JPH04162656A - Semiconductor integrated circuit device and packaging structure thereof - Google Patents

Abstract

PURPOSE:To enable an LSI package to be packaged highly densely by providing a package main body where a semiconductor chip is sealed or a penetration hole at a lead which is extended outward from the package body, and at the same time by providing a lead pin on a packaged substrate and inserting a lead pin into a penetration hole. CONSTITUTION:A number of penetration holes 8 which penetrate through upper and lower surfaces of a package body 2 are formed at a specified interval on a peripheral part of the package body 2 and the position of the penetration holes 8 and their intervals correspond to the position of leads 5 and their intervals. Also, a number of through-holes 10 which penetrate through the upper and lower surfaces are formed at a substrate 9 with a specified interval. Further, a lead pin 11 is vertically inserted for a main surface of the substrate 9 within each through-hole 10, the lead pin 11 consists of for example 42 alloy or Fe alloy such as copal and is fixed to the through-hole 10 by solder, etc., thus achieving a multiple-stage packaging of an LSI package and enabling packaging density to be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a semiconductor integrated circuit device, and particularly to a technique that is effective when applied to high-density packaging of LSI packages.

[Conventional technology]

One of the methods for mounting LSI packages on a board with high density is a multi-stage mounting method in which a plurality of LSI packages are stacked and mounted in a direction perpendicular to the board. Conventionally, DI
P (Dual In-1ine Package),
SOJ (Small 0utline Packag
e) , T A B (Tape Automated
Although various multi-stage mounting structures using TAB have been proposed, the multi-stage mounting structure using TAB, which is advantageous for thinning, is attracting particular attention. For example, Nikkei BP, 1
[Nikkei Microdevice] P published December 1, 989
48 shows an SRA as an example of a TAB multi-stage mounting structure.
A memory card module is described by stacking four TABs equipped with M chips.

[Problem to be solved by the invention]

However, according to the inventor's study, the multi-stage mounting structure using TAB has the following problems.

In other words, since the leads of TAB are made of extremely thin Cu foil of about 35 μm, there are problems such as deformation of the leads during the process of laminating the TAB, which requires careful handling during the assembly process. . Further, there are also problems in terms of productivity, such as the need for a step of punching out the outer leads from the TAB tape.

The present invention has been made in view of the above-mentioned problems, and its purpose is to provide a technique for packaging LSI packages with high density.

The above and other objects and novel features of the present invention will become apparent from the description of this specification and the accompanying drawings.

[Means to solve the problem]

A brief overview of typical inventions disclosed in this application is as follows.

One invention of the present application provides a semiconductor integrated circuit in which a through hole is provided in a package body in which a semiconductor chip is sealed or a lead extending outward from the package body, and a lead pin provided upright on a substrate is inserted into the through hole. This is the mounting structure of the device.

[Effect]

According to the above-mentioned means, it is possible to mount LSI packages in multiple stages by standing them up on the substrate or inserting the vias into the through holes.

〔Example〕

FIG. 1 is a partially cutaway plan view of the LSI package of this embodiment, and FIG. 2 is a perspective view of this LSI package.

The LSI package 1 is a so-called resin-sealed LSI package in which a semiconductor chip 3 is sealed within a package body 2 made of synthetic resin such as epoxy resin. The semiconductor chip 3 is bonded onto a tab (die pad) 4 using an adhesive or the like. A predetermined number of leads 5 are arranged around the tab 4, and the leads 5 and the bonding pads 6 of the semiconductor chip 3 are made of Au5Cu or A5Cu.
It is electrically connected by a wire 7 consisting of 1.

The tab 4 and lead 5 are made of Fe-based alloy such as 42 alloy or Cu. One end of the lead 5 sealed within the package body 2 is terminated without extending outward from the package body 2, and there is no so-called outer lead portion.

At the periphery of the package body 2, there is a
A large number of through holes 8 are formed at predetermined intervals, penetrating the upper and lower surfaces of. The positions of the through holes 8 and the intervals therebetween correspond to the positions of the leads 5 and the intervals therebetween. That is, since each through hole 8 is opened so as to pass through the corresponding lead 5, the cross section of the lead 5 is exposed on the inner wall of the through hole 8.

