1. Field of the Invention
The present invention is to directed toward an improved plastic package for an integrated circuit die, and a method of making such a package.
2. Background of the Invention
Integrated circuit die are conventionally enclosed in plastic packages that provide protection from hostile environments and enable electrical interconnection between the integrated circuit die and printed circuit boards. The elements of such a package include a metal leadframe, an integrated circuit die, bonding material to attach the integrated circuit die to the leadframe, bond wires which electrically connect pads on the integrated circuit die to individual leads of the leadframe, and a hard plastic encapsulant material which covers the other components and forms the exterior of the package.
The leadframe is the central supporting structure of such a package. A portion of the leadframe is internal to the package, ie., completely surrounded by the plastic encapsulant. Portions of the leads of the leadframe extend eternally from the package and are used to connect the package externally.
Further background information concerning conventional plastic integrated circuit packages and leadframes is contained in chapter 8 of the book Microelectronics Packaging Handbook (1989), which was edited by R. Tummala and E. Rymaszewski, and is published by Van Nostrand Reinhold, 115 Fifth Avenue, New York, N.Y.
A problem with conventional plastic packages is that their internal leadframes limit reduction of the size of the packages. Practitioners have attempted to reduce the size of packages by eliminating internal leadframes, as is shown in U.S. Pat. No. 4,530,152 to Roche et al and U.S. Pat. No. 5,172,214 to Castro, but these packages have numerous disadvantages. The contacts of the package shown by Roche in the '152 patent have orthogonal side surfaces. Accordingly, the packages are believed to be unreliable because the contacts could easily be pulled from the encapsulant material. The package shown by Castro in the '214 patent has leads which extend into the body of the package from a lower external surface of the package to the top of the die. These leads are large, and have complex bends. Including such leads in a package would increase manufacturing costs and limit reductions in the lateral size of the package. By contrast, the contacts of the packages within the present invention are simpler, do not have such bends, and allow for packages of smaller lateral size.
The present invention is to directed toward improved plastic packages for housing an integrated circuit die, and to leadframes and methods for making such packages. The packages of the present invention are easier and less expensive to make than conventional plastic packages, and are more reliable and efficiently-sized than conventional packages.
In one embodiment of an assembly method for a package within the present invention, Step 1 provides a metal leadframe. The leadframe includes a rectangular frame, e.g., a square frame. A substantially planar die pad is within and connected to the frame. A plurality of finger-like rectangular tabs extend from the frame toward the die pad without contacting the die pad. The number and location of the tabs around the frame may vary. The die pad and the tabs have peripheral side surfaces which include a reentrant portion(s) and asperities. The reentrant position(s) and asperities enhance the connection of the die pad and tabs to the plastic encapsulating material. Step 2 places and attaches an integrated circuit to a first surface of the die pad.
Step 3 electrically connects a bond wire or an equivalent conductor between each bonding pad of the die and a first surface of one of the tabs.
Step 4 places the leadframe on a flat surface, with the die facing upwards, and applies a viscous encapsulant material onto the upward facing first surface of the leadframe. The encapsulant material is then hardened. The encapsulant material covers the die, the bond wires, a first surface of the tabs, the first surface of the die pad, the side surfaces of the die pad and tabs, and all or part of the frames around the die pad. A lower second surface of the leadframe, including a lower second surface of the die pad and tabs, is not covered with encapsulant.
Step 5 plates the exposed surfaces of the leadframe, including the exposed second surfaces of the die pad and tabs with a metal, such as copper, gold, lead-tin solder, tin, nickel, palladium, or any solderable metal.
Step 6 cuts the encapsulated portions of the leadframe with a saw. In particular, step 6 either obliterates the disposable portions of the leadframe, or severs the disposable portions of the leadframe from other components of the leadframe, such as the die pad and tabs, which are to be included in the package. Step 6 also trims the encapsulant material and thereby forms the peripheral sides of the package.
A feature the packages built by the above described method is that the die pad and contacts (i.e., the severed tabs of the leadframe) of the package are located at the lower first surface of the package. The first surfaces and side surfaces of the die pad and tabs are internal to the package, i.e., covered with encapsulant material, but the second surfaces of the die pad and tabs are not covered by encapsulant material. The die pad and tabs are isolated from each other by encapsulant material.
