LLCL-Filtered Grid Converter with Improved Stability and Robustness

Huang Min; Xiongfei Wang; Poh Chiang Loh; Frede Blaabjerg

doi:10.1109/TPEL.2015.2467185

LLCL-Filtered Grid Converter with Improved Stability and Robustness

Huang Min, Xiongfei Wang, Poh Chiang Loh, Frede Blaabjerg

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Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

71 Citationer (Scopus)

434 Downloads (Pure)

Abstract

LLCL-filter has been proven to introduce more filtering at the converter switching frequency, while using smaller passive components. However, like other higher order filters, it introduces resonance to the grid when used with a grid converter. Its stability and robustness are also affected by grid impedance variations, making its design more challenging. To address these concerns, a new parameter design method for LLCL-filter has been formulated in the paper, which when enforced, guarantees robust and stable grid current control regardless of how the grid conditions change. It is thus an enhanced method even with no damping added to the grid converter. The method has been applied to the development of an LLCL-filter for testing in the laboratory with a 5-kW, 400-V, and 50-Hz grid converter. The method can also be applied to the lower order LCL-filter with only a slight modification needed.

Originalsprog	Engelsk
Tidsskrift	I E E E Transactions on Power Electronics
Vol/bind	31
Udgave nummer	5
Sider (fra-til)	3958 - 3967
Antal sider	10
ISSN	0885-8993
DOI	https://doi.org/10.1109/TPEL.2015.2467185
Status	Udgivet - maj 2016

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10.1109/TPEL.2015.2467185

Early_access_LLCL_Filtered_Grid_Converter_with_Improved_Stability_and_Robustness

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Søg efter materialet i Aalborg Universitetsbiblioteks søgemaskine

HARMONY: HARMONY - Harmonic identification, mitigation and control in power electronics based power systems
Blaabjerg, F., Bak, C. L., Wang, X., Beres, R. N., Kwon, J., Gui, Y., Yoon, C. & Ebrahimzadeh, E.
European Research Counsil
01/02/2013 → 28/02/2018
Projekter: Projekt › Forskning

Citationsformater

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abstract = "LLCL-filter has been proven to introduce more filtering at the converter switching frequency, while using smaller passive components. However, like other higher order filters, it introduces resonance to the grid when used with a grid converter. Its stability and robustness are also affected by grid impedance variations, making its design more challenging. To address these concerns, a new parameter design method for LLCL-filter has been formulated in the paper, which when enforced, guarantees robust and stable grid current control regardless of how the grid conditions change. It is thus an enhanced method even with no damping added to the grid converter. The method has been applied to the development of an LLCL-filter for testing in the laboratory with a 5-kW, 400-V, and 50-Hz grid converter. The method can also be applied to the lower order LCL-filter with only a slight modification needed.",

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author = "Huang Min and Xiongfei Wang and Loh, {Poh Chiang} and Frede Blaabjerg",

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AU - Min, Huang

AU - Wang, Xiongfei

AU - Loh, Poh Chiang

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N2 - LLCL-filter has been proven to introduce more filtering at the converter switching frequency, while using smaller passive components. However, like other higher order filters, it introduces resonance to the grid when used with a grid converter. Its stability and robustness are also affected by grid impedance variations, making its design more challenging. To address these concerns, a new parameter design method for LLCL-filter has been formulated in the paper, which when enforced, guarantees robust and stable grid current control regardless of how the grid conditions change. It is thus an enhanced method even with no damping added to the grid converter. The method has been applied to the development of an LLCL-filter for testing in the laboratory with a 5-kW, 400-V, and 50-Hz grid converter. The method can also be applied to the lower order LCL-filter with only a slight modification needed.

AB - LLCL-filter has been proven to introduce more filtering at the converter switching frequency, while using smaller passive components. However, like other higher order filters, it introduces resonance to the grid when used with a grid converter. Its stability and robustness are also affected by grid impedance variations, making its design more challenging. To address these concerns, a new parameter design method for LLCL-filter has been formulated in the paper, which when enforced, guarantees robust and stable grid current control regardless of how the grid conditions change. It is thus an enhanced method even with no damping added to the grid converter. The method has been applied to the development of an LLCL-filter for testing in the laboratory with a 5-kW, 400-V, and 50-Hz grid converter. The method can also be applied to the lower order LCL-filter with only a slight modification needed.

KW - Delay

KW - Filter design

KW - Resonance

KW - Robustness

KW - Stability

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DO - 10.1109/TPEL.2015.2467185

M3 - Journal article

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JO - I E E E Transactions on Power Electronics

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LLCL-Filtered Grid Converter with Improved Stability and Robustness

Abstract

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Projekter

HARMONY: HARMONY - Harmonic identification, mitigation and control in power electronics based power systems

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