KR20040069153A - Method for driving flat display panel - Google Patents

Abstract

PURPOSE: A method for driving a flat display panel is provided to reduce the luminance difference between the right and the left screen generated from the scan resistor. CONSTITUTION: A method for driving a flat display panel includes the steps of: applying the data pulse having a predetermined width W to the data lines; and supplying the scan pulse corresponding to the half W/2 of the data pulse width in the first and the second scan driving unit to the scan lines with being synchronized to the data pulse to be supplied to the data lines.

Description

Flat panel display panel driving method {METHOD FOR DRIVING FLAT DISPLAY PANEL}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display panel, and more particularly, to a flat panel display panel driving method capable of reducing a screen left and right brightness difference caused by a scan resistance of a scan line.

In general, a flat panel display panel is configured when the cells of the display elements are arranged in a matrix form, and the voltage difference applied to the intersection point between the data line and the scan line exceeds the threshold voltage of the unit cell. The cell will emit light. In this case, the amount of light to be output changes according to the amount of current flowing.

On the contrary, the cells that do not exceed the threshold voltage do not emit light or emit light that is invisible to the eye. For example, a certain amount of positive voltage is applied to a data line so that a voltage higher than a threshold voltage of a unit cell can be applied, and a certain amount of negative voltage is applied to a selected scan line. When the required voltage is applied to the unit cell by the voltage difference at the intersection point, light is emitted.

A driving device of a flat panel display panel having such a simple matrix structure is shown in FIG. 1A. As shown in the drawing, the image control unit 10 receives an external image signal IN and processes the image data and outputs a plurality of control signals, and the image data and control signals output from the image control unit 10. A data driver 30 that receives the data and outputs a data pulse, a scan driver 20 that receives the control signal output from the image control unit 10 and outputs a scan pulse, and a data pulse output from the data driver 30; The panel 40 is configured to receive a scan pulse output from the scan driver 20 and display an image signal.

Referring to the operation of the conventional flat panel display panel driving apparatus configured as described above, first, when the external image signal IN is input, the image control unit 10 converts the image signal IN into image data, and the image data and the plurality of image data. Outputs a control signal.

The data driver 30 receives the control signal output from the image controller 10 and the converted image data, and outputs a data pulse. The scan driver 20 receives the control signal output from the image controller 10. Output a scan pulse.

In addition, the panel 40 receives the data pulse output from the data driver 30 and the scan pulse output from the scan driver 20, and the two pulses are synchronized to display an image signal.

The operation of the display device driving apparatus according to the related art will be described in more detail with reference to FIG. 1B as follows.

FIG. 1B illustrates a data pulse output from the data driver 30 and a scan pulse waveform output from the scan driver 20. As shown in FIG. 1, the scan pulse output from the scan driver 20 is the panel 40. The data pulse applied to the negative electrode of the unit cell constituting the data and output from the data driver 30 is applied to the positive electrode of the cell to selectively emit light to display a predetermined image. do. Here, the unit cells emit light according to the voltage difference between the data pulse and the scan pulse applied to the data line and the scan line, and the brightness is displayed by the magnitude of the voltage difference or the current difference in time.

However, a scan resistor exists in the scan line connecting the negative electrode of each unit cell, and when current flows in the scan line, the scan line terminal (right side of the panel) farthest from the scan driver 20 is always present. The voltage drop corresponding to the product of the scan resistance and the scan current is generated. That is, 'voltage drop = scan resistance X scan current'.

As a result, the resistance of the scan line changes linearly with resistance as it moves from the first edge (left panel) to the termination (right panel). Increase by enemy.

Due to the voltage drop as described above, as shown in FIG. 1C, there is a problem in that brightness differences between the left and right sides of the display panel screen on which an image signal is displayed occur.

In order to solve such a problem, there is a method of simultaneously applying scan pulses with scan drivers on left and right sides of the panel.

FIG. 2A is a block diagram illustrating a configuration of a flat panel display panel driving apparatus including scan drivers on left and right sides of a panel. The image controller 10 receives an external image signal IN, processes the image data, and outputs a plurality of control signals. ), A data driver 30 which receives the image data and the control signal output from the image controller 10 and outputs a data pulse, and a scan pulse which receives the control signal output from the image controller 10 and outputs a scan pulse. A panel which displays an image signal by receiving first and second scan drivers 20 and 50, data pulses output from the data driver 30, and scan pulses output from the first and second scan drivers 20 and 50. It consists of 40.

The operation of the flat panel display panel driving method including the left and right scan driver having the above configuration will be described with reference to FIG. 2B.

The image signal IN inputted to the image controller 10 is converted into image data and output to the data driver 30, and the data driver 30 receives the image data and outputs data pulses to the data lines. As shown in FIG. 2B, a data pulse having a predetermined width was applied to the first data line.

In addition, the scan signal is applied by the first and second scan drivers 20 and 50 in response to the control signal output from the image controller 10. That is, as shown in FIG. 2B, the scan pulse is applied from the first scan driver 20 to the left side of the panel 40, and the scan pulse is applied from the second scan driver 50 to the right side of the panel 40. The scan pulse output from the first scan driver 20 and the scan pulse output from the second scan driver 50 are driven in synchronization with the data pulse output from the data driver 30 to drive a cell connected to the first data line. . Here, the scan pulses applied from the first and second scan drivers 20 and 50 have the same width as the data pulse width output from the data driver 30.

This process is performed for all the cells of the panel 40, and by using the driving method using the left and right scan driver, the display panel screen left and right brightness difference generated in the conventional single scan driver can be reduced.

