Patent application number | Description | Published |
20100164925 | SOURCE DRIVER, DISPLAY DEVICE USING THE SAME AND DRIVING METHOD OF SOURCE DRIVER - A source driver, a display device and a driving method of the source driver are disclosed. The source driver adapted to a display panel includes a plurality of driving channels, wherein the display panel includes N pixel cells on each of a plurality of scan lines. The 1 | 07-01-2010 |
20100253654 | DISPLAY CONTROLLING SYSTEM UTILIZING NON-IDENTICAL TRANSFER PULSE SIGNALS TO CONTROL DISPLAY AND CONTROLLING METHOD THEREOF - A display controlling system utilized in a display, such as an LCD, includes a plurality of data lines and a plurality of source drivers. The source drivers receive a plurality of transfer pulse signals, each of which corresponds to one of the source drivers, and drive the corresponding data lines upon receiving the corresponding transfer pulse signal, wherein the transfer pulse signals are not all identical. The transfer pulse signal can be produced by the timing controller of the display, or the transfer pulse information required for generating the transfer pulse signals can be embedded in the source data to be delivered to the source drivers that generate the transfer pulse signals after obtaining the transfer pulse information. The transfer pulse signal lines between the timing controller and the source drivers can therefore be removed. | 10-07-2010 |
20100259522 | DRIVER CIRCUIT OF DISPLAY DEVICE - A driver circuit includes a mode control unit and a plurality of source drivers to drive a display panel including N pixel cells on each scan line. Each source driver has M driving channels, and a first subset of the driving channels and a second subset of the driving channels are respectively in a first mode and a second mode according to a preset mode sequence, wherein M≧N. The 1 | 10-14-2010 |
20100289791 | SOURCE DRIVER AND DRIVING METHOD THEREOF - A source driver includes a plurality of first data channel pairs, a plurality of second data channel pairs, a first switch group, a second switch group, a third switch group, and a fourth switch group. Each of the first data channel pairs includes a first odd channel and a first even channel. The channels outputting voltages having the same polarity are short circuited together through the switch groups during a charge sharing period. As a result, the swings of the voltages of data lines coupled the corresponding channel are reduced, and further power consumption in the source driver could be reduced as compared with the related art. | 11-18-2010 |
20100315396 | TIMING CONTROLLER, DISPLAY AND CHARGE SHARING FUNCTION CONTROLLING METHOD THEREOF - A display, which includes a display panel, a timing controller, and a source driver is provided. The timing controller analyzes gray level distribution of a video data to obtain an analysis result. The source driver is coupled between the display panel and the timing controller for driving the display panel to display a corresponding frame according to a video signal provided by the timing controller, and further the timing controller enables or disables a charge sharing function of the source driver in the display according to the analysis result. As a result, the charge sharing function is enabled optionally during different charge sharing periods, and thus the power consumption and the operation temperature of the source driver could be reduced as compared with the prior art. | 12-16-2010 |
20100321361 | Source driver - A source driver includes a gamma voltage generator and a digital to analog converter. The gamma voltage generator generates a plurality of gamma voltages, in which the gamma voltage generator includes a gamma resistor string, a second resistor, a plurality of first switches and a second switch. The first resistors are electrically connected serially for dividing a first gamma reference voltage and a second gamma reference voltage, in which the first resistors have first ends and second ends for providing gamma voltages. The second resistor has a first end electrically connected to the gamma resistor string and a second end receiving a third gamma reference voltage. The first switches are uniformly conducted to the first ends or the second ends of the first resistors according to a timing control signal for passing the gamma voltages. | 12-23-2010 |
20100321370 | Display system and source driver thereof - A source driver includes a gamma voltage generator, in which the gamma voltage generator includes a first gamma resistor string and a second gamma resistor string. The first gamma resistor string receives a first gamma reference voltage and generates a plurality of first gamma voltages. The second gamma resistor string receives a second gamma reference voltage and generates a plurality of second gamma voltages, in which the second gamma voltages have different voltage values from the first gamma voltages. The switch circuit selects the first gamma voltages or the second gamma voltages as output gamma voltages according to a timing control signal. The digital to analog converter selects one of the output gamma voltages as a driving voltage corresponding to a received digital pixel data for driving a first pixel region or a second pixel region of the sub-pixel. | 12-23-2010 |
