KR102382558B1 - Die Pick-up Apparatus and Operating Method of Die Pick-up Apparatus - Google Patents

Abstract

A die pickup apparatus according to an embodiment of the present invention includes: a main body including first and second blocks each having vacuum holes on an upper surface to be opposed to a film adhered to a die of a wafer; a driving unit for vertically moving the first and second blocks, respectively; an adsorption unit for vacuum adsorbing the film through the vacuum hole; and controlling the operation of the driving unit and the adsorption unit, controlling the driving unit to move the first block and the second block up and down simultaneously or respectively, and adsorbing the film through the vacuum hole when the first block or the second block is lowered It may include a control unit for controlling the adsorption unit.

Description

Die Pick-up Apparatus and Operating Method of Die Pick-up Apparatus

The present invention relates to a semiconductor device, and more particularly, to a die pickup apparatus for separating a semiconductor chip from a wafer, and a method of operating the die pickup apparatus.

When separating individual dies from a circular wafer, the die pickup device pushes up the base film at the lower end of the wafer using an ejector made of a metal material so that the individual dies are peeled off and separated from the base film.

In this case, since the part in contact with the die to which the film is attached is made of a metal material, the ejector may act as a stress in a specific area such as a cut area between the dies, thereby causing cracks in the die.

In addition, in consideration of the trend in which wafers are becoming thinner, the above-described phenomenon will be further increased.

An embodiment of the present invention is to provide a die pickup apparatus capable of picking up individual dies from a wafer without damage between the dies when a film adhered to the wafer is peeled off, and a method of operating the die pickup apparatus.

A die pickup apparatus according to an embodiment of the present invention includes: a main body including first and second blocks each having vacuum holes on an upper surface to be opposed to a film adhered to a die of a wafer; a driving unit for vertically moving the first and second blocks, respectively; an adsorption unit for vacuum adsorbing the film through the vacuum hole; and controlling the operation of the driving unit and the adsorption unit, but controlling the driving unit to move the first block and the second block up and down at the same time or respectively, and close the vacuum hole when the first block or the second block is lowered. It may include a control unit for controlling the adsorption unit to adsorb the film through the.

A die pickup apparatus according to another embodiment of the present invention includes: a first block made of a metal material having a vacuum hole on an upper surface thereof; and a second block having a vacuum hole in its upper surface, formed of a flexible material, and capable of vertical movement independently of the first block, wherein the first and second blocks are formed on the same plane as each other, The first block may be formed in a shape of an edge, and the second block may be formed inside the first block.

In a method of operating a die pickup apparatus according to an embodiment of the present invention, the die pickup apparatus raises a body including first and second blocks each having a vacuum hole on an upper surface thereof in contact with a film adhered to a die of a wafer. making; lowering the first block in a state in which the film is adsorbed through the vacuum hole; and lowering the second block in a state in which the film is adsorbed through the vacuum hole.

According to the present embodiments, when the die is peeled from the film, damage such as cracks that may occur in the die can be prevented in advance by minimizing the stress applied to the die, and productivity improvement effect can be expected due to the improvement of peeling performance. there is.

1 is a diagram illustrating an arrangement relationship between a semiconductor wafer and a die pickup apparatus according to an embodiment of the present invention.
2 is a diagram showing the configuration of a die pickup apparatus according to an embodiment of the present invention.
3A and 3B are views illustrating an upper surface of a die pickup apparatus according to an embodiment of the present invention.
4 to 6 are views illustrating in detail a portion of a die pickup apparatus according to an embodiment of the present invention.
7 and 8 are diagrams illustrating another embodiment of a die pickup apparatus according to an embodiment of the present invention.
9A and 9B are exemplary views for explaining a method of peeling a film according to an embodiment of the present invention.
10 to 13 are views sequentially showing a method of peeling a film according to an embodiment of the present invention.
14 is a flowchart for explaining a method of operating a die pickup apparatus according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described based on the accompanying drawings.

1 is a diagram illustrating an arrangement relationship between a semiconductor wafer and a die pickup apparatus according to an embodiment of the present invention.

Hereinafter, it will be described with reference to FIGS. 9A and 9B, which are exemplary views for explaining a method of peeling a film according to an embodiment of the present invention.

Referring to FIG. 1 , the die pickup apparatus 100 may be configured to peel a film adhered to a plurality of dies 10 of a wafer.

