Patent application number | Description | Published |
20100103153 | Image display apparatus - A plurality of scanning signal lines GLn divided into groups, and each group is made up of three scanning signal lines GLnR, GLnG and GLnB, and a plurality of pixels are divided into pixel blocks, and each pixel block is made up of three pixels PR (n, m), PG (n, m) and PB (n, m) respectively connected to the scanning signal lines GLnR, GLnG and GLnB. These pixels PR (n, m), PG (n, m) and PB (n, m) are connected to a common data signal line SLm. To the scanning signal lines GLnR, GLnG, GLnB, scanning pulses are sequentially outputted to the scanning signal lines GLnR, GLnG and GLnB from shift registers SRnR, SRnG and SRnB, and video signals for R, G and B are outputted to the data signal line SLm from a driver IC by time division. | 04-29-2010 |
Patent application number | Description | Published |
20090009374 | DIGITAL TO ANALOGUE CONVERTER - A digital/analogue converter for converting an input n-bit digital code, where n is an integer greater than one, has an n-bit digital input and an output for connection to a load, and includes: an array of (n−1) switched capacitors; and a switching arrangement. In one example embodiment, the switching arrangement is adapted, in a zeroing phase of operation, to connect a first reference voltage to the first plate of at least one capacitor of the array and to connect a second plate of the at least one capacitor to a voltage that, for at least one value of the input digital code, is different from the first reference voltage and is further adapted, in a decoding phase of operation, to enable, dependent on the value of the input digital code, injection of charge into the at least one capacitor. In one example embodiment, the converter may be a bufferless converter having an output for direct connection to a capacitive load. | 01-08-2009 |
20090109203 | Liquid Crystal Display Device and Method for Driving the Same - A data signal line drive circuit is provided with first sampling portions, and second sampling portions operated at a lower speed. By the action of selection circuits, the first sampling portions are operated during a normal display mode, and the second sampling portions are operated during a partial display mode. To ensure a correct sampling operation, one line time and a sampling interval are rendered longer during a display period of the partial display mode than during the normal display mode. During the normal display mode, both the first sampling portions and the second sampling portions may be operated. Thus, power consumption of a liquid crystal display device during the partial display is reduced. | 04-30-2009 |
20090115716 | Shift register, circuit driving display device, and display device - In one embodiment of the present invention, the present shift register is a shift register provided in a display device by which a partial-screen display is available. The shift register includes a shift stopping circuit that is provided in an in-between stage, and stops operation of the shift register between a first stage and a last stage of the shift register in partial-screen display. The shift register also includes a circuit that is provided in a stage other than the in-between stage in such a manner that the circuit does not perform signal processing but serves as a signal path. The circuit is same as the shift stopping circuit in configuration. The foregoing allows improvement in display quality of the display device employing the present shift register. | 05-07-2009 |
20090115758 | Drive Circuit of Display Apparatus, Pulse Generation Method, Display Apparatus - The subject invention provides a drive circuit for a display apparatus, comprising: a shift register; and a pulse generation circuit for generating a drive pulse signal using an output pulse signal generated in the shift register, wherein: the pulse generation circuit forms a pulse-starting edge and a pulse-termination edge of the drive pulse signal using a rise or a fall of pulse resulting from activation of the output pulse signal. On this account, pulse generation can be performed with high accuracy in a pulse generation circuit used for a drive circuit for a display apparatus or the like. | 05-07-2009 |
20090115771 | Liquid Crystal Display Device and Method for Driving Same - A data signal line drive circuit is provided with first sampling portions, and second sampling portions operated at a lower speed. By the action of selection circuits, the first sampling portions are operated during a normal display mode, and the second sampling portions are operated during a partial display mode. To ensure a correct sampling operation, one line time and a sampling interval are rendered longer during a display period of the partial display mode than during the normal display mode. During the normal display mode, both the first sampling portions and the second sampling portions may be operated. Thus, power consumption of a liquid crystal display device during the partial display is reduced. | 05-07-2009 |
20090141013 | Display Device and Drive Method Thereof - The present invention relates to a display device and a drive method thereof. | 06-04-2009 |
20100073356 | Level shifter, shift register with level shifter, and display device with shift register - In one embodiment of the present invention, a NAND circuit, an inverter, a plurality of transistors serve as stopping devices for stopping operation of a circuit in a manner responsive to a level of an initializing signal that is fed. If the initializing signal that is Low-level is fed into the NAND circuit, then a plurality of transistors all become OFF. This makes it possible to reduce steady current flowing across a voltage and a start signal. Steady current flowing across the voltage and a start inverted signal is also reduced. Thus, the steady current flowing through the level shifter is reduced reliably, regardless of the way of use, when necessary. | 03-25-2010 |
Patent application number | Description | Published |
20120319935 | DISPLAY DEVICE - An objective of the present invention is to provide a display device which operates with low power consumption and is highly flexible with respect to design of image display. | 12-20-2012 |
20130002626 | DISPLAY DEVICE - An objective of the present invention is to provide a display device capable of reducing a circuit area on a panel substrate and realizing low power consumption by drive using memory. | 01-03-2013 |
20130141668 | DISPLAY DEVICE - A display device with low power consumption having increased added value is provided. | 06-06-2013 |
20140022472 | DISPLAY DEVICE - A liquid crystal display device includes a display panel, a parallax barrier, and a spacer. The display panel includes a display area in which an image is displayed and a display surrounding area located around the display area. The parallax barrier includes a separation area and a separation surrounding area located around the separation area. The image displayed on the display panel is separated by parallax in the separation area. The parallax barrier is attached to the display panel with a space between the separation surrounding area of the parallax barrier and the display surrounding area of the display panel. The spacer is arranged in the space. The spacer is configured to define a distance between the display surrounding area of the display panel and the separation surrounding area of the parallax barrier. | 01-23-2014 |
20140267473 | DISPLAY DEVICE AND DRIVING METHOD THEREOF - An object of the invention is to provide a display device and a driving method thereof, in which uniformity of a video image displayed after charge sharing does not deteriorate. In a first horizontal period, a positive voltage and a negative voltage according to a video signal are alternately applied to source signal lines, and then, reset voltages of +5V and −5V are respectively applied to source signal lines. As a result, the voltages of the source signal lines become +5V or −5V. In this state, when the source signal lines to which +5V and −5V are applied are short-circuited in the beginning of a second horizontal period, charge sharing is performed between the source signal lines, and the voltages of these source signal lines become 0V. Subsequently, when the voltage according to the video signal is applied, the liquid crystal display device can display a color video image having reduced display unevenness and high uniformity. | 09-18-2014 |
20140340600 | SCANNING SIGNAL LINE DRIVE CIRCUIT AND DISPLAY DEVICE EQUIPPED WITH SAME - This liquid crystal display device allows outputs from RS-FF circuits ( | 11-20-2014 |
20140368490 | DRIVE CONTROL DEVICE, DISPLAY DEVICE INCLUDING THE SAME, AND DRIVE CONTROL METHOD - Low frequency drive is performed that provides, after a charging period for refreshing a screen, a pause period for pausing the refresh. The length of the charging period is, for example, one frame and the length of the pause period is, for example, 59 frames. When new image data IMD is transmitted from a host to an LCD driver IC during the pause period, an interrupt process where the pause period is allowed to transition to the charging period is performed immediately thereafter. By performing the interrupt process, without waiting for the pause period with the predetermined length to end, the next charging period where refresh based on the new image data IMD is to be performed starts. | 12-18-2014 |