According to the suggested system, there are many power transfer techniques for a grid-connected hybrid generating system with flexible power transfer. This hybrid model maximizes the use of freely accessible sustainable energy sources such as wind and solar energies, allowing for optimum energy efficiency. For such system, an adaptive MPPT algorithm will be employed in conjunction with the traditional perturb and observe technique. Dependent on the power sources' accessibility, this arrangement enables the client sources to serve the load independently or concurrently. As for wind energy, turbines rotor speed is a major factor, whereas the output of solar energy is largely influenced by the voltage of solar cells. In order to convert renewable power, a wind farm and a Permanent Magnet Synchronous Generator must be used together. Unconventional energy is converted into AC power by the inverter, which turns the DC output into usable AC power for the associated load. Assuming standard room temperature for solar, and standard wind speed in a flat location for renewable power, this hybrid system functions under typical conditions. It will be possible to minimize harmonic ripples using a fuzzy-based PWM scheme. In order to demonstrate the working principle, practicality, and dependability of this suggested system, the simulation and experimental results.

Keywords : Wind, Solar, Battery, PWM, Fuzzy Logic Controller