Referring to FIG. 1 , the die pickup device 100 is provided with a first block 120 made of a metal material having a vacuum hole (113 in FIG. 2 ) on the upper surface and a vacuum hole (113 in FIG. 2 ) on the upper surface. and a second block 130 formed of a soft material and formed to be vertically movable independently of the first block 120 .

At this time, the soft material may be rubber, and the present invention is not limited thereto, and any soft material capable of reducing the impact to the contact die 10 will be possible. Since the second block 130 is formed of a soft material, it is possible to expect the effect of being able to prevent in advance cracks that may be generated in the die 10 due to less impact even when in direct contact with the die 10 . there is.

The first and second blocks 120 and 130 are formed on the same plane as each other, the first block 120 is formed in the shape of an edge, and the second block 130 is formed inside the first block 120 . can be That is, the first block 120 may be an out block, and the second block 130 may be an inner block.

Referring to FIG. 6 , each of the first and second blocks 120 and 130 is formed in a concave-convex shape including concave portions 123 and 133 and convex portions 121 and 131 with respect to the upper surface, and the convex portions A vacuum hole 113 may be formed to pass through the lower surface from the upper surface of the 121 and 131 . According to the driving of the adsorption unit 160 , the film 15 may be in close contact with the first and second blocks 120 and 130 through the vacuum hole 113 .

Referring to FIG. 9A , the film adhered to the die 10 may include a base film 15 to which an adhesive layer 11 and a UV adhesive 13 are applied in the order of adhesion to the die 10 . there is. The UV adhesive may be UV curable PSA (Ultra violet curable pressure sensitive adhesive), but is not limited thereto.

1 and 9b, the die pickup device 100 moves the first block 120 and the second block 130 up and down to apply the adhesive layer 11 and the UV adhesive 13 to the base film 15 ) to separate them from each other. A detailed description thereof will be given later.

The film disclosed below may refer to the base film 15, and for convenience of description, the reference number 15 indicating the base film will be assigned to the film to be described.

The above-described die pickup apparatus 100 may be an ejector.

2 is a diagram showing the configuration of a die pickup apparatus according to an embodiment of the present invention.

Hereinafter, FIGS. 3A and 3B showing the upper surface of the die pickup apparatus according to an embodiment of the present invention, FIGS. 4 to 6 showing a part of the die pickup apparatus according to the embodiment of the present invention in detail, and the implementation of the present invention 7 and 8 showing another embodiment of the die pickup device according to the example, a method of peeling a film according to an embodiment of the present invention will be described with reference to FIGS. 10 to 13 sequentially shown.

Referring to FIG. 2 , the die pickup apparatus 100 may include a body 110 , a driving unit 150 , an adsorption unit 160 , and a control unit 170 .

1 and 2 , the main body 110 includes first and second vacuum holes 113 on the upper surface 111 to be opposed to the film 15 adhered to the die 10 of the wafer, respectively. Blocks 120 and 130 may be included.

1, 3A and 3B, the first and second blocks 120 and 130 are formed on the same plane as each other, the first block 120 is formed in the form of a border, the second block 130 may be formed inside the first block 120 . That is, the first block 120 may be formed to surround the second block 130 .

FIG. 3A shows a state in which the body 110 is positioned at the lower end of the wafer including the dies 10 , and the first and second blocks 120 and 130 of FIG. 5 are placed on the upper surface 111 of the body 110 . ) can be formed.

Referring to FIG. 3B , a vacuum hole 113 may be formed on the upper surface 111 of the body 110 in addition to the first and second blocks 120 and 130 .

Referring to FIG. 4 , the body 110 may further include a side block 140 formed outside the first block 120 with respect to the upper surface 111 .

As shown in FIG. 4 , the die 10a may be in contact with the first block 120 , and the die 10b may be in contact with the side block 140 . That is, the dies 10a and 10b contacting the first block 120 and the side block 140 may be different dies.

Referring to FIG. 5 , the first block 120 may be formed of a metal material, and the second block 130 may be formed of a flexible material.

As another example, the first and second blocks 120 and 130 may also be formed of a metal material.

As shown in FIG. 1 , the size of the upper surface 111 of the first and second blocks 120 and 130 may be formed to have a size corresponding to the size of the individual die 10 of the opposing wafer.

That is, the combined size of the upper surface of the first block 120 and the upper surface of the second block 130 may be the same or similar to the size of one die 10 .

5 and 6 , the first and second blocks 120 and 130 have concave-convex shapes including concave portions 123 and 133 and convex portions 121 and 131 with respect to the upper surface 111, respectively. can be formed with

In each of the first and second blocks 120 and 130 , a vacuum hole 113 may be formed to penetrate from the upper surface 111 to the lower surface of the convex portions 121 and 131 . When the adsorption unit 160 is driven, the first block 120 or the second block 130 and the first block 120 or the second block 130 and The films 15 are in close contact with each other.