However, as shown in FIG. 2C, the panel 40 still has resistance values and capacitances, and as the panel area increases, voltage drop due to resistance and capacitance does not completely disappear around the center of the panel. There was a problem that the light and the central part became dark.

Accordingly, the present invention in consideration of the above problem corresponds to half (W / 2) of the data pulse width W at the left and right sides of the data pulse applied to the data lines and the scan lines to which the data pulse is applied. A flat panel display which applies a scan pulse and scan pulses applied from the left side are driven in synchronization with the left half of the data pulses and the right half of the data pulses in synchronization with the right half of the data pulses. The purpose is to provide a panel driving method.

Figure 1a is a block diagram showing the configuration of a flat panel display panel driving apparatus having a conventional single scan driver.

FIG. 1B illustrates data pulse and scan pulse waveforms applied to the panel of FIG. 1A; FIG.

FIG. 1C is a view showing brightness according to the panel position of FIG. 1A; FIG.

Figure 2a is a block diagram showing the configuration of a flat panel display panel driving apparatus having a conventional left and right scan driver.

FIG. 2B illustrates data pulse and scan pulse waveforms applied to the panel of FIG. 2A; FIG.

FIG. 2C is a view showing brightness according to the panel position of FIG. 2A; FIG.

3 is a waveform diagram of data pulses and scan pulses for a flat panel display panel driving method according to the present invention;

4 is a view showing the brightness according to the position of the flat panel display panel according to the present invention.

According to an aspect of the present invention, there is provided a flat panel display panel driving method including a data line, a scan line, and a first and second scan driver. Applying a data pulse having W) and half of the data pulse width W at the first and second scan drivers to the scan lines in synchronization with the data pulses supplied to the data lines. It is characterized in that the step consisting of supplying a scan pulse corresponding to / 2).

A preferred embodiment of the method for driving the flat panel display panel of the present invention having the above characteristics will be described in detail with reference to the drawings.

The flat panel display panel driving apparatus for carrying out the present invention has the same configuration as shown in Fig. 2A. That is, the apparatus for carrying out the present invention receives an external image signal IN and processes the image data into image data, and outputs a plurality of control signals, and the image data output from the image controller 10. And a data driver 30 for receiving a control signal and outputting data pulses, first and second scan drivers 20 and 50 for receiving a control signal output from the image control unit 10 and outputting a scan pulse. The panel 40 is configured to display an image signal by receiving data pulses output from the data driver 30 and scan pulses output from the first and second scan drivers 20 and 50.

The operation of the flat panel display panel driving method according to the present invention having the left and right scan driving unit having such a configuration will be described with reference to FIG. 3 as follows.

The image signal IN inputted to the image controller 10 is converted into image data and output to the data driver 30, and the data driver 30 receives the image data and outputs data pulses to the data lines. As shown in FIG. 3, a data pulse having a predetermined width W was applied to the first data line.

In addition, the scan signal is applied by the first and second scan drivers 20 and 50 in response to the control signal output from the image controller 10. Here, as shown in FIG. 3, a scan pulse having a width W / 2 corresponding to half of the data pulse width W is applied from the first scan driver 20 to the left side of the panel 40. A scan pulse having a width W / 2 corresponding to half of the data pulse width W is applied to the right side of the panel 40 from the two scan drivers 50.

The scan pulse output from the first scan driver 20 and the scan pulse output from the second scan driver 50 are driven in synchronization with the data pulse output from the data driver 30 to drive a cell connected to the first data line. . 3, the scan pulse applied by the first scan driver 20 is synchronized with the left half of the data pulse, and the scan pulse applied by the second scan driver 50 is the right side of the data pulse. Synchronize with half to drive the cell.

Such a process is performed for all cells of the panel, and the driving method according to the present invention can reduce the brightness difference between the left and right of the display panel screen as shown in FIG. 4.

That is, the left and right screen brightness differences as shown in FIG. 4A are caused by the scan pulse applied from the first scan driver 20, and the scan pulses applied from the second scan driver 50 are shown in FIG. 4B. It will have the same left and right screen brightness difference.

The scan pulses applied by the first and second scan drivers 20 and 50 having the two brightness differences as described above are driven in synchronization with the data pulses output from the data driver 30, as shown in FIG. 4C. You can eliminate the left and right screen brightness difference.

As described above, the present invention is advantageous in that an additional circuit is not required for the conventional dual scan driving method because the scan pulse width size and the scan pulse application timing (Timing) can be controlled by the modification of the program without changing the driving device.

As described in detail above, the present invention applies a data pulse applied to a data line and a scan pulse corresponding to half of the width of the data pulse on the left and right sides of the scan line to which the data pulse is applied, respectively, The scan pulses are driven in synchronization with the right half of the data pulses by applying the scan pulses applied from the left half and the right side of the data pulses, thereby reducing the brightness difference between the left and right screens generated by the scan resistance.

Claims (2)

A display panel driving method comprising data lines, scan lines, and first and second scan drivers, Applying a data pulse having a predetermined width W to the data lines; Supplying a scan pulse corresponding to half (W / 2) of the data pulse width (W) by the first and second scan drivers to the scan lines in synchronization with the data pulses supplied to the data lines. Flat panel display panel driving method characterized in that consisting of. The method of claim 1, wherein the scan pulse output from the first scan driver is synchronized with the left half of the data pulse, and the scan pulse output from the second scan driver is synchronized with the right half of the data pulse. Flat panel display panel driving method.