| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 348800000 | Electroluminescent (e.g., scanned matrix, etc.) | 28 |
| 20100123837 | Display device - A display device includes: a panel in which plural pixels that emit lights according to a video signal are sectioned into plural areas; a light reception sensor that is arranged in each of the areas and outputs a light reception signal according to light emission luminance; and signal processing means. The area includes first and second pixel groups including at least one pixel and plural pixels other than the first pixel group, respectively. The signal processing means includes arithmetic means for outputting an arithmetic signal according to arithmetic operation of an offset value and a light reception value; converting means for outputting digital data according to the arithmetic signal; and correcting means for correcting the video signal according to the digital data and supplying the corrected video signal to the first pixel group. | 05-20-2010 |
| 20100123838 | Display device - A display device includes: a panel in which plural pixels emitting lights according to a video signal are sectioned into plural areas; a light reception sensor arranged in each of the areas and outputting a light reception signal according to light emission luminance; converting means for outputting digital data according to the light reception signal; and signal processing means. The area includes first and second pixel groups including at least one pixel and plural pixels other than the first pixel group, respectively. The signal processing means corrects the video signal according to arithmetic operation of digital data obtained when the first and the second pixel groups are caused to emit lights at predetermined light emission luminance and digital data obtained when light emission luminance of the second pixel group is maintained and that of the first pixel group is changed, and supplies the corrected signal to the first pixel group. | 05-20-2010 |
| 20110013099 | DISPLAY UNIT, METHOD OF DRIVING THE SAME, AND ELECTRONICS DEVICE - A display unit with which the internal structure is able to be simplified, a method of driving the same, and an electronics device are provided. The display unit includes a video signal processing circuit, a signal line drive circuit, a power source line drive circuit and a scanning line drive circuit. The power source line drive circuit concurrently applies a control pulse to the all power source lines, and concurrently controls light emission and light extinction of the all light emitting devices. The scanning line drive circuit applies a first selection pulse to the all scanning lines during time period when the fixed voltage is applied, and subsequently and sequentially applies a second selection pulse to the plurality of scanning lines during time period when the erasing pulse is applied. | 01-20-2011 |
| 20110013100 | DISPLAY UNIT, METHOD OF DRIVING THE SAME, AND ELECTRONICS DEVICE - A display unit with which gradation control is facilitated, a method of driving the same, and an electronics device are provided. The display unit includes: a pixel circuit array section including a plurality of scanning lines arranged in rows, a plurality of signal lines arranged in columns, and a plurality of light emitting devices and a plurality of pixel circuits arranged in a matrix state correspondingly to an intersection of each scanning line and each signal line; a signal line drive circuit sequentially applying a signal voltage corresponding to a video signal to each signal line, and applying an erasing pulse to a specific signal line at given timing so that a duty ratio determined based on the video signal is obtained; and a scanning line drive circuit applying a given selection pulse to the scanning line while the erasing pulse is applied to the specific signal line. | 01-20-2011 |
| 20110109817 | Display device, method of driving the same, and electronic unit - A display device includes: pixels each including a light emitting element; scan lines, signal lines, and power supply lines; a scan line drive circuit applying a selection pulse to the scan lines in succession; a signal line drive circuit applying a signal pulse to the signal lines through switching a gray-scale interpolation voltage, a basic voltage and a video signal voltage, in this order to perform gray-scale interpolation; and a power supply line drive circuit applying a control pulse to the power supply lines. The scan line drive circuit generates the selection pulse through alternately switching an on-voltage and an off-voltage, and applies the pulse to the scan lines so that application of the on-voltage to the scan line starts in a time period of the gray-scale interpolation voltage and the on-voltage is switched to the off-voltage in a time period of the basic voltage. | 05-12-2011 |
| 20110234925 | Display device and electronic device - A display device includes: a display unit having a plurality of pixels each including a light emitting element, a drive transistor and a correction transistor, a scan line, a signal line, a power supply line and a gate line connected to the pixels; a scan line drive circuit applying a selection pulse to the scan line; and a signal line drive circuit writing a video signal to a pixel selected by the scan line drive circuit by applying a video signal voltage to the signal line. The drive transistor and the correction transistor are connected to each other in series on a path between the power supply line and the light emitting element in each of the pixels. Gate voltage for correction to be applied to the gate of the correction transistor via the gate line is set individually in each of unit regions in the display unit. | 09-29-2011 |
| 20120127376 | DISPLAY DEVICE AND VIDEO INFORMATION PROCESSINSG DEVICE USING THE SAME - A display device including a light emitting element array composed of a plurality of light emitting elements includes a micro lens array composed of a plurality of micro lenses provided on the light emission surface side of the light emitting element array and a light shielding member provided on the light emission surface side more than the micro lens array. The light shielding member includes a light shielding member in which a light absorption wall and a medium arranged alternately along the light emission surface, wherein the light absorption rate of the medium is lower than that of the light absorption wall. | 05-24-2012 |
