JPS62242343A - Manufacture of semiconductor chip carrier - Google Patents

Abstract

PURPOSE:To contrive not to damage wire-bonding parts without contaminating a recessed part for mounting a semiconductor chip due to plating by a method wherein an interal layer material having the recessed part for mounting is formed, places corresponding to the wirebonding parts in the recessed part for mounting of the internal layer material on the back surface side of an insulating substrate for an external layer are coated with a soft material, the insulating substrate for an external layer is laminated on the surface of the internal layer material and a multilayer is formed. CONSTITUTION:Plural sheets of insulating substrates 1 for an interanl layer with an internal layer circuit formed thereon are laminated and an internal layer material 4 having a recessed part 3 for mounting a semiconductor chip 2 is formed on the surface side of the laminated material. Then, places 5b corresponding to wire-bonding parts 9 in the recessed part 3 for mounting of the internal layer material 4 on the back surface side of an insulating substrate 5 for an external layer, which is used as an outermost layer, are coated with a soft material 6 like an adhesive tape, this insulating substrate 5 for an external layer is laminated on the surface of the internal layer material 4 and a multilayer is formed. After this, processings for opening holes 13, through hole plating and the formation of an external layer are performed in order to form a multilayer printed interconnection board 7. Then, a part 5a, which corresponds to the recessed part 3 for mounting of the internal layer material 4, of the insulating substrate 5 for an external layer is cut from the surface side of the outermost layer to expose the recessed part 3 for mounting and after this, the semiconductor chip 2 is mounted on the recessed part 3 for mounting.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to a method of manufacturing a semiconductor chip carrier such as a bin grid array (PG^) or a leadless chip carrier (LCC).

[Background Art 1 Conventionally, semiconductor chips have been mounted using printed wiring boards as chip carriers. In this case, the multilayer printed wiring board includes a plurality of inner layer insulating substrates 1 on which inner layer circuits are formed on the surface and recesses 3a to through holes 3b for forming mounting recesses 3, as shown in Figure pIIJ3. An inner layer material 4 and an outer layer insulating substrate 5 having through holes 3c for forming recesses for mounting are multilayer-molded with a bonding sheet layer 8 such as an adhesive, an adhesive sheet, or a low flow prepreg interposed therebetween. A multilayer printed wiring board 7' is manufactured in which mounting recesses 3 are formed on the surface side by processing, through-hole plating, outer layer etching, etc., but a plating layer is also formed in the mounting recesses 3. However, when mounting a semiconductor chip with contamination from this plating layer,
There was a problem in that the plating layer had to be removed.

Therefore, as shown in FIG. 714, an inner layer circuit is formed on the surface, and a plurality of inner layer insulating substrates 1 are laminated with a bonding sheet layer 8 interposed therebetween, and a mounting recess 3 is formed on the surface side. Next, an insulating substrate 5 for the outer layer is laminated on the surface of the inner layer material 4, and after this, the holes 13 are processed, through-hole plating is performed, and the outer layer is formed. Location 5 corresponding to the mounting recess 3 of No. 5
We have developed a method for mounting semiconductor chips on a multilayer printed wiring board 7'' formed by cutting a to expose mounting recesses 3. Although this method does not cause the mounting recesses 3 to be contaminated by plating, When cutting the outer layer insulating substrate 5, the wire bonding portion 9 of the inner layer material 4 may be damaged.

[Objective of the Invention 1 The present invention has been made in consideration of the above circumstances, and its object is to prevent the mounting recess from being contaminated outside the eye when forming the outermost layer circuit pattern, To provide a method for manufacturing a semiconductor chip carrier in which a wire bonding part of an inner layer material is not damaged.

[Disclosure of the Invention] The method for manufacturing a semiconductor chip carrier of the present invention includes laminating a plurality of inner layer insulating substrates 1 on which inner layer circuits are formed, and forming an inner layer material 4 having a recess 3 for mounting a semiconductor chip 2 on the front surface side. , and then a wire bonding portion 9 in the mounting recess 3 of the inner layer material 4 on the back side of the outer layer insulating substrate 5 which is the outermost layer.
A soft material 6 such as an adhesive tape is coated on a dark area 5b corresponding to the inner layer material 4, and this outer layer insulating substrate 5 is laminated on the surface of the inner layer material 4 to perform multilayer molding. A multilayer printed wiring board 7 is formed by plating and forming an outer layer, and then a portion 5a corresponding to the mounting recess 3 of the inner layer material 4 of the outer layer insulating base material 5 is cut from the surface side of the outermost layer to form a mounting recess. 3 is exposed, and then the semiconductor chip 2 is mounted in the mounting recess 3. With this configuration, the above object can be achieved.

The present invention will now be described with reference to the accompanying drawings.

