KR100365517B1 - Driving method and circuit of an organic electro luminescence display device - Google Patents

Abstract

The present invention discloses a method and circuit for driving an organic electroluminescent display device. A method of driving an organic electroluminescent display device having a plurality of organic electroluminescent elements connected between each of a plurality of scan lines and a plurality of data lines arranged in a matrix form, the method comprising: A first step of selecting a scan line by applying a second step of applying data to the selected scan line by adjusting an amount of current applied to the plurality of data lines by detecting ambient light of the organic light emitting display device; And a third step of sequentially performing the first and second steps with respect to each of the plurality of scan lines.

Therefore, power consumption can be reduced by controlling the brightness of the organic EL according to the brightness of the ambient light, and the life of the organic EL can be extended.

Description

Driving method and circuit of an organic electroluminescent display device

The present invention relates to an organic electroluminescence (EL) display device, and more particularly, to a method and a circuit for driving an organic electroluminescent display device capable of controlling the brightness of the organic electroluminescent display device according to ambient light.

The organic electroluminescent display device is a self-luminous display device that electrically excites fluorescent organic compounds to emit light, and can be driven at a low voltage and has advantages such as thinness. In addition, it is attracting attention as a next-generation display device that can solve the drawbacks that are pointed out as problems in the liquid crystal display device, such as wide viewing angle, fast response speed.

By the way, in the conventional organic electroluminescent 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, the display was configured to display the same brightness when the ambient light is bright or dark.

However, it is preferable to increase the brightness of the organic electroluminescent display device when the ambient light is bright, and to decrease the brightness of the organic electroluminescent display device when the ambient light is dark.

That is, when the display is always the same brightness, the power consumption of the organic electroluminescent display is increased, and when the ambient light is dark, the power consumption of the organic electroluminescent display may be reduced by lowering the brightness of the organic electroluminescent display. .

An object of the present invention is to provide a method of driving an organic electroluminescent display device capable of adjusting the brightness of the organic electroluminescent display device according to the brightness of ambient light.

Another object of the present invention is to provide a driving circuit of an organic light emitting display device for implementing the above method.

A method of driving an organic electroluminescent display device of the present invention for achieving the above object is an organic electron having a plurality of organic electroluminescent elements connected between each of a plurality of scan lines and a plurality of data lines arranged in a matrix form A method of driving a light emitting display device, the method comprising: selecting the scan line by applying a selection voltage to the scan line; applying the plurality of data lines by detecting ambient light of the organic electroluminescent display device And a third step of applying data to the selected scan line by adjusting a current amount of data to be processed, and a third step of sequentially performing the first and second steps with respect to each of the plurality of scan lines. do.

The driving circuit of the organic electroluminescent display device of the present invention for achieving the above another object is an organic having a plurality of organic electroluminescent elements connected between each of a plurality of scan lines and a plurality of data lines arranged in a matrix form An electroluminescent display panel, scan line driving means for sequentially applying a selection voltage to the plurality of scan lines, and data of the data applied to the plurality of data lines by detecting ambient light of the organic electroluminescent display panel. And data driving means for adjusting the amount of current.

1 is a block diagram showing a configuration of a general organic electroluminescent display device.

FIG. 2 is an operation timing diagram for explaining the method for driving the apparatus shown in FIG.

3 is a block diagram of an embodiment of a data driving circuit of the organic electroluminescent display device of the present invention.

4 is a circuit diagram of an embodiment of the current amount control circuit shown in FIG.

Hereinafter, the configuration and driving method of a general organic electroluminescent display device will be described with reference to the accompanying drawings before explaining the driving method and circuit of the organic electroluminescent display device of the present invention.

FIG. 1 shows the structure of a general organic electroluminescent display device, and is composed of an organic EL display panel 10, a scan line driver circuit 12, and a data driver circuit 14. As shown in FIG.

Referring to the configuration and function of each of the blocks shown in Figure 1 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. A diode type EL is connected between the lines S1, S2, ..., Sm and each of the data lines D1, D2, ..., Dn. The anode of the EL is connected to the data lines D1, D2, ..., Dn, and the cathode of the EL 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 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 EL operates similarly to the 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 EL is applied to the data line. The brightness of the organic EL becomes brighter when the amount of current flowing through the EL increases, and the brightness decreases when the amount of current decreases.

FIG. 2 is an operation timing diagram for explaining a method of driving the organic electroluminescent display panel shown in FIG. 1, and scan signals S1, S2, ..., Sm and data output from the scan line driver circuit 12 are shown. The operation timings of the data D1, D2, ..., Dn output from the drive circuit 14 are shown.

In Fig. 2, the CNS denotes an unselected voltage for non-selecting the scan lines S1, S2, ..., Sm, and the CS denotes the scan lines S1, S2, ... , Selects a voltage for selecting Sm). In addition, SS denotes a selection voltage for selecting data lines D1, D2, ..., Dn, and SNS denotes data lines D1, D2, ..., Dn. Indicates an unselected voltage for unselected.

The scan line driver circuit 12 sequentially applies the selection voltage CS to the scan lines S1, S2, ..., Sm within one frame period. In this case, when the selection voltage CS is applied, the scan lines S1, S2,..., Sm are selected. When the scan line is selected, the data driving circuit 14 outputs data of the corresponding scan line to the data lines D1, D2, ..., Dn.

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

That is, the organic EL 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, the voltage applied to the data lines D1, D2,..., And Dn of the conventional organic electroluminescent display panel 10 is increased due to the same level of voltage applied regardless of the brightness of the ambient light. There was a problem.

