Stator-Interturn-Fault Detection of Doubly Fed Induction Generators Using Rotor-Current and Search-Coil-Voltage Signature Analysis

Stator-Interturn-Fault Detection of Doubly Fed Induction Generators Using Rotor-Current and Search-Coil-Voltage Signature Analysis

A novel technique for detecting stator interturn faults in a doubly fed induction generator (DFIG) is proposed by analyzing its rotor current and search-coil voltage. So far, fault-diagnostic techniques proposed for stator-interturn-fault detection in DFIGs are based on analysis of stator current or...

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Veröffentlicht in:IEEE transactions on industry applications 2009-09, Vol.45 (5), p.1831-1842
Hauptverfasser: Shah, D., Nandi, S., Neti, P.
Format: Artikel
Sprache:eng
Schlagworte:
Circuit faults
Circuit simulation
Circuits
Doubly fed induction generator (DFIG)
Electrical fault detection
Fault detection
Faults
Feasibility
Harmonic analysis
Harmonics
Induction generators
motor-current signature analysis (MCSA)
Prototypes
Rotors
stator interturn fault
Stators
Voltage
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creator Shah, D.
Nandi, S.
Neti, P.
description A novel technique for detecting stator interturn faults in a doubly fed induction generator (DFIG) is proposed by analyzing its rotor current and search-coil voltage. So far, fault-diagnostic techniques proposed for stator-interturn-fault detection in DFIGs are based on analysis of stator current or vibration of generator. Results from these methods are ambiguous because they either fail to account for condition when the DFIG is operating under imbalanced load or these methods are based on experimental results alone without any theoretical basis. Our recent observations suggested that harmonics induced in the rotor circuit are very promising in detecting stator interturn faults in DFIGs. Hence, in this paper, an in-depth investigation is conducted to determine the origin of various harmonic components in rotor currents and their feasibility to detect stator interturn faults unambiguously. Detailed analysis is presented, which explains the mechanism by which the stator-interturn-fault-related harmonics are induced in the rotor circuit. The theory is verified with simulation and extensive experimental results. To confirm the feasibility of the proposed technique for detecting stator interturn faults and obtain results on speed sensitivity of fault detection, a prototype of digital-signal-processor-based fault-diagnostic system has been developed, which is capable of producing very fast trip signal in about 2 s.
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So far, fault-diagnostic techniques proposed for stator-interturn-fault detection in DFIGs are based on analysis of stator current or vibration of generator. Results from these methods are ambiguous because they either fail to account for condition when the DFIG is operating under imbalanced load or these methods are based on experimental results alone without any theoretical basis. Our recent observations suggested that harmonics induced in the rotor circuit are very promising in detecting stator interturn faults in DFIGs. Hence, in this paper, an in-depth investigation is conducted to determine the origin of various harmonic components in rotor currents and their feasibility to detect stator interturn faults unambiguously. Detailed analysis is presented, which explains the mechanism by which the stator-interturn-fault-related harmonics are induced in the rotor circuit. The theory is verified with simulation and extensive experimental results. 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source IEEE Electronic Library (IEL)
subjects Circuit faults
Circuit simulation
Circuits
Doubly fed induction generator (DFIG)
Electrical fault detection
Fault detection
Faults
Feasibility
Harmonic analysis
Harmonics
Induction generators
motor-current signature analysis (MCSA)
Prototypes
Rotors
stator interturn fault
Stators
Voltage
title Stator-Interturn-Fault Detection of Doubly Fed Induction Generators Using Rotor-Current and Search-Coil-Voltage Signature Analysis
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