Patent application number | Description | Published |
20120327329 | Display Panel and Display Apparatus Using the Same - The present invention provides a display panel and a display apparatus using the same. The display panel comprises a first substrate, a second substrate, a liquid crystal layer, a first polarizer, a second polarizer, a half (½) wave plate and a quarter (¼) wave plate. The liquid crystal layer is formed between the first substrate and the second substrate. The first polarizer is disposed at an outer side of the first substrate. The second polarizer is disposed at an outer side of the second substrate. The half wave plate is disposed on the first polarizer. The quarter wave plate is disposed on the half wave plate. The invention can improve a chromatic dispersion problem of a 3D display. | 12-27-2012 |
20130335304 | 3D DISPLAY APPARATUS AND 3D DISPLAY SYSTEM - The present invention provides a three-dimensional (3D) display apparatus and a 3D system. The system comprises the 3D display apparatus and polarizer glasses. The 3D display apparatus comprises a display panel and a pattern retarder film. Retarder rows of the pattern retarder film are positioned to pixel row pairs of the display panel, respectively. First pixel rows of the pixel row pairs include first sub-pixels and second sub-pixels arranged in an alternating manner. The present invention can mitigate the image crosstalk and the color shifting problem exiting in the conventional 3D display. | 12-19-2013 |
20130335305 | 3D DISPLAY APPARATUS AND 3D DISPLAY SYSTEM - The present invention provides a three-dimensional (3D) display apparatus and a 3D system. The system comprises the 3D display apparatus and polarizer glasses. The 3D display apparatus comprises a display panel and a pattern retarder film. Retarder rows of the pattern retarder film are positioned to pixel row pairs of the display panel, respectively. The present invention can mitigate the image crosstalk problem exiting in the conventional 3D display. | 12-19-2013 |
20130335540 | STEREOSCOPIC IMAGE DISPLAY APPARATUS - A stereoscopic image display apparatus is described. The stereoscopic image display apparatus includes a display panel, a film-type patterned retarder (FPR) and a barrier layer. The display panel comprises a plurality of scan lines, first data lines, second data lines and pixel units. Each of pixel units comprises a major pixel, a first minor pixel and a second minor pixel wherein the major pixel is coupled to one of the scan lines and one of the first data lines via a first thin-film-transistor, and the first minor pixel and the second minor pixel are coupled to the one of the scan lines and one of the second data lines via a second thin-film-transistor. The FPR is disposed between the display panel and the polarized glasses for receiving the light from the display panel to allow the light to form left-handed circularly polarized light and right-handed circularly polarized light. | 12-19-2013 |
20140022470 | SUB-PIXEL DISPLAY STRUCTURE AND LIQUID CRYSTAL DISPLAY PANEL USING THE SAME - The present invention discloses a sub-pixel display structure and a liquid crystal display panel using the same. The sub-pixel display structure includes two electrode portions. One of the electrode portions can perform charge-sharing via a charge-sharing switch. At least one of the two electrode portions is further connected to an extra electrode portion. When being used in a 3D liquid crystal display panel having a patterned phase retarder film, the sub-pixel display structure can satisfy the requirement of 3D view angle by making the extra electrode portion to be shielded by black matrix, and the two electrode portions still remain operatable so that a color washout phenomenon under a large viewing angle can be reduced even in a 3D liquid crystal display panel. | 01-23-2014 |
20140035894 | Three-Dimension LCD and the Driving Method - The present invention discloses a method of driving a 3D LCD. The 3D LCD includes N data lines and 2M scan lines. The driving method includes that scanning two adjacent scan lines of 2M scan lines once a time in order in a first scanning period while outputting data correspondent to a first frame to the N data lines, and turning even number of the 2M scanning lines on in order in a second scanning period while outputting data of a second frame to the N data lines, wherein the first frame is for user's one eye, and the second frame is for user's the other eye. | 02-06-2014 |
20140132496 | ELECTRO-PHORETIC DISPLAY AND DISPLAY METHOD THEREOF - The present invention discloses an electro-phoretic display and display method thereof. The method comprises: To form a first electric field so that reflective particles in electro-phoretic layer in an area corresponding to a color resist for display have a first distance from the color substrate. Light incident to the reflective particles partly or completely emerges from the electro-phoretic layer after being reflected by them when the distance is the first distance. To form at least one second electric field in an area corresponding to color resists not for display so that the reflective particles in the electro-phoretic layer in that area have a second distance from the color substrate. Light incident into the electro-phoretic layer is absorbed by the light absorbing liquid when the distance is the second distance. The color resist for display is the one used for displaying a color intended to be displayed by the electro-phoretic display. | 05-15-2014 |
20140132862 | LIQUID CRYSTAL LENS UNIT AND STEREOSCOPIC DISPLAY - A polarizer film is used for converting polarized light from a backlight module into light along a first direction. Multiple electrodes are disposed on a transparent substrate. Each electrode extends along a second direction different from the first direction. An alignment of liquid crystal molecules varies according to voltage applied on the electrodes. A retard unit is disposed between the transparent substrate and the polarizer film and used for converting the polarized light into light along a third direction different from the first and second direction. A polarization direction of the emitted light is perpendicular to an alignment of an electrode layer. In this way, an optical axis of the liquid crystal molecules matches the polarization direction of the light from the retard unit when voltage is not applied. So, the maximal lens power is attained with decreasing the cost resulted from the decreased thickness of the liquid crystal layer. | 05-15-2014 |