KR101020625B1 - Film type probe unit and manufacturing method of the same - Google Patents

Abstract

PURPOSE: A film type probe unit and a manufacturing method thereof are provided to easily arrange a driving IC in a body block. CONSTITUTION: A driving IC(230) is installed in a lower part of a body block(220). A chip is mounted on a file with sprocket holes. A wiring unit is expanded from the chip. An alignment unit aligns a driving IC on a lower surface of the body block.

Description

FILM TYPE PROBE UNIT AND MANUFACTURING METHOD OF THE SAME

The present invention relates to a film type probe unit and a method of manufacturing the same, and more particularly, when attaching the drive IC to the body block, a film type probe unit that can be easily aligned using a sprocket hole of the drive IC and its manufacture It is about a method.

In general, in the manufacturing process of a flat panel display device, a semiconductor, etc., several electrical inspections are performed.

The flat panel display device includes a cell process for injecting liquid crystal between a TFT substrate and a color filter substrate, a module process for attaching a driving IC to the cell, and a set process for mounting a frame in the module. An electrical test of the cell is performed before.

In more detail, a plurality of pads having a high density of tens to hundreds of electrodes for applying electrical signals (video signals, synchronization signals, color signals, etc.) are formed in the magnetic field of the cell. The electrical inspection of the cell is performed before the driver IC is attached to the device.

In order to perform electrical inspection of each of these processes, a film type probe apparatus has been disclosed.

Referring to FIG. 1, the conventional film type probe apparatus includes a probe unit 100 on a base 200 positioned on an inspection stage on which a cell or a module (hereinafter, referred to as an 'object to be inspected' L) of a liquid crystal panel is seated. A plurality of these are mounted on the X axis and the Y axis.

Referring to FIG. 2, the film type probe unit 100 includes a manipulator 110, a body block 120, a driving IC 130, and an FPC 140.

The manipulator 110 supports and aligns the body block 120 and the driving IC 130, and adjusts the driving pressure applied to the body block 120. The body block 120 is provided with a pressing member 121 inclined at the front end portion, and is provided with a fixing member 122 for fixing the pressing member 121. That is, a groove is formed at the lower end of the body block 120, the pressing member 121 is installed in the groove, and the pressing member 121 is attached to the body block 120 by using the fixing member 122. Fix it.

The driving IC 130 converts a signal applied from a PCB (not shown) into a driving signal for driving the object L.

In the driving IC 130, a chip 132 is mounted on the film 131, and wiring portions (not shown) are extended from both sides of the chip 132 to the both sides, and the film 131 transfers during the manufacturing process. It is common for the sprocket hole 133 to be formed. The driving IC 130 is, for example, a conventional tape automated bonding (TAB) IC for driving a liquid crystal display device.

Of the wiring parts located on both sides of the driving IC 130, the wiring part located at the lower end of the body block 120 contacts the electrodes formed on the pad P of the object to be inspected, and the other wiring part of the FPC 140 is disposed. It is electrically connected to the wiring part.

Referring to Figure 3 will be described a test method of the test object using a conventional film type probe unit. As illustrated, the test object is electrically inspected by applying an electrical signal in a state where the wiring portion of the driving IC 130 is in contact with the electrode formed on the pad P of the test object.

Therefore, in order to manufacture a film type probe unit, a process of attaching the driving IC to the lower surface of the body block is required. Conventionally, the worker attaches to the naked eye using vision means. As a result, aligning the drive ICs accurately is not easy and time consuming. In some cases, as shown in FIG. 4, the body block 120 and the driving IC 130 may be attached to each other without being aligned.

The present invention has been made to solve the above problems, an object of the present invention, when attaching the drive IC to the body block, the film type probe unit that can be easily aligned using the sprocket hole of the drive IC and its manufacture In providing a method.

Film type probe unit according to the present invention to solve the above technical problem is a body block; And a driving IC provided at a lower portion of the body block and having a chip mounted on a film having sprocket holes formed at both sides thereof, and a wiring unit extending from the chip, wherein the sprocket hole is formed at a lower surface of the body block. An alignment portion for aligning the drive ICs is further provided.

In addition, the alignment unit is preferably a protrusion formed to penetrate the sprocket hole.

In addition, the protrusions may be formed at least one or more on each of the lower both sides of the body block corresponding to the sprocket holes formed on both sides of the film, respectively.

In addition, the protrusion is preferably formed at the lower end of the body block.

