KR0158624B1 - Manufacture for method of control signal path and structure - Google Patents

Abstract

The present invention relates to a method for forming a path for transmitting a driving signal to a driver for driving a panel of a liquid crystal display and a structure thereof.

Conventionally, a controller in which a drive signal of a driver is generated is formed where a driver is attached, and a connection cable is formed to transmit a drive signal to each driver.

However, in such a conventional path configuration, it is difficult to form a large number of paths in a limited area for high resolution and multi-colorization, and the precision and accuracy are deteriorated because the connection cable is connected to a substrate such as a PCB by soldering. There is a problem in that it is difficult to automate the manufacturing of the liquid crystal display due to the increase of.

Therefore, in the present invention, a path for transmitting the drive signal of the controller can be formed at the end of the liquid crystal panel to increase the utilization efficiency of the liquid crystal panel, and the path can be formed at a high density, which is different from that of the conventional path forming method. There is an effect that can solve the problem of technical difficulties in forming a driving signal transmission path for the colorization.

In addition, the process of depositing and patterning a metal when forming a liquid crystal panel, together with the driving signal transmission path can be formed to bring the precision and accuracy in the formation of the driving signal transmission path, and other processes for forming a liquid crystal display device Simultaneously, the process can be simplified, and the process can be automated.

Description

Method and structure of drive signal transmission path

1 is a configuration diagram of a liquid crystal display device.

2 is a cross-sectional view of a TAB package.

3 is a schematic diagram of a liquid crystal display using a conventional path.

4 is a partial view of a liquid crystal display showing an embodiment according to the present invention.

5 is a schematic view of a liquid crystal display showing an embodiment according to the present invention.

* Explanation of symbols for main parts of the drawings

21: PCB 22: control signal generator

25: driver 26: TCP

27 liquid crystal panel 30 gate signal line

31: source signal line 32: pad

33: driver input terminal 34: dummy pad

35: Pass

[Technical field to which the invention belongs and the prior art in that field]

The present invention relates to a method and a structure of a driving signal transmission path. More specifically, the driving signal transmission path, which is a path for supplying a control signal to a driver for driving a liquid crystal panel, is described. It relates to a method and a structure for forming a.

The liquid crystal panel has low power consumption, small size, and light weight, so it can be used for wristwatches and desktop calculators, and can be used for OA devices, new media related devices, large-capacity character display devices, and graphic displays. Applications such as applications to devices and liquid crystal televisions are expanding.

Recently, liquid crystal display devices such as full color liquid crystal display devices or view finders have emerged to reduce the size of pixels of the liquid crystal display device and to increase the number of pixels per side of the liquid crystal panel. There is a demand for liquid crystal panels of density.

In order to drive the liquid crystal display having a high pixel density, a driver is installed and the driver applies a driving voltage to each pixel of the liquid crystal panel so that the liquid crystal panel can be operated. According to the light transmittance of the liquid crystal and a screen display unit including pixels such as semiconductor elements and wirings for driving the liquid crystal, a driver for driving the semiconductor elements, a pad for connecting the screen display unit and the driver of the liquid crystal display device Control unit for driving the controller.

A schematic configuration is shown in FIG. 1 as an example of a liquid crystal display in which a driver for operating a liquid crystal panel composed of a screen display unit and a pad and wirings for driving the liquid crystal display is mounted.

1 is a configuration diagram of a liquid crystal display device, and shows a liquid crystal panel and a peripheral device for driving the liquid crystal panel of the liquid crystal display device.

As shown in FIG. 1, the liquid crystal display includes a liquid crystal panel 1, a driver board 2 for attaching a peripheral device for driving the liquid crystal panel, and a control board (logic board 3).

A driver (4) for driving the liquid crystal panel (1) is attached to the driver board (2) and a flexible printed cable (FPC) 5 is used to transfer the driving voltage from the driver (4) to the liquid crystal panel (1). It is formed between the driver board 2 and the liquid crystal panel 1.

