Patent application number | Description | Published |
20080198103 | Display device and driving method thereof - Disclosed herein is a display device including: a pixel array unit having pixel circuits arranged in a form of a matrix; and a control unit having a writing scanning unit for outputting, to the sampling transistor, a writing scanning pulse. The control unit effects control to supply a control input terminal of the drive transistor with a fixed potential for a threshold value correcting operation for retaining a voltage corresponding to a threshold voltage of the drive transistor in the storage capacitor. When setting a voltage across the storage capacitor to the threshold voltage of the drive transistor by repeating the threshold value correcting operation a plurality of times on a time division basis, the control unit effects control to perform each the threshold value correcting operation and the sampling transistor to a conducting state. | 08-21-2008 |
20080225027 | Pixel circuit, display device, and driving method thereof - Disclosed herein is a display device including a pixel array unit and a control unit. | 09-18-2008 |
20080231199 | Driving method for organic electroluminescence light emitting section - A driving method for an organic electroluminescence light emitting section of an organic EL display apparatus which includes a scanning circuit, an image signal outputting circuit, totaling N×M organic electroluminescence elements, M scanning lines, N data lines, and a current supplying section. The driving method, includes the steps of: carrying out a preprocess; carrying out a threshold voltage cancellation process; carrying out a wiring process; and supplying current to the organic electroluminescence light emitting section to drive the organic electroluminescence light emitting section. | 09-25-2008 |
20090002354 | Display device and method for driving the same - A display device includes a display unit, a horizontal drive circuit, and a vertical drive circuit, the display unit including pixels in a matrix formation, as well as respective signal lines and scan lines via which the drive circuits drive the pixels. Each pixel includes a light-emitting element, a hold capacitor, a write transistor, and a drive transistor. Mobility fluctuations in the drive transistor are compensated for by successively setting the voltage of the signal line to an intermediate voltage and to a tone voltage. In addition, the intermediate voltage is varied in accordance with the tone voltage as well as with the distance from the input terminal of a write signal to a respective pixel. The device thereby compensates for mobility fluctuations in the drive transistor and prevents shading due to irregularities in the waveform of the write signal. | 01-01-2009 |
20090058771 | Method of driving organic electroluminescence emission portion - Disclosed herein is a method of driving an organic electroluminescence emission portion, the method including the steps of: applying a first node initialization voltage to corresponding one of the data lines, and supplying the video signal instead of the first node initialization voltage for a predetermined scanning time period, applying the first node initialization voltage from the corresponding one of the data lines to the first node through the write transistor held in an ON state for initializing the potential at the first node, and holding a state of applying the first node initialization voltage from the corresponding one of the data lines to the first node through the write transistor held in an ON state for holding the potential at the first node. | 03-05-2009 |
20090073095 | Display device and driving method of display device - The present invention sets a display device for displaying a desired image on a display section, the display section being formed by arranging pixels in a form of a matrix, by outputting a driving signal for a signal line and a writing signal to the signal line and a scanning line of the display section by a horizontal driving circuit and a vertical driving circuit, wherein the pixel includes a light emitting element, a signal level storage capacitor, a transistor for writing. | 03-19-2009 |
20090115765 | Method of driving organic electroluminescence emission portion - Disclosed herein is a method of driving an organic electroluminescence emission portion, the driving method including the steps of: executing steps from preprocessing step to writing step for at least continuous three scanning time periods; applying a first node initialization voltage to corresponding one of the data lines, and supplying the video signal instead of the first node initialization voltage for each of the scanning time periods; applying the first node initialization voltage from the corresponding one of the data lines to the first node through the write transistor held in the ON state, thereby initializing the potential at the first node; and applying the first node initialization voltage from the corresponding one of the data lines to the first node through the write transistor held in an ON state, thereby holding the potential at the first node. | 05-07-2009 |
