Browse > Article

A New Sustain Driving Method for AC PDP : Charge-Controlled Driving Method  

Kim, Joon-Yub (Department of Electronics Engineering at Sejong University)
Publication Information
KIEE International Transactions on Electrophysics and Applications / v.2C, no.6, 2002 , pp. 292-296 More about this Journal
Abstract
A new sustain driving method for the AC PDP is presented. In this driving method, the voltage source is connected to a storage capacitor, this storage capacitor charges an intermediate capacitor through LC resonance, and the panel is charged from the intermediate capacitor indirectly. In this way, the current flowing into the AC PDP when the sustain discharge occurs is reduced because the current is indirectly supplied from a capacitor, a limited source of charge. Thus, the input power to the output luminance efficiency is improved. Since the voltage supplied to the storage capacitor is doubled through LC resonance, this method call drive an AC PDP with a voltage source of about half of the voltage necessary in the conventional driving methods. The experiments showed that this charge-controlled driving method could drive ail AC PDP with a voltage source of as low as 107V. Using a panel of the conventional structure, luminous efficiency of 1.28 lm/W was achieved.
Keywords
Plasma Display Panel(PDP); low voltage driving; low power consumption; high efficiency driving method; energy recovery circuit;
Citations & Related Records
연도 인용수 순위
  • Reference
1 M. Kasahara, M. Ishikawa, T. Morita, S. Inohara, 'New Drive System for PDPs with Improved Image Quality: Plasma AI', in Proc. Society for Information Display, 1999, pp.158-161
2 Y. Kanazawa, et al, 'High-Resolution Interlaced Addressing for Plasma Displays', in Proc. Society for Information Display, 1999, pp.154
3 Robert G. Marcotte, 'Display panel sustain circuit enabling precise control of energy recovery', US patent 5,642,018. Jun, 1997
4 L. Weber, M. Wood, 'Energy Recovery Sustain Circuit for the AC Plasma Display', in Proc. Society for Information Display, 1987, pp.92-95
5 J-Y Kim, Y-K Lee, 'Charge-Controlled Driving Method for PDP', in Proc. International Meeting on Information Display, 2001, pp.474-475
6 H. Homma, et al, 'Luminance Improvement of PDPs by an Extension of Light-Emission Duty to 90% with HDTV Capability', in Proc. Society for Information Display, 1987, pp.285-288
7 K-W Whang, H-S Jeong, C-K Yoon, 'Discharge Physics of AC Plasma Display Panel', in Proc. Societyfor Information Display, 1997, pp.394-397
8 J-H Yang, J-K Kim, C-K Yoon, K-W Whang, 'A New Energy Recovery Circuit AC Plasma Display', in Conf ASIA DISPLAY, 1998, pp. 1071-1073
9 Takahiro U, Akihiko I, Masaaki T, 'High Efficient Sustain Circuit for AC Plasma Display', in Proc. International Display Research Conference, 1997, pp386-389
10 Larry F. Weber, Kevin W. Warren, Mark B. Wood. 'Power efficient sustain drivers and address drivers for plasma panel', US patent 4,866,349. sep, 1989
11 Sakai T, 'TV Display System Using Two-Line-at-atime Addressing Gas-Discharge Color Panel', in Jour. Institute of Electronics Communications Engineers, 1992, Vol.62-B, No.10, pp893-899
12 M. B. Wood, 'A Power Efficient Sustainer for the AC Plasma Display', MS Thesis, University of Illinois at Urbana-Champaign, June, 1986
13 K. Sakita, K. Takayama, K. Awamoto, Y. Hashimoto, 'Analysis of a Weak Discharge of Ramp-Wave Driving to Control Wall Voltage and Luminance in ACPDPs', in Proc. Society for Information Display, 2000, pp. 110-113