KR100592222B1 - Liquid crystal display device - Google Patents

Abstract

Disclosed is a liquid crystal display device having improved assembly and reduced signal distortion. The first signal transmission line is formed outside the effective display area in the liquid crystal display panel. The data printed circuit board outputs a data signal and a first gate control signal applied to the first signal transmission line through a data tape carrier package connected to the liquid crystal display panel, and a second signal transmission line to which the second gate control signal is output. Is formed. The gate printed circuit board receives a first gate control signal through a gate tape carrier package electrically connected to the second signal transmission line, and a third signal transmission line electrically connected to the two signal transmission lines is formed. The conductive fastening member couples the data printed circuit board and the gate printed circuit board and electrically connects the terminal portion of the second signal transmission line and the terminal portion of the third signal transmission line. Accordingly, the flexible printed circuit and the connector electrically connecting the data printed circuit board and the gate printed circuit board are eliminated, and the distortion of the second gate control signal is greatly reduced.

LCD, conductive screw, signal transmission

Description

Liquid crystal display device

1 is a plan view showing a development of a liquid crystal display panel of the liquid crystal display device according to the present invention.

FIG. 2 is a rear view illustrating a rear surface of the liquid crystal display panel after bending and assembling the printed circuit board. FIG.

3 is a perspective view of a reconstructed portion A of FIG.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display, and more particularly, a part of transmission lines of a gate control signal is formed in a liquid crystal display panel, and the remaining gate control signal transmission lines formed on data and gate printed circuit boards are electrically conductive fastening members. The present invention relates to a liquid crystal display device which is prevented from deteriorating image quality due to signal distortion and is easier to assemble.
The liquid crystal display device is generally composed of a liquid crystal display module and a case.
The liquid crystal display module is a color filter substrate formed with tens or millions of thin film transistors connected to data lines and gate lines, TFT substrates having pixel electrodes connected to thin film transistors, and TFT substrates facing each other and having RGB pixels and common electrodes facing pixel electrodes. A liquid crystal display panel, a gate printed circuit board and a data printed circuit board on which a signal processing element for first processing an image signal processed by an external information processing device is formed, and a signal processed by a gate printed circuit board and a data printed circuit board It consists of a tape carrier package and an optical supply device to be applied to the data line and the gate line at an appropriate timing.
At this time, the image signal processed by the external information processing apparatus is mainly applied to the data printed circuit board. Since the image signal includes both the data driving signal and the gate driving signal, the signal must be separated into a gate printed circuit board and a data printed circuit board, respectively. To this end, a flexible printed circuit (FPC) connecting the gate printed circuit board and the data printed circuit board and a connector connecting the flexible printed circuit and the data printed circuit board or the gate printed circuit board are used. .
However, the connector is hardly formed on the side of the gate and the data printed circuit board and is mainly formed on the bottom surface of the gate and the data printed circuit board. In this case, no matter how thin the thickness of the connector, it inevitably increases the thickness of the liquid crystal display device.
In addition, the connector formation fixing is complicated, the connector and the flexible printed circuit has to be precisely aligned, there is a problem that the assembly is difficult and the process time is increased.

Accordingly, the present invention has been made in view of such a conventional problem, and an object of the present invention is to form some of the transmission lines of the gate control signal in the liquid crystal display panel, and transmit the remaining gate control signals formed on the data and gate printed circuit boards. By connecting the lines to the conductive fastening member, it is easier to assemble the liquid crystal display device, and to provide a liquid crystal display device to prevent image degradation due to signal distortion.
Another object of the present invention will become more apparent from the detailed description of the invention which will be described later.