The present invention reduces power consumption by varying the voltage level of data applied to the data lines D1, D2, ..., Dn of the organic light emitting display panel 10 according to the brightness of ambient light.

For example, when the ambient light is the brightest, the voltage level applied to the data lines D1, D2, ..., Dn is maximized, and when the ambient light becomes dark, the data lines D1, D2,. .., Dn) to reduce the voltage level applied.

In this case, since the brightness of the ambient light is reduced in the dark, the power consumption of the organic light emitting display device is reduced.

Fig. 3 is a block diagram of an embodiment of a data driving circuit of the organic electroluminescent display device of the present invention, which includes a shift register 20, a latch 22, a level shifter 24, a data output circuit 26, and a current amount control circuit. It consists of 28.

The data output circuit 26 is composed of an inverter I and a constant current source IC for outputting data output from the level shifter 24, respectively. The constant current source IC is composed of a PMOS transistor P2 having a source connected to a selection voltage CS for controlling the current flowing to the inverter I in response to the control voltage Vc, and the inverter I is a PMOS. The PMOS transistor P1 and the NMOS transistor N are connected in series between the drain of the transistor P2 and the ground voltage.

The operation of each of the blocks shown in FIG. 3 will now be described.

The shift register 20 inputs shifted data. The latch 22 latches data output from the shift register 20. The level shifter 24 shifts the level of data output from the latch 22. The data output circuit 26 drives data output from the level shifter 24 and is applied to the inverter I of the data output circuit 26 in response to the control voltage Vc output from the current amount control circuit 28. The amount of current to be controlled is controlled. That is, when the ambient light is bright and the level of the voltage Vc is low, the channel of the PMOS transistor P2 of the data output circuit 26 is opened, causing a large amount of current to flow to the inverter I, while the ambient When the light becomes dark and the level of the voltage Vc becomes high, the channel of the PMOS transistor P2 of the data output circuit 26 is opened little, so that a small amount of current flows to the inverter I.

Therefore, in the data driving circuit of the organic electroluminescent display device of the present invention, the brightness is automatically adjusted by controlling the current flowing through the PMOS transistor P2 of the data output circuit 26 by the current amount control circuit 28 according to the brightness of the ambient light. Can be adjusted.

4 is a circuit diagram of an embodiment of the current amount control circuit of the present invention, which is composed of a photodiode PD and a current / voltage converter 30. As shown in FIG.

The operation of the circuit shown in Fig. 4 is as follows.

When the ambient light is bright, a large amount of current i flows through the photodiode PD. The current / voltage converter 32 generates a small control voltage Vc when the amount of the current i becomes large.

On the other hand, when the brightness of the ambient light becomes dark, a small amount of current i flows through the photodiode PD. The current / voltage converter 32 generates a large control voltage Vc when the amount of the current i becomes small.

At this time, the current flowing through the PMOS transistor P2 shown in Fig. 3 is controlled by the control voltage Vc.

The current amount control circuit of the embodiment of FIG. 4 shows that the current amount is controlled by adjusting the level of the control voltage Vc applied to the gate of the PMOS transistor P2, but in another embodiment, the gate of the PMOS transistor P2 is controlled. It is also possible to control the amount of current by adjusting the on-time of the control voltage Vc applied thereto.

As described above, when the brightness of the ambient light becomes bright and the level of the control voltage Vc decreases, the amount of current flowing through the PMOS transistors P2 increases, and thus the data lines D1, D2, ..., The amount of current flowing through Dn) increases. On the other hand, when the brightness of the ambient light becomes dark and the level of the control voltage Vc becomes large, the amount of current flowing through the PMOS transistors P2 decreases, and accordingly, the data lines D1, D2, ..., Dn The amount of current flowing through) becomes small.

Therefore, the driving method of the organic electroluminescent display device of the present invention increases the amount of current applied to the data lines when the brightness of the ambient light is bright, and brightens the brightness of the organic EL, and applies the data lines when the brightness of the ambient light becomes dark. The amount of current to be made small is made darker in the brightness of the organic EL.

The driving circuit of the organic electroluminescent display device of the present invention can adjust the brightness of the organic EL by controlling the amount of current applied to the data output circuit of the data driving circuit according to the brightness of the ambient light of the organic electroluminescent display device.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the present invention without departing from the spirit and scope of the invention described in the claims below. I can understand that you can.

Therefore, the driving method and circuit of the organic electroluminescent display device of the present invention can reduce the power consumption by controlling the brightness of the organic EL according to the brightness of the ambient light of the organic electroluminescent display device, and can extend the life of the organic EL. .

Claims (3)

A method of driving an organic electroluminescent display device having an organic electroluminescent display panel having a plurality of organic electroluminescent elements connected between each of a plurality of scan lines and a plurality of data lines arranged in a matrix form, Selecting the scan line by applying a selection voltage to the scan line; A second step of applying data to the selected scan line by adjusting an amount of current applied to the plurality of data lines by detecting ambient light of the organic light emitting display device; And And a third step of sequentially performing the first and second steps with respect to each of the plurality of scan lines. An organic electroluminescent display panel having a plurality of organic electroluminescent 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 voltage to the plurality of scan lines; And And data driving means for adjusting an amount of current applied to the plurality of data lines by detecting ambient light of the organic light emitting display panel. The method of claim 2, wherein the data driving means A photodiode connected between a power supply voltage and a ground voltage to detect a change in the ambient light; Current / voltage converting means for converting a current which changes according to the current flowing through the photodiode into a voltage; And And a current supply source for controlling a current applied to the plurality of data lines in response to a voltage output from the current / voltage converting means.