Patent application number | Description | Published |
20090321725 | ORGANIC EL DEVICE AND MANUFACTURING METHOD THEREOF - An organic EL device comprising a semiconductor element A having a source electrode, a drain electrode, and a gate electrode, a semiconductor element B having a source electrode, a drain electrode, and a gate electrode connected to the source electrode or the drain electrode of the semiconductor element A, and an organic EL element having a pixel electrode connected to the drain electrode of the semiconductor element B, in which the source electrode and the drain electrode of the semiconductor element A and the gate electrode of the semiconductor element B are set on the same plane. | 12-31-2009 |
20100007645 | IMAGE DISPLAY DEVICE - An image display device having a plurality of pixel circuits arranged in matrix, each comprising current-driven type light-emitting element, driver transistor for supplying a current to current-driven type light-emitting element, holding capacitor for holding a voltage that determines an amount of the current supplied from driver transistor, and writing switch for writing a voltage corresponding to an image signal into holding capacitor. The transistor formed in each pixel circuit is N-channel transistor. Each pixel circuit further comprises detection trigger line and detection trigger capacitor for supplying a voltage to change a source voltage of driver transistor. One terminal of detection trigger capacitor is connected to a source of driver transistor and the other terminal of detection trigger capacitor is connected to detection trigger line. | 01-14-2010 |
20100091041 | IMAGE DISPLAY DEVICE - In an image display device, a transistor formed in each pixel circuit is an N-channel transistor. Each pixel circuit further comprises an enable switch disposed in a current path supplying electric current to a light-emitting element and a supplementary capacitor for controlling changes in voltage of a terminal of a holding capacitor at one end opposite another terminal connected with writing switch. The light-emitting element is connected between the source of a driver transistor for supplying a current to the light-emitting element and a low-voltage side power line, an enable switch is connected between the drain of the driver transistor and a high-voltage side power line, and supplementary capacitor is connected between the drain of driver transistor and a predetermined power line. | 04-15-2010 |
20100109985 | IMAGE DISPLAY DEVICE - An image display device in which a plurality of pixel circuits are arranged has a current light-emitting element, a driver transistor for flowing current in the current light-emitting element, a retention capacitor for retaining a voltage determining an amount of current flowed from the driver transistor, and a writing switch for writing a voltage depending on an image signal to the retention capacitor. Transistors configuring the respective pixel circuits are an N-channel type transistor, each of the pixel circuits further includes an enable switch, an initialization capacitor for initializing the voltage of the retention capacitor, and a separation switch. | 05-06-2010 |
20100110055 | ACTIVE MATRIX TYPE DISPLAY APPARATUS - An active matrix type display apparatus of the present invention includes a plurality of pixels ( | 05-06-2010 |
20100220118 | PIXEL CIRCUIT AND DISPLAY APPARATUS - An active matrix display apparatus of the present invention comprises plural gate lines and plural source lines which are arranged such that the plural gate lines respectively intersect the plural source lines and light-emitting element circuits which are provided to respectively correspond to intersections at which the plural gate lines intersect the plural source line, respectively; wherein each of the light-emitting element circuits includes a light-emitting element for emitting light according to a current supplied thereto; a drive transistor for controlling a current supplied to the light-emitting element; and a control transistor for controlling an ON/OFF operation of the drive transistor; wherein the drive transistor has a body terminal and is configured to correct luminance of the light-emitting element using a voltage applied to the body terminal. | 09-02-2010 |
20100259527 | DISPLAY DEVICE, ELECTRONIC DEVICE, AND DRIVING METHOD - A display device includes data lines and pixels. Each pixel includes a driving transistor, a switch between one of the data lines and a gate of the driving transistor, and a luminescence element connected to the driving transistor. A first circuit path former flows a first test current from the one of the data lines through the first transistor and a second test current from the one of the data lines through the luminescence element. A second circuit path former generates a first voltage and a second voltage in the one of the data lines. The first voltage corresponds to a gate voltage of the first transistor generated by the first test current. The second voltage corresponds to a luminescence voltage of the luminescence element generated by the second test current. A voltage detector detects the first voltage and the second voltage in the one of the data lines. | 10-14-2010 |
20100259531 | IMAGE DISPLAY DEVICE AND METHOD OF CONTROLLING THE SAME - An image display device includes a luminescence element, a first capacitor, a driver having a gate connected to a first electrode of the first capacitor and a source connected to an anode of the luminescence element, and a second capacitor connected to a second electrode of the first capacitor. A power source supplies a reference voltage to the first electrode of the first capacitor via a first switch. A data line supplies a signal voltage to the second electrode of the first capacitor via a second switch. A third switch connects the anode of the luminescence element to the second capacitor. A controller supplies the signal voltage to the first capacitor by switching ON the first and second switches when the third switch is OFF, switches OFF the first and second switches to switch ON the third switch, and causes the second capacitor to hold a source potential of the driver while the third switch is ON. | 10-14-2010 |