In order to achieve the above object of the present invention, a liquid crystal display device according to an embodiment includes a liquid crystal display panel, a data tape carrier package, a gate tape carrier package, a data printed circuit board, a gate printed circuit board, a conductive fastening member, and an optical supply. Device. In the liquid crystal display panel, a thin film transistor, a gate line and a data line connected to the thin film transistor, and a first signal transmission line are formed outside the effective display area. The data tape carrier package is electrically connected to the data line and the first signal transmission line. The gate tape carrier package is electrically connected to the gate line and the first signal transmission line. A data printed circuit board is electrically connected to the data tape carrier package. The data printed circuit board outputs a data signal applied to the data line and a first gate control signal applied to the first signal transmission line. The data printed circuit board includes a second signal transmission line on which the second gate control signal is output. Is formed. The gate printed circuit board is electrically connected to the gate tape carrier package. A third signal transmission line electrically connected to the second signal transmission line is formed on the gate printed circuit board. The gate printed circuit board outputs a gate signal to the gate line according to the first gate control signal and the second gate control signal. The conductive fastening member couples the data printed circuit board and the gate printed circuit board and electrically connects the terminal portion of the second signal transmission line and the terminal portion of the third signal transmission line. The light supply device emits light to the rear surface of the liquid crystal display panel.
Hereinafter, a liquid crystal display according to the present invention will be described in detail with reference to the accompanying drawings. For example, a light supply device, a case, and the like, which are the same as in the related art, will be described with reference to the liquid crystal display panel, which is an improved part.
1 is a plan view of a liquid crystal display according to an exemplary embodiment of the present invention. Specifically, FIG. 1 is a plan view of the liquid crystal display panel 90 without bending the gate printed circuit board 10 and the data printed circuit board 20 of the liquid crystal display device.
Referring to FIG. 1, the liquid crystal display device 100 includes a liquid crystal display panel 90, a data tape carrier package 50, a gate tape carrier package 60, a data printed circuit board 20, and a gate printed circuit board 10. ), A conductive fastening member and a light supply device.
The liquid crystal display panel 90 includes a thin film transistor substrate (hereinafter referred to as a TFT substrate) 30, a color filter substrate 40 facing the TFT substrate, and a liquid crystal interposed between the TFT substrate and the color filter substrate. City).
More specifically, tens to millions of thin film transistors are formed in the effective display area of the TFT substrate 30 in a matrix form by a semiconductor thin film process, and gate lines, data lines, and pixel electrodes are connected to each thin film transistor. The first signal transmission line 70 is formed in the peripheral area surrounding the effective display area.
In the color filter substrate 40, an RGB pixel is formed by a photo process, a developing process, and an etching process, and a common electrode is formed to face the pixel electrode of the TFT substrate 30.
Meanwhile, an output terminal of the data tape carrier package 50 on which the data driving drive IC 55 is formed is electrically connected to the data line extending to the peripheral region of the TFT substrate 30, and the data tape carrier package 50 is formed on the first line. It is electrically connected to the signal transmission line 70. An output terminal of the gate tape carrier package support 60 on which the gate driving drive 65 is formed is electrically connected to the gate line.
The input terminal of the data tape carrier package 50 is electrically connected to the data printed circuit board 20, and the input terminal of the gate tape carrier package 60 is electrically connected to the gate printed circuit board 10. A raw image signal is input to the data printed circuit board 20 from an external information processing device (not shown), and a second signal transmission line 80 is formed on the data printed circuit board 20.
The data printed circuit board 20 outputs a data signal to a data line through the data tape carrier package 50 according to the raw image signal, and the data tape carrier package 50-the first signal transmission line 70-the gate tape. The first gate control signal is output to the gate printed circuit board 10 through the carrier package 60, and the second gate control signal is output to the second signal transmission line 80.
In this case, the first gate control signal includes an STV signal, an OE signal, an turn-on signal Von for turning on the thin film transistor, and the second gate control signal is a thin film. And a turn-off signal Voff for turning off the transistor.
A third signal transmission line 85 is formed on the gate printed circuit board 10 to be electrically connected to the second signal transmission line 80.
FIG. 2 is a rear view illustrating a rear surface of the liquid crystal display panel shown in FIG. 1 after bending and assembling the printed circuit board. FIG. 3 is an enlarged perspective view of area A shown in FIG. 2.
Referring to FIGS. 2 and 3, the liquid crystal display device 100 further includes a storage container for accommodating the liquid crystal display panel 90, a light supply device, and the like. The gate printed circuit board 10 is disposed along one edge of the rear surface of the storage container, and the data printed circuit board 20 is disposed along the other edge of the rear surface of the storage container. At this time, the short side edge of the data printed circuit board 20 is in contact with the long side edge of the gate printed circuit board 10.
A first groove 25 having a semicircular shape is formed at the short side edge of the data printed circuit board 20, and the long side edge of the gate printed circuit board 10 faces the first groove 25. The second groove 15 having a semicircular shape is formed. The first groove 25 and the second groove 15 form a circular guide groove. The back surface of the storage container is formed with a circular groove having a predetermined depth corresponding to the guide groove, and the inner surface of the circular groove is tapping.
Meanwhile, the terminal portion of the second signal transmission line 80 is exposed to the periphery of the first groove 25, and the terminal portion of the third signal transmission line 85 is exposed to the periphery of the second groove 15.
The conductive fastening member 35 couples the data printed circuit board 20 and the gate printed circuit board 10 and is fixed to the rear surface of the storage container. In addition, the conductive fastening member 35 electrically connects the terminal portion of the second signal transmission line 80 and the terminal portion of the third signal transmission line 85. In the present embodiment, the conductive fastening member 35 is a conductive screw 35. The conductive screw 35 is preferably made of a material having a very thin thickness and excellent electrical conductivity.
The conductive screw 35 is inserted into the guide groove formed by the first groove 25 and the second groove 15 and fixed to the rear surface of the storage container. In this case, the head of the conductive screw 35 is in contact with the terminal portion of the second signal transmission line 80 and the terminal portion of the third signal transmission line 85, respectively. As a result, the second signal transmission line 80 and the third signal transmission line 85 are electrically connected.
Accordingly, the gate printed circuit board 10 receives the first gate control signal through the data tape carrier package 50, the first signal transmission line 70, and the gate tape carrier package 60, and the second signal. The second gate control signal is applied through the transmission line 80 and the third signal transmission line 85. The gate printed circuit board 10 outputs a gate signal to the gate line through the gate type carrier package 60 according to the first gate control signal and the second gate control signal.
The light supply device is accommodated in the storage container and emits light to the rear surface of the liquid crystal display panel 90. The liquid crystal display panel 90 displays an image according to the data signal and the gate signal based on the light.
Unlike the present embodiment, when the turn-off signal is transmitted through the first signal transmission line 70 formed in the peripheral region of the TFT substrate 30, the width of the peripheral region of the TFT substrate 30 is very limited. Therefore, the line width of the first signal transmission line 70 is also formed in the order of tens to hundreds of micrometers. For this reason, the wiring resistance of the first signal transmission line 70 may be much larger than the required level. When the wiring resistance of the first signal transmission line 70 is greater than the reference value, distortion and the modulation voltage drop of the turn-off signal occur. Since the turn-off voltage directly affects the brightness of the display screen of the liquid crystal display device, the above-described signal distortion and modulation voltage drop cause display defects in which the screen is divided.
However, in this embodiment, the turn-off signal is gated through the second signal transmission line 80 formed on the data printed circuit board 20 and the third signal transmission line 85 formed on the gate printed circuit board 10. It is applied to the printed circuit board 10. In addition, the line resistance of the second signal transmission line 80 and the third signal transmission line 85 may be increased to significantly reduce wiring resistance.

