With the rapid development of information technology, physical experiment teaching instruments are accelerating their digital transformation. The digital improvement of physical experiments is of great significance for improving experimental efficiency, focusing on the essence of physics, and stimulating students’ interest. Based on the advanced measurement platform Moku: Go and the graphical programming language LabVIEW, this paper digitally improves the traditional solar cell experiment, achieving digital measurements of the current-voltage characteristics, load characteristics, and light characteristics. It also innovatively expands the measurement content to include the flashing characteristics of the light source. The system simplifies the cumbersome data acquisition process in the experiment, allowing students to devote more energy to experimental data analysis and exploration of physical problems, which is conducive to strengthening the cultivation of students’ innovative abilities.
Yi et al. (Wed,) studied this question.