A Current-Source DC-AC Converter and Control Strategy for Grid-Connected PV Applications

CHRISTIAN BUZZIO; YAMIL SERGIO POLONI; GERMÁN G. OGGIER; GUILLERMO O. GARCÍA

INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS

ELSEVIER SCI LTD

Lugar: Amsterdam; Año: 2023

0142-0615

This paper presents a two-stage current-source DC-AC converter for grid-connected PV applications which is composed of an input step-up stage, followed by a step-down stage and an unfolding inverter. A decentralized control strategy of the DC-DC stage allows maximizing the renewable energy harvest using an Incremental Conductance MPPT algorithm and synthesizing an output current to be injected into the grid with low harmonic distortion. Double-loop PI controllers are used for the boost stage. The DC bus voltage of the buck stage isregulated using a PI controller, and an inner Proportional-Resonant (PR) controller tracks a sinusoidal reference. The PR controller proposed in this paper, includes a reduced number of resonant stages meeting the energy quality required by standards, which results in good stability margins. Finally, a SOGI-FLL algorithm synchronizes the inverter operation with the grid. Experimental results show an excellent dynamic response of the system, and the injected current complies with the IEEE Std. 1547-2018 specifications regarding harmonic content using a control law with a low computational burden.