Low-Frequency Converter-Driven Oscillations in Weak Grids: Explanation and Damping Improvement

Guanglu Wu; Huadong Sun; Bing Zhao; Shiyun Xu; Xi Zhang; Agusti Egea-Alvarez; Shanshan Wang; Gen Li; Yingbiao Li; Xiaoxin Zhou

doi:10.1109/TPWRS.2021.3099341

Low-Frequency Converter-Driven Oscillations in Weak Grids: Explanation and Damping Improvement

Guanglu Wu, Huadong Sun^*, Bing Zhao, Shiyun Xu, Xi Zhang^*, Agusti Egea-Alvarez, Shanshan Wang, Gen Li, Yingbiao Li, Xiaoxin Zhou

^*此作品的通讯作者

自动化学院

科研成果: 期刊稿件 › 文章 › 同行评审

18 引用（Scopus）

摘要

Low-frequency oscillations have been reported in several weak-grids-connected voltage-source-converter(VSC) systems. Although efforts have been devoted to understanding the parametric and sensitivity impact of the VSC controller gains, a general formulation of the oscillation mechanism is still missing. Using transfer function dynamic modelling approach, we find that the outer loop active power control's bandwidth mainly determines the oscillation frequency. The PLL introduces a large phase lag around the frequency of the PLL bandwidth in weak grids which decreases the oscillation damping. A simple but effective PI+Clegg integrator (CI) compensator is proposed to replace the standard outer loop active power controller compensating the PLL's phase delay and increasing the oscillation damping. The results are verified in a real time digital simulator.

源语言	英语
页（从-至）	5944-5947
页数	4
期刊	IEEE Transactions on Power Systems
卷	36
期	6
DOI	https://doi.org/10.1109/TPWRS.2021.3099341
出版状态	已出版 - 1 11月 2021

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title = "Low-Frequency Converter-Driven Oscillations in Weak Grids: Explanation and Damping Improvement",

abstract = "Low-frequency oscillations have been reported in several weak-grids-connected voltage-source-converter(VSC) systems. Although efforts have been devoted to understanding the parametric and sensitivity impact of the VSC controller gains, a general formulation of the oscillation mechanism is still missing. Using transfer function dynamic modelling approach, we find that the outer loop active power control's bandwidth mainly determines the oscillation frequency. The PLL introduces a large phase lag around the frequency of the PLL bandwidth in weak grids which decreases the oscillation damping. A simple but effective PI+Clegg integrator (CI) compensator is proposed to replace the standard outer loop active power controller compensating the PLL's phase delay and increasing the oscillation damping. The results are verified in a real time digital simulator.",

keywords = "Weak grids, low-frequency oscillations, oscillation damping",

author = "Guanglu Wu and Huadong Sun and Bing Zhao and Shiyun Xu and Xi Zhang and Agusti Egea-Alvarez and Shanshan Wang and Gen Li and Yingbiao Li and Xiaoxin Zhou",

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T1 - Low-Frequency Converter-Driven Oscillations in Weak Grids

T2 - Explanation and Damping Improvement

AU - Wu, Guanglu

AU - Sun, Huadong

AU - Zhao, Bing

AU - Xu, Shiyun

AU - Zhang, Xi

AU - Egea-Alvarez, Agusti

AU - Wang, Shanshan

AU - Li, Gen

AU - Li, Yingbiao

AU - Zhou, Xiaoxin

PY - 2021/11/1

Y1 - 2021/11/1

N2 - Low-frequency oscillations have been reported in several weak-grids-connected voltage-source-converter(VSC) systems. Although efforts have been devoted to understanding the parametric and sensitivity impact of the VSC controller gains, a general formulation of the oscillation mechanism is still missing. Using transfer function dynamic modelling approach, we find that the outer loop active power control's bandwidth mainly determines the oscillation frequency. The PLL introduces a large phase lag around the frequency of the PLL bandwidth in weak grids which decreases the oscillation damping. A simple but effective PI+Clegg integrator (CI) compensator is proposed to replace the standard outer loop active power controller compensating the PLL's phase delay and increasing the oscillation damping. The results are verified in a real time digital simulator.

AB - Low-frequency oscillations have been reported in several weak-grids-connected voltage-source-converter(VSC) systems. Although efforts have been devoted to understanding the parametric and sensitivity impact of the VSC controller gains, a general formulation of the oscillation mechanism is still missing. Using transfer function dynamic modelling approach, we find that the outer loop active power control's bandwidth mainly determines the oscillation frequency. The PLL introduces a large phase lag around the frequency of the PLL bandwidth in weak grids which decreases the oscillation damping. A simple but effective PI+Clegg integrator (CI) compensator is proposed to replace the standard outer loop active power controller compensating the PLL's phase delay and increasing the oscillation damping. The results are verified in a real time digital simulator.

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KW - low-frequency oscillations

KW - oscillation damping

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Low-Frequency Converter-Driven Oscillations in Weak Grids: Explanation and Damping Improvement

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