• DocumentCode
    1730858
  • Title

    A bulk micromachined tiltable mirror array digital variable optical attenuator

  • Author

    Sun, W. ; Mughal, J. ; Perez, F. ; Noell, W. ; Riza, N.A. ; de Rooij, N.F.

  • Author_Institution
    Inst. of Microtechnol., Neuchatel Univ., Switzerland
  • Volume
    2
  • fYear
    2003
  • Firstpage
    1772
  • Abstract
    We present in this paper the simulation, fabrication, assembly, and some mechanical behavior of an electrostatically-actuated MEMS variable optical attenuator (VOA). It consists of two main parts; the device chip and the electrode chip. The device chip is fabricated with a 2-masks process from a SOI wafer, where mirror arrays are located on the front-side device layer with aligned openings on the back-side handle layer. We also examine Ta/sub 2/O/sub 5/ as a protection for the entire wafer and a mask for the handle layer where the exposed silicon is etched by KOH. The mirror array contains 16 equal-length gold-coated silicon platforms that span an area of 1500/spl times/1500 /spl mu/m/sup 2/. The mirrors, which widths vary from 40 /spl mu/m to 250 /spl mu/m, are each suspended by two silicon torsion beams, where the widths are successfully reduced to as narrow as 1 /spl mu/m by means of a HF vapor phase etcher (VPE). Current profilometric measurements were all performed on previously fabricated devices with 3 /spl mu/m beams. Measured tilt angles, longitudinal bending, and resonance frequencies agree well with simulations. A reasonable yield can be achieved as the fragile structures survive handling as well as dicing shocks. Two suspension configurations were compared and investigated. The electrode, also fabricated with a 2-masks process, is a quartz glass piece that contains patterned aluminum and SU8 columns as spacers for electrostatic actuation. The two parts are aligned and assembled chip-wise. The device is designed to be capable of producing 16-bit=65536 levels of linear attenuation when a sequence of driving voltage of about 100 V is applied to corresponding electrodes.
  • Keywords
    aluminium; electrodes; electrostatic devices; elemental semiconductors; gold; masks; micromechanical devices; micromirrors; optical arrays; optical attenuators; quartz; silicon; silicon-on-insulator; 100 V; 40 to 250 micron; HF vapor phase etching; SOI wafer; Si; Si-Au; current profilometric measurements; device chip; dicing shocks; electrode chip; electrostatic actuation; electrostatically-actuated MEMS variable optical attenuator; fragile structures; gold-coated silicon platforms; longitudinal bending; masks; micromachined tiltable mirror array digital variable optical attenuator; patterned aluminum; quartz glass; resonance frequencies; silicon torsion beams; Assembly; Electrodes; Etching; Micromechanical devices; Mirrors; Optical arrays; Optical attenuators; Optical device fabrication; Protection; Silicon;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    TRANSDUCERS, Solid-State Sensors, Actuators and Microsystems, 12th International Conference on, 2003
  • Conference_Location
    Boston, MA, USA
  • Print_ISBN
    0-7803-7731-1
  • Type

    conf

  • DOI
    10.1109/SENSOR.2003.1217129
  • Filename
    1217129