KR20060060257A - Driving method of organic electro luminescence display panel - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of driving an organic EL display panel, wherein scan lines and data lines are arranged in a matrix form, and a diode type organic EL element is disposed between each of the scan lines and data lines arranged in a matrix form. In the method of driving the connected organic EL display panel, when the scan line driving signal falls, the voltage is drastically lowered to a lower voltage than the low potential for a predetermined time and then maintained at a low potential. After driving at high potential after driving, it is possible to compensate the delay distortion of the driving signal by RC component according to capacitance and wiring resistance at the intersection point between scan lines and data lines arranged in matrix form. Can improve the contrast ratio As well as keel reduces the delay of the scanning line drive signal has an advantage capable of driving a panel of large size.

OLED, organic EL, display, power consumption, scan line, drive signal, horizontal synchronization, capacitance, current density

Description

Driving method of organic EL display panel {DRIVING METHOD OF ORGANIC ELECTRO LUMINESCENCE DISPLAY PANEL}             

1 is a circuit configuration diagram showing a driving device of a general organic EL display panel.

2 is a graph showing driving signals for driving a general organic EL display panel.

3 is a graph showing driving signals for explaining a method for driving an organic EL display panel according to the present invention.

   -Explanation of symbols for the main parts of the drawings-

10: organic EL display panel

12: scan line driving circuit

14: data line driving circuit

20, 25, 40, 45: scan line drive signal

30: data line drive signal

EL: Organic EL Device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of driving an organic EL display panel, and more particularly, scan lines and data lines are arranged in a matrix form, and diodes are disposed between each of the scan lines and data lines arranged in a matrix form. In a method of driving an organic EL display panel having organic EL elements connected thereto, when the scan line driving signal falls, the voltage is rapidly lowered to a lower voltage than a low potential for a predetermined time, and then maintained at a low potential and higher than a high potential for a predetermined time when the scan line driving signal falls. By driving it by increasing the voltage rapidly and maintaining it at high potential, it is possible to compensate the delay distortion of the driving signal due to the RC component according to the capacitance and wiring resistance at the intersection point between the scan lines and the data lines arranged in the matrix form. Of driving method of organic EL display panel The.

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 the advantage that the volume and weight is very small compared to the cathode ray tube, the use thereof is gradually increasing, the research for the 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.

1 is a circuit configuration diagram showing a driving device of a general 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 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 organic EL element EL 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, when the selection signal is sequentially applied to the scan lines S1, S2, ..., Sm within one frame period in the scan line driving circuit 12, the scan lines S1, S2, ..., Sm Are each selected.

Thereafter, when the scan line is selected, the data line driver circuit 14 outputs data of the corresponding scan line to the data lines D1, D2, ..., Dn.

At this time, when the voltage applied to the data line is higher than the forward voltage of the organic EL element EL, the organic EL element EL emits light, and when the voltage applied to the data line is lower than the forward voltage of the organic EL element EL. The organic EL element EL does not emit light.

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

However, since the organic EL display panel 10 is formed in a matrix form in which the scan lines S1, S2,..., Sm and the data lines D1, D2,. Parasitic capacitance component is formed by lines intersecting the capacitance component by the cell at portions where S1, S2, ..., Sm and data lines D1, D2, ..., Dn intersect. Also, wiring resistances of the scan lines S1, S2, ..., Sm and the data lines D1, D2, ..., Dn are also generated to generate the scan line driver circuit 12 or the data line driver circuit ( In the case of a cell located far from 14, the resistance component is also increased.

When the capacitance components and the wiring resistances formed at the intersections are added together, the distortion of the driving signal is generated due to the RC component having a large value.

For example, a method of driving the Sm-Dn cell in which the Sm scan line and the Dn data line that are farthest from the scan line driver circuit 12 and the data line driver circuit 14 intersect is shown in FIG. A driving signal for driving the display panel will be described with reference to the graph.

As shown here, first, the scan line driving signal 12 drops the scan line driving signal from the high potential to the low potential through the Sm scan line. In this case, high-potential data is applied to the data line driving signal 30 according to the horizontal synchronization signal H-sync through the Dn data line. Accordingly, the forward voltage D is applied to the Sm-Dn cells to emit light.

By the way, the scan line driving signal in the Sm-Dn cell is substantially delayed and distorted by the RC component as indicated by reference numeral 25 so that the scan line driving signal does not fall to the low potential even when the data line driving signal 30 is applied with high potential data. Therefore, since the time taken for the forward voltage is reduced, even if the size of the organic EL display panel 10 is increased a little, the light near and far from the scan line driver circuit 12 or the data line driver circuit 14 are dark. On the other hand, if the scan line delay is severe, the 'ON' and 'OFF' sections are not clearly distinguished, and the forward voltage is weakly applied even in the 'ON' section, resulting in faint light emission or for the next selected scan line even in the 'OFF' section. Large screen because light emission is weak due to data line driving signal and contrast ratio is reduced There is a problem in the driving impossible.

The present invention has been made to solve the above problems, and an object of the present invention is to arrange a scan line and a data line in a matrix form, and a diode between each of the scan lines and data lines arranged in a matrix form. In a method of driving an organic EL display panel configured by connecting organic EL elements of a type, when the scan line driving signal falls, the voltage is rapidly lowered to a lower voltage than a low potential for a predetermined time, and then maintained at a low potential and a high potential for a predetermined time. By rapidly increasing to a higher voltage and maintaining it at a high potential, it is possible to compensate for the delayed distortion of the driving signal due to the RC component due to capacitance and wiring resistance at the intersection point between the scan lines and the data lines arranged in a matrix form. Provides a method of driving an organic EL display panel Is in.

