Simple instantaneous power modulation scheme for single-phase high-frequency link microinverter for low-power PV applications
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This paper presents a single-phase HF-link microinverter for low-power PV applications with a simple instantaneous power modulation scheme; the topology is based on the DC/DC Dual-Active-Bridge (DAB) converter without the intermediate DC-link, which reduces the number of power processing stages. The modulation scheme is simple, and it can be implemented with low-computational effort in low-complexity devices, leading to lower cost of the system. Simulation results are presented for a grid-connected open-loop system and its feasibility validated through an experimental platform for the proposed modulation strategy. Experimental results validate the proof-of-concept of the proposed modulation scheme for the presented microinverter system. © 2015 IEEE.
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Modulation; Power electronics; Computational effort; Dual active bridges; Experimental platform; High frequency link; Instantaneous power; Modulation schemes; Modulation strategy; Open loop systems; DC-DC converters
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