JPH0249457A - Semiconductor device - Google Patents

Abstract

PURPOSE:To improve a semiconductor device in heat radiating capacity by a method wherein a package is provided with mounts and a radiating fin, which is provided with elastic sections capable of engagement with the mounts, is detachably installed. CONSTITUTION:A radiating fin 8 is constituted of a radiating section 9 and elastic sections 10. The radiating section 9 is provided with ribs 11 large in surface area, the elastic sections 10 are long and flexible, and the ends 12 of the elastic sections 10 are hook-shaped. Stepped sections 7 in a sealing resin 5 serve as mounts, and the elastic sections 10 are caused to bend before the ends 12 can engage the mounts. Heat generated by a semiconductor chip 2 is transmitted in all directions, travels through the surface of a sealing resin 5B to reach the base section 13 of the radiating section 9 of the radiating fins 8, and is radiated outward from the radiating fin 8. This design enhances the radiating capacity of the semiconductor chip 2.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a semiconductor device in which a semiconductor chip is sealed in a package made of resin or the like.

[Conventional technology]

FIG. 6 is a perspective view showing a conventional semiconductor device, and FIG. 7 is a sectional view thereof. In these figures, (1) is an island made of a metal plate, (2) is a semiconductor chip mounted on island (1), (3) is an internal lead made from the same metal plate as island (1), and (4) is a semiconductor chip mounted on island (1). ) is a thin metal wire that connects the electrode (not shown) of the semiconductor chip (2) and the internal lead (3), (5) is a sealing resin as a package that seals these (1) or 4), In Fig. 7, the shape is vertically symmetrical with respect to the line connecting the left and right internal leads (3), but the sealing resin (
5A) is slightly thicker than the sealing resin (5B) on the side without it. An external lead (6) is continuous with the internal lead (3) and is provided outside the sealing resin (5).

In such a semiconductor device, heat is generated when the semiconductor chip (2) is connected to an external circuit through the external leads (6) and operates. This heat is dissipated to the outside from the surface of the sealing resin (5) and the external leads (6). However, if the operating environment is poor and the heat dissipation efficiency is low, such as when the load conditions are severe and the amount of heat generated is large, or when other equipment or components that generate a large amount of heat are placed nearby, the temperature of the semiconductor device may rise. It may not be possible to maintain these characteristics. In such a case, it is necessary to take measures such as using a semiconductor device with heat dissipation fins, but since semiconductor devices with heat dissipation fins are large in size and expensive, it is possible to use a semiconductor device without heat dissipation fins as shown in Figure 6. Try to use the type of
Use a type with heat dissipation fins only when it is unavoidable due to thermally severe load conditions or operating environment.

[Problem to be solved by the invention]

Conventional semiconductor devices are configured as described above, so
It was necessary to prepare two types of semiconductor devices in order to use them properly, such as one without heat radiation fins if possible, and one with radiation fins when the thermal conditions during use are severe.

This invention was made to solve the above-mentioned problems, and provides a single type of semiconductor device that can be easily used for both small-sized, low-priced devices and large-sized heat dissipation devices. The purpose is to

[Means to solve the problem]

In the semiconductor device according to the present invention, a mounting portion is provided on the package, and a heat dissipation fin having an elastic portion that engages with the mounting portion can be attached.

[For production]

In the semiconductor device according to the present invention, the elastic part is engaged with the mounting part of the package to attach the radiation fin.
Heat dissipation capacity can be increased.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to the drawings. 1st
The figure is a perspective view showing a semiconductor device according to an embodiment of the present invention, and FIG. 2 is a sectional view thereof. In these figures (1
) to 4) and (6) are the same as those in the conventional example shown in FIGS. 6 and 7, so their explanation will be omitted. The semiconductor chip (2) is mounted on the lower surface of the island (1) in FIG. (5) is a sealing resin as a package for sealing (1) or 4), and is a semiconductor chip (2).
) The sealing resin (5A) on the side with no side is thicker in the downward direction than the sealing resin (5B) on the side without it in Fig. 2, and the horizontal dimension is smaller. A stepped portion (7) is provided.

Next, the operation will be explained. Heat generated in the semiconductor chip (2) during operation of the semiconductor device is dissipated to the outside from the surface of the sealing resin (5) and the external leads (6), as in the conventional example. If heat dissipation is insufficient due to severe thermal conditions, use the heat dissipation fins (8) as shown in the cross-sectional view in Figure 3.
is installed. The heat radiation fin (8) consists of a heat radiation part (9) and an elastic part (10).
■ is long and thin and can be bent, and its tip α is hook-shaped. On the other hand, the stepped portion (7) of the sealing resin (5)
A certain place becomes a mounting part, and the heat dissipation fin (8) is mounted by bending the elastic part QQI and engaging its tip 02) there. When the tip 0~ of the elastic part (lllll) is engaged with the stepped part (7), the base (
The IQ is brought into close contact with the sealing resin (5B).

Heat generated in the semiconductor chip (2) is transmitted in all directions, but since the island (1) is made of metal, it is easily transmitted to the island (1).

Although the island (1) has a larger area than the semiconductor chip (2), the sealing resin (5B) can be made thinner than the island (5A) due to the absence of the wire (4). Heat is more easily transferred upward than below. The heat transmitted here is transmitted from the surface of the sealing resin (5B) to the base 03 of the heat dissipation part (9) of the heat dissipation fin (8), further transmitted to the folds 00 having a large surface area, and radiated to the outside. By attaching the heat dissipation fins (8) in this manner, the heat dissipation capacity can be easily increased. In addition, in the above embodiment, the 2nd side of the sealing resin (5) on the side where the external lead (6) is located
A step (7) is provided on one side of the external lead (7).
6) may be provided in the depth direction in FIG. 2 on the two side surfaces without 6) to serve as attachment portions. In addition, as shown in the side view of FIG. 4 and the elevation view of FIG.
, and the stepped portion (7) formed thereby may be used as the attachment portion.

〔Effect of the invention〕

As described above, according to the present invention, the package is provided with a mounting part and the elastic part is engaged with the mounting part so that the heat dissipation fin can be attached. Accordingly, one type of semiconductor device can be easily used for both small-sized and inexpensive devices without heat-radiating fins and devices with large heat-radiating capacity equipped with heat-radiating fins.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing a semiconductor device according to an embodiment of the present invention, FIG. 2 is a cross-sectional view thereof, FIG. The figures are a side view showing a state in which heat dissipation fins are attached to a semiconductor device according to another embodiment of the present invention, FIG. 5 is an elevational view thereof, FIG. 6 is a perspective view showing a conventional semiconductor device, and FIG. FIG. In the figure, (2) is a semiconductor chip, (5) is a sealing resin, (7) is a stepped portion, (8) is a radiation fin, and αe is an elastic portion. Note that the same reference numerals in each figure indicate the same or corresponding parts.

Claims (1)

[Claims] In semiconductor chips sealed in packages,
A semiconductor device characterized in that the package is provided with a mounting portion so that a heat dissipation fin having an elastic portion that engages with the mounting portion can be attached.