KR100649878B1 - Semiconductor package - Google Patents

Abstract

According to the present invention, in the semiconductor package to which the heat sink is applied, the grounding of the semiconductor chip is directly bonded to the heat sink by wire, but the solder balls for grounding are directly fused to the heat sink, or the ground ends are formed at the edges and sides of the heat sink. The present invention relates to a semiconductor package having a structure that is integrally formed to be attached to a ground region of a motherboard.

Thus, by eliminating the process of processing a separate via hole on the circuit film and the process of filling the conductive material in the via hole in the related art, it is possible to reduce costs and improve the workability.

Heat Sink, Grounding, Semiconductor Package, Grounding, Solder Ball, Motherboard

Description

Semiconductor Package {Semiconductor package}             

1 is a cross-sectional view showing an embodiment of a semiconductor package according to the present invention;

FIG. 2 is a cross-sectional view illustrating a semiconductor package in which the grounding structure of FIG. 1 is applied to a motherboard; FIG.

3 is a plan view illustrating a heat sink applied to the grounding structure of the semiconductor package of FIG. 1;

4 is a cross-sectional view showing another embodiment of a semiconductor package according to the present invention;

5 is a cross-sectional view illustrating a semiconductor package to which a ground structure of FIG. 4 is applied to a motherboard;

6 is a plan view illustrating a heat sink applied to the grounding structure of the semiconductor package of FIG. 4;

7 is a cross-sectional view illustrating a process of singulating a semiconductor package of FIG. 4;

8 is a cross-sectional view showing a grounding structure of a conventional semiconductor package.

<Explanation of symbols for main parts of the drawings>

10: heatsink 12: silver plated groove

14: ground terminal 16: motherboard                 

18: circuit film 20: semiconductor chip

22: bonding means 24: wire

26: coating material 28: resin film

30: conductive pattern 32: solder ball

34: chip mounting groove 36: cover coat

100: semiconductor package

The present invention relates to a semiconductor package, wherein in a semiconductor package to which a heat sink is applied, the grounding of the semiconductor chip is directly bonded to the heat sink with a wire, but a grounding solder ball is directly attached to the heat sink, The present invention relates to a semiconductor package having a structure in which a ground end is integrally formed at a corner and a side thereof so as to be attached to a ground region of a motherboard.

In general, the purpose of the grounding (grounding) is to reduce the electrical noise, to protect the electrical circuits and devices by blocking or discharging the overcurrent induced by the electrical / electronic device.

Therefore, the grounding of the semiconductor chip inside the semiconductor package is also essential because electrical signals such as power and signal exchange are continuously inputted and outputted. In particular, the grounding is improved to improve the electrical performance of the semiconductor chip. It is desirable to treat it somewhere.

Usually, the grounding of a semiconductor chip is performed by bonding wires to various members such as a lead frame, a printed circuit board, and a circuit film for manufacturing a semiconductor package, and a plurality of areas for grounding are set in advance from the design time. Here, the ground bonding is carried out.

On the other hand, in the case of a semiconductor package using a heat sink made of the same material, the heat sink is subjected to the grounding, and silver plating is performed on the predetermined grounding region.

Herein, the semiconductor package using the heat sink and the grounding structure will be described with reference to FIG. 8.

A heat sink 10 of the same material having a predetermined size and thickness and having a chip attaching groove 34 formed in the center of the upper surface by etching; A circuit film 18 attached to the surface of the heat sink 10 except for the chip attaching groove 34 by an adhesive means 22; A semiconductor chip 20 attached to the chip attaching groove 34 of the heat sink 10 by an adhesive means 22; A wire 24 connected between the bonding pad of the semiconductor chip 20 and the conductive pattern for wire bonding of the circuit film 18; A coating material 26 encapsulating the semiconductor chip 20, the wire 24, and a conductive pattern for wire bonding; Consists of a conductive solder ball 32 fused to the conductive pattern for attaching the lead terminal of the circuit film 18.

At this time, the circuit film 18 includes a resin film 28 which is an insulator as a base layer; A conductive pattern 30 etched on the resin film 28; The conductive pattern 30 is composed of a cover coat 36 coated on the resin film 28 while exposing a conductive pattern for wire bonding and a lead terminal attachment.

In particular, a silver plating part 38 serving as a grounding area is formed on an upper surface of the heat sink 10 adjacent to the chip attaching groove 34, so that the grounding bonding pad and the silver plating part 38 of the semiconductor chip 20 are formed. The bonding is performed by bonding the wires 24 with each other.

In addition, some of the solder balls 32 are used for grounding that is fused to the ground area of the motherboard, and grounding is performed when the grounding solder balls 40 and the heat sink are in contact with each other.

