A liquid crystal display device includes a liquid crystal panel including a plurality of liquid crystal pixels, wherein the liquid crystal panel is configured to display a same picture in two adjacent frames; a driving module disposed on the non-display area, wherein the driving module is used to respectively provide each liquid crystal pixel with a same polarity pixel voltage of different levels in the two adjacent frames so as to deflect liquid crystal molecules of each liquid crystal pixel, and in each frame of the two adjacent frames, the level of the pixel voltage of each liquid crystal pixel is different from the level of the pixel voltage of the adjacent liquid crystal pixels in front, back, left or right.

A liquid crystal display and a method for driving same, capable of eliminating large viewing angle color shift of a liquid crystal display having VA liquid crystals. The liquid crystal display comprises a liquid crystal panel (10) and a driving module (20). The driving module (20) is used for respectively providing different pixel voltages of the same polarity to each liquid crystal pixel (P.sub.ab) in the two adjacent frames to deflect liquid crystal molecules of the liquid crystal pixel (P.sub.ab), wherein in each of the two adjacent frames, the pixel voltage of each liquid crystal pixel (P.sub.ab) varies by using the average pixel voltage of liquid crystal pixels (P.sub.ab) in a pixel interval, in which the liquid crystal pixels (P.sub.ab) are spaced from the liquid crystal pixel (P.sub.ab) in a first direction, a second direction, a third direction, and a fourth direction by a plurality of pixels, as a parameter.

A liquid crystal display device includes a liquid crystal panel including a plurality of liquid crystal pixels, wherein the liquid crystal panel is configured to display a same picture in two adjacent frames; a driving module disposed on the non-display area, wherein the driving module is used to respectively provide each liquid crystal pixel with a same polarity pixel voltage of different levels in the two adjacent frames so as to deflect liquid crystal molecules of each liquid crystal pixel, and in each frame of the two adjacent frames, the level of the pixel voltage of each liquid crystal pixel is different from the level of the pixel voltage of the adjacent liquid crystal pixels in front, back, left or right.

A display device that performs image correction in accordance with external light environment is provided. The display device includes a host device and an optical sensor. In addition, the display device includes a processing circuit. The host device has a function of performing arithmetic processing using a neural network on software and a function of performing supervised learning with the neural network. The processing circuit has a function of performing arithmetic processing using a neural network on hardware. The optical sensor has a function of obtaining illuminance of external light. The obtained illuminance of external light is inputted to the host device, and a luminance and color tone preferred by users are regarded as teacher data, whereby learning is performed on the neural network of the host device. A weight coefficient obtained through the learning is used as a weight coefficient of the neural network of the processing circuit. By inputting illuminance of external light to the processing circuit, set values of luminance and color tone selected by the users are calculated in the neural network of the processing circuit.

A liquid crystal display device includes a liquid crystal panel including a plurality of liquid crystal pixels, wherein the liquid crystal panel is configured to display a same picture in two adjacent frames; a driving module disposed on the non-display area, wherein the driving module is used to respectively provide each liquid crystal pixel with a same polarity pixel voltage of different levels in the two adjacent frames so as to deflect liquid crystal molecules of each liquid crystal pixel, and in each frame of the two adjacent frames, the level of the pixel voltage of each liquid crystal pixel is different from the level of the pixel voltage of the adjacent liquid crystal pixels in front, back, left or right.

A liquid crystal display device includes a liquid crystal panel including a plurality of liquid crystal pixels, wherein the liquid crystal panel is configured to display a same picture in two adjacent frames; a driving module disposed on the non-display area, wherein the driving module is used to respectively provide each liquid crystal pixel with a same polarity pixel voltage of different levels in the two adjacent frames so as to deflect liquid crystal molecules of each liquid crystal pixel, and in each frame of the two adjacent frames, the level of the pixel voltage of each liquid crystal pixel is different from the level of the pixel voltage of the adjacent liquid crystal pixels in front, back, left or right.

An electronic display includes a plurality of pixels, each pixel including a data line, first and second selection lines and a common electrode. A control circuit element includes first and second diode-like elements coupled between the first and second selection lines and a charging node. A charging capacitive element is coupled between the charging node and the date line. An active pixel element is coupled between the charging node and the common electrode. The common electrode can overly the entire electronic display and is a suitable transparent conductive material. Each of the first and second diode-like elements includes an amorphous metal non-linear resistor. The active pixel element may include one of liquid crystal display circuitry, light emitting diode circuitry, and electrophoretic circuitry.

A pixel circuit includes a pixel control unit, a first switching unit, a second switching unit, an inverter, a memory capacitor, and a pixel capacitor. The pixel control unit is coupled to a source line and a gate line. The first switching unit has a first terminal coupled to the pixel control unit, and a second terminal. The inverter has an input terminal coupled to the second terminal of the first switching unit, and an output terminal. The memory capacitor is coupled to the first terminal of the first switching unit and receives a first voltage or a second voltage higher than the first voltage. The second switching unit has a first terminal coupled to the pixel control unit, and a second terminal coupled to the output terminal of the inverter. The pixel capacitor is coupled to a common line and the output terminal of the inverter.

A liquid crystal display device and a method for driving the liquid crystal display device are provided. The liquid crystal display device includes a liquid crystal display panel and a driving circuit. The liquid crystal display panel includes multiple liquid crystal display pixels disposed in a matrix. The liquid crystal display device is configured to display a same picture in two successive frames. The driving circuit is configured to apply pixel voltages to each of the multiple liquid crystal display pixels separately in the two successive frames so that liquid crystal molecules of each of the multiple liquid crystal display pixels are rotated. In each of the two successive frames, a voltage value of a pixel voltage of each liquid crystal display pixel is different from that of adjacent liquid crystal display pixels. Pixel voltages of a same liquid crystal display pixel in a preceding one frame and in a succeeding frame have a same polarity and different voltage values.

A liquid crystal display, comprising a liquid crystal panel (10) and a driving module (20). The liquid crystal panel (10) comprises a plurality of liquid crystal pixels arranged in an array. The liquid crystal display is configured to display a same picture in two adjacent frames. The driving module (20) is used for respectively providing different pixel voltages of the same polarity to each liquid crystal pixel in two adjacent frames to deflect liquid crystal molecules of the liquid crystal pixel, wherein in each of the two adjacent frames, the pixel voltage of each liquid crystal pixel is different from pixel voltages of liquid crystal pixels which are spaced apart from the liquid crystal pixel by one pixel along a first direction, a second direction, a third direction, and a fourth direction. Also provided is a method for driving the liquid crystal display.