KR100373848B1 - Liquid crystal display panel for stabilizing ground voltage level of gate driver intergrated circuit - Google Patents

Abstract

The present invention relates to a liquid crystal display panel having a structure for stabilizing the ground voltage of a gate driver integrated circuit. A thin film liquid crystal display panel of a type not using a gate printed circuit board is provided with a gate driver integrated circuit as a tape carrier package type and connected to a glass substrate. The source printed circuit board is connected to one side of the chassis through a coupling means such as a screw, through which the chassis is connected to the ground terminal of the source printed circuit board. The chassis also has a mechanical structure coupled with the gate driver integrated circuit. The gate driver integrated circuit has a wide ground pattern at both ends, and the ground pattern is connected to the ground line of the gate bus line. A window is formed in a widely formed ground pattern, and the window edge is connected to the other side of the chassis connected to the ground terminal of the source printed circuit board. Thus, the gate driver integrated circuit is connected to the ground terminal of the source printed circuit board through the chassis and grounded. Therefore, the ground voltage level of all gate driver integrated circuits can be stably maintained regardless of the distance between the source driver integrated circuit and the gate driver integrated circuit, such as electromagnetic interference (EMI), static electricity, noise filter and impedance cancellation. The effect can be obtained.

Description

LIQUID CRYSTAL DISPLAY PANEL FOR STABILIZING GROUND VOLTAGE LEVEL OF GATE DRIVER INTERGRATED CIRCUIT}

The present invention relates to a liquid crystal display device, and more particularly to a liquid crystal display panel for maintaining a stable ground voltage level of the gate driver integrated circuit.

Referring to FIG. 1, a typical thin film transistor liquid crystal display panel (TFT-LCD) 2 may include a glass substrate 4 forming a liquid crystal display panel and a source driver printed circuit board at one edge of the glass substrate 4. A source driver PCB (6) is provided, and a gate driver PCB (gate driver PCB) 10 is provided at an edge perpendicular to the source driver printed circuit board 6.

The source driver printed circuit board 6 includes a source driver integrated circuit (not shown) and a data bus line (not shown) required by the source driver integrated circuit, and is provided through a tape carrier package (TCP) 14. It is connected to the glass substrate 4. Gate driver printed circuit board 10 includes a gate driver integrated circuit (not shown) and a gate bus line (not shown), which are also connected to glass substrate 4 via TCP 16. These TCPs 14 and 16 are equipped with source and gate driver integrated circuits, respectively.

The source and gate driver printed circuit boards 6 and 10 are provided with connectors 8 and 12 for electrically connecting each other.

However, recently, as shown in FIG. 2, a signal required in the gate driver integrated circuit is transferred from the source driver circuit through the glass substrate to the manufacturing cost of the liquid crystal display panel, and is transmitted through the existing gate driver integrated circuit. A technology of transferring a pattern by forming a pattern on a glass substrate, that is, a gateless circuitless method (GATE PCBless) is used.

In detail, referring to FIG. 2, the GATE PCBless type liquid crystal display panel 20 includes a glass substrate 22, a source driver integrated circuit 24, a source printed circuit board 26, and a tape carrier package (TCP) type gate. The driver integrated circuit 28 is included.

The source driver integrated circuit 24 and the gate driver integrated circuit 28 are connected by a data bus line (30 in FIG. 3) by a pattern formed on the glass substrate 22 by the connection portion A indicated by a dotted line.

Referring to FIG. 3, the connection portion A forms gate bus lines 30 for transmitting signals from the source driver integrated circuit 24 to the gate driver integrated circuit 28 in a pattern, through which the source driver integrated circuit is formed. And the gate driver integrated circuit 28 are electrically connected to each other.

However, in the GATE PCBless method, the pattern resistance formed on the glass substrate reaches a resistance value of tens to hundreds, so that the ground voltage level in the gate driver integrated circuit 28 is actually the ground voltage level of the source printed circuit board 26. And difference occurs. In other words, the ground voltage of the actual gate driver integrated circuit 28 has only a few voltage levels.

At this time, the larger the distance between the source printed circuit board 26 and the gate driver integrated circuit 28, the more the difference in the ground voltage level becomes.

Therefore, if the ground voltage level is not stabilized, it may cause a fatal problem to the product due to the late discharge when exposed to static electricity and the late discharge when the power is cut off.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problem, and to implement a structure of a liquid crystal display panel for stabilizing the ground voltage level of a gate drive circuit in a liquid crystal display panel that does not use a gate printed circuit board.

1 shows a schematic structure of a thin film liquid crystal display panel of the type using a general gate printed circuit board;

2 shows a schematic structure of a thin film liquid crystal display panel of the type not using a gate printed circuit board;

3 is a diagram illustrating a connection state between a source driver integrated circuit and a gate driver integrated circuit shown in FIG. 2;

4 is a rear view of a liquid crystal display panel of the type not using a gate printed circuit board according to the present invention; And

FIG. 5 is a diagram illustrating a structure of a gate driver integrated circuit illustrated in FIG. 4.

