KR20120078442A - Organic light emitting diode display device and method for driving the same - Google Patents

Abstract

PURPOSE: An organic light emitting diode display device and method for driving the same are provided to increase display quality by exactly compensating deteriorating characteristic of OLED. CONSTITUTION: A display panel(2) defines pixels by the intersection of a plurality of gate and data lines. A gate driving unit(4) drives the plurality of gate lines. A data driving unit(6) drives the plurality of data lines. A timing control unit(8) sets accumulated amounts and compensating degree of image data according to the outside temperature. The timing control unit includes a control signal generation unit, average gradation detection unit, and deterioration unit.

Description

Organic light emitting diode display and its driving method {ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE AND METHOD FOR DRIVING THE SAME}

The present invention relates to an organic light emitting diode display device and a method of driving the same, which can improve display quality by compensating for deterioration characteristics of an OLED.

Recently, an organic light emitting diode (OLED) display device, which displays an image by controlling an emission amount of an organic light emitting layer, has been spotlighted as a flat panel display device that can reduce weight and volume, which is a disadvantage of a cathode ray tube (CRT). .

In the OLED display, a plurality of pixels are arranged in a matrix to display an image. Here, each pixel includes an OLED and a pixel driver that independently drives the OLED, and the pixel driver controls brightness of each pixel by adjusting an amount of current flowing through the OLED.

On the other hand, the OLED has a deterioration accelerated as the driving time increases, and the light emitting ability decreases. However, since the OLED's deterioration rate is different for each pixel, the display quality deteriorates due to the change in luminance even when the same data voltage is applied. Therefore, there is a need for research on a method for minimizing display quality degradation due to deterioration of OLED.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide an organic light emitting diode display device and a method of driving the same, which can improve display quality by compensating for deterioration characteristics of an OLED.

In order to achieve the above object, an organic light emitting diode display device according to an exemplary embodiment of the present invention may include a display panel defining an intersection pixel between a plurality of gate lines and a plurality of data lines; A gate driver driving the plurality of gate lines; A data driver driving the plurality of data lines; And a timing controller which accumulates and analyzes input image data, outputs image data compensated for degradation characteristics of the OLED, and compensates the input image data differently according to an external temperature.

The timing controller accumulates and analyzes the input image data to detect an average image gray level, and an average gray level detector configured to set the cumulative amount of the image data differently according to the external temperature; An LUT unit for outputting a predetermined weight value as a deterioration compensation signal according to the average image gray level; And a degradation compensator configured to output image data in which degradation characteristics of the OLED are compensated in response to the degradation compensation signal.

The timing controller accumulates and analyzes the input image data to detect an average image gray level, and an average gray level detector configured to set the cumulative amount of the image data differently according to the external temperature; A LUT unit for outputting a predetermined weight value as a deterioration compensation signal according to the average image gray level and the external temperature; And a degradation compensator configured to output image data in which degradation characteristics of the OLED are compensated in response to the degradation compensation signal.

The average gray scale detector may increase the accumulated amount of the image data as the external temperature increases.

The LUT unit may include a plurality of lookup tables that look up table weight values for compensating for deterioration characteristics of the OLED for each gray level and temperature value.

The pixel includes a plurality of display pixels formed in a display area and a plurality of dummy pixels formed in a non-display area and formed in at least one edge area of the plurality of display pixels, wherein the plurality of dummy pixels are black. It is characterized in that it is set to express only the gradation.

The apparatus may further include a temperature sensor unit formed on a rear surface or a side surface of the display panel to detect the external temperature, change the detected temperature into a signal in the form of voltage or current, and supply the signal to the timing controller.

In addition, to achieve the above object, a method of driving an organic light emitting diode display according to an exemplary embodiment of the present invention includes accumulating and analyzing input image data and outputting image data compensated for degradation characteristics of an OLED; Setting a cumulative amount and a compensation degree of the image data differently according to an external temperature; And converting the image data whose degradation characteristics of the OLED are compensated into data voltages, and supplying the converted data voltages to the plurality of data lines.