20110057966 | DISPLAY PANEL DEVICE AND CONTROL METHOD THEREOF - A display panel device includes a luminescence element and a capacitor. A driving transistor includes a gate that is connected to a first electrode of the capacitor. A first switch is connected to the first electrode of the capacitor for setting a reference voltage to the first electrode of the capacitor. A data line supplies a data voltage to a second electrode of the capacitor. A second switch is connected between the data line and the second electrode of the capacitor. A wiring is connected to a first electrode of the luminescence element and the second electrode of the capacitor for interconnecting a first power line and the first electrode of the luminescence element with the second electrode of the capacitor, the second switch, and the data line. A third switch is connected in series with the driver between the first electrode of the luminescence element and the first power line. | 03-10-2011 |
20110128211 | LUMINESCENT DISPLAY DEVICE - A luminescent display device includes a substrate and a thin-film transistor above the substrate. The thin-film transistor includes a semiconductor layer, a gate insulating film on the semiconductor layer, a gate electrode on the gate insulating film, a source electrode, and a drain electrode. The luminescent display device further includes an interlayer insulating film on the gate electrode, a first capacitor electrode on the interlayer insulating film in a region above the gate electrode, and a luminescent element configured to be driven by a driver to produce luminescence. The driver includes the thin-film transistor, and the first capacitor electrode and the gate electrode constitute a capacitor. | 06-02-2011 |
20110141095 | DISPLAY PANEL DEVICE, DISPLAY DEVICE, AND CONTROL METHOD THEREOF - A display panel device includes: a luminescence element; a capacitor including first and second capacitor electrodes; a driver having a gate connected to the first capacitor electrode for allowing a drain current to flow through the luminescence element; a first switch switchably interconnecting a data line and the first capacitor electrode for supplying a signal voltage to the capacitor; a second switch switchably interconnecting a source of the driver and the second capacitor electrode; and a controller. The controller is configured to: turn ON the first switch while the second switch is ON to supply the signal voltage to the first capacitor electrode and flow a current between the source of the driver and the second capacitor electrode; and, after predetermined time period, turn OFF the second switch to cause non-conduction between the source of the driver and the second capacitor electrode. | 06-16-2011 |
20110141165 | DISPLAY PANEL DEVICE, DISPLAY DEVICE, AND CONTROL METHOD THEREOF - A display panel device includes: a luminescence element; a capacitor including first and second capacitor electrodes; a driver having a gate connected to the first capacitor electrode for allowing a drain current to flow through the luminescence element and a source connected to the second capacitor electrode; a first switch switchably interconnecting a data line and the first capacitor electrode for supplying a signal voltage to the capacitor; a second switch switchably interconnecting the drain of the driver and a power line; and a controller. The controller is configured to: turn ON the first switch while the second switch is ON to supply the signal voltage to the capacitor and flow a current between the source of the driver and the second capacitor electrode; and, after predetermined time period, turn OFF the second switch to cause non-conduction between the power line and the drain of the driver. | 06-16-2011 |
20110148949 | DISPLAY PANEL DEVICE, DISPLAY DEVICE, AND CONTROL METHOD THEREOF - A display panel device includes: a luminescence element; a capacitor; a driver that passes a drain current through the luminescence element; a data line that supplies a signal voltage to the capacitor; a switch that switchably interconnects the data line and the capacitor; and a controller. The controller is configured to: apply a predetermined bias voltage to a second capacitor electrode to prevent a flow of the drain current; turn ON the switch to supply the signal voltage to a first capacitor electrode; apply a reverse bias voltage to the second capacitor electrode to flow a discharge current between a source of the driver and the second capacitor electrode; and turn OFF the switch, after a lapse of a predetermined period of time since the discharge current is caused to flow, to stop the supply of the signal voltage to the first capacitor electrode. | 06-23-2011 |
20110164024 | IMAGE DISPLAY DEVICE AND METHOD OF CONTROLLING THE SAME - An image display device includes a driver having a gate connected to a first electrode of a first capacitor and a source connected to an anode of a luminescence element. A second capacitor is connected to a second electrode of the first capacitor. A first switch supplies a reference voltage to the first electrode of the first capacitor. A second switch supplies a signal voltage to the second electrode of the first capacitor. A third switch connects the anode of the luminescence element to the second capacitor. A method of controlling the image display device includes: supplying the signal voltage to the first capacitor by switching ON the first and second switches when the third switch is OFF; switching OFF the first and second switches to turn ON the third switch after the first capacitor holds a capacitor voltage; and causing the second capacitor to hold a source potential of the driver while the third switch is ON. | 07-07-2011 |
20110181192 | IMAGE DISPLAY DEVICE AND DRIVING METHOD THEREOF - An image display device includes luminescence pixels arranged in rows and columns. The image display device includes a first signal line and a second signal line, first control lines, and at least two drive blocks. Each drive block is composed of luminescence pixels in at least two of the rows. Each luminescence pixel includes a luminescence element and a current controller. Each of the luminescence pixels that belong to a k | 07-28-2011 |
