MEKRI, Fatiha; BENELGHALI, Seifeddine; BENBOUZID, Mohamed

doi:10.1109/TSTE.2012.2227126

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MEKRI, Fatiha
Institut de Recherche de l'Ecole Navale [IRENAV]

BENELGHALI, Seifeddine
Laboratoire brestois de mécanique et des systèmes [LBMS]

BENBOUZID, Mohamed
Laboratoire brestois de mécanique et des systèmes [LBMS]

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IEEE Transactions on Sustainable Energy. 2013-04-01, vol. 4, n° 2, p. 425-433

IEEE

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This paper deals with the use of permanent magnet multiphase generators in marine current turbines with the aim to highlight their fault-tolerance. In this context, the performances and the fault-tolerant capabilities of a five-phase permanent magnet synchronous generator are evaluated within a marine current turbine and compared to a classical three-phase generator. For both topologies, a robust nonlinear control strategy is adopted. The adopted control consists of an adaptive control approach that combines three strategies: a maximum power point tracking (MPPT), an optimal fault-adaptive reference current generation, and high-order sliding modes. Simulations are carried-out using a Matlab/Simulink-based marine current turbine simulator to analyze the generator performances during open-circuit faults. Conclusions are then derived regarding multiphase generators' key features for marine applications.< Réduire

Mots clés en anglais

Fault-tolerant control

high-order sliding mode control

marine current turbine

multiphase permanent magnet synchronous generator (PMSG)

open-circuit fault

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Fault-Tolerant Control Performance Comparison of Three- and Five-Phase PMSG for Marine Current Turbine Applications

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