The outputting of the image data may include accumulating and analyzing the input image data to detect an average image gray level, and differently setting the accumulation amount of the image data according to the external temperature; Outputting a predetermined weight value as a deterioration compensation signal according to the average image gradation; And outputting image data compensated for degradation characteristics of the OLED in response to the degradation compensation signal.

The outputting of the image data may include accumulating and analyzing input image data to detect an average image gray level; Outputting a weight value preset according to the average image gray level and the external temperature as a degradation compensation signal; And outputting image data compensated for degradation characteristics of the OLED in response to the degradation compensation signal.

The cumulative amount of the image data increases as the external temperature increases.

The present invention reflects an average image gray level (APL) obtained by accumulating and analyzing image data RGB in outputting image data RGB of an OLED, and also reflects an external temperature factor. Accordingly, deterioration characteristics of the OLED are compensated more accurately, and as a result, display quality can be improved by preventing poor image quality such as luminance unevenness.

1 is a block diagram of an OLED display according to an exemplary embodiment of the present invention.
2 is a block diagram of an OLED display according to another exemplary embodiment of the present invention.
3 is a configuration diagram of the timing controller 8 shown in FIG. 1.
4 is a configuration diagram of the LUT unit 16 shown in FIG. 3.

Hereinafter, an organic light emitting diode display and a driving method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an OLED display according to an exemplary embodiment of the present invention.

1 includes a display panel 2 defining pixels P and DP at intersections of a plurality of gate lines GL and a plurality of data lines DL; A gate driver 4 driving a plurality of gate lines GL; A data driver 6 for driving a plurality of data lines; And a timing controller configured to accumulate and analyze the input image data RGB, to output the image data RGB compensated for the degradation characteristics of the OLED, and to set the accumulation amount and the compensation degree of the image data RGB differently according to the external temperature. 8).

Here, the pixels P and DP may include a plurality of display pixels P formed in the display area, and a plurality of dummy pixels formed in the non-display area and formed in at least one edge area of the display pixels P. (DP). The dummy pixel DP does not display an image and is intended to detect deterioration characteristics of the OLED due to external environmental factors, for example, deterioration of the OLED according to external temperature. To this end, the dummy pixel DP is set to express only gray levels of black when driving. As described above, the degradation information of the OLED according to the external temperature detected by the dummy pixel DP is supplied to the timing controller 8 as the temperature signal TS, and the timing controller 8 determines the external temperature using the same.

Meanwhile, unlike the exemplary embodiment, the method of determining the external temperature by the timing controller 8 may be variously changed. That is, as shown in Figure 2, another embodiment of the present invention is formed on the back or one side of the display panel 2 to detect the external temperature, and the detected temperature is a temperature signal (TS) in the form of voltage or current The temperature sensor unit 10 may be additionally included to supply the change to the timing controller 8.

The timing controller 8 determines the external temperature in the above manner and uses it to compensate for the degradation of the OLED. The timing controller 8 will be described in detail as follows.

3 is a configuration diagram of the timing controller 8 shown in FIG. 1.

The timing controller 8 shown in FIG. 3 includes a control signal generator 12, an average gray scale detector 14, an LUT unit 16, and a deterioration compensator 18. As shown in FIG.

The control signal generator 12 generates and outputs a gate control signal GCS and a data control signal DCS to control the driving timing of the gate driver 4 and the data driver 6.

Here, the gate control signal GCS includes a plurality of clock pulses having different phase differences, a gate start pulse GSP indicating a start of driving of the gate driver 4, and the like. The data control signal DCS includes a source output enable (SOE) for controlling an output period of the data driver 6, a source start pulse (SSP) for instructing the start of data sampling, and data. And a source shift clock (SSC) for controlling the sampling timing of the signal.