| 20120188466 | Semiconductor Device, Display Device, And Electronic Device - A pixel includes a load, a transistor which controls a current supplied to the load, a storage capacitor, and first to fourth switches. By inputting a potential in accordance with a video signal into the pixel after the threshold voltage of the transistor is held in the storage capacitor, and holding a voltage of the sum of the threshold voltage and the potential, variations of a current value caused by variations of threshold voltage of a transistor can be suppressed. Consequently, a predetermined current can be supplied to the load such as a light-emitting element. Further, by changing the potential of a power supply line, a display device with a high duty ratio can be provided. | 07-26-2012 |
| 20120194749 | DISPLAY DEVICE AND METHOD FOR DRIVING THE SAME - It is an object to provide a display device in which a problem of light leakage from a liquid crystal element in black display is reduced or overcome and the contrast is improved. It is another object to provide a pixel circuit having a function to control a lighting state of a backlight based on each pixel. These objects are achieved by turning off a light-emitting element in display of a black gray scale, and by providing a light-emitting element in each pixel and providing, in a pixel circuit, a function to individually control lighting and non-lighting of the light-emitting element depending on a gray scale to perform display. When a backlight is provided in each pixel, a light-emitting element that is a backlight is turned off when a black gray scale is displayed, whereby reduction in contrast due to light leakage from a liquid crystal element can be prevented. | 08-02-2012 |
| 20120281156 | DISPLAY DEVICE AND ELECTRONIC EQUIPMENT - A display device includes a pixel array section, the pixel array section having pixels arranged in a matrix form, at least one of the pixels including an electro-optical element, a write transistor, a holding capacitance, a drive transistor, and a switching transistor. A write scan line is disposed for each pixel row of the pixel array section and adapted to convey a write signal to be applied to the gate electrode of the write transistor. The wiring structure of the write scan line does not intersect with the wiring pattern connected to the gate electrode of the drive transistor. | 11-08-2012 |
| 20130300949 | HEAD MOUNT DISPLAY AND METHOD FOR CONTROLLING HEAD MOUNT DISPLAY - Disclosed is a head mount display including: a display section displaying video pictures for the left and right eyes; an audio output section outputting sound accompanying the video pictures; a user operation section operated by the user to adjust the volume of the sound outputted by the audio output section; a mounting sensor detecting whether or not the user has worn the head mount display; and a control section controlling the operation to adjust the volume requested by the user by operating the user operation section in accordance with a detection result from the mounting sensor. | 11-14-2013 |
| 348801000 | Light emitting diode | 16 |
| 20090161030 | ILLUMINATION SYSTEM AND TELEVISION USING THE SAME - A system includes a light source, a driving module and a processing unit. The light source includes a red, green and blue light emitting diodes. The driving module is electrically coupled to the red, green and blue light emitting diodes. The driving module is for controlling a driving current outputted to each of the red, green and blue light emitting diodes. The processing unit is communicatively coupled to the driving module. The processing unit receives a video signal containing display information which is inputted into a display screen and is to be displayed thereon. The processing unit analyzes the video signal and determines color temperature of the display information, and outputs a first controlling signal to the driving module for synchronously adjusting the color temperature of the light emitted from the light source to be substantially equal to that of the display information displayed on the display screen. | 06-25-2009 |
| 20090174825 | Organic light emitting diode display - An OLED display includes a display panel having a display area and a pad area, a first bezel receiving the display panel, and a second bezel combined with the first bezel along a display panel side where the pad area is formed. | 07-09-2009 |
| 20100265417 | DISPLAY ARRANGEMENT WITH ENHANCED FUNCTIONALITY - The present invention relates to a display arrangement comprising display means ( | 10-21-2010 |
| 20100289971 | Customizing Footwear - A system and method for customizing the look of footwear. The footwear of the system includes a display that can show high resolution images and covers a large portion of the footwear surface. A user can create and transfer designs to be displayed. Designs can be bought or shared over the Internet. The system also allows the user to use a handheld device to detect the color of another object and then display substantially the same color in pixels of the display. | 11-18-2010 |
| 20110157492 | SURFACE LIGHT SOURCE USING WHITE LIGHT EMITTING DIODES AND LIQUID CRYSTAL DISPLAY BACKLIGHT UNIT HAVING THE SAME - There is provided a surface light source using white light emitting diodes including: a plurality of white light emitting diodes arranged at a predetermined distance from one another, wherein the white light emitting diodes are arranged such that a light emitting diode unit defined by each of the white light emitting diodes and corresponding ones of the white light emitting diodes disposed at a closest distance from the each white light emitting diode has a central light amount ranging from 80% to 120% with respect to an average light amount of the white light emitting diodes. | 06-30-2011 |