20110069088 | SOURCE DRIVER AND CHARGE SHARING FUNCTION CONTROLLING METHOD THEREOF - A source driver includes a driver unit and a data analysis unit. The driver unit drives a display panel according to a video signal. The data analysis unit, which is coupled to the driver unit, analyzes gray level distribution of the video signal, and the data analysis unit enables or disables a charge sharing function of the driver unit according to an analysis result. As a result, the charge sharing function is enabled optionally during different charge sharing periods, and thus the power consumption in the source driver and the operation temperature of the source driver could be reduced as compared with the prior art. | 03-24-2011 |
20110169544 | SOURCE DRIVER - A source driver, which has a first resistor string, a first digital-to-analog converter, and a channel buffer, is provided. The first resistor string has a plurality of resistors connected in series, wherein each of the resistors of the first resistor string provides a corresponding gamma voltage. The first digital-to-analog converter is coupled to the resistors of the first resistor string. The digital-to-analog converter selectively outputs one of gamma voltages provided by the resistors as a first output voltage according to a data code. The channel buffer is coupled to an output terminal of the first digital-to-analog converter to output a second output voltage by shifting a voltage level of the first output voltage. | 07-14-2011 |
20110175663 | GAMMA VOLTAGE GENERATION CIRCUIT - A gamma voltage generation circuit is provided. An offset voltage generator generates a first offset voltage by dividing a voltage difference between a first input voltage and a second input voltage based on a first code. A first voltage shifting circuit of a voltage level shifter shifts down a first reference voltage by the first offset voltage to output a first level-shifted voltage. A second voltage shifting circuit of the voltage level shifter shifts down a second reference voltage by the first offset voltage to output a second level-shifted voltage. Each of resistors of a resistor string outputs one of the gamma voltages. A first end and a second end of the resistor string are respectively coupled to a first output terminal and a second output terminal of the voltage level shifter. | 07-21-2011 |
20110175877 | GAMMA VOLTAGE GENERATION CIRCUIT - A gamma voltage generation circuit is provided. The gamma voltage generation circuit includes a resistor string, a first switch, and a second switch. The resistor string includes a plurality of resistors connected in series. An output terminal of the first switch is coupled to a first end of the resistor string. An output terminal of the second switch is coupled to a second end of the resistor string. The first switch selects and outputs one of a first high reference voltage and a second high reference voltage to the first end of the resistor string according to a control signal. The second switch selects and outputs one of a first low reference voltage and a second low reference voltage to the second end of the resistor string according to the control signal. | 07-21-2011 |
20110175937 | GAMMA VOLTAGE GENERATION CIRCUIT - A gamma voltage generation circuit is provided. The gamma voltage generation circuit includes a plurality of resistor strings, a plurality of second resistors and a plurality of switches. Each of the resistor strings has a plurality of first resistors connected in series. Each of ends of the first resistors provides a gamma reference voltage. Each of second resistors is connected in series with the resistor strings. Each of the switches is coupled to a corresponding one of the resistor strings, selects and outputs one of the gamma reference voltages provided by the ends of the first resistors of the corresponding one of the resistor strings according to a control signal. Therefore, levels of the gamma voltages can synchronously displaced, so that the effects presented by pixels with different common voltage levels are similar or equal. | 07-21-2011 |
20110234262 | DRIVER CIRCUIT OF DISPLAY DEVICE - A driver circuit includes a mode control unit and a plurality of source drivers to drive a display panel including pixel cells on each scan line. Each source driver has M driving channels, and two subsets of the driving channels are respectively in a first mode and a second mode according to a preset mode sequence. The 1 | 09-29-2011 |
20120176346 | SOURCE DRIVER - A source driver including a presetting unit and a driving unit is provided. The presetting unit receives a plurality of display data and outputs the display data or a plurality of black insertion data according to a black insertion control signal. The driving unit receives the display data or the black insertion data in accordance with the operation of the presetting unit. Furthermore, the driving unit converts the display data into a plurality of display signals, and converts the black insertion data into a plurality of black insertion signals. | 07-12-2012 |