Contents Nowadays, the alternating current plasma display panel (ac PDP) is one of the promising flat panel display devices with the sizes larger than 40-in diagonal and is under active development for its application to high definition television (HDTV). But they still need further improvements in luminance and luminance efficiency which can be achieved through a better understanding of the fundamental discharge physics in an ac PDP cell.
Abstract:
The spatio-temporal variation of infrared (IR) emission images were obtained from a real three dimensional (3-D) discharge space of a surface discharge type, alternating ...Show MoreMetadata
Abstract:
The spatio-temporal variation of infrared (IR) emission images were obtained from a real three dimensional (3-D) discharge space of a surface discharge type, alternating current plasma display panel (ac PDP) cell with the Ne-Xe (4%) 400 torr gas mixture. IR emissions were observed in each period of Address and Display Separation (ADS) driving scheme with ramp initializing waveform using an image intensified charge coupled device (ICCD) camera and the roles of each electrodes were identified.
Published in: IEEE Transactions on Plasma Science ( Volume: 33, Issue: 2, April 2005)