As described in detail above, according to the present invention, some of the gate control signals transmitted from the data printed circuit board to the gate printed circuit board, the signal of which is not largely changed or distorted, may be a first signal formed on the TFT substrate. The second and third signals formed on the data and gate printed circuit boards may be transmitted through a transmission line, and a signal in which a signal change or distortion is large when transmitted through a first signal transmission line formed on a TFT substrate, such as a turn-off signal, may be generated. Transmit through signal transmission lines. At this time, the electrical connection between the second signal transmission line and the third signal transmission line is made by a simple fastening member such as a conductive screw.
Therefore, in order to provide a transmission line for a gate control signal, a connector is formed on a data printed circuit board and a gate printed circuit board, and is coupled to the connectors to electrically connect the data printed circuit board and the gate printed circuit board. Compared to the case of using a printed printed circuit, the assembling of the liquid crystal display device becomes very easy.
Further, as compared with the case where all the gate control signals are transmitted through the signal transmission line formed on the TFT substrate, the distortion of the gate control signals is greatly reduced, resulting in a reduction in the image quality displayed on the liquid crystal display panel.

Claims (7)

A liquid crystal display panel having a thin film transistor, a gate line and a data line connected to the thin film transistor, and a first signal transmission line formed outside the effective display area; A data tape carrier package electrically connected to the data line and the first signal transmission line; A gate tape carrier package electrically connected to the gate line and the first signal transmission line; A second signal electrically connected to the data tape carrier package to output a data signal applied to the data line and a first gate control signal applied to the first signal transmission line and to output a second gate control signal; A data printed circuit board on which a transmission line is formed; A third signal transmission line is formed to be electrically connected to the second signal transmission line, and is electrically connected to the gate type tape to form a gate signal on the gate line according to the first gate control signal and the second gate control signal. A gate printed circuit board for outputting the printed circuit board; A conductive fastening member coupling the data printed circuit board and the gate printed circuit board and electrically connecting the terminal portion of the second signal transmission line and the terminal portion of the third signal transmission line; And And a light supply device for emitting light to the rear surface of the liquid crystal display panel. delete delete The display device of claim 1, wherein the first gate control signal comprises a turn-on signal for the thin film transistor, And the second gate control signal includes a turn-off signal for the thin film transistor. The liquid crystal display device according to claim 4, wherein the conductive fastening member is a conductive screw. The semiconductor device of claim 5, wherein a first groove having a semicircular shape is formed at an edge of the data printed circuit board on which the second signal transmission line extends. And a second groove having a semicircular shape opposite to the first groove is formed at an edge of the gate printed circuit board on which the third signal transmission line extends. The peripheral part of the second signal transmission line and the terminal portion of the second signal transmission line is formed in the guide groove formed by the first groove and the second groove, and formed in the periphery of the first groove. And a terminal portion of the third signal transmission line formed in the contact portion.

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