Patent application number | Description | Published |
20080259000 | Active Matrix Type Display Apparatus and a Driving Device of a Load - An active matrix type display device includes a plurality of pixel circuits arranged in a matrix shape. The pixel circuit has a display device, a drive transistor of a first conductivity type for controlling a current flowing in the display device, a capacitor provided at a control electrode of the drive transistor, and a switch, connected to the control electrode of the drive transistor, for holding a drive control signal at the capacitor. The switch includes a switching transistor of the first conductivity type and a switching transistor of a second conductivity type, in which one main electrode of the switching transistor of the first conductivity type and one main electrode of the switching transistor of the second conductivity type are connected serially. One of the other main electrode of the switching transistor of the first conductivity type and the other main electrode of the switching transistor of the second conductivity type is connected to the control electrode of the drive transistor. | 10-23-2008 |
20090015571 | ACTIVE MATRIX TYPE DISPLAY APPARATUS AND DRIVING METHOD THEREOF - During a first selection period, a second main conductive terminal of a drive transistor and a display element are isolated, and at the same time, a control terminal of the drive transistor and the second main conductive terminal and a signal line are connected, and the signal line is supplied with a constant current capable of conducting the drive transistor, and during a second selection period, a connection of the second main conductive terminal of the drive transistor and the signal line is broken, and the signal line is supplied with a signal current corresponding to a current injected to the display element, and during a non-selection period, the second main conductive terminal of the drive transistor and the display element are connected, and the drive current of the drive transistor corresponding to voltage between both terminals of a capacitive element is supplied to the display element. | 01-15-2009 |
20090033599 | ACTIVE MATRIX DISPLAY APPARATUS AND DRIVING METHOD THEREOF - An active matrix display apparatus comprising two-dimensional arranged pixel circuits each including a display element connected with a signal line for supplying a current thereto and a scanning line, and further including a drive transistor and a capacitor, one terminal thereof being connected to a control terminal of the drive transistor, wherein a first main conductive terminal of the drive transistor and the other terminal of the capacitor are connected to a lighting power source for supplying a current to the display element, and wherein at the current writing operation, the current supplied to the signal line is conducted to the drive transistor and at the lighting operation, the conductive current is injected into the display element so that before completion of the write operation, a voltage drop by a predetermined value is started to the voltage of the lighting power source and is kept continued for a predetermined period. | 02-05-2009 |
20090066615 | DISPLAY APPARATUS AND DRIVING METHOD THEREOF - A display apparatus comprises: plural light emitting devices emitting light by plural kinds of colors; a driving circuit for each light emitting device; a scanning line selecting the driving circuit; a light emission control line causing the light emitting devices to emit light; and a data line supplying to the selected driving circuit a current signal according to brightness, wherein the driving circuit comprises a driving transistor supplying a current, a first-switch between a gate of the driving transistor and the data line, a second-switch between a drain of the driving transistor and the light emitting device, a first-capacitor having one end connected to the gate of the driving transistor and the other end potential-fixed, and a second-capacitor connected to the gate of the driving transistor and the light emission control line, and a capacitance ratio of the second-capacitor to first-capacitor varies according to the color of the emitted light. | 03-12-2009 |
20090085908 | DRIVING CIRCUIT FOR LIGHT-EMITTING DEVICE AND DISPLAY APPARATUS - A driving circuit for a light-emitting device outputs a drive current from an output terminal to the light-emitting device in accordance with a signal current input from an input terminal. The driving circuit includes a drive transistor, a capacitor connected between a gate and a source of the driving transistor, a resistance device and a first switch arranged in series between a drain of the drive transistor and the input terminal, a second switch configured to connect the gate of the drive transistor and a first terminal of the resistance device when the first switch is closed, the first terminal being more remote from the drive transistor, and a third switch disposed in a path through which a drain current of the drive transistor flows from the output terminal to the light-emitting device. The resistance device increases its resistance in accordance with a cumulative amount of a passing current. | 04-02-2009 |
20090102853 | COLOR DISPLAY APPARATUS AND ACTIVE MATRIX APPARATUS - A color display apparatus which has a color display unit in which color pixels are arranged in a matrix, a plurality of data lines, and a plurality of column drive circuits which output data signals to a plurality of data lines for every row, has a first dispersion circuit for selecting column drive circuits used as output destinations of analog video signals for every color which are obtained by DA converting digital video signals for every color, a second dispersion circuit for selecting data lines used as output destinations of the data signals from the column drive circuits, and control circuits which control the first and second dispersion circuits so as to sequentially change the drive circuits used as the output destinations of the analog video signals for each color, and the data lines used as the output destinations of the data signals, for every scanning period. | 04-23-2009 |
