P‐55: Discharge Characteristics of the AC PDP with Coplanar long‐gap Electrodes

Abstract: The basic discharge characteristics of the coplanar long gap electrodes in an AC PDP were investigated. The luminous efficiency of the 150μm gap coplanar discharge was 3.7 lm/W. The luminous efficiency was decreased drastically when the gap of the coplanar discharge was 500μm. The luminous efficiency of the 500μm gap coplanar discharge was about 4 lm/W when the high frequency pulses were applied to the auxiliary electrode located at the center of two sustain electrode.

“…The improvement of luminance and luminous efficacy is the one of the most important works to be done in PDP technologies. The extended discharge-gap and high Xe content were popular approaches to obtain high luminous efficiency [1][2][3][4][5]. However, in order to achieve high luminous efficacy using high Xe content or long co-planar gap discharge, the operation conditions such as dynamic margin, addressability, and the reliability were getting worse compared to those of the conventional PDP [6,7].…”

P‐88: Study of Discharge for AC‐PDP with Leaned Facing Electrode

“…The improvement of luminance and luminous efficacy is the one of the most important works to be done in PDP technologies. The extended discharge-gap and high Xe content were popular approaches to obtain high luminous efficiency [1][2][3][4][5]. However, in order to achieve high luminous efficacy using high Xe content or long co-planar gap discharge, the operation conditions such as dynamic margin, addressability, and the reliability were getting worse compared to those of the conventional PDP [6,7].…”

P‐88: Study of Discharge for AC‐PDP with Leaned Facing Electrode

“…The improvement of luminance and luminous efficiency is the one of the most important works to be done in AC-PDP technologies. The extended discharge-gap and high Xe content were popular approaches to obtain high luminous efficiency [1,2,3,4,5]. However, in order to achieve high luminous efficiency using high Xe content or long co-planar gap discharge, the operation conditions such as dynamic margin, addressability, and the reliability were getting worse compared to those of the conventional PDP [6,7].…”

24.2: Discharge Characteristics of AC-PDP with Stacked Facing Electrode

“…The improvement of luminance and luminous efficiency is the one of the most important works to be done in AC-PDP technologies. The extended discharge-gap and high Xe content were the best approaches to obtain high luminous efficiency [1,2,3,4,5]. However, in order to achieve high luminous efficiency using high Xe content or long coplanar -gap discharge, the operation conditions such as dynamic margin, addressability, and the reliability were getting worse compared to those of the conventional PDP [6,7].…”

8.1: Improvement of the Discharge Time lag and Luminous Efficiency in an AC ‐ PDP with 200μm Sustain Gap