Applied Sciences (Jan 2019)

Miniaturized Optical Encoder with Micro Structured Encoder Disc

  • Jonathan Seybold,
  • André Bülau,
  • Karl-Peter Fritz,
  • Alexander Frank,
  • Cor Scherjon,
  • Joachim Burghartz,
  • André Zimmermann

DOI
https://doi.org/10.3390/app9030452
Journal volume & issue
Vol. 9, no. 3
p. 452

Abstract

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A novel optical incremental and absolute encoder based on an optical application-specific integrated circuit (opto-ASIC) and an encoder disc carrying micro manufactured structures is presented. The physical basis of the encoder is the diffraction of light using a reflective phase grating. The opto-ASIC contains a ring of photodiodes that represents the encryption of the encoder. It also includes the analog signal conditioning, the signal acquisition, and the control of a light source, as well as the digital position processing. The development and fabrication of the opto-ASIC is also described in this work. A laser diode was assembled in the center on top of the opto-ASIC, together with a micro manufactured polymer lens. The latter was fabricated using ultra-precision machining. The encoder disc was fabricated using micro injection molding and contains micro structures forming a blazed grating. This way, a 10-bit optical encoder with a form factor of only 1 cm3 was realized and tested successfully.

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