JP2002328620A - Liquid crystal display - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a TFT array substrate which can prevent the occurrence of a foreign matter biting during a TCP mounting and the generation of a short-circuiting between adjacent terminals caused by the positioning deviation of TCP side output terminals and to provide a liquid crystal display which utilizes the substrate. SOLUTION: Input terminals on a TFT array substrate are arranged in a staggered manner. Moreover, adjacent input terminals are mutually made into different flat surface shapes. Furthermore, an insulating film is formed as a top layer of the input terminals, contact holes are formed on the input terminals and the input terminals and the output terminals of the TCP side are connected through the holes.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat display device such as a liquid crystal display device, and more particularly to a TF having a switching element.
The present invention relates to an input terminal for signal input provided in a peripheral portion of a T array substrate or the like. More specifically, the present invention relates to a TCP mounting process for connecting an input terminal on a substrate to an output terminal provided on the surface of a TCP, and relates to a short-circuit between adjacent terminals due to biting of a conductive foreign substance and a positional shift between the TCP and the input terminal. The present invention relates to a TFT array substrate and a liquid crystal display using the same by preventing a short circuit between adjacent terminals.

[0002]

2. Description of the Related Art Liquid crystal display devices (hereinafter also referred to as LCDs)
Are two glass substrates attached around the periphery while maintaining a certain gap, a liquid crystal material injected into the gap, a polarizing plate provided outside each of the two glass substrates, a light source, And a backlight. Among them, each pixel is provided with a switching element such as a thin film transistor (hereinafter, referred to as TFT), and an active matrix type LCD that drives each pixel by a scanning signal and a data signal.
Have features such as high viewing angle and high contrast, and are widely used as LCDs for AV and OA.

[0003] Such an active matrix type LCD
For example, the structure and manufacturing method of JP-A-8-6069
No. 6,086,045.

As shown in FIG. 5, a liquid crystal display (LC)
D) 1 includes a liquid crystal display panel 2 for performing display, and a printed wiring board (hereinafter, referred to as PWB) 5 for supplying a signal to the liquid crystal display panel 2. As described above, the liquid crystal display panel 2 is formed by attaching two glass substrates, and one of the glass substrates is provided with a switching element such as a TFT. For this reason, this glass substrate is called a TFT array substrate 3.

A signal line is provided on the TFT array substrate 3 to supply a scanning signal and a data signal to the TFT. The signal line is near the peripheral edge of the TFT array substrate 3,
Connected to CP (Tape Carrier Package) 4, PWB5
Connected to.

FIGS. 6 and 7 show the shape and structure of the connection between the TFT array substrate 3 and the TCP 4. Near the peripheral edge of the TFT array substrate 3, a contact hole 12 is provided in the insulating film 8 on the signal line 9, and the input terminal 7 is formed on the contact hole 12 by a conductive film such as an ITO film. Adjacent input terminals 7 have substantially the same planar shape.

An end of the TCP 4 is superimposed on such an input terminal 7, and an anisotropic conductive film (not shown; hereinafter, AC
(Referred to as "F") and press-bonded by heat or the like.

At this time, if a conductive foreign substance is caught between the input terminal 7 and the TCP 4, the adjacent input terminal 7
There is a possibility that a short circuit will occur between them. Further, when the short circuit is in the pseudo contact mode, it cannot be found during the manufacturing process in the factory, and may occur later in the market.

As shown by an imaginary line (two-dot chain line) in FIG. 6, when a position shift occurs between the input terminal 7 and the output terminal 6 on the TCP 4 side, the input terminal 7 and the adjacent TCP
The distance d from the side output terminal 6 becomes small, and there is a possibility that a short circuit may occur via the anisotropic conductive particles. If the short circuit is in the quasi-contact mode, it may occur later in the market.

[0010] As the resolution of LCDs is rapidly increasing, the number of signal lines is increasing, and the pitch of input terminals on which TCP is mounted is changing to a narrower pitch. As the pitch between the adjacent terminals becomes smaller as the pitch becomes narrower, bites of conductive foreign matter generated in the manufacturing process, TCP and TF may occur.
Due to misalignment with the input terminal on the T array substrate,
Short circuits between adjacent terminals are more likely to occur. Therefore, a liquid crystal display device that can prevent such a short circuit between adjacent terminals has been strongly demanded.

