Title :
A Low-Power Data Driving Method With Enhanced Charge Sharing Technique for Large-Screen LCD TVs
Author :
Dong-Un Kim ; Jong-Seok Kim ; Byong-Deok Choi
Author_Institution :
Dept. of Inf. Display Eng., Hanyang Univ., Seoul, South Korea
Abstract :
The charge sharing technique is well known and widely used for low-power consumption in TFT-LCDs. However, it does not work so well as the screen size becomes larger and the frame frequency and display format become higher. The theoretical power saving efficiency can reach 50%, but, for a 55-in diagonal Full-HD format LCD TV, it drops below 30%. In order to address the degraded power saving efficiency of the conventional charge sharing technique for large-screen high-format LCD TVs, we propose a novel charge sharing technique with a panel design and a driving method. The proposed charge sharing technique enhances the power saving efficiency up to 43% from the previous 28% even for a large-screen LCD TV such as the 55-in diagonal Full-HD format. In particular, the proposed technique is found to be well suited for the oxide-TFT technology, which is very promising for next-generation large-screen LCD TVs.
Keywords :
high definition television; liquid crystal displays; low-power electronics; screens (display); thin film transistors; charge sharing technique; diagonal full-HD format; low-power data driving method; next generation large screen LCD TV; oxide-TFT technology; panel design; power saving efficiency; size 55 inch; Capacitance; Electrodes; Image quality; Integrated circuits; Metals; Power demand; Thin film transistors; Charge sharing; LCD TVs; large-screen and high-format display; low power;
Journal_Title :
Display Technology, Journal of
DOI :
10.1109/JDT.2015.2392757
