A method of driving a display panel includes compensating first pixel data corresponding to a first pixel of a plurality of pixels in the display panel based on at least one of a first decision, a second decision, or a third decision and generating a first data voltage corresponding to the compensated first pixel data. The first data voltage is applied to the first pixel through a data line. The first decision includes determining, based on a position of the first pixel, whether compensation for the first pixel data is required. The second decision includes determining, based on previous subpixel data and present subpixel data for the first pixel, whether the compensation for the first pixel data is required. The third decision includes determining whether the first pixel data complies with a compensation avoidance condition.

Provided are a signal processing method and a display apparatus, the processing method includes: generating, by a timing controller, a first driving signal and a second driving signal according to a received image signal; respectively transmitting, by the timing controller, the first driving signal to a first source driver and the second driving signal to a second source driver with a preset time interval; starting, by the first source driver, a first grayscale conversion process after a first duration after reception of the first driving signal; starting, by the second source driver, a second grayscale conversion process after the first duration after reception of the second driving signal. The processing method makes it possible to effectively suppress electromagnetic interference of a disturbance source without increasing the production cost of the electronic device or reducing the stability of the electronic device.

There is provided a display screen configurable via optical signals to display an image. The display screen is formed of an optical waveguide having a display surface and supporting a plurality of pixels for displaying the image on the display surface of the optical waveguide. The optical waveguide is arranged to guide a multiplexed signal in optical form to a plurality of pixel controllers, each coupled to at least one of the pixels and configured to demultiplex the multiplexed signal and thereby extract a component signal associated with the at least one pixel for controlling it to render an element of the image.

A display device includes a controller, a power management circuit and N display modules. Each of the N display modules includes M driving circuits, and M display arrays respectively connected to the M driving circuits. Each of the M driving circuits is configured to drive a display array connected to the driving circuit, and each of the display arrays includes at least one indicator light. The power management circuit is configured to output a voltage determined by the voltage control signal to the display arrays to supply power to the display array. M driving circuits in each of the display modules are cascaded through serial control lines. The controller is configured to address M driving circuits and read data of M driving circuits through the serial control lines, and send information to the driving circuits through the sharing data line to control the driving circuits and the indicator light.

A control device including a device coupling unit coupled to an electronic device, and a processing unit configured to execute an application program configured to process sensor data related to a sensor provided in the electronic device, in which the electronic device determines whether an algorithm language related to processing of a detection value of the sensor is receivable, and transmits the algorithm language to the electronic device when determining that the algorithm language is receivable.

A display device includes a display panel including a plurality of pixels, a display panel driver, and a zone compensating circuit which divides the display panel into a plurality of unit blocks, obtains load values of input image data for the unit blocks, and generates corrected image data by correcting the input image data based on the load values. Each of the load values corresponds to one of the unit blocks. The display panel driver generates a data signal for displaying an image on the display panel based on the corrected image data. When grayscale values included in the input image data are the same, a luminance of the image displayed on the display panel is decreased moving away from a center of a reference block having a largest load value among the unit blocks based on the corrected image data.

A display panel includes: a liquid crystal cell; an optical layer configured to transmit part of light incident onto the optical layer whose polarization direction is parallel to a transmission axis of the optical layer, and reflect a remaining part of the light incident onto the optical layer; a first polarization structure configured to transmit part of light incident onto the first polarization structure whose polarization direction is parallel to a transmission axis of the first polarization structure, and absorb a remaining part of the light incident onto the first polarization structure; and a second polarization structure configured to transmit part of light incident onto the second polarization structure whose polarization direction is parallel to a transmission axis of the second polarization structure, and absorb a remaining part of the light incident onto the second polarization structure.

A driving system and a display panel are provided. The driving system includes a timing controller and a driving chip. The driving chip receives the video signal and processes the video signal to output a characteristic current or a regular current to the display panel. The driving chip outputs the characteristic current to the display panel when the driving chip receives the characteristic video signal and to output the regular current to the display panel when the driving chip receives the regular video signal, and the characteristic current is smaller than regular current. The driving system of the display panel according to the present disclosure could alleviate the capacitor coupling effect caused by the large voltage jump introduced by the huge gray value difference when the display panel in a frame transition and thus improve the horizontal crosstalk of the display panel.

The present application provides a flicker adjustment method of a frequency conversion display device and frequency conversion display device, by the time controller detect and count the frame number or the total time length of the image frames that are continuous with the same frame rate, and compare the frame number or the total time length to a predetermined constant frequency determination threshold value, when the frame number or the total time length is equal to or greater than the predetermined constant frequency determination threshold value, the white tracking compensation table corresponding to each of the image frames that are continuous with the same frame rate is revised as the same white tracking compensation table. Therefore, the present application avoids the issues of flickering images, achieves the goal of lowered flickering images of the frequency conversion display device and improvement of display quality.

A display panel, a display device, and a method for driving the display device are disclosed. The display panel includes a base substrate, a plurality of data lines, a plurality of scanning lines, a plurality of sub-pixels, a plurality of data selection control lines, a plurality of data input lines, and a plurality of data selection circuits. The data selection circuits include at least two multiplexers; in each data selection circuit, input terminals of different multiplexers are coupled to different data input lines, control terminals of different multiplexers are coupled to different data selection control lines, and the ith output terminals of different multiplexers are coupled to the same data line; in two adjacent data selection circuits, two multiplexers coupled to different data selection control lines are coupled to the same data input line.