In this paper, a controlled scheme for a hybrid photovoltaic-diesel pumping system based on permanent magnet synchronous machine is presented. In order to feed a considered load according to power demand, both or one of two generators can be used; the first one is a MPPT fuzzy controlled buck-boost-photovoltaic panel, the second is a DTC controlled permanent magnet synchronous generator (PMSG) driven by a diesel motor. The considered load is composed of a static DC load and DTC controlled permanent magnet synchronous motor (PMSM) coupled to a centrifuge pump. In order to perform the system, a controlled fuzzy supervisor realizes the adequate choose between the generators. So that, in the first case, the considered isolated load is fed only from the panel when the MPPT fuzzy controlled photovoltaic panel power is sufficient.  In the other case, the load receives the power from the both sources when the photovoltaic panel is insufficient; a permanent magnet synchronous generator driven by a diesel motor is used. In order to the adaptation between the generators and the load, the suitable converters are chosen. Simulations with Matlab/Simulink show that the results of the proposed scheme are efficient in hybrid applications.
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