KR19990073704A - LCD Display Module - Google Patents

Abstract

The present invention relates to a liquid crystal display module, wherein the output pad of the FPC is directly coupled to the input pad of the source drive IC bonded to the source PCB without being bonded to the source PCB by being directly spaced apart from each other. The source PCB can be slimmed down by reducing the area of the source PCB by the separation distance between the IC's input pads.

Description

LCD Display Module

The present invention relates to a liquid crystal display module, and more particularly, to a liquid crystal display module that can minimize the area of the PCB by modifying the connection of the FPC electrically connected to the PCB.

In general, as the modern society becomes information society, the importance of the liquid crystal display module, which is one of the information display devices, is gradually increasing. Cathode ray tube (CRT), which is widely used so far, has many advantages in terms of performance and cost, but has many disadvantages in terms of miniaturization or portability. On the other hand, the LCD module is somewhat expensive in terms of price, but it has been noted as an alternative means to overcome the disadvantages of the CRT because it has advantages such as miniaturization, light weight, thinness, and low power consumption.

In order to satisfy the purpose of reducing the thickness of the liquid crystal display module, the members constituting the liquid crystal display module, for example, a backlight, a connector, a printed circuit board (PCB), and the like, may be used. The trend is to continue miniaturizing, thinning, and reducing weight.

Here, the combination of the liquid crystal display module, the LCD panel consisting of a TFT substrate and a C / F substrate is electrically connected to a source PCB for applying a data signal and a gate PCB for applying a scanning signal.

In particular, the use of bending type tap ICs with the tap ICs attached to each other allows the source PCB and the gate PCB to be positioned to the rear of the LCD panel, thereby reducing the planar area of the liquid crystal display module. It is adopted in low brightness, small size notebook PC.

However, when used in a large-screen LCD monitor, backlight lamps should be attached to both sides in order to obtain high brightness, and in such a case, it is difficult to apply the bending type tap IC.

In the end, the slim-type tap IC was used, and the size of the gate PCB and the source PCB had to be reduced as much as possible.

As shown in FIG. 1, an LCD panel 10 made of liquid crystal is interposed between a TFT substrate 11 for applying a pixel unit signal and a C / F substrate 12 having a color filter representing a color. The gate PCB 13 is positioned corresponding to the gate side connection pad region of the TFT substrate 11 of the LCD panel 10, and the source PCB 15 is positioned corresponding to the source side connection pad region of the TFT substrate 11. do.

The gate drive IC 14 electrically connects the gate PCB 13 and the gate side connection pads of the TFT substrate 11, and the source drive IC 16 is the source side of the source PCB 15 and the TFT substrate 11. The connection pads are electrically connected, and the output pads 17a of the FPC 17 are electrically connected to the source PCB 15.

The control PCB (not shown) is electrically connected to the input pad of the FPC 17 that is electrically connected to the source PCB 15.

However, since one end of the FPC electrically connected to the source PCB is spaced apart from the source drive IC electrically connected to the source PCB, it is difficult to minimize the area of the source PCB.

Accordingly, it is an object of the present invention to minimize the area of the source PCB by varying the connection of the FPC to the source PCB.

1 is a plan view schematically showing the structure of a liquid crystal display module according to the prior art.

FIG. 2A is a plan view schematically illustrating a structure of a liquid crystal display module according to an exemplary embodiment of the present invention, and FIG. 2B is a cross-sectional view illustrating a cross-sectional view taken along line A-A 'of FIG. 2A.

3A is a plan view schematically illustrating a structure of a liquid crystal display module according to another exemplary embodiment of the present invention, and FIG. 3B is a cross-sectional view illustrating a cross-sectional view taken along line BB ′ of FIG. 3A.