20090135174 | Display apparatus, driving method for display apparatus and electronic apparatus - The present invention provides a display apparatus, includes: a pixel array section; and a driving section; the pixel array section including a plurality of scanning lines extending along the direction of a row, a plurality of signal lines extending along the direction of a column, and a plurality of pixels disposed in rows and columns at places at which the scanning lines and the signal lines intersect with each other. The driving section including a write scanner and a signal selector. | 05-28-2009 |
20090242884 | Method of producing display device, display device, method of producing thin-film transistor substrate, and thin-film transistor substrate - A method of producing a display device includes the steps of forming gate electrodes on a substrate so that an arrangement of a source and a drain, in a pixel row direction, of a thin-film transistor formed in each of pixels on the substrate is reversed every pixel row; forming a gate insulating film and an amorphous semiconductor thin film on the substrate in that order so as to cover the gate electrodes; crystallizing the semiconductor thin film by irradiating the semiconductor thin film with an energy beam so that a scanning direction of the energy beam is the same with respect to the arrangement of the source and the drain in the pixel row direction; and forming a light-emitting element connected to the thin-film transistor. | 10-01-2009 |
20090295785 | DISPLAY APPARATUS, DRIVING METHODS AND ELECTRONIC INSTRUMENTS - A display apparatus employs a pixel array section including pixel circuits forming a matrix, signal lines as columns, scan lines as rows and power-supply lines, and driving sections. The driving sections are a signal selector, a write scanner and a drive scanner. The signal selector provides an electric potential representing a gradation or a predetermined reference electric potential. The write scanner provides a control signal. The drive scanner provides a power-supply voltage changing the electric potential from high to low. The drive scanner drives adjacent power-supply lines as a group. The number of lines as a group is determined in advance. The drive scanner switches a power-supply voltage from high to low and vice versa, and applies the voltage to groups by shifting the phase from group to group. The voltage is supplied to a group at the same phase and switched the electric potential. | 12-03-2009 |
20090322722 | Display device, a method of driving the same, and electronic apparatus including the same - Disclosed herein is a display device, including a display portion including a plurality of first wirings and a plurality of second wirings each disposed in rows, respectively, a plurality of third wirings disposed in columns, respectively, and a plurality of light emitting elements and a plurality of pixel circuits each disposed in a matrix, a first drive portion for successively applying a selection pulse containing a first voltage, a second voltage and a third voltage to the plurality of first wirings, a second drive portion for successively applying a current control pulse in accordance with which a transient current is caused to flow through the pixel circuit to the plurality of second wirings, and a third drive portion for applying a signal pulse containing a signal potential corresponding to a video signal to each of the plurality of third wirings. | 12-31-2009 |
20100013821 | DISPLAY DEVICE, METHOD FOR DRIVING THE SAME, AND ELECTRONIC DEVICE - A display device includes: a display unit including first and second lines, light emitting elements and pixel circuits; a first drive unit sequentially applying a selection pulse to the first lines; and a second drive unit applying a signal pulse including first to third voltages to each of the second lines. Each of the pixel circuits includes a first transistor sampling the signal pulse, and a second transistor driving one of the light emitting elements. The first drive unit applies the selection pulse when the first voltage is being applied by the second drive unit, before a correction of a threshold voltage of the second transistor is initiated and within a period that the one of the light emitting elements is being turned out, and the first drive unit applies the selection pulse when the second voltage is being applied by the second drive unit. | 01-21-2010 |
20100026729 | Active-matrix display apparatus driving method of the same and electronic instruments - Disclosed herein is an active-matrix display apparatus, wherein if any particular one of N light emitting sub-devices pertaining to any specific one of pixel circuits is defective, the particular light emitting sub-device is electrically disconnected from the specific pixel circuit and the magnitude of a driving current supplied to the (N−1) remaining light emitting sub-devices pertaining to the specific pixel circuit is adjusted so that the (N−1) remaining light emitting sub-devices receive a driving current from a device driving transistor with a magnitude suppressed to a value equal to ((N−1)/N) times the magnitude of a driving current which is supplied to a normal pixel circuit not including a defective light emitting sub-device. | 02-04-2010 |
