Journal of the Korean Institute of Electrical and Electronic Material Engineers (한국전기전자재료학회논문지)

The Korean Institute of Electrical and Electronic Material Engineers (한국전기전자재료학회)
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A Study on Driving Characteristics by Particle-inserting Method in Charged Particle Type Display

대전입자형 디스플레이의 입자주입 방법에 의한 구동특성 연구

  • Lee, Dong-Jin (Department of Electrical and Computer Engineering, The University of Seoul) ;
  • Kim, Young-Cho (Department of Electronic Engineering, Chungwoon University)
  • 이동진 (서울시립대학교 전자전기컴퓨터공학과) ;
  • 김영조 (청운대학교 전자공학과)
  • Received : 2012.01.02
  • Accepted : 2012.01.19
  • Published : 2012.02.01
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Abstract

We analyzed the movement and response time of charged particles according to particle-inserting methods to understand the variation of quantity of q/m of charged particles, which is a very important factor in electrical and optical characteristics of the charged particle type display, such as lifetime, response time, contrast ratio, reflectivity, etc. For our study we used white and black charged particles of which diameter is $20{\mu}m$, prepared pieces of ITO(indium tin oxide) coated glass substrate, and formed ribs on the glass substrates. The width of a rib is $30{\mu}m$ and the cell size is $220{\mu}m{\times}220{\mu}m$. As the particle-inserting methods, the white and black charged particles were respectively inserted into a front and a rear panel with a very small electric field and also the mixture of the white and black charged particles were inserted into a rear panel. As a result of the driving characteristics of charged particles, the factors about variation of quantity of q/m according to the particle inserting method was experimentally demonstrate, showing very different driving voltage, response time, the particle movement, etc.

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References

  1. J. Heikenfeld, P. Drzaic, J. S. Yeo, and T. Koch, Journal of the SID, 19, 129 (2011).
  2. R. Hattrori, S. Yamada, Y. Masuda, and N, Nihei, Journal of the SID, 12, 175 (2004).
  3. T. Kitamura, International Display Workshops, 06, 587 (2006).
  4. B. H. Kim, S. W. Park, and Y. C. Kim, J. KIEEME, 22, 86 (2009).
  5. D. J. Lee and Y. C. Kim, J. KIEEME, 22, 169 (2009).
  6. C. W. Kim and Y. C. Kim, J. KIEEME, 23, 691 (2010).
  7. D. J. Lee, I. S. Hwang, and Y. C. Kim, J. KIEEME, 21, 63 (2008).
  8. D. J. Lee, R. E. Sloper, Y. H. Jeon, S. K. Han, S. Lee, K. H. Choi, W. S. Huh, and Y. C. Kim, SID Symposium Digest Tech. Papers, 11, 1523 (2011).

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