Frequency-shift acceleration control for anti-islanding of a distributed-generation inverter

Seul Ki Kim; Jin Hong Jeon; Jong Bo Ahn; Byongjun Lee; Sae Hyuk Kwon

doi:10.1109/TIE.2009.2036028

Frequency-shift acceleration control for anti-islanding of a distributed-generation inverter

Seul Ki Kim, Jin Hong Jeon, Jong Bo Ahn, Byongjun Lee, Sae Hyuk Kwon

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

34 Citations (Scopus)

Abstract

This paper proposes frequency-shift acceleration control for anti-islanding of an inverter-based distributed generator. The proposed control is based on frequency positive feedback in the synchronous $dq$ frame. Overall, the scheme of the proposed control is described. The design methodology of the frequency-shift acceleration gain is presented based on small-signal stability and step input response. The proposed control is intended for zero nondetection zone, noncompromised power quality, and easy implementation without additional devices required. Simulation and experimental results verify that the proposed anti-islanding scheme and the gain design approach are effective and useful in real applications.

Original language	English
Article number	5332311
Pages (from-to)	494-504
Number of pages	11
Journal	IEEE Transactions on Industrial Electronics
Volume	57
Issue number	2
DOIs	https://doi.org/10.1109/TIE.2009.2036028
Publication status	Published - 2010 Feb

Keywords

Anti-islanding
Dq control
Frequency-shift acceleration control (FSAC)
Inverter-based distributed generators (DGs)
Small-signal analysis

ASJC Scopus subject areas

Control and Systems Engineering
Electrical and Electronic Engineering

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abstract = "This paper proposes frequency-shift acceleration control for anti-islanding of an inverter-based distributed generator. The proposed control is based on frequency positive feedback in the synchronous $dq$ frame. Overall, the scheme of the proposed control is described. The design methodology of the frequency-shift acceleration gain is presented based on small-signal stability and step input response. The proposed control is intended for zero nondetection zone, noncompromised power quality, and easy implementation without additional devices required. Simulation and experimental results verify that the proposed anti-islanding scheme and the gain design approach are effective and useful in real applications.",

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