In a completed package, only the encapsulant material holds the die pad and contacts to the package. The connection of the encapsulant material to the die pad and contacts is enhanced by the reentrant portion(s) and asperities of the side surfaces of the die pad and contacts. The reentrant portions and asperities of the side surfaces of the die pad and contacts function as encapsulant fasteners or lead locks.
Numerous variations of the leadframe, package, and assembly method described above also are described in this application. In one alternative assembly method, a leadframe is provided which allows a plurality of packages to be constructed simultaneously.
A leadframe for constructing a plurality of packages simultaneously includes, for example, a matrix of interconnected rectangular frames. A die pad is within and connected to each of the interconnected frames. A set of tabs extend from each frame toward the sides of the enclosed die pad without contacting the die pad. A subsequent encapsulation step includes applying an encapsulant material onto the surface of the leadframe to which the dies are attached. This step covers the dies and the side surfaces of the die pads and tabs within a single block of encapsulant material. The encapsulant material is then hardened. A cutting step separates individual packages from each other and from the disposable portions of the leadframe. The cutting step also severs the connection between each of the interconnected frames and the die pad and tabs within each frame.
These and other features and advantages of the various embodiments disclosed herein will be better understood with respect to the following description and drawings, in which like numbers refer to like parts throughout, and in which:
Step 1 of
Leadframe 20 of
Leadframe 20 of
A rectangular die pad 24 is within and connected to frame 21. Die pad 24 has a planar or substantially planar upper first surface 25 and, although it is not shown in
A connector 28 connects two parallel side surfaces 27 of die pad 24 to members 22 and 22A of frame 21 of
Three finger-like rectangular tabs 30 are connected to and extend from members 23 and 23A toward an adjacent side surface 27 of die pad 24 without contacting side surfaces 27. As a result of this configuration, the completed package will have a single row of three contacts on two parallel sides of the package. Tabs 30 ultimately are severed from members 23 and 23A along cut lines C-C and D-D of
The number, location, and shape of tabs 30 may vary. For example, instead of having tabs 30 only on members 23 and 23A of frame 21 of leadframe 20, as in
Each tab 30 of
Each tab 30 also has three peripheral side surfaces 33 between upper first surface 31 and lower second surface 32.
Side surface 27 of die pad 24 and side surface 33 of tab 30 of
The reentrant portions of side surfaces 27 of die pad 24 and side surfaces 33 of tabs 30 of
In addition to having reentrant portions, side surface 27 of die pad 24 and side surface 33 of tab 30 of
As discussed above, Step 1 of
As is well known, chemical etching (also known as chemical milling) is a process that uses photolithography and metal-dissolving chemicals to etch a pattern into a metal strip. The photoresist is exposed to ultraviolet light through a photo mask having a desired pattern, and is subsequently developed and cured. Chemicals are sprayed or otherwise applied to the masked strip, and exposed portions of the strip are etched away, leaving the desired pattern.
As is also well known, progressive stamping uses sets of progressive dies to mechanically remove metal from a metal strip. Each of a plurality of stamping stations uses one of the dies to punch a distinct small area of metal from the strip as the strip moves through the stations.
A leadframe 20 having side surfaces like
A leadframe 20 having side surfaces like
A leadframe 20 having side surfaces like
A leadframe 20 having side surfaces like
Step 2 of
Step 3 of
In Step 4 of
There are several methods by which Step 4 of
Alternatively, Step 4 of
In Step 5 of
Step 6 of
Step 6 may be performed using a saw or other shearing apparatus. To perform Step 6 using a saw, the encapsulated leadframe 20 of
Lower second surface 52 of package 50 of
Die pad 24 and contacts 53 of
Die pad 24 of
Although not fully shown in
In
Two contacts 53 are shown in package 50 of
Each contact 53 of
First surface 31 and side surfaces 33 of contacts 53 are covered with an encapsulant material. Second surface 32 and external side surface 55 of contacts 53 are not covered with encapsulant material.
Orthogonal external side surfaces 55 of contacts 53 of
Although not shown in
The perimeter of contacts 53 need not be substantially rectangular in shape. For example, if tabs 30 of leadframe 20 of
A bond wire 58 is connected between each bonding pad 56a of die 56 and the upper first surface 31 of each contact 53. Bond wire 58 electrically connects individual bonding pads 56a of die 56 to individual contacts 53.
