KR100242444B1 - Tft panel for lcd and method for reparing the same - Google Patents

Abstract

The present invention relates to a thin film transistor substrate for a liquid crystal display device and a repair method thereof. There is a repair line that intersects one end of the data line and intersects one or more of the other end, so that the defect of the data line can be easily repaired so that the data signal is transmitted to the pixel when the data line is broken.

Description

Thin film transistor substrate for liquid crystal display and repair method thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thin film transistor substrate for a liquid crystal display device and a repair method thereof, and more particularly, to a thin film transistor substrate for a liquid crystal display device capable of repairing a defect of a data line so that a data signal is transmitted to a corresponding pixel when the data line is broken. And a repair method thereof.

The liquid crystal display includes a color filter substrate on which a color filter and a common electrode are formed, a gate line and a data line, a thin film transistor substrate on which a thin film transistor and a pixel electrode are formed, and a liquid crystal injected between the color filter substrate and the thin film transistor substrate. Consists of

In the liquid crystal display, when the gate driving signal is applied to the gate electrode of the thin film transistor through the gate line, the data signal introduced into the source electrode through the data line is transferred to the drain electrode and the pixel electrode through the semiconductor layer of the thin film transistor.

However, when the data line of the thin film transistor substrate is disconnected, the data signal may not be transmitted to the pixel. Therefore, the disconnection of such data line should be repaired.

1 is a sectional view of a conventional thin film transistor substrate for a liquid crystal display device. As shown in Fig. 1, a conventional thin film transistor substrate for a liquid crystal display device is constituted as follows.

A plurality of gate lines 110 are formed horizontally, and the data lines 210 vertically cross the gate lines 110.

A repair line is formed over a portion from the first gate line 110 to the lower portion of the last gate line 110 through the right side of the last data line 210, and a first horizontal line is formed below the last data line 210. The horizontal portion 301 includes a vertical portion 302 vertically formed on the right side of the last data line 210 and a second horizontal portion 303 on the first gate line 110.

Each gate line 110 is connected to one end of the gate driver 100 positioned on the left side of the substrate to receive a gate signal, and each data line 210 also has one end connected to the data driver 200 positioned below the substrate. Connected to receive data signals.

Here, the first horizontal portion 301 and the second horizontal portion 303 respectively cross both ends of the data line 210, but the vertical portion 302 does not cross the other wiring.

Next, when the data line is broken in the thin film transistor substrate for the liquid crystal display, the repairing method thereof will be described with reference to FIG. 2.

If as shown in Fig. 2, one point of the data line 211 is disconnected, repair is performed as follows.

First, an intersection point p1 of the disconnected data line 211 and the first horizontal portion 303 of the repair line, and an intersection point p2 of the disconnected data line 211 and the second horizontal portion 303 of the repair line with a laser. Short circuit.

The thin film transistor substrate for a liquid crystal display device repaired by such a method has the following signal flow.

First, the data signal along the data line proceeds along the repair line at the intersection point p1 between the disconnected data line 211 and the first horizontal portion 301 of the repair line.

The data flows at the intersection point p2 between the disconnected data line 212 and the repair line of the second horizontal portion 303, and is then transferred to the pixel along the data line 211.

At this time, the signal has a large number of intersection points C1, C2, ... C6, which are the portions where the repair line and the data line intersect, and the capacitor increases, causing an RC delay.

Therefore, an object of the present invention is to provide a thin film transistor substrate for a liquid crystal display device which can prevent distortion of a data signal generated after repairing a data line.

1 is a sectional view of a thin film transistor substrate for a liquid crystal display device;

Figure 2 is a sectional view showing the repair method of Figure 1,

3 is a sectional view of a thin film transistor substrate for a liquid crystal display according to an embodiment of the present invention;

4 is another sectional view of a thin film transistor substrate for a liquid crystal display according to an exemplary embodiment of the present invention;

5 is a sectional view showing the repair method of FIG.

