Patent application number | Description | Published |
20080224964 | Display apparatus, display-apparatus driving method and electronic equipment - In the present invention, there is provided a display apparatus including: a pixel array section including pixel circuits each having an electro-optical device, a write transistor configured to carry out a voltage storing process, a holding capacitor configured to hold the sampled video signal, and a driving transistor configured to drive the electro-optical device; first scan means for carrying out a selective scan operation in row units and driving each of the write transistors; second scan means for selectively supplying either a first or second electric potential synchronously with the selective scan operation for feeding a current to each of the driving transistors; and control means for sustaining a power-supply feed line in a floating state during a period ending at a time not earlier than the start of the voltage storing process after a voltage corresponding to the threshold voltage of the driving transistor has been held in the holding capacitor. | 09-18-2008 |
20080231625 | Display apparatus and drive method thereof and electronic device - Disclosed herein is a display apparatus including a pixel array section and a drive section. The pixel array section has power supply lines, scan lines arranged in row, signal lines arranged in column, and pixels arranged in matrix at intersections of each of the scan lines and each of the signal lines. The drive transistor is connected at one of a pair of current terminals to the light emitting device and at the other of the pair of current terminals to the power supply line. The drive section supplies a control signal to each scan line and a video signal to each signal line to drive each pixel, executing a threshold voltage correcting operation, a write operation, and a light emitting operation. | 09-25-2008 |
20080252626 | Self-luminous display panel driving method, self-luminous display panel and electronic apparatus - A self-luminous display panel driving method for driving a self-luminous display panel of the active matrix driving type, includes the step of executing threshold value correction operation for a driving transistor divisionally in a plurality of periods within at least one of which, after a point of time of an end of a preceding correction period till a point of time of a start of a succeeding correction period, a potential to be applied to the drain electrode of the driving transistor is controlled to an intermediate potential between a first potential for lighting driving of the driving transistor and a second potential for initialization applied within a preparation period of the first one of the correction periods. | 10-16-2008 |
20090046040 | DISPLAY DEVICE AND ELECTRONIC EQUIPMENT - Disclosed herein is a display device including a pixel array section; power supply lines; and auxiliary electrodes, wherein the pixels each have an auxiliary capacitance, and one of electrodes of the auxiliary capacitance is connected to the source electrode of the drive transistor, and an other electrode connected to the auxiliary electrode for each pixel. | 02-19-2009 |
20090109146 | Display apparatus, driving method for display apparatus and electronic apparatus - Disclosed herein is a display apparatus, including: a pixel array section having a plurality of pixels each including an electro-optical element, a writing transistor, a driving transistor, and a holding capacitor; a power supply scanning circuit; and a signal outputting circuit; wherein the power supply scanning circuit is operable to supply a second power supply potential to initialize the potential of a second electrode of the driving transistor and then change over the potential of a power supply line to a first power supply potential; and the signal outputting circuit is operable to output, when the writing transistor is in a conducting state, a first reference potential, supply, midway while a threshold value correction process is carried out, a second reference potential, output a third reference potential within a period within which the writing transistor remains in the conducting state, and output a image signal after the threshold correction process ends. | 04-30-2009 |
20090122046 | Display apparatus, display-apparatus driving method and electronic instrument - Disclosed herein is a display apparatus including: a pixel array section including pixel circuits laid out to form a matrix as pixel circuits each having an electro optical device, a signal writing transistor, a device driving transistor, and a storage capacitor; a power-supply scan circuit; a signal outputting circuit; and a write scan circuit. | 05-14-2009 |
20090262102 | Display device, driving method of display device, and electronic device - Disclosed herein is a display device including a pixel array unit, a first scanning circuit, a second scanning circuit and a selecting circuit. | 10-22-2009 |
20090289963 | Display device, method of laying out light emitting elements, and electronic device - Disclosed herein is a display device in which light emitting elements of a plurality of colors including a light emitting element emitting blue light are formed in each pixel on a substrate on which a transistor is formed for each sub-pixel, and a plurality of pixels formed with sub-pixels of the plurality of colors as a unit are arranged in a form of a matrix, wherein relative positional relation between transistors of sub-pixels of respective light emission colors including blue light and a light emitting section of a light emitting element emitting the blue light is laid out such that distances between the transistors of the sub-pixels of the respective light emission colors including the blue light and the light emitting section of the light emitting element emitting the blue light are equal to each other for the respective colors. | 11-26-2009 |