The multilayer printed wiring board 7 is manufactured by a well-known mass lamination method or pin lamination method. This example is a three-layer printed wiring board. The inner layer insulating substrate 1 is made by sequentially drilling holes in a metal foil-covered laminate such as a paper phenol resin laminate or a paper epoxy resin laminate covered with a metal foil such as copper foil.
Inner layer circuits are formed on the surface through conventional processes such as electroless plating, pattern formation, pattern plating, resist plating, resist removal, etching, external finishing, and symbol mark printing. Before forming the inner layer circuit, first, a recess 3a and a through hole 3b for forming a recess for mounting are respectively formed in the two inner layer insulating substrates 1a and 1b by mechanical cutting. Next, these two inner layer insulating substrates 1a, 1
The inner layer material 4 having a concave portion 3 for mounting the semiconductor chip 2 on the front side is formed by heating and pressurizing and laminating the materials b through an adhesive, an adhesive sheet, or a bonding sheet layer 8 such as a loaf 0-prereg. - Competence The outer layer insulating substrate 5, which will be the outer layer, is something like a copper foil prepreg, and on the back side of the outer layer insulating substrate 5, the portion 5b corresponding to the wire bonding part 9 on the front side of the mounting recess 3 is attached with adhesive. It is covered with a soft material 6 that is tape. Next, the outer layer insulating substrate 5 is heated and pressed onto the surface of the inner layer material 4 via the bonding sheet layer 8 to form a multilayer structure. The multilayer printed wiring board 7 is formed by processing the rear holes 13, performing a through-hole process of plating the through-holes, and then performing an outer layer forming process such as outer layer etching. Thereafter, a portion 5a corresponding to the mounting recess 3 of the inner layer material 4 of the outer layer insulating base material 5 is cut off from the surface side of the outermost layer by mechanical cutting to expose the mounting recess 3. In this case, for example, during spot boring with a drill, the resistance of the outer layer insulating substrate 5 and the soft material 6 to the drill is quite different, so by sensing this resistance difference, the spot boring can be performed without damaging the wire bonding part 9. It can be performed. After this, the soft material 6 is peeled off and removed. If any remains, dissolve and remove with chemicals. The semiconductor chip 2 is mounted in the mounting recess 3, and the wire 10 is mounted in the wire bonding part 9.
The package is then electrically connected to the inner layer circuit by bonding, and then sealed with epoxy resin or covered with a ceramic cover for insulation, completing the packaging and putting it into practical use. Note that this semiconductor chip carrier A has through holes 11 as shown in Figure fJS2.
It can be used as a bin grid array by holding the terminal bins 12, and as a leadless chip carrier by allowing the through holes 11 to function as connection holes.

[Effect of the invention 1 In the present invention, an inner layer material having a recess for mounting a semiconductor chip is formed, and then a wire bonding portion in the recess for mounting of the inner layer material is formed on the back side of an outer layer insulating substrate which is the outermost layer. A soft material such as adhesive tape is applied to the corresponding area,
This insulating substrate for the outer layer is laminated on the surface of the inner layer material to perform multilayer molding, and after that, the multilayer printed wiring board is formed by sequentially processing, through-hole plating, and forming the outer layer, so when forming the circuit pattern on the outermost layer, , the large mounting concave part is protected by the outermost insulating substrate for the outer layer and is not contaminated by plating, and it is possible to mount the inner layer material of the outer insulating substrate from the surface side of the outermost layer of the multilayer printed wiring board. The part corresponding to the recess is cut to expose the recess for mounting, and then the semiconductor chip is mounted in the recess for mounting, so the wire bonding part is protected by a soft material during the cutting process and is not damaged. Electrical connection between the inner layer material and the inner layer circuit can be ensured.

[Brief explanation of drawings]

Fig. 1 is a sectional view showing the process of an embodiment of the present invention, Fig. 2 is a sectional view showing mounting of a semiconductor chip on the same, Fig. 3 is a sectional view showing the conventional example, and Fig. 4 is a sectional view showing the process of the present invention. 1 is a cross-sectional view showing a method developed in the process of completing a semiconductor chip carrier, 1 is an insulating substrate for an inner layer, 2 is a semiconductor chip, 3 is a recess for mounting, 4 is an inner layer material, and 5 is an insulating layer for an outer layer. The board includes a soft material 6, a multilayer printed wiring board 7, and a hole 13.

Claims (1)

[Claims] (1) A plurality of inner layer insulating substrates on which inner layer circuits are formed are laminated to form an inner layer material having a recess for mounting a semiconductor chip on the front side, and then an inner layer material is formed on the back side of the outermost layer insulating substrate, which is the outermost layer. The part corresponding to the wire bonding part in the mounting recess of the inner layer material is covered with a soft material such as adhesive tape, and this insulating substrate for the outer layer is laminated on the surface of the inner layer material to perform multilayer molding. After this, holes are sequentially drilled. Processing, through-hole plating, and outer layer formation are performed to form a multilayer printed wiring board. Next, from the surface side of the outermost layer, a portion of the insulating base material for the outer layer corresponding to the mounting recess of the inner layer material is cut to form a mounting recess. A method for manufacturing a semiconductor chip carrier, comprising exposing the semiconductor chip and then mounting the semiconductor chip in a mounting recess.