Therefore, the thin film transistor substrate of the present invention for achieving this object,

A plurality of gate lines formed horizontally,

A plurality of data lines formed vertically and intersecting the gate lines;

A repair line that intersects one end of the data line and intersects one or more of the other end,

A second repair line is formed horizontally between the first gate line and the repair line of the gate line and intersects the data line.

In this case, one or more data lines are different in length, and only one long data line crosses one or more repair lines.

Therefore, another configuration of the thin film transistor substrate of the present invention for achieving this object,

A plurality of gate lines formed horizontally,

A plurality of data lines formed vertically and intersecting the gate lines;

A repair line formed over the gate line and extending from the right side of the last data line to the lower portion of the last gate line of the gate line;

An auxiliary repair line formed horizontally and formed between the first gate line of the gate line and the repair line and intersecting all of the data lines;

And a connection line formed to electrically connect the repair line and the auxiliary repair line.

The connection line may be formed of the same material as the data line, and may also be formed of the same material as the gate line.

Repair method of the thin film transistor substrate of the present invention for achieving this object,

A plurality of gate lines formed horizontally,

A plurality of data lines formed vertically and intersecting the gate lines;

A repair line that intersects one end of the data line and intersects one or more of the other end,

In the thin film transistor substrate comprising a secondary repair line formed horizontally between the first gate line and the repair line of the gate line and intersects all of the data line,

A first intersection point that is an intersection point of the disconnected data line and the first horizontal portion of the repair line; Shorting a third intersection point, a fourth intersection point, which is a second horizontal intersection point of the data line adjacent to the right side of the disconnected data line with a laser,

One point of the auxiliary repair line between the intersection of the left data line of the disconnected data line and the auxiliary repair line and the second intersection point, and the auxiliary point between the intersection of the right data line of the disconnected data line and the auxiliary repair line and the third intersection point. Breaking each point of the repair line with a laser,

And disconnecting a point of the right data line of the disconnected data line between the intersection of the right data line of the disconnected data line and the first gate line and the third intersection point with a laser.

Next, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

3 is a sectional view of a liquid crystal display according to an exemplary embodiment of the present invention. Referring to FIG. 3, the structure of a thin film transistor substrate for a liquid crystal display according to a preferred embodiment of the present invention will be described.

A plurality of gate lines 110 are formed horizontally, and a plurality of data lines 210 are formed vertically and intersect with the gate lines 110.

Repair lines 301, 302, and 303 are formed from the first gate line 110 to the lower portion of the last gate line 110 through the right side of the last data line 210. The first horizontal portion 301 is formed of a vertical portion 302 formed vertically on the right side of the last data line 210 and the second horizontal portion 303 on the first gate line 110.

Each gate line 110 is connected to one end of the gate driver 100 positioned on the left side of the substrate to receive a gate signal, and each data line 210 also has one end connected to the data driver 200 positioned below the substrate. Connected to receive data signals.

Here, the first horizontal portion 301 crosses the end of the data line 210, but the vertical portion 302 does not cross the other wiring. In addition, the second horizontal portion 303 intersects one or more of the data lines 210.

An auxiliary repair line 310 is formed horizontally between the first gate line 110 and the second horizontal portion 303 and intersects all of the data lines 210.

In this case, the data line 210 is formed vertically, and one end thereof crosses one or more end portions 303 of the repair lines 301, 302, and 303, and has different lengths. On the other hand, the other end crosses all of the other end 301 of the repair line (301, 302, 303) and the same length.

4 is another sectional view of a thin film transistor substrate for a liquid crystal display according to an exemplary embodiment of the present invention.

As shown in FIG. 4, the first horizontal portion 301 intersects the end of the data line 210, but the second horizontal portion 303 and the vertical portion 302 may be formed so as not to cross other wirings. In this case, the repair line 303 and the auxiliary repair line 310 should be formed to connect the line 400 is formed to electrically connect. The connection line 400 may be formed of the same material as the data line 210 or may be formed of the same material as the gate line 110.

5 is a sectional view showing the repair method of FIG.

Referring to FIG. 5, a repairing method of a thin film transistor substrate for a liquid crystal display according to an exemplary embodiment of the present invention will be described.