20090315813 | Display apparatus, driving method for display apparatus and electronic apparatus - Disclosed herein is a display apparatus, including: a pixel array section configured to have a plurality of pixels arranged in a matrix thereon, each of the pixels including an electro-optical element, a writing transistor, a driving transistor, and a storage capacitor connected between the gate electrode and the source electrode of the driving transistor for storing an image signal written by the writing transistor, each of the pixels carrying out a mobility correction process for applying negative feedback to a potential difference between the gate and the source of the driving transistor with a correction amount determined from current flowing to the driving transistor; a detection section configured to detect variation of a characteristic of any transistor in the pixels; and a control section configured to control the period of the mobility correction process based on a result of the detection by the detection section. | 12-24-2009 |
20090315918 | Display apparatus, driving method for display apparatus and electronic apparatus - Disclosed herein is a display apparatus, including: a display panel having a plurality of pixels arranged in a matrix thereon, each of the pixels including an electro-optical element, a writing transistor, a driving transistor, and a storage capacitor connected between the gate electrode and the source electrode of the driving transistor for storing an image signal written by the writing transistor, each of the pixels carrying out a mobility correction process for applying negative feedback to a potential difference between the gate and the source of the driving transistor with a correction amount determined from current flowing to the driving transistor; a temperature detection section configured to detect the temperature of the display panel; and a control section configured to control the period of the mobility correction process based on a result of the detection by the temperature detection section. | 12-24-2009 |
20100214276 | DISPLAY APPARATUS, DRIVING METHOD OF DISPLAY APPARATUS AND ELECTRONIC EQUIPMENT - Prior to increasing the voltage level of an input signal to be sampled in a step-by-step manner and writing a signal voltage Vsig at a desired voltage level, a precharge is performed which writes a precharge voltage Vpre, lower than the signal voltage Vsig, so as to apply the same voltage Vpre to the gate of a drive transistor in advance. This not only provides a reduced gate-to-source voltage of the drive transistor at the time of writing of the signal voltage Vsig but also extends a mobility correction time required for a mobility correction operation. The extension of the mobility correction time required for the mobility correction operation ensures a relatively smaller variation in the correction time, thus suppressing the variation in brightness. The extension also permits a write pulse to be set to the optimal pulse width. | 08-26-2010 |
20100245318 | Panel, control method thereof, display device and electronic apparatus - A panel, display device and control method in which pixels each have a light emitting element. The potential of the video signal line is switched to a low potential before writing, a high potential during writing, and an intermediate potential after writing has been performed. Switching of the power supply lines from the high potential to the low potential is performed in a period after the potential of the video signal line has been switched from the high potential to the immediate potential, before the potential of the video signal line is switched from the intermediate potential to the low potential. | 09-30-2010 |
20100245324 | DISPLAY APPARATUS AND ELECTRONIC INSTRUMENT - A display apparatus includes: a plurality of pixel circuits; and a signal supply circuit which supplies any one of a potential of a video signal, an extinction potential for extinguishing light-emitting devices, and a high-level potential higher than the extinction potential, wherein each of the plurality of pixel circuits includes a storage capacitor which retains a voltage corresponding to the video signal, a drive transistor which supplies a current based on the voltage retained in the storage capacitor to the corresponding light-emitting device, a light-emitting device which emits light in accordance with the current supplied from the drive transistor, and a write transistor which writes the voltage corresponding to the video signal to the storage capacitor after the potentials supplied by the signal supply circuit in order of the high-level potential and the extinction potential are given to the gate terminal of the drive transistor. | 09-30-2010 |
