JP2005084535A - Display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enhance the manufacturing efficiency of a device by press-bonding a display panel 1 to a signal substrate 2 with a small number of processes. <P>SOLUTION: A plurality of terminals on the display panel 1 and the signal substrate 2 are connected through a plurality of press-bonding members (TCP 3 and FPC 4). The plurality of the terminals consists of a terminal group 11 corresponding to the TCP 3 and a terminal group 12 corresponding to the FPC 4. Terminals of the terminal groups 11 and 12 are arranged along the same side of the display panel 1. Thus, the display panel 1 and the signal substrate 2 are connected by arranging the TCP 3 and the FPC 4 along the same side of the display panel 1 corresponding to the arrangement positions of the terminals. Thus, the manufacturing processes of the display device require only two processes, that is, a process in which the display panel 1 and all press-bonding members are press-bonded and connected and a precess in which all press-bonding members and the signal substrate 2 are press-bonded and connected. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a display device in which a display panel and a signal board are connected via a crimping member such as a TCP (Tape Carrier Package) or an FPC (Flexible Printed Circuit).

  Conventionally, various display devices having configurations shown in FIGS. 6 and 7 have been proposed. For example, in the display device shown in FIG. 6, the display panel 101 and the gate substrate 102 are connected via the gate driver TCP103. Further, the display panel 101 and the source substrate 104 are connected via a source driver TCP105. The gate substrate 102 and the source substrate 104 are connected via the FPC 106.

On the other hand, FIG. 7 is a plan view showing a schematic configuration of the liquid crystal display device described in Patent Document 1. In FIG. In this liquid crystal display device, a horizontal driving TCP 202 and a vertical driving TCP 203 are mounted on an LCD panel 201 by thermocompression bonding via an anisotropic conductive film. The TCP 202 and the TCP 203 are connected to the connection substrate 204 and the signal substrate 205 by soldering, respectively. The connection board 204 and the signal board 205 are connected by an FPC 206.
JP-A-8-43844

  However, in the configuration shown in FIGS. 6 and 7, the number of parts constituting the display device is large, and the TCP and the FPC are connected on different sides from the display panel. Therefore, for example, when manufacturing the display device of FIG. 6, (1) the pressure bonding process of the display panel 101 and the source driver TCP 105, (2) the pressure bonding process of the display panel 101 and the gate driver TCP 103, and (3) the source substrate 104. It is necessary to perform each manufacturing process separately, such as a crimping process of the source driver TCP 105, (4) a crimping process of the gate substrate 102 / gate driver TCP103, and (5) an FPC connection process of the gate substrate 102 / source substrate 104. Arise. Therefore, in the configuration of the conventional display device, the number of manufacturing steps of the device increases, and there arises a problem that the manufacturing efficiency is lowered.

  The present invention has been made to solve the above-described problems, and its purpose is to improve the manufacturing efficiency of a device by being able to press-bond a display panel and a signal substrate with a small number of man-hours in the manufacture of a display device. An object of the present invention is to provide a display device that can be used.

  The display device of the present invention is a display device in which a plurality of terminals on a display panel and a signal board are connected via a plurality of crimping members, and the plurality of terminals are along the same side of the display panel. It is characterized by being arranged (linearly).

  According to said structure, it becomes possible to arrange a some crimping | compression-bonding member along the same side of a display panel corresponding to the arrangement position of each terminal, and to connect a display panel and a signal board | substrate. Therefore, in this case, the manufacturing process of the display device requires only two steps, that is, a step of crimping and connecting the display panel and all the crimping members and a step of crimping and connecting all the crimping members and the signal board. As a result, the manufacturing efficiency of the device can be improved.

  The display panel preferably has a gate driver formed monolithically on an insulating substrate. In this case, since it is not necessary to provide a substrate on which the gate driver is mounted separately from the display panel, the panel area of the display panel can be increased accordingly. In addition, since the gate driver is formed monolithically, the plurality of terminals on the display panel can be easily collected along the same side of the display panel 1, and the display panel and the signal board are connected on this side. can do.

