A short circuit fault estimation in PMSM: A comparative study of an adaptive observer and an unknown inputs observer
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F. Sdiri
Abstract
Recently, interest has been increased on model-based approaches for fault detection and particularly focused on observers. The fault detection methods based on observers are considered as successful method. This paper presents a comparative study between two observation techniques applied to field oriented control of permanent magnet synchronous machine (PMSM) under inter turn short circuit. These approaches are used to estimate the PMSM machine state vector and the fault current. The comparative study is done between the adaptive and the unknown inputs observer in order to choose which exhibits the highest performance. Finally, the simulation results are compared to validate the accuracy of analytic method.
Abstract
Recently, interest has been increased on model-based approaches for fault detection and particularly focused on observers. The fault detection methods based on observers are considered as successful method. This paper presents a comparative study between two observation techniques applied to field oriented control of permanent magnet synchronous machine (PMSM) under inter turn short circuit. These approaches are used to estimate the PMSM machine state vector and the fault current. The comparative study is done between the adaptive and the unknown inputs observer in order to choose which exhibits the highest performance. Finally, the simulation results are compared to validate the accuracy of analytic method.
Kapitel in diesem Buch
- Frontmatter I
- Contents XI
- Multi-phase Current Source Cycloconverter Using Amplitude Modulation Technique 1
- Bifurcation Analysis in a Self-Oscillating Series Resonant Converter 15
- Optimal design targeting the environmental footprint reduction of an electrical railway subsystem 29
- Long - Term Energy Losses Analyses For Jordanian Power system (Commercial Losses) 49
- A Novel Dynamics Approximation method for Analysis and Design of DC Drive Systems 59
- Third order Model and Identification of Lead Acid Batteries Using Meta-Heuristic Algorithms and Experimental Measurements 73
- A short circuit fault estimation in PMSM: A comparative study of an adaptive observer and an unknown inputs observer 93
- DCC and DTC of Three-Level Inverter Fed Brushless DC Motor Drives with Torque Ripple Reduction 113
Kapitel in diesem Buch
- Frontmatter I
- Contents XI
- Multi-phase Current Source Cycloconverter Using Amplitude Modulation Technique 1
- Bifurcation Analysis in a Self-Oscillating Series Resonant Converter 15
- Optimal design targeting the environmental footprint reduction of an electrical railway subsystem 29
- Long - Term Energy Losses Analyses For Jordanian Power system (Commercial Losses) 49
- A Novel Dynamics Approximation method for Analysis and Design of DC Drive Systems 59
- Third order Model and Identification of Lead Acid Batteries Using Meta-Heuristic Algorithms and Experimental Measurements 73
- A short circuit fault estimation in PMSM: A comparative study of an adaptive observer and an unknown inputs observer 93
- DCC and DTC of Three-Level Inverter Fed Brushless DC Motor Drives with Torque Ripple Reduction 113
