Design And Implementation Of Dual Input Single Output Converter For Real World Applications

Abstract

With the adding integration of renewable energy sources such as solar, hydro, wind for household energy systems, the need for effective power operation results has come pivotal. In addition to this, battery is used as energy storehouse system to give provisory power when oscillations happen due to renewable sources. This integration helps to manage inflow of power supply without disturbances in real world operations. The present system concentrates on Dual Input Single Output DC- DC converter. It enhances the connection and distribution of energy from binary energy sources. It maximizes the effectiveness while maintaining a steady and reliable energy force through innovative power inflow operation. This work incorporates with basic and improved level of voltage management systems. Initially system is validated for both simulations and hardware with two battery sources of 12 V connected to converters which provides stable output voltage of 12V without fluctuations. Later, the system is improved by considering solar as one input source and battery as another input source. This system showcases effectiveness of dual inputs to converters by providing 150V of AC voltage which suits for real world applications. This work is validated by MATLAB simulations and Hardware implementations, by providing regulated output voltage. It suits for Domestic grid applications when fluctuations occur thorough renewable sources. In order to implement this esp32 Microcontroller and PIC Microcontroller was utilized. The experimental results satisfy with simulation results, verifying the converter’s ability to efficiently manage energy flow while minimizing waste. This DC DC conversion approach provides a cost-effective and scalable solution for integrating renewable energy into real world applications. By smartly balancing energy sources, the Dual Input Single Output converter enhances overall efficiency and sustainability. Further, contributes to the higher aim of reducing dependency on nonrenewable fossil fuel based power generation and distribution.