonic (PSH) are analyzed. Then the fault severity and the fault location feature are derived, respectively. For the purpose of phase … Show more

“…ITSC, PPSC and phase-to-ground faults are studied. Based on the expressions in [21], [22] proposes a fault severity and location indicator according to the phase-shift between adjacent line currents of both fundamental harmonic and principal slot harmonic, and [23] presents an analytical model of PPSC using the superposition law.…”

Analytical Expressions of Isolation Indicators for Permanent-Magnet Synchronous Machines Under Stator Short-Circuit Faults

“…ITSC, PPSC and phase-to-ground faults are studied. Based on the expressions in [21], [22] proposes a fault severity and location indicator according to the phase-shift between adjacent line currents of both fundamental harmonic and principal slot harmonic, and [23] presents an analytical model of PPSC using the superposition law.…”

Analytical Expressions of Isolation Indicators for Permanent-Magnet Synchronous Machines Under Stator Short-Circuit Faults

An Enhanced High Order Sliding Mode based Method for Detecting Inter-Turn Short-Circuit Fault in Induction Machine with Decoupled Current Control

On-line identifying stator winding short-circuit approach for a submersible motor based on faulty current monitoring