Arghyadip Bhattacharya scite author profile

Solar micro-inverters are becoming increasingly popular as they are modular, and they posses the capability of extracting maximum available power from the individual photovoltaic (PV) modules of a solar array. For realizing microinverters single stage transformer-less topologies are preferred as they offer better power evacuation efficacy. A SEPIC-Ćuk based transformer-less micro-inverter, having only one high frequency switch and four line frequency switches, is proposed in this paper. The proposed converter can be employed to interface a 35 V PV module to a 220 V single phase ac grid. As a very high gain is required to be achieved for the converter, it is made to operate in discontinuous conduction mode (DCM) for all possible operating conditions. Since the ground of the each PV modules is connected to the ground of the utility, there is no possibility of leakage current flow between the module and the utility. Detailed simulation studies are carried out to ascertain the efficacy of the proposed micro-inverter. A laboratory prototype of the inverter is fabricated, and detailed experimental studies are carried out to confirm the viability of the proposed scheme.

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Arghyadip Bhattacharya

Simulation, output power optimization and comparative study of silicon and thin film solar cell modules

A Single Phase Single Stage SEPIC-ĆUK Based Non-Isolated High Gain and Efficient Micro-Inverter

A Coupled Inductor Based Ćuk Microinverter for Grid Connected Photovoltaic Applications

A Novel Single Phase Grid Connected Transformer-Less Solar Micro-Inverter Topology With Power Decoupling Capability

A Novel SEPIC-Ćuk Based High Gain Solar Micro-Inverter for Integration to Grid

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