7 and 8 , the second block 130 may be formed into a plurality of groups capable of vertically moving separately from each other under the control of the driving unit 150 .

For example, as shown in FIG. 7 , in the second block 130 , the first group 130a is formed in the form of an edge, and the second group 130b is positioned inside the first group 130a. can

As another example, as shown in FIG. 8 , the second block 130 may be formed in such a way that the first group 130a and the second group 130b are positioned as a group inside the first block 120 .

An example in which the second block 130 is formed into a plurality of groups is not limited to FIGS. 7 and 8 , and may be changed according to the needs of the operator. As the second block 130 is formed in the form of a plurality of groups, it is possible to cope with various die sizes during a die pickup operation, so that the die pickup performance can be improved.

The driving unit 150 may be configured to vertically move the first and second blocks 120 and 130 , respectively.

In this case, the driving unit 150 may include a motor capable of moving the first and second blocks 120 and 130 up and down, but is not limited thereto.

The adsorption unit 160 may be configured to vacuum adsorb the film 15 through the vacuum hole 113 .

The control unit 170 may control the operation of the driving unit 150 and the adsorption unit 160, but may control the driving unit 150 to move the first block 120 and the second block 130 up and down simultaneously or respectively. there is.

The controller 170 may control the adsorption unit 160 to adsorb the film 15 through the vacuum hole 113 when the first block 120 or the second block 130 descends.

In this embodiment, when the first block 120 or the second block 130 descends, since the film 15 is vacuum-adsorbed in the same direction as the descending direction, the film 15 is peeled off from the die 15 . The effect can be further increased. In this case, the die 10 in which the film 15 is peeled may mean a state in which the adhesive layer 11 is attached as shown in FIG. 9B , but is not limited thereto. In addition, the film 15 peeled from the die 10 may mean a base film in a state in which the UV adhesive 13 is applied as shown in FIG. 9B , but is not limited thereto.

The control unit 170 raises the first and second blocks 120 and 130 at the same time so that they are in contact with the film 15 , and then lowers the first block 120 preferentially than the second block 130 , and then lowers the second block 120 . The driving unit 150 may be controlled to lower the block 130 .

Referring to FIG. 10 , before the die pickup operation is performed, the first block 120 , the second block 130 , and the side block 140 of the main body 110 may be disposed to be positioned on the same plane. Specifically, the die pickup operation may be a die attach operation, and is not limited thereto, and any operation of peeling a film may be applied. After that, when the die pickup operation starts, as shown in FIG. 10 , the body 110 including the first block 120 , the second block 130 and the side block 140 is positioned adjacent to the film 15 . can In this case, the film 15 may be a film 15 attached to the die 10 to be peeled off.

Next, referring to FIG. 11 , the control unit 170 may control the driving unit 150 to simultaneously raise the first and second blocks 120 and 130 to contact the film 15 . In this case, the control unit 170 may adjust the degree of elevation of the body 110 in order to improve the peeling ability between the die 10 and the film 15 .

The control unit 170 rises so that the first and second blocks 120 and 130 come into contact with the film 15 , or the first and second blocks 120 and 130 come into contact with the film 15 after the preset You can wait until a condition such as the passage of time is satisfied.

Next, referring to FIG. 12 , the control unit 170 may control the driving unit 150 to independently lower the first block 120 first. In this case, the controller 170 may control the adsorption unit 160 to adsorb the film 15 through the vacuum hole 113 when the first block 120 descends. That is, the first block 120 may move in a state of vacuum adsorption in a direction in which the film 15 is peeled from the die 10 .

As shown in FIG. 12 , according to the driving of the adsorption unit 160 , not only the vacuum hole 113 , but also the space between the side block 140 and the first block 110 or the first block 110 and the second Adsorption force may also be generated through the space between the blocks 130 .

Referring to FIG. 13 , the control unit 170 may control the driving unit 150 to lower the second block 130 . In this case, the controller 170 may control the adsorption unit 160 to adsorb the film 15 through the vacuum hole 113 when the second block 130 descends. That is, the second block 130 may move in a state of vacuum adsorption in a direction in which the film 15 is peeled from the die 10 .

At this time, it will be natural that the control unit 170 may change the descending order of the first block 110 and the second block 130 according to the needs of the operator. For example, the control unit 170 may lower the first block 130 after preferentially lowering the first block 130 .

