A significant increase in using solar energy has brought upon development of modern technologies for using the energy of the Sun. Throughout history, people have found ways how to exploit the Sun, transforming its energy into thermal or other forms. Only in the recent times, with the appearance of photovoltaic cells, have people been able to transform solar energy into electricity. Solar energy, along with hydro and wind energy, represents clean energy sources of the future, especially now, when planet Earth is polluted and contaminated. Direct transformation of solar energy into electricity is momentarily a very inefficient and unprofitable way of using the energy of the Sun. To increase the efficiency, it's necessary to increase the level of useability of the solar cells – one of the ways being the usage of the so-called solar trackers, i.e. systems which track the position of the Sun. Solar trackers focus the solar panels vertically towards the Sun. A solar panel mounted on a solar tracker can significantly increase the production of electricity in comparison to a fixed solar panel, ranging between 20% to 40%, depending on its position on Earth. The general idea of this final work was devising, describing and making a model which has the possibility to track the position of the Sun, with the help of Arduino UNO development platform. With respect to the idea of the final work, a model was built, which consists of a solar panel, photoresistor and two servo motors. The built model is a scaled down representation of a solar tracking system. Photoresistors are the main sensors on the model, which track the position of the Sun – their main goal is giving information to the servo motors on how to properly rotate the model toward the strongest source of light. In the last chapter of the final work, an analysis was worked out on the basis of measuring results collected with and without using a solar tracking system. Based on the results, graphs were created for a better insight into the efficiency of a solar tracking system.