20110261034 | METHOD OF DRIVING STEREOSCOPIC DISPLAY APPARATUS AND STEREOSCOPIC DISPLAY APPARATUS - A stereoscopic display includes an image displayer. The image displayer includes a display that is configured to sequentially display a right-eye image and a left-eye image. The display includes a first region that includes first rows and a second region that includes second rows. A method of driving the stereoscopic display includes sequentially repeating: writing first image data to the second region when the first region is in an image displaying state; setting the second region to the image displaying state and the first region to an image not-displaying state after the image data is written to the second region; writing second image data to the first region when the second region is in the image displaying state; and setting the first region to the image displaying state and the second region to the image not-displaying state after the second image data is written to the first region. | 10-27-2011 |
20110285760 | IMAGE DISPLAY DEVICE AND METHOD OF CONTROLLING THE SAME - An image display device includes a luminescence element, a capacitor, and a driver having a gate connected to a first electrode of the capacitor and a source connected to an anode of the luminescence element. A power source supplies a reference voltage to the first electrode of the capacitor via a first switch. A data line supplies a signal voltage to the second electrode of the capacitor via a second switch. A third switch connects the anode of the luminescence element to the second electrode of the capacitor. A controller supplies the signal voltage to the capacitor by switching ON the first and second switches when the third switch is OFF, and switches OFF the first and second switches to switch ON the third switch after a voltage corresponding to the signal voltage is held by the capacitor. | 11-24-2011 |
20120001186 | ORGANIC EL DISPLAY PANEL AND METHOD OF MANUFACTURING THE SAME - A display panel and method of manufacturering a display panel. A plurality of contact holes penetrate through an interlayer insulation film and have wiring lines connecting first electrode plates and second electrode plates with a thin-film transistor layer. The first electrode plates and the second electrode plates each include at least one concavity. The at least one concavity included in each of the first and second electrode plates coincide with the plurality of contact holes. A total volume of the at least one concavity in any of the first electrode plates is larger than a total volume of the at least one concavity in any of the second electrode plates, while a volume of a portion of the first organic functional layer corresponding to any of the first electrode plates at least approximates a volume of the second organic functional layer corresponding to any of the second electrode plates. A portion of the first organic functional layer entered into the at least one concavity in any of the first electrode plates is larger than a portion of the second organic functional layer entered into the at least one concavity in any of the second electrode plates, so that in locations other than the at least one concavity in the first electrode plates and the second electrode plates, the first organic functional layer is thinner than the second organic functional layer. | 01-05-2012 |
20120062130 | IMAGE DISPLAY APPARATUS - An image display apparatus according to an implementation of the present invention includes: pixel circuits disposed in rows and columns; first power lines and control lines disposed in respective rows; a third power line; second switching transistors disposed at least one for each of the rows and each having a gate terminal connected to the control line disposed in the corresponding row, one of a source terminal and a drain terminal connected to the first power line disposed in the corresponding row, and the other of the source terminal and the drain terminal connected to the third power line; and a power supply unit which supplies the same voltage to the first power lines and the third power line when the second switching transistors are turned ON. | 03-15-2012 |
20120062618 | IMAGE DISPLAY DEVICE AND METHOD OF DRIVING THE SAME - The image display device includes: a plurality of pixels arranged in a matrix, each of which includes a driving transistor which converts a signal voltage which determines luminous intensity into a driving current; a luminescence element which generates photons according to the driving current flowing through it; and a threshold voltage detecting unit which detects a threshold voltage of the driving transistor while a reference voltage is applied. The pixels make up two or more driving blocks each of which includes a plurality of pixel rows. The image display device controls supply of the reference voltage and a power source voltage to all pixels in the same driving block with the same timing in a predetermined period and controls supply of the reference voltage and the power source voltage to all pixels in different blocks with different timings. | 03-15-2012 |
20120086699 | DISPLAY PANEL DEVICE AND CONTROL METHOD THEREOF - A display panel includes a luminescence element and a capacitor. A driving transistor includes a gate that is connected to a first electrode of the capacitor. A first switch is connected to the first electrode of the capacitor for setting a reference voltage to the first electrode of the capacitor. A data line supplies a data voltage to a second electrode of the capacitor. A second switch is connected between the data line and the second electrode of the capacitor. A wiring is connected to a first electrode of the luminescence element and the second electrode of the capacitor for interconnecting a first power line and the first electrode of the luminescence element with the second electrode of the capacitor, the second switch, and the data line. A third switch is connected in series with the driver between the first electrode of the luminescence element and the first power line. | 04-12-2012 |
20120119235 | DISPLAY PANEL APPARATUS AND METHOD OF FABRICATING DISPLAY PANEL APPARATUS - A display panel apparatus includes a planarizing film formed on a substrate, at least one pixel including a lower electrode; an organic EL layer; and an upper electrode which are formed above the planarizing film; an auxiliary electrode electrically connected to the upper electrode which is the opposite to the lower electrode; a display section including a plurality of the pixels; an electrode plate electrically connected to the auxiliary electrode and arranged to cover the planarizing film outside the display section, and the electrode plate has a hole exposing a part of a surface of the planarizing film. Furthermore, the display panel apparatus also includes a hole injection layer which is an inorganic material layer made of an inorganic material and covering the hole. | 05-17-2012 |
