Summary

The paper investigates the performance of the electrostatically actuated micro-electromechanical system (MEMS) micro-mirror under various operating conditions. The study focuses on the effects of voltage, temperature, and environmental factors on the mirror's motion and stability. The results show that the mirror's response is highly sensitive to voltage changes, with a nonlinear relationship observed between the applied voltage and the angular displacement. Additionally, the mirror's performance is affected by temperature, with a decrease in displacement observed at higher temperatures. The study also highlights the importance of environmental factors such as humidity and air pressure in determining the mirror's behavior. The findings suggest that careful control of these parameters is essential for achieving optimal performance in MEMS micro-mirror applications. The paper discusses the performance of an electrodynamic dust removal system under various UV conditions and material coatings. It evaluates the system's response to different environmental factors, including UV exposure and surface materials, and examines the impact on solar cell output and dust particle behavior. The st

Methods and applications