Abstract:
A display device includes a backlight structure, a first liquid-crystal layer, a second liquid-crystal layer, and polarized layers. The first liquid-crystal layer is disposed on the backlight structure. The second liquid-crystal layer is disposed on the first liquid-crystal layer. The polarized layers are located between the backlight structure and the first liquid-crystal layer, between the first liquid-crystal layer and the second liquid-crystal layer, and located on the second liquid-crystal layer. The extinction ratio of the polarized layers is in a range from about 5000 to 50000.
Abstract:
A transmission cable including a signal wire and a shielding layer is provided. The signal wire is configured to transmit a differential signal provided by an eDP interface or a V-by-one interface. The shielding layer is configured to cover the signal wire. An end of the signal wire receives the differential signal provided by the eDP interface or the V-by-one interface, and another end of the signal wire outputs the differential signal provided by the eDP interface or the V-by-one interface. In addition, a display system is also provided.
Abstract:
A display panel is disclosed, comprising: a first electrode comprising a first trunk electrode and a second trunk electrode and a second electrode comprising a third trunk electrode and a fourth trunk electrode formed thereon, wherein when light passes through the display panel, the first and second trunk electrode respectively correspond to first and second dark lines crossing to each other to form a first cross site, the third and fourth trunk electrode respectively correspond to third and fourth dark lines crossing to each other to form a second cross site, the first and third dark lines respectively comprise first and second arc portions at the first and second cross sites near to a first scan line, and a first concave side of the first arc portion and the second concave side of the second arc portion face to sides opposite to each other.
Abstract:
A display comprises a first substrate, a second substrate opposite to the first substrate, an electrode structure, and a light-emitting combination (LEC) layer positioned between the first and second substrates, wherein the LEC layer comprises a light emitting material and a LC material, and a horizontal or vertical electric field is generated when a voltage is applied to that electrode structure. One of exemplified displays has an electrode structure comprising a first electrode and a second electrode oppositely disposed, and the LEC layer is positioned between the first and second electrodes, wherein a vertical electric field is generated when a voltage is applied. The device can further comprise an electron injection layer and a hole transport layer. Another exemplified display has an electrode structure arranged on one side of the first substrate, and a horizontal electric field is generated when a voltage is applied.
Abstract:
A display device includes a first scan line, a second scan line, a third scan line, a data line, a pixel, a low color-shifting circuit, and a black zone generation circuit. In the low color-shifting circuit, a low color-shifting switch receives a third scan signal from the third scan line to selectively couple a compensating capacitor to the second sub-pixel electrode. The black zone generation circuit receives a black zone generation signal to selectively couple either the first sub-pixel electrode or the second sub-pixel electrode to a common node such that either the first sub-pixel or the second sub-pixel becomes a black zone.
Abstract:
A pixel electrode structure including a first electrode and a second electrode is provided. The first electrode has a first stripe electrode extended along a first direction and pleural first branch electrodes connected to the first strip electrode. The first branch electrodes include pleural first branch domain electrodes extended along a second direction and pleural second branch domain electrodes extended along a third direction substantially perpendicular to the second direction. The second electrode has a second stripe electrode extended along the first direction and pleural second branch electrodes connected to the second stripe electrode. The second branch electrodes include pleural third branch domain electrodes extended along the second direction and pleural fourth branch domain electrodes extended along the third direction. The first and the third branch domain electrodes are alternated to each other. The second and the fourth branch domain electrodes are alternated to each other.
Abstract:
A display panel and a display device applying the same are provided. The display panel includes a first substrate, a second substrate, and a display medium disposed between the first substrate and the second substrate. The first substrate includes a first conductive layer having a first line width and a second conductive layer having a second line width smaller than the first line width. A first spacing is defined by a first sidewall of the second conductive layer and a second sidewall, located on the same side as the first sidewall, of the first conductive layer. A second spacing is defined by a third sidewall of the second conductive layer opposite to the first sidewall and a fourth sidewall, located on the same side as the third sidewall, of the first conductive layer. The first spacing is larger than the second spacing.
Abstract:
A display device having a plurality of pixel units and a manufacturing method of the same are provided. The display device includes a first substrate assembly, a second substrate assembly, a liquid crystal mixture, and a pillared polymer network. The first substrate assembly includes a first substrate and a first electrode layer disposed on the first substrate. The second substrate assembly includes a second substrate. The liquid crystal mixture is disposed between the first and second substrate assemblies. The pillared polymer network is disposed between the first and second substrate assemblies and has a first end and second end. The first end abuts against the first substrate assembly and is disposed correspondingly to the first electrode layer. The second end abuts against the second substrate assembly. Each of the pixel units includes the pillared polymer network.
Abstract:
A pixel structure including a substrate, a first dielectric layer and a second dielectric layer is provided. A signal line and a pixel electrode are disposed on the substrate. The first dielectric layer covers the signal line and has a first capacitance. The second dielectric layer is disposed on the substrate, and covers the pixel electrode. The second dielectric layer has a second capacitance larger than the first capacitance.
Abstract:
A display comprises a first substrate, a second substrate opposite to the first substrate, an electrode structure, and a light-emitting combination (LEC) layer positioned between the first and second substrates, wherein the LEC layer comprises a light emitting material and a LC material, and a horizontal or vertical electric field is generated when a voltage is applied to that electrode structure. One of exemplified displays has an electrode structure comprising a first electrode and a second electrode oppositely disposed, and the LEC layer is positioned between the first and second electrodes, wherein a vertical electric field is generated when a voltage is applied. The device can further comprise an electron injection layer and a hole transport layer. Another exemplified display has an electrode structure arranged on one side of the first substrate, and a horizontal electric field is generated when a voltage is applied.