Reducing DC Voltage Ripples of MMC by Injecting Circulating Current under Imbalanced Grid Conditions

Fangqing Li, F. Gao
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Abstract

Modular multilevel converter (MMC) is regarded as the most competitive solution for high-voltage direct current (HVDC) transmission using voltage source converters (VSCs). Circulating current suppressing strategies based on proportional resonant (PR) controllers are widely used in MMC. Although this kind of strategies can effectively eliminate all the circulating current components in MMC-HVDC, it will result in dc-line voltage ripples under unbalanced grid conditions and thus deteriorates system performance and stability. To solve this problem, this paper develops and analyzes the model of the dc voltage fluctuation of MMC under imbalanced grid voltage accurately and proposes an optimized circulating current control method. Compared with the traditional circulating current suppressing control based on PR controller, the optimized circulating current control method which reduces the double frequency ripples of dc voltage. Simulations in PSCAD/EMTDC verify the effectiveness of the proposed control strategy.
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电网不平衡条件下注入循环电流减小MMC直流电压波动
模块化多电平变换器(MMC)被认为是使用电压源变换器(VSCs)进行高压直流(HVDC)输电的最具竞争力的解决方案。基于比例谐振控制器的循环电流抑制策略在MMC中得到了广泛的应用。虽然这种策略可以有效地消除MMC-HVDC中所有的循环电流分量,但在电网不平衡的情况下会导致直流电压波动,从而降低系统的性能和稳定性。为了解决这一问题,本文准确地建立和分析了电网电压不平衡情况下MMC直流电压波动模型,并提出了一种优化的循环电流控制方法。与传统的基于PR控制器的循环电流抑制控制相比,优化的循环电流控制方法降低了直流电压的双频纹波。在PSCAD/EMTDC上的仿真验证了所提控制策略的有效性。
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