  Each terminal is provided corresponding to each of a plurality of crimping members. A terminal group corresponding to one of the crimping members (for example, FPC) is set as a first terminal group, and another crimping member (for example, TCP). ) Is a second terminal group, the terminal pitch of the first terminal group is preferably set wider than the terminal pitch of the second terminal group. At this time, the first terminal group inputs a control signal to a test video signal input terminal for inputting a test video signal and a switch element for turning on / off the supply of the test video signal to each pixel. The test video signal enable terminal may be included.

  With this setting, it is possible to perform panel lighting inspection on a single display panel using the terminals (for example, the test video signal input terminal and the test video signal enable terminal) of the first terminal group having a wide terminal pitch. In other words, the output pin of the external signal source for lighting inspection can be applied to a wide-pitch terminal, so that the display panel alone lights up before connecting the display panel and signal board via each crimping member. Inspection can be performed. As a result, since it can be determined at an early stage whether or not the display panel itself is defective, the production of defective display devices can be reduced, and the manufacturing cost can be saved.

  At this time, if the pitch of the terminals of the first terminal group is set to 0.4 mm or more, the output pin of the external signal source for lighting inspection can be easily and reliably applied to each terminal, and the display A panel lighting inspection can be performed reliably with a single panel.

  According to the present invention, the manufacturing process of the display device can be greatly shortened and simplified, so that the manufacturing efficiency of the device can be improved. In addition, it is possible to inspect the lighting of the panel alone by temporarily contacting the output pin of the external signal source for lighting inspection only to terminals with a wide pitch (coarse pitch). Manufacturing costs can be reduced and manufacturing costs can be saved.

  An embodiment of the present invention will be described below with reference to the drawings.

  FIG. 2 is a plan view showing the overall configuration of the display device of the present embodiment. In this display device, a plurality of terminals on a display panel (for example, a liquid crystal display panel) 1 and a signal substrate 2 are connected via TCP3 and FPC4 as a plurality of crimping members. The display panel 1 is monolithically formed with a gate driver, so that the panel area can be increased by eliminating the need for a gate substrate.

  In the present embodiment, the display panel 1 and the signal board 2 are connected by three TCPs 3 and two FPCs 4. And FPC4 is each arrange | positioned at those both sides so that three TCP3 arranged in a straight line may be pinched | interposed. That is, the TCP 3 and the FPC 4 are arranged linearly along the same side of the display panel 1 and connect the display panel 1 and the signal board 2. In order to realize this configuration, in the present embodiment, the terminals on the display panel 1 are arranged as follows.

  FIG. 1 is a plan view showing a schematic configuration of the display panel 1. The display panel 1 is provided with a terminal group 11 (second terminal group) corresponding to the TCP 3 and a terminal group 12 (first terminal group) corresponding to the FPC 4. Each of the terminal groups 11 and 12 is composed of a plurality of terminals, the details of which will be described later. In the present embodiment, the terminal groups 11 and 12 are arranged linearly along the same side of the display panel 1. Moreover, the terminal group 12 is arranged along the same side of the display panel 1 at a position sandwiching the terminal group 11 from both sides.

  Thus, a plurality of terminals, that is, a plurality of terminals corresponding to the TCP 3 (each terminal of the terminal group 11) and a plurality of terminals corresponding to the FPC 4 (each terminal of the terminal group 12) are the same in the display panel 1. The step of connecting the display panel 1 and all the TCPs 3 and FPCs 4 by crimping simultaneously and the step of crimping and connecting the signal board 2 and all the TCPs 3 and FPCs 4 simultaneously by arranging them linearly along the side. The display device can be manufactured by two steps.

  That is, in the prior art in which a plurality of terminals connected to the TCP and the FPC are provided on different sides on the display panel, (1) the crimping process of the display panel / source driver TCP, (2) the display panel / gate driver TCP A crimping process, (3) a crimping process of the source substrate / source driver TCP, (4) a crimping process of the gate substrate / gate driver TCP, and (5) an FPC connecting process of the gate substrate / source driver TCP are necessary. However, in the present invention, since the terminal groups 11 and 12 are provided along the same side of the display panel 1, the steps (2), (4), and (5) described above are performed as (1), ( It can be taken into step 3), that is, it can be performed simultaneously with steps (1) and (3). Thereby, the manufacturing process can be greatly shortened and simplified, and the manufacturing efficiency of the apparatus can be improved.

  Next, the details of the terminal groups 11 and 12 will be described.