20120147070 | ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE MANUFACTURING METHOD AND ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE - A method of manufacturing an organic electroluminescence display includes preparing a substrate including pixels. The pixels each include a drive transistor and a capacitor. The capacitor of a subject pixel is caused to hold a voltage which corresponds to a threshold voltage of the drive transistor, and the voltage is read. A first signal voltage is obtained by adding a first correction parameter of the subject pixel to a second signal voltage corresponding to a single gradation level belonging to an intermediate gradation region or a high gradation region of representative voltage-luminance characteristics. The first signal voltage is applied to the driver of the subject pixel, and a luminance emitted by the subject pixel is measured. A second correction parameter with which the luminance emitted by the subject pixel becomes a standard luminance is calculated. | 06-14-2012 |
20120154460 | ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE AND ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE MANUFACTURING METHOD - An organic electroluminescence display device includes a display panel including pixels. The pixels each include a light-emitter, driver and capacitor. A storage is configured to store a correction parameter for each of the pixels for correcting, in accordance with characteristics of each of the pixels, an image signal input from an external source. A controller is configured to, for each pixel of the pixels, obtain a corrected signal voltage by reading the correction parameter corresponding to the pixel from the storage and multiplying the image signal corresponding to the pixel by the correction parameter corresponding to the pixel. The storage is configured to store a gain and not an offset as the correction parameter. | 06-21-2012 |
20120169707 | ORGANIC EL DISPLAY DEVICE AND CONTROL METHOD THEREOF - An organic electroluminescent display device includes a display that includes pixels arranged in a matrix. Each pixel includes a driver, a capacitor between a gate and a source of the driver, a switch, and a luminescent element connected to the drain of the driver. Scan lines provide a scan signal for scanning the pixels. Data lines provide a signal voltage to the pixels. Power lines are electrically connected to the source and the drain of the driver. The driver includes a back gate electrode which is provided a predetermined bias voltage. A drive circuit provides the predetermined bias voltage to the back gate electrode so that the absolute value of a threshold voltage of the driver is greater than a gate-source voltage of the driver to place the driver in a non-conducting state. | 07-05-2012 |
20120169799 | DISPLAY DEVICE AND METHOD OF DRIVING THE SAME - The display device including pixels has formed therein at least two drive blocks each made up of pixel rows. Each of the pixels includes: a drive transistor; a first capacitor element, a luminescence element; a first switching transistor which causes conduction between the drive transistor and the first capacitor element; and a second switching transistor which applies power supply voltage to the drive transistor. Each of the pixels further includes: a third switching transistor connecting a pixel in a k-th drive block and a first signal line; or a fourth switching transistor connecting a pixel in a (k+1)-th drive block and a second signal line. A first control line for controlling conduction of the first switching transistor and a third control line for establishing a source potential of the drive transistor are connected to each of the pixels in a same one of the drive blocks. | 07-05-2012 |
20120176362 | DISPLAY DEVICE, ELECTRONIC DEVICE, AND DRIVING METHOD - An electronic device is described. The device includes a substrate for a luminescence panel that includes data lines and pixels in which a luminescence element can be formed. Each pixel includes a driving transistor that converts a signal voltage from a data line into a signal current, and a first switch between the data line and the gate of the driving transistor. The device includes a first circuit to flow a test current from the data line through the driving transistor, a second circuit to generate a voltage on the data line corresponding to a gate voltage on the driving transistor generated by the test current, and a voltage detector to detect the voltage in the data line. | 07-12-2012 |
20120176422 | DISPLAY DEVICE AND METHOD OF DRIVING THE SAME - The display device including pixels has formed therein at least two drive blocks each made up of pixel rows. Each of the pixels includes: a drive transistor; a capacitor element, a luminescence element; and a first switching transistor which causes conduction between the source of the drive transistor and a fixed potential line. Each of the pixels further includes a second switching transistor which connects a pixel in a k-th drive block and a first signal line or a third switching transistor which connects a pixel in a (k+1)-th drive block and a second signal line. A first control line for controlling conduction of the first switching element is connected to each of the pixels in a same one of the drive blocks. | 07-12-2012 |
20120176426 | DISPLAY DEVICE AND METHOD OF DRIVING THE SAME - The display device including pixels has formed therein at least two drive blocks each made up of pixel rows. Each of the pixels includes: a drive transistor; a capacitor element, a luminescence element; a first switching transistor which causes conduction between the gate of the drive transistor and a fixed potential line; and a second switching transistor which causes conduction between the source of the drive transistor and the capacitor element. Each of the pixels further includes a third switching transistor which connects a pixel in a k-th drive block and a first signal line or a fourth switching transistor which connects a pixel in a (k+1)-th drive block and a second signal line. | 07-12-2012 |
