KR100649170B1 - Apparatus for realizing video quality of organic electro-lumineascence display panel and method thereof - Google Patents

Abstract

A device and a method for securing image quality of an organic EL(Electroluminescence) display panel are provided to increase resolution of the display panel by driving scan line driving circuits in turn according to each frame by installing the scan line driving circuits at both ends of scan lines. In an organic EL display panel(10) comprising organic EL elements connected to data lines(D1~Dn) and scan lines(S1~Sm) arranged in a matrix form, respectively and a data line driving circuit(30) and a scan line driving circuit(20) applying a data signal and a scan signal to the data and scan lines, and making the organic EL element emit the light by the data signal and the scan signal; the scan line driving circuits are installed at left and right sides of the scan line and driven in turn for every frames according to a control signal of a microcomputer(40).

Description

Apparatus for realizing video quality of organic electro-lumineascence display panel and method

1 is a circuit diagram showing a conventional organic EL display panel driver.

2 is a diagram schematically showing the brightness of an organic EL element of a conventional organic EL display panel.

3 and 4 are operational state diagrams of the organic EL display panel driver according to the present invention;

5, 6, and 7 are diagrams schematically showing the brightness of the organic EL elements of the organic EL display panel driver and method according to the present invention.

<Explanation of symbols for main parts of the drawings>

10: display panel 20: scan line driving circuit

30: data line driving circuit 40: microcomputer

The present invention relates to an apparatus and a method for implementing an image quality of an organic EL display panel. More particularly, the present invention relates to an apparatus and method for implementing an image quality of an organic EL display panel. An apparatus and method for implementing image quality of an organic EL display panel are disclosed.

Currently used image display devices include a cathode ray tube (CRT), a flat panel display device (LCD), a plasma display panel (PDP), an organic EL, and the like.

Among the image display devices, the cathode ray tube has superior performance to other devices in terms of image quality and brightness. However, there are disadvantages in that they are not suitable for applications requiring a large screen because they are bulky and heavy.

On the other hand, the flat panel display device has an advantage that the volume and weight is very small compared to the cathode ray tube, and its use is gradually increasing, and research on the display device as a next generation display device is being actively conducted.

In particular, the organic EL is a flat panel display using self-luminous phenomena in which electrons and holes are combined to emit light when an external electric field is applied to the fluorescent organic light emitting material, and the vertical electrode pattern and the horizontal electrode pattern of the upper and lower glass faces each other. As the electric field is applied to the organic light emitting material at the composition intersection between them, it emits light to display various letters or patterns.

In addition, since the organic EL display responds at high speed and uses the self-luminous organic EL element as a pixel, there is no problem in the viewing angle, and it is suitable for any moving picture display medium from small to large. In addition, it is suitable for flat panel displays because it consumes less power, does not need backlight, and is manufactured in thin film form. As the most influential next generation display equipped, it is currently in the spotlight as a display of mobile devices such as mobile communication terminals, PDAs, camcorders, Palm PCs.

Fig. 1 is a circuit configuration diagram showing a driving apparatus of a conventional organic EL display panel, and Fig. 2 is a diagram schematically showing the brightness of an organic EL element of a conventional organic EL display panel.

As shown here, the driving apparatus of the organic EL display panel is composed of the organic EL display panel 10, the scan line driving circuit 12 and the data line driving circuit 14, and the structure and function of each of these blocks. This is as follows.

In the organic EL display panel 10, scan lines S1, S2,..., Sm and data lines D1, D2,..., Dn are arranged in a matrix form, and a scan is arranged in a matrix form. The organic EL element EL in the form of a diode is connected between the lines S1, S2, .., Sm and each of the data lines D1, D2, ..., Dn.

The anode of the organic EL element EL is connected to the data lines D1, D2, ..., Dn, and the cathode is connected to the scan lines S1, S2, ..., Sm. . The scan line driver circuit 12 sequentially drives m scan lines S1, S2, ..., Sm. The data line driving circuit 14 inputs n bits of data D of the corresponding scan line and outputs a data signal to the n data lines D1, D2, ..., Dn.

The organic EL element operates similarly to a light emitting diode to apply a "low" level voltage to the scan line and emit light when a voltage equal to or higher than the forward voltage of the organic EL element EL is applied to the data line.

That is, the scan line driving circuit 12 applies a data signal to the data lines D1, D2, ... Dn within one frame period, and scans the scan lines S1, S2, ..., Sm. When the signal is sequentially applied, each organic EL element is turned on. If the voltage applied to the data line is higher than the forward voltage of the organic EL element, the organic EL element emits light, and the voltage applied to the data line is the forward direction of the organic EL element. If it is lower than the voltage, the organic EL element does not emit light.

That is, the organic EL element emits light when a voltage applied to the anode is applied with a voltage higher than the forward voltage than the voltage applied to the cathode, and does not emit light when a voltage lower than the forward voltage is applied.

However, when the scan line pattern is installed on the left side of the display panel 10 or the left and right sides and connected in a one-to-one manner as described above, the resolution is increased and the size of the display panel 10 is increased. Although there is an advantage, as shown in FIG. 2, the brightness of the screen is different due to the longer lines, there was a problem that could not maintain a constant brightness.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and implements image quality of an organic EL display panel in which scan line driving circuits are installed at both ends of scan lines so that the scan line driving circuits can alternately drive every frame. It is an object of the present invention to provide an apparatus and method.

