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Journal of Display Technology

Journal of Display Technology


  • Vol. 9, Iss. 12 — Dec. 1, 2013
  • pp: 972–976

Stability of Particle Movement in Reflective Electronic Displays by Analysis of the Response Time

Dong-Jin Lee and Young-Cho Kim

Journal of Display Technology, Vol. 9, Issue 12, pp. 972-976 (2013)

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In this study, we propose a measurement system for extracting the response time of negatively and positively charged particles having contrasting colors. The system consists of a laser, a photodiode, a shield box, a power supply, and an oscilloscope. The response times measured by this system are used to analyze the movement of oppositely charged particles, to determine the appropriate driving waveform, and to the filtering voltage of the particle-moving method. The particle-moving method controls the response times and the electrical balance of oppositely charged particles in a panel.

© 2013 IEEE

Dong-Jin Lee and Young-Cho Kim, "Stability of Particle Movement in Reflective Electronic Displays by Analysis of the Response Time," J. Display Technol. 9, 972-976 (2013)

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  1. T. Z. Kosc, "Particle display technologies become e-paper," Opt. Photon. News 16, 18-23 (2005).
  2. J. Heikenfeld, P. Drzaic, J.-S. Yeo, T. Koch, "A critical review of the present and future prospects for electronic paper," J. SID 19, 135-153 (2011).
  3. R. Hattori, S. Yamada, Y. Masuda, N. Nihei, "Novel type of bistable reflective display using quick response liquid powder," SID 03 Dig. (2003) pp. 846-849.
  4. R. Hattori, S. Yamada, Y. Masuda, N. Nihei, "A novel bistable reflective display using quick-response liquid powder," J. SID 12, 75-77 (2004).
  5. S. H. Kwon, S. G. Lee, W. K. Cho, B. G. Ryu, M.-B. Song, "Reflective paper-like display using opposite-charged two particles," IMID 05 Dig. (2005) pp. 423-425.
  6. R. Hattori, Y. Masuda, N. Nihei, A. Yokoo, S. Yamada, "High-voltage and low power consumption driver for an electronic paper," IMID/IDMC 06 Dig. (2006) pp. 222-223.
  7. R. Hattori, Y. Masuda, N. Nihei, R. Sakurai, S. Yamada, "Power consumption of a Quick-Response Powder Display (QR-LPD)," IMID 05 Digest (2005) pp. 845-849.
  8. D.-J. Lee, I. S. Hwang, Y.-C. Kim, "Fabrication and addressing method of charged particle type display," J. Kor. Inst. Elect. Electron. Mater. Eng. 21, 64-65 (2008).
  9. J.-B. Lee, G.-N. Bae, J.-H. Hwang, K.-W. Lee, "Charge distribution of spray electrification of corona discharge," The KSMEB 25, 124-132 (2001).
  10. D.-J. Lee, Y.-Mi. Oh, S.-W. Park, B.-E. Park, Y.-C. Kim, "Improvement of electric and optical properties of a reflective electronic display by particle-moving method," J. Display Technol. 8, 361-365 (2012).
  11. U. Rohr, K. Richter, C. P. GmbH, "Functionalized inorganic polymer salts as Charge Control Agents," NIP24 and Digital Fabrication (2008) pp. 26-29.
  12. D.-J. Lee, B.-E. Park, Y.-C. Kim, "Color realization of reflective electronic display using particle-moving method," J. Display Technol. 8, 534-538 (2012).

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