Fangzhou Zhao;Tianhua Zhu;Lennart Harnefors;Bo Fan;Heng Wu;Zichao Zhou;Yin Sun;Xiongfei Wang
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引用次数: 0
摘要
本文通过对复杂的闭环模型进行巧妙的简化和因式分解,得出了具有功率同步控制(PSC)功能的并网变流器的闭式解。这些解法可为控制回路的相互作用提供清晰的分析见解,从而为稳健的控制器设计提供指导。研究证明:1)PSC 和交流电压控制(AVC)的比例增益会引入负电阻,从而加剧功率控制的同步谐振(SR);2)尽管 AVC 的比例增益有助于抑制 SSR,但 AVC 的积分增益是僵化电网互联中次同步谐振(SSR)的原因;3)令人惊讶的是,抑制 SR 的电流控制器实际上加剧了 SSR。根据分析结果给出了控制器设计指南。模拟和实验结果验证了上述结论。
Closed-Form Solutions for Grid-Forming Converters: A Design-Oriented Study
This paper derives closed-form solutions for grid-forming converters with power synchronization control (PSC) by subtly simplifying and factorizing the complex closed-loop models. The solutions can offer clear analytical insights into control-loop interactions, enabling guidelines for robust controller design. It is proved that 1) the proportional gains of PSC and alternating voltage control (AVC) can introduce negative resistance, which aggravates synchronous resonance (SR) of power control, 2) the integral gain of AVC is the cause of sub-synchronous resonance (SSR) in stiff-grid interconnections, albeit the proportional gain of AVC can help dampen the SSR, and 3) surprisingly, the current controller that dampens SR actually exacerbates SSR. Controller design guidelines are given based on analytical insights. The findings are verified by simulations and experimental results.
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