Second surface 32 of contacts 53 of
In an alternative embodiment, second surface 26 of die pad 24 also may be connected, such as by solder paste, to the printed circuit board to facilitate package cooling. The cooling occurs by thermal conduction.
Step 1 of
Leadframe 70 of
Leadframe 70 of
Within outer frame 71 of
A rectangular die pad 24 is within and connected to each of the four frames formed by strips 76 and 77 of
Three parallel strips 76 are within and connected to frame 71 of
Three parallel strips 77 also are within and connected to frame 71 of
The intersecting ends of the peripheral strips 76 and 77 of
Central strip 76 of
In
Each tab 30 of
The reentrant portions and asperities of side surfaces 33 of tabs 30 enhance the connection between is encapsulant material 40 and contacts 53 (i.e., severed tabs 30) of a completed package 10 of
Step 2 of
Referring to
Step 4 of
Step 5 of
Step 6 of
Step 6 of
Step 6 may be performed using a saw or other cutting apparatus. Where a saw is used for Step 6, the saw is moved along strips 76 and 77 (See
An exemplary method of accomplishing Step 6 of
Next, the encapsulated leadframe 70 is rotated 90 degrees, and three parallel cuts are made perpendicular to the original three cuts. Each of these latter three cuts goes through side members 72 and 74 and along and through the length of a strip 77. These latter three cuts also form the remaining two external side surfaces 57 of package 50 of
The six cuts described above complete the formation of the four packages So from leadframe 70 of
Artisans will appreciate that numerous variations of the packages, leadframes, and assembly methods described above are possible. As one example, changes can be made to leadframe 70 of
In addition, the profiles of side surfaces 27 and 33 of die pads 24 and tabs 30, respectively, can be altered from the embodiments of
Leadframe 70 of
As a final example, instead of forming a single block of encapsulant material over all of the dies and incomplete packages of leadframe 70 of
The above description of embodiments of this invention is intended to be illustrative and not limiting. Other embodiments of this invention will be obvious to those skilled in the art in view of the above disclosure.
The present application is a continuation of U.S. application Ser. No. 11/299,859 entitled METHOD OF MAKING AN INTEGRATED CIRCUIT PACKAGE filed Dec. 12, 2005 now U.S. Pat. No. 7,112,474, which is a continuation of U.S. application Ser. No. 10/847,742 entitled METHOD OF MAKING AN INTEGRATED CIRCUIT PACKAGE filed May 18, 2004 and issued as U.S. Pat. No. 7,005,326 on Feb. 28, 2006, which is a continuation of U.S. application Ser. No. 10/688,710 entitled METHOD OF MAKING AN INTEGRATED CIRCUIT PACKAGE filed Oct. 17, 2003 and issued as U.S. Pat. No. 6,893,900 on May 17, 2005, which is a continuation of U.S. application Ser. No. 10/007,337 entitled METHOD OF MAKING AN INTEGRATED CIRCUIT PACKAGE filed Oct. 22, 2001 and issued as U.S. Pat. No. 6,684,496 on Feb. 3, 2004, which is a continuation of U.S. application Ser. No. 09/393,016 entitled PLASTIC INTEGRATED CIRCUIT PACKAGE AND METHOD AND LEADFRAME FOR MAKING THE PACKAGE filed Sep. 10, 1999 and now abandoned, which is a divisional of U.S. application Ser. No. 09/103,760 entitled PLASTIC INTEGRATED CIRCUIT CHIP PACKAGE AND METHOD AND LEADFRAME FOR MAKING THE PACKAGE filed Jun. 24, 1998 and issued as U.S. Pat. No. 6,143,981 on Nov. 7, 2000.
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Number | Date | Country | |
---|---|---|---|
Parent | 09103760 | Jun 1998 | US |
Child | 09393016 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 11299859 | Dec 2005 | US |
Child | 11503752 | US | |
Parent | 10847742 | May 2004 | US |
Child | 11299859 | US | |
Parent | 10688710 | Oct 2003 | US |
Child | 10847742 | US | |
Parent | 10007337 | Oct 2001 | US |
Child | 10688710 | US | |
Parent | 09393016 | Sep 1999 | US |
Child | 10007337 | US |