Color enhancement technology is to make adjustments to the color space of HSB so as to intensify the colors of images.
Color enhancement supports independent color adjustments to six axles (R, G, B, C, M, Y). As a result, each color will not affect each other during adjustments, enabling us to reach the color we want. In addition, image signals are sharpened to create lively and vivid images.
Color enhancement technology has also been introduced to LCD panels for notebooks, enabling users to turn color enhancement on and off through OSD to satisfy their needs.
The following pictures show the effect on our actual modules: Color enhancement is on in the left one and it is off in the right one.
The special structure and field-induced birefringence mechanism of blue phase liquid crystals makes them respond extremely fast within a sub-millisecond, fulfilling the needs for high-speed and high-capacity LCDs. Some key components in high-speed fiber-optic communications also require blue phase liquid crystal to demonstrate optically-isotropic properties and non-polarization dependency. As a result, blue phase LCD enables an extremely wide viewing angle. As no optical compensation film is needed, manufacturing costs can be reduced significantly. A bright future for applications can be foreseen.
PET wide-viewing angle high-resolution technology offers wide viewing angles and lower color shift. It is a display technology adopted by high-end products. Through a selection of liquid crystals, the dark areas of PET pixel regions can be reduced, and the aperture ratio can be raised. This achieves the goal of high transmission and high contrast.
This technology relies chiefly on the tunability LC lens to achieve high-brightness naked-eye 3D displays, as well as brightness enhancement for 2D displays. The control of the backlight unit can enhance energy saving. Moreover, switchable 2D/3D displays fulfill the needs for partially displaying 2D texts while showing 3D images.
In comparison with a-Si TFT, oxide TFT has the advantages of low temperatures and high electron mobility during production. Thee make it suitable for high-frequency and high-resolution display products. Oxide TFT also provides other advantages such as lower investment costs on equipment and lower operation costs compared to that of LTPS TFT.