靳倩. 基于SOI工艺的扭转式微机械扫描光栅设计及制作[J]. 应用光学, 2014, 35(4): 696-700.
引用本文: 靳倩. 基于SOI工艺的扭转式微机械扫描光栅设计及制作[J]. 应用光学, 2014, 35(4): 696-700.
Jin Qian. Design and fabrication of torsional micromachined scanning gratings based on SOI technology[J]. Journal of Applied Optics, 2014, 35(4): 696-700.
Citation: Jin Qian. Design and fabrication of torsional micromachined scanning gratings based on SOI technology[J]. Journal of Applied Optics, 2014, 35(4): 696-700.

基于SOI工艺的扭转式微机械扫描光栅设计及制作

Design and fabrication of torsional micromachined scanning gratings based on SOI technology

  • 摘要: 为实现微型光谱仪在工程领域的广泛应用,研究了其核心器件扭转式微机械扫描光栅的结构与制作方法。利用SOI工艺,设计一种无需启动电极的静电梳齿驱动结构,可以使扭转式微机械扫描光栅具有低频驱动、制作工艺简单、扫描范围广等优点。通过设计的制作工艺方法,研制出了能够初步满足性能要求的扭转式微机械扫描光栅样件。测试结果表明:该微扫描光栅在驱动电压为25 V时最大转角可达到4.8,对应的光学扫描角为19.2。

     

    Abstract: For the wide use of micro-spectrometer in diverse applications, its core device,torsion-type micromachined scanning gratings, were designed, fabricated and characterized. In order to obtain large scanning range and low resonant frequency at low driving voltage, the structure without additional starting electrodes was designed and studied by silicon-on-insulator (SOI) fabrication technology. The micromachined scanning gratings fabricated by SOI wafers were characterized, which prove that the micromachined scanning gratings has good modulation performances. The maximum deflection angles can reach 4.8, corresponding to a total optical scanning range of 19.2at a driving voltage of 25 V.

     

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