This document describes techniques and apparatuses for a high-brightness mode on an organic light emitting diode (OLED) display. The techniques and apparatuses set a high-brightness value in a register of a display driver integrated circuit (DDIC) associated with the OLED display of on electronic device. A processor of the electronic device provides a fewer-pulses command to the DDIC, which adjusts a pulse number to control the OLED display at fewer pulses per period. A gamma correction is determined based on the high-brightness value and used to alter content to be presented on the OLED display. As a result, fewer pulses are used in combination with the gamma correction to provide content on the OLED display at a high brightness.

A display device includes a display panel including data lines, gate lines which cross the data lines, and pixels; a gamma voltage generator configured to generate first to nth gamma voltages, n being an integer; and a data driver configured to generate data voltages by selecting the gamma voltages according to input image data, and to supply the data voltages to the data lines, wherein the gamma voltage generator comprises a first voltage dividing unit configured to divide a reference voltage; a first voltage dividing circuit configured to generate the first gamma voltage by selecting voltages output from the first voltage dividing unit according to a highest gamma register value; and a second voltage dividing circuit configured to generate the second to nth gamma voltages using the reference voltage.

Examples relate to a display control apparatus for a display, to a computing device with an integrated display and a display control apparatus, a processing unit for a computing device with an integrated display and to corresponding methods and computer programs. The display control apparatus comprises interface circuitry and processing circuitry. The processing circuitry is configured to obtain, via the interface circuitry, information on a user of the display, the information on the user indicating a presence of the user relative to the display or an engagement of the user with the display. The processing circuitry is configured to control, based on the information on the user, a display mode of the display, the display mode affecting at least one of a refresh rate and a backlight of the display.

The present disclosure discloses a self-luminous pixel circuit which includes a driving module and a light emitting module that are connected between a first variable potential and a second variable potential; the driving module controls magnitude of electric current flowing through the light emitting module according to timing control; the self-luminous pixel circuit provided by the present disclosure can be switched to have a high brightness adjustment range via the first variable potential and the second variable potential, thereby increasing the number of gray levels.

A control circuit of a driving circuit of a backlight LED is provided. The driving circuit includes a DC/DC converter that supplies a driving current to the backlight LED. The control circuit includes a pulse signal generating circuit configured to switch between a quasi-resonant mode and a continuous current mode to generate a pulse signal based on a selected mode and a driver configured to drive the DC/DC converter based on the pulse signal.

A display system includes a rendering device and a display device. The rendering device is to render a sequence of frames for display at a frame rate and to set an illumination configuration to be applied by the display device during a frame period for each frame of the sequence of frames based on the frame rate. The illumination configuration controls at least one of an illumination level and a duration for an illumination strobe, and at least one of an illumination level for an illumination fill preceding the illumination strobe in the frame period and an illumination level for an illumination fill following the illumination strobe in the frame period. The display device is to receive a representation of the illumination configuration from the rendering device and apply the illumination configuration during a frame period for each frame of the sequence of frames to display the frame.

A lighting system includes a group of light emitting diode (LED) illumination devices. A controller may identify a set of the illumination devices that correspond to a zone, and to generate commands to cause the device drivers for each of the identified illumination devices to control its corresponding illumination device so that a specified color temperature, illuminance level, or both of light will be received at a location in the zone. A method for calibrating such a system is also disclosed. A user interface allows a user to select a scene after the calibration is complete.

An electronic device includes a first processor, a second processor, and a light source. The first and second processors are configured such that the first processor can be shifted from a control state of controlling the light source to a non-control state of not controlling the light source and such that the second processor can be shifted from the non-control state of not controlling the light source to the control state of controlling the light source, along with a shift of the first processor from an operating state to a non-operating state.

Detecting failures using power consumption profiling, including calibrating, at a first time, a system power profile of an information handling system (IHS), including identifying an initial baseline current value of a backlight power of a display device of the IHS; identifying an initial baseline current value of a timing controller of the IHS; calculating, at a second time, an updated system power profile, including: identifying an updated current value of the backlight power of the display device of the IHS; identifying an updated current value of the timing controller of the IHS; determining whether the updated current value of the backlight power of the display device is within a threshold value of the initial baseline current value of the backlight power of the display device.

A display device includes an emission part further including a first light source emitting a first light, a second light source emitting a second light having a longer wavelength than the first light, and a fluorescent substance which is excited by the first light and the second light so as to emit a third light, and a controller configured to generate a drive value of the first light source and a drive value of the second light source based on a luminance of the first light, a luminance of the second light, a luminance of the third light, a first target luminance for the first light source, a second target luminance for the second light source, and a third target luminance for the fluorescent substance, thus controlling two light sources based on the drive values of the first and second light sources.