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The impact of solar power is one of the thriving concerns in the world today. The proper utilization of solar energy in modern lifestyles opens a wide path to new technologies. This arrangement with examinations, and plans, of an isolated grid-connected inverter for photovoltaic (PV) applications. Traditional converters utilized like a buck, boost have certain disadvantages subsequently we go for the improved flyback topology for high power application, particularly with a PV source. A grid-tied, isolated, and central-type inverter dependent on the flyback converter topology is presented. Flyback topology works in a discontinuous current (DCM) mode of operation the interleaved structure is a successful solution to increment the power level, which can minimize the current ripple, can reduce the passive component size. A simulation model of the proposed inverter system is developed and the design is verified for good performance based on the simulation results with the implementation of it in the hardware prototype model. Maximum power tracking of solar energy is facilitated through maximum power point tracking for each PV panel with reduced maintenance cost and time.