KR100583125B1 - Orgarnic light emitting display and data applying method thereof - Google Patents

Abstract

The present invention relates to a light emitting display device and a data signal application method of a light emitting display device, comprising: a pixel unit including a plurality of pixels, a plurality of scan lines, and a plurality of data lines formed to cross the scan line; A scan driver for outputting a selection signal; And a data driver for outputting a data signal, wherein the data driver applies two data signals while applying one selection signal from the scan driver.

A data signal applying method of a light emitting display device according to the present invention includes: a first step of receiving a first control signal from a shift register and sequentially applying a first data signal; A second step of outputting the first data signal in parallel; A third step of receiving a second control signal from the shift register and sequentially applying a second data signal; And a fourth step of outputting the second data signal in parallel.

Therefore, since gray scales are also displayed in amplitude, a high gray scale can be expressed by applying a data signal having a low gray scale twice. Therefore, the size of the PWM comparator of the data driver may be reduced, thereby reducing the size of the data driver.

Passive, PWM, Display, Organic

Description

ORGARNIC LIGHT EMITTING DISPLAY AND DATA APPLYING METHOD THEREOF}

1 is a diagram illustrating waveforms of a selection signal and a data signal of a light emitting display device according to the related art.

2 is a diagram illustrating a pixel part of a light emitting display device according to an exemplary embodiment of the present invention.

3 is a structural diagram illustrating a structure of a data driver of a light emitting display device according to the present invention.

4 is a waveform diagram showing waveforms of a selection signal and a data signal.

*** Explanation of symbols in the main parts of the drawings ***

10: pixel portion 20: scanning driver

30: data driver 31: shift register

32: latch 33: pulse width modulator

The present invention relates to a light emitting display device and a method of applying a data signal to the light emitting display device. More specifically, the light emitting device is applied twice during a period by applying a data signal twice during a period in which a selection signal is input in the light emitting display device. A light emitting display device and a method of applying a data signal of a light emitting display device to emit light to compensate for luminance.

BACKGROUND ART A thin, lightweight flat panel display is used as a display device of a portable information terminal such as a personal computer, a cellular phone, a PDA, or a monitor of various information devices. Such flat panel displays include LCDs using liquid crystal panels, organic light emitting displays using organic light emitting diodes, and PDPs using plasma panels.

In such a flat panel display, a plurality of pixels are arranged on a substrate to form a display area, and a scan line and a data line are connected to each pixel to selectively apply a data signal to the pixel for display.

Among the flat panel display devices, the organic light emitting display device has a response speed of about 30,000 times faster than the LCD device, so it is easy to implement a video, emits light by itself, has high brightness, and has a wide viewing angle. I am getting it.

Such an organic light emitting diode display includes a pulse width modulation (PWM) that adjusts the width of a pulse in a manner of adjusting luminance and a pulse amplitude modulation (PAM) that uses an amplitude of a voltage of the pulse.

PWM adjusts the emission time to make the light emission period longer and shorter blank period brighter, and the light emission period shorter and longer blank period darker.PAM adjusts the voltage amplitude of the data signal and sets each level according to the amplitude. To adjust the brightness.

1 is a diagram illustrating waveforms of a selection signal and a data signal of a light emitting display device according to the related art. Referring to Figure 1,

When a high data signal is input in a first section in which the first selection signal is a low signal, current flows through the light emitting device to which the first selection signal is input, thereby causing the light emitting device to emit light. When a high data signal is input in a second section in which the second selection signal is a low signal, a current flows to the light emitting device to which the second selection signal is input, thereby causing the light emitting device to emit light, and according to a time when the data signal is applied. The brightness is adjusted.

Therefore, the gray scale value can be expressed by adjusting the time for which the data signal is applied.

In order for the light emitting display device to express high gray levels, the data driver must output a signal having a high number of bits.

However, there is a problem in that the size of the data driver must be increased in order to output a signal having a high number of bits.

Therefore, the present invention was created to solve the problems of the prior art, an object of the present invention is to increase the period during which the light emitting device emits light for one period by inputting two data signals in one selection signal application period, The present invention provides a light emitting display device and a data application method for realizing a small size of the data driver because the data driver outputs a low gray scale value by causing the signal having the gray value to emit twice and having a high gray value.

According to an aspect of the present invention, there is provided a light emitting display device including: a pixel unit including a plurality of pixels and a scan line and a data line to transmit selection signals and data signals to the pixels; A scan driver for outputting a selection signal; And a data driver for outputting a data signal, wherein the data driver applies at least two data signals while applying one selection signal from the scan driver,

Additionally, the data driver may include: a shift register configured to output at least two control signals while applying one selection signal; A latch for sequentially receiving the data signal by the control signal and outputting the data signal in parallel; And a modulator for setting a data signal having a pulse width corresponding to the data signal output from the latch.