Explanation of symbols on the main parts of the drawings

40 liquid crystal display panel 42 glass substrate

44: chassis 46: source driver integrated circuit

48: source printed circuit board 50: gate driver integrated circuit

52: gate bus line 54: integrated circuit

56a, 56b: window 58: ground terminal

60: screw

According to one aspect of the present invention for achieving the above object, a liquid crystal display panel comprising: a glass substrate having a printed circuit board of a source driver integrated circuit on one side; A chassis having at least one first ground portion coupled to a ground terminal of a printed circuit board of the source driver integrated circuit; A gate driver integrated circuit provided on the other side of the glass substrate, the gate driver integrated circuit having a second ground portion corresponding to the first ground portion; The gate driver integrated circuit includes a window having a wide pattern formed at both ends thereof, a window formed to insert the first ground portion into the pattern, and a second ground portion electrically connected to the first ground portion at the edge of the window. And the second ground portion is grounded through the chassis to maintain a stable ground voltage level of the gate driver integrated circuit.

In a preferred embodiment of this aspect, the gate driver integrated circuit is provided in a tape carrier package type.

(Action)

Therefore, according to the present invention, at least one ground portion in contact with the chassis is provided at one side of the gate driver integrated circuit to stably maintain the ground voltage level.

(Example)

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

4 is a rear view of a liquid crystal display panel of the type not using a gate printed circuit board according to the present invention.

Referring to the drawings, the liquid crystal display panel 40 includes a plurality of novel gate driver integrated circuits 50. The liquid crystal display panel 40 includes a TFT glass substrate 42, a chassis 44, a plurality of source driver integrated circuits 46, and a source printed circuit board 48.

The source printed circuit board 48 is connected to one side of the chassis 44 through coupling means 60 such as a screw, an aluminum foil, a clip, and the like, through which the chassis 44 is connected to the source printed circuit board 48. Is connected to the ground terminal.

In addition, the chassis 44 has a mechanical structure that can be easily coupled to the gate driver integrated circuit 50.

The gate driver integrated circuit 50 is provided in a tape carrier package (TCP) type, and is electrically connected to the protrusion (62 of FIG. 5) of the chassis 44 to pass through the source printed circuit through the chassis 44. It is connected to the ground terminal of the substrate 48.

Specifically, referring to FIG. 5, the gate driver integrated circuit 50 includes integrated circuits 54 and gate bus lines 52 on a tape carrier package (TCP) type substrate. A ground pattern is widely formed at both ends, and the ground pattern is connected to the ground line of the gate bus line 52.

The windows 56a and 56b are formed in the widely formed ground pattern so as to be inserted into the protrusions 62 of the chassis 44. That is, the chassis 44 has at least one protrusion 62 to be coupled to the windows 56a and 56b at one side where the gate driver integrated circuits 50 are provided. The windows 56a and 56b have edges 58 connected to the ground terminals of the gate driver integrated circuit 50 and are in electrical contact with the protrusions 62 of the chassis 44. The driver integrated circuit 50 is connected to the ground terminal of the source printed circuit board 48 through the chassis 44 and grounded. Therefore, the ground voltage levels of all the gate driver integrated circuits 50 can be stably maintained regardless of the distance between the source driver integrated circuits 46 and the gate driver integrated circuits 50.

As described above, the present invention connects the ground terminal of the gate driver integrated circuit to the chassis connected to the ground terminal of the source driver integrated circuit, thereby grounding the gate driver integrated circuit regardless of the distance between the source driver integrated circuit and the gate driver integrated circuit. By keeping the voltage level stable, it is possible to obtain effects such as EMI (Electro Magnetic Interference), static electricity, noise and impedance removal, and when storing the gate driver integrated circuit connected to the glass substrate in the chassis, The coupling to the protrusions simplifies the manufacturing process of the liquid crystal display device.

Claims (2)

In the liquid crystal display panel: A glass substrate having a printed circuit board of a source driver integrated circuit on one side; A chassis having at least one first ground portion coupled to a ground terminal of a printed circuit board of the source driver integrated circuit; A gate driver integrated circuit provided on the other side of the glass substrate and having at least one second ground portion corresponding to the first ground portion; The gate driver integrated circuit includes a second ground portion having a wide pattern formed at both ends and a second ground portion electrically connected to the first ground portion at a window edge formed so that the first ground portion is inserted into the pattern. Wherein the ground portion of the ground terminal is grounded through the chassis to stably maintain the ground voltage level of the gate driver integrated circuit. The method of claim 1, And the gate driver integrated circuit is provided in a tape carrier package type.