Journal of Information Display (Jul 2021)

High aspect ratio microdisplay and thin optical component for glass-like AR devices

  • Chan-mo Kang,
  • Jin-Wook Shin,
  • Sukyung Choi,
  • Byoung-Hwa Kwon,
  • Hyunsu Cho,
  • Nam Sung Cho,
  • Jeong-Ik Lee,
  • Hyunkoo Lee,
  • Jeong Hwan Lee,
  • Hokwon Kim,
  • Ara Cho,
  • Sang Hyun Park,
  • Minseok Kim,
  • Soon-gi Park,
  • Youngjoon Kim,
  • Jeonghun Ha,
  • Jaehyeok Kim,
  • Sang Tae Kim,
  • Jong Soo Lee,
  • Seung No Lee,
  • Yu Bin Im,
  • Chun-Won Byun

DOI
https://doi.org/10.1080/15980316.2021.1902405
Journal volume & issue
Vol. 22, no. 3
pp. 163 – 171

Abstract

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Organic light-emitting diode (OLED) microdisplays have attracted much attention as displays for small form factor augmented reality (AR) devices. To realize glass-like thin and wide field of view (FoV) AR devices, we designed a display module with a high aspect ratio microdisplay and a thin optical component. For the high aspect ratio microdisplay, we developed the color OLED microdisplay with a 32:9 aspect ratio and a 0.8-inch diagonal ∼2,490-ppi CMOS backplane. To express color and reduce optical crosstalk, we fabricated the color filter (C/F) patterning directly on the white OLED. We also developed a pin mirror lens with 11 pin mirrors to improve the optical efficiency and quality with a thin lens. By combining the microdisplay with LetinAR’s pin mirror lens, we successfully demonstrated an AR device with a wide horizontal FoV of 46° but with a small form factor 4 mm lens.

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