KR20150075753A - Organic light-emitting display device - Google Patents

Abstract

An organic light-emitting display device according to an embodiment of the present invention comprises: multiple driver ICs including each ADC; an organic light-emitting panel having multiple regions corresponding to the driver ICs; and a timing controller for receiving a sensing signal from the ADC, and generating compensation video data by using the same, and outputting the compensation video data to the driver IC. Noise is overlapped and outputted in a boundary part of the multiple regions of the organic light-emitting panel.

Description

[0001] The present invention relates to an organic light-

An embodiment relates to an organic light emitting display.

Display devices for displaying information are widely developed.

The display device includes a liquid crystal display device, an organic light emitting display device, an electrophoretic display device, a field emission display device, and a plasma display device.

Among them, the organic light emitting display device is lower in power consumption, wider in viewing angle, lighter in weight, and higher in brightness than the liquid crystal display device, and has attracted attention as a next generation display device.

The thin film transistor used in the organic light emitting display includes a poly TFT and an oxide TFT.

The poly TFT has amorphous silicon crystallized to increase the mobility by a semiconductor layer formed of polysilicon, thereby enabling high-speed driving.

A laser scanning method is widely used for the crystallization. In such a crystallization process, the threshold voltages of the thin film transistors formed on the scan lines, which means the scan passes, are different from each other due to the unstable power of the laser, resulting in a problem of uneven image quality in each pixel area.

The oxide TFT also has a different threshold voltage and mobility depending on its position, which results in image quality nonuniformity in each pixel region.

In order to solve such a problem, a technique has been proposed in which a threshold voltage is detected in a pixel region to compensate a threshold voltage of the thin film transistor.

A technique for compensating a threshold voltage of the thin film transistor is an external compensation method for applying a data voltage by transmitting a current or voltage in a pixel region with an internal compensation and a data driver compensating through a circuit configuration in a pixel region and compensating the current or voltage.

In the external compensation method using the voltage, a voltage in the pixel region is measured to detect a current flowing through the thin film transistor, thereby obtaining an I-V curve, thereby measuring a threshold voltage and a mobility of the thin film transistor.

The voltage in the pixel region is transferred to a data driver, transferred to an ADC (Analog to Digital Converter) in the data driver, converted into a digital value, and then transferred to a timing controller.

The timing controller compensates the video data to correspond to the threshold voltage using the digital value of the threshold voltage, and delivers the compensated video data to the data driver.

As shown in FIG. 1, the data driver 40 includes a plurality of driver ICs 41. The plurality of driver ICs 41 extract a threshold voltage in a pixel region of the organic luminescent panel 10 and supply a data voltage to the organic luminescent panel 10.

The plurality of driver ICs 41 are arranged to correspond to a certain region of the organic light emitting panel 10, respectively. The driver IC 41 includes an ADC. The ADC extracts a threshold voltage in the pixel region, converts the threshold voltage into a digital value, and transmits the digital value to the timing controller.

Each ADC included in the plurality of driver ICs 41 generates a conversion error when converting into a digital value due to a manufacturing deviation. A vertical line defect occurs in the organic luminescent panel 10 due to the conversion deviation. That is, there is a defect that the boundary portion is visually recognized by the conversion deviation of the ADC included in the adjacent driver IC 41 on the boundary surface of the organic luminescent panel 10 corresponding to the adjacent driver IC 41. That is, there is a problem that a defect occurs in which the boundary between the area A and the area B is visible.

Embodiments provide an organic light emitting display capable of removing an interface that may occur at a boundary portion of an organic light emitting panel composed of a plurality of regions.

An organic light emitting display according to an embodiment includes a plurality of driver ICs including respective ADCs; An organic light emitting panel having a plurality of regions corresponding to the plurality of driver ICs; And a timing controller for receiving a sensing signal from the ADC and generating compensated video data using the sensing signal and outputting the compensated video data to the driver IC, wherein noises are superimposed on the boundary of the plurality of regions of the organic luminescent panel.

