Browse > Article

Effect of Various ${\prod}$Type Metal Electrode in the AC PDP  

Yoo, Su-Bok (울산과학대학 전기전자통신학부)
Publication Information
The Transactions of The Korean Institute of Electrical Engineers / v.58, no.3, 2009 , pp. 586-590 More about this Journal
Abstract
Recently, an AC Plasma Display Panels(PDP) with the metal sustain electrodes have been reported in order to reduce the manufacturing cost of the AC PDP. However, the luminance and efficacy of the AC PDP with metal electrodes are worse than those of the AC PDP with ITO electrodes. In this paper, various ${\prod}$type metal electrodes are suggested, in order to improve the electro-optical characteristics of the AC PDP with metal electrodes. Among the suggested electrode types, luminance of Hump electrode structure is higher by $40\;cd/m^2$ and discharge current of Asymmetry electrode structure is lower by 5% than those of Pi electrode structure, respectively. Moreover, $T_1$ of Hump electrode structure is reduced to 10% as compared with Pi electrode structure in address period for ADS driving scheme. In all aspects, the characteristics of Hump and Asymmetry electrode structure show best performance.
Keywords
PDP; Metal electrode; Electrode structure; Luminous efficacy;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
Times Cited By SCOPUS : 0
연도 인용수 순위
1 L. F. Weber, 'Measurement of Wall Charge and Capacitance Variation for a Single Cell in AC Plasma Display Panel', Proc. SID, Vol. 18/1, pp.80-85, 1977
2 M. Ishii et ai, 'Driving of PDPs with 208 Sub-Fields Using a Grouped Address-While-Display Scheme' , SID01 Digest, pp 1134-1137, 2001
3 M. S. Chang et ai, 'Fabrication and Characterization of Dielectric Materials of Front and Back Panel for PDP', Journal of Information Display, vol. 2, no. 3, pp39-43, 2001   과학기술학회마을   DOI
4 J H. Shin, D. K. Lee, C. R. Yoon, J E. Heo, C. H. Park, 'A Study on the Cost and Efficacy Improvement of AC PDP', Trans. KIEE. Vol. 57, No. 2, FEB, 2008
5 S. Yoshikawa, Y. Kanazawa, M. Wakitani, T. Shinoda and A. Ohisuka, ' Full-color AC plasma display with 256 gray scale', Japan Display, pp.605-608, 1992
6 Toshinori Urade,' A Protecting Layer for the Dielectric in AC Plasma Display Panels' , IEEE ED, 1976
7 Larry F. Weber, 'The Promise of Plasma Display for HDTV' . Information Display (SID), vol. 16, no.12, pp 16-20, 2000
8 T. Kishi et ai, 'A New Driving Technology for PDPs with Cost Effective Sustain Circuit' , SID01 Digest, pp 1236-1239, 2001   DOI
9 Y. C. Kang et aI, 'Zn2SiO2:Mn Phosphor Particles Prepared by Spray Pyrolysis Process' , Journal of Information Display, vol. 2, no. 4, pp 57-62, 2001   과학기술학회마을
10 Y. Hashimoto and K. Sahakita, 'Characterization of AC-PDPs using Wall Voltage Transfer Curves', Proc. Fujitsu, Vol. 48, No.3, pp. 203-208, 1998
11 Y. Inanaga, A. Iwata and M. Tanaka, 'Measurement of Wall Charge in a Surface Discharge AC PDP', Proc. IDW'97, pp. 527-530, 1997
12 E. J Dong, J W. Ok, C. R. Yoon, H. J. Lee, H. J. Lee, C. H. Park, 'Improvement of Luminous Efficacy in AC PDP with Asymmetric Metal Electrode Structure', Trans. KIEE. Vol. 57, No.4, APR, 2008
13 T. shinoda, 'High Level Gray Scale for AC Plasma Display Panels Using Address-Display Period Separated Sub-Field Method', Trans. Of IECE C-2 no. 3, pp. 349-355, 1998
14 H. K. Jung et al, 'High Luminance Zn2SiO2:Mn phosphor Prepared by Homogenous Precipitation Method', Journal of Information Display, vol. 1, no. 1, pp36-41, 2000   과학기술학회마을
15 D. J Lee et aI, 'Vacuum Packaging Technology of AC PDP using Direct Joint Method', Journal of Information Display, vol. 2, no. 4, pp 34-38, 2001   과학기술학회마을   DOI
16 T. Tamida, A. Iwata and M. Tanaka, 'Discharge Measurement of AC Plasma Display Panels using V-Q Lissajous' Figure' T.IEE Japan, Vol. 118-A, No.4, pp. 353-358, 1998
17 M. Ishii et al, 'Reducing the Number of Scan Drivers in AC PDPs by and Order of Magnitude Using Gas-Discharge AND Logic' , SID98 Digest, pp 283-286, 1998   DOI