KR100218504B1 - Static electricity protecting circuit of liquid crystal display device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrostatic protection circuit of a liquid crystal display device, wherein a scan line, a signal line, a pixel electrode, and an opposite electrode are formed on one transparent substrate (lower plate), and a color filter and black matrix are formed on the other transparent substrate (top plate). And a liquid crystal display device designed to display a screen by driving a liquid crystal injected between two substrates, the liquid crystal display device being configured to drive a source driver and a gate driver by receiving vertical and horizontal synchronization signals, data, and clock signals. A control means for outputting a driving signal and generating a switch control signal for a predetermined time every frame (frame) of the vertical synchronization signal; and when the switch control signal is output, a terminal to which the signal is input is switched to be connected to the ground terminal. The switching through a switching means and a dummy electrode or other wiring of the data driver It consists of including a color filter substrate, which includes a black matrix which is connected to the input terminal of the stage, to a static electricity protection circuit for preventing the image degradation caused by the generation of static electricity.

Description

Static electricity protection circuit of liquid crystal display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrostatic protection circuit of a liquid crystal display, and more particularly, to an electrostatic protection circuit for preventing a deterioration of image quality caused by static electricity generated in a liquid crystal display panel driven in a horizontal direction on a plane.

Referring to a conventional TFT-LCD, a thin film transistor, a pixel electrode, a scan line and a signal line therefor are formed on one transparent substrate, and a color filter and an opposite electrode are formed on another transparent substrate. . Next, a liquid crystal is injected between the two substrates to form a liquid crystal display panel.

In the liquid crystal display device configured as described above, a method of driving a liquid crystal in a vertical direction by applying an electric field in a vertical direction between two substrates is used. When this driving method is used, the viewing angle is limited and crosstalk is generated. There is a problem that the image quality is deteriorated.

Complementing this problem, a recently developed method is a method of driving the liquid crystal horizontally on the plane. This method is generally referred to as an In Plane Switching (IPS) method, in which a pixel electrode and an opposite electrode are simultaneously formed in one transparent substrate so that a potential difference occurs in a plane so that the liquid crystal molecules are aligned in parallel with the substrate. Since the liquid crystal is driven on a plane as described above, problems such as limited viewing angle and deterioration of image quality due to crosstalk can be improved.

However, in this IPS method, only one color filter and black matrix are formed on one transparent substrate, which is simply used as a color filter substrate, and no electrode of the same type as the counter electrode is formed. do.

Therefore, as shown in (a) or (b) of FIG. 1, when charge B is generated outside of the color filter substrate 30 (polarizing plate attaching surface) due to static electricity or the like, a negative electric charge charged thereon (C) is generated inside the color filter substrate 30, that is, on the surface adjacent to the liquid crystal layer.

At this time, since the charged C inside the color filter substrate 30 does not have a path to ground, the electric charge C remains. The electric field is formed in the vertical direction by the remaining charged charge, so that the liquid crystal is in the vertical direction. It is a condition that can be driven by.

In other words, when the pixel driving voltage is applied to the thin film transistor substrate on which the pixel electrode is formed, the electric field in the horizontal direction is formed, thereby driving the liquid crystal, and at the same time in the vertical direction due to the charge charge remaining on the color filter substrate 30. Since an electric field is formed, the liquid crystal is not normally driven, thereby deteriorating the image quality.

Accordingly, an object of the present invention is to solve the above problems, and the electrostatic charge generated by static electricity is discharged for a predetermined time every one frame (Frame) by using the black matrix electrode and the switching means formed on the color filter substrate. An object of the present invention is to provide an electrostatic protection circuit for eliminating the deterioration of image quality caused by.

(A) and (b) of FIG. 1 are diagrams showing residual electric charges induced by a color filter substrate.

2 is a block diagram of an electrostatic protection circuit of a liquid crystal display according to an exemplary embodiment of the present invention.

3 is a view illustrating a state in which the control and switching circuit shown in FIG. 2 is connected to a liquid crystal display panel;

4 is a diagram illustrating a state in which a black matrix electrode is connected to a color filter substrate according to an embodiment of the present invention.

5 is a timing diagram of an electrostatic discharge switch control signal with respect to the vertical synchronization signal.

* Explanation of symbols for the main parts of the drawings

10: control circuit 20: MOS transistor

30: color filter substrate 31: black matrix

32: color filter 40: thin film transistor substrate

41: connection of two substrates 100: control and switching circuit

110: source driver 111: pad for output of the source driver

120: gate driver A: a line connecting the black matrix and MOS transistor

121: pad B for output of the gate driver: generated charge

C: charged charge

This invention for achieving said subject,

Scan lines, signal lines, pixel electrodes, and counter electrodes are formed on one transparent substrate (lower plate), and color filters and black metrics are formed on the other transparent substrate (top plate), and the driving of the liquid crystal injected between the two substrates is performed. A liquid crystal display device designed to display a screen by

Control means for receiving a vertical, horizontal sync signal, data and clock signal to output a drive signal for driving the source driver and the gate driver, and generates a switch control signal for a predetermined time every one period (frame) of the vertical sync signal and;

Switching means for switching one input terminal to be connected to a ground terminal when the switch control signal is output;

And a color filter substrate comprising a black matrix connected to the input terminal of the switching means via a dummy electrode or other wiring of the data driver.

