We presented a wall charge controlled ac PDP driving method which has advantages of less number of sub-fields and no dynamic false contours compared to the conventional driving method. In this method, a sub-field exhibited different light intensity according to the initial wall charge quantity set during the address period. Even though one can set 10 different wall charge states by changing the data pulse widths, we decided to define three states, 'on,' 'half-on,' and 'off.' By adding one state, the number of sub-field required to achieve 243 gray levels was reduced from 8 to 5. Furthermore, one can realize seven sub-fields, 255 gray level, complete stretched-out coding with which one can eliminate the dynamic false contours. Since this method can reduce number of sub-fields, it is suitable for higher resolution PDP's with more scan lines.
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Ju-Young JEONG, Seok-Il KIM, Young-Ho JUNG, Yong-Yoong CHAI, Kwang-Yeol YOON, "A New Driving Method for High Resolution ac PDPs without Dynamic False Contours" in IEICE TRANSACTIONS on Electronics,
vol. E87-C, no. 5, pp. 818-824, May 2004, doi: .
Abstract: We presented a wall charge controlled ac PDP driving method which has advantages of less number of sub-fields and no dynamic false contours compared to the conventional driving method. In this method, a sub-field exhibited different light intensity according to the initial wall charge quantity set during the address period. Even though one can set 10 different wall charge states by changing the data pulse widths, we decided to define three states, 'on,' 'half-on,' and 'off.' By adding one state, the number of sub-field required to achieve 243 gray levels was reduced from 8 to 5. Furthermore, one can realize seven sub-fields, 255 gray level, complete stretched-out coding with which one can eliminate the dynamic false contours. Since this method can reduce number of sub-fields, it is suitable for higher resolution PDP's with more scan lines.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e87-c_5_818/_p
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@ARTICLE{e87-c_5_818,
author={Ju-Young JEONG, Seok-Il KIM, Young-Ho JUNG, Yong-Yoong CHAI, Kwang-Yeol YOON, },
journal={IEICE TRANSACTIONS on Electronics},
title={A New Driving Method for High Resolution ac PDPs without Dynamic False Contours},
year={2004},
volume={E87-C},
number={5},
pages={818-824},
abstract={We presented a wall charge controlled ac PDP driving method which has advantages of less number of sub-fields and no dynamic false contours compared to the conventional driving method. In this method, a sub-field exhibited different light intensity according to the initial wall charge quantity set during the address period. Even though one can set 10 different wall charge states by changing the data pulse widths, we decided to define three states, 'on,' 'half-on,' and 'off.' By adding one state, the number of sub-field required to achieve 243 gray levels was reduced from 8 to 5. Furthermore, one can realize seven sub-fields, 255 gray level, complete stretched-out coding with which one can eliminate the dynamic false contours. Since this method can reduce number of sub-fields, it is suitable for higher resolution PDP's with more scan lines.},
keywords={},
doi={},
ISSN={},
month={May},}
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TY - JOUR
TI - A New Driving Method for High Resolution ac PDPs without Dynamic False Contours
T2 - IEICE TRANSACTIONS on Electronics
SP - 818
EP - 824
AU - Ju-Young JEONG
AU - Seok-Il KIM
AU - Young-Ho JUNG
AU - Yong-Yoong CHAI
AU - Kwang-Yeol YOON
PY - 2004
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E87-C
IS - 5
JA - IEICE TRANSACTIONS on Electronics
Y1 - May 2004
AB - We presented a wall charge controlled ac PDP driving method which has advantages of less number of sub-fields and no dynamic false contours compared to the conventional driving method. In this method, a sub-field exhibited different light intensity according to the initial wall charge quantity set during the address period. Even though one can set 10 different wall charge states by changing the data pulse widths, we decided to define three states, 'on,' 'half-on,' and 'off.' By adding one state, the number of sub-field required to achieve 243 gray levels was reduced from 8 to 5. Furthermore, one can realize seven sub-fields, 255 gray level, complete stretched-out coding with which one can eliminate the dynamic false contours. Since this method can reduce number of sub-fields, it is suitable for higher resolution PDP's with more scan lines.
ER -