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This paper reports an elegant approach to address two major challenges of transformerless grid-connected microinverters, common-mode earth leakage current and double-frequency power pulsation across the photovoltaic (PV) terminal. The proposed… Click to show full abstract
This paper reports an elegant approach to address two major challenges of transformerless grid-connected microinverters, common-mode earth leakage current and double-frequency power pulsation across the photovoltaic (PV) terminal. The proposed solution uses an embedded decoupling capacitor in a doubly grounded boost–buck ( $\acute{\mathrm{C}}$uk) derived topology. An intelligent switching scheme ensures that a large swing of the decoupling capacitor voltage is easily accommodated. Thus, film capacitors can be used instead of electrolytic capacitors, which helps increase equipment lifetime. Details of circuit operation are provided along with dynamic modeling and controller design for close-loop operation. Simulation and experimental results are presented for performance validation of the microinverter.
Journal Title: IEEE Transactions on Industry Applications
Year Published: 2018
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