In the present invention, the black matrix formed on the color filter substrate and the switching means are used to discharge the electric charge generated inside the color filter substrate by static electricity for a predetermined time every frame. The control means uses a predetermined time every frame. If a switch control signal is generated during this time, a path through which the charged charge can be discharged to the ground terminal is formed by the switching means connected to the black matrix of the color filter substrate, thereby discharging the charged charge.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention in detail.

FIG. 2 is a block diagram of an electrostatic protection circuit of a liquid crystal display according to an exemplary embodiment of the present invention. FIG. 3 is a view showing a state in which the control and switching circuit shown in FIG. 2 is connected to a liquid crystal display panel. 4 is a diagram illustrating a state where a black matrix electrode is connected to a color filter substrate according to an embodiment of the present invention.

As shown in FIG. 2, in the static electricity protection circuit of the liquid crystal display according to the exemplary embodiment of the present invention,

The control circuit 10 receives the vertical and horizontal synchronization signals VSYNC and HSYNC, the data DATA and the clock signal CLOCK, and outputs driving signals SOURCE_DRIVE and GATE_DRIVE for driving the source driver and the gate driver. The switch control signal RESET is generated for a predetermined time every one period of the vertical synchronization signal VSYNC.

The drain of the MOS transistor 20 is connected to the black matrix of the color filter substrate 30 through a dummy electrode or other wiring of the data driver and the source is grounded. When the switch control signal ESET is output, the drain electrode Since it is connected to the ground terminal to form a path for the discharge of the charge generated in the color filter substrate 30.

As shown in Figures 3 and 4, in the color filter substrate 30 according to an embodiment of the present invention,

The connection part 41 of the color filter substrate 30 and the thin film transistor substrate 40 is formed by inserting silver or gold paste between the two substrates 30 and 40 and then using a laser. It exists because it connects.

The black matrix 31 is connected to the drain of the MOS transistor 20 through a dummy terminal among the connection part 41 and the output pad 111 of the data driver 110.

The operation of the static electricity protection circuit according to the embodiment of the present invention configured as described above is as follows.

SUMMARY OF THE INVENTION The present invention aims at improving a problem of deterioration in image quality caused by the generation of static electricity in a thin film transistor-liquid crystal display device in which a liquid crystal is operated in a horizontal direction on a plane to display a screen. Without using the control circuit 10 and the MOS transistor 20 and the color filter substrate 30 as a switching means, it is possible to simply discharge the electric charge remaining inside the panel.

2 illustrates an electrostatic protection circuit of the liquid crystal display according to the exemplary embodiment of the present invention. In FIG. 2, the control circuit 10 generates the switch control signal RESET for electrostatic discharge in one frame period. The MOS transistor 20 performs a switch function for discharging the residual charge to the ground terminal. Here, symbol A represents a line connecting the black matrix 31 of the color filter substrate 30 to the MOS transistor 20.

As shown in FIG. 4, the residual charge connects the connection part 41 of the color filter substrate 30 and the thin film transistor substrate 40 to the path of discharging the electric charge remaining in the color filter substrate 30. Through the dummy terminal of the data driver 110 or the other wiring connection (A), the drain of the MOS transistor 20 is connected. The MOS transistor 20 forms a path through which residual charge can be discharged only while the switch control signal RESET is output.

Next, FIG. 5 shows a timing diagram of the electrostatic discharge switch control signal RESET with respect to the vertical synchronizing signal VSYNC.

As shown in FIG. 5, the electrostatic discharge switch control signal RESET occurs in a section in which the vertical blank signal VBLANK is 'low'. In more detail, when the vertical sync signal VSYNC becomes 'low', there is a section T1 in which the input data is not valid, and the section in which actual valid data is output with the section in between. In this case, the section T1 in which the input data is invalid is displayed as the section 'low' of the vertical blank signal VBLANK. As such, the antistatic switch control signal RESET is output for a predetermined time T3 within the section T1 where no valid data exists.

As a result, the switch control signal RESET becomes a signal obtained by inverting the vertical synchronization signal VSYNC, and the period becomes one frame. Here, since the residual charge is discharged in the section T1 in which valid data does not exist, it does not affect the actual screen operation.

Therefore, the effect of the electrostatic protection circuit according to the embodiment of the present invention is that the image quality can be improved by discharging the induced inductive residual charges inside the color filter substrate.

Claims (4)

Scan lines, signal lines, pixel electrodes, and counter electrodes are formed on one transparent substrate (lower plate), and color filters and black metrics are formed on the other transparent substrate (top plate), and the driving of the liquid crystal injected between the two substrates is performed. A liquid crystal display device designed to display a screen by Control means for receiving vertical and horizontal synchronization signals, data and clock signals, outputting a driving signal for driving a source driver and a gate driver, and generating a switch control signal for a predetermined time every one period of the vertical synchronization signal; Switching means for switching one input terminal to be connected to a ground terminal when the switch control signal is output; And a color filter substrate comprising a black matrix connected to an input terminal of the switching means through a dummy electrode or other wiring of a data driver. The static electricity protection circuit according to claim 1, wherein said switching means is a MOS transistor. The method of claim 1, wherein the color filter substrate, A connection part connected to the thin film transistor substrate; And a black matrix which is connected to one terminal of the switching means through a dummy terminal among the connection part and the pad for output of the data driver. The static electricity protection circuit according to claim 1, wherein the switch control signal is a signal obtained by inverting the vertical synchronization signal.