In the control panel 3, a controller 6 and a gate driver 7 for generating a driving signal for transmitting a driving signal to the driver 4 are formed, and the gate driver 7 and the liquid crystal panel 1 are formed. In order to connect the FPC (5) is formed.

Here, a path 8 for transmitting the drive signal generated by the controller 6 to the driver 4 is indicated by a dotted line. The conventional drive signal transmission path 8 is a FPC or FFC with a connect cable. (flexible flat cable) was used.

Another method of connecting a driver integrated circuit to a liquid crystal panel is a tape automated bonding (TAB) method using a tape carrier package (TCP) method in which a driver integrated circuit is attached to a flexible tape.

2 is a cross-sectional view of the TAB package, and shows a method of mounting a driver using TCP.

As shown in FIG. 2, a module 10 having a driver integrated circuit 9 is formed, and a bump is formed on an electrode 11 made of copper (Cu) or the like in the driver integrated circuit 9. Connect via 12).

A polyimide tape 13 is formed on the electrode 11 to fix the module 10, and an ACF (anisotropic conductive film) 14 is formed on the electrode 11 connected to the liquid crystal panel 16. ) To be connected to the transparent electrode 15 of the liquid crystal panel 16.

The other electrode 11 is connected to the printed circuit board 17 by soldering 8.

FIG. 3 illustrates an example of using an FFC or an FPC as a conventional path for transmitting a driving signal to a driver in a method of mounting a driver integrated circuit using the TAB package.

3 is a schematic diagram of a liquid crystal display using a conventional path.

As shown in FIG. 3, a driver 20 for driving the liquid crystal panel 19 is formed on the PCB 21 by the TAB mounting method as described above.

A control signal generator 22 for generating a drive signal is formed on the PCB 23, and a connection cable 24 for transmitting a drive signal from the control signal generator 22 to each driver 20 is provided with a control signal generator ( 22 is formed between the formed PCB 23 and the PCB 21 to which the driver 20 is attached. Here, the connection cable 24 used as a transmission path for driving signals uses FPC or FFC.

As described above, in order to form a plate for attaching a driver to the driver integrated circuit and attach it to the driver integrated circuit, or to transfer the driving signal from the control signal generator to each driver in the TAB mounting method, a separate connection cable is conventionally formed. Configured the pass.

However, the conventional path configuration has the following problems.

As high resolution and multi-coloration are required for the liquid crystal display, high pixel density of the liquid crystal panel is required, and thus control signals and driving signals are increased.

Accordingly, a large number of signal transmission paths must be formed in a limited area. The connection cable used in the conventional path forming method described above has a minimum pitch of 0.3-0.4 mm when using FPC, and when using FFC. Is about 1 mm.

Therefore, there is a technical difficulty in forming a driving signal transmission path according to a conventional path forming method for high resolution and multi-colorization, and also a problem of deterioration in precision and accuracy in an existing process of connecting a path on a PCB. have.

In addition, when the path is connected on the PCB, the path is connected by soldering. In this case, it is difficult to achieve automation in manufacturing a liquid crystal display device by increasing the number of processes.

[Purpose of invention]

SUMMARY OF THE INVENTION An object of the present invention is to provide a liquid crystal display device having a driving signal transmission path that can cope with a conventional problem such as a liquid crystal panel for high resolution and colorization.

[Configuration, Action and Effect of the Invention]

In order to achieve the above object, in the present invention, a path for transmitting a driving signal from the control signal generator to each driver is formed in the liquid crystal panel.

That is, a path for driving the driver is formed on the outside of the screen display portion, which is a portion which does not contribute to the screen display of the liquid crystal panel.

When described in detail according to the accompanying drawings as an embodiment as follows.

4 is a partial view of a liquid crystal display showing an embodiment according to the present invention, and FIG. 5 is a schematic view of a liquid crystal display showing an embodiment according to the present invention.

As shown in FIG. 4 and FIG. 5, the gate signal line 30 and the source signal line 31 are formed in the liquid crystal panel 27 as wirings for operating semiconductor elements. The pad 32 deposited by the metal film is formed in the portion which does not contribute to the screen display of the liquid crystal panel 27.

