摘要:
A display capable of providing 2D and/or 3D images. The display comprises a liquid crystal display device and a self-emissive display device. The self-emissive display device is disposed on the rear of the liquid crystal display device, in which the liquid crystal display device provides a first image and the self-emissive display device a second image and a backlight source. One of the first and second images comprises a parallax barrier pattern for forming a three-dimensional (3D) image, and the other is a 2D image.
摘要:
A display capable of providing 2D and/or 3D images. The display comprises a liquid crystal display device and a self-emissive display device. The self-emissive display device is disposed on the rear of the liquid crystal display device, in which the liquid crystal display device provides a first image and the self-emissive display device a second image and a backlight source. One of the first and second images comprises a parallax barrier pattern for forming a three-dimensional (3D) image, and the other is a 2D image.
摘要:
A transflective pixel structure is provided. The transflective pixel structure includes an active device, a storage capacitor, a transparent electrode, and a first reflective electrode. The storage capacitor includes a bottom electrode, a floating electrode, and an upper electrode. The upper electrode is disposed above the bottom electrode and the floating electrode and electrically connected to the active device. The transparent electrode is electrically connected to the upper electrode. The first reflective electrode is electrically connected to the floating electrode and electrically insulated from the transparent electrode. As mentioned above, the transflective pixel structure can improve the image quality of a transflective liquid crystal display panel with single cell gap.
摘要:
A display capable of providing 2D and/or 3D images. The display comprises a liquid crystal display device and a self-emissive display device. The self-emissive display device is disposed on the rear of the liquid crystal display device, in which the liquid crystal display device provides a first image and the self-emissive display device a second image and a backlight source. One of the first and second images comprises a parallax barrier pattern for forming a three-dimensional (3D) image, and the other is a 2D image.
摘要:
A transflective pixel structure is provided. The transflective pixel structure includes an active device, a storage capacitor, a transparent electrode, and a first reflective electrode. The storage capacitor includes a bottom electrode, a floating electrode, and an upper electrode. The upper electrode is disposed above the bottom electrode and the floating electrode and electrically connected to the active device. The transparent electrode is electrically connected to the upper electrode. The first reflective electrode is electrically connected to the floating electrode and electrically insulated from the transparent electrode. As mentioned above, the transflective pixel structure can improve the image quality of a transflective liquid crystal display panel with single cell gap.
摘要:
A liquid crystal display (LCD) panel using a slanted electric field to control the inclination direction of liquid crystal (LC) molecules and a method of fabricating the same are disclosed. The asymmetrical bumps made of material with high dielectric constant are formed on the lower substrate, thereby improving the displaying quality of the LCD panel. After a potential difference is applied to the substrates of the LCD, a slanted electric field is generated due to the formation of asymmetrical bumps, so as to control the inclination direction of LC molecules. Also, the electrode layer could be formed over the asymmetric bumps, or formed between the asymmetric bumps and the bottom substrate.
摘要:
An active matrix substrate is provided. The active matrix substrate includes a substrate, a plurality of scan lines disposed on the substrate, a plurality of data lines disposed on the substrate, a plurality of pixel units disposed on the substrate and a dielectric layer disposed on the substrate. The pixel units are electrically connected with the corresponding scan lines and data lines. Each pixel unit includes an active device and a pixel electrode electrically connected with the active device, such a pixel electrode includes at least a first slit. The dielectric layer covers the first slit, and the dielectric layer includes a plurality of second slits for exposing a part of each of the pixel electrodes.
摘要:
An array substrate capable for a liquid crystal display (LCD). A pixel electrode is disposed in a pixel region of a substrate, which comprises at least one slit. A storage capacitor is disposed between the substrate and the pixel electrode, which comprises a bottom electrode, a capacitor dielectric layer, and a top electrode. The bottom electrode is disposed in the pixel region, creating an overlap region with the slit. The capacitor dielectric layer and the top electrode are successively disposed on the bottom electrode, in which the top electrode comprises at least one recess region to partially expose the overlap region.
摘要:
A multi-domain vertical alignment liquid crystal display (MVA LCD) has a plurality of pixel electrodes for defining a plurality of pixel units. The pixel units are disposed in matrix arrangement, and each of them has a first electrode, a second electrode, and a third electrode. When a voltage is applied to said pixel electrode, the first electrode and the common electrode have a higher absolute voltage difference than the second electrode and the common electrode. The third electrode and the common electrode have the lowest absolute voltage difference.
摘要:
The invention relates to a liquid-crystalline medium based on a mixture of polar compounds having a negative dielectric anisotropy which contains at least one self-aligning additive, especially at least one additive selected from the group of the compounds of the formula IA to ID in which R1A, R1B, R1C, L1-12, R1D, Ring I, u, v, w, x, y, z and m have the meanings indicated in Claim 4 and to the use thereof for an active-matrix display, in particular based on the VA, PSA and PS-VA effect in LC displays.