Damping Improvement of VSG With Grid-forming Driven by Hybrid Incremental Feedback Observer and Transient Vector Compensation

GUO Yingjun; QI Yu; GE Leijiao; MA Xiping; CHE Yulong; SUN Hexu

doi:10.13334/j.0258-8013.pcsee.241243

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Damping Improvement of VSG With Grid-forming Driven by Hybrid Incremental Feedback Observer and Transient Vector Compensation

更新时间：2026-02-01

- Damping Improvement of VSG With Grid-forming Driven by Hybrid Incremental Feedback Observer and Transient Vector Compensation
- Issue 24, Pages: 9541-9552(2025)
- 作者机构：
  
  1. 河北科技大学电气工程学院,河北省,石家庄市,050018
  2. 天津大学电气自动化与信息工程学院, 天津市南开区,300072
  3. 国网甘肃省电力有限公司电力科学研究院,甘肃省,兰州市,730207
  4. 兰州交通大学自动化与电气工程学院,甘肃省,兰州市,730070
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.241243
  CLC：
- Published：2025
- 稿件说明：
移动端阅览
GUO Yingjun, QI Yu, GE Leijiao, et al. Damping Improvement of VSG With Grid-forming Driven by Hybrid Incremental Feedback Observer and Transient Vector Compensation[J]. 2025, (24): 9541-9552.
DOI：

GUO Yingjun, QI Yu, GE Leijiao, et al. Damping Improvement of VSG With Grid-forming Driven by Hybrid Incremental Feedback Observer and Transient Vector Compensation[J]. 2025, (24): 9541-9552. DOI： 10.13334/j.0258-8013.pcsee.241243.

摘要

虚拟同步发电机(virtual synchronous generator，VSG)是一种重要的构网型变流器并网控制方法。但VSG具有欠阻尼的缺点，使逆变器执行有功调节时易发生频率振荡，进而导致构网型控制的功角和电压幅值受到影响。为此，提出增量反馈观测器(incremental feedback observer，IFO)和暂态矢量补偿(transient vector compensation，TVC)混合驱动的新型阻尼改善方法。IFO方法利用时滞环节采集功率和功角的小信号增量，破解VSG功角欠阻尼的难题；TVC方法在电压控制环中引入暂态前馈，攻克构网型VSG电压同步困难和响应速度慢的难题。硬件在环平台运行的结果表明：与传统VSG方法相比，IFO-TVC混合驱动的构网型VSG控制，能将有功指令响应的超调量从48%减少至0.63%，系统响应时间降低了93.3%；线路阻抗变化实验无明显频率振荡，系统响应时间降低了88.6%。

Abstract

Virtual synchronous generator (VSG) is a significant grid-forming converter grid-connection control method. However

VSG has the disadvantage of underdamping

causing frequency oscillations to occur when the inverter performs active regulation

which in turn leads to the power angle and voltage amplitude of grid-forming control to be affected. This paper proposes a novel damping improvement method driven by a hybrid of Incremental feedback observer (IFO) and Transient vector compensation (TVC) for this purpose. The IFO method uses the time-lag link to collect the small signal increments of power and power angle to crack the problem of VSG power angle underdamping; the TVC method introduces the transient feedforward in the voltage control loop to overcome the difficulty of voltage synchronization of the grid-forming VSG and the problem of slow response speed. The results of the hardware-in-the-loop platform operation show that

compared with the traditional VSG method

the hybrid IFO-TVC-driven grid-forming VSG control can reduce the overshooting of the active command response from 48% to 0.63%

and the system response time is reduced by 93.3%; the experiments on the line impedance change do not have significant frequency oscillations

and the system response time is decreased by 88.6%.

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