KR100613768B1 - Liquid crystal display device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, wherein polarities of data lines crossing a common voltage signal line are driven by inverting polarities of the first line of the TCP block for each TCP block so that polarized signals are not formed in the common voltage signal line. It is possible to prevent the greenish phenomena caused by one side biasing.

The liquid crystal display device of the present invention is a liquid crystal panel made by injecting a liquid crystal between the lower substrate having a thin film display element and the upper substrate having a color filter, the pad portion of the lower substrate and the printed circuit board A plurality of tape carrier packages (TCP) having a gate and a source driver for connecting the PCBs to each other, and driving the thin film display elements to transmit data signals to the pixel electrodes, and bi-division on the PCB. And a signal input means for inputting signals having opposite polarities to odd-numbered and even-numbered TCPs among the plurality of TCPs.

Description

Liquid crystal display {LIQUID CRYSTAL DISPLAY DEVICE}

1 is a block diagram of a conventional TFT-LCD

2 is a structural diagram of a TFT-LCD pixel in a conventional IPS and FFS mode.

3A and 3B illustrate polarities of voltages applied to liquid crystals in respective fields during line inversion driving of a conventional TFT-LCD.

4A and 4B illustrate a relationship between a polarity signal, a common voltage, and a data signal according to a frame frequency in a conventional TFT-LCD.

FIG. 5A is a diagram illustrating polarities of voltages applied to liquid crystals in each field during dot inversion driving of a conventional TFT-LCD; FIG.

5B is an explanatory diagram for explaining that a screen is greenish due to distortion of a common voltage signal in a conventional TFT-LCD.

6 is a block diagram of a TFT LCD panel and a driving circuit according to the present invention.

7A and 7B illustrate polarities of voltages applied to liquid crystals in each field during dot inversion driving of a TFT-LCD according to the present invention.

Explanation of symbols on the main parts of the drawings

1: DC (DC) to DC (DC) converter 2: Timing controller

3: gate drive 4: data drive

5, 25: liquid crystal panel 6: common voltage and reference voltage generating circuit

11 pixel electrode 12 counter electrode

13 counter electrode line 14 gate line

15 data line 16 TFT section

10: cross capacitance 20: fringe capacitance

24: Tape Carrier Package (TCP) 26: Printed Circuit Board (PCB)

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a liquid crystal display, and in particular, in an in-plane switching (IPS) which is a wide viewing angle mode liquid crystal display, a liquid crystal display which prevents the screen from being greenish due to distortion of the common voltage signal Vcom. Relates to a device.

1 is a block diagram of a general liquid crystal display device. Referring to FIG. 1, a DC-DC converter 10 which inputs a power supply voltage VDD to generate gate driving power supply voltages VG + and VG-, and RGB data RGBin and a control signal DE, NCLK, Hsync, Vsync, etc.) to input the liquid crystal panel driving signal to the gate driver 30 and the data driver 40, and to generate the gate driving signal and the data driving signal, respectively, to generate the liquid crystal panel ( A reference for generating the common voltage signal Vcom to the liquid crystal panel 50 by inputting the polarity signal POL from the gate driver 30 and the data driver 40 driving the 50 and the timing controller 20. A voltage and a common voltage generating circuit 60 are provided.

The liquid crystal display device having the above configuration is driven using a line inversion method using a low voltage driver IC. This is because the liquid crystal deteriorates when a direct current voltage is applied to the liquid crystal, and therefore, AC driving must be performed to prevent the liquid crystal.

2 illustrates the structure of a TFT-LCD pixel in a conventional In-Plane Switching (IPS) mode and a Fringe Field Switching (FFS) mode.

As shown, in the case of the IPS mode and the FFS mode, the opposite electrode 2 is formed on the lower substrate unlike the general TN mode. In this case, the formed counter electrode 2 has a capacitance 10 due to overlap with the data line 5, and a fringe capacitance 20 formed by being formed in parallel with the data line 5.

3A to 3B illustrate voltages applied to liquid crystals in a one-line inversion method in a general TFT-LCD, and signals having the same polarity, that is, a (+) or (-) signal, are applied to pixels arranged in the same column. In the odd field, when a positive polarity signal is applied to a pixel arranged in one column, a positive polarity signal is applied to a pixel arranged in the even field.

In the case where data signals having opposite polarities are applied to the pixels arranged in the same column as described above, the relationship between the common voltage Vcom and the voltage Vsig of the data signal is shown in FIG. 4.

Referring to FIG. 4, when a data signal having a positive polarity is applied as in FIG. 4A in the odd field, a data signal having a negative polarity is applied as in FIG. 4B in the even field.

Therefore, the conventional line-in-version driving method generates a voltage as shown in FIG. 4 and drives a liquid crystal by applying a voltage to the pixel as shown in FIG. 3.

FIG. 5A is a diagram illustrating polarities of voltages applied to liquid crystals in each field during dot inversion driving of a conventional TFT-LCD, and FIG. 5B illustrates that the screen is greenish due to distortion of a common voltage signal in a conventional TFT-LCD. It is explanatory drawing for demonstrating.

In the case of dot inversion, the red (R) and blue (B) signals always have the same polarity in the red (R), green (G), and blue (B) strip arrays. Has the opposite polarity of red (R) and blue (B). In a normal screen, the polarities of the entire screen are conflicted with each other and become "0".

However, in the case of a specific pattern, for example, one skip line and two skip dot patterns, as shown in FIG. 5A, the gate lines have n (+) to (−) polarities. This polarity distorts the common voltage Vcom signal by the capacitance between the data line 15 and the counter electrode 12. At this time, Vcom is distorted in the direction of increasing the brightness of green (G) in the direction of decreasing the brightness of red (R) and blue (B), as shown in FIG.