[0011]

As described above, the TCP
There is a danger that a short circuit may occur between adjacent terminals due to foreign matter being caught during mounting or a positional shift between the input terminal and the TCP side output terminal. If the short circuit is in the pseudo contact mode, it may occur later in the market. Is concerned.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem.
An object of the present invention is to provide a TFT array substrate capable of preventing occurrence of a short circuit between adjacent terminals due to displacement of a P-side output terminal, and a liquid crystal display device using the same.

[0013]

A TFT array substrate in a liquid crystal display device according to the present invention has switching elements such as TFTs formed on a glass substrate in a matrix of vertical and horizontal directions.
A plurality of signal lines for supplying signals to the switching element are provided vertically and horizontally, and input terminals are provided at ends of the plurality of signal lines, and the input terminals are arranged in a staggered manner.

In the TFT array substrate of the liquid crystal display device of the present invention, the cross-sectional structure of the input terminal portion is such that a C
After forming a signal line with a metal film such as
And the like. After that, an input terminal is formed by a metal film such as ITO on the insulating film, and after forming the uppermost insulating film, a contact hole is formed on the input terminal. I have.

In the TFT array substrate in the liquid crystal display device of the present invention, switching elements such as TFTs are formed on a glass substrate in a matrix in a matrix, and a plurality of signal lines for supplying signals to the switching elements are provided in a matrix. In addition, input terminals are provided at ends of the plurality of signal lines, and planar shapes of adjacent input terminals are different from each other.

According to the TFT array substrate of the present invention, since the input terminals are arranged in a staggered manner, it is possible to prevent a foreign object from being caught in mounting the TCP or a short circuit between adjacent terminals due to a positional shift of the output terminal on the TCP side. Can be prevented.

Further, since an insulating film is formed as an upper layer of the input terminal and a contact hole is formed in the insulating film on the input terminal, an effect can be expected in preventing short-circuiting between adjacent terminals due to foreign matter being caught.

According to the TFT array substrate of the present invention, the input terminals adjacent to each other have different plane shapes, so that a foreign object is caught at the time of TCP mounting or a short circuit between adjacent terminals due to a positional shift of the output terminal on the TCP side. Can be prevented.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS T in a liquid crystal display device of the present invention
The shape and cross-sectional structure of the input terminal of the FT array substrate will be described with reference to the attached drawings.

Embodiment 1 FIG. 1 is a plan view showing an input terminal portion of a TFT array substrate according to an embodiment of the present invention.

As shown in FIG. 1, in this embodiment, the input terminals 7 are arranged in a staggered manner. That is, the distance from the peripheral end of the TFT array substrate 3 is alternately different in the plurality of arranged input terminals 7, thereby increasing the interval between the adjacent input terminals 7. The input terminal 7 is
As described with reference to FIG. 7, it is connected to the signal line 9 by the contact hole 12.

The TCP 4 is mounted on the input terminal 7 on the TFT array substrate 3 using an ACF. At this time, the TCP side output terminal 6 is displaced due to an alignment error of the manufacturing apparatus and the like, and the input terminal 7 and the input terminal 7 are displaced. Even when the distance d (see FIG. 6) from the TCP side output terminal 6 is reduced, the input terminal 7 and the TCP side output terminal 6 to be connected to another input terminal 7 are short-circuited by the conductive particles of the ACF. To prevent

Embodiment 2 FIG. 2 is a sectional view showing an input terminal portion, that is, a connection portion between a TFT array substrate 3 and a TCP 4 in a TFT array substrate according to another embodiment of the present invention.

In the present embodiment, the input terminal portion is formed by forming a signal line 9 by a metal film such as Cr on a glass substrate 10, forming an insulating film 8 such as SiN, and then forming an insulating film 8 on the insulating film 8. The input terminal 7 is formed of a metal film such as ITO, and further, a contact hole is formed on the input terminal 7 after the uppermost insulating film 11 is formed.
Note that the input terminal 7 and the signal line 9 are connected by a contact hole 12 formed in the insulating film 8.

