JPS634350B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to semiconductor devices, particularly LID (Leadless
This invention relates to improvements in the sealing cap structure of Inverted Devices.

In an LID type semiconductor device, a semiconductor element is bonded within a recess of a chip carrier made of ceramic, and this recess is hermetically sealed with a cap. Such LID type semiconductor devices do not have lead terminals, and instead of lead terminals, they are placed upside down on a motherboard on which a wiring pattern is formed, that is, with the bottom of the recess to which the semiconductor element is glued facing the motherboard. They are joined by solder bumps connected to each electrode of the chip. A metal material is sometimes used as the cap material from the viewpoint of the durability and sealability of the cap, but in this case, conventionally, the gap between the cap and the chip carrier has been sealed with a sealing material made of a gold-tin alloy. Therefore, the cost of materials was high. Also, when using a metal cap,
When the solder bumps are bonded and melted, they wet the metal cap and come into contact with the cap, causing a problem in which the electrodes short-circuit.

The present invention has been made in view of the above points, and is a semiconductor device that can reduce costs by improving the cap structure of an LID type semiconductor device, and can prevent short circuits between electrodes due to solder bumps when mounting and bonding on a motherboard. The purpose is to provide a sealing structure for Therefore, in the present invention, a metal plate material having a coefficient of thermal expansion comparable to that of the chip carrier is used as the cap, and a frit-based low melting point glass material having a coefficient of thermal expansion comparable to that of the chip carrier is used as the sealing material between the cap and the chip carrier. An insulating metal oxide film is formed on at least the outer surface of the cap by the heat generated during cap sealing.

The drawing is a sectional view of an LID type semiconductor device according to the present invention. A chip carrier 1 constituting the main body of the semiconductor device is a laminate of ceramic plates, and a recess 2 is formed in the center. A semiconductor element 3 is placed inside this recess 2.
are joined. Each electrode of the semiconductor element 3 is connected to an electrode pattern (not shown) formed on the chip carrier 1 via a gold wire 4. The recess 2 is covered with a cap 5 made of a metal material such as Kovar or an iron-nickel alloy having a coefficient of thermal expansion similar to that of ceramic. The cap 5 is bonded to the chip carrier 1 with the recess 2 sealed by a frit type low melting point sealing glass 6 having a coefficient of thermal expansion comparable to that of Kovar, ceramic or the like. This chip carrier 1 is connected to a wiring pattern (not shown) formed on a motherboard 7 by solder bumps 8 which are connected to each electrode of the semiconductor element 3 via a through hole (not shown) provided in the chip carrier or an electrode pattern (not shown). An aluminum cladding layer 9 made of a thin aluminum film is previously provided on the lower surface of the cap 5. This aluminum cladding layer 9 is oxidized to become an insulating oxide film during sealing of the cap 5 or during other heat treatment steps. Further, if an aluminum cladding layer is also provided on the upper surface of the cap 5 and this is oxidized, the bondability with the sealing glass 6 will be improved.

If the above-described sealing structure for semiconductor devices is used, costs can be reduced because inexpensive low-melting glass is used as the sealing material for the cap, and by using a cap with an aluminum cladding layer, this can be reduced by heat treatment. It is oxidized to form an insulating oxide film, which prevents short circuits between the electrodes due to wetting of the solder bump onto the cap.

[Brief explanation of the drawing]

The drawing is a sectional view of an LID type semiconductor device according to the present invention. 1... Chip carrier, 2... Recess, 3... Semiconductor element, 5... Cap, 6... Sealing glass,
9...Aluminum cladding layer.

Claims (1)

[Claims] 1. In a semiconductor device sealing structure in which a semiconductor element is mounted in a recess of a chip carrier constituting a main body of the semiconductor device, and the recess is sealed with a cap plate material, the cap has a coefficient of thermal expansion comparable to that of the chip carrier. A frit-based low melting point glass material having a coefficient of thermal expansion comparable to that of the chip carrier is used as the sealing material between the cap and the chip carrier, and at least the outer surface of the cap is heated by the heat during cap sealing. A sealing structure for a semiconductor device characterized by forming an insulating metal oxide film.