20120194501 | IMAGE DISPLAY DEVICE - In an image display device, a transistor formed in each pixel circuit is an N-channel transistor. Each pixel circuit further comprises an enable switch disposed in a current path supplying electric current to a light-emitting element and a supplementary capacitor for controlling changes in voltage of a terminal of a holding capacitor at one end opposite another terminal connected with writing switch. The light-emitting element is connected between the source of a driver transistor for supplying a current to the light-emitting element and a low-voltage side power line, an enable switch is connected between the drain of the driver transistor and a high-voltage side power line, and supplementary capacitor is connected between the drain of driver transistor and a predetermined power line. | 08-02-2012 |
20120194576 | DISPLAY DEVICE AND METHOD OF CONTROLLING THE SAME - A display device including pixels has formed therein at least two driving blocks each made up of pixel rows, and includes: a signal line driving circuit that outputs a signal voltage to an output line disposed in each of pixel columns; and a selector circuit that provides a signal voltage outputted from the output line to one of a first signal line and a second signal line which are provided in each of the columns, provides a standard voltage from a standard voltage source to one of the two signal lines, and provides the signal voltage and the standard voltage mutually exclusively to the two signal lines. Each of the pixels includes a current control unit and an organic EL element. Pixels in the k-th driving block are connected to the first signal line and pixels in the (k+1)-th driving block are connected to the second signal line. | 08-02-2012 |
20120200611 | DISPLAY DEVICE AND METHOD OF CONTROLLING THE SAME - A display device including pixels has formed therein at least two driving blocks each made up of pixel rows, and includes: a signal line driving circuit that outputs a signal voltage to an output line disposed in each of pixel columns; and a selector circuit that controls a selector disposed in each of the columns for providing a signal voltage outputted from the output line to one of a first signal line and second signal line disposed in each of the columns, and selectively provides a standard voltage or the signal voltage outputted from the output line to one of the first signal line or the second signal line. Each of the pixels includes a current control unit and an organic EL element. Pixels in the k-th driving block are connected to the first signal line and pixels in the (k+1)-th driving block are connected to the second signal line. | 08-09-2012 |
20120242643 | DISPLAY DEVICE AND METHOD OF CONTROLLING THE SAME - The display device according to the present invention includes: a luminescence element, a capacitor, a drive transistor, a reference power source line, a first switching transistor, a data line, a second switching transistor which switches between conduction and non-conduction between the data line and a second electrode of the capacitor, a reset line, a scanning line, and a scanning line drive circuit. The scanning line drive circuit turns ON the first switching transistor so that reference voltage is supplied to the gate electrode of the drive transistor, and turns ON the second switching transistor in a period in which the first switching element is ON so that a predetermined reset voltage is applied from the data line to a connection point between a first electrode of the luminescence element and a source electrode of the drive transistor. | 09-27-2012 |
20120268002 | DISPLAY PANEL APPARATUS AND METHOD OF FABRICATING DISPLAY PANEL APPARATUS - A display panel apparatus has a structure which is less likely to seal a planarizing film even when an electrode plate is provided on the planarizing film, and the display panel apparatus includes: a planarizing film formed on a substrate; a pixel formed on the planarizing film and including: a lower electrode; an organic layer; and an upper electrode; an auxiliary electrode electrically insulated from the lower electrode and electrically connected to the upper electrode; a display section including a plurality of the pixels; an electrode plate electrically connected to the auxiliary electrode and arranged to cover the planarizing film outside the display section; and a power supply section electrically connected to the electrode plate, and the electrode plate has a hole exposing a part of a surface of the planarizing film. | 10-25-2012 |
20120327063 | DISPLAY DEVICE AND METHOD OF DRIVING THE SAME - Display device includes: a power supplying unit which outputs at least a high-side or low-side output potential; an organic EL display unit which includes pixels and receives power supply from the power supplying unit; two or more detecting lines for transmitting a high-side or low-side applied potential applied to two or more pixels; a relay unit which outputs the high-side or low-side applied potentials transmitted by the detecting lines, to output lines fewer in number than the detecting lines; and a regulating unit which regulates at least the high-side or low-side output potential to be outputted by the power supplying unit, such that any one of potential difference between a reference potential and the high-side applied potential from the relay unit, potential difference between the reference potential and the low-side applied potential, and potential difference between the high-side applied potential and the low-side applied potential reaches a predetermined potential difference. | 12-27-2012 |
20130038588 | DISPLAY DEVICE - A display device according to the present invention includes: an organic EL element; an electrostatic holding capacitor; a drive transistor having a gate connected to one electrode of an electrostatic holding capacitor and a source connected to an anode of the organic EL element; another electrostatic holding capacitor having an electrode connected to the other electrode of the one electrostatic holding capacitor; a negative power supply line which determines a potential of a cathode of the organic EL element; and a scanning line drive circuit which controls switching transistors. In a display period, the entire display area of a display unit is caused to start generating photons at once. In a non-display period, the entire display area of the display unit is caused to stop generating photons at once, and the drive transistor is reset. | 02-14-2013 |
