The present invention relates to a surface-mounted semiconductor device.
The so-called non-leaded package eliminating extension of leads from a resin package and exposing the leads (outer leads) on the lower surface of the resin package is known as a surface mount package.
A semiconductor device employing the non-leaded package has a structure obtained by sealing a semiconductor chip with a resin package along with a lead frame. The lead frame is formed by punching a thin metal plate, and includes an island and a plurality of leads arranged around the island. The semiconductor chip is die-bonded to the upper surface of the island, and electrically connected with each lead by a bonding wire extended between the surface thereof and the upper surface of each lead. The lower surfaces of the island and each lead are exposed on the rear surface of the resin package.
Patent Document 1: Japanese Unexamined Patent Publication No. 2007-95788
In such a structure, each lead is held in the resin package only by bonding power between the upper surface and side surfaces thereof and the resin package. Therefore, the lead may come off the resin package.
Accordingly, an object of the present invention is to provide a surface-mounted semiconductor device capable of attaining improvement in bonding strength between a lead and a resin package.
A semiconductor device according to the present invention for attaining the aforementioned object includes a semiconductor chip, an island having an upper surface to which the semiconductor chip is bonded, a lead arranged around the island, a bonding wire extended between the surface of the semiconductor chip and the upper surface of the lead, and a resin package collectively sealing the semiconductor chip, the island, the lead and the bonding wire, while the lower surface of the island and the lower surface of the lead are exposed on the rear surface of the resin package, and the lead is provided with a recess concaved from the lower surface side and opened on a side surface thereof.
In the semiconductor device, the lower surfaces of the island to which the semiconductor chip is bonded (die-bonded) and the lead electrically connected with the semiconductor chip by the bonding wire are exposed on the rear surface of the resin package collectively sealing the same. Therefore, the semiconductor device is surface-mountable on a wiring board.
The lead is provided with the recess concaved from the lower surface side thereof and opened on the side surface. The material for the resin package infiltrates into the recess, whereby part of a peripheral edge portion of the lead is held by the resin package from both of the upper and lower sides thereof. Thus, improvement in bonding strength between the lead and the resin package can be attained. Consequently, the lead can be prevented from coming off the resin package.
Preferably, the recess has a portion arcuately shaped in bottom plan view. According to this structure, the bonding strength between the lead and the resin package in all radial directions of the arcuate shape can be increased.
When, in a case of such a structure that a side surface of the lead is exposed on a side surface of the resin package, the recess is formed to be opened on the exposed side surface, for example, it is apprehended that the recess is blocked by a molding die for formation of the resin package and the material for the resin package does not infiltrate into the recess.
Therefore, the recess is preferably opened on a side surface of the lead opposed to the island. Thus, the recess is not blocked by the molding die and hence the material for the resin package can be reliably infiltrated into the recess, whereby the bonding strength between the lead and the resin package can be reliably improved.
The island may be quadrangularly shaped in bottom plan view, and the lead may be arranged on a portion opposed to each of four sides of the island in plan view, and provided in a shape having a side parallel to the opposed side. In this case, the recess is preferably opened on a side surface of each lead having a side opposed to each side of the island. Thus, the material for the resin package can be reliably infiltrated into the recess of each lead, whereby the bonding strength between each lead and the resin package can be reliably improved.
Preferably, the area of the recess in bottom plan view is not more than half the total area of the lower surface of the lead. With such a size of the recess, the bonding wire can be bonded to a relatively thick portion of the lead, while improvement in bonding strength between the lead and the resin package can be attained. Further, a contact area of the lead with respect to a wiring board can be sufficiently ensured.
Preferably, the lead has a side surface exposed on a side surface of the resin package, and a portion of the lead along the exposed side surface is provided with a recessed groove concaved from the lower surface side of the lead over the total width in a direction along the side surface . The material for the resin package also infiltrates into the recessed groove, whereby further improvement in bonding strength between the lead and the resin package can be attained.
Embodiments of the present invention are now described in detail with reference to the attached drawings.
A semiconductor device 1 has a structure obtained by sealing a semiconductor chip 2 with a resin package 4 along with a lead frame 3. The contour of the semiconductor device 1 is in the shape of a flat rectangular parallelepiped (a hexahedron square-shaped in plan view according to the embodiment).
The lead frame 3 is formed by punching a thin metal plate (a thin copper plate, for example) , and includes an island 5 and four leads 6 arranged around the island 5.
The island 5 is quadrangularly shaped in plan view (square-shaped in plan view according to the embodiment) . The lower surface of the island 5 is exposed on the rear surface of the resin package 4.
The leads 6 are arranged on portions opposed to the four sides of the island 5 respectively in bottom plan view. Each lead 6 is trapezoidally shaped in bottom plan view. More specifically, each lead 6 is provided in a shape having a side 7 parallel to the opposed side of the island 5, aside 8 extending on a side surface of the resin package 4, a side 9 orthogonal to the side 8 and extending parallelly to another side surface of the resin package 4, and sides 10 and 11 connecting the side 7 with the sides 8 and 9 respectively in plan view.