20100245334 | DISPLAY APPARATUS AND ELECTRONIC INSTRUMENT - A display apparatus includes: a plurality of pixel circuits; drive scan lines which supply the same power supply potential to each group of the plurality of pixel circuits, the group having a plurality of pixel circuits for a plurality of successive rows; and a power supply circuit which, during an extinction period for extinguishing light-emitting devices in pixel circuits belonging to each group, supplies a high-level power supply potential to the respective pixel circuits belonging to the group related to the extinction period so as to switch the power supply potential to the high-level power supply potential higher than the power supply potential, wherein each of the plurality of pixel circuits includes a storage capacitor which retains a voltage corresponding to a video signal, a drive transistor which supplies a current based on the voltage retained in the storage capacitor to the corresponding light-emitting device by receiving the power supply potential supplied to the corresponding drive scan line, a light-emitting device which emits light in accordance with the current supplied from the drive transistor, and a write transistor which, during the extinction period, gives an extinction potential for extinguishing the light-emitting device to a gate terminal of the drive transistor, and then writes the voltage corresponding to the video signal to the storage capacitor. | 09-30-2010 |
20100309186 | Drive method of display device - A drive method of a display device includes the steps of: performing threshold voltage cancel processing at least once, which changes a potential of a second node of a display device toward a potential obtained by subtracting a threshold voltage of a drive transistor from a potential of a first node by applying a given drive voltage to one source/drain region of the drive transistor from a feeding line while maintaining the potential of the first node; and then, performing writing processing which applies a video signal to the first node from a data line through a write transistor, wherein the sum of lengths of periods in which the threshold voltage cancel processing is performed is so set as to be shorter as a frame frequency becomes higher. | 12-09-2010 |
20110163943 | Image display device and electronic appliance - An image display device includes: a pixel array part formed of first to fourth scanning lines arranged in rows, signal lines arranged in columns, pixel circuits in a matrix connected to the scanning lines and signal lines, and a plurality of power source lines which supplies first to third potentials necessary for the operations of pixel circuit; a signal part which supplies a video signal to the signal lines; and a scanner part which supplies a control signal to the first to fourth scanning lines, and in turn scans the pixel circuit for every row, wherein the pixel circuits include a sampling transistor, a drive transistor, first to third switching transistors, a pixel capacitance, and a light emitting device, and a channel length of the drive transistor is made longer than a channel length of the switching transistors to suppress fluctuations in threshold voltage. | 07-07-2011 |
20110175868 | DISPLAY DEVICE, METHOD OF DRIVING THE DISPLAY DEVICE, AND ELECTRONIC UNIT - A display device includes a display section including a plurality of scan lines and a plurality of power lines, being arranged in rows, a plurality of signal lines arranged in columns, and a plurality of pixels arranged in a matrix; and a driver section driving each pixel. The power lines are individually provided for each of units with a plurality of pixel rows as a unit, and the driver section reverses a scan direction of scan lines in the unit between odd and even fields. | 07-21-2011 |
20110181629 | DISPLAY DEVICE, METHOD OF DRIVING THE DISPLAY DEVICE, AND ELECTRONIC DEVICE - A display device includes: a display section including scan lines, power lines, signal lines, and pixels, each having a light emitting element and a pixel circuit which has a first transistor controlling a current in the light emitting element, and a second transistor writing a voltage on the signal line to the first transistor; and a driver section driving the pixels. Each power line is provided for each unit of pixel rows. The driver section sequentially applies a first pulse signal for inactivating the light emitting element to each of the scan lines in a pixel row unit, and applies one or more second pulse signals for activating the second transistor to at least a scan line corresponding to a pixel row to be inactivated first in the pixel row unit while a non-gray-scale signal is applied to each signal line. | 07-28-2011 |
20120013590 | Organic electroluminescent display device, method of manufacturing organic electroluminescent display device, and electronic apparatus - Disclosed is an organic electroluminescent (EL) display device including a pixel array section in which pixels having organic EL elements are arranged; and a drive circuit section provided in a circumferential portion of the pixel array section on the same substrate as that of the pixel array section, the drive circuit section having a circuit configuration including a capacitive element, wherein the capacitive element uses, as a dielectric member, an organic layer formed in the circumferential portion of the pixel array section through the same process as that of the organic layer of the organic EL element. | 01-19-2012 |
20120062450 | Pixel circuit and display device - A pixel circuit includes: a switching transistor whose conduction is controlled by a drive signal supplied to the control terminal; a drive wiring adapted to propagate the drive signal; and a data wiring adapted to propagate a data signal. The drive wiring is formed on a first wiring layer and connected to the control terminal of the switching transistor. The data wiring is formed on a second wiring layer and connected to a first terminal of the switching transistor. A multi-layered wiring structure is used so that the second wiring layer is formed on a layer different from that on which the first wiring layer is formed. | 03-15-2012 |
