并网VSC外控制回路的阻尼分析及对稳定性的影响

2022 4th International Conference on Smart Power & Internet Energy Systems (SPIES) Pub Date : 2022-12-09 DOI:10.1109/SPIES55999.2022.10082429

Boyuan Zhao, Lei Chen, Y. Min, Guangyuan Yu, Aihui Yin

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引用次数: 0

摘要

本文基于修正复转矩系数法对带外控制环的并网电压源变换器进行了阻尼分析。建立了具有有功和无功控制回路的8阶小信号模型，定量评价了外控制回路对系统阻尼的影响。外部控制回路产生的阻尼可分为四部分，分别为有功/无功控制回路的d/q轴阻尼分量。结果表明，d轴阻尼分量主要由有功功率控制回路产生，q轴阻尼分量主要由无功功率控制回路产生。可以看出，外部控制回路主要对系统起到正阻尼作用。此外，还分析了外部控制器参数的影响。外部控制环的比例积分(PI)控制器参数过小，会使系统阻尼变差。电磁瞬变仿真验证了理论分析的正确性。

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Damping Analysis of Outer Control Loops and Impacts on Stability of Grid-Connected VSC

This paper conducts damping analysis of grid-connected Voltage Source Converter (VSC) with the outer control loops based on the corrected complex torque coefficient method. An 8th-order small-signal model with active and reactive power control loops is developed, and the impacts of outer control loops on system damping are quantitatively evaluated. The damping generated by outer control loops can be divided into four parts: d/q-axis damping component of active/reactive power control loop, respectively. Results shows that d-axis damping component is mainly generated by active power control loop, while q-axis damping component is mainly generated by reactive power control loop. It can be drawn that outer control loops mainly contribute positive damping to system. Moreover, the impacts of outer controller parameters are also analyzed. Small Proportional-Integral (PI) controller parameters of outer control loops will deteriorate system damping. The electromagnetic transient simulations have verified the theoretical analysis.

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2022 4th International Conference on Smart Power & Internet Energy Systems (SPIES)

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