Abstract:
A method of driving a liquid crystal display panel including a liquid crystal cell connected to a data line and a gate line includes: outputting a data signal to the data line; outputting a plurality of gate clock signals; and outputting a gate signal to the gate line based on the gate clock signals. Here, an interval between rising edges of the gate signals adjacent to each other is increased as a distance between the liquid crystal cell receiving the gate signal and a data driving part outputting the data signal increases.
Abstract:
A method of compensating image data, the method includes generating a compensation data of an image data in accordance with a temperature value by using a compensation data of a previous frame and a compensation data generated through a look-up table which is mapped with corresponding to a compensation data of a previous frame and a set temperature value which is smaller than and closest to the temperature value or which is greater than and closest to the temperature value among set temperature values.
Abstract:
A method of driving a display panel includes outputting a data voltage of three-dimensional (“3D”) image data included in a left-eye data frame and a right-eye data frame to the display panel along a scanning direction of a first direction during a first period, blocking the data voltage from being provided to the display panel during a second period and outputting a black data voltage to the display panel during a third period that is less than the first period.
Abstract:
A method of sensing a touch in a display apparatus includes: determining a display frame rate of an input image applied to the display apparatus; determining a number of touch driving blocks according to the display frame rate; and sensing a touch based on driving one touch driving block of the determined touch driving blocks at each display frame.
Abstract:
A method of driving a display device includes a preliminary frame charging step and a main frame charging step. The method comprises a preliminary frame charging step of simultaneously charging liquid crystal cells in a pixel line group having a selected pixel row and a unselected pixel row with pixel data of the selected pixel row of the pixel line group and a main frame charging step of charging liquid crystal cells in the unselected pixel line group with pixel data of the unselected pixel line group.
Abstract:
A display apparatus includes a display panel, a light converting element and a display panel driver. The display panel includes a plurality of two-dimensional (“2D”) pixels. At least one of the 2D pixels includes a plurality of 2D subpixels. The light converting element is disposed on the display panel. The light converting element includes a three dimensional (“3D”) pixel. The 3D pixel corresponds to the plurality of 2D pixels. The 3D pixel includes a plurality of 3D subpixels. The display panel driver is connected to the display panel. The display panel driver renders grayscale data of the 2D subpixels such that the 3D pixel disposed at a first position in a first frame is shifted to a second position in a second frame.
Abstract:
A method of driving a display device includes a preliminary frame charging step and a main frame charging step. The method comprises a preliminary frame charging step of simultaneously charging liquid crystal cells in a pixel line group having a selected pixel row and a unselected pixel row with pixel data of the selected pixel row of the pixel line group and a main frame charging step of charging liquid crystal cells in the unselected pixel line group with pixel data of the unselected pixel line group.