Numerical Design and Analysis of an Out-of-Plane Electrothermal Microactuator
3 years ago
Authors:
Trương Văn Mến
Publication date:
05 / 12 / 2019
Name of Publishers:
Abstract:
Microactuators are one of the most important components in microelectromechanical systems (MEMS). Designing an effective out-of-plane actuator has been in progress for the last decade. This paper presents a novel design of the microactuator with a double stepped beam structure for large out-of-plane deflection output applied to micromirror devices. The design and analysis of the out-of-plane microactuator are done by the finite element method. Silicon is selected as the material of the actuator and the beam motion is generated by the Joule heating effect. Compared to a single stepped beam design reported in the literature, the simulation results show that the proposed double-stepped beam structure can deliver a much larger out-of-plane deflection. Under an applied current of 15 mA, the maximum deflection of the double stepped beam is nearly seven times higher than that of the single stepped beam structure. In addition, the stress analysis indicates that the largest stress induced in the beam is much smaller than the yield strength of the selected silicon material.