KR100589787B1 - Driving apparatus of organic electro luminescence display panel - Google Patents

Abstract

The present invention relates to a driving device of an organic EL display panel, and to adjust the brightness of the organic EL display panel according to the brightness of the outside to brighten the brightness of the panel when the outside is bright and to adjust the matrix of the dark when the outside is dark An organic EL display panel having a plurality of scan lines arranged in a shape and a plurality of organic EL elements connected between each of the plurality of data lines, and a scan line for sequentially applying a selection signal to the plurality of scan lines A data line driving circuit for distributing the driving means, a data line driving circuit for outputting data to the plurality of data lines, a current supply source for supplying current to the organic EL display panel, and a current from the current supply source to the plurality of ports A current divider for applying And is mediated between a data line driving circuit is composed of an optical switch for controlling the amount of current passing depending on the ambient illumination.

Organic EL, OLED, light sensor, driving device, ambient brightness, external environment

Description

Driving device of organic EL display panel {DRIVING APPARATUS OF ORGANIC ELECTRO LUMINESCENCE DISPLAY PANEL}             

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

Fig. 2 is a circuit diagram showing a driving device of 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

16: optical switch

18: current divider

20: current supply source

EL: Organic EL Device

The present invention relates to a driving device of an organic EL display panel, and more particularly, to adjust the brightness of the organic EL display panel according to the external brightness to brighten the brightness of the panel when the outside is bright and to darken the panel when the outside is dark. The present invention relates to a driving circuit of an organic EL display panel that not only adjusts to reduce power consumption but also extends the life of the organic EL display panel.

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, the organic EL display exhibits high power panel characteristics such as low power, high brightness, high response speed, and low weight, and thus, has been in the spotlight as a display of portable devices such as mobile communication terminals, PDAs, camcorders, Palm PCs, and the like.

By the way, in the conventional organic EL display device, the brightness of the organic EL display device has always been constant regardless of the brightness of the ambient light. In other words, it was configured to display the same brightness for both the bright and dark ambient light.

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. At this time, the brightness of the organic EL element EL is the amount of current flowing through the organic EL element EL according to the on / off time of the column select switches C1, C3, ..., Cn whose operation time is controlled by the PWM signal. As the current amount increases, the brightness becomes brighter, and as the current amount decreases, the brightness decreases.

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, the voltage applied to the data lines D1, D2, ..., Dn of the conventional organic EL display panel 10 may be increased due to the same level of voltage applied regardless of the brightness of the ambient light. In addition, there is a problem in that the lifetime of the organic EL device is shortened.

The present invention was created to solve the above problems, an object of the present invention is to adjust the brightness of the organic EL display panel according to the brightness of the outside to brighten the brightness of the panel when the outside is bright and the panel is dark outside The present invention provides a driving device of an organic EL display panel that not only reduces the power consumption by darkening the power, but also extends the life of the organic EL display panel.

An organic EL display panel driving apparatus according to the present invention for achieving the above object is an organic having a plurality of organic EL elements connected between each of a plurality of scan lines and a plurality of data lines arranged in a matrix form Supplying current to the EL display panel, scan line driving means for sequentially applying a selection signal to the plurality of scan lines, a data line driving circuit for outputting data to the plurality of data lines, and an organic EL display panel And a current distributor for distributing the current from the current source to a plurality of ports and applying them to the data line driver circuit, and transferred between any one port of the current distributor and the data line driver circuit according to the ambient brightness. It is characterized by consisting of an optical switch for adjusting the amount of current.

At this time, the optical switch is characterized in that the transfer of the maximum current when it is bright and the minimum current when it is dark.

In the present invention, the organic EL display panel is in the passive mode.

Further, in the present invention, the organic EL display panel is characterized by being in active mode.

According to the present invention, since the amount of current transmitted through the optical switch is adjusted according to the brightness of the surrounding environment in which the organic EL display panel is driven, the overall amount of data current supplied to the organic EL display panel is adjusted according to the brightness of the organic EL display. The brightness of the panel changes according to the ambient brightness.

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.

Fig. 2 is a circuit diagram showing a driving device of an organic EL display panel according to the present invention.

As shown here, a plurality of scan lines S1, S2, ..., Sm arranged in a matrix form and a plurality of data lines connected between each of the plurality of data lines D1, D2, ..., Dn An organic EL display panel 10 having two organic EL elements EL, and a scan line driver circuit 12 for sequentially applying a selection signal to the plurality of scan lines S1, S2,..., Sm. ), A data line driving circuit 14 for outputting data to the plurality of data lines D1, D2, ..., Dn, and a current supply source for supplying current to the organic EL display panel 10 ( 20) and a current divider 18 for distributing the current of the current supply source 20 to the 'A' port and the 'B' port to be applied to the data line driving circuit 14, and the 'B' of the current divider 18. It consists of an optical switch 16 for adjusting the amount of current transmitted between the port and the data line driver circuit 14 according to the ambient brightness. At this time, the 'A' port of the current distributor 18 is directly supplied to the organic EL display panel 10.

Accordingly, the amount of current supplied to the organic EL display panel 10 is determined by the amount of current supplied to the 'A' port of the current distributor 18 and the amount of current at the 'B' port controlled through the optical switch 16.

At this time, since the optical switch 16 transmits the maximum current when the surroundings are bright, the amount of current supplied to the organic EL display panel 10 is supplied with all the current supplied from the current supply source 20 so that the organic EL display panel 10 Will emit light at maximum brightness.

However, since the minimum current is transmitted when the surroundings are dark, the amount of current supplied to the organic EL display panel 10 is supplied only through the 'A' port of the current divider 18 to supply the current. The brightness will darken.

In this way, the optical switch 16 adjusts the amount of data current according to the surrounding brightness to adjust the brightness of the organic EL display panel 10 to the surrounding brightness, thereby reducing power consumption and the organic EL element EL. It is possible to extend the life of the.

The organic EL display panel 10 shown in the present embodiment has been described as an example of the passive mode organic EL display panel 10, but the same applies to the organic EL display panel 10 in the active mode. do.

As described above, the present invention not only reduces the power consumption by adjusting the brightness of the organic EL display panel according to the external brightness to brighten the brightness of the panel when the outside is bright and darkening the panel when the outside is dark. There is an advantage that can extend the life of the organic EL display panel.

Claims (4)

An organic EL display panel having a plurality of organic EL elements connected between each of a plurality of scan lines and a plurality of data lines arranged in a matrix form; Scan line driving means for sequentially applying a selection signal to the plurality of scan lines; A data line driver circuit for outputting data to the plurality of data lines; A current supply source for supplying current to the organic EL display panel; A current distributor for distributing current from the current supply source to a plurality of ports and applying the same to a data line driving circuit; Optical switch for adjusting the amount of current transmitted between any one port of the current divider and the data line driving circuit according to the ambient brightness A drive device for an organic EL display panel, characterized in that consisting of. The driving apparatus of the organic EL display panel according to claim 1, wherein the optical switch transmits a maximum current when it is bright and a minimum current when it is dark. A driving apparatus of an organic EL display panel according to claim 1, wherein the organic EL display panel is in a passive mode. A driving device of an organic EL display panel according to claim 1, wherein the organic EL display panel is in an active mode.

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