The planar shape of the contact hole (formed in the uppermost insulating film 11) formed on the input terminal 7 is as follows.
It is desirable that the outer shape of the input terminal 7 is substantially the same.

However, the input terminal 7 and the TCP side output terminal 6
As long as the contact area between them can be sufficiently secured, the planar shape of the contact hole may be smaller than the outer shape of the input terminal. For example, if the area of the contact hole is set to about 70% to 90% of the area of the input terminal 7, it is possible to secure a sufficient contact area and further suppress the occurrence of a short circuit due to foreign matter being caught.

By using the cross-sectional structure of the input terminal portion according to the present embodiment, even if a conductive foreign matter is caught between the input terminals 7, a short circuit between adjacent terminals does not occur.

Embodiment 3 The input terminal section in the present embodiment has the planar shape shown in FIG. 1 and the cross-sectional structure shown in FIG.

Therefore, the planar arrangement of the input terminals is the same as that of the first embodiment, and the input terminals 7 are arranged in a staggered manner. The cross-sectional structure is the same as that of the second embodiment, and the TCP-side output terminal 6 and the input terminal 7 are connected by a contact hole formed in the uppermost insulating film 11.
It is desirable that the planar shape of the contact hole be substantially the same as the outer shape of the input terminal 7. Further, the area of the contact hole may be about 70% to 90% of the area of the input terminal 7.

The effect of this embodiment is basically the same as that of the first embodiment. Even if an alignment error of the manufacturing apparatus occurs, a short circuit does not occur due to the conductive particles of the ACF. In addition, the uppermost insulating film 11 is provided on the input terminal 7, and the TCP side output terminal 6 and the input terminal 7 are connected to each other through a contact hole formed in the insulating film 11, so that a conductive foreign substance can be caught. It is also possible to prevent a short circuit between adjacent terminals caused by the above.

Embodiment 4 FIG. 3 is a plan view showing an input terminal portion of a TFT array substrate according to still another embodiment of the present invention.

The input terminals 7 (7a, 7b) are arranged in a staggered manner. Further, the adjacent input terminals 7 (7a, 7b) have different plane shapes from each other (input terminals adjacent to each other and having different shapes are referred to as an input terminal 7a and an input terminal 7b, respectively). The length L _{2 of the} input terminal 7b in the long side direction
Is 1/3 or less of the long side direction of the length L ₁ of the input terminal 7a. The input terminals 7 (7a, 7b) are connected to the signal lines 9 by contact holes 12.

The effect of this embodiment is basically the same as that of the first embodiment. Even if an alignment error of the manufacturing apparatus occurs, a short circuit does not occur due to the conductive particles of the ACF. By changing the shape between the terminals, a short circuit between adjacent terminals can be more effectively prevented.

Embodiment 5 FIG. 4 shows a TF according to still another embodiment of the present invention.
FIG. 4 is a plan view showing an input terminal portion of a T array substrate.

The adjacent input terminals 7 (7a, 7b) have different plane shapes from each other (input terminals adjacent to each other and having different shapes are referred to as an input terminal 7a and an input terminal 7b, respectively). The terminal width W of the input terminal 7b is at least at a portion where the input terminal 7a is arranged next to the terminal.
₂ is _１ ／ or less of the terminal width W ₁ of the input terminal 7a.

The effect of this embodiment is basically the same as that of the first embodiment. Even when an alignment error of the manufacturing apparatus occurs, a short circuit does not occur due to the conductive particles of the ACF. By changing the shape between the terminals, a short circuit between adjacent terminals can be more effectively prevented.

Embodiment 6 The input terminal section in this embodiment has the planar shape shown in FIG. 3 and the cross-sectional structure shown in FIG.

