A two state feedback active damping strategy for the LCL filter resonance in grid-connected converters

Mahmoud A. Gaafar; Emad M. Ahmed; Masahito Shoyama

doi:10.6113/JPE.2016.16.4.1587

A two state feedback active damping strategy for the LCL filter resonance in grid-connected converters

Mahmoud A. Gaafar, Emad M. Ahmed, Masahito Shoyama

Applied Energy Engineering

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

2 Citations (Scopus)

Abstract

A novel active damping strategy for the LCL filter resonance is proposed using the grid current and the capacitor voltage. The proposed technique is deduced in the continuous time domain and a discussion for its discrete implementation is presented. According to the proposed technique, instability of the open loop system, which results in non-minimum phase behavior, can be avoided over wide range of resonant frequencies. Moreover, straightforward co-design steps for both the fundamental current regulator and the active damping loops can be used. A numerical example along with experimental results are introduced to validate the proposed strategy performance over wide range of resonant frequencies.

Original language	English
Pages (from-to)	1587-1597
Number of pages	11
Journal	Journal of Power Electronics
Volume	16
Issue number	4
DOIs	https://doi.org/10.6113/JPE.2016.16.4.1587
Publication status	Published - Jul 1 2016

All Science Journal Classification (ASJC) codes

Control and Systems Engineering
Electrical and Electronic Engineering

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10.6113/JPE.2016.16.4.1587

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title = "A two state feedback active damping strategy for the LCL filter resonance in grid-connected converters",

abstract = "A novel active damping strategy for the LCL filter resonance is proposed using the grid current and the capacitor voltage. The proposed technique is deduced in the continuous time domain and a discussion for its discrete implementation is presented. According to the proposed technique, instability of the open loop system, which results in non-minimum phase behavior, can be avoided over wide range of resonant frequencies. Moreover, straightforward co-design steps for both the fundamental current regulator and the active damping loops can be used. A numerical example along with experimental results are introduced to validate the proposed strategy performance over wide range of resonant frequencies.",

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PY - 2016/7/1

Y1 - 2016/7/1

N2 - A novel active damping strategy for the LCL filter resonance is proposed using the grid current and the capacitor voltage. The proposed technique is deduced in the continuous time domain and a discussion for its discrete implementation is presented. According to the proposed technique, instability of the open loop system, which results in non-minimum phase behavior, can be avoided over wide range of resonant frequencies. Moreover, straightforward co-design steps for both the fundamental current regulator and the active damping loops can be used. A numerical example along with experimental results are introduced to validate the proposed strategy performance over wide range of resonant frequencies.

AB - A novel active damping strategy for the LCL filter resonance is proposed using the grid current and the capacitor voltage. The proposed technique is deduced in the continuous time domain and a discussion for its discrete implementation is presented. According to the proposed technique, instability of the open loop system, which results in non-minimum phase behavior, can be avoided over wide range of resonant frequencies. Moreover, straightforward co-design steps for both the fundamental current regulator and the active damping loops can be used. A numerical example along with experimental results are introduced to validate the proposed strategy performance over wide range of resonant frequencies.

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A two state feedback active damping strategy for the LCL filter resonance in grid-connected converters

Abstract

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