JP2002372722A - Liquid crystal display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that, in the disconnection rescuing constitution of source signal lines in a conventional liquid crystal display device, since a wiring for rescuing a source broken line is arranged in the space between a display area and a demultiplexer, the cross capacitance between the wiring for rescue and source signal lines becomes large and even when the broken line is rescued, sufficient charging can not be obtained in pixels and the wiring for rescue is made to be a thinned wiring. SOLUTION: In this display device, it is made possible to perform disconnection rescue having no problem in display by arranging disconnection rescuing wirings 4 between a demultiplexer 3 and an IC 8 to reduce the cross capacitance.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a polycrystalline silicon TF
The present invention relates to a liquid crystal display device having a configuration incorporating an integrated circuit made of T.

[0002]

2. Description of the Related Art At present, liquid crystal display devices are becoming cheaper and defect-free, and rescue of defects is indispensable. Figure 3 shows a conventional gate driver using polycrystalline silicon TF.
An example of a rescue configuration for disconnection of source signal lines in a liquid crystal display panel that is built in a drive circuit made of T and has a source driver made up of an IC and has a built-in demultiplexer on the same substrate as the liquid crystal display panel Is shown. 1 is a display area, 2 is a source disconnection rescue wiring, 3 is a demultiplexer, 4 is a demultiplexer scanning wiring, 5 is a source signal line, 6 is a disconnection location, 7 is a rescue contact portion, and 8 is an IC. Source disconnection rescue wires 2 are arranged around the display area 1 so as to cross at the start and end sides of all the source signal lines 5 and to be connected by one line. There may be a plurality of source disconnection rescue wirings. If there is a break 6 in the source signal line 2 (b) in the display area 1, the source disconnection rescue wiring 2 is used to start and end the source disconnection rescue of the disconnected source signal line 5. The rescue contact portion 7 crossing the wiring 2 is short-circuited, and a signal is supplied to the source signal line after the disconnected portion by using the disconnected rescue wiring 2.

[0003]

The conventional gate driver shown in FIG. 3 is built in a drive circuit made of polycrystalline silicon TFT, the source driver is made up of an IC, and the liquid crystal display device has a built-in demultiplexer. In the source signal line disconnection rescue configuration, since the source disconnection rescue wiring is arranged in the space between the display area and the demultiplexer, the cross capacity between the rescue wiring and the source signal line increases, and the disconnection is rescued. However, there is a problem in that a sufficient charge cannot be obtained in the pixel due to the load due to the capacitance, resulting in a thin line.

The present invention has been made to solve the above-mentioned problem, and it is possible to suppress the occurrence of a thin line due to a source disconnection rescue.

[0005]

In order to achieve the above object, the present invention provides a liquid crystal display having a gate driver built-in in a drive circuit made of polycrystalline silicon TFT, a source driver formed of an IC, and a demultiplexer built in. If the display device has a disconnection rescue configuration of the source signal line, arrange the source disconnection rescue wiring in the space between the demultiplexer and the IC, reduce the cross capacitance between the source line and the source disconnection rescue wiring, and cause a display problem. It is a structure that enables disconnection rescue without any problem, and it is possible to suppress the occurrence of thin lines due to source disconnection rescue.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention according to claim 1 of the present invention is directed to a liquid crystal display in which a gate driver is built in a drive circuit made of a polycrystalline silicon TFT, a source driver is made up of an IC, and a demultiplexer is built in. In the device, the disconnection rescue wiring that is wired around the display area to rescue the disconnection of the source signal line is placed on the side of the demultiplexer in the space between the demultiplexer and the IC, reducing the cross capacitance This structure enables disconnection rescue with no problem in display, and has the effect of suppressing the occurrence of thin lines due to source disconnection rescue.

According to a second aspect of the present invention, a signal corresponding to the disconnected source signal line is selected on both sides or one side of the circuit block constituted by the demultiplexer and supplied to a disconnected rescue wiring. By placing one or more switches composed of polycrystalline silicon TFTs for the source disconnection rescue, disconnection rescue wiring is arranged in the space between the demultiplexer and the IC.
This structure enables disconnection rescue with no problem in display, and has the effect of suppressing the occurrence of thin lines due to source disconnection rescue.

[0008] Further, the invention described in claim 3 is based on claim 2.
One switch made of polycrystalline silicon TFT is connected to one open circuit rescue line, and a gate line of the switch is crossed with the demultiplexer scan line to select a signal corresponding to the open source signal line. During rescue, short-circuiting the scanning signal line of the demultiplexer connected to the source signal line that is disconnected from the gate line causes the disconnection rescue wiring to be arranged in the space between the demultiplexer and the IC. The structure enables disconnection rescue with no problem in display, and has an effect that generation of thin lines due to source disconnection rescue can be suppressed.