Therefore, the input terminals 7 (7a, 7b) are arranged in a staggered manner as in the fourth embodiment. Further, the adjacent input terminals 7 (7a, 7b) have different plane shapes from each other (input terminals adjacent to each other and having different shapes are referred to as an input terminal 7a and an input terminal 7b, respectively). The long side direction of the length L ₂ of the input terminal 7b is 1/3 or less of the long side direction of the length L ₁ of the input terminal 7a.

The sectional structure of the terminal portion is the same as that of the second embodiment, and the TCP side output terminal 6 and the input terminal 7 are connected by a contact hole formed in the uppermost insulating film 11. It is desirable that the planar shape of the contact hole be substantially the same as the outer shape of the input terminal 7. Further, the area of the contact hole is set to 70% to 9% of the area of the input terminal 7.
It may be about 0%.

The effect of the present embodiment is basically the same as that of the first embodiment. Even if an alignment error of the manufacturing apparatus occurs, no short circuit occurs due to the conductive particles of the ACF. In addition, the uppermost insulating film 11 is provided on the input terminal 7, and the TCP side output terminal 6 and the input terminal 7 are connected to each other through a contact hole formed in the insulating film 11, so that a conductive foreign substance can be caught. It is also possible to prevent a short circuit between adjacent terminals caused by the above.

Further, since the shapes of the adjacent terminals are different from each other, the margin for the misalignment of the TCP mounting device is further increased. The planar shape of the input terminal portion is the same as that of the fifth embodiment shown in FIG. Of course, it may be shaped.

[0042]

According to the present invention, since the input terminals on the TFT array substrate are arranged in a zigzag pattern, the output terminals on the TCP side are displaced due to misalignment of the mounting apparatus and the like. Even when the distance between the input terminal and the TCP-side output terminal is reduced, a short circuit due to conductive particles or the like can be prevented.

Further, an insulating film is formed on the input terminal, and the input terminal and the TC are connected to each other through a contact hole formed in the insulating film.
The connection to the P-side output terminal prevents short-circuiting due to foreign matter being caught between the terminals. When the short circuit is in the pseudo contact mode, it is difficult to find out in the manufacturing process, and the short circuit may occur later in the market. However, the structure of the present invention can prevent the occurrence of the pseudo contact mode and improve the reliability. High LC
D can be obtained.

Further, by using the planar shape and / or cross-sectional structure of the terminal according to the present invention, the distance between adjacent terminals can be narrowed, so that a smaller and higher definition LCD used for a small portable terminal or the like can be obtained. Can be realized.

[Brief description of the drawings]

FIG. 1 is a plan view showing an input terminal portion of a TFT array substrate according to an embodiment of the present invention.

FIG. 2 is a diagram showing a cross section of a connection portion of the TFT array substrate according to the embodiment of the present invention.

FIG. 3 is a plan view showing an input terminal portion of the TFT array substrate according to the embodiment of the present invention.

FIG. 4 is a plan view showing an input terminal portion of the TFT array substrate according to the embodiment of the present invention.

FIG. 5 is a diagram for explaining an outline of a configuration of a liquid crystal display device (LCD).

FIG. 6 is a plan view of a conventional input terminal portion and TCP.
FIG. 4 is a diagram showing a connection with.

FIG. 7 is a cross-sectional view illustrating an input terminal according to the related art.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Liquid crystal display (LCD) 2 Liquid crystal display panel 3 TFT array substrate 4 TCP 5 Printed wiring board (PWB) 6 TCP side output terminal 7 Input terminal 8 Insulating film 9 Signal line 10 Substrate 11 Insulating film 12 Contact hole

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2H092 GA41 GA44 GA48 GA51 JA24 NA16 NA29 5C094 AA21 AA31 BA03 BA43 CA19 DA14 DA15 DB01 DB02 DB03 DB05 EB02 5G435 AA14 AA16 BB12 EE33 EE37 EE40 EE41 LL07

Claims (7)

