Micromachines (Aug 2024)

A Large-Scan-Range Electrothermal Micromirror Integrated with Thermal Convection-Based Position Sensors

  • Anrun Ren,
  • Yingtao Ding,
  • Hengzhang Yang,
  • Teng Pan,
  • Ziyue Zhang,
  • Huikai Xie

DOI
https://doi.org/10.3390/mi15081017
Journal volume & issue
Vol. 15, no. 8
p. 1017

Abstract

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This paper presents the design, simulation, fabrication, and characterization of a novel large-scan-range electrothermal micromirror integrated with a pair of position sensors. Note that the micromirror and the sensors can be manufactured within a single MEMS process flow. Thanks to the precise control of the fabrication of the grid-based large-size Al/SiO2 bimorph actuators, the maximum piston displacement and optical scan angle of the micromirror reach 370 μm and 36° at only 6 Vdc, respectively. Furthermore, the working principle of the sensors is deeply investigated, where the motion of the micromirror is reflected by monitoring the temperature variation-induced resistance change of the thermistors on the substrate during the synchronous movement of the mirror plate and the heaters. The results show that the full-range motion of the micromirror can be recognized by the sensors with sensitivities of 0.3 mV/μm in the piston displacement sensing and 2.1 mV/° in the tip-tilt sensing, respectively. The demonstrated large-scan-range micromirror that can be monitored by position sensors has a promising prospect for the MEMS Fourier transform spectrometers (FTS) systems.

Keywords