In order to achieve the above object, the present invention provides an LCD panel having a TFT substrate and a C / F substrate, a gate PCB positioned corresponding to the gate side connection pad region of the TFT substrate of the LCD panel, and a source side connection pad of the TFT substrate. A source PCB positioned corresponding to the region, a gate drive IC electrically connecting the gate PCB and the gate side connection pads of the TFT substrate, a source drive IC electrically connecting the source PCB and the source side connection pads of the TFT substrate, In the liquid crystal display module comprising an FPC, the output pad is electrically connected to the PCB,

The output pad of the FPC is directly connected to the input pad of the source drive IC.

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

As shown in FIG. 1, an LCD panel 20 made of liquid crystal is interposed between a TFT substrate 21 for applying a pixel unit signal and a C / F substrate 22 having a color filter indicating color. The gate PCB 23 is positioned corresponding to the gate side connection pad region of the TFT substrate 21 of the LCD panel 20, and the source PCB 25 is positioned corresponding to the source side connection pad region of the TFT substrate 21. do.

The gate drive IC 24 electrically connects the gate PCB 23 and the gate side connection pads of the TFT substrate 21.

According to the present invention, the output pad 26b of the source drive IC 26 is electrically connected to the TFT substrate 21 in the state of the common pad 27a in which the output pad of the FPC 27 and the input pad of the source drive IC are integrally formed. The common pad 27a is electrically connected to the source PCB 25.

When the source PCB 25 and the TFT substrate 21 are electrically connected in a state in which the FPC 27 and the source drive IC 26 are integrally formed, the bonding area occupied by the output pad of the FPC 27 can be reduced. Therefore, the width (Y) of the source PCB can be reduced by that much.

A control PCB (not shown) is electrically connected to the input pad of the FPC 27 that is electrically connected to the source PCB 25.

In addition, look at another embodiment of the present invention in detail.

As shown in FIG. 3, an LCD panel 30 made of liquid crystal is interposed between a TFT substrate 31 for applying a pixel unit signal and a C / F substrate 32 having a color filter indicating color. The gate PCB 33 is positioned corresponding to the gate side connection pad region of the TFT substrate 31 of the LCD panel 30, and the source PCB 35 is positioned corresponding to the source side connection pad region of the TFT substrate 31. do.

The gate drive IC 34 electrically connects the gate PCB 33 and the gate side connection pads of the TFT substrate 31, and the source drive IC 36 is the source side of the source PCB 35 and the TFT substrate 31. Connect the connection pad electrically.

According to the present invention, the output pad 37a of the FPC 37 is aligned and bonded to the input pad 36b of the source drive IC 36 electrically connected to the source PCB 35.

When the output pad 37a of the FPC 37 is electrically connected in alignment with the input pad 36b of the source drive IC 36, the area occupied by the bonding of the output pad 37a of the FPC 37 is reduced. The width Z of the source PCB 35 can be reduced by that amount.

The control PCB (not shown) is electrically connected to the input pad of the FPC 37 that is electrically connected to the source PCB 35.

As described above, in the present invention, the output pads of the FPC bonded to the source PCB are directly coupled to each other without being spaced apart corresponding to the input pads of the source drive IC, so that the separation between the output pads of the conventional FPC and the input pads of the source drive IC is eliminated. By reducing the area of the source PCB by the distance, the source PCB can be made slimmer.

Claims (2)

An LCD panel having a TFT substrate and a C / F substrate; A gate PCB positioned corresponding to the gate side connection pad region of the TFT substrate of the LCD panel; A source PCB positioned corresponding to the source side connection pad region of the TFT substrate; A gate drive IC electrically connecting the gate PCB and a gate side connection pad of the TFT substrate; A source drive IC electrically connecting the source PCB and a source side connection pad of the TFT substrate; In the liquid crystal display module comprising an FPC, the output pad is electrically connected to the source PCB, And an output pad of the FPC is directly connected to an input pad of the source drive IC. The liquid crystal display module of claim 1, wherein the output pad of the FPC is bonded to an upper surface of an input pad of the source drive IC.