The organic light emitting display according to the exemplary embodiment of the present invention can enhance the image quality by preventing the boundary surface from being visually recognized by superimposing noise on the boundary of the organic light emitting panel composed of a plurality of regions.

FIG. 1 is a view showing a conventional bad view of an interface.
2 is a block diagram illustrating an organic light emitting display according to a first embodiment of the present invention.
3 is a block diagram showing a timing controller and a data driver according to the first embodiment.
FIG. 4 is a view illustrating noise for a region of the organic light emitting panel according to the first embodiment.
FIG. 5 is a view illustrating noise for a region of the organic luminescent panel according to the second embodiment.
FIG. 6 is a view illustrating noise for a region of the organic light emitting panel according to the third embodiment.
7 is a block diagram showing a timing controller and a data driver according to the fourth embodiment.

An organic light emitting display according to an embodiment includes a plurality of driver ICs including respective ADCs; An organic light emitting panel having a plurality of regions corresponding to the plurality of driver ICs; And a timing controller for receiving a sensing signal from the ADC and generating compensated video data using the sensing signal and outputting the compensated video data to the driver IC, wherein noises are superimposed on the boundary of the plurality of regions of the organic luminescent panel.

Wherein the timing controller superposes the noise on the compensated video data and outputs the superposed video data.

The noise may have the same amplitude at the boundary.

The noise may have the same amplitude in the entire region of the organic luminescent panel.

The noise may be reduced in amplitude from the boundary to the central region.

The noise may be random noise.

The noise may have certain rules.

The compensated video data may be a value compensating a threshold voltage measured through the sensing signal.

Wherein the timing controller comprises: an extraction unit for extracting a threshold voltage through the sensing signal; A compensation unit for generating a threshold voltage compensation value through the extracted threshold voltage; A noise generating unit for generating the noise; And an output signal generator for generating the corrected video data using the threshold voltage compensation value, the noise, and the video data from the outside.

The timing controller may further include a deviation extracting unit for extracting a conversion deviation of the plurality of ADCs.

The output signal generating unit may change the amplitude of the noise to be superimposed through the conversion deviation information from the deviation extracting unit.

The output signal generating unit may compensate the video data through the conversion deviation information from the deviation extracting unit.

2 is a block diagram illustrating an organic light emitting display according to a first embodiment of the present invention.

Referring to FIG. 2, the organic light emitting display according to the first embodiment may include an organic light emitting panel 10, a timing controller 20, a scan driver 30, and a data driver 40.

The timing controller 20 receives a horizontal synchronizing signal Hsync, a vertical synchronizing signal Vsync and an enable signal Enable from outside and generates a scan control signal SCS for driving the scan driver 30, And generates a data control signal DCS for driving the data driver 40. The timing controller 20 supplies the scan control signal SCS to the scan driver 30 and supplies the data control signal DCS to the data driver 40.

The timing controller 20 receives the video data RGB or RGBW from the outside and receives the sensing signal Sen from the data driver 40 to receive the corrected video data R`G`B or R`G `B`W`). The timing controller 20 supplies the corrected video data (R`G`B or R`G`B`W`) to the data driver 40.

The scan control signal SCS may include a gate start pulse GSP, a gate shift clock GSC, and a gate output signal GOE.

The data control signal DCS may include a source shift clock SSC, a source start pulse SSP, a polarity control signal POL, and a source output enable (SOE) signal.

The scan driver 30 generates a scan signal Scan using the scan control signal SCS. The scan driver 30 may apply the scan signal Scan to the OLED panel 10.

The data driver 40 generates the data voltage Vdata using the corrected video data R`G`B or R`G`B`W` and the data control signal DCS. The data driver 50 may apply the data voltage Vdata to the OLED panel 10.

The organic light emitting panel 10 may detect the sensing voltage Vsen and transmit the sensing voltage Vsen to the data driver 40. The sensing voltage Vsen may be a threshold voltage of a plurality of driving transistors formed in a pixel region of each of the OLED panels 10. [ Alternatively, the data driver 40 may measure the threshold voltage of the driving transistor using the sensing voltage Vsen.

