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Improving the Accuracy of Wound-Rotor Resolvers Under Inter-Turn Short Circuit Faults

H. Lasjerdiand, Farid Tootoonchian

2020IEEE Sensors Journal19 citationsDOI

Abstract

The performance of the resolver as a position sensor is significantly influenced by electrical and mechanical faults. Among different faults, short circuit in the stator windings has more destructive effect than others on accuracy of resolver. Furthermore, due to thin wires of the stator it is highly likely to occur. Therefore, in this paper a robust design is proposed for wound-rotor resolvers to not only suppress the influence of short circuit fault in the stator/rotor winding, but also improve the accuracy of the sensor under mechanical faults. The effectiveness of the proposed robust design is demonstrated by an analytical model based on winding function method and then approved by time stepping finite element analysis (TSFEA) and experimental measurements on a prototype sensor.

Topics & Concepts

ResolverStatorElectromagnetic coilRotor (electric)EngineeringFault (geology)Position sensorWound rotor motorControl theory (sociology)Electronic engineeringComputer scienceElectrical engineeringInduction motorVoltageArtificial intelligenceSeismologyGeologyControl (management)Sensor Technology and Measurement SystemsAdvanced Sensor Technologies ResearchScientific Measurement and Uncertainty Evaluation
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