The invention described in claim 4 is the same as the invention described in claim 2.
The switches composed of the polycrystalline silicon TFTs are arranged in the same number as the number of demultiplexers for one disconnection rescue wiring, the gate lines of the switches are connected to the respective demultiplexer scanning wirings, and the drain side is connected to the disconnection rescue wiring. In order to select a signal corresponding to the connected source signal line that has been disconnected, the source side crosses the disconnected rescue wiring at the source side, and at the time of rescue, the source of the switch driven by the demultiplexer scanning wiring connected to the disconnected source signal line Short-circuit the rescue wire and place the rescue wire in the space between the demultiplexer and the IC. This structure enables the rescue to be performed without any problem in the display. Has the effect of suppressing the occurrence of

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1) FIG. 1 shows a liquid crystal in which a gate driver according to Embodiment 1 of the present invention is built in a drive circuit made of polycrystalline silicon TFT, a source driver is constituted by an IC, and a demultiplexer is built. A display device, wherein a disconnection rescue wiring routed around a display area for rescue disconnection of the source signal line is arranged in a space between the demultiplexer and the IC on a side of the demultiplexer; A gate line of a switch formed of a polycrystalline silicon TFT for selecting a signal corresponding to the disconnected source signal line and supplying it to a disconnection rescue wiring is provided on one side of a circuit block configured by a demultiplexer scanning wiring. And the demultiplexer connected to the source signal line that is disconnected from the switch gate line during rescue. FIG. 3 is a configuration diagram showing a configuration for relieving a disconnection of a source signal line by short-circuiting with a scanning wiring.

1 is a display area, 2 is a source disconnection rescue wiring, 3 is a demultiplexer, 4 is a demultiplexer scanning wiring, 5 is a source signal line, 6 is a disconnection point, 7 is a rescue contact portion, 8 is an IC, 9 Is polycrystalline silicon TF
This is a switch composed of T.

On the side of the demultiplexer 3 of the liquid crystal display device, a disconnection rescue wiring 2 is arranged in a space between the demultiplexer 3 and the IC 8, and is disconnected on one side of a circuit block constituted by the demultiplexer 3. A switch 9 composed of a polycrystalline silicon TFT for selecting a signal corresponding to the source signal line 5 and supplying the selected signal to a disconnection rescue wiring.
Is crossed with all the demultiplexer scanning wirings 4, and the source signal lines 2
In the case where there is a disconnection point 6, the source disconnection rescue wiring 2 is used, and the terminal side of the disconnected source signal line 5 and the disconnected source signal line 5 are connected to the IC via the demultiplexer 3. And the source disconnection rescue line 2 is short-circuited, and the gate line of the switch 9 is short-circuited with the demultiplexer scanning line 4 connected to the source signal line 5 which is disconnected. A signal disconnection by supplying a signal to the source signal line 5 after the location 6 is relieved, and the occurrence of a thin line due to the source disconnection rescue can be suppressed.

(Embodiment 2) FIG. 2 shows a liquid crystal display in which a gate driver according to a second embodiment of the present invention is built in a drive circuit made of polycrystalline silicon TFT, a source driver is formed of an IC, and a demultiplexer is built in A display device, wherein a disconnection rescue wiring routed around a display area for rescue disconnection of the source signal line is arranged in a space between the demultiplexer and the IC on a side of the demultiplexer; A switch composed of polycrystalline silicon TFT for selecting a signal corresponding to the disconnected source signal line and supplying the signal to the disconnected rescue wiring is provided on one side of the circuit block composed of The same number of demultiplexers as possible, connect the gate lines of the switches to the respective demultiplexer scan lines, and disconnect the drain side. In order to select a signal corresponding to the disconnected source signal line, it is crossed with the disconnected rescue line on the source side to select a signal corresponding to the disconnected source signal line, and at the time of rescue, driven by the demultiplexer scanning line connected to the disconnected source signal line. FIG. 2 shows a configuration diagram for shorting a source of a switch and a rescue wire to relieve a disconnection of a source signal line.