First, a first intersection point p1 that is an intersection point between the disconnected data line 211 and the first horizontal portion 303 of the repair line, and a second intersection point that is an intersection point between the disconnected data line 211 and the auxiliary repair line 310. p2), the third intersection point p3 which is the intersection of the data line 212 adjacent to the right side of the disconnected data line 211 and the auxiliary repair line 310, and the data next to the right side of the disconnected data line 211. The fourth intersection point p4, which is the intersection point of the second horizontal portion 303 of the line 212 and the repair line, is short-circuited with a laser.

Next, a point p5 of the auxiliary repair line 310 between the intersection of the left data line 210 of the disconnected data line 211 and the auxiliary repair line 310 and the second intersection point p2, and data. One point p6 of the auxiliary repair line 310 between the intersection of the right data line 213 of the line 212 and the auxiliary repair line 310 and the third intersection point p3 is respectively disconnected by a laser.

Next, one point p7 of the data line 212 between the intersection of the data line 212 and the first gate line 110 and the third intersection point P3 is disconnected by a laser.

The thin film transistor substrate for a liquid crystal display device repaired by such a method has the following signal flow.

The data signal along the data line travels along the repair line at the intersection point p1 of the disconnected data line 211 and the first horizontal portion 301 of the repair line, and is disconnected through the intersection point p4 and the intersection point p3. The data flows at the intersection point p2 of the data line 212 and the auxiliary repair line 310, and is then transferred along the data line 211 to the corresponding pixel.

In the embodiment of the present invention repaired by such a data line repairing method, a liquid crystal display device has a structure in which a plurality of vertically formed data lines alternately cross one end portion with one end portion of the repair line, and alternate in length thereof. Therefore, the number of points where the intersections C1, ..., C4 of the repair line and the data line shown in FIG. 4 intersect with the intersection points C1, ... C6 of the conventional repair line and data line shown in FIG. To prevent.

Claims (7)

A plurality of gate lines formed horizontally, A plurality of data lines formed vertically and intersecting the gate lines; A repair line that intersects one end of the data line and intersects one or more of the other end, A thin film transistor substrate for a liquid crystal display device including an auxiliary repair line formed horizontally between a first gate line of the gate line and the repair line and intersecting all of the data lines. The thin film transistor substrate of claim 1, wherein the data lines have one or more lengths, and only long data lines cross one or more of the repair lines. A plurality of gate lines formed horizontally, A plurality of data lines formed vertically and intersecting the gate lines; A repair line formed over the gate line and extending from the right side of the last data line to the lower portion of the last gate line of the gate line; An auxiliary repair line formed horizontally and formed between the first gate line of the gate line and the repair line and intersecting all of the data lines; And a connection line formed to electrically connect the repair line and the auxiliary repair line. The thin film transistor substrate of claim 3, wherein the connection line is formed of the same material as the gate line. The thin film transistor substrate of claim 3, wherein the connection line is formed of the same material as the data line. A plurality of gate lines formed horizontally, A plurality of data lines formed vertically and intersecting the gate lines; A repair line that intersects one end of the data line and intersects one or more of the other end, In the thin film transistor substrate comprising a secondary repair line formed horizontally between the first gate line and the repair line of the gate line and intersects all of the data line, A first intersection point that is an intersection point of the disconnected data line and the first horizontal portion of the repair line; Shorting a third intersection point, a fourth intersection point, which is a second horizontal intersection point of the data line adjacent to the right side of the disconnected data line with a laser, One point of the auxiliary repair line between the intersection of the left data line of the disconnected data line and the auxiliary repair line and the second intersection point, and the auxiliary point between the intersection of the right data line of the disconnected data line and the auxiliary repair line and the third intersection point. Breaking each point of the repair line with a laser, And disconnecting a point of the right data line of the disconnected data line between the intersection of the right data line and the first gate line of the disconnected data line and the third intersection point with a laser. The method of claim 6, wherein the thin film transistor substrate for a liquid crystal display device uses a laser during short circuit and disconnection.

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