Add to ORKGA normally black single cell gap transflective liquid crystal display (LCD) using vertical alignment and commonly biased patterned reflectors is developed. In the transmissive region, continuous and uniform vertical electric fields are formed throughout the LC cell. On the other hand, in the reflective region, the electric fields are mainly confined near the substrate surfaces. As a result, the phase retardation in the transmissive region is approximately two times as that of the reflective region. Such a transflective LCD shows a high light efficiency ( \u3e 90%) for both transmissive and reflective modes and well matched gray scales
We propose a single cell gap vertical-alignment transflective LCD with patterned electrodes using a ...
A wide-view single cell gap transflective liquid-crystal display (TR-LCD) using the fringe field swi...
A single cell gap transflective liquid crystal display (TR-LCD) for color sequential applications is...
We propose a novel transflective liquid crystal display (LCD) configuration with a single cell gap i...
A wide-view transflective liquid-crystal display (LCD) capable of switching between transmissive and...
A wide-view transflective liquid-crystal display (LCD) capable of switching between trans-missive an...
A wide-view transflective liquid-crystal display (LCD) capable of switching between trans-missive an...
A wide-view transflective liquid-crystal display (LCD) capable of switching between trans-missive an...
A single-cell-gap transflective liquid crystal display with complementary common electrodes on the t...
A single-cell-gap transflective liquid crystal display with complementary common electrodes on the t...
A single-cell-gap transflective liquid crystal display with complementary common electrodes on the t...
Transflective liquid crystal display (LCD) is required for mobile and portable applications, because...
A wide-view single cell gap transflective liquid-crystal display (TR-LCD) using the fringe field swi...
A wide-view single cell gap transflective liquid-crystal display (TR-LCD) using the fringe field swi...
Hybrid Aligned (HAN) liquid crystal display is optimized for transflective liquid crystal displays. ...
We propose a single cell gap vertical-alignment transflective LCD with patterned electrodes using a ...
A wide-view single cell gap transflective liquid-crystal display (TR-LCD) using the fringe field swi...
A single cell gap transflective liquid crystal display (TR-LCD) for color sequential applications is...
We propose a novel transflective liquid crystal display (LCD) configuration with a single cell gap i...
A wide-view transflective liquid-crystal display (LCD) capable of switching between transmissive and...
A wide-view transflective liquid-crystal display (LCD) capable of switching between trans-missive an...
A wide-view transflective liquid-crystal display (LCD) capable of switching between trans-missive an...
A wide-view transflective liquid-crystal display (LCD) capable of switching between trans-missive an...
A single-cell-gap transflective liquid crystal display with complementary common electrodes on the t...
A single-cell-gap transflective liquid crystal display with complementary common electrodes on the t...
A single-cell-gap transflective liquid crystal display with complementary common electrodes on the t...
Transflective liquid crystal display (LCD) is required for mobile and portable applications, because...
A wide-view single cell gap transflective liquid-crystal display (TR-LCD) using the fringe field swi...
A wide-view single cell gap transflective liquid-crystal display (TR-LCD) using the fringe field swi...
Hybrid Aligned (HAN) liquid crystal display is optimized for transflective liquid crystal displays. ...
We propose a single cell gap vertical-alignment transflective LCD with patterned electrodes using a ...
A wide-view single cell gap transflective liquid-crystal display (TR-LCD) using the fringe field swi...
A single cell gap transflective liquid crystal display (TR-LCD) for color sequential applications is...