Each lead 6 is provided with a recess 12, semicircularly shaped in bottom plan view, concaved from the side of the lower surface (the exposed surface) of the lead 6 and opened on a side surface opposed to the island 5, i.e., the side surface having the side 7. The material for the resin package 4 infiltrates into the recess 12. The recess 12 can be formed by chemical etching or crushing, for example.
The lower surface of each lead 6 is exposed on the rear surface of the resin package 4 except the recess 12, to function as an external terminal for connection with a wiring board (not shown). The side surface of each lead 6 having the side 8 is exposed on the corresponding side surface of the resin package 4.
The rear surface of the semiconductor chip 2 is bonded (die-bonded) to the island 5 through a conductive bonding agent, in a state upwardly directing a surface (a device forming surface) on a side provided with functional elements. On the surface of the semiconductor chip 2, a pad (not shown) is formed by exposing part of a wiring layer from a surface protective film, correspondingly to each lead 6. An end of a bonding wire 13 is bonded to each pad. Another end of the bonding wire 13 is bonded to the upper surface of a relatively thick portion (a portion not provided with the recess 12) in each lead 6. Thus, the semiconductor chip 2 is electrically connected with the lead 6 through the bonding wire 13.
As hereinabove described, the lower surfaces of the island 5 and the leads 6 are exposed on the rear surface of the resin package 4. Therefore, the semiconductor device 1 is surface-mountable on the wiring board.
Each lead 6 is provided with the recess 12 concaved from the lower surface side thereof and opened on the side surface having the side 7. The material for the resin package 4 infiltrates into the recess 12, whereby the portion of each lead 6 provided with the recess 12 is held by the resin package 4 from both of the upper and lower sides thereof. Thus, improvement in bonding strength between each lead 6 and the resin package 4 can be attained. Consequently, the lead 6 can be prevented from coming off the resin package 4.
The recess 12 is opened on the side surface having the side 7, whereby the material for the resin package 4 can be reliably infiltrated into the recess 12.
Further, the recess 12 is semicircularly shaped in bottom plan view, whereby the bonding strength between the lead 6 and the resin package 4 in all radial directions of the arc thereof can be increased.
In a semiconductor device 31 shown in
Also in this structure, improvement in bonding strength between each lead 6 and the resin package 4 can be attained. Consequently, the lead 6 can be prevented from coming off the resin package 4.
In a semiconductor device 41 shown in
According to this structure, the material for a resin package 4 infiltrates into a recess 12 and the recessed groove 42, whereby further improvement in bonding strength between each lead 6 and the resin package 4 can be attained.
In a semiconductor device 51 shown in
According to this structure, the material for a resin package 4 infiltrates into the recesses 12, 52 and 53, whereby further improvement in bonding strength between each lead 6 and the resin package 4 can be attained.
In a semiconductor device 61 shown in
When the area of the recess 62 in bottom plan view is not more than half the total area of the lower surface of the lead 6, a bonding wire 13 can be bonded to a relatively thick portion of the lead 6, while improvement in bonding strength between the lead 6 and a resin package 4 can be attained. Further, a contact area of the lead 6 with respect to a wiring board can be sufficiently ensured.
In a semiconductor device 71 shown in
The material for the resin package 4 infiltrates into the recesses 72, whereby portions of the island 5 provided with the recesses 72 are held by the resin package 4 from both of the upper and lower sides thereof. Thus, improvement in bonding strength between the island 5 and the resin package 4 can be attained. Consequently, the island 5 can be prevented from coming off the resin package 4.
While the first to sixth embodiments of the present invention have been described, the first to sixth embodiments may be properly combined and executed. For example, the first embodiment and the fourth embodiment may be so combined that one or two of the three recesses 12, 52 and 53 shown in
While the present invention has been described in detail by way of the embodiments thereof, it should be understood that these embodiments are merely illustrative of the technical principles of the present invention but not limitative of the invention. The spirit and scope of the present invention are to be limited only by the appended claims.
This application corresponds to Japanese Patent Application No. 2008-326113 filed with the Japan Patent Office on Dec. 22, 2008, the disclosure of which is incorporated herein by reference.
1 . . . semiconductor device, 2 . . . semiconductor chip, 4 . . . resin package, 5 . . . island, 6 . . . lead, 12 . . . recess, 13 . . . bonding wire, 31 . . . semiconductor device, 32 . . . recess, 41 . . . semiconductor device, 42 . . . recessed groove, 51 semiconductor device, 52 . . . recess, 53 . . . recess, 61 . . . semiconductor device, 62 . . . recess
Number | Date | Country | Kind |
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2008-326113 | Dec 2008 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2009/006548 | 12/2/2009 | WO | 00 | 9/1/2011 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2010/073497 | 7/1/2010 | WO | A |
Number | Name | Date | Kind |
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7741704 | Lange et al. | Jun 2010 | B2 |
20020149099 | Shirasaka et al. | Oct 2002 | A1 |
20050106783 | Miyata | May 2005 | A1 |
20060110857 | Miyata | May 2006 | A1 |
20070001275 | Shirasaka et al. | Jan 2007 | A1 |
Number | Date | Country |
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2003-218284 | Jul 2003 | JP |
2005-150629 | Jun 2005 | JP |
2007-095788 | Apr 2007 | JP |
Number | Date | Country | |
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20120018896 A1 | Jan 2012 | US |