  FIG. 3 is an explanatory diagram showing a detailed configuration of the terminal groups 11 and 12. The terminal group 11 includes a counter electrode signal input terminal COM, an auxiliary capacitance electrode signal input terminal CS, and a source bus line signal input terminal V. 512 source bus line signal input terminals V are provided for each terminal group 11, and a total of 1536 (V1 to V512, V513 to V1024, V1025 to V1536).

  On the other hand, the terminal group 12 includes a counter electrode signal input terminal COM, an auxiliary capacitance electrode signal input terminal CS, an initialization signal input terminal INIT, a gate power supply input terminal GVDD, a gate clock input terminal GCK, and a gate start pulse input. The terminal GSP includes a ground potential input terminal GND, an A switch control signal input terminal ASW, a B switch control signal input terminal BSW, and a switch power supply input terminal SVDD. Any one of the terminal groups 12 further includes test video signal input terminals TVIDE 1 to 6 and a test video signal enable terminal TVEN in addition to the above terminals.

  Here, among the plurality of terminals described above, terminals other than the source bus line signal input terminal V, the counter electrode signal input terminal COM, and the auxiliary capacitance electrode signal input terminal CS are also referred to as a power input terminal and a control signal input terminal. To do. From FIG. 3, it is clear that the power supply input terminal and the control signal input terminal belong to the terminal group 12 corresponding to the FPC 4, while the source bus line signal input terminal V belongs to the terminal group 11 corresponding to TCP3. It is. From this, it can be said that the power supply input terminal, the control signal input terminal, and the source bus line signal input terminal V are arranged separately from each other.

  On the other hand, FIG. 4 is a circuit diagram showing a connection state of some terminals of the terminal groups 11 and 12 provided in the display panel 1. A switch element TVSW is provided on a source bus line connecting the source bus line signal input terminal V and each pixel corresponding to R (red), G (green), and B (blue). This switch element TVSW is ON / OFF controlled by a signal input from the test video signal enable terminal TVEN, and turns on / off the supply of the test video signal input from the test video signal input terminals TVIDE1 to TVIDE6 to each pixel. It is.

  In addition, the A switch control signal input terminal ASW and the B switch control signal input terminal BSW in the figure are used by sharing one output pin of the source driver with two source bus lines in the display panel 1. This can be realized by turning them on alternately.

  Here, each terminal of the terminal group 12 corresponding to the FPC 4 (see FIG. 3) has a pitch (for example, several hundred μm) wider than the pitch (for example, several μm to several tens μm) of each terminal of the terminal group 11 corresponding to the TCP 3. Above). In the present embodiment, the pitch of each terminal corresponding to the FPC 4 is formed to be 0.4 mm or more.

  As described above, since the terminals corresponding to the FPC 4 are formed at a coarser pitch than the terminals corresponding to the TCP 3, the switch element TVSW is turned on, and the output pins of the panel lighting inspection external signal source are set to these terminals. All terminals corresponding to TCP3 arranged at a narrow pitch remain open by temporarily contacting all terminals with coarse pitches at the same time and inputting test video signals from the test video signal input terminals TVIDEO1-6. It is possible to perform a panel lighting inspection with the panel 1 alone.

  Conventionally, inspection is performed on a large-sized substrate (glass) with multiple display panels on it, and then a source driver, gate driver, signal substrate, etc. are connected to the display panel and assembled into individual display modules. After that, the final inspection was conducted. This is because when there is no gate driver built in the display panel, there is no difference between the inspection in the display panel alone and the inspection in the large-sized substrate state, so there was no idea of the inspection in the display panel alone. .

  However, according to the configuration of the present embodiment, since the gate driver is monolithically formed in the display panel 1, the display panel 1 alone is connected before the display panel 1 and the signal board 2 are connected via the TCP 3 and the FPC 4. However, a lighting inspection can be performed. Therefore, since it can be determined at an early stage whether or not the display panel 1 is defective, the production of a defective display device is reduced, and the manufacturing cost can be saved.

  That is, according to the present invention, the output pin of the external signal source for panel lighting inspection can be applied based on the idea that the lighting inspection can be performed by the display panel 1 alone because the gate driver is monolithically formed on the display panel 1. As can be seen, the feature is that the pitch of each terminal corresponding to the FPC 4 is widened.