The data driver 40 may generate the sensing signal Sen using the sensing voltage Vsen. The data driver 40 may supply the sensing signal Sen to the timing controller 20. The sensing signal Sen may be a digital value of a threshold voltage of the plurality of driving transistors.

3 is a block diagram showing a timing controller and a data driver according to the first embodiment.

Referring to FIG. 3, the timing controller 20 according to the first embodiment may include an extracting unit 21, a compensating unit 23, an output signal generating unit 25, and a noise generating unit 27.

The data driver 40 includes a plurality of driver ICs 41 and the plurality of driver ICs 41 may each include an ADC (Analog to Digital Converter) 43.

The data driver 40 may be electrically connected to a plurality of data lines DL. The plurality of data lines DL may be formed on the organic light emitting panel 10.

Each of the driver ICs 41 may be electrically connected to a group of data lines DL. The driver IC 41 may receive the sensing voltage Vsen through the data line DL.

The ADC 43 converts the sensing voltage Vsen, which is an analog voltage, into a sensing signal Sen, which is a digital value, and transmits the sensing signal Sen to the timing controller 20. The sensing voltage Vsen may be a threshold voltage of a plurality of driving transistors formed in pixel regions of the OLED panel 10. [ The sensing signal Sen may be a digital value of a threshold voltage of the plurality of driving transistors.

The sensing signal Sen may be input to the extraction unit 21 of the timing controller 20.

The extraction unit 21 receives the sensing signal Sen and can extract a variation amount of a threshold voltage value of each driving transistor. The extraction unit 21 may extract the change amount of the threshold voltage value and transmit it to the compensation unit 23.

The compensating unit 23 receives the change amount of the threshold voltage value and can generate the threshold voltage compensation value. The compensation unit 23 may transmit the compensation value to the output signal generator 25.

The output signal generating unit 25 receives video data RGB or RGBW from the outside, receives a compensation value from the compensating unit 23, receives noise from the noise generating unit 27, To generate corrected video data (R`G`B or R`G`B`W`). The output signal generator 25 may transmit the corrected video data R`G`B or R`G`B`W` to the data driver 40. [

The noise generating unit 27 may generate noise and transmit the generated noise to the output signal generating unit 25.

The noise generating unit 27 can generate random noise. Alternatively, the noise generating unit 27 may generate noise having a rule. The noise generator 27 may control the amplitude of the noise by controlling an external signal.

The output signal generator 25 can superpose the noise from the noise generator 27 on specific video data (RGB or RGBW).

FIG. 4 is a view illustrating noise for a region of the organic light emitting panel according to the first embodiment.

FIG. 4A is a view showing the amplitude of noise with respect to the region of the organic light emitting panel according to the first embodiment, FIG. 4B is a view showing the position of occurrence of noise with respect to the region of the organic light emitting panel according to the first embodiment, 4c are views showing another example of the noise generation position for the region of the organic light emitting panel according to the first embodiment.

Referring to FIG. 4A, the output signal generator 25 may superimpose the noise only on a specific region.

The data driver 40 may include a plurality of driver ICs 41. The organic luminescent panel 10 may be divided into a plurality of regions corresponding to the plurality of driver ICs 41.

The number of driver ICs 41 may be the same as the number of regions of the organic light emitting panel 10. The plurality of regions of the organic luminescent panel 10 may be separated from each other with a boundary 11 therebetween.

The driver IC 41 receives a sensing voltage Vsen from a region corresponding to the driver IC 41 of the organic luminescent panel 10 and outputs a data voltage Vdata. The organic luminescent panel 10 may receive the data voltage Vdata by outputting the sensing voltage Vsen to the driver ICs 41 around the boundary 11.

The output signal generator 25 may superimpose noise on the video data corresponding to the data voltage Vdata applied to the boundary 11 of the organic luminescent panel 10. [ That is, the noise may be superposed on the video data corresponding to the data line formed in the boundary portion 11. [

The output signal generator 25 may superimpose noise on the video data corresponding to the data voltage Vdata applied to the peripheral region of the boundary 11. [ That is, the noise may be superposed on the video data corresponding to the data line formed in the boundary portion 11. [

The superimposed noise may be a signal having the same amplitude.