Method of manufacturing a film type probe unit according to the present invention comprises the steps of 1) preparing a body block having protrusions for driving IC alignment on a lower surface thereof; 2) attaching the fixing means to one surface or the body block of the driving IC in which the sprocket hole is formed; And 3) attaching the driving IC to the body block while the sprocket hole of the driving IC is aligned with the protrusion.

In addition, the fixing means is preferably a double-sided adhesive tape or adhesive.

According to the present invention, when attaching the drive IC to the body block, there is an effect that can be easily aligned using the sprocket hole of the drive IC.

1 shows a conventional probe apparatus.
2 and 4 show a conventional film type probe unit.
5 and 6 show a film type probe unit according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the embodiment according to the present invention.

5 and 6, the probe unit according to the present invention includes a manipulator (not shown), a body block 220, a driving IC 230, and an FPC 240.

The manipulator supports and aligns the body block 220 and the driving IC 230, and adjusts the driving pressure applied to the body block 220. The body block 220 is provided with a pressing member 221 inclined at the front end portion, and is provided with a fixing member 222 for fixing the pressing member 221. That is, a groove is formed at the lower end of the body block 220, the pressing member 221 is installed in the groove, and the pressing member 221 is attached to the body block 220 by using the fixing member 222. Fix it.

The driving IC 230 converts a signal applied from a PCB (not shown) into a driving signal for driving an object under test.

In the driving IC 230, a chip is mounted on a film, and wiring portions (not shown) are extended from both sides of the chip, and the fill is formed with a sprocket hole 233 necessary for transportation in the manufacturing process. to be. The driving IC 230 is, for example, a conventional tape automated bonding (TAB) IC for driving a liquid crystal display device.

Among the wiring parts positioned at both sides of the driving IC 230, the wiring part located at the lower end of the body block 220 contacts the electrodes formed on the pad of the test object, and the other wiring part is connected to the wiring part of the FPC 240. Electrically connected.

In particular, the probe unit 200 according to the present invention further includes an alignment unit for aligning the driving IC 230 using the sprocket hole 233 of the driving IC 230.

In the present embodiment, the alignment parts are protrusions 223 formed on the bottom surface of the body block 220. The protrusion 223 is formed in a size and shape that can penetrate the sprocket hole 233, it can be seen that protruding from the lower surface of the body block 220. Of course, the formation position of the protrusion 223 is set in an optimal alignment state in consideration of the size of the driving IC 230, the position of the sprocket hole 233, and the size of the body block 220. In addition, two protrusions 223 are formed on both sides of the lower surface of the body block 220 for accurate alignment.

Therefore, the drive IC 230 and the body block 220 can be optimally aligned only by fitting the sprocket hole 233 to the protrusion 223, so that manual work by vision means is unnecessary.

Hereinafter, a method of manufacturing a film type probe unit according to the present invention will be described.

First, the body block 220 having the protrusion 223 for aligning the driving IC 230 is prepared.

Next, an adhesive or a double-sided adhesive tape is applied to one surface or the body block 220 of the driving IC 230 having the sprocket hole 233 formed thereon.

Finally, the driving IC 230 is attached to the body block 220 in a state where the sprocket hole 233 of the driving IC 230 is fitted to the protrusion 223.

On the other hand, the number and position of the projections can be changed, but when formed on each side can be precise alignment. It is also advantageous to form at the leading end of the lower surface of the body block for precise alignment. This is because the wiring portion of the drive IC in contact with the pad of the test object is attached to the front end of the lower surface of the body block.

200: probe unit 220: body block
221: pressure member 222: fixing member
223: protrusion 230: drive IC
240: FPC

Claims (6)

Body block; And
And a driving IC provided below the body block and having a chip mounted on a film having sprocket holes formed at both sides thereof, and a wiring part extending from the chip.
The lower surface of the body block film type probe unit, characterized in that the alignment portion for further aligning the drive IC using the sprocket hole.
The method of claim 1,
The alignment unit is a film type probe unit, characterized in that the protrusion formed to project through the sprocket hole.
The method of claim 2,
The projection is a film-type probe unit, characterized in that at least one formed on each of the lower both sides of the lower body block corresponding to the sprocket holes formed on both sides of the film.
The method of claim 2,
The projection is a film type probe unit, characterized in that formed on the lower end of the body block.
1) preparing a body block having protrusions for aligning a driving IC on a lower surface thereof;
2) attaching the fixing means to one surface or the body block of the driving IC in which the sprocket hole is formed; And
3) attaching the driving IC to the body block in a state in which the sprocket hole of the driving IC is aligned with the protrusion.
The method of claim 5,
The fixing means is a film type probe unit manufacturing method characterized in that the double-sided adhesive tape or adhesive.

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