J. Eloy-Garcia Carrasco scite author profile

Direct power control (DPC) has increasingly gained attention in the last years as a robust and simple control scheme. Yet, the implications of some of the assumptions made by the original table-based DPC are not well explained in the literature. Here, a new formulation of DPC is presented, that allows to analyze the shortcomings of this kind of algorithms, mainly regarding the power limits in which table-based algorithms are valid. This is a key aspect for microgrid applications, as they require a wide range of possible active and reactive power setpoints in order to be able to control the system's voltage and frequency. A new table is then presented that allows to overcome those limitations. The proposed table is valid at any point of the inverter's power limits.Index Terms-Direct power control (DPC), power systems control, switching table, three-phase inverter.

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Problem-Based Learning in Wind Energy Using Virtual and Real Setups

Santos-Martín

Alonso-Martínez

Carrasco

et al. 2012

IEEE Trans. Educ.

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A Ni–Cd battery model considering state of charge and hysteresis effects

Garcia-Plaza

Somoza

Carrasco

et al. 2015

Journal of Power Sources

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Peak shaving algorithm with dynamic minimum voltage tracking for battery storage systems in microgrid applications

Garcia-Plaza

Carrasco

Alonso-Martínez

et al. 2018

Journal of Energy Storage

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