JPH07326710A - Semiconductor mounting structure - Google Patents

Abstract

(57) [Abstract] [Purpose] The present invention relates to a semiconductor mounting structure, particularly to a mounting structure of a bare chip directly mounted on a printed circuit board in a chip unit, with an object to increase the mounting density when the bare chip mounting is performed. To do. A first bare chip 2a mounted by bumps 4 on a printed circuit board 1, a first reinforcing adhesive 7 for bonding the first bare chip 2a, and the first bare chip 2
a die paste 6 applied to the back surface of a, a second bare chip 2b mounted on the back surface of the first bare chip 2a applied with the die paste 6, and a second bare chip 2
b and a wire 5 for joining the printed circuit board 1 and a second reinforcing adhesive 8 for adhering the second bare chip 2b.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a semiconductor mounting structure, and more particularly to a bare chip mounting structure which is directly mounted on a printed circuit board in chip units.

Miniaturization of portable information equipment such as personal computers, high performance workstations, IC memory cards and the like,
In recent years, the importance of semiconductor mounting structures in the form of bare chips has increased with the increase in density.

[0003]

2. Description of the Related Art Bare chips mounted on a printed circuit board are roughly classified into two patterns. First
In FIG. 7, a pad 73 formed on the printed board 75 and a bump 72 formed on the first bare chip 70, such as the first bare chip 70 mounted on the printed board 75 as shown in FIG. is there.

Secondly, like the second bare chip 71 mounted on the printed board 75, it is joined to the pad of the printed board 75 by the wire 74.

[0005]

However, all of the conventional bare chip mounting has a one-layer structure, which limits the functions that can be added per unit area, and has the drawback that it cannot follow further miniaturization and high density. there were.

Therefore, it is an object of the present invention to increase the mounting density when bare chip mounting is performed.

[0007]

The above object is to provide a first bare chip 2 mounted on a printed board 1 by bumps 4.
a, a first reinforcing adhesive 7 for adhering the first bare chip 2a, a die paste 6 applied to the back surface of the first bare chip 2a, and the first paste applied with the die paste 6. Second bare chip 2b mounted on the back surface of the bare chip 2a, wire 5 for joining the second bare chip 2b and the printed circuit board 1, and a second reinforcing adhesive for bonding the second bare chip 2b 8 is provided, and when the printed circuit board 1 is ceramic, the first bare chip 2a and the second bare chip are reinforced with a single reinforcing adhesive 7a. The first bare chip 2a mounted by the semiconductor mounting structure according to claim 1, and the printed board 1 by the bumps 4, and the first bare chip. a die paste 6 applied on the back surface of a, a second bare chip 2b mounted on the back surface of the first bare chip 2a applied with the die paste 6, a second bare chip 2b, and the printed circuit board 1 And a package 9 surrounding the first bare chip 2a and the second bare chip 2b, and a sealing gas 11 enclosed in the package 9. This is achieved by a semiconductor packaging structure.

[0008]

That is, according to the present invention, since the bare chips having different mounting forms have a two-layer structure, the mounting efficiency of the bare chips added per unit area is improved.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention will be described below with reference to the drawings. First, a first embodiment will be described with reference to FIGS.

As shown in FIG. 1, a plurality of pads 3 are formed on a glass / epoxy printed board 1 in correspondence with bare chip mounting positions. Bumps 4 are formed on the lower surface of the first bare chip 2a bump-bonded to the pads 3 so as to correspond to the pads 3. This bump 4
When the printed circuit board 1 and the first bare chip 2 are melted
a is electrically and mechanically joined.

Since the printed circuit board 1 is made of glass epoxy and does not have a strong adhesion strength to the pad 3, the epoxy first reinforcing adhesive 7 is applied to reinforce the first bare chip 2a. This first reinforcing adhesive 7
The reason for applying is also to prevent corrosion due to moisture in the air.

In the present invention, a die paste 6 is applied to the back surface of the first bare chip 2a in order to form a bare chip having a different mounting form into a double layer structure. The second bare chip 2b is mounted on the die paste 6.

The electrical connection between the second bare chip 2b and the printed circuit board 1 is made by using a material such as Au or Al for the pad 3'preformed outside the mounting area of the first bare chip 2a and the second bare chip 2b. The wires 5 are joined together.

Then, similarly to the first bare chip 2a, an epoxy second reinforcing adhesive 8 is similarly applied to prevent corrosion due to moisture in the air. In this way, a two-layer structure of bare chips can be realized.

The manufacturing process of the first embodiment will be described with reference to FIG. First, a predetermined number of stud bumps (hereinafter referred to as bumps 4) are formed on an aluminum pad (not shown) of the first bare chip 2a by a wire bonding technique using a wire of aluminum, copper, gold or the like.

Since the bumps 4 have different heights, the bumps 4 of the first bare chip 2a are pressed against a flat plate to perform leveling so that the bumps 4 have the same height. continue,
A conductive adhesive is thinly squeezed on a glass flat plate (which may be the same as the previous flat plate) in advance,
Transfer is performed in which each bump 4 is pressed against and attached to this conductive adhesive. The processing up to this point is the processing for the first bare chip 2a.

