KR100931185B1 - LCD for signal line inspection - Google Patents

Abstract

The liquid crystal display device for the signal line inspection according to the present invention, the liquid crystal display device for the signal line inspection according to the present invention, the liquid crystal display device for the signal line inspection, the common formed on the lower end of the array portion of the liquid crystal display device An antistatic circuit connected between an electrode line, a gate line, a common electrode line, and a data line, a shorting bar commonly connected to the odd-numbered gate line and an odd-numbered data line, the even-numbered gate line and an even-numbered data line Shorting bar connected to the common is characterized in that it is included. According to the present invention, it is possible to improve the detection power of the data / gate line by reducing the production cost through the leakage prevention to improve the yield through the failure prevention, even in the case of excessive static electricity at the bottom of the array liquid crystal display device Has the advantage of preventing the electrical damage (damage).

Description

Liquid crystal display for signal line test

1 is a view schematically showing a liquid crystal display for a conventional signal line inspection.

2 is a schematic view of a liquid crystal display for inspecting signal lines according to the present invention;

3 is a plan view of a specific portion (A, A ') of FIG.

<Explanation of symbols for the main parts of the drawings>

10: antistatic circuit 11: liquid crystal cell

12: array portion 14: odd number pad

14 ': Even-numbered pads 16, 18: Odd-numbered shorting bars

16 ', 18': Even-numbered shorting bar

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device for signal line inspection that can improve detection power for defects in data / gate lines during completion inspection of a thin film transistor substrate.

Conventional liquid crystal display devices display an image by adjusting the light transmittance of the liquid crystal using an electric field. To this end, the liquid crystal display device includes a liquid crystal panel in which liquid crystal cells are arranged in a matrix, and a driving circuit for driving the liquid crystal panel. The liquid crystal panel is provided with pixel electrodes for applying an electric field to each of the liquid crystal cells and a common electrode, and each of the pixel electrodes is connected to a source and drain electrode of a thin film transistor (TFT) used as a switching element. To be connected to either of the data lines. Further, the gate electrode of each of the thin film transistors is connected to any one of the gate lines for causing the pixel voltage signal to be applied to the pixel electrodes for one line.

When the liquid crystal display having the above configuration is completed, an inspection process for detecting shorts, disconnections, and defects in the signal lines, that is, the gate lines and the data lines, is performed. To this end, the liquid crystal display detects a line defect through an inspection pad having a different structure by dividing odd and even numbers of the gate line and the data line, respectively.

In addition, in order to protect the thin film transistor array and the panel, which are image display units, from static electricity during the manufacturing process of the liquid crystal display device, and to prevent interference or disturbance of the driving signal system in a normal driving environment, Is provided.

The antistatic circuit must have suitable characteristics according to the voltage range for this purpose, which means that it must have a low impedance at high voltage and a high impedance at low voltage.

In addition, the plurality of pads are provided with a shorting bar 12 connected in common. The shorting bar 12 is connected to a ground voltage source GND during a manufacturing process and serves to remove static electricity applied to the liquid crystal panel. In addition, the plurality of pads 6 are formed for IPT (In Processing Test) inspection.

The shorting bar 12 is removed on the lower plate by grinding the edge of the lower plate along the cutting line during the scribing process and the grinding process. When the shorting bar 12 is removed as described above, a tape carrier package (hereinafter referred to as 'TCP') is mounted on the pad part by a tape automated bonding (TAB) type drive circuit mounting method. Is attached. That is, the TCP output pad is connected to the pad portion 6 on the lower substrate, and the TCP input pad is connected to the printed circuit board (PCB).

1 is a view schematically showing a liquid crystal display for a conventional signal line inspection.

Referring to FIG. 1, a liquid crystal display for inspecting a signal line according to the related art includes an array unit 12 in which liquid crystal cells 11 are arranged in a matrix, and gate lines G disposed in the array unit 12. Gate pads 14 and 14 'respectively connected to the data pads, data pads 14 and 14' respectively connected to the data lines D disposed in the array unit 12, and the gate / data pads 14 respectively. , 14 '), the odd-numbered gate / data pad 14 and the even-numbered gate / data pad 14' are formed to receive a gate signal and a data signal for the IPT (In Processing Test) inspection process, respectively. It is connected to the Shorting Bars 16 and 16 '. The shorting bars 16 and 16 'are cut after the test process is completed.

