JPS61128551A - Lead frame for semiconductor device - Google Patents

Abstract

PURPOSE:To improve reliability remarkably by bending the interface between the surface of a tie-bar lead and a resin sealing layer under the state of resin sealing and lengthening the intrusion path of water. CONSTITUTION:An annular recessed groove 11 is formed to the surface of a bed section 2, and the annular recessed groove 11 is shaped so that the periphery of a semiconductor chip 7 mounted is positioned onto the groove 11. On the other hand, projecting stripes 12... crossing the surfaces in the vicinity of connecting sections with the bed section 2 in the width direction are shaped to tie-bar lead sections 3. Since these projecting stripes 12... and recessed grooves 11 are formed by processing a lead frame by a press, the back side of the recessed groove 11 is shaped in a projecting section and the back sides of the projecting stripes 12 in recessed sections. The intrusion path of water passing on the surfaces of the tie-bar lead sections 3 is lengthened by the projecting stripes 12.... Accordingly, the time when intruding water reaches a conductive paste layer 8 is retarded, thus inhibiting an adverse effect by the intrusion of water.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to improvements in lead frames used in the manufacture of semiconductor devices, particularly resin-sealed semiconductor devices.

[Technical background of the invention]

In the production of semiconductor devices, especially resin-encapsulated semiconductor devices, the process of packaging individual semiconductor chips uses copper,
5 made of conductive material such as NSC (Ni/Sn alloy)
This is done using a lead frame as shown in FIG. In the figure, 1 is the outer frame of the lead frame. A semiconductor chip mounting portion 2 is disposed in the center surrounded by the outer frame 1, and the mounting portion 2 is connected and supported to the outer frame 1 via tie bar leads 3. Further, a large number of internal leads 4 are arranged around the mount portion 2 at a distance therefrom, and the internal leads 3 are extended as external leads 5 . The inner leads 4 and the outer leads 5 are connected and supported by the outer frame 1. In the conventional lead frame, the bed part 2, tie bar 3
The surfaces of the internal leads 4 and external leads 5 are both formed flat.

When manufacturing a resin-sealed semiconductor device using the above lead frame, first the semiconductor chip is mounted (die bonding) on the mount part 2 of the lead frame, and internal leads corresponding to the bonding pads on the surface of the semiconductor chip are mounted. 3. After connecting with the tip portions using a bonding wire such as a gold wire or an aluminum wire, resin sealing is performed using a transfer mold such as an epoxy resin. FIG. 2 is a plan view showing the state after resin sealing, and 6 in the figure is a resin sealing layer. Next, the lead frame is cut at required points to form individual leads (lead forming), and then these leads are bent in a predetermined direction to form the third lead frame.
The resin-sealed semiconductor device shown in the figure is obtained.

[Problems with background technology]

As the material for bonding the semiconductor chip onto the mount portion 2 in the die boarding process, a conductive paste that is excellent in terms of material cost and workability, such as silver/
Epoxy adhesives are widely used. In this case, as mentioned above, the bed part 2 of the conventional glued frame is flat, so if too much paste is used or the mounting position is shifted, the conductive paste will be removed during die bonding. It often protrudes around the chip and becomes raised. 4A and 4B are cross-sectional views of a resin-sealed semiconductor device die-bonded in such a state, in which 7 is a semiconductor chip, 8 is a conductive paste, and 9 is a bonding wire.

The resin-sealed semiconductor device manufactured in the state shown in FIGS. 3(A) and 3(B) has a problem of poor reliability, particularly for the following reasons.

Resin-sealed packages have lower moisture resistance than ceramic packages, and in particular, as shown in FIG. Moisture easily enters the bed portion 2 through the surface of the tie bar lead. The infiltrated moisture is absorbed by the halogen or alkali metal (CI-
.

3 (A) (B).
), the ions thus activated tend to reach the surface of the chip 7, and therefore corrode the electrodes and wiring on the chip surface, resulting in a decrease in reliability.

[Purpose of the invention]

The present invention has been made in view of the above circumstances, and provides a lead frame for a semiconductor device that can improve the reliability of a resin-sealed semiconductor device.

[Summary of the invention]

A lead frame for a semiconductor device according to the present invention includes a metal bed portion on which a semiconductor chip is to be mounted, a metal lead pattern disposed with a tip located near the bed portion, and the other end portion of the lead pattern. a support body connected to and supporting the support; a tie bar lead portion having one end connected to the support body and the other end connected to the bed portion to support it; a concave groove formed with a groove width ranging from near the inner side to near the outer side of the peripheral edge of the planned mounting portion; and a protrusion formed on the surface of the tie bar lead portion over the entire width near the connecting portion with the bed portion; It is characterized by having the following.

