Patent application number | Description | Published |
20130281593 | INK JET INK AND RECORDED OBJECT - The ink jet ink includes pigment, first resin which has a glass-transition temperature of less than 20° C. and a weight-average molecular weight of not more than 10000, second resin which has a glass-transition temperature of not less than 23° C., and specific polyoxyalkylene glycol monoalkyl ether. | 10-24-2013 |
20150022584 | INK SET - There is provided an ink set in which at least a cyan ink, a magenta ink, and a yellow ink are provided, each ink provided in the ink set includes water, a pigment of equal to or greater than 5% by mass with respect to 100% by mass of a total amount of each of the ink, glycerin, and a betaine compound having a molecular weight of less than 120, respectively, in each of the ink, a maximum difference in a content ratio of the pigment is equal to or greater than 3.0% by mass, and a maximum difference in a content ratio of the water is equal to or less than 3.0% by mass and in each of the ink, the ink in which a content ratio of the pigment is at a maximum, the ink in which the content ratio of the water is at a maximum, and the ink in which a total content ratio of the glycerin and the betaine compound is at a maximum are the same ink. | 01-22-2015 |
20150275013 | INK SET AND LIQUID EJECTING HEAD - An ink set according to the invention includes a yellow ink, a magenta ink, and a cyan ink, in which each of the inks contains a coloring agent which includes water and a pigment, the coloring agent of the magenta ink and the cyan ink is a first coloring agent which has a phosphorus-containing group on a surface of the pigment, the coloring agent of the yellow ink is a second coloring agent where a surface of the pigment is covered by a styrene-acryl resin, and each of the inks contains 50 mass % or more to 60 mass % or less of water with respect to the total mass of the ink. | 10-01-2015 |
Patent application number | Description | Published |
20140160179 | PIXEL CIRCUIT AND DISPLAY DEVICE - A pixel circuit is provided which includes a light-emitting element; a driving transistor configured to control an amount of current supplied from a first power line to the light-emitting element according to a pixel voltage; a capacitor having one end connected to a second power line and the other end connected to a gate of the driving transistor and configured to hold the pixel voltage; a first switch transistor configured to selectively switch the pixel voltage provided through a data signal line into the capacitor; and a second switch transistor configured to selectively connect the first power line and the second power line. The first and second power lines are separated during a period where the capacitor is charged by the pixel voltage, and are shorted during a period where the driving transistor operates according to the pixel voltage. | 06-12-2014 |
20140160185 | DISPLAY DEVICE AND METHOD OF DRIVING PIXEL CIRCUIT THEREOF - A display device includes a pixel circuit having a driving transistor for driving a light-emitting element based on a gradation voltage held by a holding capacitor. The display device performs a first writing of gradation data using a first initialization voltage and a second writing of the gradation data using a second initialization voltage. | 06-12-2014 |
20140168195 | ELECTRO-OPTIC DEVICE AND DRIVING METHOD THEREOF - A pixel circuit includes a driving transistor connected to a light-emitting element and capacitor connected to a gate of the driving transistor. A threshold voltage of the driving transistor is compensated during a first period based on a first voltage derived from a power supply voltage. The gate of the driving transistor is set to a second voltage during a second period, where the second voltage is derived from a data voltage stored in the capacitor. The second period includes a data program period. An operation of the pixel circuit in the first period is performed independently from an operation of the pixel circuit in the data program period. Accordingly, threshold voltage compensation and data program operations are performed in separate periods based on different voltages supplied to the driving transistor. | 06-19-2014 |
20140320549 | DISPLAY APPARATUS AND DRIVING METHOD OF DISPLAY APPARATUS - A display device includes a driving transistor in a pixel circuit. A signal line is connected to a source or drain of the driving transistor. The source or drain of the driving transistor receives a power source voltage, an initialization voltage, and a data voltage through the signal line during different periods of operation. The periods of operation include a emission and non-emission periods. | 10-30-2014 |
20140327664 | IMAGE DISPLAY DEVICE AND METHOD OF CONTROLLING PIXEL CIRCUIT - A pixel circuit includes a first transistor coupled to a light emitting element, a first capacitor coupled to the first transistor, a second transistor coupled to the first capacitor, a third transistor coupled between the second transistor and a data line; and a second capacitor having a first electrode coupled between the second and third transistors. The first transistor controls an amount of current supplied to the light emitting element based on a first data voltage while a second data voltage is stored in the second capacitor. The first data voltage is stored in the first capacitor. | 11-06-2014 |