20120092391 | SELF-LUMINOUS DISPLAY PANEL DRIVING METHOD, SELF-LUMINOUS DISPLAY PANEL AND ELECTRONIC APPARATUS - A self-luminous display panel driving method for driving a self-luminous display panel of the active matrix driving type, includes the step of executing threshold value correction operation for a driving transistor divisionally in a plurality of periods within at least one of which, after a point of time of an end of a preceding correction period till a point of time of a start of a succeeding correction period, a potential to be applied to the drain electrode of the driving transistor is controlled to an intermediate potential between a first potential for lighting driving of the driving transistor and a second potential for initialization applied within a preparation period of the first one of the correction periods. | 04-19-2012 |
20120146036 | Device using oxide semiconductor, display device, and electronic apparatus - Disclosed herein is a device using an oxide semiconductor, the device including a circuit part configured to include a thin film transistor using the oxide semiconductor as a channel material, wherein the circuit part has a lower interconnect, an upper interconnect, and an interlayer insulating film, the interlayer insulating film includes an oxide semiconductor layer and a channel protective layer, and the channel protective layer is interposed between an outer circumferential surface of a rising part of the oxide semiconductor layer corresponding to thickness of the lower interconnect and the upper interconnect. | 06-14-2012 |
20120146886 | DISPLAY APPARATUS AND ELECTRONIC APPARATUS - Disclosed herein is a display apparatus, including: a foldable substrate; a pixel array section including a plurality of pixels disposed on the substrate and each including an electro-optical device; the foldable substrate being folded at a substrate end portion at least on one side thereof around the pixel array section; a peripheral circuit section disposed on the substrate end portion and adapted to drive the pixels of the pixel array section; and a pad section provided on the substrate end portion on which the peripheral circuit section is provided and adapted to electrically connect the peripheral circuit section to the outside of the substrate. | 06-14-2012 |
20120313923 | PIXEL CIRCUIT, DISPLAY DEVICE, ELECTRONIC DEVICE, AND PIXEL CIRCUIT DRIVING METHOD - Disclosed herein is a pixel circuit including: a light emitting element; a storage capacitor; a writing transistor for writing a driving voltage corresponding to a video signal to the storage capacitor; and a driving transistor for driving the light emitting element on a basis of the driving voltage written to the storage capacitor, wherein a characteristic of the writing transistor is controllable in such a manner as to be operatively associated with a process of writing the driving voltage corresponding to the video signal to the storage capacitor. | 12-13-2012 |
20120327058 | PIXEL CIRCUIT, DISPLAY DEVICE, ELECTRONIC APPARATUS, AND METHOD OF DRIVING PIXEL CIRCUIT - Disclosed herein is a pixel circuit, including: a display portion; a drive transistor driving the display portion; and a characteristics controlling portion configured to control characteristics of the drive transistor. | 12-27-2012 |
20130027369 | PIXEL CIRCUIT AND DISPLAY DEVICE - A pixel circuit includes: a switching transistor whose conduction is controlled by a drive signal supplied to the control terminal; a drive wiring adapted to propagate the drive signal; and a data wiring adapted to propagate a data signal. The drive wiring is formed on a first wiring layer and connected to the control terminal of the switching transistor. The data wiring is formed on a second wiring layer and connected to a first terminal of the switching transistor. A multi-layered wiring structure is used so that the second wiring layer is formed on a layer different from that on which the first wiring layer is formed. | 01-31-2013 |
20130113692 | DISPLAY AND METHOD FOR MANUFACTURING DISPLAY - A display includes a pixel array part with pixels that each have at least one transistor whose conduction state is controlled by a drive signal input to a control terminal, and a scanner including a plurality of buffers that are formed of transistors. The buffers correspond to a pixel arrangement and output a drive signal to the control terminals of the transistors of the pixels. The transistors of the pixels and the transistors of the buffers are formed through irradiation with laser light that is moved for scanning in a predetermined direction and has a predetermined wavelength. The transistors in the buffers are formed in such a way that the channel length direction of the transistors is set parallel to the scan direction of the laser light. | 05-09-2013 |
20130153876 | DISPLAY DEVICE, METHOD OF LAYING OUT LIGHT EMITTING ELEMENTS, AND ELECTRONIC DEVICE - Disclosed herein is a display device in which light emitting elements of a plurality of colors including a light emitting element emitting blue light are formed in each pixel on a substrate on which a transistor is formed for each sub-pixel, and a plurality of pixels formed with sub-pixels of the plurality of colors as a unit are arranged in a form of a matrix, wherein relative positional relation between transistors of sub-pixels of respective light emission colors including blue light and a light emitting section of a light emitting element emitting the blue light is laid out such that distances between the transistors of the sub-pixels of the respective light emission colors including the blue light and the light emitting section of the light emitting element emitting the blue light are equal to each other for the respective colors. | 06-20-2013 |
