The development and implementation of green technologies is not only relevant, but also a very cost-effective scientific and engineering task. Therefore, training of specialists in the latest green energy-saving and energy-efficient technologies is also an urgent task for the modern educational process. The aim of current article is to develop a circuit solution for a laboratory and practical training based on a solar charging station for electric vehicles. A review of the most common methods of converting solar energy into electrical energy is carried out, and the main types of solar power plants are investigated. Silicon photovoltaic modules currently occupy about 90% of the market for photovoltaic converters. Given their prevalence and a good indicator in terms of price-quality, solar panels based on silicon photovoltaic modules are selected. A schematic solution of the complex for laboratory and practical exercises based on a solar charging station for electric vehicles is proposed. The main element of the proposed solar charging power plant is a hybrid grid solar AC power station, which has the ability to operate both from a centralized power supply network and autonomously. The technical characteristics of the developed complex are given. Since solar panels are the main element of the complex, the main dependencies for calculating their parameters are given. A scheme is proposed for conducting experimental studies with solar panels of the complex. A list of laboratory and practical exercises that can be carried out at the developed complex is proposed. The specific tasks that must be completed during the laboratory work at the developed complex are described.