FIG. 3 is a sectional view of a substrate used for mounting the LSI package 1. As shown in FIG.

A large number of through holes 10 are formed at predetermined intervals in a substrate 9 made of a synthetic resin such as a glass cloth base epoxy resin (Glaevo), which penetrates the upper and lower surfaces thereof. The inside of the through hole 10 is plated with Cu or the like. The positions of the through holes 10 and their spacing correspond to the positions of the through holes 8 of the LSI package 1 and their spacing. Each through hole
Inside O, a further bottle 11 is inserted perpendicularly to the main surface of the base @9. The lead pin 11 is made of an Fe-based alloy such as 4270I or Kovar, and is fixed to the through hole 10 with solder or the like. The diameter of the lead pin 11 is slightly smaller than the inner diameter of the through hole 8 of the LSI package 10.

FIG. 4 shows an example in which the LSI packages 1 are mounted on a board 9 in multiple stages to form a module. In order to mount the LSI packages l on the board 9 in multiple stages, the first LS
The through hole 8 of the I package 1 is inserted into the lead pin 11 of the substrate 9, and the through hole 8 and the lead pin If are fixed with solder, adhesive, or the like. Since the cross section of the lead 5 is exposed on the inner wall of the through hole 8, the lead pin 11 of the substrate 9 and the lead 5 of the LSI package 1 are electrically connected by the above operation. Note that by plating the inner wall of the through hole 8, the contact area between the lead pin 11 and the layer 5 is increased, so that connection reliability is improved.

Next, the through holes 8 of the second LSI package 1 are inserted into the lead pins 11 of the substrate 9, and the through holes 8 and the lead pins 11 are fixed. At this time, an appropriate gap is provided between the two LSI packages 1, 1 in consideration of heat radiation. In this way, the lead pins 11 are sequentially inserted into the desired number of LSI packages 1, and the lead pins 1 are connected to the through holes 7 using the method described above.
By fixing the LSI package l to the board 9, it is possible to realize the multi-stage mounting shown in FIG.
can be mounted at high density. In addition, in this example, L
Since the SI package 1 does not have an outer lead part, the mounting area is reduced accordingly, so the SI package 1
The packaging density of the I package 1 can be further improved.

As above, the invention made by the present inventor has been specifically explained based on Examples, but it should be noted that the present invention is not limited to the Examples and can be modified in various ways without departing from the gist thereof. Not even.

In the above embodiments, the package body is provided with a through hole, or
For example, as shown in FIG. 5, a lead 5 may be extended outside the package body 2, and a through hole 8 may be provided therein.

〔Effect of the invention〕

A brief explanation of the effects obtained by typical inventions disclosed in this application is as follows.

Multi-stage mounting of LSI packages can be achieved by providing through holes in the package body in which the semiconductor chip is sealed or in the reed extending outward from the package body, and inserting lead pins set up on the substrate into the through holes. This makes it possible to improve the packaging density.

[Brief explanation of drawings]

FIG. 1 is a partially cutaway plan view of a semiconductor integrated circuit device that is an embodiment of the present invention, FIG. 2 is a perspective view of this semiconductor integrated circuit device, and FIG. 3 is a diagram showing the mounting of this semiconductor integrated circuit device. FIG. 4 is a diagram showing the mounting structure of this semiconductor integrated circuit device, and FIG. 5 is a partially cutaway plan view of a semiconductor integrated circuit device according to another embodiment of the present invention. 1...LSI package, 2...package body,
3... Semiconductor chip, 4... Tab, 5... Lead, 6... Bonding pad, 7... Wire, 8...
...Through hole, 9... Board, 10... Through hole,
11...Lead pin.

Claims (1)

[Scope of Claims] 1. A semiconductor integrated circuit device characterized in that a through hole is provided in a package body in which a semiconductor chip is sealed or in a lead extending outward from the package body. 2. The semiconductor integrated circuit device according to claim 1, wherein one end of the lead sealed in the package body is terminated without extending outward from the package body. 3. A mounting structure for a semiconductor integrated circuit device, characterized in that lead pins are provided upright on the substrate on which the semiconductor integrated circuit device according to claim 1 or 2 is mounted, and the lead pins are inserted into the through holes.