JP2007150372A - Semiconductor device and method of manufacturing same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a semiconductor device which can be manufactured at relatively low cost. <P>SOLUTION: A semiconductor element 11 is disposed in the center. A conductive terminal 14 having an upper surface side which acts as a wire bonding portion 12 and having a lower surface side which acts as an external connection terminal portion 13 is disposed in an area array around the semiconductor element 11. The wire bonding portion 12 is electrically connected to a corresponding electrode pad 15 on the semiconductor element 11 by a bonding wire 16. The semiconductor element 11, the bonding wire 16, and the upper half of the conductive terminal 14 are resin-sealed by a seal resin 18. <P>COPYRIGHT: (C)2007,JPO&amp;INPIT

Description

The present invention relates to a CSP (chip size package) semiconductor device, and more particularly to a semiconductor device in which an external connection terminal portion protrudes toward the bottom surface side of a sealing resin.

From the demand for miniaturization of semiconductor devices, tape CSP type semiconductor devices using polyimide resin tape and solder balls, and BCC (bump chip carrier) type semiconductor devices using base metal are known.

However, in the tape CSP type semiconductor device, there is a problem that the polyimide resin tape is expensive and is not suitable for strip conveyance due to its softness.
Further, in the BCC type semiconductor device, when the base metal is removed by etching, it becomes a solid piece, so that there is a problem that it is necessary to fix the mold surface with an adhesive tape and the cost is increased.
The present invention has been made in view of such circumstances, and an object thereof is to provide a semiconductor device that can be manufactured at a relatively low cost.

In the semiconductor device according to the present invention that meets the above-mentioned object, a semiconductor element is arranged at the center, an area array is formed around the semiconductor element, and a conductor terminal having an upper surface side as a wire bonding portion and a lower surface side as an external connection terminal portion is disposed The wire bonding portion and each electrode pad of the semiconductor element are electrically connected by a bonding wire, and the semiconductor element, the bonding wire, and the upper half of the conductor terminal are resin-sealed with a sealing resin.

In the semiconductor device according to the present invention, it is preferable that an outer frame made of a conductor is provided outside the conductor terminal, and the upper half of the outer frame is sealed with a sealing resin.
In the semiconductor device according to the present invention, it is more preferable that a conductive adhesive is applied to the bottom surface side of the semiconductor element.

In the semiconductor device of Claims 1-3, a semiconductor device can be manufactured, without using a polyimide resin tape or an adhesive tape like the past. Therefore, it is possible to manufacture the semiconductor device at a relatively low cost while avoiding problems in manufacturing the semiconductor device due to the use of the polyimide resin tape or the adhesive tape.
Further, in this semiconductor device, since the external connection terminal portions are arranged in an area array shape, it is easy to join with another substrate.

Next, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention.
1 is a manufacturing process diagram of a semiconductor device manufacturing method according to an embodiment of the present invention, FIGS. 2A and 2B are explanatory diagrams of the semiconductor device manufactured by the same method, and FIG. FIG. 6 is a cross-sectional view showing a usage state of the semiconductor device manufactured by the same method.

As shown in FIGS. 1 to 3, a semiconductor device 10 according to an embodiment of the present invention includes a semiconductor element 11 in the center, an area array (see FIG. 2) in the periphery, and an upper surface side (front surface side). Is a wire bonding portion 12 and a conductor terminal 14 having a lower surface side (back surface side) serving as an external connection terminal portion 13 is disposed. The wire bonding portion 12 and each electrode pad 15 of the semiconductor element 11 are electrically connected by a bonding wire 16. The upper half of the semiconductor element 11, the bonding wire 16, and the conductor terminal 14 including the outer frame 17 made of the surrounding conductor is sealed with a sealing resin 18. The external connection terminal portion 13 is provided with a plating with good solder wettability at the bottom, and by melting the cream solder provided on the other substrate 19, as shown in FIG. A connection is being made.
A conductive adhesive 20 is applied to the bottom surface side of the semiconductor element 11, thereby promoting heat dissipation from the semiconductor element 11.