On the other hand, the printed board 1 on which the first bare chip 2a is mounted is preheated (precure) and dried in advance. Then, on the printed circuit board 1 on which the pads 3 are formed according to the number of the bumps 4 of the first bare chip 2a to be mounted, a thermosetting insulating adhesive (first reinforcement) is used for reinforcement by screen printing. Adhesive 7) is applied. Above the printed circuit board 1, the first bare chip 2a adsorbed by a bonding head (not shown) is transferred.

The pads 3 of the printed board 1 and the bumps 4 of the first bare chip 2a are aligned, and pressure and heat are applied by the bonding head to flip-chip bond and mount the first bare chip 2a to the printed board 1 at the same time. It is something to do. In this case, the bonding head is provided with a heat source, and the first reinforcing adhesive is thermally cured by heating to reinforce the flip chip bonding.

After the first bare chip 2a is mounted on the printed board, the die paste 6 is applied to the back surface of the first bare chip 2a to align the second bare chip 2b having no bumps.

By performing die bonding on the second bare chip, the second bare chip 2b is mounted face up on the back surface of the first bare chip 2a,
In order to electrically connect the bare chip 2b of the second bare chip 2b to the printed circuit board 1, the pad 3 ′ formed outside the mounting area of the first bare chip 2a and the second bare chip 2b are made of Au, Al.
Wire bonding is performed using the wire 5 of the above.

Then, a thermosetting insulating adhesive (second reinforcing adhesive 8) for reinforcement is applied on the second bare chip 2b and the wire 5 by the potting method. The second reinforcing adhesive 8 is hardened and reinforced by blowing hot air through a hot air nozzle (not shown) or the like to heat it.

Next, the second embodiment will be described with reference to FIGS.
Will be explained. In the first embodiment, since the printed circuit board is made of glass epoxy, the first bare chip 2
It was necessary to apply the first reinforcing adhesive immediately after mounting a, but if it is a ceramic printed board,
This is not necessary because the adhesion strength with the pad is high. This is achieved in the second embodiment.

That is, as shown in FIG. 3, when the printed circuit board is a ceramic printed circuit board 1a, the first bare chip 2a and the second bare chip 2b can be reinforced with a single reinforcing adhesive 7a. It should be noted that the explanation is simplified by omitting the portions having the same configuration as the first embodiment.

Next, the manufacturing process of the second embodiment will be described with reference to FIG.
Will be explained. First, a predetermined number of stud bumps (hereinafter referred to as bumps 4) are formed on an aluminum pad (not shown) of the first bare chip 2a by a wire bonding technique using a wire of aluminum, copper, gold or the like.

Since the bumps 4 have different heights, the bumps 4 of the first bare chip 2a are pressed against a flat plate to perform leveling so that the bumps 4 have the same height. continue,
A conductive adhesive is thinly squeezed on a glass flat plate (which may be the same as the previous flat plate) in advance,
Transfer is performed in which each bump 4 is pressed against and attached to this conductive adhesive. The processing up to this point is the processing for the first bare chip 2a.

On the other hand, the printed board 1 on which the first bare chip 2a is mounted is preheated (precure) and dried in advance. And this printed circuit board 1
The first bare chip 2a adsorbed by a bonding head (not shown) is transferred to the upper part of the table.

The pads 3 of the printed board 1 and the bumps 4 of the first bare chip 2a are aligned, and pressure and heat are applied by a bonding head to flip-chip bond and mount the first bare chip 2a to the printed board 1 at the same time. It is something to do.

After the first bare chip 2a is mounted on the printed board, the die paste 6 is applied to the back surface of the first bare chip 2a to align the second bare chip 2b having no bumps.

By performing die bonding on the second bare chip, the second bare chip 2b is mounted face up on the back surface of the first bare chip 2a,
In order to electrically connect the bare chip 2b of the second bare chip 2b to the printed circuit board 1, the pad 3 ′ formed outside the mounting area of the first bare chip 2a and the second bare chip 2b are made of Au, Al.
Wire bonding is performed using the wire 5 of the above.

Then, a single thermosetting insulating adhesive (reinforcing adhesive 7a) for reinforcement is applied on the first bare chip 2a, the second bare chip 2b and the wire 5 by the potting method. The reinforcing adhesive 7a is hardened and reinforced by blowing hot air through a hot air nozzle (not shown) or the like to heat it.

By thus reinforcing the first bare chip 2a and the second bare chip 2b with the common reinforcing adhesive 7a, the step of applying the reinforcing adhesive to the first bare chip 2a can be omitted. , The manufacturing process is simplified.

Finally, a third embodiment will be described with reference to FIGS. In all of the examples so far, the bare chips are reinforced with the reinforcing adhesive to prevent corrosion due to moisture in the air, but if the adhesion strength between the pad and the printed circuit board is high, the reinforcing adhesive is not necessarily used. There is no need to use it, and there is a third embodiment as a modified example of corrosion prevention.

That is, as shown in FIG. 5, the second bare chip 2b is face-up to the first bare chip 2a.
After mounting, the frame-shaped package 9 is formed so as to surround the first bare chip 2a and the second bare chip 2b.
To place.