Due to the distortion of the Vcom, the entire screen appears closer to green.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to provide a first block of a TCP block for each Tape Carrier Package (TCP) block so that a polarized polarity is not formed on a common voltage signal (Vcom) line. By driving the polarities of the lines inverted to each other, a liquid crystal display device capable of preventing the greenish phenomenon caused by the polarization of the polarity of the data line crossing the common voltage signal Vcom line to one side is prevented. To provide.

In order to achieve the above object, the liquid crystal display device according to the present invention,

A liquid crystal panel made by bonding a lower substrate having a thin film display element and an upper substrate having a color filter and injecting liquid crystal therebetween;

A plurality of tape carrier packages (TCP) which connect a pad of the lower substrate and a printed circuit board (PCB) to each other and have a gate and a source driver for driving the thin film display device to transmit data signals to pixel electrodes. Wow,

It is composed of two divisions on the PCB, it characterized in that it comprises a signal input means for inputting the signals of opposite polarity to the odd and even TCP of the plurality of TCP.

In the liquid crystal display device of the present invention, the signal input means is characterized in that the polarity of the first data line of the data TCP block is sequentially inverted into a negative polarity and a positive polarity for each block.

In the liquid crystal display of the present invention, the thin film display device is characterized in that it is in an anneal switching (IPS) mode.

In the liquid crystal display device of the present invention, the thin film display element is a fringe field switching (FFS) mode.

In the liquid crystal display device of the present invention, the signal input means is divided into two by an inverter.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In addition, in all the drawings for demonstrating an embodiment, the thing with the same function uses the same code | symbol, and the repeated description is abbreviate | omitted.

FIG. 6 is a view illustrating a mounting state of a TFT LCD panel and a source driver according to the present invention, in which a lower substrate having a thin film display element and an upper substrate having a color filter are bonded together, and then liquid crystal is injected therebetween. The liquid crystal panel 25, the pad portion of the lower substrate and the printed circuit board (PCB) 26 are connected to each other, and a gate and a source driver for driving a thin film display element to transmit a data signal to a pixel electrode. A plurality of tape carrier packages (TCP: 24) and bi-division on the PCB, the signal input means for inputting signals of opposite polarity to the odd and even TCP of the plurality of TCP It is configured to include.

First, the manufacturing process sequence of the TFT LCD panel is as follows.

A counter electrode and a gate line are formed on the transparent substrate, an insulating layer and a semiconductor layer are formed thereon, and a semiconductor layer of the TFT is formed. Thereafter, a data line, a source, and a drain are formed, and a protective film is formed. Thereafter, a via hole is formed and a pixel electrode layer is formed so that the source electrode and the pixel electrode can be contacted. The panel 25 is formed by bonding the lower substrate manufactured through the above steps, the upper substrate provided with the black matrix and the color filter, and injecting liquid crystal.

Thereafter, TCP is bonded to the pad portion 24 of the liquid crystal panel 25 and a printed circuit board (PCB) 26 is connected.

Then, a Pol signal wire applied to TCP is bisected and arranged on the PCB 26. At this time, one of the Pol signal wires is configured to input a Pol signal of an odd TCP, and the other wire is configured to input a Pol signal of an even TCP by an inverter INV1.

At this time, the polarity of the two divided lines is applied by inverting the polarity due to the inverter INV1 so that the first line of the TCP black is applied with the data signals with different polarities.

7A and 7B illustrate polarities of voltages applied to liquid crystals in each field during dot inversion driving of the TFT-LCD of the present invention.

The bipolarized Pol signals having opposite polarities to each other by TCP blocks are inputted as Pol signals of odd TCP and even TCP, respectively, so that the polarity of the first data line is sequentially reversed to negative and positive polarity for each TCP block. .

Certain patterns, such as one skip vertical, result in a signal configuration in which the data signal across the counter electrode is biased with one polarity, distorting the signal applied to the counter electrode.

However, when the polarity is driven for each TCP block, the data signal applied to the counter electrode can be prevented from being biased to one side.

As described above, according to the liquid crystal display according to the present invention, the polarity of the first line of the odd TCP and the first line of the even TCP is different from each other by dividing the Pol signal for determining the polarity in the TCP block. By driving them to be the same, screen defects such as Greenish are caused because the polarity of the data line across the Vcom line does not bias one polarity on a certain screen such as a 1 skip vertical line, so that the number of negative and positive polarities is always the same. There is no effect.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, those skilled in the art will be able to various modifications, changes, additions, etc. within the spirit and scope of the present invention, these modifications and changes should be seen as belonging to the following claims. something to do.

Claims (5)

A liquid crystal panel made by bonding a lower substrate having a thin film display element and an upper substrate having a color filter and injecting liquid crystal therebetween; A plurality of tape carrier packages (TCP) which connect a pad of the lower substrate and a printed circuit board (PCB) to each other and have a gate and a source driver for driving the thin film display device to transmit data signals to pixel electrodes. Wow, And a signal input means configured to divide into two divisions on the PCB and to input signals having opposite polarities to odd-numbered and even-numbered TCPs among the plurality of TCPs. The method of claim 1, And the signal input means inputs the polarity of the first data line of the data TCP block by sequentially inverting the polarity of the data TCP block into a negative polarity and a positive polarity for each block. The method of claim 1, And the thin film display device is an nplan switching (IPS) mode. The method of claim 1, And the thin film display device is a fringe field switching (FFS) mode. The method of claim 1, And said signal input means is divided into two input signals by an inverter.

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