| 20110216250 | DISPLAY DEVICE AND BACKLIGHT UNIT - A display device comprises: a first substrate; LED light sources mounted on the first substrate; a backlight unit comprising a side surface on which light emitted from the LED light sources is incident and a back surface from which light is emitted in a direction different from the direction of the light incident on the side surface; and a panel disposed on the backlight unit and displaying a video image, wherein at least the first and second LED light sources adjacent to each other, among the LED light sources on the first substrate, are controlled differently from the other LED light sources on the first substrate based on the video image. | 09-08-2011 |
| 20110310311 | Television Apparatus and Electronic Apparatus - According to one embodiment, a television apparatus includes, a printed wiring board provided with a cutout portion, a plurality of first light emitting diodes provided on the printed wiring board and configured to emit light parallel to the printed wiring board, and a lens. The lens includes a plurality of light receiving parts fitted in the cutout portion in such a manner as to correspond to the first light emitting diodes, respectively, and a display part configured to display the light which has entered through the light receiving parts. | 12-22-2011 |
| 20120229713 | Television Apparatus and Electronic Apparatus - According to one embodiment, an electronic apparatus comprises a housing with a display, a printed wiring board, and a lens. The housing comprises a side surface with an opening. The printed wiring board positioned in the housing along with a light-emitting portion on the printed wiring board. The lens is situated adjacent to the printed wiring board and comprises a light guide configured to guide light from a plurality of light-receiving portions to the opening. | 09-13-2012 |
| 20130235281 | VIDEO DISPLAY SYSTEM - A video display system includes an electroacoustic device secured within a housing. A plurality of modules is operatively associated with the housing and is arranged to form a display area, each of the modules including at least one light source. The modules cooperatively display light to display at least one of video and images. | 09-12-2013 |
| 20140036161 | LED LIGHT GUIDE, LED LIGHT SOURCE MODULE AND DIRECT-TYPE LED TV - A circular LED light guide includes a top wall and a peripheral side wall; the top wall and the peripheral side wall cooperatively form a hollow receiving space. The hollow receiving space is used for receiving an LED therein. The top wall includes a light incident surface inside of the receiving space, and an exterior light output surface. The light incident surface includes a concave lens surface formed in a central area of the light incident surface, and the light output surface includes a convex lens surface formed in a central area of the light output surface. A central optical axis of the concave lens surface is aligned with a central optical axis of the convex lens surface. An LED module and a direct-type LED TV using the LED light guide are also provided. | 02-06-2014 |
| 20140132848 | ILLUMINATING DEVICE, DISPLAY DEVICE, AND TELEVISION RECEIVER - A backlight device | 05-15-2014 |
| 348802000 | Color TV | 5 |
| 20080252797 | METHOD FOR INPUT-SIGNAL TRANSFORMATION FOR RGBW DISPLAYS WITH VARIABLE W COLOR - A method for transforming three color-input signals (R, G, B) corresponding to three gamut-defining color primaries of a display to four color-output signals (R′, G′, B′, W) corresponding to the gamut-defining color primaries and one additional primary of the display, where the additional primary has color that varies with drive level, comprising: a) determining a relationship between drive level of the additional primary and intensities of the three gamut-defining primaries which together produce equivalent color over a range of drive levels for the additional primary; and b) employing the three color-input signals R, G, B and the relationship defined in a) to determine a value for W of the four color-output signals, and modification values to be applied to one or more of the R, G, B components of the three color-input signals to form the R′, G′, B′ values of the four color-output signals. | 10-16-2008 |
| 20100110312 | GAMUT ADAPTATION | 05-06-2010 |
| 20130278841 | SYSTEM, METHOD AND APPARATUS FOR ILLUMINATING A BEZEL - An application for a bezel with internal lighting includes at least one illuminated element situated behind a monitor/television bezel. The brightness and color of the illuminating elements and hence the bezel appearance are modified based upon either user preference or an internal or external parameters such as time, content being viewed, recording status, etc. | 10-24-2013 |
| 20160071442 | PIXEL INTERLEAVING CONFIGURATIONS FOR USE IN HIGH DEFINITION ELECTRONIC SIGN DISPLAYS - Pixel interleaving configurations for use in high definition electronic sign displays where each and every scan line includes full red, green, and blue color representation to provide for high resolution electronic video sign displays. | 03-10-2016 |
| 20170237935 | VIRTUAL IMAGE DISPLAY APPARATUS AND VIDEO DEVICE UNIT MANUFACTURING METHOD | 08-17-2017 |
| 348803000 | Color TV | 1 |
| 20140218626 | SELF-LUMINOUS DISPLAY PANEL, AND DISPLAY APPARATUS HAVING THE SAME - A display apparatus includes: a signal receiver configured to receive an image signal; a signal processor configured to process the image signal received by the signal receiver; and a display panel configured to display the image signal processed by the signal processor as a processed image, wherein the display panel includes: a glass substrate; a first electrode layer; a second electrode layer disposed between the first electrode layer and the glass substrate; a light emitting layer disposed between the first electrode layer and the second electrode layer, configured to generate a plurality of colors of light, and configured to emit the light to the glass substrate; a linear pattern layer formed on a surface of the glass substrate and including linear bars extending in one direction to transmit a preset polarizing direction of light; and a phase retardation layer disposed between the second electrode layer and the linear pattern layer. | 08-07-2014 |