20130038596 | DISPLAY DEVICE - A display device according to the present invention includes: an organic EL element; an electrostatic holding capacitor; a drive transistor having a gate connected to one electrode of an electrostatic holding capacitor and a source connected to an anode of the organic EL element; another electrostatic holding capacitor having an electrode connected to the other electrode of the one electrostatic holding capacitor; a negative power supply line which determines a potential of a cathode of the organic EL element; and a scanning line drive circuit which controls switching transistors. In a display period, the entire display area of a display unit is caused to start generating photons at once. In a non-display period, the entire display area of the display unit is caused to stop generating photons at once, and the drive transistor is reset. | 02-14-2013 |
20130082270 | THIN-FILM TRANSISTOR ARRAY DEVICE, EL DISPLAY PANEL, EL DISPLAY DEVICE, THIN-FILM TRANSISTOR ARRAY DEVICE MANUFACTURING METHOD, EL DISPLAY PANEL MANUFACTURING METHOD - A thin-film transistor array includes first and second bottom-gate transistors, a passivation film, a conductive oxide film below the passivation film, and a relay electrode between a first conductive material in a same layer as a first electrode of the first transistor and a second conductive material in an electroluminescence layer. A first line is in a layer lower than the passivation film and a second line is above the passivation film. A terminal to which an external signal is input is provided in a periphery of the substrate in the same layer as the first electrode. The conductive oxide film covers an upper surface of the terminal and is between the relay electrode and the first conductive material. The relay electrode is formed in a same layer and comprises a same material as the second line. | 04-04-2013 |
20130093651 | DISPLAY DEVICE, ELECTRONIC DEVICE, AND DRIVING METHOD - A display device is described. The device includes an active-matrix luminescence panel that has data lines and pixels for determining luminescence of the pixels. Each pixel includes a driving transistor that converts a signal voltage from a data line into a signal current, and a first switch between the data line and the gate of the driving transistor. The device includes a test current generator to supply a test current to one of the data lines, a voltage detector to detect the voltage of one of the data lines, and a controller to control switches, the test current generator and the voltage detector. | 04-18-2013 |
20130100002 | ORGANIC EL DISPLAY DEVICE - An organic electro-luminescence (EL) display device including: above a substrate, scanning lines; data lines; emissive pixels disposed near cross-points of the scanning lines and the data lines; and power supply lines for supplying currents to the emissive pixels, wherein the emissive pixels each have: a switching thin film transistor having a gate to which a scan signal is supplied via one of the scanning lines; a current control thin film transistor for controlling a current to be applied to the emissive pixel, in accordance with the voltage determined based on a data voltage supplied from one of the data lines via the switching thin film transistor; and an organic EL element to which a current is supplied from one of the power supply lines via the current control thin film transistor, the organic EL element including a lower electrode, an organic light-emissive layer, and an upper electrode. | 04-25-2013 |
20130106676 | ORGANIC EL DISPLAY APPARATUS | 05-02-2013 |
20130162622 | DISPLAY DEVICE - A display device includes: a power supplying unit which outputs at least one of a high-side output potential and a low-side output potential; a display unit in which pixels are arranged in a matrix and which receives power supply from the power supplying unit; a monitor wire arranged along a column direction of the pixels in the matrix, which has one end connected to at least one pixel inside the display unit, and is for transmitting the high-side potential to be applied to the pixel; and a voltage regulating unit connected to the other end of the monitor wire, which regulates at least one of the high-side output potential and the low-side output potential to be outputted by the power supplying unit, to set a potential difference between the high-side potential and the low-side potential to a predetermined potential difference. | 06-27-2013 |
20130169702 | DISPLAY DEVICE AND METHOD OF DRIVING THE SAME - A display device including pixels has formed therein at least two drive blocks each made up of pixel rows. Each of the pixels includes: a drive transistor; a first electrostatic capacitor and a second electrostatic capacitor; an organic EL element; a first switching transistor provided between the source and the drain of the drive transistor; and a second switching transistor that supplies a signal current to the organic EL element. Each of the pixels in a kth drive block includes a third switching transistor provided between a first signal line and the first electrostatic storing capacitor, and each of the pixels in a k-th drive block includes a fourth switching transistor provided between a second signal line and the first electrostatic storing capacitor. A second control line for controlling conduction of the first switching transistor is connected to each of the pixels in a same one of the drive blocks. | 07-04-2013 |
20130187554 | IMAGE DISPLAY DEVICE - An image display device includes: an organic EL element, a first electrostatic capacitor, a driving transistor having a gate connected to a first electrode of the first electrostatic capacitor and a source connected to an anode of the organic EL element, a second electrostatic capacitor having an electrode connected to a second electrode of the first electrostatic capacitor, a negative power source line which determines the potential of a cathode of the organic EL element, and a scanning line driving circuit which controls a first switching transistor, a second switching transistor, and a third switching transistor. In a non-light-emitting period, the scanning line driving circuit sets, during a period from a start of a reset period to an end of the non-light-emitting period, a fixed voltage corresponding to the potential of the negative power source line to the source electrode of the driving transistor. | 07-25-2013 |