The output signal generating unit 25 receives random noise from the noise generating unit 27 so that disordered noise is observed at the boundary 11 of the organic luminescent panel 10 as shown in FIG.

The output signal generator 25 applies the random noise to the boundary 11 and the region around the boundary 11 so that the boundary signal can be generated by the conversion deviation of the ADC inside the adjacent driver IC 41. [ Can be prevented. That is, there is an effect that the image quality can be improved by blurring the boundary surface that may occur in the boundary portion 11. [

The output signal generating unit 25 may receive a noise having a rule from the noise generating unit 27.

When the output signal generating unit 25 receives noise having a rule from the noise generating unit 27 and superimposes the noise and outputs the noise, the boundary 11 of the organic light emitting panel 10 Noise is observed at a position having a certain rule.

FIG. 5 is a view illustrating noise for a region of the organic luminescent panel according to the second embodiment.

The organic luminescent panel according to the second embodiment differs from that of the first embodiment in the overlapping regions of noise and the remaining components are the same. Therefore, in describing the second embodiment, the same reference numerals are assigned to the same components as those of the first embodiment, and a detailed description thereof is omitted.

Referring to FIG. 5, the output signal generator 25 may superimpose the noise over the entire area of the organic light emitting panel.

That is, the output signal generator 25 superimposes the noise from the noise generator 27 on all video data (RGB or RGBW) input from the outside, and outputs the corrected video data R`G`B or R`G `B`W`) can be generated and output.

The noise may be a random noise having a constant amplitude. That is, the noise is the same in size, but may be randomly superimposed.

The output signal generator 25 can be designed with a simple algorithm by superimposing the noise over the entire area of the organic light emitting panel.

The output signal generator 25 can prevent the boundary 11 from being visually recognized by randomly superimposing the random noise over the entire area of the organic luminescent panel 10. [ That is, the boundary surface that may occur in the boundary portion 11 is blurred to improve the image quality.

FIG. 6 is a view illustrating noise for a region of the organic light emitting panel according to the third embodiment.

The organic luminescent panel according to the third embodiment is different from the first embodiment in that the amplitude of the noise is changed, and the remaining components are the same. Therefore, in describing the third embodiment, the same reference numerals are assigned to the components common to those of the first embodiment, and a detailed description thereof is omitted.

Referring to FIG. 6, the output signal generator 25 may vary the amplitude of the noise and output the superimposed signal to the organic luminescent panel 10.

The output signal generating unit 25 superimposes noises having a large amplitude on the boundary 11 of the organic luminescent panel 10 and superimposes noise having a small amplitude on the boundary 11 to the central region have.

That is, the noise can be output with the largest amplitude at the boundary 11 and with the smallest amplitude at the center region.

The output signal generator 25 superimposes the noise with the largest amplitude at the boundary 11 where the boundary surface can be seen and superposes the noise with the small amplitude gradually toward the center area to output the noise. It is possible to prevent the poet. In addition, by superimposing the noise gradually smaller in amplitude toward the central region, it is possible to prevent the image difference between the region where the noise is applied and the region where the noise is not applied.

This makes it possible to improve the image quality of the display device.

7 is a block diagram showing a timing controller and a data driver according to the fourth embodiment.

The fourth embodiment is the same as the first embodiment except that the timing controller further includes a deviation extracting section. Therefore, in describing the fourth embodiment, the same reference numerals are assigned to the components common to those of the first embodiment, and a detailed description thereof will be omitted.

7, the timing controller 20 according to the fourth embodiment includes an extracting unit 21, a compensating unit 23, an output signal generating unit 25, a deviation extracting unit 26, and a noise generating unit 27 ).

The data driver 40 includes a plurality of driver ICs 41 and the plurality of driver ICs 41 may each include an ADC (Analog to Digital Converter) 43.