In addition, the controller 170 may adjust at least one of the descending speed, the descending start time, and the descending height of the first block 110 and the second block 130 .

As described above, since the control unit 170 descends sequentially without lowering the first block 110 and the second block 130 at the same time, the impact applied to the die 10 due to the peeling of the film 15 . Compared to lowering the first block 110 and the second block 130 at the same time, an effect that can be reduced can be expected.

When the above-described peeling operation of the film is completed, as shown in FIG. 9b , the base film 15 to which the UV adhesive 13 is applied is in a state separated from the adhesive layer 11 .

14 is a flowchart for explaining a method of operating a die pickup apparatus according to an embodiment of the present invention.

First, the die pickup apparatus 100 uses a body 111 including first and second blocks 120 and 130 each having a vacuum hole 113 on an upper surface (111 in FIG. 3 ) of a wafer die ( 10) may be raised to contact the film 15 (S101). The first and second blocks 120 and 130 all rise at the same time.

Referring to FIG. 11 , the die pickup apparatus 100 may simultaneously raise the first and second blocks 120 and 130 to contact the film 15 . In this case, the die pickup device 100 may adjust the elevation degree of the body 110 in order to improve peelability between the die 10 and the film 15 .

The die pickup device 100 is raised so that the first and second blocks 120 and 130 come into contact with the film 15 , or after the first and second blocks 120 and 130 come into contact with the film 15 . It may wait until a condition such as the lapse of a preset time is satisfied.

The above-described first and second blocks 120 and 130 are formed on the same plane as each other, the first block 120 is formed in the shape of an edge, and the second block 130 is formed inside the first block 120 . can be formed in

7 and 8 , the second block 130 may be formed in a plurality of groups capable of vertically moving separately from each other.

For example, the first block 120 may be formed of a metal material, and the second block 130 may be formed of a flexible material. Since the second block 130 is formed of a soft material, even if it comes in direct contact with the die 10, the impact applied is less, so that cracks that may occur in the die 10 can be prevented in advance. there is.

As another example, the first and second blocks 120 and 130 may be formed of a metal material.

The size of the upper surface of the first and second blocks 120 and 130 may be formed to have a size corresponding to the size of the individual die 10 of the opposing wafer.

The first and second blocks 120 and 130 are respectively formed in a concave-convex shape including concave portions 123 and 133 and convex portions 121 and 131 with respect to the upper surface of the convex portions 121 and 131 . A vacuum hole 113 may be formed to pass through the lower surface from the upper surface.

The body 110 may further include a side block 140 formed on the outside of the first block 120 with respect to the upper surface.

Next, the die pickup apparatus 100 may lower the first block 120 in a state in which the film 15 is adsorbed through the vacuum hole 113 ( S103 ).

Referring to FIG. 12 , the die pickup apparatus 100 may first independently lower only the first block 120 . In this case, the die pickup apparatus 100 may adsorb the film 15 through the vacuum hole 113 when the first block 120 descends. That is, the first block 120 may move in a state of vacuum adsorption in a direction in which the film 15 is peeled from the die 10 .

As shown in FIG. 12 , the adsorption force is not only through the vacuum hole 113 , but also through the space between the side block 140 and the first block 110 or the space between the first block 110 and the second block 130 . This can happen.

Next, the die pickup apparatus 100 may lower the second block 130 in a state in which the film 15 is adsorbed through the vacuum hole 113 ( S105 ).

Referring to FIG. 13 , the die pickup apparatus 100 may lower the second block 130 . In this case, the die pickup apparatus 100 may adsorb the film 15 through the vacuum hole 113 when the second block 130 descends. That is, the second block 130 may move in a state of vacuum adsorption in a direction in which the film 15 is peeled from the die 10 .

In this case, it will be natural that the die pickup apparatus 100 may change the descending order of the first block 110 and the second block 130 according to the needs of the operator. For example, the die pickup apparatus 100 may lower the first block 130 after preferentially lowering the first block 130 .

Also, the die pickup apparatus 100 may adjust at least one of a descending speed, a descending start time, and a descending height of the first block 110 and the second block 130 .

As described above, since the die pickup device 100 descends sequentially without lowering the first block 110 and the second block 130 at the same time, it is applied to the die 10 due to peeling of the film 15 . The effect that the falling impact can be reduced compared to lowering the first block 110 and the second block 130 at the same time can be expected.