At this time, a path 35 for supplying a signal from the control signal generator 22 located on the PCB 21 to the driver 25 located on each side is formed in the liquid crystal panel 27. The pass 35 is formed at the same time in the process of forming the pad 32 of the liquid crystal panel 27 described above.

Here, the driver input terminal 33 is formed on the PCB 21 to supply the signal from the control signal generator 22 to the driver 25, and the signal from the input terminal 33 is connected to the path 35. Dummy pads 34 are formed in the TCP 26 for the purpose.

In this configuration, the signal source generated by the control signal generator 22 is sent to the input terminal 33, and a part of the signal from the input terminal 33 is transmitted to the driver 36 to pass the liquid crystal via the pad 32. A part of the signal from the input terminal 33 is transmitted to the source signal line 31 of the panel 27 and passes to the other side via a path 35 formed in the dummy pad 34 and the liquid crystal panel 27. It is transmitted to the input terminal 33 located to drive the driver 36 to transmit a signal to the gate signal line 30 through the pad (32).

In forming the signal path 35 for driving the driver 36 in this manner, the signal path 35 formed on the liquid crystal panel 27 is a process of forming a pad 32 for depositing and patterning a metal layer. The connection between each PCB 21 and the pass 35 of the liquid crystal panel 27 is carried out simultaneously in the process of attaching the TCP 26 to the liquid crystal panel 27 and the PCB 21.

Here, the connection between the liquid crystal panel 27 and the TCP 26 is connected using a conventional anisotropic conductive film (ACF).

In such a configuration, the signal generated by the control signal generator 22 may be directly transmitted to the input terminal 33 located on the other side via the dummy pad 34 and the path 32.

As described above, the path for transmitting the driving signal formed by the present invention is formed at the end of the liquid crystal panel except for the display part of the liquid crystal panel, so that the utilization efficiency of the liquid crystal panel can be increased, and the path can be formed with high density. In the method of forming a path, the problem of technical difficulties in forming a driving signal transmission path for high resolution and multi-colorization is solved.

In addition, when the liquid crystal panel is formed, a driving signal transmission path may be formed together with a process of depositing and patterning a metal, thereby bringing an effect of bringing precision and accuracy to the formation of the driving signal transmission path.

In addition, as described above, the process can be performed simultaneously with other processes for forming the liquid crystal display, thereby bringing about an effect of simplifying the process and thus an effect of automating the process.

Claims (6)

And a pad configured to receive a driving signal from the outside and transmit the driving signal to the gate signal line and the source signal line to a portion which does not contribute to the gate signal line, the source signal line, and the screen display unit. A dummy pad configured to transfer the control signal to a driver that outputs the driving signal according to a control signal, and is connected to the liquid crystal panel through an ACF. A liquid crystal display device comprising a PCB connected to the TCP and equipped with a control signal generator for outputting the control signal, the liquid crystal display device being formed on the liquid crystal panel that does not contribute to a screen display unit, And a liquid crystal display for transmitting the control signal to the drive through a connected path. The liquid crystal display of claim 1, further comprising an input terminal formed on the PCB and receiving the control signal from the control signal generator and outputting the control signal to the driver. A liquid crystal panel composed of a pad, a screen display portion, a gate signal line and a source signal line, a driver for driving the liquid crystal panel, a TCP for mounting the driver, and a control for generating a signal supplied to the driver In the manufacturing process of a liquid crystal display device comprising a signal generator and a PCB for mounting the control signal generator, a step of forming the input terminals on the PCB, and a dummy pad on the TCP, respectively. And forming a pass in the liquid crystal panel for connection between the input terminals. 4. The method of claim 3, wherein the dummy pad is formed in the driver forming step. 4. The method of claim 3, wherein the connection path is formed in a process of forming the pad by depositing and patterning a metal layer at an end portion of the liquid crystal panel. 5. The liquid crystal display of claim 1, further comprising a driver mounted on the TCP and outputting the driving signal.