20100039421 | DRIVING METHOD FOR ORGANIC ELECTROLUMINESCENCE LIGHT EMITTING SECTION - A driving method for an organic EL light emitting section is provided which achieves optimization of a mobility correction process for a transistor of a driving circuit in response to luminance. In a driving method for an organic EL light emitting section wherein a driving circuit | 02-18-2010 |
20100118014 | Display device, electronic device, and method of driving display device - A display device is provided having improved reliability compared with the related art. The display device includes, for each pixel: a photo-emission element and a first MOS transistor connected in series between a first power source line and a second power source line; a capacitor connected to be inserted between a gate and a source of the first MOS transistor; and a second MOS transistor connected to be inserted between a signal line to be applied with a image signal voltage and the gate of the first MOS transistor, the second MOS transistor being controlled by a scan signal to change between ON-state and OFF-state, wherein ON-period of the first transistor is established within a period in which the photo-emission element is maintained to an extinction state and the signal line is applied with a voltage having a fixed level independent from the image signal voltage. | 05-13-2010 |
20100149152 | Display device, driving method for the display device, and electronic apparatus - A display device includes: a pixel array unit in which pixels are arranged in a matrix shape, each of the pixels including an electro-optic element, a writing transistor that writes a video signal, a driving transistor that drives the electro-optic element according to the video signal written by the writing transistor, and a storage capacitor that is connected between a gate electrode and a source electrode of the driving transistor and stores the video signal written by the writing transistor; and a power supply line that supplies power supply potential to the pixels, the power supply potential selectively taking first potential for supplying an electric current to the driving transistor and second potential for applying reverse bias to the electro-optic element. | 06-17-2010 |
20100259532 | Display device and display driving method - Disclosed herein is a display device including: a pixel array configured to include pixel circuits that are arranged in a matrix and each have at least a light emitting element, a switching transistor for inputting a signal value supplied to a signal line, and a drive transistor for current application to the light emitting element dependent on the input signal value; a signal value output unit configured to output signal values given to the pixel circuits in the pixel array to the signal lines disposed on the pixel array; and a write controller configured to give, to the pixel circuits on a line-by-line basis, scan pulses for carrying out conduction control of the switching transistor and inputting the signal value on the signal line to the pixel circuit, and allow the scan pulses given to lines to each have a pulse waveform set depending on mobility of the drive transistors in a corresponding one of the lines of the pixel array. | 10-14-2010 |
20110109610 | Display device and electronic apparatus - A display device includes: pixel circuits; a signal electric potential generating unit generating a first signal electric potential used for increasing the number of gray scales of luminance of light emission of the pixel circuits and a second signal electric potential equal to or higher than the first signal electric potential, based on a video signal; and a control signal generating unit generating a control signal used for supplying the first and second signal electric potentials to the pixel circuits. Each of the pixel circuits includes a holding capacitor used for maintaining a signal voltage corresponding to the second signal electric potential, a writing transistor writing the second signal electric potential to the holding capacitor based on the control signal after writing the first signal electric potential, a driving transistor outputting a signal current based on the signal voltage corresponding to mobility of the driving transistor at the first signal electric potential written by the writing transistor, and a light emitting device emitting light in accordance with the signal current. | 05-12-2011 |
20110109664 | Display device, method for driving the same, and electronic unit - A display device includes: a display section including a plurality of pixels each having a light emitting element and a pixel circuit; and a drive circuit performing display drive on the plurality of pixels through selecting each of the plurality of pixels to write a first signal voltage and a second signal voltage in this order into the selected pixel, the first and second signal voltages being provided based on a video signal. The drive circuit varies magnitude of each of the first and second signal voltages in accordance with a gray-scale value of the video signal, thereby performing gray-scale interpolation on a light emission luminance level for each of the light emitting elements. | 05-12-2011 |
