The comparison between the CRT monitor with 3 new types of monitors: LCD, PDP and OLED

Xiubin Lyu

doi:10.54097/hset.v23i.3125

Authors

Xiubin Lyu

DOI:

https://doi.org/10.54097/hset.v23i.3125

Keywords:

Display, CRT, OLED, PDP, LCD

Abstract

Display/monitor plays an important role in the daily lives. With the development of science and technology, more and more types of displays appear with a variety of applications. One of the earliest displays, the CRT display, served as the catalyst for the development of the display sector. It could still bee seen occasionally now even more than a century after it was created. The development of more sophisticated displays, including LCD, PDP, and OLED displays, is ongoing. They are all irreplaceable for various reasons, and each has its own special benefits. They exhibit better performances than CRTS. The purpose of this work is to compare the working principle, performances, advantages, disadvantages, application, and novel developments of the above four kinds of displays. In the process of summarizing the characteristics of these display materials, their future development trend can be predicted and summarized. Based on their design flaws, they can also be combined to find their improvement direction.

Downloads

Download data is not yet available.

References

Menozzi M, Lang F, Naepflin U, et al. CRT versus LCD: Effects of refresh rate, display technology, and background luminance in visual performance[J]. Displays, 2001, 22(3): 79-85.

Carrein G. Characteristics of CRT and LCD displays[J]. White paper, Barco, 2003:1-18.

Pan G. The maintenance of CRT monitor [J].Business Situation (Research on the Economics of Education),2008(05):134.

Luo Z, Wu S T. OLED versus LCD: Who wins[J]. Opt. Photonics News, 2015: 19-21.

Schadt M. Liquid crystal materials and liquid crystal displays[J]. Annual review of materials science, 1997, 27(1): 305-379.

Kawamoto H. The history of liquid-crystal displays[J]. Proceedings of the IEEE, 2002, 90(4): 460-500.

Cheng W C, Pedram M. Power minimization in a backlit TFT-LCD display by concurrent brightness and contrast scaling[J]. IEEE Transactions on Consumer Electronics, 2004, 50(1): 25-32.

Boeuf J P. Plasma display panels: physics, recent developments and key issues[J]. Journal of physics D: Applied physics, 2003, 36(6): 53-56.

Boeuf J P, Punset C, Hirech A, et al. Physics and modeling of plasma display panels[J]. Le Journal de Physique IV, 1997, 7(C4): 3-14.

Weber L F. History of the plasma display panel[J]. IEEE transactions on plasma science, 2006, 34(2): 268-278.

Socolof M L, Overly J G, Geibig J R. Environmental life-cycle impacts of CRT and LCD desktop computer displays[J]. Journal of Cleaner production, 2005, 13: 1281-1294.

Sugimoto A, Ochi H, Fujimura S, et al. Flexible OLED displays using plastic substrates[J]. IEEE Journal of selected topics in quantum electronics, 2004, 10(1): 107-114.

5Bhakar V, Agur A, Digalwar A K, et al. Life cycle assessment of CRT, LCD and LED monitors[J]. Procedia CIRP, 2015, 29: 432-437.

D'Zmura M, Shen T P J, Wu W, et al. Contrast gain control for color image quality[C]//Human Vision and Electronic Imaging III. SPIE, 1998, 3299: 194-201.

13Geffroy B, Le Roy P, Prat C. Organic light‐emitting diode (OLED) technology: materials, devices and display technologies[J]. Polymer international, 2006, 55(6): 572-582.

Huang Y, Hsiang E L, Deng M Y, et al. Mini-LED, Micro-LED and OLED displays: Present status and future perspectives[J]. Light: Science & Applications, 2020, 9(1): 1-16.

Meredith P, Bettinger C J, Irimia-Vladu M, et al. Electronic and optoelectronic materials and devices inspired by nature[J]. Reports on Progress in Physics, 2013, 76(3): 034501.

Kim C H, Kwon I E, Park C H, et al. Phosphors for plasma display panels[J]. Journal of Alloys and Compounds, 2000, 311(1): 33-39.

Salehi A, Fu X, Shin D H, et al. Recent advances in OLED optical design[J]. Advanced Functional Materials, 2019, 29(15): 1808803.