Next, a method for manufacturing the semiconductor device 10 will be described with reference to FIGS.
As shown in FIG. 1A, on the surface side of a plate-like lead frame member 21, a wire bonding portion 12 formed to surround a semiconductor element 11 to be mounted in the center, an outer frame 17 surrounding the wire bonding portion 12, and a wire Precious metal plating layers 22 and 23 are formed on the external connection terminal portion 13 formed on the back surface side corresponding to the bonding portion 12 (first step).
The noble metal plating layers 22 and 23 are formed after the front and back surfaces of the lead frame material 21 are covered with a plating-resistant photoresist film, followed by an exposure process for a portion where the noble metal plating layers 22 and 23 are formed, and the following. After the development processing is performed and the lead frame material 21 is partially exposed, a base plating layer such as nickel is first formed, and then noble metal plating is performed. Thus, bondability in the case of using copper or the like for the lead frame material 21 by forming the noble metal plating layers 22 and 23 with one kind of noble metal selected from Ag, Au, and Pd through the base plating layer. And solder wettability are maintained.

Next, as shown in FIG. 1B, after forming an etching resistant resist film 24 on the back side of the lead frame material 21, the lead is formed from the front side using the noble metal plating layer 22 formed on the front side as a resist mask. The frame material 21 is etched to a predetermined depth (half etching). Thereby, the outer frame 17 and the wire bonding part 12 can be protruded (2nd process).

Then, as shown in FIG. 1C, after the semiconductor element 11 is mounted on the surface side center of the half-etched lead frame material 21 via the adhesive 20 made of Ag / epoxy resin, The electrode pad portions 15 and the corresponding wire bonding portions 12 are connected by bonding wires 16 to form an electrical conduction circuit (third step).
Thereafter, as shown in FIG. 1D, the surface side of the lead frame material 21 including the semiconductor element 11, the bonding wire 16, and the protruding outer frame 17 is resin-sealed with a sealing resin 18 (fourth step). ).

After the above processing is completed, the etching resistant resist film 24 adhered to the back side of the lead frame material 21 is removed, but this may be performed before the assembly process. Further, as shown in FIG. 1E, etching is performed on the back surface side of the lead frame material 21 using the noble metal plating layer 23 formed on the back surface side as a resist mask to project the external connection terminal portion 13. The adjacent external connection terminal portions 13 are electrically independent (fifth step). Thereafter, the outer frame 17 is separated, and the independent semiconductor device 10 is manufactured.

In the above-described embodiment, an Ag / epoxy adhesive is used as the adhesive 20 of the semiconductor element 11. However, the present invention can be applied to other conductive adhesives or insulating adhesives. .
In the manufacturing process of a semiconductor device, the outer frame remaining on the semiconductor device needs to be substantially connected to the surrounding outer frame main body, so it is necessary to form a noble metal plating layer on the entire surface of the entire outer frame. Rather, it is preferable to form a noble metal plating layer on a part of the outer frame (that is, only the connecting part).
In the above embodiment, the etching-resistant resist film is removed by the fifth step. However, it may be performed at any time after the second step is completed and before half etching on the back side. In this case, the present invention is also applied.

It is a manufacturing-process figure of the manufacturing method of the semiconductor device which concerns on one embodiment of this invention. (A), (B) is explanatory drawing of the semiconductor device which concerns on one embodiment of this invention, respectively. It is sectional drawing which shows the use condition of the semiconductor device manufactured by the same method.

Explanation of symbols

10: Semiconductor device, 11: Semiconductor element, 12: Wire bonding part, 13: External connection terminal part, 14: Conductor terminal, 15: Electrode pad, 16: Bonding wire, 17: Outer frame, 18: Sealing resin, 19 : Other substrate, 20: Ag / epoxy adhesive, 21: lead frame material, 22, 23: noble metal plating layer, 24: etching resist film

Claims (3)

A semiconductor element is arranged in the center, and an area array around the periphery thereof, conductor terminals having an upper surface side as a wire bonding portion and a lower surface side as an external connection terminal portion are arranged, and the electrode pads of the wire bonding portion and the semiconductor element are A semiconductor device characterized in that it is electrically connected with a bonding wire, and the semiconductor element, the bonding wire and the upper half of the conductor terminal are resin-sealed with a sealing resin. 2. The semiconductor device according to claim 1, wherein an outer frame made of a conductor is provided outside the conductor terminal, and an upper half of the outer frame is resin-sealed with a sealing resin. 3. The semiconductor device according to claim 1, wherein a conductive adhesive is applied to a bottom surface side of the semiconductor element. 4.

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