Macroscopic cell experiments and three-dimensional modelling on electrode-shaping plasma display cell

Ji Ting Ouyang; Jing Cao; Feng He

doi:10.1088/1009-1963/15/11/035

Macroscopic cell experiments and three-dimensional modelling on electrode-shaping plasma display cell

Ji Ting Ouyang^*, Jing Cao, Feng He

^*Corresponding author for this work

School of Physics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

A macroscopic cell and three-dimensional fluid model have been used to investigate the discharge characteristics in ac plasma display panel cells of electrode-shaping configurations. Four kinds of non-standard geometries (i.e. D-, δ-, W- and U-shape electrodes) have been considered. The characteristics of the discharge current, the operating voltage and the discharge efficiency of different configurations have been discussed. It is found that the discharge efficiency can be improved by about 10-30 compared with the standard geometry, while the operating voltage increases slightly in the non-standard geometries. There is a trade-off between improving the discharge efficiency and lowering the sustaining voltage in design of plasma display cells by electrode shaping.

Original language	English
Article number	035
Pages (from-to)	2669-2675
Number of pages	7
Journal	Chinese Physics
Volume	15
Issue number	11
DOIs	https://doi.org/10.1088/1009-1963/15/11/035
Publication status	Published - 1 Nov 2006

Keywords

Discharge efficiency
Electrode configuration
Plasma display panel
Simulation

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10.1088/1009-1963/15/11/035

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abstract = "A macroscopic cell and three-dimensional fluid model have been used to investigate the discharge characteristics in ac plasma display panel cells of electrode-shaping configurations. Four kinds of non-standard geometries (i.e. D-, δ-, W- and U-shape electrodes) have been considered. The characteristics of the discharge current, the operating voltage and the discharge efficiency of different configurations have been discussed. It is found that the discharge efficiency can be improved by about 10-30 compared with the standard geometry, while the operating voltage increases slightly in the non-standard geometries. There is a trade-off between improving the discharge efficiency and lowering the sustaining voltage in design of plasma display cells by electrode shaping.",

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AU - Cao, Jing

AU - He, Feng

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N2 - A macroscopic cell and three-dimensional fluid model have been used to investigate the discharge characteristics in ac plasma display panel cells of electrode-shaping configurations. Four kinds of non-standard geometries (i.e. D-, δ-, W- and U-shape electrodes) have been considered. The characteristics of the discharge current, the operating voltage and the discharge efficiency of different configurations have been discussed. It is found that the discharge efficiency can be improved by about 10-30 compared with the standard geometry, while the operating voltage increases slightly in the non-standard geometries. There is a trade-off between improving the discharge efficiency and lowering the sustaining voltage in design of plasma display cells by electrode shaping.

AB - A macroscopic cell and three-dimensional fluid model have been used to investigate the discharge characteristics in ac plasma display panel cells of electrode-shaping configurations. Four kinds of non-standard geometries (i.e. D-, δ-, W- and U-shape electrodes) have been considered. The characteristics of the discharge current, the operating voltage and the discharge efficiency of different configurations have been discussed. It is found that the discharge efficiency can be improved by about 10-30 compared with the standard geometry, while the operating voltage increases slightly in the non-standard geometries. There is a trade-off between improving the discharge efficiency and lowering the sustaining voltage in design of plasma display cells by electrode shaping.

KW - Discharge efficiency

KW - Electrode configuration

KW - Plasma display panel

KW - Simulation

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Macroscopic cell experiments and three-dimensional modelling on electrode-shaping plasma display cell

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Keywords

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