New design approach for grid-current-based active damping of LCL filter resonance in grid-connected converters

Mahmoud A. Gaafar; Gamal M. Dousoky; Emad M. Ahmed; Masahito Shoyama; Mohamed Orabi

doi:10.6113/JPE.2018.18.4.1165

New design approach for grid-current-based active damping of LCL filter resonance in grid-connected converters

Mahmoud A. Gaafar, Gamal M. Dousoky, Emad M. Ahmed, Masahito Shoyama, Mohamed Orabi

Applied Energy Engineering

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

This paper investigates the active damping of grid-connected LCL filter resonance using high-pass filter (HPF) of the grid current. An expression for such HPF is derived in terms of the filter components. This expression facilitates a general study of the actively damped filter behavior in the discrete time domain. Limits for the HPF parameters are derived to avoid the excitation of unstable open loop poles since such excitation can reduce both the damping performance and the system robustness. Based on this study, straightforward co-design steps for the active damping loop along with the fundamental current regulator are proposed. A numerical example along with simulation and experimental results are presented to verify the theoretical analyses.

Original language	English
Pages (from-to)	1165-1177
Number of pages	13
Journal	Journal of Power Electronics
Volume	18
Issue number	4
DOIs	https://doi.org/10.6113/JPE.2018.18.4.1165
Publication status	Published - Jul 2018

All Science Journal Classification (ASJC) codes

Control and Systems Engineering
Electrical and Electronic Engineering

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10.6113/JPE.2018.18.4.1165

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title = "New design approach for grid-current-based active damping of LCL filter resonance in grid-connected converters",

abstract = "This paper investigates the active damping of grid-connected LCL filter resonance using high-pass filter (HPF) of the grid current. An expression for such HPF is derived in terms of the filter components. This expression facilitates a general study of the actively damped filter behavior in the discrete time domain. Limits for the HPF parameters are derived to avoid the excitation of unstable open loop poles since such excitation can reduce both the damping performance and the system robustness. Based on this study, straightforward co-design steps for the active damping loop along with the fundamental current regulator are proposed. A numerical example along with simulation and experimental results are presented to verify the theoretical analyses.",

author = "Gaafar, {Mahmoud A.} and Dousoky, {Gamal M.} and Ahmed, {Emad M.} and Masahito Shoyama and Mohamed Orabi",

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year = "2018",

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doi = "10.6113/JPE.2018.18.4.1165",

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AU - Gaafar, Mahmoud A.

AU - Dousoky, Gamal M.

AU - Ahmed, Emad M.

AU - Shoyama, Masahito

AU - Orabi, Mohamed

PY - 2018/7

Y1 - 2018/7

N2 - This paper investigates the active damping of grid-connected LCL filter resonance using high-pass filter (HPF) of the grid current. An expression for such HPF is derived in terms of the filter components. This expression facilitates a general study of the actively damped filter behavior in the discrete time domain. Limits for the HPF parameters are derived to avoid the excitation of unstable open loop poles since such excitation can reduce both the damping performance and the system robustness. Based on this study, straightforward co-design steps for the active damping loop along with the fundamental current regulator are proposed. A numerical example along with simulation and experimental results are presented to verify the theoretical analyses.

AB - This paper investigates the active damping of grid-connected LCL filter resonance using high-pass filter (HPF) of the grid current. An expression for such HPF is derived in terms of the filter components. This expression facilitates a general study of the actively damped filter behavior in the discrete time domain. Limits for the HPF parameters are derived to avoid the excitation of unstable open loop poles since such excitation can reduce both the damping performance and the system robustness. Based on this study, straightforward co-design steps for the active damping loop along with the fundamental current regulator are proposed. A numerical example along with simulation and experimental results are presented to verify the theoretical analyses.

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New design approach for grid-current-based active damping of LCL filter resonance in grid-connected converters

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