20140333214 | PIXEL CIRCUIT AND DRIVING METHOD THEREOF - A pixel circuit including a light emitting element outputting a gray scale based on a current supplied thereto, a first transistor configured to control an amount of current supplied to the light emitting element based on a gray scale data voltage supplied to a gate electrode of the first transistor, a second transistor connected between the gate electrode of the first transistor and an initialization voltage, a third transistor connected between the gate electrode of the first transistor and a first terminal of the first transistor; a fourth transistor connected between the first terminal of the first transistor and the light emitting element, and a fifth transistor connected between a second terminal of the first transistor and a data line. The data line is selectively supplied with the gray scale data voltage and a power supply voltage for light emitting of the light emitting element to the fifth transistor. | 11-13-2014 |
20140333682 | PIXEL CIRCUIT AND DRIVING METHOD THEREOF - A method for driving a display device includes driving a first pixel circuit based on first and second fields of a frame, and driving a second pixel circuit based on first and second fields of the frame. The first field of the first pixel circuit overlaps the second field of the second pixel circuit. The second field of the first pixel circuit overlaps the first field of the second pixel circuit. Operations performed in the first field include storing a gray scale data voltage, and operations performed in the second field include supplying an amount of current to a light emitter based on the stored gray scale data voltage. The first and second pixel circuits are in adjacent rows of the display device. | 11-13-2014 |
20140340436 | ELECTRO-OPTICAL DEVICE AND DRIVING METHOD THEREOF - An electro-optical device selects a detection target pixel independently and obtains correction data to perform a correction operation. Under a control of the electro-optical device, remaining pixels other than the detection target pixel emit light to display an image. | 11-20-2014 |
20140347405 | PIXEL CIRCUIT AND METHOD FOR DRIVING THE SAME - A pixel circuit includes a plurality of pixels. Each pixel includes a data storage capacitor to store a voltage for controlling a gray scale value based on an input data signal, a plurality of switch transistors connected in series between a data signal line and the data storage capacitor, and a plurality of connection transistors coupled to the pixels. The switch transistors have a gate electrode connected to a first gate control signal line. At least one connection transistor is connected between at least one node between the switch transistors of a first pixel and at least one node between the switch transistors of a second pixel adjacent to the first pixel. The at least one connection transistor includes a gate electrode connected to a second gate control signal line. | 11-27-2014 |
20150035871 | DISPLAY DEVICE AND DRIVING METHOD THEREOF - A display device includes a plurality of pixels, a gate control line electrically connected to the pixels, an auxiliary power line isolated from the gate control line, and a number of auxiliary switches between the gate control line and the auxiliary power line. The at least one auxiliary switch is controlled by an auxiliary control line isolated from the auxiliary power line and the gate control line. The at least one auxiliary switch electrically connects the gate control line and the auxiliary power line. | 02-05-2015 |
20150049103 | CONTROL CIRCUIT FOR FRAME MEMORY, DISPLAY DEVICE INCLUDING THE SAME AND METHOD OF CONTROLLING THE SAME - A control circuit for a frame memory includes a divider, a frame memory, a read control circuit, and a write control circuit. The divider divides image data into subfield data according to a plurality of subfields, where the image data is provided in synchronization with a first synchronization signal and in a unit of a frame. The frame memory has a plurality of blocks to store the subfield data. The read control circuit sequentially reads the subfield data from the blocks in synchronization with a second synchronization signal. The write control circuit writes new data to a first block before data written in a second block is read, and after data written in the first block is read by the read control circuit. The second synchronization signal may have a same cycle as the first synchronization signal and may be delayed by a preset delay time. | 02-19-2015 |
20150054722 | ELECTRO-OPTICAL DEVICE - An optoelectronic device includes a first transistor, a second transistor, and a control circuit. The first transistor is electrically connected between a power supply and a light-emitting element, has a gate to receive a gray scale voltage, and supplies the light-emitting element with a driving current corresponding to the gray scale voltage. The second transistor has a gate electrically connected to an electrode of the light-emitting element and a source or drain electrically connected to a circuit including a voltmeter. The control circuit reads a measurement value of the voltmeter when the gate of the first transistor receives the gray scale voltage, and corrects a next gray scale voltage applied to the gate of the first transistor based on the measurement value. | 02-26-2015 |
20150061537 | OPTOELECTRONIC DEVICE - An optoelectronic device includes a driving transistor, a correction transistor, and a control circuit. The driving transistor adjusts a first current from a power supply based on a voltage stored in a first capacitor. The driving transistor supplies the adjusted first current to the light-emitting element. The correction transistor is electrically connected on a path of a second current flowing from the power supply to the first capacitor, and adjusts the second current based on a voltage stored in a second capacitor. The control circuit controls the second capacitor to store a gray scale voltage while the first current flows, and controls flow of the second current to update the voltage stored in the first capacitor while the first current is blocked. | 03-05-2015 |