In addition, an antistatic circuit 10 connected between the common electrode line C and the gate line G and the common electrode line C and the data line D is formed at an outer portion of the array unit 12. It is.

As described above, the antistatic circuit 10 connected between the common electrode line C to which the common voltage Vcom is supplied and each of the data lines D is usually composed of a plurality of thin film transistors, The region has a low impedance to discharge the overcurrent, and in a normal driving environment to have a high impedance so as not to affect the driving signal supplied through the signal line.

The antistatic circuit may be provided at the bottom and top of the array unit 12, respectively, the antistatic circuit 10, it may be formed only on either of the top or bottom. Here, the lower end of the array unit 12 refers to an area opposite to an area where the pad unit 14 for supplying signals to the gate line G and the data line D is formed.

In addition, the array unit 12 may include a thin film transistor TFT formed at an intersection of gate lines G and data lines D, gate lines G and data D, and the thin film. And a liquid crystal capacitor Clc connected to the transistor. The liquid crystal capacitor is a capacitor formed between a common electrode (not shown) facing the liquid crystal and a pixel electrode (not shown) formed in the thin film transistor array panel, and receives a data voltage input through the data line (D). It is possible to control the light transmittance of the liquid crystal by driving the liquid crystal by charging.

In addition, the shorting bar 16 is commonly connected to the odd-numbered gate / data pads 14 and the shorting bar 16 'is commonly connected to the even-numbered gate / data pads 14'. A signal line, i.e. data / gate, is supplied by supplying a signal through the connected pads 14 and 14 'to detect the resistance difference between the odd-numbered shorting bar 16 and the even-numbered shorting bar 16'. Line defects such as shorts and disconnections of the lines G and D are inspected.

However, in the conventional liquid crystal display device for signal line inspection, an area close to the pads 14 and 14 'and the pads 14 and 14 in the upper and lower sides of the array unit 12, that is, in the array unit 12. There is a disadvantage in that the difference between the regions is caused by an RC delay of the test signal input to the region far from '). Also, when static electricity is generated at the bottom of the array unit 12, the test signal is input at the bottom of the array unit 12. Due to Vth instability of the formed antistatic circuit 10, there is a disadvantage in that the liquid crystal display may be electrically damaged.

That is, when the static electricity is excessively generated, the antistatic circuits 10 may not actually function as discharge paths, and dielectric breakdown may occur since the amount of current paths of the antistatic circuits is small. Consequently, the common electrode line and the gate / Short failure between data lines occurs.

According to the present invention, by connecting shorting bars to odd-numbered gates / data lines and even-numbered gates / data lines, as well as an antistatic circuit at the bottom of the array unit, the detection ability of defects in data / gate lines during signal line inspection can be improved. It is an object of the present invention to provide a liquid crystal display for inspecting a signal line.

In order to achieve the above object, a liquid crystal display for inspecting a signal line according to the present invention includes a common electrode line, a gate line, and a common electrode formed under the array of the liquid crystal display apparatus for a signal line inspection. An antistatic circuit connected between the line and the data line, a shorting bar commonly connected to the odd-numbered gate lines and the odd-numbered data lines, and a shorting bar commonly connected to the even-numbered gate lines and the even-numbered data lines. It is characterized by. In addition, the lower end of the array unit of the liquid crystal display device is an area opposite to an area where each pad unit for supplying signals to the gate line and the data line is formed.

The shorting bar may be formed at a lower end of the antistatic circuit, and the shorting bar may be connected to odd-numbered, even-numbered gate lines, odd-numbered and even-numbered data lines passing through the antistatic circuit, respectively.

The shorting bar may be removed after the signal line test is completed.

According to the present invention, it is possible to improve the detection power for the data / gate line failure to reduce the production cost through leakage prevention to improve the yield through failure prevention, even when excessive static electricity generated at the bottom of the array liquid crystal display There is an advantage in that the device can be prevented from being electrically damaged.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic view of a liquid crystal display for inspecting a signal line according to the present invention.

Referring to FIG. 2, the liquid crystal display for inspecting a signal line according to the present invention includes an array unit 12 in which liquid crystal cells 11 are arranged in a matrix form, and a gate line G disposed in the array unit 12. Gate pads 14 and 14 'respectively connected to the plurality of electrodes), data pads 14 and 14' respectively connected to the data lines D disposed at the array unit 12, and the gate / data pads. (14, 14 ') is connected to an odd-numbered gate / data pad 14 and an even-numbered gate / data pad 14', respectively, to perform an IPT (In Processing Test) inspection, that is, a signal line inspection process. A shorting bar formed to receive a data signal, and a common electrode line C, a gate line G, a common electrode line C, and a data line D formed at an outer portion of the array unit 12. The antistatic circuit 10 is connected between the () is formed.