20110109813 | DISPLAY DEVICE AND DRIVE METHOD THEREFOR, AND ELECTRONIC UNIT - A display device includes: pixels each including a light-emitting element; scan lines and signal lines; a scan line drive circuit applying a selection pulse to each of the scan lines in succession; and a signal line drive circuit writing video signals to respective selected pixels through switching a gray-scale interpolation voltage, a basic voltage, and a video signal voltage to apply each voltage selected by switching to each of the signal lines. The signal line drive circuit performs gray-scale interpolation on a light emission luminance level for each of the light emitting elements through setting the video signal voltage to a fundamental gray-scale voltage, and through varying the gray-scale interpolation voltage. The scan line drive circuit starts and completes an application of the selection pulse during each of a period of a gray-scale interpolation voltage, a period of a basic voltage and a period of a video signal voltage. | 05-12-2011 |
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 |
20110128276 | Display apparatus and display drive method - A display apparatus includes: a pixel array including pixel circuits arranged in a matrix form, in which each pixel circuit has a light-emitting device, a drive transistor applying a current corresponding to a gate-source voltage to the light-emitting device, a sampling transistor inputting a voltage supplied from a signal line to a gate of the drive transistor, and a storage capacitor connected between the gate and source of the drive transistor so as to store a threshold voltage of the drive transistor and an input video signal voltage; a signal selector that supplies a reference voltage and the video signal voltage to signal lines arranged in columns on the pixel array in horizontal periods corresponding to the number of horizontal lines in one unit when the horizontal lines of the respective pixel circuits of the pixel array are grouped as one unit; and a scanner that applies a pulse to control lines arranged in rows on the pixel array so as to control the sampling transistor of the pixel circuit. | 06-02-2011 |
20110134153 | Display apparatus and driving method therefor - A display apparatus includes a pixel array section and a driving section configured to drive the pixel array section. The pixel array section includes a plurality of first scanning lines and a plurality of second scanning lines extending along rows, a plurality of signal lines extending along columns, a plurality of pixels arranged in a matrix at positions at which the first and second scanning lines and the signal lines intersect with each other, and a plurality of power supply lines and a plurality of ground lines configured to perform feeding to the pixels. The driving section includes a first scanner, a second scanner, and a signal selector. Each of the pixels includes a light emitting element, a sampling transistor, a drive transistor, a switching transistor, and a pixel capacitance. | 06-09-2011 |
20110169804 | DISPLAY APPARATUS AND DISPLAY DRIVING METHOD - A display apparatus includes: a pixel array in which pixel circuits each having a light emitting device, a drive transistor, a sampling transistor, and a retention capacity; a signal selector that supplies threshold correction reference voltages and a video signal voltages as to signal lines arranged in columns on the pixel array; a drive control scanner that provides power supply pulses to power supply control lines arranged in rows on the pixel array and applies drive voltages to the drive transistors; and a write scanner that provides scan pulses to write control lines arranged in rows on the pixel array to control the sampling transistors and executes input of the threshold correction reference voltages and the video signal voltages to the pixel circuits, and brings the sampling transistors into conduction by the scan pulses at plural times when the signal line voltages are the threshold correction reference voltages in order to execute plural threshold corrections in non-emission periods of one light emission cycles of the pixels circuits. | 07-14-2011 |
20110169872 | Display apparatus and display driving method - A display apparatus includes: a pixel array in which pixel circuits each having a light emitting device, a drive transistor, and a retention capacity are arranged in a matrix; a signal selector supplying a video signal voltages to signal lines arranged in columns on the pixel array; a drive control scanner providing power supply pulses to power supply control lines arranged in rows on the pixel array and applying drive voltages to the transistors; and a write scanner providing scan pulses to writing control lines arranged in rows on the pixel array and executing input of the video signal voltages to the pixel circuits. A threshold correction of setting a gate-source voltage of the transistor to a threshold voltage of the transistor and an input of the video signal voltage from the signal line to between the gate and the source of the transistor are controlled by the scan pulse of the row of the pixel circuit and the scan pulse of the previous row of the pixel circuit. | 07-14-2011 |