20150062193 | ELECTRO-OPTICAL DEVICE - An electro-optical device includes a driving transistor, a first capacitor, a second capacitor, and a switching circuit. The driving transistor is connected between a power supply and an electrode of a light-emitting element. The first capacitor is connected between a gate and source of the driving transistor. The second capacitor stores a gray scale voltage. The switching circuit selectively connects the first capacitor and the second capacitor to the gate of the driving transistor. A control circuit applies the gray scale voltage to the second capacitor while the first capacitor is connected to the gate of the driving transistor by the switching circuit, and writes a source voltage of the driving transistor at the first capacitor while the second capacitor is connected to the gate of the driving transistor by the switching circuit. | 03-05-2015 |
20150062195 | ELECTROLUMINESCENCE DISPLAY DEVICE AND DRIVING METHOD THEREOF - An electroluminescence display device includes a controller which generates signals for controlling at least one pixel circuit during a first period and a second period. The controller controls current to a light-emitting element of the at least one pixel circuit based on a data voltage in the first period. The controller controls a supplying period of current to the light-emitting element based on a duty control voltage in the second period. The supplying period when the pixel circuit is driven at a first gray scale value is longer than that when the pixel circuit is driven at a second gray scale. The first gray scale value is greater than the second gray scale value. | 03-05-2015 |
20150097871 | DISPLAY APPARATUS AND METHOD OF DRIVING THE SAME - A display device includes an acquiring circuit, a calculator, and a delay controller. The acquiring circuit acquires a gray scale voltage of a gray scale value of a pixel. The calculator calculates a first delay correction value based on a voltage currently retained on a data signal line to which the gray scale voltage is output and a gray scale voltage to be subsequently output to the data signal line. The delay controller determines a timing when the gray scale voltage is to be output to the data signal line based on the first delay correction value. | 04-09-2015 |
20150154941 | ELECTRO-OPTIC DEVICE AND DRIVING METHOD THEREOF - A driving method of an electro-optic device includes initializing a gate voltage of a driving transistor; and performing a data write operation where a threshold voltage of the driving transistor is compensated by turning on a first transistor and a second transistor connected in series between a drain and a gate of the driving transistor and a voltage is provided to a capacity element connected to the gate of the driving transistor to hold a voltage of the compensated data signal as a gate voltage. The first transistor is at a drain side of the driving transistor and the second transistor is between the first transistor and a gate side of the driving transistor. When the data write operation ends, the second transistor is first turned off and, subsequently, the first transistor is turned off. The second transistor is again turned on after the first transistor is turned off. | 06-04-2015 |
20150243226 | DISPLAY APPARATUS AND CONTROLLING METHOD THEREOF - A display apparatus includes a display unit, a control unit, and a compensation unit. The compensation unit may compensate the display data when a sensing operation is performed on a target pixel circuit, the compensation unit compensating display data by setting a light emission amount of light emitting element of a target pixel circuit to be an amount obtained by subtracting a sensing light emission amount, which is a light emission amount of the light emitting element of the target pixel circuit during a sensing interval, from a display light emission amount, which is a light emission amount of the light emitting element of the target pixel circuit before the compensation. | 08-27-2015 |
20150279269 | DISPLAY APPARATUS AND METHOD OF DRIVING THE SAME - A display apparatus includes a scan line driver and a data line driver. The data line driver supplies data signals to turn on or off pixel circuits connected to selected scan lines. The pixel circuits are turned on or off in sub frames. For each scan line, the sub frames are assigned in the display period based on a reference point. During a preliminary period, the scan line driver selects a scan line and the data line driving circuit supplies a data signal to the pixel circuit based on the reference point. During the display period, the scan line driver selects scan line connected to the pixel circuit in synchronization with an initiation timing of each sub frame of the display period. The data line driver supplies the data signal to the pixel circuit based on the state of the sub frame corresponding to initiation timing. | 10-01-2015 |
20150356942 | VOLTAGE CONTROL CIRCUIT OF DISPLAY DEVICE, AND THE DISPLAY DEVICE - A voltage control circuit of a display device includes a first power line, a second power line, a third power line, and a filter circuit. The second power line is connected to the first power line at a central portion of a predetermined area. The third power line is in the predetermined area. The filter circuit is between the second and third power lines, and includes at least one element having a larger resistance value per unit length than a resistance value per unit length of at least one of the second or third power lines. | 12-10-2015 |
20150364085 | DISPLAY CIRCUIT AND DISPLAY APPARATUS - A display circuit includes a plurality of pixel circuits and a shared compensation transistor. Each pixel circuit includes a driving transistor to control light emission of a light emitter. The compensation transistor is to compensate the threshold voltages of the driving transistors of the pixel circuits. | 12-17-2015 |