Influence of Non-uniform Electric Field on the Firing Voltage of Surface Discharge AC-PDPs

Mitsuyoshi MAKINO; Toshihiro YOSHIOKA; Takeshi SAITO

Influence of Non-uniform Electric Field on the Firing Voltage of Surface Discharge AC-PDPs

Mitsuyoshi MAKINO, Toshihiro YOSHIOKA, Takeshi SAITO

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The cell structure of surface discharge ACPDPs with a long gap between the sustaining electrodes achieves high luminous efficiency. However, the long gap cell structure causes high firing voltage and thus makes driving more difficult than with the conventional gap cell structure. The rise in firing voltage in the long gap cell structure could not be explained by Paschen's scaling law. We derived a new governing equation for firing voltage, involving the influence of a non-uniform electric field, to investigate this deviation from Paschen's law. From the calculated results we found that changing the gap length corresponds to the change in the degree of distortion of the electric field between the sustaining electrodes.

Publication: IEICE TRANSACTIONS on Electronics Vol.E80-C No.8 pp.1086-1090

Publication Date: 1997/08/25

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Type of Manuscript: Special Section PAPER (Special Issue on Advanced Emissive Displays)

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Mitsuyoshi MAKINO, Toshihiro YOSHIOKA, Takeshi SAITO, "Influence of Non-uniform Electric Field on the Firing Voltage of Surface Discharge AC-PDPs" in IEICE TRANSACTIONS on Electronics, vol. E80-C, no. 8, pp. 1086-1090, August 1997, doi: .
Abstract: The cell structure of surface discharge ACPDPs with a long gap between the sustaining electrodes achieves high luminous efficiency. However, the long gap cell structure causes high firing voltage and thus makes driving more difficult than with the conventional gap cell structure. The rise in firing voltage in the long gap cell structure could not be explained by Paschen's scaling law. We derived a new governing equation for firing voltage, involving the influence of a non-uniform electric field, to investigate this deviation from Paschen's law. From the calculated results we found that changing the gap length corresponds to the change in the degree of distortion of the electric field between the sustaining electrodes.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e80-c_8_1086/_p

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@ARTICLE{e80-c_8_1086,
author={Mitsuyoshi MAKINO, Toshihiro YOSHIOKA, Takeshi SAITO, },
journal={IEICE TRANSACTIONS on Electronics},
title={Influence of Non-uniform Electric Field on the Firing Voltage of Surface Discharge AC-PDPs},
year={1997},
volume={E80-C},
number={8},
pages={1086-1090},
abstract={The cell structure of surface discharge ACPDPs with a long gap between the sustaining electrodes achieves high luminous efficiency. However, the long gap cell structure causes high firing voltage and thus makes driving more difficult than with the conventional gap cell structure. The rise in firing voltage in the long gap cell structure could not be explained by Paschen's scaling law. We derived a new governing equation for firing voltage, involving the influence of a non-uniform electric field, to investigate this deviation from Paschen's law. From the calculated results we found that changing the gap length corresponds to the change in the degree of distortion of the electric field between the sustaining electrodes.},
keywords={},
doi={},
ISSN={},
month={August},}

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TY - JOUR
TI - Influence of Non-uniform Electric Field on the Firing Voltage of Surface Discharge AC-PDPs
T2 - IEICE TRANSACTIONS on Electronics
SP - 1086
EP - 1090
AU - Mitsuyoshi MAKINO
AU - Toshihiro YOSHIOKA
AU - Takeshi SAITO
PY - 1997
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E80-C
IS - 8
JA - IEICE TRANSACTIONS on Electronics
Y1 - August 1997
AB - The cell structure of surface discharge ACPDPs with a long gap between the sustaining electrodes achieves high luminous efficiency. However, the long gap cell structure causes high firing voltage and thus makes driving more difficult than with the conventional gap cell structure. The rise in firing voltage in the long gap cell structure could not be explained by Paschen's scaling law. We derived a new governing equation for firing voltage, involving the influence of a non-uniform electric field, to investigate this deviation from Paschen's law. From the calculated results we found that changing the gap length corresponds to the change in the degree of distortion of the electric field between the sustaining electrodes.
ER -