20130229405 | METHOD OF DRIVING DISPLAY DEVICE - A method of driving a display device including pixels in a matrix and a power source, each pixel including a light-emitting element, drive transistor, capacitance element, and switching transistor, and connected to the power source by a power line, the method including: setting a voltage across the light-emitting element smaller than or equal to its threshold voltage by adjusting a voltage outputted by the power source to the power line; (a) applying, to a gate of the drive transistor, a reset voltage with which the gate-source voltage of the drive transistor becomes larger than its threshold voltage; (c) causing a data voltage to be held in the capacitive element; and (d) causing the light-emitting element to emit light according to the data voltage by setting the voltage across the light-emitting element larger than its threshold voltage by adjusting the voltage outputted by the power source to the power line. | 09-05-2013 |
20130335456 | DISPLAY DEVICE AND CONTROL METHOD THEREFOR - A display device having pixels in a matrix where the pixels compose at least two drive blocks each including at least two pixel rows, includes a first signal line and a second signal line disposed in a pixel column direction. The first signal line is disposed in one of the left and right sides of the pixels of the corresponding column, and the second signal line is disposed in the other of the sides. Each of the pixels includes an organic EL element and a current control unit. Pixels in a kth drive block are connected to the first signal line via a first connecting line, and pixels in a (k+1)th drive block are connected to the second signal line via a second connecting line. The first signal line is disposed without crossing the second connecting line, and the second signal line is disposed without the first connecting line. | 12-19-2013 |
20140035470 | IMAGE DISPLAY DEVICE AND DRIVING METHOD THEREOF - An image display device includes luminescence pixels arranged in rows and columns. The image display device includes a first and second signal lines, first control lines, and at least two drive blocks. Each drive block is composed of luminescence pixels in at least two rows. Each luminescence pixel includes a luminescence element and a current controller. Each luminescence pixel that belongs to a k | 02-06-2014 |
20140062989 | DISPLAY DEVICE AND METHOD OF DRIVING THE SAME - A display device includes a voltage drop amount calculating circuit that regulates a power source voltage, a power wire network in the organic EL display unit includes a row-wise resistance component Rah and a column-wise resistance component Rav, and the voltage drop amount calculating circuit divides the organic EL display unit into blocks each made up of pixels in Xv rows and Xh columns, and sets, for each of the blocks, a row-wise resistance component Rah′ to a value obtained by multiplying the resistance component Rah by (Xh/Xv), and sets, for each of the blocks, a column-wise resistance component Rav′ to a value obtained by multiplying the resistance component Rav by (Xv/Xh), thereby estimating a distribution, for the respective blocks, of amounts of voltage drop which occurs in the power wire, and regulates, based on the distribution, a voltage to be supplied to the display unit. | 03-06-2014 |
20140097455 | SEMICONDUCTOR DEVICE AND DISPLAY APPARATUS - A semiconductor device according to an aspect of the present invention includes: a semiconductor layer including a channel region and a contact region; a pattern of a first conducting layer disposed at a position which overlaps with the channel region; a gate line formed in one of a second conducting layer or a third conducting layer, and connected to the pattern of the first conducting layer; and a source line formed in the other of the second conducting layer and the third conducting layer, and connected to the contact region. | 04-10-2014 |
20140264303 | LUMINESCENT DISPLAY DEVICE - A luminescent display device includes a substrate and first and second thin-film transistors above the substrate. The first thin-film transistor includes a semiconductor layer, a gate insulating film, a gate electrode, a source electrode and a drain. The second thin-film transistor includes a semiconductor layer, a gate insulating film, a gate electrode, and a drain electrode. The device also includes an interlayer insulating film on the gate electrode of the first thin-film transistor and the gate electrode of the second thin-film transistor, a first capacitor electrode on the interlayer insulating film, and a luminescent element such that the first capacitor electrode and the gate electrode of the first thin-film transistor constitute a first capacitor, and the first capacitor electrode is not connected to the source electrode and the drain electrode of the first thin-film transistor. | 09-18-2014 |
20140264315 | ORGANIC ELECTROLUMINESCENCE DISPLAY PANEL AND ORGANIC ELECTROLUMINESCENCE DISPLAY APPARATUS - An organic electroluminescence (EL) display panel includes a cathode electrode formed above a bank and formed opposite to a plurality of anode electrodes, and a charge functional layer commonly formed for each of the organic light-emitting layers across a plurality of aperture areas formed in the bank. An end portion of the cathode electrode and an end portion of the charge functional layer are provided above the bank located adjacent to a boundary between a display region and a peripheral region of a display region. | 09-18-2014 |
20140284591 | ORGANIC ELECTROLUMINESCENCE DISPLAY PANEL AND ORGANIC ELECTROLUMINESCENCE DISPLAY APPARATUS - An organic electroluminescence (EL) display panel includes an anode electrode formed above a bank and formed opposite to a plurality of cathode electrodes, and a charge functional layer commonly formed for each of the organic light-emitting layers across a plurality of aperture areas formed in the bank. An end portion of the anode electrode and an end portion of the charge functional layer are provided above the bank located adjacent to a boundary between a display region and a peripheral region of a display region. | 09-25-2014 |
20140291661 | ORGANIC ELECTROLUMINESCENCE DISPLAY PANEL AND ORGANIC ELECTROLUMINESCENCE DISPLAY APPARATUS - An organic electroluminescence (EL) display panel includes an anode electrode formed above a bank and formed opposite to a plurality of cathode electrodes, and a charge functional layer commonly formed for each of the organic light-emitting layers across a plurality of aperture areas formed in the bank. A distance from the center of the display region to the end of the anode electrode is shorter than a distance from the center of the display region to the end of the charge functional layer. | 10-02-2014 |