Those of ordinary skill in the art to which the present invention pertains, since the present invention can be embodied in other specific forms without changing the technical spirit or essential characteristics thereof, the embodiments described above are illustrative in all respects and not limiting. have to understand The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention. do.

10: die 100: die pickup device
110: body 120: first block
130: second block 140: side block
150: driving unit 160: adsorption unit
170: control unit

Claims (20)

a body including first and second blocks each having a vacuum hole on an upper surface to be opposed to the film adhered to the die of the wafer;
a driving unit for vertically moving the first and second blocks, respectively;
an adsorption unit for vacuum adsorbing the film through the vacuum hole; and
Control the operation of the driving unit and the adsorption unit, but control the driving unit to move the first block and the second block up and down simultaneously or respectively, and when the first block or the second block is lowered, through the vacuum hole a control unit for controlling the adsorption unit to adsorb the film;
The first and second blocks are each formed in a concave-convex shape including a concave portion and a convex portion with respect to an upper surface thereof, and the vacuum hole is formed to pass through the lower surface from the upper surface of the convex portion. ◈Claim 2 was abandoned when paying the registration fee.◈ According to claim 1,
The first and second blocks are formed on the same plane as each other, the first block is formed in the form of an edge, the second block is formed inside the first block die pickup device. ◈Claim 3 was abandoned when paying the registration fee.◈ 3. The method of claim 2,
The control unit is
After simultaneously raising the first and second blocks to be in contact with the film, the first block is preferentially lowered than the second block, and then the driving unit is controlled to lower the second block. ◈Claim 4 was abandoned when paying the registration fee.◈ 3. The method of claim 2,
The second block is formed into a plurality of groups capable of vertically moving separately from each other under the control of the driving unit. ◈Claim 5 was abandoned when paying the registration fee.◈ According to claim 1,
The die pickup device in which the first block is formed of a metal material, and the second block is formed of a flexible material. ◈Claim 6 was abandoned when paying the registration fee.◈ According to claim 1,
The first and second blocks are die pickup devices formed of a metal material. ◈Claim 7 was abandoned at the time of payment of the registration fee.◈ According to claim 1,
The size of the upper surfaces of the first and second blocks is a die pickup device formed to have a size corresponding to the individual die size of the opposite wafer. delete delete ◈Claim 10 was abandoned when paying the registration fee.◈ According to claim 1,
The body is
The die pickup device further comprising a side block formed on the outside of the first block with respect to the upper surface. A first block made of a metal material having a vacuum hole on the upper surface; and
It includes a second block having a vacuum hole in the upper surface and formed of a flexible material to be able to move up and down independently of the first block,
The first and second blocks are formed on the same plane as each other, the first block is formed in the form of an edge, the second block is formed inside the first block,
The first and second blocks are each formed in a concave-convex shape including a concave portion and a convex portion with respect to an upper surface thereof, and the vacuum hole is formed to pass through the lower surface from the upper surface of the convex portion. delete The die pickup device is formed in a concave-convex shape including a concave portion and a convex portion with respect to the upper surface, and includes first and second blocks each having a vacuum hole on the upper surface so as to pass through the lower surface from the upper surface of the convex portion. elevating the body to contact the film adhered to the die of the wafer;
lowering the first block in a state in which the film is adsorbed through the vacuum hole; and
lowering the second block in a state in which the film is adsorbed through the vacuum hole;
A method of operating a die pickup device comprising a. ◈Claim 14 was abandoned at the time of payment of the registration fee.◈ 14. The method of claim 13,
The first and second blocks are formed on the same plane as each other, the first block is formed in the shape of an edge, the second block is formed inside the first block operating method of the die pickup device. ◈Claim 15 was abandoned when paying the registration fee.◈ 14. The method of claim 13,
The method of operating a die pickup device in which the second block is formed in a plurality of groups capable of vertically moving separately from each other. ◈Claim 16 was abandoned when paying the registration fee.◈ 14. The method of claim 13,
The first block is formed of a metal material, and the second block is formed of a flexible material. ◈Claim 17 was abandoned when paying the registration fee.◈ 14. The method of claim 13,
The method of operating a die pickup device in which the first and second blocks are formed of a metal material. ◈Claim 18 was abandoned when paying the registration fee.◈ 14. The method of claim 13,
The size of the upper surfaces of the first and second blocks is formed to have a size corresponding to the individual die size of the opposite wafer. delete ◈Claim 20 was abandoned when paying the registration fee.◈ 14. The method of claim 13,
The body is
The method of operating a die pickup device further comprising a side block formed on the outside of the first block with respect to the upper surface.

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