Abstract
Conventional distributed secondary control is vulnerable to the false data injection (FDI) attacks in regulating power electronics (PE)-based DC microgrids. To address this issue, a sliding mode observer (SMO) based distributed secondary control has been proposed to detect and compensate the FDI signals. However, the SMO suffers from inevitable chattering that deteriorates the steady-state performance. To this end, a high-order differentiator (HoD) based distributed secondary control is proposed in this paper. The proposed control can not only eliminate the chattering, but also improve the dynamics with shorter settling time. It is inherited from the conventional distributed control by only requiring neighboring communication to provide references for the primary-layer control in achieving bus voltage restorations, output current sharing, and output power sharing of PE-based systems. Both simulation and experimental results have verified that the proposed control can compensate different types of FDI attacks and showcase its superior dynamic performance than SMO without chattering.
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