[Claims] A switching element, a signal line for supplying a scanning signal and a data signal to the switching element,
And a TFT array substrate provided with an input terminal for inputting an electric signal to the signal line, and a TCP provided on the surface with an output terminal for supplying an electric signal to the input terminal
A liquid crystal display device that partially overlaps the TFT array substrate and the TCP to connect the input terminal and the output terminal, wherein the input terminal is along a substrate edge of the TFT array substrate, and A liquid crystal display device in which adjacent input terminals are alternately arranged in a staggered manner in which the distance from the substrate edge is different. 2. A switching element, a signal line for supplying a scanning signal and a data signal to the switching element,
And a TFT array substrate provided with an input terminal for inputting an electric signal to the signal line, and a TCP provided on the surface with an output terminal for supplying an electric signal to the input terminal
A liquid crystal display device for connecting the input terminal and the output terminal by partially overlapping the TFT array substrate and the TCP, wherein an insulating film is formed as an upper layer of the input terminal, A liquid crystal display device, wherein a contact hole is formed by removing the insulating film above, and an input terminal and an output terminal are connected in the contact hole. 3. A switching element, a signal line for supplying a scanning signal and a data signal to the switching element,
A TFT array substrate provided with an input terminal for inputting an electric signal to the signal line, and a TCP provided on the surface with an output terminal for supplying an electric signal to the input terminal
A liquid crystal display device that connects the input terminal and the output terminal by partially overlapping the TFT array substrate and the TCP, wherein the input terminal is disposed along a substrate edge of the TFT array substrate. A liquid crystal display device wherein adjacent input terminals have different planar shapes. 4. A switching element, a signal line for supplying a scanning signal and a data signal to the switching element,
And a TFT array substrate provided with an input terminal for inputting an electric signal to the signal line, and a TCP provided on the surface with an output terminal for supplying an electric signal to the input terminal
A liquid crystal display device that partially overlaps the TFT array substrate and the TCP and connects the input terminal and the output terminal, wherein the input terminal is along a substrate edge of the TFT array substrate, and In the adjacent input terminals, the distance from the substrate edge is alternately arranged in a staggered manner, and further, an insulating film is formed as an upper layer of the input terminals, and the contact holes are removed by removing the insulating film on the input terminals. And an input terminal and an output terminal are connected in the contact hole. 5. A switching element, a signal line for supplying a scanning signal and a data signal to the switching element,
And a TFT array substrate provided with an input terminal for inputting an electric signal to the signal line, and a TCP provided on the surface with an output terminal for supplying an electric signal to the input terminal
A liquid crystal display device that partially overlaps the TFT array substrate and the TCP to connect the input terminal and the output terminal, wherein the input terminal is along a substrate edge of the TFT array substrate, and A liquid crystal display device wherein adjacent input terminals are alternately arranged in a staggered manner at different distances from the edge of the substrate, and further, adjacent input terminals have different planar shapes. 6. A switching element, a signal line for supplying a scanning signal and a data signal to the switching element,
And a TFT array substrate provided with an input terminal for inputting an electric signal to the signal line, and a TCP provided on the surface with an output terminal for supplying an electric signal to the input terminal
A liquid crystal display device that connects the input terminal and the output terminal by partially overlapping the TFT array substrate and the TCP, wherein the input terminal is disposed along a substrate edge of the TFT array substrate. And the input terminals adjacent to each other have different plane shapes, an insulating film is formed as an upper layer of the input terminal, and a contact hole is formed by removing the insulating film on the input terminal. A liquid crystal display device wherein an input terminal and an output terminal are connected at a contact hole. 7. A switching element, a signal line for supplying a scanning signal and a data signal to the switching element,
And a TFT array substrate provided with an input terminal for inputting an electric signal to the signal line, and a TCP provided on the surface with an output terminal for supplying an electric signal to the input terminal
A liquid crystal display device that partially overlaps the TFT array substrate and the TCP and connects the input terminal and the output terminal, wherein the input terminal is along a substrate edge of the TFT array substrate, and In adjacent input terminals, the distance from the edge of the substrate is alternately arranged in a zigzag pattern, the planar shapes of the adjacent input terminals are different from each other, and an insulating film is formed as an upper layer of the input terminals. A liquid crystal display device wherein a contact hole is formed by removing the insulating film, and an input terminal and an output terminal are connected in the contact hole.