20140299867 | ORGANIC ELECTROLUMINESCENCE DISPLAY PANEL AND ORGANIC ELECTROLUMINESCENCE DISPLAY APPARATUS - An organic electroluminescence (EL) display panel includes a cathode electrode formed above a bank and formed opposite to a plurality of anode electrodes, and a charge functional layer commonly formed for each of the organic light-emitting layers across a plurality of aperture areas formed in the bank. A distance from the center of the display region to the end of the cathode electrode is shorter than a distance from the center of the display region to the end of the charge functional layer. | 10-09-2014 |
20140306229 | DISPLAY PANEL AND METHOD FOR PRODUCING DISPLAY PANEL - A display panel includes: a substrate; a bottom-gate thin-film transistor above the substrate and including a gate electrode, a first electrode, and a second electrode ; an insulating layer above the thin-film transistor and including a contact hole penetrating the insulating layer in a thickness direction of the insulating layer; a pixel electrode above the insulating layer and electrically connected to the second electrode via the contact hole; and a height adjusting layer selectively located below the contact hole to allow the contact hole to have a bottom at a raised level. | 10-16-2014 |
20140313109 | DISPLAY DEVICE AND CONTROL METHOD THEREOF - Plural pixel circuits of a display device each include: a drive transistor having drain or source connected to a first power source voltage; a first capacitive element having a first electrode connected to a gate of the drive transistor and a second electrode connected to the source of the drive transistor; a second capacitive element having a first electrode connected to the second electrode of the first capacitive element and a second electrode directly connected to a data line that transmits a voltage corresponding to a light-emitting luminance; a first switching element that switches between conduction and non-conduction between the gate of the drive transistor and a fixed reference voltage; and a light-emitting device having a first electrode connected to source or drain of the drive transistor and a second electrode connected to a second power source voltage. | 10-23-2014 |
20140313241 | DISPLAY DEVICE AND METHOD OF CONTROLLING THE SAME - Pixel circuits of a display device each include: a drive transistor including one of a source and drain connected to a power source line; a capacitive element including a first terminal connected to a gate of the drive transistor; a switching element which switches conduction/non-conduction between a second terminal of the capacitive element and a data line; a switching element which switches conduction/non-conduction between the second terminal of the capacitive element and the source of the drive transistor; a switching element which switches conduction/non-conduction between the first terminal of the capacitive element and a reference voltage line; a light-emitting element including a first terminal connected to the other of the source and drain of the drive transistor and a second terminal connected to another power source line. The reference voltage line provides a forward bias voltage larger than a threshold voltage across the gate and source of the drive transistor. | 10-23-2014 |
20140340290 | DISPLAY DEVICE AND CONTROL METHOD THEREOF - Each of a plurality of pixel circuits included in the display device includes: a drive transistor; a first capacitive element having a first terminal connected to a source terminal of the drive transistor; a first switching element which switches between a gate terminal of the drive transistor and a data line; a second switching element which switches between a gate terminal of the drive transistor and a second terminal of the first capacitive element; a third switching element which switches between the second terminal of the first capacitive element and a reference voltage line; a fourth switching element which switches between a first power source line and the source terminal of the drive transistor; and a light-emitting element having a first terminal connected to a drain terminal of the drive transistor and having a second terminal connected to a second power source line. | 11-20-2014 |
20150053953 | DISPLAY DEVICE - A display device including pixels, in which each of the pixels includes: a positive power supply line and a negative power supply line; a drive transistor that drives a current in a current path according to a gate-source voltage; an organic EL element including an anode and a cathode that are disposed in the current path; an electrostatic storage capacitor that stores the gate-source voltage by having a first electrode connected to a gate of the drive transistor, and a second electrode connected to a source of the drive transistor; a switch transistor that switches a conduction state between the second electrode and a data line; and a switch transistor for applying a negative power supply line voltage to the first electrode. A potential difference between a first power supply line voltage VDDp and a second power line voltage VEEp decreases with proximity to the center of a display unit. | 02-26-2015 |
20150070253 | DISPLAY DEVICE - A display device has a plurality of arrayed display pixels. A drive transistor includes a first gate electrode and supplies the current corresponding to a level of a luminance signal to the luminescence element. A switching transistor includes a source electrode, a drain electrode, a second gate electrode and a semiconductor layer. The semiconductor layer is faced with the second gate electrode and has, in a channel width direction perpendicular to a channel length direction of the switching transistor, a channel region with a first width and a remainder region with a second width larger than the first width. The source electrode or the drain electrode is connected to the first gate electrode. The source electrode and the drain electrode are provided on the semiconductor layer at an interval. The second gate electrode overlaps, in a plan view, the channel region entirely and the remainder region at least partially. | 03-12-2015 |