The present invention for realizing the above object is a plurality of scan lines and a plurality of data lines are arranged in a matrix form, a plurality of scan lines and a plurality of data lines arranged in a matrix form each of the diode form Outputs a scan line driving signal for sequentially selecting a plurality of scan lines and outputs data of the selected scan line as a data line to an organic EL display panel having a plurality of organic EL elements connected thereto; In the driving method of an organic EL display panel which outputs and drives a signal, when the scan line driving signal falls, the voltage is rapidly lowered to a lower voltage than a low potential for a predetermined time, and then maintained at a low potential. High potential after sharp rise to high voltage Characterized in that for holding.

In the present invention, a predetermined time for rapidly raising or lowering is within a horizontal synchronous signal section.

Further, in the present invention, the voltage and the predetermined time for rapidly raising or lowering are controlled according to the RC component of the organic EL display panel.

According to the present invention as described above, in order to correct the delay distortion of the scan line driving signal generated by the RC component of the organic EL display panel, when the scan line driving signal falls, the voltage is drastically lowered to a voltage lower than the low potential for a predetermined time. When rising, the voltage rises rapidly to a voltage higher than the high potential for a certain period of time, and then maintains the high potential to increase the current density when the signal transitions, thereby reducing the delay time, thereby compensating for the distortion of the signal to increase the panel uniformity and increasing the contrast ratio. do.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only and the same parts as in the conventional configuration using the same reference numerals and names.

As shown in FIG. 1, in the organic EL display panel 10, the scan lines S1, S2,..., Sm and the data lines D1, D2,. The organic EL element EL in the form of a diode between each of the scan lines S1, S2,... Sm and the data lines D1, D2,... Is applied to the connected PM (Passive Mode) type.

Therefore, the driving method of the present invention is described using, for example, an Sm-Dn cell in which the Sm scan line and the Dn data line of the organic EL display panel 10 configured as described above intersect, and the driving method of the organic EL display panel shown in FIG. Referring to the graph showing the drive signal for explaining as follows.

As shown here, the scan line driving signal is rapidly lowered to a voltage lower than the low potential for a predetermined time when descending as shown by reference numeral 40, and then maintained at a low potential and then rapidly increased to a voltage higher than the high potential for a predetermined time when rising. Drive to maintain high potential.

In this case, a predetermined time for rapidly raising or lowering is not only adjusted according to the RC component within the horizontal synchronous signal (H-sync) section, but also the voltage width of the voltage higher or lower than the general high potential and low potential.

In other words, when the RC component is large, the voltage for rapidly raising or lowering is increased to maintain a high current density, thereby compensating for the delay distortion by reducing the charge / discharge time due to capacitance.

In the driving method of the organic EL display panel 10 according to the present invention thus constructed, first, the scan line driving signal 12 outputs a scan line driving signal as shown by reference numeral 40 through the Sm scan line.

At this time, high-potential data is applied to the data line driving signal 30 according to the horizontal synchronization signal H-sync through the Dn data line. Accordingly, the forward voltage D is applied to the Sm-Dn cells to emit light.

By the way, the scan line driving signal in the Sm-Dn cell is substantially charged and discharged by the RC component as shown by reference numeral 45, but when it descends, the voltage is lowered to a lower voltage than the low potential for a predetermined time and then maintained at a low potential and then raised. As the charging and discharging time is shortened by increasing the current density and increasing the current density by rapidly increasing the voltage to a voltage higher than the high potential for a certain time, the delay time does not deviate from the horizontal synchronous signal (H-sync) section. This compensates for the delay distortion caused by the RC component.

Therefore, even when the cell is far from the scan line driver circuit 12 or the data line driver circuit 14, the delay distortion due to the RC component does not occur, so the 'ON' section and the 'OFF' section are clearly distinguished and induced. As the same scan line driving signal is applied to the whole of the EL display panel 10, not only can uniformity be significantly improved, but also the contrast ratio is increased, and the delay of the scan line driving signal is reduced, thereby making the panel of a large size. Can be driven.

As described above, the present invention provides an organic EL display panel in which scan lines and data lines are arranged in a matrix form, and diode-type organic EL elements are connected between each of the scan lines and data lines arranged in a matrix form. In the method of driving, when the scan line driving signal falls, the voltage is drastically lowered to a lower voltage than the low potential for a predetermined time, and then maintained at a low potential. As a result, the delay distortion of the driving signal due to the capacitance and the wiring resistance at the intersection between the scan lines and the data lines arranged in the matrix form can be compensated.

In addition, by compensating for the delay distortion of the driving signal, the uniformity of the entire panel can be improved and the contrast ratio can be increased.

In addition, it is possible to drive a large size panel by reducing the delay of the scan line driving signal.

Further, by reducing the driving power for driving the organic EL display panel, there is an advantage that not only can increase the life of the organic EL element but also drive a large size panel.

Claims (3)

A plurality of scan lines and a plurality of data lines are arranged in a matrix form, and a plurality of organic EL elements in a diode form are connected between each of the plurality of scan lines and a plurality of data lines arranged in a matrix form. An organic EL display panel outputs a scan line driving signal for sequentially selecting a plurality of scan lines with respect to the EL display panel, and outputs and drives a data line driving signal for outputting data of the selected corresponding scan line as a data line. In the driving method, In this case, when the scan line driving signal falls, the voltage is drastically lowered to a lower voltage than the low potential for a predetermined time and then maintained at a low potential. A driving method of an organic EL display panel characterized by the above-mentioned. The method of driving an organic EL display panel according to claim 1, wherein a predetermined time for rapidly raising or lowering is within a horizontal synchronous signal section. The method of driving an organic EL display panel according to claim 1, wherein a voltage and a predetermined time for rapidly raising or lowering are adjusted according to the RC component of the organic EL display panel.

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