Modeling and control of doubly fed induction generator with a disturbance observer: a stator voltage oriented approach
Özsoy, Emre E. and Golubovic, Edin and Şabanoviç, Asif and Boğosyan, Seta and Gökaşan, Metin (2014) Modeling and control of doubly fed induction generator with a disturbance observer: a stator voltage oriented approach. (Accepted/In Press)
Official URL: http://dx.doi.org/10.3906/elk-1312-104
The popularity of renewable energy conversion systems, especially wind energy has been increasing in recent years. Doubly fed induction generator (DFIG) based wind energy systems are intensively used due to their wide range of active and reactive power controllability. Conventional DFIG control structures consist of decoupled PI rotor current controllers with stator flux orientation and machine parameter dependent compensating terms. The accuracy of stator flux calculation is dependent on how accurately the stator resistance is known. Integration problems also exist and additional low pass filters are implemented to accurately calculate the stator flux. In this study, machine dependent compensating terms are estimated with a first order low pass filter disturbance observer. Therefore, a single proportional (P) controller is sufficient to control decoupled rotor currents. The proposed controller structure is implemented on a Matlab/Simulink platform with the parameters of 500KW DFIG used in MILRES (Turkish National Wind Energy) project. The proposed controller is also experimentally validated in an experimental setup.
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