Accordingly, the via hole 42 is formed by exposing the heat sink 10 surface to the resin film layer of the circuit film corresponding to the position where the grounding solder ball 40 is fused, and the conductive material is formed in the via hole 42. By filling the 44, the grounding solder ball 40 and the heat sink surface 10 are electrically connected by the conductive material 44 filled in the via hole 42.

In this case, the silver plating part 38 is formed on the surface of the heat sink 10 exposed through the via hole 42 and in contact with the conductive material 44.

Accordingly, the grounding signal of the semiconductor chip 20 is filled with the wire 24, the silver plated portion 38 of the heat sink 10, the body of the heat sink 10, and the conductive material filled in the via hole 42. The semiconductor chip 20 is grounded by touching 44 and the grounding solder ball 40 in order, and then reaching the ground region of the motherboard 16 to which the solder ball 40 is fused.

However, the grounding structure of the semiconductor package using the heat sink as described above has the following problems.

First, after the silver plated portion is formed on the heat sink in advance, when the circuit film is attached to the heat sink with adhesive means, it is difficult to exactly match the via hole of the silver plated portion and the circuit film up and down, resulting in a defect.

Secondly, there is a disadvantage in that a process of filling a conductive material in the via hole takes place, and thus a cost is consumed.

Third, the drilling operation for forming a via hole in the circuit film to match the silver plated part has a very difficult disadvantage because the via hole is a very fine diameter.

Therefore, in view of the above, the present invention allows the grounding solder ball to be directly fused to the heat sink, or bent the corner portion of the heat sink to be attached to the grounding area of the motherboard. The purpose of the present invention is to provide a semiconductor package that can reduce work costs and improve workability by eliminating the process of processing a separate via hole and a process of filling a conductive material in the via hole.

The present invention for achieving the above object is:

A heat sink having a chip attaching groove formed at the center of the upper surface thereof; A circuit film attached to the surface of the heat sink except for the chip attaching groove by adhesive means; A semiconductor chip attached to the chip attaching groove of the heat sink by an adhesive means; A wire connected between the bonding pad of the semiconductor chip and the conductive pattern for wire bonding of the circuit film; A coating material encapsulating the semiconductor chip, the wire, and the conductive pattern for wire bonding; In the semiconductor package consisting of a conductive solder ball fused to the conductive pattern for attaching the lead terminal of the circuit film, a plurality of conductive metal plated on the upper surface of the extended heat sink extending outwardly the edge portion of the heat sink The grooves are processed, and the grounding solder balls are directly fused to the grooves.

The conductive metal is preferably silver.

In a preferred embodiment, instead of the grounding solder ball, a plurality of ground ends, which are double bent upwards, are integrally formed at edges and sides of the heat sink.

Thus, the grounding of the semiconductor package is made of the grounding solder ball and the ground end is attached to the ground region of the motherboard.

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

3 is a cross-sectional view showing a heat sink applied to the present invention, the heat sink 10 is a plurality of heat sinks are connected to the frame 46 in a strip unit, each corner portion is connected to the frame 46 In the center surface, grooves 34 for attaching semiconductor chips are formed by etching.

In particular, a plurality of grooves 12 are processed on the edge surface of the heat sink 10. The surface of the grooves 12 is preferably plated with a conductive metal, but using a silver having excellent conductivity.

At this time, it is preferable that the groove 12 is processed by using an etching or stamping method.

Here, the semiconductor package manufactured using the heat sink having the above-described structure will be described with reference to FIG. 1.

First, the chip attaching groove 34 attaches the circuit film 18 to the heat sink 10 of the same material formed by the etching process with the adhesive means 22, and the chip attaching groove 34 and silver plated. Except the edge surface where the groove 12 is formed is attached.

Next, the semiconductor chip 20 is attached to the chip attaching groove 34 of the heat sink 10 by the adhesive means 22, and the bonding pad of the semiconductor chip 20 and the wire of the circuit film 18 are attached thereto. The wire 24 used for power and signal exchange is connected between the conductive patterns for bonding.

In addition, a silver plating part 38 serving as a grounding area is formed on an upper surface of the heat sink 10 adjacent to the chip attaching groove 34. The bonding pad for grounding the semiconductor chip 20 and the heat sink ( The silver plating part 38 of 10) is connected to the ground wire 24.

Next, the step of encapsulating the semiconductor chip 20, the wire 24, and the conductive pattern for wire bonding with the coating material 26 is performed.

Finally, the step of fusing the conductive solder ball 32 to the conductive pattern for attaching the lead terminal of the circuit film 18 is carried out, and the grounding solder ball 40 is directly applied to the silver plated groove 12 on the heat sink. Fused.

At this time, the grounding solder ball 40 fused to the silver-plated groove 12 is fused to larger than the size of the solder ball fused to the conductive pattern for attaching the lead terminal of the circuit film 18, the thickness of the circuit film 18 As large as possible, the upper end is parallel to the maximum height of the other solder balls (32).

