Energy harvesting tests have been piloted in the experiment paper using a static base Photovoltaic (PV) configuration and a two-orientation Sun follower module with ten watt solar panels. The sun follower arrangement in the global positioning system (GPS) is designed to ensure the best potential power output from solar radiation. By tracing the sun’s trajectory across the sky over the course of the day, the GPS-based two-orientation sun following system has been able to record sunlight intensity from 6:00 to 18:30 solar time. The sun follower module with GPS has a higher engrossed power than the Light Dependent Resister (LDR) based two-axis follower and the static base panel, with the average energy generation on a sunny, hazy, foggy, or rainy day being 146.7Wh, 82.45Wh, and 42.79Wh, respectively. The solar panel used here is flexible and use 15 • of step tracking to reduce syste power consumption. In 2021, the average amount of 1 energy produced by the two-axis-GPS sun following system was 4.021754Wh/-day, 45.85% more than the average amount of energy produced by the LDR (22% to 35%) and static base PV system.