Dual-axis solar tracking systems represent a leap forward in solar energy optimization. Unlike single-axis systems, they pivotalong both horizontal and vertical axes, ensuring precise alignment with the sun's position throughout the day and seasons. This dynamicadjustment maximizes energy capture, surpassing fixed installations in efficiency and output. Not only do these systems cater to diversegeographical conditions, but they also enhance reliability and longevity, promising a sustainable future for solar energy. The goal of thisthesis was to develop a laboratory prototype of a solar tracking system, which is able to enhance the performance of the photovoltaicmodules in a solar energy system. The operating principle of the device is to keep the photovoltaic modules constantly aligned with thesunbeams, which maximizes the exposure of solar panel to the Sun’s radiation. As a result, more output power can be produced by the solarpanel. The work of the project included hardware design and implementation, together with software programming for the microcontrollerunit of the solar tracker. The system utilized an ATmega328P microcontroller to control motion of two servo motors, which rotate solarpanel in two axes. The amount of rotation was determined by the microcontroller, based on inputs retrieved from four photo sensors locatednext to solar panel. At the end of the project, a functional solar tracking system was designed and implemented. It was able to keep thesolar panel aligned with the sun, or any light source repetitively. Design of the solar tracker from this project is also a reference and astarting point for the development of more advanced systems in the future.Keywords: Dual Axis Solar Tracker.