20110181626 | Display device and display driving method - Disclosed herein is a display device including a pixel array configured to include pixel circuits arranged in a matrix having a light emitting element, driving transistor, sampling transistor, and hold capacitor. The display device further includes a signal selector, driving control scanner, and writing scanner. The signal selector alternately carries out supply of a video signal voltage in order from a beginning line to an end line in a unit and supply of a video signal voltage in order from an end line to a beginning line in a unit. The writing scanner outputs the pulse to the writing control lines in such a way that input of a video signal voltage in order from a beginning line to an end line in a unit and input of a video signal voltage in order from an end line to a beginning line in a unit are alternately carried out. | 07-28-2011 |
20110205252 | Display device, driving method of display device, and driving method of display element - Disclosed herein is a driving method of a display device. The display device includes display elements arranged in a form of a two-dimensional matrix and each have a driving circuit and a light emitting section. The driving circuit includes a driving transistor having a gate electrode and source/drain regions and a capacitance section, and a current flowing through the light emitting section via the source/drain regions of the driving transistor. The driving method includes the step of performing a first writing process, a second writing process, and then setting the gate electrode of the driving transistor in a floating state. A current corresponding to a value of a voltage retained in the capacitance section for retaining a voltage of the gate electrode of the driving transistor with respect to a source region of the driving transistor flows through the light emitting section, so that the light emitting section emits light. | 08-25-2011 |
20110316836 | Display device and display driving method therefor - Disclosed herein is a display device, including: a pixel array in which pixel circuits each having a light emitting element, a driving transistor for applying a current corresponding to a gate-to-source voltage to the light emitting element connected to a source side by applying a drive voltage across a drain and a source, a sampling transistor for inputting a signal line voltage to a gate of the driving transistor by being caused to conduct, and a sustaining capacitor connected between the gate and the source of the driving transistor for sustaining a video signal voltage inputted thereto are disposed in a matrix; a signal selector; a drive control scanner; and a write scanner. | 12-29-2011 |
20120001183 | Method of producing display device, display device, method of producing thin-film transistor substrate, and thin-film transistor substrate - A method of producing a display device includes the steps of forming gate electrodes on a substrate so that an arrangement of a source and a drain, in a pixel row direction, of a thin-film transistor formed in each of pixels on the substrate is reversed every pixel row; forming a gate insulating film and an amorphous semiconductor thin film on the substrate in that order so as to cover the gate electrodes; crystallizing the semiconductor thin film by irradiating the semiconductor thin film with an energy beam so that a scanning direction of the energy beam is the same with respect to the arrangement of the source and the drain in the pixel row direction; and forming a light-emitting element connected to the thin-film transistor. | 01-05-2012 |
20120001948 | Display device, pixel circuit and display drive method thereof - A display device includes: a pixel array in which pixel circuits each having a light emitting device and a drive transistor which applies current corresponding to an inputted video signal voltage to the light emitting device are arranged in a matrix state; a signal selector supplying at least the video signal voltage and a reference voltage as signal line voltages to respective signal lines arranged in columns on the pixel array; a first write scanner outputting a first scanning pulse with respect to respective first write control lines arranged in rows on the pixel array, which is used for controlling input of the signal line voltages to the pixel circuits; and a second write scanner outputting a second scanning pulse with respect to respective second write control lines arranged in columns on the pixel array, which is used for controlling input of the signal line voltages to the pixel circuits with the first scanning pulse. | 01-05-2012 |
