Guanglu Wu, Shanshan Wang, Bing Zhao, Hong Hu, Jianhua Li, Lu Cao, Haoyin Ding, Lin Yu, Quan Ma
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Converter-Driven Low-Frequency Stability Analysis and Compensation in Weak-Grid-Tied VSCs
This paper analyzes converter-driven low- frequency oscillations of current controlled weak-grid-tied voltage-source converters (VSCs) and proposes an effective method to improve the dynamic behavior. First, the specific single-input single-output (SISO) open-loop transfer function from the active power to the active power reference is obtained. From the SISO transfer function, it is revealed that the low- frequency oscillation frequency mainly depends on the active power control (APC)’s bandwidth in the outer loop. Moreover, it is revealed that the PLL brings phase lag near the frequency of the PLL bandwidth in weak-grid conditions, which results in the smaller phase margin and the weaker damping. By fully taking advantage of transfer functions, a novel reset control based compensator is presented in the outer loop without changing the control structure. The PI+CI control increases the phase margin/oscillation damping by resetting the integrator once the power error signal crosses zero. Bode plots and time-domain simulation results validate the efficacy of the proposed method in mitigating low-frequency oscillations.
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