具有先进电网支撑的背靠背模块化多电平变换器直接功率控制中基于描述函数的变压器励磁电抗分析

This article presents a port-controlled Hamiltonian (PCH)-based direct power control (DPC) architecture for a back-to-back (B2B) modular multilevel converter (MMC) system connecting two ac sources at different frequencies. The system features advanced grid support functionalities based on IEEE 1547-2018, implemented on the inverter side. The rectifier-side controller ensures reference following for active and/or reactive powers and maintains the commanded dc bus voltage. The inverter-side controller ensures power command following for active and reactive powers. The proposed control architecture is designed to suppress second-harmonic oscillations in powers during unbalanced grid voltage sags by dynamically adjusting the currents on each ac side. This also ensures effective elimination of any second-harmonic oscillations in the equivalent dc bus voltage. Validation is performed on an OPAL-RT Technologies Inc. (OPAL-RT) real-time platform with case studies on unbalanced and balanced sags, demonstrating the controller’s effectiveness during real-time implementation. A reduced-scale laboratory prototype further verifies these case studies, with experimental results for balanced sags due to grid simulator limitations. The results confirm the robustness and efficiency of the proposed control strategy in ensuring stable and reliable operation under various grid conditions.