1 is a display area, 2 is a source disconnection rescue wiring, 3 is a demultiplexer, 4 is a demultiplexer scanning wiring, 5 is a source signal line, 6 is a disconnection location, 7 is a rescue contact portion, 8 is an IC, 9 Is polycrystalline silicon TF
This is a switch composed of T. On the side of the demultiplexer 3 of the liquid crystal display device, the disconnection rescue wiring 2 is arranged in the space between the demultiplexer 3 and the IC 8, and the disconnected source signal line is provided on one side of the circuit block constituted by the demultiplexer 3. 5 switches 9 each composed of a polycrystalline silicon TFT for selecting a signal corresponding to 5 and supplying the same to the disconnection rescue wiring are arranged in the same number as the number of demultiplexers for one disconnection rescue wiring. Connected to the demultiplexer scanning wiring 4, the drain side is connected to the disconnected rescue wiring 2, and the source side is crossed with the disconnected rescue wiring 2 to select a signal corresponding to the disconnected source signal line. If the source signal line 2 has a disconnection point 6, the source disconnection rescue wiring 2 is used to 5 is short-circuited at the portion where the disconnected source signal line 5 and the wiring connected to the IC via the demultiplexer 3 cross the source disconnection rescue wiring 2, and further the disconnected source signal The source of the switch 9 driven by the demultiplexer scanning wiring 3 connected to the line and the disconnection rescue wiring 2 are short-circuited, a signal is supplied to the source signal line 5 after the disconnection point 6 to relieve the disconnection, It is possible to suppress the occurrence of a thin wire due to the rescue of the source disconnection.

It is needless to say that the same effect can be obtained in the present invention even when the source driver is built in a polycrystalline silicon TFT.

[0017]

As described above, according to the present invention, a gate driver is built in a driving circuit composed of a polycrystalline silicon TFT, a source driver is constituted by an IC, and a single source signal output from the source driver is provided. On the other hand, a liquid crystal display device incorporating a plurality of demultiplexers, wherein one or more disconnection rescue wirings arranged around a display area for rescue disconnection of the source signal line are provided on the sides of the demultiplexer. By arranging the disconnection rescue wiring in the space between the demultiplexer and the IC, it is possible to reduce disconnection capacity and to enable disconnection rescue with no problem in display. Reduce costs by reducing source disconnection and reducing yield deterioration due to source disconnection. It is possible and has great industrial value.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a liquid crystal display device according to Embodiment 1 of the present invention.

FIG. 2 is a configuration diagram of a liquid crystal display device according to Embodiment 2 of the present invention.

FIG. 3 is a configuration diagram of a conventional liquid crystal display device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Display area 2 Source disconnection rescue wiring 3 Demultiplexer 4 Demultiplexer scan line 5 Source signal line 6 Disconnection part 7 Rescue contact part 8 IC 9 Switch

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI theme coat ゛ (reference) G09F 9/35 G09F 9/35 F term (reference) 2H092 GA28 JA24 JA41 JB31 MA52 NA13 PA06 5C094 AA04 AA09 AA13 AA42 AA43 AA48 AA53 BA03 BA43 CA19 DA09 DA13 DB01 DB04 DB10 EA04 EA10 FA01 GB10 5G435 AA16 AA17 BB12 CC09 KK05

Claims (4)

[Claims] 1. A gate driver is incorporated in a driving circuit composed of a polycrystalline silicon TFT, a source driver is constituted by an IC, and a plurality of pixels can be driven by one source signal output from the source driver. A liquid crystal display device incorporating a driving circuit (hereinafter, referred to as a demultiplexer) capable of displaying an image by selecting a plurality of source signal lines with a switch, wherein the driving circuit is provided around a display area for rescue disconnection of the source signal line. A liquid crystal display device, wherein one or more disconnection rescue wirings are arranged on a side of the demultiplexer in a space between the demultiplexer and the IC. 2. A polycrystalline silicon TFT for selecting a signal corresponding to the disconnected source signal line and supplying the selected signal to a disconnection rescue wiring on both sides or one side of the circuit block including the demultiplexer. 2. The liquid crystal display device according to claim 1, wherein one or more switches are arranged. 3. A switch composed of the polycrystalline silicon TFT is connected to one disconnection rescue line, and a gate line of the switch is selected to select a signal corresponding to the disconnected source signal line. 3. The liquid crystal display device according to claim 2, wherein the signal line is crossed with the scanning signal line of the demultiplexer, and short-circuited with the scanning signal line of the demultiplexer connected to the source signal line disconnected from the gate line during rescue. . 4. A switch composed of the polycrystalline silicon TFT is arranged in the same number as the number of demultiplexers for one open circuit rescue wiring, and the gate lines of the switches are connected to the scanning signal lines of the respective demultiplexers. Is connected to the disconnected rescue wiring, and the source side is crossed with the disconnected rescue wiring in order to select a signal corresponding to the disconnected source signal line. At the time of rescue, the scanning line of the demultiplexer connected to the disconnected source signal line is connected. 3. The liquid crystal display device according to claim 2, wherein the source of the switch driven by the switch and the disconnection rescue wiring are short-circuited.