20120068992 | DRIVING METHOD FOR ORGANIC ELECTROLUMINESCENCE LIGHT EMITTING SECTION - A driving method for an organic EL light emitting section achieves optimization of mobility correction for a transistor of a driving circuit in response to luminance. In a driving circuit formed from a driving transistor, an image signal writing transistor and a capacitor section having a pair of electrodes, a driving method carries out a pre-process, a threshold voltage cancellation process and a writing process. A variable correction voltage which relies upon the image signal voltage is applied to a first node of the capacitor and a voltage which is higher than a potential of the second node of the capacitor in the threshold voltage cancellation process is applied to the drain electrode of the driving transistor, between the threshold voltage cancellation process and the writing process, to raise the potential of the second node in response to a characteristic of the driving transistor. | 03-22-2012 |
20120133633 | DISPLAY DEVICE, ELECTRONIC DEVICE, AND METHOD OF DRIVING DISPLAY DEVICE - A display device is provided having improved reliability compared with the related art. The display device includes, for each pixel: a photo-emission element and a first MOS transistor connected in series between a first power source line and a second power source line; a capacitor connected to be inserted between a gate and a source of the first MOS transistor; and a second MOS transistor connected to be inserted between a signal line to be applied with a image signal voltage and the gate of the first MOS transistor, the second MOS transistor being controlled by a scan signal to change between ON-state and OFF-state, wherein ON-period of the first transistor is established within a period in which the photo-emission element is maintained to an extinction state and the signal line is applied with a voltage having a fixed level independent from the image signal voltage. | 05-31-2012 |
20120249517 | METHOD OF DRIVING ORGANIC ELECTROLUMINESCENCE EMISSION PORTION - A pixel circuit and driving method are disclosed, wherein the pixel circuit comprises a first transistor, a second transistor, and a capacitor. The first transistor is connected between a power source and a light emission portion, and the second transistor is connected to a data line. The capacitor is initialized according to a potential, and a video signal is applied from the data line to the capacitor through the second transistor. For driving, an initialization voltage is applied to the data line and the video signal is supplied to the data line, with the second transistor being turned ON prior to applying the initialization voltage to the data line. | 10-04-2012 |
20120287102 | PIXEL CIRCUIT, DISPLAY DEVICE, ELECTRONIC APPARATUS, AND METHOD FOR DRIVING PIXEL CIRCUIT - A pixel circuit includes a display part, hold capacitance, a write transistor that writes a drive voltage corresponding to a video signal to the hold capacitance, and a drive transistor that drives the display part based on the drive voltage written to the hold capacitance. The pixel circuit is so configured as to be capable of controlling opening and closing of a current path of the display part in association with processing of writing the drive voltage corresponding to the video signal to the hold capacitance. | 11-15-2012 |
20120313922 | DISPLAY DEVICE, PIXEL CIRCUIT, ELECTRONIC APPARATUS, AND METHOD OF DRIVING DISPLAY DEVICE - A display device includes a display portion, a hold capacitor, a write transistor writing a drive voltage corresponding to a video signal to the hold capacitor, a drive transistor driving the display portion in accordance with the drive voltage written to the hold capacitor, and a pulse width adjusting portion adjusting a width of a pulse signal causing a drive pulse used to drive at least one of the write transistor and the drive transistor so as to correspond to an environmental change. | 12-13-2012 |
20120319930 | DISPLAY APPARATUS AND FABRICATION METHOD FOR DISPLAY APPARATUS - Disclosed herein is a display apparatus, including: a plurality of pixel circuits arrayed in a matrix; a driving wiring line to which the pixel circuits are connected; and a plurality of signal lines wired so as to cross with the driving wiring line and having the pixel circuits connected; the signal lines being wired in parallel to each other. | 12-20-2012 |
20130009933 | PIXEL CIRCUIT, DISPLAY DEVICE, ELECTRONIC APPARATUS, AND METHOD OF DRIVING PIXEL CIRCUIT - A pixel circuit including: an elelectrooptic element; a hold capacitor; a write transistor writing a drive voltage corresponding to a video signal supplied to one of main electrode terminals thereof to the hold capacitor; and a drive transistor driving the electrooptic element in accordance with the drive voltage written to the hold capacitor. A pixel circuit is adapted such that it can suppress turn ON of the electrooptic element during a first processing in which a current is supplied to the hold capacitor through the drive transistor while the drive voltage corresponding to the video signal is written to the hold capacitor through the write transistor. | 01-10-2013 |