20130278648 | DISPLAY AND METHOD FOR MANUFACTURING DISPLAY - A display includes a pixel array part with pixels that each have at least one transistor whose conduction state is controlled by a drive signal input to a control terminal, and a scanner including a plurality of buffers that are formed of transistors. The buffers correspond to a pixel arrangement and output a drive signal to the control terminals of the transistors of the pixels. The transistors of the pixels and the transistors of the buffers are formed through irradiation with laser light that is moved for scanning in a predetermined direction and has a predetermined wavelength. The transistors in the buffers are formed in such a way that the channel length direction of the transistors is set parallel to the scan direction of the laser light. | 10-24-2013 |
20130293527 | DISPLAY DEVICE, METHOD OF DRIVING DISPLAY DEVICE, AND ELECTRONIC APPARATUS - A display device includes pixel circuits and a scanning line driving circuit that supplies control signals to the pixel circuits through scanning lines. The scanning line driving circuit generates a control signal that transitions between a reference potential and a control potential, with the control potential being altered dependent upon a temperature condition. | 11-07-2013 |
20140049456 | DISPLAY DEVICE AND ELECTRONIC EQUIPMENT - A display device including: a pixel array section; power supply lines; and auxiliary electrodes, wherein each pixel has an auxiliary capacitance, and one of electrodes of the auxiliary capacitance is connected to the source electrode of the drive transistor, and another electrode is connected to the auxiliary electrode for the pixel. | 02-20-2014 |
20140210871 | PIXEL CIRCUIT AND DISPLAY DEVICE - A pixel circuit includes: a switching transistor whose conduction is controlled by a drive signal supplied to the control terminal; a drive wiring adapted to propagate the drive signal; and a data wiring adapted to propagate a data signal. The drive wiring is formed on a first wiring layer and connected to the control terminal of the switching transistor. The data wiring is formed on a second wiring layer and connected to a first terminal of the switching transistor. A multi-layered wiring structure is used so that the second wiring layer is formed on a layer different from that on which the first wiring layer is formed. | 07-31-2014 |
20140320548 | SELF-LUMINOUS DISPLAY PANEL DRIVING METHOD, SELF-LUMINOUS DISPLAY PANEL AND ELECTRONIC APPARATUS - A self-luminous display panel driving method for driving a self-luminous display panel of the active matrix driving type, includes the step of executing threshold value correction operation for a driving transistor divisionally in a plurality of periods within at least one of which, after a point of time of an end of a preceding correction period till a point of time of a start of a succeeding correction period, a potential to be applied to the drain electrode of the driving transistor is controlled to an intermediate potential between a first potential for lighting driving of the driving transistor and a second potential for initialization applied within a preparation period of the first one of the correction periods. | 10-30-2014 |
20140327009 | DISPLAY AND METHOD FOR MANUFACTURING DISPLAY - A display includes a pixel array part with pixels that each have at least one transistor whose conduction state is controlled by a drive signal input to a control terminal, and a scanner including a plurality of buffers that are formed of transistors. The buffers correspond to a pixel arrangement and output a drive signal to the control terminals of the transistors of the pixels. The transistors of the pixels and the transistors of the buffers are formed through irradiation with laser light that is moved for scanning in a predetermined direction and has a predetermined wavelength. The transistors in the buffers are formed in such a way that the channel length direction of the transistors is set parallel to the scan direction of the laser light. | 11-06-2014 |
20150054819 | DRIVE METHOD OF DISPLAY DEVICE - A drive method of a display device includes the steps of: performing threshold voltage cancel processing at least once, which changes a potential of a second node of a display device toward a potential obtained by subtracting a threshold voltage of a drive transistor from a potential of a first node by applying a given drive voltage to one source/drain region of the drive transistor from a feeding line while maintaining the potential of the first node; and then, performing writing processing which applies a video signal to the first node from a data line through a write transistor, wherein the sum of lengths of periods in which the threshold voltage cancel processing is performed is so set as to be shorter as a frame frequency becomes higher. | 02-26-2015 |
20150084030 | PIXEL CIRCUIT AND DISPLAY DEVICE - A pixel circuit includes: a switching transistor whose conduction is controlled by a drive signal supplied to the control terminal; a drive wiring adapted to propagate the drive signal; and a data wiring adapted to propagate a data signal. The drive wiring is formed on a first wiring layer and connected to the control terminal of the switching transistor. The data wiring is formed on a second wiring layer and connected to a first terminal of the switching transistor. A multi-layered wiring structure is used so that the second wiring layer is formed on a layer different from that on which the first wiring layer is formed. | 03-26-2015 |