The power control mechanism of cascaded island microgrids(MGs) composed of dispatchable and non-dis-patchable distributed generations(DGs) is complex, and the voltage and frequency regulation is difficult. Aimed at these problems, a novel decentralized master-slave power distribution control method is proposed in this paper to realize the voltage and frequency regulation and power distribution of the cascaded island MGs including second-class DGs. The control methods for master and slave DGs are designed, respectively. The master DG is responsible for adjusting the fre-quency and voltage of MG. Meanwhile, the slave DGs in MPPT mode can run under certain bus voltage, which can max-imally use the output power from non-dispatchable DGs and perform automatic power reduction under the light load condition, thereby effectively guaranteeing the safety and stability of the system. Finally, the effectiveness of the pro-posed method is verified by simulation and experimental results.
维普
万方数据