20090109144 | CIRCUIT DEVICE AND ACTIVE-MATRIX DISPLAY APPARATUS - A circuit device includes a first circuit including a thin-film transistor and a second circuit including another thin-film transistor. The second circuit is controlled by control signals including a first control signal and a second control signal delayed from the first control signal. The second control signal is generated on the basis of the first control signal which has been propagated through the second circuit. | 04-30-2009 |
20090121980 | DISPLAY APPARATUS AND INFORMATION PROCESSING APPARATUS USING THE SAME - A display apparatus has a plurality of column-current generating circuits for supplying signal currents respectively to the corresponding columns of a plurality of EL devices that are arranged two-dimensionally. Each of the column-current generating circuits includes two or more transistor devices the gates, sources and drains of which are respectively connected in parallel so as to function as a single transistor. The transistor devices are arranged at a pitch equal to or n-times of the alignment period in the row direction of the EL devices and at a constant pitch equal to the alignment period in the column direction of the EL devices. | 05-14-2009 |
20090231239 | DISPLAY DEVICE - In a current driving display device, a first operation in which pixel circuits in the odd rows are sequentially scanned to set a current supplied to display elements and a second operation in which pixel circuits in the even rows are sequentially scanned to set a current supplied to display elements are alternately repeated. The current set in the pixel circuits is supplied to the display elements in parallel with the first and the second operations, the number of times in the period is twice or more than the number of times in which the pixel circuit sets a current supplied to the display element. Flickers are suppressed. | 09-17-2009 |
20090322256 | DRIVE CIRCUIT - Provided is a drive circuit for a light emitting device, which compensates for a decrease in luminance of the light emitting device and reduces a burn-in phenomenon. The drive circuit includes: a first capacitor connected to a gate of a drive transistor; and a second capacitor formed between the first capacitor on a side to which the gate of the drive transistor is not connected, and one end of a light emitting device. The drive circuit corrects an amount of charge of the first capacitor according to a change in potential of the node when the light emitting device starts illumination, and then, causes the light emitting device to illuminate according to the corrected amount of charge. | 12-31-2009 |
20100026677 | DISPLAY APPARATUS AND ELECTRONIC DEVICE USING THE SAME - A display apparatus includes two-dimensionally arranged light emitting devices driven by drive circuits, scanning lines and lighting lines connecting the drive circuits in a row direction, and data lines connecting the drive circuits in a column direction, wherein, in a programming scanning period for supplying signals to the data lines, sequentially selecting the scanning lines and setting the signals to the drive circuits connected to the selected scanning lines throughout all scanning lines, the light emitting scanning for sequentially selecting the lighting lines and supplying current corresponding to the signal set to the drive circuits from the drive circuit connected to the selected lighting lines to the light emitting device is performed at least twice, and the length of a period for supplying the currents from the drive circuits connected to the lighting lines to the light emitting devices varies every period of the light emitting scanning. | 02-04-2010 |
20110316431 | DISPLAY DEVICE - A display device includes a display unit in which display elements provided with pixel circuits are arranged so as to have a sequence of three different colors in a row direction and the colors are shifted in a column direction by 1.5 columns. A scanning line is provided in every row of the display unit, a signal line is provided in every column of the display unit, and a column control circuit outputs a display signal for every column. The positions of the pixel circuits are displaced in the row direction with respect to the arrangement of the display elements, and are thus aligned in the column direction and also connected to the signal line only on one side of the signal line. No inversion of the pixel circuit pattern occurs and variations of the circuit characteristics in every row are suppressed. | 12-29-2011 |
20130154908 | DISPLAY APPARATUS AND DRIVING METHOD THEREOF - A display apparatus comprises: plural light emitting devices emitting light by plural kinds of colors; a driving circuit for each light emitting device; a scanning line selecting the driving circuit; a light emission control line causing the light emitting devices to emit light; and a data line supplying to the selected driving circuit a current signal according to brightness, wherein the driving circuit comprises a driving transistor supplying a current, a first-switch between a gate of the driving transistor and the data line, a second-switch between a drain of the driving transistor and the light emitting device, a first-capacitor having one end connected to the gate of the driving transistor and the other end potential-fixed, and a second-capacitor connected to the gate of the driving transistor and the light emission control line, and a capacitance ratio of the second-capacitor to first-capacitor varies according to the color of the emitted light. | 06-20-2013 |
20140124770 | ACTIVE MATRIX TYPE DISPLAY APPARATUS AND A DRIVING DEVICE OF A LOAD - An active matrix type display device having a plurality of pixel circuits ( | 05-08-2014 |
20150042256 | SERVO APPARATUS, AND CONTROLLING METHOD OF SERVO APPARATUS - In a servo apparatus which comprises a motor, a shaft angle detecting unit and a controlling unit, and performs standard control of an angle position by a torque controlling method, it enables to perform driving control corresponding to a fraction multiple of a predetermined angular unit. | 02-12-2015 |