A lid 10 is placed on the upper surface of the package 9 with a confidentiality, the first bare chip 2a and the second bare chip 2b are accommodated, and the lid 10 and the side surface 9a of the package 9 and the printed board 1 are used. Since the sealing gas 11 such as a nitrogen gas is sealed in the enclosed space (that is, the space in which the first bare chip 2a and the second bare chip 2b are stored) to keep the confidentiality, Water will not adversely affect the bare chips in the package 9.

Next, the manufacturing process of the third embodiment will be described with reference to FIG. First, a predetermined number of stud bumps (hereinafter referred to as bumps 4) are formed on an aluminum pad (not shown) of the first bare chip 2a by a wire bonding technique using a wire of aluminum, copper, gold or the like.

Since the bumps 4 have different heights, the bumps 4 of the first bare chip 2a are pressed against a flat plate for leveling to make the heights of the bumps 4 uniform. continue,
A conductive adhesive is thinly squeezed on a glass flat plate (which may be the same as the previous flat plate) in advance,
Transfer is performed in which each bump 4 is pressed against and attached to this conductive adhesive. The processing up to this point is the processing for the first bare chip 2a.

On the other hand, the printed board 1 on which the first bare chip 2a is mounted is preheated (precure) and dried in advance. And this printed circuit board 1
The first bare chip 2a adsorbed by a bonding head (not shown) is transferred to the upper part of the table.

The pads 3 of the printed circuit board 1 and the bumps 4 of the first bare chip 2a are aligned, and the bonding and mounting of the first bare chip 2a on the printed circuit board 1 are performed simultaneously by applying pressure and heating by the bonding head. It is something to do.

After the first bare chip 2a is mounted on the printed board, the die paste 6 is applied to the back surface of the first bare chip 2a to align the second bare chip 2b having no bumps.

By performing die bonding on the second bare chip, the second bare chip 2b is mounted face-up on the back surface of the first bare chip 2a,
In order to electrically connect the bare chip 2b of the second bare chip 2b to the printed circuit board 1, the pad 3 ′ formed outside the mounting area of the first bare chip 2a and the second bare chip 2b are made of Au, Al.
Wire bonding is performed using the wire 5 of the above.

An adhesive 12 for fixing the package 9 is applied to the periphery where the first bare chip 2a and the second bare chip 2b are mounted. The frame-shaped package 9 is aligned and mounted on the adhesive 12.

With the lid 9 of the package 9 removed, a sealing gas 11 such as a nitrogen gas is injected and the gas 1
After the insertion of No. 1 is completed, the notch 9b of the package 9 and the end 10a of the lid 10 are engaged with each other, and an adhesive or the like is preferably applied to the gap between them so that the outside air is exposed to the outside air. 1 bare chip 2a and 2nd bare chip 2b
Do not mix in the space where is stored.

[0043]

As described above, according to the present invention, two types of bare chips having different mounting forms are mounted face-up with a double layer structure, so that the mounting density per unit area can be improved. It is possible to realize the downsizing and high density of the device.

[Brief description of drawings]

FIG. 1 is a diagram showing a first embodiment of the present invention.

FIG. 2 is a diagram showing a manufacturing process of the first embodiment.

FIG. 3 is a diagram showing a second embodiment of the present invention.

FIG. 4 is a diagram showing a manufacturing process of the second embodiment.

FIG. 5 is a diagram showing a third embodiment of the present invention.

FIG. 6 is a diagram showing a manufacturing process of the third embodiment.

FIG. 7 is a diagram showing a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 printed circuit board, 1a ceramic printed circuit board, 2a 1st bare chip, 2b 2nd bare chip, 3,3 'pad, 4 bump, 5 wire, 6 die paste, 7 1st reinforcing adhesive, 8 2nd Reinforcing adhesive, 9 package, 10 lid, 11 sealing gas,

Claims (3)

[Claims] 1. A first bare chip (2a) mounted on a printed circuit board (1) by a bump (4), and a first reinforcing adhesive (7) for adhering the first bare chip (2a). , A die paste (6) applied to the back surface of the first bare chip (2a), and a second bare chip mounted on the back surface of the first bare chip (2a) applied with the die paste (6) (2b)
A wire (5) for joining the second bare chip (2b) and the printed circuit board (1), and a second reinforcing adhesive (8) for joining the second bare chip (2b). A semiconductor mounting structure comprising: 2. When the printed circuit board (1) is made of ceramic, the first reinforcing adhesive (7a) is used as the first adhesive.
Bare chip (2a) and the second bare chip (2a)
The semiconductor mounting structure according to claim 1, wherein b) is adhered. 3. A first bare chip (2a) mounted on a printed circuit board (1) by bumps (4), and a die paste (6) applied to the back surface of the first bare chip (2a), A second bare chip (2b) mounted on the back surface of the first bare chip (2a) coated with the die paste (6)
A wire (5) for joining the second bare chip (2b) and the printed circuit board (1), the first bare chip (2a) and the second bare chip (2)
a package (9) surrounding (b), and a sealing gas (11) enclosed in the package (9)
A semiconductor mounting structure comprising: