Microbridge plasma display panel with high gas pressure

A microbridge structure based on air bridge technology has been used to make plasma display panels. This microbridge structure has a 20-/spl mu/m physical gap between the bridge anode and the cathode. The Paschen's minimum for pulsed dc discharges is around 900 Torr for Ne+0.1% Ar and He+Xe gas...

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Veröffentlicht in:IEEE transactions on electron devices 1998-06, Vol.45 (6), p.1356-1360
Hauptverfasser: Kyung Cheol Choi, Saville, G.F., Lee, S.C.
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Saville, G.F.
Lee, S.C.
description A microbridge structure based on air bridge technology has been used to make plasma display panels. This microbridge structure has a 20-/spl mu/m physical gap between the bridge anode and the cathode. The Paschen's minimum for pulsed dc discharges is around 900 Torr for Ne+0.1% Ar and He+Xe gas mixtures, and moves to higher pressures with increasing xenon content. The current-voltage (I-V) characteristics have been investigated over the pressure range of 500-900 Torr. With the pressure between 700 and 900 Torr the microbridge plasma display cells operate in a normal glow discharge mode. The luminance has been measured in a display panel consisting of a microbridge discharge structure combined with an R, G, B photoluminescent phosphor plate. He+Xe mixture discharges in this microbridge plasma display have their maximum luminance at 700-900 Torr.
doi_str_mv 10.1109/16.678576
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This microbridge structure has a 20-/spl mu/m physical gap between the bridge anode and the cathode. The Paschen's minimum for pulsed dc discharges is around 900 Torr for Ne+0.1% Ar and He+Xe gas mixtures, and moves to higher pressures with increasing xenon content. The current-voltage (I-V) characteristics have been investigated over the pressure range of 500-900 Torr. With the pressure between 700 and 900 Torr the microbridge plasma display cells operate in a normal glow discharge mode. The luminance has been measured in a display panel consisting of a microbridge discharge structure combined with an R, G, B photoluminescent phosphor plate. 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This microbridge structure has a 20-/spl mu/m physical gap between the bridge anode and the cathode. The Paschen's minimum for pulsed dc discharges is around 900 Torr for Ne+0.1% Ar and He+Xe gas mixtures, and moves to higher pressures with increasing xenon content. The current-voltage (I-V) characteristics have been investigated over the pressure range of 500-900 Torr. With the pressure between 700 and 900 Torr the microbridge plasma display cells operate in a normal glow discharge mode. The luminance has been measured in a display panel consisting of a microbridge discharge structure combined with an R, G, B photoluminescent phosphor plate. He+Xe mixture discharges in this microbridge plasma display have their maximum luminance at 700-900 Torr.</abstract><pub>IEEE</pub><doi>10.1109/16.678576</doi><tpages>5</tpages></addata></record>
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subjects Anodes
Argon
Breakdown voltage
Bridges
Cathodes
Electrodes
Phosphors
Plasma displays
Ribs
title Microbridge plasma display panel with high gas pressure
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