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Abstract The transfer delay-based adaptive frequency-locked loop (TD-AFLL) is a recently proposed synchronization technique. It has fast respond speed in ideal grid, but the performance degrades significantly in distorted grid.… Click to show full abstract
Abstract The transfer delay-based adaptive frequency-locked loop (TD-AFLL) is a recently proposed synchronization technique. It has fast respond speed in ideal grid, but the performance degrades significantly in distorted grid. In this paper, a prefilter is proposed to enhance the robustness and harmonic rejection of the TD-AFLL. A fixed-coefficient bandpass filter (FCBF) is selected as the prefilter, which benefits from a simple structure and avoids the influence of frequency feedback dynamic of the TD-AFLL. Compare with standard TD-AFLL, the proposed FLL exhibits stronger harmonic rejection capability. Experimental results verify the effectiveness and advantages of the proposed technique.
Journal Title: Energy Reports
Year Published: 2020
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