Abstract

This work reviews pixel circuits for blue-phase liquid crystal displays (BPLCDs) and presents two novel pixel circuits for the BPLC. With respect to the high-operating-voltage BPLC, the first developed pixel circuit comprises practical source driver integrated circuits (ICs) and an additional signal with three voltage levels to widen the voltage range from a data line in order to enable the BPLC to achieve high transmittance. For the low-operating-voltage BPLC with a large dielectric anisotropy, the second pixel circuit boosts the gate voltage of the switch thin-film transistor (TFT) to enhance its driving capability to deal with the large equivalent capacitance of the BPLC. Simulation results verify the functions of both new pixel circuits with Full High Definition (FHD, 1920 $\times$ 1080) resolution and a frame rate of 120 Hz.

© 2015 IEEE

Optimized blue-phase liquid crystal for field-sequential-color displays

Yuge Huang, Haiwei Chen, Guanjun Tan, Hitoshi Tobata, Shin-ichi Yamamoto, Eiji Okabe, Yi-Fen Lan, Cheng-Yeh Tsai, and Shin-Tson Wu
Opt. Mater. Express 7(2) 641-650 (2017)

Viewing angle controllable displays 
with a blue-phase liquid crystal cell

Linghui Rao, Zhibing Ge, and Shin-Tson Wu
Opt. Express 18(3) 3143-3148 (2010)

Transflective display using a polymer-stabilized blue-phase liquid crystal

Yan Li, Meizi Jiao, and Shin-Tson Wu
Opt. Express 18(16) 16486-16491 (2010)

Turning film for widening the viewing angle of a blue phase liquid crystal display

Jin Yan, Daming Xu, Hui-Chuan Cheng, Shin-Tson Wu, Yi-Fen Lan, and Cheng-Yeh Tsai
Appl. Opt. 52(36) 8840-8844 (2013)

Pixel-by-pixel local dimming for high-dynamic-range liquid crystal displays

Haiwei Chen, Ruidong Zhu, Ming-Chun Li, Seok-Lyul Lee, and Shin-Tson Wu
Opt. Express 25(3) 1973-1984 (2017)