  Particularly, by setting the pitch of each terminal corresponding to the FPC 4 to 0.4 mm or more, the output pin of the external signal source for panel lighting inspection can be easily and reliably applied to each terminal. A single lighting test can be performed easily and reliably. Even if the pitch of each terminal corresponding to the FPC 4 is several hundred μm or more, it is possible to perform a lighting test on the display panel 1 alone.

  When the display device is displayed as a product, the switch element TVSW is controlled to be turned off from the test video signal enable terminal TVEN, and the video signal from the outside (the source bus line signal input terminal V of TCP3) is selectively input. What should I do?

  In addition, although the example which has arrange | positioned the terminal group 12 corresponding to FPC4 on the both sides of the terminal group 12 corresponding to TCP3 was demonstrated above, for example, as shown in FIG. The configuration may be such that the terminal group 12 corresponding to the TCP 3 is arranged only on one side (either the right end or the left end). Further, the numbers of TCP3 and FPC4 are not limited to the numbers shown in the present embodiment.

  The display device of the present invention can also be expressed as follows.

  The display device of the present invention is a display device in which a gate driver is monolithically formed on an insulating substrate (glass), and (1) a source bus line signal terminal, a power input terminal, and a control signal input terminal are displayed. They are gathered on the same side of the panel, and are placed directly on the same (to be connected to TCP and FPC) so that they can be crimped together. (2) These two types of terminals are placed separately. (3) Among these two types of terminals, the latter is arranged at a rough pitch (for example, 0.4 mm or more) to which the output pin of the external signal source for panel single lighting inspection is applied, (4 ) The coarser pitch terminals include a test video signal input terminal and a test video signal enable terminal in addition to the power input terminal and the control signal input terminal. . As a result, the lighting test can be performed by applying the output pin of the external signal source for lighting test only to the terminals having a coarse pitch.

  The display device of the present invention is a display device in which a display panel and a signal board are connected via a first pressure-bonding member (for example, FPC4) and a second pressure-bonding member (for example, TCP3). In this configuration, a plurality of terminals corresponding to the first pressure-bonding member and a plurality of terminals corresponding to the second pressure-bonding member are arranged linearly along the same side of the display panel.

  Further, in the display device of the present invention, the terminal pitch corresponding to one crimping member (first crimping member, FPC4) is more than the terminal pitch corresponding to the other crimping member (second crimping member, TCP3). Is also a widely set configuration.

It is a top view which shows the structure of the outline of the display panel of the display apparatus which concerns on one Embodiment of this invention. It is a top view which shows the whole structure of the said display apparatus. It is explanatory drawing which shows the detailed structure of the terminal group provided corresponding to TCP and FPC in the said display panel. It is a circuit diagram which shows the connection state of some terminals of the said terminal group. It is a top view which shows the other structural example of the said display panel. It is a perspective view which shows the schematic structure of the conventional display apparatus. It is a top view which shows the schematic structure of the other conventional display apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Display panel 2 Signal board 3 TCP (crimp member)
4 FPC (crimp member)
11 Terminal group (second terminal group)
12 terminal group (first terminal group)
TVIDE1-6 Test video signal input terminal TVEN Test video signal enable terminal TVSW Switch element

Claims (5)

A display device in which a plurality of terminals and a signal board on a display panel are connected via a plurality of crimping members,
The display device, wherein the plurality of terminals are arranged along the same side of the display panel.   The display device according to claim 1, wherein the display panel has a gate driver formed monolithically on an insulating substrate. Each terminal is provided corresponding to each of a plurality of crimping members,
When a terminal group corresponding to any one of the crimping members is a first terminal group, and a terminal group corresponding to the other crimping member is a second terminal group,
The display device according to claim 2, wherein the pitch of the terminals of the first terminal group is set wider than the pitch of the terminals of the second terminal group.   The display device according to claim 3, wherein a pitch of terminals of the first terminal group is 0.4 mm or more. The first terminal group is
A test video signal input terminal for inputting a test video signal;
5. The display according to claim 3, further comprising a test video signal enable terminal for inputting a control signal to a switch element for turning ON / OFF the supply of the test video signal to each pixel. apparatus.

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