A Study on Phosphor Activation and Persistence for High Performance Driving 20' Carbon Nanotube Backlight Units

  • Huang, Chiao-Nan (Display Technology Center (DTC), Industrial Technology Research Institute (ITRI)) ;
  • Liang, Chao-Chiun (Display Technology Center (DTC), Industrial Technology Research Institute (ITRI)) ;
  • Chung, Shang-Ying (Department of Electrical Engineering, National Tsing Hua University) ;
  • Lai, Ching-Ming (Department of Electrical Engineering, National Tsing Hua University) ;
  • Lin, Biing-Nan (Display Technology Center (DTC), Industrial Technology Research Institute (ITRI)) ;
  • Jiang, Yau-Chen (Display Technology Center (DTC), Industrial Technology Research Institute (ITRI)) ;
  • Lee, Cheng-Chung (Display Technology Center (DTC), Industrial Technology Research Institute (ITRI)) ;
  • Pan, Ching-Tsai (Department of Electrical Engineering, National Tsing Hua University)
  • Published : 2007.08.27

Abstract

For high performance driving carbon nanotube backlight units, their phosphor must be well studied. This paper experimentally evaluates their activating speed and persisting duration properties. They are proven to be the most efficiency related factors. High performance driving schemes are derived from them and implemented in this paper.

Keywords