In addition, the pixel may include a light emitting device that emits light by connecting a first electrode to the scan line and a second electrode to the data line.

In addition, in order to achieve another object of the present invention, a method of applying a data signal to the light emitting display device according to the present invention, by receiving a first control signal from a shift register and sequentially receiving the first data signal; A first step of outputting one data signal in parallel; Setting a data signal having a pulse width corresponding to the first data signal; A third step of receiving a second control signal from the shift register and sequentially receiving a second data signal and outputting the second data signal in parallel; And a fourth step of setting a data signal having a pulse width corresponding to the second data signal, wherein the first to fourth steps are performed at a time when one selection signal is applied.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a diagram illustrating a pixel part of a light emitting display device according to an exemplary embodiment of the present invention. Referring to FIG. 2, a pixel portion intersecting the data line 15 and the scan line 12 to form a matrix, and the light emitting device 40 is connected to the data line 15 and the scan line 12 to emit light. 10, the scan driver 20 to apply a selection signal to the scan line 12 to select a specific row of the pixel unit 10, and the data driver 30 to apply a data signal to the data line 15. It is composed.

In the pixel portion 10, the data line 15 and the scan line 12 cross each other, and a pixel is formed at the intersection point. Each pixel includes a light emitting element 40.

The light emitting device 40 includes an anode electrode and a cathode electrode, and an organic layer that emits light when a current flows between the anode electrode and the cathode electrode is formed. The anode electrode of the light emitting element 40 is connected to the data line 15 and the cathode electrode is connected to the scan line 12.

When the low signal is input through the scan line 12 and the high signal is input through the data line 15, a current flows through the light emitting device 40 to emit light.

The scan driver 20 applies a low signal to each scan line 12 for each specific row of the pixel unit 10 for a predetermined period so as to select a particular row of the pixel unit 10 for a certain period of time.

The data driver 30 applies a high signal to the data line 15 so that the data signal is applied to the row selected by the scan driver 20.

3 is a structural diagram showing a structure of a data driver of a light emitting display device according to the present invention, and FIG. 4 is a waveform diagram showing waveforms of a selection signal and a data signal. 3 and 4, the data driver 30 includes a shift register 31, a latch 32, and a pulse width modulator 33.

The shift register 31 is composed of a plurality of flip flops and controls the latch 32 in response to a clock signal. The latch 32 sequentially receives one row of data signals according to the control signal of the shift register 31 and outputs them in parallel. Then, the data signals of the same row are sequentially input again and output in parallel, so that the latch 32 applies two data signals to the same row. The pulse width modulator 33 determines the width of the data signal in accordance with the number of bits to represent the gray value of the data signal.

As shown in FIG. 4, when the data signal is applied twice during one period in which the selection signal is applied once, the width of the data signal expressed in one period is doubled. Therefore, the pulse width modulator 33 can have the entire gradation value even if it has the half number of bits of the gradation to be expressed. That is, assuming that the grayscale value is determined by the output signal of 8 bits in the pulse width modulator 33 when the data signal is applied once for one period, the pulse width modulator ( In (4), the 4-bit output signal is output twice to express the 8-bit gradation value. Therefore, the size of the pulse width modulator 33 can be made small, thereby reducing the size of the data driver 30.

While preferred embodiments of the present invention have been described using specific terms, such descriptions are for illustrative purposes only, and it is understood that various changes and modifications may be made without departing from the spirit and scope of the following claims. Should be done.

In the light emitting display device according to the present invention, two data signals are applied to emit light twice during a period in which one selection signal is applied, and when a gray level is displayed at an amplitude, two times of a data signal having a low gray level may be expressed. Can be. Therefore, the size of the PWM comparator of the data driver may be reduced, thereby reducing the size of the data driver.                     

In addition, if the width of the first data signal and the width of the second data signal are different, various luminance can be expressed.

Claims (4)

A pixel unit including a plurality of pixels and a scan line and a data line to transfer selection signals and data signals to the pixels; A scan driver for outputting a selection signal; And It includes a data driver for outputting a data signal, And the data driver applies at least two data signals while applying one selection signal from the scan driver. The method of claim 1, The pixel includes a light emitting device for emitting light by connecting a first electrode to the scan line and a second electrode to the data line. The method of claim 1, The data driver, A shift register for outputting at least two control signals while applying one selection signal; A latch for sequentially receiving the data signal by the control signal and outputting the data signal in parallel; And And a modulator configured to output a data signal having a pulse width corresponding to the data signal output from the latch to the pixel unit. A first step of sequentially receiving the first data signal and outputting the same in parallel; A second step of outputting a data signal having a pulse width corresponding to the first data signal output in parallel to the pixel unit; A third step of sequentially receiving the second data signal and outputting the same in parallel; And A fourth step of outputting a data signal having a pulse width corresponding to the second data signals output in parallel to the pixel unit; And the second and fourth steps are performed at a time when one selection signal is applied.

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