The average gradation detector 14 accumulates and analyzes the input image data RGB to detect an average picture level APL. The average image gradation may be calculated for data of one frame or one horizontal line, or may be calculated by accumulating data of several frames.

The average gray scale detection unit 14 according to an exemplary embodiment sets the cumulative amount of the image data RGB differently according to the temperature signal TS of the external temperature to detect the average gray scale. In detail, the average gray scale detector 14 increases the accumulated amount of the data RGB as the external temperature increases when accumulating the image data RGB. In the case of accumulation, the weight is calculated by adding or multiplying the weight value of the value corresponding to the temperature signal TS to the image data RGB, and the accumulation amount increases as the external temperature increases.

The LUT unit 16 outputs a weight value set in advance according to the average image gray level APL detected by the average gray scale detection unit 14 as the deterioration compensation signal CS. The preset weight has a higher weight as the average image gray level (APL) is higher.

The degradation compensation unit 18 receives the degradation compensation signal CS from the LUT unit 16 to compensate for the image data RGB. When compensation is performed, the received weight is added or multiplied, and through this, image data RGB is compensated to compensate for image quality reduction due to deterioration.

In the compensation, the data may be directly compensated, or the voltage applied to the data driver 6 may be compensated to increase the data voltage or current applied to the display panel 2.

The average gradation detector 14 according to another embodiment of the present invention accumulates the image data RGB to detect the average image gradation, and the average image gradation detected by the average gradation detector 14 in the LUT unit 16 (APL). ) And the weight value preset according to the external temperature is output as the degradation compensation signal CS. That is, the LUT 16 not only sets the weight value differently in response to the average image gray level APL of the input image data RGB, but also sets the weight value differently according to the external temperature.

To this end, as shown in FIG. 4, the LUT unit 16 looks up a table of weights for compensating for deterioration characteristics of the OLED for each gray level and temperature value. Here, the weight value is a gain value added or multiplied when converting the input image data RGB into image data RGB compensated for degradation characteristics of the OLED.

That is, the LUT unit 16 sets the weight value differently according to the gray level included in the average image gray level APL, and sets the weight value differently even if the temperature is different even in the same gray level.

For example, when the gradation included in the average image gradation APL is 254 and the external temperature is 25 degrees, the weight value is set to 9.965. However, even if the average image gray level (APL) is equal to 254, it can be seen that the weight value is changed to 15.942 when the external temperature is 55 degrees.

The degradation compensation unit 18 receives the degradation compensation signal CS from the LUT unit 16 to compensate for the image data RGB. When compensation is performed, the received weight is added or multiplied, and through this, image data RGB is compensated to compensate for image quality reduction due to deterioration.

In the compensation, the data may be directly compensated, or the voltage applied to the data driver 6 may be compensated to increase the data voltage or current applied to the display panel 2.

As described above, the embodiment of the present invention reflects an average image gray level obtained by accumulating and analyzing the image data RGB in outputting the image data RGB in which the degradation characteristics of the OLED are compensated for, and in addition to the external temperature. Factors are also reflected. Accordingly, the deterioration characteristics of the OLED can be compensated more accurately, and as a result, it is possible to prevent image quality defects such as luminance unevenness.

Hereinafter, the gate driver 4 and the data driver 6, which are the remaining components shown in FIG. 1, will be briefly described.

The gate driver 4 is a shift register that sequentially generates scan signals in response to the gate control signal GCS provided from the timing controller 8, and sets a swing width of the scan signals to a level suitable for driving the pixels P and DP. It consists of a level shifter, an output buffer, and the like for shifting. The gate driver 4 supplies a scan signal to the gate lines GL, thereby turning on the switching TFTs connected to the gate line GL to supply the pixels P of one horizontal line to which a data voltage is supplied. DP). The gate driver 4 may be embedded in the display panel 2 in a gate in panel manner.

The data driver 6 converts the image data RGB provided from the timing controller 8 into a data voltage according to the data control signal DCS provided from the timing controller 8, and converts the converted data voltage into a data voltage DL. Supplies).

To this end, the data driver 6 includes a shift register for sequentially outputting a sampling signal according to a source sampling clock, a latch unit for latching and outputting image data RGB provided from the timing controller 8 by one horizontal line; And a DAC unit for converting and outputting the gamma voltage corresponding to the image data output from the latch unit to the data voltage.

On the other hand, the data driver 6 receives the degradation information of the OLED according to the temperature from the dummy pixel DP through the data line DL and supplies it to the timing controller 8 as a temperature signal TS.

As described above, the embodiment of the present invention reflects an average image gray level obtained by accumulating and analyzing the image data RGB in outputting the image data RGB in which the degradation characteristics of the OLED are compensated. It also reflects external temperature factors. Accordingly, deterioration characteristics of the OLED are compensated more accurately, and as a result, display quality can be improved by preventing poor image quality such as luminance unevenness.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

TS: temperature signal DP: dummy pixel

Claims (11)

A display panel defining pixels at intersections of the plurality of gate lines and the plurality of data lines;
A gate driver driving the plurality of gate lines;
A data driver driving the plurality of data lines; And
And a timing controller configured to accumulate and analyze input image data to output image data compensated for degradation characteristics of the OLED, and to compensate the input image data differently according to an external temperature. The method of claim 1,
The timing controller
An average gray level detector configured to accumulate and analyze input image data to detect an average image gray level, and to set an accumulation amount of the image data differently according to the external temperature;
An LUT unit for outputting a predetermined weight value as a deterioration compensation signal according to the average image gray level; And
And a deterioration compensator configured to output image data in which deterioration characteristics of the OLED are compensated in response to the deterioration compensation signal. The method of claim 1,
The timing controller
An average gradation detector configured to accumulate and analyze input image data and detect an average image gradation;
A LUT unit for outputting a predetermined weight value as a deterioration compensation signal according to the average image gray level and the external temperature; And
And a deterioration compensator configured to output image data in which deterioration characteristics of the OLED are compensated in response to the deterioration compensation signal. The method of claim 2,
The average gray scale detection unit
The organic light emitting diode display device of claim 1, wherein the accumulation amount of the image data increases as the external temperature increases. The method of claim 3, wherein
The LUT part
And a weight value for compensating for deterioration characteristics of the OLED for each gray level and temperature value. The method of claim 1,
The pixel is
A plurality of display pixels formed in the display area and a plurality of dummy pixels formed in the non-display area and formed in at least one edge area of the plurality of display pixels,
The plurality of dummy pixels may be configured to represent only gray levels of black. The method of claim 1,
The organic light emitting diode display device may further include a temperature sensor unit formed on a rear surface or a side surface of the display panel to detect the external temperature, and convert the detected temperature into a signal in the form of a voltage or a current to supply the timing controller. Diode display. Accumulating and analyzing the input image data and outputting image data compensated for degradation characteristics of the OLED;
Setting a cumulative amount and a compensation degree of the image data differently according to an external temperature; And
And converting the image data compensated for the degradation characteristics of the OLED into a data voltage and supplying the converted data voltage to a plurality of data lines. The method of claim 8,
The step of outputting the image data is
Accumulating and analyzing the input image data to detect an average image gray level, and setting an accumulation amount of the image data differently according to the external temperature;
Outputting a predetermined weight value as a deterioration compensation signal according to the average image gradation; And
And outputting image data compensated for degradation characteristics of the OLED in response to the degradation compensation signal. The method of claim 8,
The step of outputting the image data is
Accumulating and analyzing the input image data to detect an average image gray level;
Outputting a weight value preset according to the average image gray level and the external temperature as a degradation compensation signal; And
And outputting image data compensated for degradation characteristics of the OLED in response to the degradation compensation signal. The method of claim 9,
The cumulative amount of the image data increases as the external temperature increases.

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