Power decoupling method for synchronous reference frame-based vector control

•Real and reactive powers coupling of VSI vector control cannot be neglected when VSI connects to weak grids.•When real power increases, VSI will absorb coupling reactive power from power grids, which may cause instability.•The proposed method can reduce power coupling magnitudes in transient and qu...

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Vydané v:International journal of electrical power & energy systems Ročník 164; s. 110429
Hlavní autori: Gong, Zhen, Xie, Xiaorong, Liu, Chengxi, Faria da Silva, Filipe, Gui, Yonghao
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier Ltd 01.03.2025
Elsevier
Predmet:
Dynamic feedforward power compensation
Power decoupling
Variation of voltage angle difference
Voltage source inverter
Voltage source inverter
Power decoupling
Dynamic feedforward power compensation
Variation of voltage angle difference
ISSN:0142-0615
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Abstract •Real and reactive powers coupling of VSI vector control cannot be neglected when VSI connects to weak grids.•When real power increases, VSI will absorb coupling reactive power from power grids, which may cause instability.•The proposed method can reduce power coupling magnitudes in transient and quasi-steady state. This short communication analyzes the power coupling mechanism of synchronous reference frame-based vector control (SRF-VC) of voltage source inverter (VSI), which is caused by the variation of voltage angle difference (VVAD) between voltage at point of common coupling (PCC) and grid voltage. Then, a power closed loop transfer function model is proposed to study the power coupling characteristics. It reveals that when there is an increase of output real power, the VSI will absorb coupling reactive power from power grids which will limit its real power transfer capability and even cause transient instability. Next, a power decoupling strategy for SRF-VC is proposed based on a dynamic feedforward power compensation (DFPC) algorithm, and its power decoupling capability is analyzed based on the transfer function. Simulations and experimental results show that the proposed method can not only reduce power coupling magnitudes in transient stage, but also realize power ripple cancellation in quasi-steady state.
AbstractList This short communication analyzes the power coupling mechanism of synchronous reference frame-based vector control (SRF-VC) of voltage source inverter (VSI), which is caused by the variation of voltage angle difference (VVAD) between voltage at point of common coupling (PCC) and grid voltage. Then, a power closed loop transfer function model is proposed to study the power coupling characteristics. It reveals that when there is an increase of output real power, the VSI will absorb coupling reactive power from power grids which will limit its real power transfer capability and even cause transient instability. Next, a power decoupling strategy for SRF-VC is proposed based on a dynamic feedforward power compensation (DFPC) algorithm, and its power decoupling capability is analyzed based on the transfer function. Simulations and experimental results show that the proposed method can not only reduce power coupling magnitudes in transient stage, but also realize power ripple cancellation in quasi-steady state.
•Real and reactive powers coupling of VSI vector control cannot be neglected when VSI connects to weak grids.•When real power increases, VSI will absorb coupling reactive power from power grids, which may cause instability.•The proposed method can reduce power coupling magnitudes in transient and quasi-steady state. This short communication analyzes the power coupling mechanism of synchronous reference frame-based vector control (SRF-VC) of voltage source inverter (VSI), which is caused by the variation of voltage angle difference (VVAD) between voltage at point of common coupling (PCC) and grid voltage. Then, a power closed loop transfer function model is proposed to study the power coupling characteristics. It reveals that when there is an increase of output real power, the VSI will absorb coupling reactive power from power grids which will limit its real power transfer capability and even cause transient instability. Next, a power decoupling strategy for SRF-VC is proposed based on a dynamic feedforward power compensation (DFPC) algorithm, and its power decoupling capability is analyzed based on the transfer function. Simulations and experimental results show that the proposed method can not only reduce power coupling magnitudes in transient stage, but also realize power ripple cancellation in quasi-steady state.
ArticleNumber 110429
Author Xie, Xiaorong
Gong, Zhen
Gui, Yonghao
Liu, Chengxi
Faria da Silva, Filipe
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  givenname: Xiaorong
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  fullname: Gui, Yonghao
  email: yg@es.aau.dk
  organization: Automation & Control Section at the Department of Electronic Systems, Aalborg University, 9220 Aalborg, Denmark
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Keywords Voltage source inverter
Power decoupling
Dynamic feedforward power compensation
Variation of voltage angle difference
Language English
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Snippet •Real and reactive powers coupling of VSI vector control cannot be neglected when VSI connects to weak grids.•When real power increases, VSI will absorb...
This short communication analyzes the power coupling mechanism of synchronous reference frame-based vector control (SRF-VC) of voltage source inverter (VSI),...
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StartPage 110429
SubjectTerms Dynamic feedforward power compensation
Power decoupling
Variation of voltage angle difference
Voltage source inverter
Title Power decoupling method for synchronous reference frame-based vector control
URI https://dx.doi.org/10.1016/j.ijepes.2024.110429
https://doaj.org/article/7ceccb29a88e4461a92009cb168b738c
Volume 164
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