20130082906 | PIXEL CIRCUIT, PIXEL CIRCUIT DRIVING METHOD, DISPLAY APPARATUS, AND ELECTRONIC DEVICE - Disclosed herein is a pixel circuit including: a light-emitting device; a constant current drive circuit configured to include a first transistor as a constant current source for supplying a predetermined current to the light-emitting device; and a switching circuit configured to include a second transistor for opening/closing electrical connection between a gate of the first transistor and a predetermined potential and connect the gate of the first transistor to the potential via the second transistor, thereby turning off the first transistor. | 04-04-2013 |
20130083000 | PIXEL CIRCUIT, PIXEL CIRCUIT DRIVING METHOD, DISPLAY APPARATUS, AND ELECTRONIC DEVICE - Disclosed herein is a pixel circuit including: a light-emitting device; a constant current drive circuit configured to include a first transistor as a constant current source for supplying a predetermined current to the light-emitting device; a second transistor configured to open/close electrical connection between the first transistor and the light-emitting device; and a switching circuit configured to switch between an on state and an off state of the second transistor by controlling a gate voltage of the second transistor. | 04-04-2013 |
20130120348 | DRIVING METHOD FOR ORGANIC ELECTROLUMINESCENCE LIGHT EMITTING SECTION - A driving method for an organic EL light emitting section is provided which achieves optimization of a mobility correction process for a transistor of a driving circuit in response to luminance. The light emitting section may include a driving circuit with a driving transistor, an image signal writing transistor and a capacitor section having a pair of electrodes (corresponding to a first node ND | 05-16-2013 |
20140028737 | DISPLAY DEVICE, ELECTRONIC DEVICE, AND METHOD OF DRIVING DISPLAY DEVICE - A display device is provided having improved reliability compared with the related art. The display device includes, for each pixel: a photo-emission element and a first MOS transistor connected in series between a first power source line and a second power source line; a capacitor connected to be inserted between a gate and a source of the first MOS transistor; and a second MOS transistor connected to be inserted between a signal line to be applied with a image signal voltage and the gate of the first MOS transistor, the second MOS transistor being controlled by a scan signal to change between ON-state and OFF-state, wherein ON-period of the first transistor is established within a period in which the photo-emission element is maintained to an extinction state and the signal line is applied with a voltage having a fixed level independent from the image signal voltage. | 01-30-2014 |
20140035798 | DISPLAY PANEL, DISPLAY DEVICE AND ELECTRONIC APPARATUS - A display device includes pixel circuits disposed in rows and columns. A first pixel circuit is configured to emit light of a first color, and a second pixel circuit is configured to emit light of a second color, with the first color preferably being green. A given signal line provides a first image data signal and a second image data signal respectively to the first pixel circuit and the second pixel circuit within a horizontal scanning period, with the first pixel circuit receiving the first image data signal before the second pixel circuit receives the second image data signal. | 02-06-2014 |
20140035895 | DISPLAY DEVICE AND ELECTRONIC APPARATUS, AND DRIVING METHOD OF DISPLAY PANEL - A color display unit includes subpixels arranged in matrix form. Display pixels are formed from multiple subpixels, one for each of the display colors, grouped together across multiple subpixel rows. Drive units are formed including multiple rows of display pixels that are connected to a common power supply line. Common write scanning lines are provided, where the number of common write scanning lines per drive unit equals the number of rows of subpixels that are included in a display pixel. Each common write scanning line is connected to every pixel of at least one given color in its respective drive unit. The drive units are driven sequentially in a drive-unit-scanning direction. Within each individual drive unit, the write scanning lines thereof are scanned for the signal writing operation sequentially in a scanning direction opposite to the drive-unit-scanning direction. | 02-06-2014 |
20140035965 | DISPLAY PANEL, DISPLAY APPARATUS, AND ELECTRONIC SYSTEM - A color display unit includes pixels arranged in matrix form. Display pixel units are formed from multiple pixels, one of each of the display colors, grouped together across multiple rows. Drive units are formed by multiple rows of display pixel units that are connected to a common power supply line. Common write scanning lines are provided, where the number of common write scanning lines per drive unit equals the number of rows of pixels that are included in a display pixel unit. Each common write scanning line is connected to every pixel of at least one given color in its respective drive unit. Within a single drive unit, every pixel of a given color has a transistor whose layout orientation is the same as the layout orientation of a corresponding transistor in every other pixel of that given color. | 02-06-2014 |