The ADC 43 converts the sensing voltage Vsen, which is an analog voltage, into a sensing signal Sen, which is a digital value, and transmits the sensing signal Sen to the timing controller 20. The sensing signal Sen may be input to the extraction unit 21 and the deviation extraction unit 26 of the timing controller 20.

The deviation extractor 26 receives the sensing signal Sen and can extract a deviation of a plurality of ADCs 43 using the sensing signal Sen. The deviation extractor 26 may extract an analog-to-digital conversion deviation of the plurality of ADCs 43 using the sensing signal Sen.

The deviation extractor 26 may transmit the conversion deviation information of the ADC 43 to the output signal generator 25.

The output signal generator 25 receives input from the outside as video data (RGB or RGBW), compensation value input from the compensation unit 23, noise input from the noise generator 27, (R`G`B or R`G`B`W`) can be generated using the conversion error information received from the input terminal (26). The output signal generator 25 may transmit the corrected video data R`G`B or R`G`B`W` to the data driver 40. [

The output signal generator 25 may compensate the conversion error using the conversion error information of the ADC 43. [ That is, the corrected video data (R`G`B or R`G`B`W) may be a value obtained by compensating the conversion deviation in the video data (RGB or RGBW).

The output signal generator 25 may change the magnitude of the noise to be superposed through the conversion deviation information of the ADC 43.

For example, noise having a large amplitude can be superimposed on the boundary 11 where the conversion error of the adjacent ADC 43 is large, and noise can be superimposed on the boundary 11 having the small conversion deviation of the adjacent ADC 43, Can be superimposed. Further, it is possible to output the noise without overlapping the boundary portion 11 where there is no conversion deviation of the adjacent ADC 43.

That is, the corrected video data R'G`B`W may be a value obtained by compensating the conversion error of the ADC 43 in the video data (RGB or RGBW), compensating the threshold voltage, and superimposing the noise.

The output signal generator 25 changes the magnitude of the noise to be superimposed on the conversion error information of the ADC 43 so as to prevent noise from appearing on the boundary surface only by visually recognizing the boundary surface to improve the image quality . In addition, noise is not applied to an area where noise superimposition is unnecessary, and image quality can be improved.

10: Organic luminescent panel
20: Timing controller
21:
23:
25: Output signal generating section
26: deviation extracting unit
27:
30: Scan driver
40: Data driver
41: Driver IC
43: ADC

Claims (12)

A plurality of driver ICs including respective ADCs;
An organic light emitting panel having a plurality of regions corresponding to the plurality of driver ICs; And
And a timing controller which receives a sensing signal from the ADC, generates compensated video data using the sensing signal, and outputs the compensated video data to the driver IC,
Wherein noise is superimposed on a boundary of a plurality of regions of the organic light emitting panel. The method according to claim 1,
Wherein the timing controller superposes the noise on the compensated video data and outputs the superposed video data. The method according to claim 1,
Wherein the noise has the same amplitude at the boundary portion. The method according to claim 1,
Wherein the noise has the same amplitude in the entire region of the organic luminescent panel. The method according to claim 1,
Wherein the noise is reduced in amplitude from the boundary to the central region. The method according to claim 1,
Wherein the noise is random noise. The method according to claim 1,
Wherein the noise has a predetermined rule. The method according to claim 1,
Wherein the compensated video data is a value compensated for a threshold voltage measured through the sensing signal. The method according to claim 1,
The timing controller includes:
An extracting unit for extracting a threshold voltage through the sensing signal;
A compensation unit for generating a threshold voltage compensation value through the extracted threshold voltage;
A noise generating unit for generating the noise; And
And an output signal generation unit for generating the corrected video data using the threshold voltage compensation value, noise, and video data from outside. 10. The method of claim 9,
The timing controller includes:
And a deviation extracting unit for extracting a conversion deviation of the plurality of ADCs. 11. The method of claim 10,
Wherein the output signal generating unit changes the amplitude of the noise to be superimposed through the conversion deviation information from the deviation extracting unit. 11. The method of claim 10,
Wherein the output signal generation unit compensates video data through conversion deviation information from the deviation extracting unit.

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