In locations where the network is currently unavailable, solar photovoltaic (SPV) systems that are primarily based on autonomous systems have emerged as a possible solution to the problem of electrification. The following are the primary difficulties in designing such systems: Getting the most power possible out of a PV system with quickly changing irradiance; getting high voltage gain from a DC-DC converter; and creating an effective power-management strategy between SPV and an energy storage system (ESS). Existing schemes for autonomous systems require a minimum of three conversion steps to satisfy various objectives, which significantly reduces the system's efficiency and reliability. Different control strategies are used to handle the aforementioned problems. A modified non-iterative Incremental Conductance is used to extract the most power.