One-Step-Prediction Discrete Observer Based Frequency-Locked-Loop Technique for Three-Phase System

One-Step-Prediction Discrete Observer Based Frequency-Locked-Loop Technique for Three-Phase System

In grid-tied power converters, the grid parameters such as the frequency, phase angle of the fundamental component, and the harmonics are essential to the control of power converters, the fast and accurate estimation of the grid parameters is a challenge especially for high-order harmonics. This pap...

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Bibliographic Details
Main Authors: Wei Hu, Yaodong Wu, Yu Shen, Fan Yang, Xiangjun Quan, Fujin Deng, Zhixiang Zou
Format: Article
Language:English
Published: IEEE 2021-01-01
Series:IEEE Access
Subjects:
One-step prediction
frequency locked loop
adaptive state observer
harmonic detection
grid synchronization
Online Access:https://ieeexplore.ieee.org/document/9467259/
Description
Summary:In grid-tied power converters, the grid parameters such as the frequency, phase angle of the fundamental component, and the harmonics are essential to the control of power converters, the fast and accurate estimation of the grid parameters is a challenge especially for high-order harmonics. This paper proposes a one-step-prediction (OSP) discrete observer (OSPDO) to observe the fundamental and harmonic sequence components of the grid voltage. Based on the proposed OSPDO, a frequency locked loop (FLL) is designed. The proposed OSPDO-FLL has a good robustness to sampling frequency on dynamic response and high precision for frequency estimation. The proposed algorithm can estimate up to maximum 50th harmonic with a low sampling frequency thanks to the robust properties. Finally, the good characteristics of the proposed synchronization algorithm are verified by simulations and laboratory experiments.
ISSN:2169-3536

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