Optimal Reset-Control-Based Load Frequency Regulation in Isolated Microgrids

In isolated ac microgrids, multiple controllable distributed energy resources (DERs) may simultaneously participate in load frequency control (LFC). To improve system frequency dynamics and reduce the frequency deviation for such a multiple-DER microgrid,this paper presents a novel LFC method based on an optimal reset control (ORC) scheme. The proposed ORC comprises a baseline linear controller and resetting elements, i.e., the integrator outputs, determined by a linear quadratic regulation problem. The overshoot in frequency regulation induced by integral control is reduced, and the settling time is shortened. Besides, the simple structure facilitates its real-time application, making ORC a simple yet effective solution for the LFC of microgrids. By coordinating the reset controllers of all controllable DERs, the ORC further improves the overall frequency control performance. The asymptotic stability of the closed-loop system is theoretically proved. Finally, the effectiveness of the presented LFC method is validated by switch-level simulation studies.

Automated summary

This paper presents a novel load frequency control (LFC) method based on an optimal reset control (ORC) scheme for isolated ac microgrids with multiple controllable distributed energy resources (DERs). The ORC consists of a baseline linear controller and resetting elements to reduce the overshoot in frequency regulation and shorten the settling time. By coordinating the reset controllers of all controllable DERs, the overall frequency control performance is further improved.