If a resin-sealed semiconductor device is manufactured using the lead frame of the present invention, die bonding of semiconductor chips can be performed while preventing the conductive paste from creeping up by the grooves. Furthermore, in the resin-sealed state, the interface between the tie bar lead surface and the resin sealing layer is bent, and the water intrusion route becomes longer, so that the time for water intruding from the outside to reach the bed portion can be delayed. These two effects significantly improve the reliability of the resin-sealed semiconductor device using the lead frame of the present invention.

[Embodiments of the invention]

FIG. 1(A) is a plan view showing a main part of a lead frame according to an embodiment of the present invention, and FIG. 1(B) is a sectional view taken along the line BB. In these figures, Figure 1 (A
) The same parts are given the same reference numbers. That is,
2 is a bed portion, and 3 is a tie bar lead portion. The tie bar lead portion 3 is connected to the frame outer frame 1 (not shown) as in the case of FIG. 2(A). In this example,
An annular groove 11 is formed on the surface of the bed portion 2. As shown in FIG. 1B, this annular groove 11 is formed so that the peripheral edge of the semiconductor chip 7 (indicated by imaginary lines in the figure) to be mounted is positioned above it. On the other hand, the tie bar lead portion 3 is provided with protrusions 12 that cross the surface in the vicinity of the connecting portion with the bed portion 2 in the width direction. These protrusions 12... and the grooves 11 are formed by pressing the lead frame. Therefore, as shown in FIG. The back side of 12... has a concave portion. The other structure is the same as the conventional lead frame shown in No. 21i1(A), and the tip of an internal lead part (not shown) is arranged around the bed part 2, and the internal lead part is extended. The external lead portion is connected to the frame outer frame.

Using the lead frame of the above example, FIGS.
When a resin-sealed semiconductor device is manufactured by the same method as explained in case C), the cross-sectional structure along the tie bar leads 3, 3 will have the characteristics as shown in FIG. 1(C). First, when die-bonding the semiconductor chip 7, the conductive paste 8 is placed in the groove 1 at the periphery of the chip 7.
Chip 7 is stored in the chip and prevented from climbing up.
A sufficient distance is maintained between the surface of the paste layer 8 and the paste layer 8.

Secondly, the tie bar lead portion 3 is
The water entry path through the surface is longer than in the conventional case. As a result, the time required for the infiltrated water to reach the conductive paste layer 8 is delayed, so that the adverse effects of water intrusion can be suppressed. Therefore, by using the lead frame of the above embodiment, the reliability of the resin-sealed semiconductor device can be significantly improved.

In addition to these basic effects, in the lead frame according to the above embodiment, the annular groove 11 formed on the surface of the bed clearly indicates the mounting position of the semiconductor chip 7. Therefore, when die bonding is performed manually, it is possible to easily determine the mounting position of the chip.

〔Effect of the invention〕

As described in detail above, the lead frame for a semiconductor device according to the present invention provides remarkable effects such as significantly improving the reliability of a resin-sealed semiconductor device manufactured using the lead frame.

[Brief explanation of drawings]

FIG. 1(A) is a plan view showing the main parts of a lead frame for a semiconductor device according to an embodiment of the present invention, FIG. 1(B) is a sectional view thereof, and FIG. A) An explanatory diagram showing the cross-sectional structure of a resin-sealed semiconductor device manufactured using the lead frame according to the embodiment of (B), FIGS. 2(A) to (C)
) is an explanatory diagram showing a conventional lead frame for a semiconductor device and a process of manufacturing a resin-sealed semiconductor device using the lead frame,
3(A) and 3(B) are cross-sectional views showing the structure and problems of the resin-sealed semiconductor device manufactured in FIGS. 2(A) to 2(C). DESCRIPTION OF SYMBOLS 1... Frame outer frame, 2... Bed part, 3... Tie bar lead part, 4... Internal lead part, 5... External lead part, 6... Resin sealing layer, 7... ... Semiconductor chip, 8 ... Conductive paste layer, 9 ... Bonding wire, 11 ... Annular groove, 12 ... Convex strip. Applicant's agent Patent attorney Takehiko Suzue (C) ^ Figure 2 (C)

Claims (1)

[Claims] a metal bed portion on which a semiconductor chip is to be mounted;
A metal lead pattern disposed with its tip located near the bed portion, a support connected to the other end of the lead pattern to support it, and one end connected to the support. a tie bar lead portion whose other end portion is connected to and supports the bed portion; a groove formed in the bed portion with a groove width ranging from near the inside to near the outside of the periphery of the portion where the semiconductor chip is to be mounted; 1. A lead frame for a semiconductor device, comprising a protruding strip formed on the surface of the tie bar lead portion over its entire width in the vicinity of the connection portion with the bed portion.