20140218270 | DISPLAY DEVICE, DRIVING METHOD OF DISPLAY DEVICE, AND ELECTRONIC APPARATUS - The driving method of the display device having a driving transistor in at least one of the pixels, includes providing a display frame period consisting of a first period and a second period, a duration of the second period being longer than the first period and being set as the first period subtracted from the display frame period. The driving method also includes performing a threshold correction for the driving transistor during the first period and writing a signal voltage for the pixel during the second period. | 08-07-2014 |
20140320472 | DISPLAY APPARATUS AND DRIVING METHOD THEREFOR - A display apparatus includes a pixel array section and a driving section configured to drive the pixel array section. The pixel array section includes a plurality of first scanning lines and a plurality of second scanning lines extending along rows, a plurality of signal lines extending along columns, a plurality of pixels arranged in a matrix at positions at which the first and second scanning lines and the signal lines intersect with each other, and a plurality of power supply lines and a plurality of ground lines configured to perform feeding to the pixels. The driving section includes a first scanner, a second scanner, and a signal selector. Each of the pixels includes a light emitting element, a sampling transistor, a drive transistor, a switching transistor, and a pixel capacitance. | 10-30-2014 |
20140333604 | DISPLAY UNIT, DISPLAY PANEL, AND METHOD OF DRIVING THE SAME, AND ELECTRONIC APPARATUS - A display unit ( | 11-13-2014 |
20150042635 | DISPLAY DEVICE, METHOD FOR DRIVING DISPLAY DEVICE, AND ELECTRONIC APPARATUS - Provided is a display device including a pixel array unit that is made by arranging a drive transistor to drive a light emitting unit, a sampling transistor to sample a signal voltage, and a pixel circuit having a storage capacitor to store the signal voltage which is written by sampling with the sampling transistor, and a drive unit that makes a gate node and a source node of the drive transistor be in a floating state up to performing writing of the signal voltage with the sampling transistor, after writing an initialization voltage in the gate node when the source node of the drive transistor is in a non-floating state. | 02-12-2015 |
20150076502 | METHOD OF PRODUCING DISPLAY DEVICE, DISPLAY DEVICE, METHOD OF PRODUCING THIN-FILM TRANSISTOR SUBSTRATE, AND THIN FILM TRANSISTOR SUBSTRATE - A method of producing a display device includes the steps of forming gate electrodes on a substrate so that an arrangement of a source and a drain, in a pixel row direction, of a thin-film transistor formed in each of pixels on the substrate is reversed every pixel row; forming a gate insulating film and an amorphous semiconductor thin film on the substrate in that order so as to cover the gate electrodes; crystallizing the semiconductor thin film by irradiating the semiconductor thin film with an energy beam so that a scanning direction of the energy beam is the same with respect to the arrangement of the source and the drain in the pixel row direction; and forming a light-emitting element connected to the thin-film transistor. | 03-19-2015 |
20150077441 | DISPLAY DEVICE AND ELECTRONIC APPARATUS - A display device includes: a sampling transistor sampling a signal voltage of a video signal; a holding capacitor holding the signal voltage sampled by the sampling transistor; and a pixel circuit including a driving transistor that drives a light-emitting portion according to the signal voltage held in the holding capacitor. The light-emitting portion is formed by stacking at least two electro-optic elements, an uppermost electrode is connected to one source or drain electrode of the driving transistor, and a lowermost electrode is connected to a node of a reference potential. A potential of an intermediate node between the uppermost electrode and the lowermost electrode at a time of extinction is set with a potential relation in which the potential of the intermediate node is lower than a threshold voltage of the electro-optic element on a side of the reference potential and is higher than the reference potential. | 03-19-2015 |
20150084940 | DISPLAY APPARATUS AND FABRICATION METHOD FOR DISPLAY APPARATUS - Disclosed herein is a display apparatus, including: a plurality of pixel circuits arrayed in a matrix; a driving wiring line to which the pixel circuits are connected; and a plurality of signal lines wired so as to cross with the driving wiring line and having the pixel circuits connected; the signal lines being wired in parallel to each other. | 03-26-2015 |