Uninterrupted Power Supply Using MPPT Charge Controller

Abstract

The project "Uninterrupted Power Supply using MPPT" aims to develop a reliable and efficient system for providing uninterrupted power to critical loads using Maximum Power Point Tracking (MPPT) technology. The demand for stable and uninterrupted power supply is crucial in various applications such as telecommunications, medical facilities, and industrial processes. The proposed system integrates an MPPT algorithm with a power storage unit and an inverter. The MPPT algorithm optimizes the energy harvesting from renewable sources, such as solar panels or wind turbines, by continuously tracking and extracting the maximum power available. The harvested energy is then stored in a high-capacity battery, ensuring a continuous power supply even during periods of low or no generation. To enhance the overall efficiency, the system incorporates an inverter that converts the DC power from the battery into AC power, suitable for powering the connected critical loads. The inverter also acts as a backup power source when the renewable energy generation is insufficient. The project focuses on designing and implementing an intelligent control system that dynamically adjusts the MPPT algorithm based on real-time input parameters, such as solar irradiation, temperature, and load demand. This adaptive control mechanism ensures optimal power utilization and enhances the system's reliability and performance. The "Uninterrupted Power Supply using MPPT" project has the potential to contribute to sustainable energy solutions and address the growing need for uninterrupted power in critical applications. By efficiently harnessing renewable energy and ensuring a continuous power supply, the project aims to reduce dependence on traditional power sources and promote a greener and more resilient energy infrastructure.