@article{ART001641515},
author={김기훈 and Young-Cho Kim},
title={An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper},
journal={Journal of Knowledge Information Technology and Systems},
issn={1975-7700},
year={2012},
volume={7},
number={1},
pages={175-181}
TY - JOUR
AU - 김기훈
AU - Young-Cho Kim
TI - An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper
JO - Journal of Knowledge Information Technology and Systems
PY - 2012
VL - 7
IS - 1
PB - Korea Knowledge Information Technology Society
SP - 175
EP - 181
SN - 1975-7700
AB - In the closed space of the electronic paper display panel, the charged particles moving by external electric fields are acted by 4 types of forces. To understand these forces, experimental analysis is reasonable because theoretical approach is almost impossible due to by complex parameters. We measure and analyze response time according to the cell size defining the pixel size and the length between transparent electrodes in electronic paper display. In case of restricting the application area to the small signage, because large cell size id permitted, the movement of the particles are stable in the cell size over the definite value. It is regarded that having moving space for particles by obtaining the definite length between electrodes contributes improvement of lifetime of particles.
KW - cell size. cell gap;e-paper;charged particle;response time
DO -
UR -
ER -
김기훈 and Young-Cho Kim. (2012). An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper. Journal of Knowledge Information Technology and Systems, 7(1), 175-181.
김기훈 and Young-Cho Kim. 2012, "An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper", Journal of Knowledge Information Technology and Systems, vol.7, no.1 pp.175-181.
김기훈, Young-Cho Kim "An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper" Journal of Knowledge Information Technology and Systems 7.1 pp.175-181 (2012) : 175.
김기훈, Young-Cho Kim. An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper. 2012; 7(1), 175-181.
김기훈 and Young-Cho Kim. "An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper" Journal of Knowledge Information Technology and Systems 7, no.1 (2012) : 175-181.
김기훈; Young-Cho Kim. An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper. Journal of Knowledge Information Technology and Systems, 7(1), 175-181.
김기훈; Young-Cho Kim. An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper. Journal of Knowledge Information Technology and Systems. 2012; 7(1) 175-181.
김기훈, Young-Cho Kim. An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper. 2012; 7(1), 175-181.
김기훈 and Young-Cho Kim. "An Analysis of Response Time According to Cell Morphology for Charged Particle Type Electronic Paper" Journal of Knowledge Information Technology and Systems 7, no.1 (2012) : 175-181.