In addition, in the liquid crystal display according to the present invention, shorting bars 16 and 16 'connected to the plurality of pads 14 and 14' formed on the array portion 12 are also formed on the lower portion of the array portion 12. It is characterized by that.

As described above, the antistatic circuit 10 connected between the common electrode line C to which the common voltage Vcom is supplied and the respective data lines D is usually composed of a plurality of thin film transistors, In the high voltage region, it has a low impedance to discharge overcurrent, and in a normal driving environment, it has a high impedance so as not to affect the driving signal supplied through the signal line.

However, in the liquid crystal display shown in FIG. 2, the antistatic circuit 10 is provided at the lower end and the upper end of the array unit 12, but may be formed only at either the upper end or the lower end.

Here, the lower end of the array unit 12 refers to an area opposite to the region where the pad units 14 and 14 ′, which supply signals to the gate line G and the data line D, are formed. In the A and A 'region.

In addition, the array unit 12 includes gate lines and data lines, a thin film transistor TFT formed at an intersection of the gate lines and data, and a liquid crystal capacitor Clc connected to the thin film transistor. . The liquid crystal capacitor is a capacitor formed between the common electrode facing the liquid crystal and the pixel electrode formed on the thin film transistor array panel, and the liquid crystal controls light transmittance by charging the data voltage input through the data line to drive the liquid crystal. To be able.

In addition, a shorting bar 16 commonly connected to the odd-numbered gate / data pads 14 disposed on the array unit 12 and a shorting bar commonly connected to the even-numbered gate / data pads 14, respectively. By supplying a signal of a specific pattern to 16 'and detecting the resistance difference between the odd-numbered shorting bar 16 and the even-numbered shorting bar 16', the signal line, i.e., the data / gate line G, Line defects such as shorts, disconnections, etc. of D) are checked.

As described above, the shorting bars 16 and 16 'are connected to the ground voltage source GND during the manufacturing process of the liquid crystal display to remove static electricity applied to the liquid crystal panel, and the plurality of pads 14 and 14. IPT (In Processing Test) test, that is, for the signal line test is formed, and in the conventional case, the shorting bars 16 and 16 'are formed only by connecting the upper end of the pad part. The putting bars 16 and 16 'are cut after the test process is completed.

At this time, the shorting bars 16 and 16 'are removed on the lower plate by grinding the edges of the lower plate along the cutting line during the scribing process and the grinding process. In the conventional case, the shorting bars 16 and 16' are removed. Since only the pads 14 and 14 'are removed from the pads 14 and 14', the tape parts 14 and 14 'are removed from the tape automated bonding (TAB). Tape Carrier Package (hereinafter referred to as' TCP ') is attached by the drive circuit mounting method of the') method. That is, the TCP output pad is connected to the pad portion 6 on the lower substrate, and the TCP input pad is connected to the printed circuit board (PCB).

However, in the present invention, the shorting bars 18 and 18 'are also formed at the lower end of the array unit 12 of the liquid crystal display. In detail, the antistatic circuit 10 formed at the lower end of the array unit 12 is described. And connected to odd-numbered and even-numbered gate lines and / or data lines, respectively.                     

That is, the shorting bar 18 is commonly connected to odd-numbered gate / data lines at the bottom of the array unit, and the shortening bar 18 'is commonly connected to even-numbered gate / data lines. A signal having the same specific pattern as that supplied to each of the shorting bars 16 and 16 'positioned at is disposed between the odd-numbered shorting bars 16 and 18 and the even-numbered shorting bars 16' and 18 '. By detecting the resistance difference of the circuit, line defects such as shorts and disconnections of signal lines, that is, data / gate lines, are inspected.

As a result, the test signal inputted to the upper and lower sides of the array unit 12, that is, the region close to the pads 14 and 14 ′ and the region far from the pads 14 and 14 ′ in the array unit is RC delay ( delay), the difference between the regions is generated, thereby reducing the detection force of the signal line failure can be improved.