When the semiconductor package 100 manufactured as described above is mounted on the motherboard 16, the grounding solder ball 40 is attached to the ground region of the motherboard 16 as shown in FIG. 2. .

Accordingly, the grounding signal of the semiconductor chip 20 is the grounding wire 24, the silver plating part 38 of the heat sink 10, the body of the heat sink 10, and the silver plated groove 12. Then, the grounding process is performed in the ground area of the motherboard 16 to which the grounding solder ball 40 is fused through the grounding solder ball 40.

Hereinafter, another embodiment of the semiconductor package according to the present invention will be described with reference to FIGS. 4 to 6.

6 is a diagram showing a heat sink of another structure applied to the present invention, wherein the heat sink 10 is a plurality of heat sinks connected to the frame in units of strips, each of which has a predetermined length at each corner and side. The ground end 14 having a structure is integrally formed and connected to the frame 46, and a groove 34 for attaching the semiconductor chip is formed in the center surface thereof.

Here, the semiconductor package manufactured by using another heat sink having the above-described structure will be described with reference to FIG. 4.

First, the chip attaching groove 34 attaches the circuit film 18 to the same heat sink 10 formed by etching, and attaches the chip 34 to the chip attaching groove 34 of the heat sink 10. The semiconductor chip 20 is attached to the wire 22, and a wire 24 used for power and signal exchange is connected between the bonding pad of the semiconductor chip 20 and the conductive pattern for wire bonding of the circuit film 18. Proceed with the bonding step.

Of course, the ground wire 24 is also connected between the silver plating portion 38 formed on the upper surface of the heat sink 10 adjacent to the chip attaching groove 34 and the grounding bonding pad of the semiconductor chip.

Next, the step of encapsulating the semiconductor chip 20, the wire 24, the conductive pattern for wire bonding, etc. with the coating material 26, and then the conductive material for attaching the lead terminal of the circuit film 18 A conductive solder ball 32 is fused to the pattern.

Finally, a process of singulating the semiconductor package manufactured as described above is carried out, and as shown in FIG. 7, the double end of the ground end 14 is bent upwards, and the end of the semiconductor package is punched. By cutting to 48, the semiconductor package 200 having the structure as shown in FIG.

Meanwhile, when the semiconductor package 200 manufactured as described above is mounted on the motherboard 16, the ground end 14 of the heat sink 10 is attached to the motherboard 16 as shown in FIG. 5. It is attached to the ground area of.

Accordingly, the grounding signal of the semiconductor chip 20 is connected to the grounding wire 24, the silver plating part 38 of the heat sink 10, the body of the heat sink 10, and the ground end 14. Then, the grounding process is performed in the ground area of the motherboard 16 to which the ground end 14 is attached.

As described above, according to the ground structure of the semiconductor package according to the present invention, the grounding solder ball is directly fused on the heat sink, or the motherboard is formed by integrally forming a ground end bent upward at the corners and sides of the heat sink. It is possible to reduce the cost by eliminating the process of forming a separate via hole on the circuit film and the process of filling the conductive material in the via hole in the ground structure of the semiconductor package including the heat sink. Will be provided.

Claims (3)

A heat sink having a chip attaching groove formed at the center of the upper surface thereof; A circuit film attached to the surface of the heat sink except for the chip attaching groove by adhesive means; A semiconductor chip attached to the chip attaching groove of the heat sink by an adhesive means; A wire connected between the bonding pad of the semiconductor chip and the conductive pattern for wire bonding of the circuit film; A coating material encapsulating the semiconductor chip, the wire, and the conductive pattern for wire bonding; In the semiconductor package consisting of a conductive solder ball fused to the conductive pattern for attaching the lead terminal of the circuit film, And extending the edge portion of the heat sink outward, processing a plurality of grooves plated with a conductive metal on the upper surface of the extended heat sink, and directly welding grounding solder balls to the grooves. The grounding structure of a semiconductor package according to claim 1, wherein the conductive metal is silver (Ag). A heat sink having a chip attaching groove formed at the center of the upper surface thereof; A circuit film attached to the surface of the heat sink except for the chip attaching groove by adhesive means; A semiconductor chip attached to the chip portion wearing groove of the heat sink by adhesive means; A wire connected between the bonding pad of the semiconductor chip and the conductive pattern for wire bonding of the circuit film; A coating material encapsulating the semiconductor chip, the wire, and the conductive pattern for wire bonding; In the semiconductor package consisting of a conductive solder ball fused to the conductive pattern for attaching the lead terminal of the circuit film, The semiconductor package according to claim 1, wherein a plurality of ground ends, which are double bent upwards, are integrally formed at edges and sides of the heat sink.

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