The configuration of the present invention devised to achieve the above object is as follows. The present invention includes a data line driving circuit and a scan line driving circuit for connecting an organic EL element to a data line and a scan line arranged in a matrix form and applying a data signal and a scan signal to the data line and the scan line. In an organic EL display panel which emits the organic EL element through a signal and a scan signal, the scan line driver circuits are provided at both left and right ends of the scan line to alternately drive every frame according to a control signal of a microcomputer. It features.

The scan line driver circuit may include a switching unit configured to switch the scan line to be connected to ground according to whether the scan line driver circuit is driven.

In addition, an organic EL device is connected to data lines and scan lines arranged in a matrix form, and a data line driver circuit and a scan line driver circuit are configured to apply data signals and scan signals to the data lines and scan lines. And a method of realizing an image quality of an organic EL display panel which emits the organic EL elements through a scan signal, wherein the scan line driver circuits are installed at both ends of left and right sides of the scan line to alternately apply the scan signal every frame. It features.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

3 and 4 are operational state diagrams of the organic EL display panel driver according to the present invention, and FIGS. 5, 6 and 7 schematically illustrate the brightness of the organic EL element according to the organic EL display panel driver and the method according to the present invention. The figure shown.

The organic EL panel display panel driving apparatus according to the present invention comprises an organic EL display panel 10, a scan line driving circuit 20, a data line driving circuit 30, and a microcomputer 40.

In the organic EL display panel 10, scan lines S1, S2,..., Sm and data lines D1, D2,..., Dn are arranged in a matrix form, and a scan is arranged in a matrix form. The organic EL element EL in the form of a diode is connected to each of the lines S1, S2, .., Sm and the data lines D1, D2, ..., Dn. The anode of the organic EL element EL is connected to the data lines D1, D2, ..., Dn, and the cathode is connected to the scan lines S1, S2, ..., Sm. . The scan line driver circuit 12 sequentially drives m scan lines S1, S2,..., Sm. The data line driving circuit 14 inputs n bits of data D of the corresponding scan line and outputs data to the n data lines D1, D2, ..., Dn.

The data line driving circuit 30 outputs a data signal to the data lines D1, D2, ..., Dn when the scan lines S1, S2, ... Sm are selected by the scan signal.

In addition, the scan line driving circuit 20 outputs a scan signal to the scan lines S1, S2, ..., Sm according to the control signal of the microcomputer 40 to scan lines S1, S2, ... , Sm is selected and is provided at both ends of the left and right sides of the scan lines S1, S2, ..., Sm, respectively.

Here, the left and right scan line driving circuits 20 are installed at both ends of the scan lines S1, S2, ..., Sm, and alternately drive every frame according to the control signal of the microcomputer 40. This is because the switching unit for connecting the scan lines (S1, S2, ..., Sm) to the ground inside the left / right scan line driving circuit 20 by the switching action of the switching unit in each frame corresponding scan line (S1, S2, ..., Sm) is driven. For example, when the switching unit of the left scan line driver circuit 20 connected to the scan lines S1, S2, ..., Sm is connected to ground in the Nth frame, the scan line S1 is also used in the N + 1th frame. The switching unit of the right scan line driver circuit 20 connected to S2, ..., Sm is connected to ground.

As the scan lines S1, S2, ... Sm become longer, the brightness decreases due to internal resistance, etc., so that the N-th frame passes the scan line S2 to the left as shown in FIG. 5, the brightness is lowered from the left to the right as shown in FIG. 5, and in the N + 1 th frame, a path is formed to the right through the scan line S2 as shown in FIG. As shown from left to right, the brightness increases.

That is, since the left and right scan line driving circuits 20 are alternately driven every frame, as shown in FIG. 5, in the Nth frame, the brightness of the organic EL element is increased from the left to the right in the display panel 10. On the other hand, in the N + 1th frame, since the brightness of the organic EL element becomes smaller from the right to the left, as shown in FIG. 7, the display panel 10 has the brightness of both left and right sides as a whole. Can be kept substantially constant, so that the viewer can watch the organic EL display panel of almost constant brightness in the high resolution display panel 10. FIG.

Lastly, the microcomputer 40 controls the left / right scan line driving circuits 20 to be alternately driven. For example, when the left scan line driving circuit 20 is driven in the Nth frame, the next N In the + 1th frame, the right scan line driver circuit 20 is driven to alternately drive the left and right scan line driver circuits 20 as described above.

Here, the microcomputer 40 may employ a conventional microcomputer, but may also employ a microcomputer suitable for the technical concept of the present invention.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the scope of the technical idea of the present invention.

According to the present invention configured as described above, scan line driving circuits are respectively provided at both ends of the scan lines, and the scan line driving circuits are alternately driven every frame, thereby increasing the resolution of the display panel and increasing the size thereof. The display brightness difference can be eliminated.

Claims (3)

An organic EL device is connected to a data line and a scan line arranged in a matrix form, and includes a data line driver circuit and a scan line driver circuit for applying a data signal and a scan signal to the data line and the scan line. An organic EL display panel which emits light of the organic EL element through a signal, And the scan line driver circuits are respectively provided at both ends of the left and right sides of the scan line to alternately drive the frames according to the control signal of the microcomputer. The organic EL display panel image quality implementing apparatus according to claim 1, wherein each of the scan line driving circuits comprises a switching unit which switches the scan lines to be connected to ground according to whether the scan lines are driven or not. An organic EL device is connected to a data line and a scan line arranged in a matrix form, and includes a data line driver circuit and a scan line driver circuit for applying a data signal and a scan signal to the data line and the scan line. In the image quality realization method of the organic EL display panel which emits the organic EL element through a signal, And installing the scan line driver circuits on both left and right ends of the scan line to alternately apply the scan signal every frame.

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