In more detail, each of the odd-numbered shorting bars 16 and 18 and the even-numbered shorting bars 16 ′ and 18 ′ formed at the top and bottom of the array unit may be simultaneously applied with a test signal having a specific pattern, that is, By reducing line defects such as short and disconnection of data / gate lines, it is possible to solve a decrease in detection force caused by RC delay or signal distortion inside the array unit. Due to the Vth instability of the antistatic circuit formed in the liquid crystal display can be prevented by additionally forming a shorting bar at the bottom of the antistatic circuit to the electrical damage (damage).

FIG. 3 is a plan view of specific portions A and A ′ of FIG. 2.                     

Referring to FIG. 3, the area A is a lower end of the liquid crystal display, and the data line D and the common electrode line C intersect each other, and an antistatic circuit is formed between the data line D and the common electrode line C. 10) is connected, and the gate line G and the common electrode line C intersect each other in the A 'region, and the antistatic circuit 10 is connected between the gate line G and the common electrode line C. FIG. Is connected.

In this case, the common electrode line C in the region A is formed of the same material as the gate line G in the layer where the gate line G is formed, and the common electrode line C in the region A '. Is formed of the same material as the data line D in the layer in which the data line D is formed.

Shorting bars 18 and 18 'are connected to ends of each of the data line D and the gate line G passing through the antistatic circuit 10 formed in the A and A' regions.

In more detail, the shorting bars 18 and 18 'may include a shorting bar 18 connected to an odd-numbered data line or a gate line passing through the antistatic circuit 10 formed at the bottom of the array unit, and the array. And a shorting bar 18 'connected to the even-numbered data line or gate line passing through the antistatic circuit 10 formed at the bottom of the lower portion.

The odd-numbered show is supplied to each of the shorting bars 18 and 18 'formed as described above by supplying a signal having a specific pattern identical to that supplied to each shorting bar (16 and 16' of FIG. 2) located above the array unit. By detecting the resistance difference between the putting bars 16 and 18 and the even-numbered shorting bars 16 'and 18', line defects such as shorting, disconnection of signal lines, data / gate lines, etc. are checked.                     

As a result, test signals input to the upper side and the lower side of the array portion, that is, the region close to the pad and the region far from the pad in the array portion are input without the RC delay in the array. Can overcome.

That is, in the conventional case by applying a test signal of a specific pattern to the odd-numbered and even-numbered shorting bars formed at the top and bottom of the array unit at the same time to check the line defects such as short or disconnection of the signal lines, that is, data / gate lines The test signal input through the shorting bar connected to the negative unit can solve the reduction in the detection force caused by the RC delay or the signal distortion in the array.

In addition, when excessive static electricity is generated at the bottom of the array unit, the LCD may be electrically damaged due to Vth instability of the antistatic circuit 10 formed at the bottom of the array unit. By further forming shorting bars 18 and 18 'at the bottom, excessive static electricity is formed through the shorting bars 18 and 18' as well as the antistatic circuit 10 when the excessive static electricity is generated. It is possible to prevent the electrical damage of the liquid crystal display device caused by the occurrence.

According to the liquid crystal display device for the signal line inspection according to the present invention as described above, by improving the detection power for the failure of the data / gate line to reduce the production cost through leakage prevention to improve the yield through the failure prevention There is this.

In addition, even when excessive static electricity is generated at the bottom of the array unit, there is an advantage in that the LCD is prevented from being electrically damaged.

Claims (5)

In the liquid crystal display device for the signal line inspection, An antistatic circuit connected between the common electrode line and the gate line and the common electrode line and the data line of the liquid crystal display device; A first shorting bar connected to the pad portion on one side of the odd-numbered gate line; A second shorting bar connected to one pad of an odd-numbered data line; A third shorting bar connected to the pad portion on one side of the even-numbered gate line; A fourth shorting bar connected to one pad of an even-numbered data line; A fifth shorting bar connected to the other side of the odd-numbered gate line; A sixth shorting bar connected to the other side of the odd-numbered data line; A seventh shorting bar connected to the other side of the even-numbered gate line; An eighth shorting bar connected to the other side of the even-numbered data line, The first and third shorting bars are formed on the left side of the array portion, the second and fourth shorting bars are formed on the array portion, the fifth and seventh shorting bars are formed on the right side of the array portion, And the sixth and eighth shorting bars are formed under the array unit. delete According to claim 1, And the first to eighth shorting bars are connected to the antistatic circuit. delete delete

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