Semiconductor package having a heat sink with an exposed...

Active solid-state devices (e.g. – transistors – solid-state diode – Housing or package – Insulating material

Reexamination Certificate

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C257S704000, C257S710000, C257S712000, C257S713000, C257S717000, C257S675000, C257S738000, C257S723000, C257S737000, C257S787000, C257S796000, C257S797000

Reexamination Certificate

active

06246115

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to integrated circuit package technology, and more particularly, to an integrated circuit package with a heat sink for dissipating heat generated by integrated circuit chip.
2. Description of Related Art
An integrated circuit chip is capable of holding a very great number of circuit components, including resistors, capacitors, and transistors, in a very small semiconductor die. In use, an integrated circuit chip is typically enclosed in a package for easy handling. To allow increased functionality from a single integrated circuit package, a number of integrated circuit chips can be mounted together in one package. This type of integrated circuit package is customarily referred to as a multi-chip-module integrated circuit package.
In the manufacture of integrated circuit packages, there are two major topics in design; heat dissipation and pin arrangement. Heat dissipation is typically provided by mounting a heat sink to the chip, while pin arrangement is now designed using the so-called Ball Grid Array (BGA) technology. The BGA structure is typically provided with arrayed solder balls on the bottom on an integrated circuit package to allow the integrated circuit package to be electrically bonded to external circuitry. In this case, the heat sink can only be mounted on the top side of the integrated circuit package. One such integrated circuit package is disclosed in U.S. Pat. No. 5,736,785, which is schematically illustrated in FIG.
5
. As shown, this patented integrated circuit package, here indicated by the reference numeral
1
, includes a substrate
104
on which an integrated circuit chip
102
is mounted. A heat sink
116
is mounted on the substrate
104
for heat dissipation. The chip
102
, the substrate
104
, and the heat sink
116
are all enclosed in an encapsulation
112
formed by encapsulating resin. The heat sink
116
is formed with a circular recessed portion
116
a
whose bottom side is adhered by silver glue onto the top side of the chip
102
. This allows the heat generated by the chip
102
to be dissipated via the heat sink
116
to the atmosphere. The heat sink
116
is further formed with a recessed portion
116
c
whose depth is larger than the depth of the recessed portion
116
a
. By means of the recessed portion
116
c
, the heat sink
116
can be securely mounted on the top side of the substrate
104
. Further, the heat sink
116
is formed with a part of heat sink
116
to come in contact with the atmosphere so that the heat can be dissipated to the atmosphere.
The foregoing integrated circuit package of
FIG. 5
, however, has some drawbacks. First, the heat sink
116
would be off-center to the encapsulant
112
due to he reason that the mounting of the heat sink
116
on the chip
102
requires the use of a jig (not shown) for precise positioning of the heat sink
116
, and the use of this jig requires a tolerance to be left between the heat sink
116
and the jig (not shown), which would make the heat sink
116
to be slightly deviated in position from the chip
102
. The off-center arrangement of the heat sink
116
would make the outer appearance of the integrated circuit package unappealing.
Second, since the heat sink
116
is different in thermal expansion coefficient from the chip
102
, delamination could occur to the silver paste layer used to adhere the heat sink
116
to the chip
102
under high-temperature condition during the transfer molding process. This would make the heat sink
116
easily loosen off position from the chip
102
.
Third, the chip
102
could be easily cracked during the transfer molding process due to the pressure from the molding resin flow via the circular recessed portions
116
a
against the chip
102
which is delicate and weak in structure.
Fourth, the encapsulation
112
would be easily formed with undesired voids therein. This is because that the molding resin flow during the transfer molding process would be blocked by the recessed portions
116
a
,
116
c
, thus causing disturbances to the molding resin flow, resulting in the forming of voids in the encapsulant
112
.
FIG. 6
is a schematic sectional view of another conventional integrated circuit package, as indicated by the reference numeral
2
. As shown, this integrated circuit package
2
includes a substrate
21
on which an integrated circuit chip
20
is mounted. A heat sink
22
is mounted on the substrate
21
for heat dissipation. The chip
20
, the substrate
21
, and the heat sink
22
are all hermetically enclosed in an encapsulant
23
. The heat sink
23
has a circular upper portion
220
and a bottom portion
222
. The upper portion
220
defines an area
221
to enclose the chip
20
therein, and the bottom portion
222
is used to support the upper portion
220
at an elevated height from the substrate
21
. The upper portion
220
has a top surface
223
exposed to the outside of the compound
23
. In order to allow the heat sink
22
to be precisely positioned on the substrate
21
, a jig (not shown) should be used. Hence, the drawback of off-center arrangement in the integrated circuit package of
FIG. 5
still exists in the integrated circuit package of FIG.
6
. Moreover, since the bottom portion
222
of the heat sink
22
is mounted on the substrate
21
by using an adhesive material, the integrated circuit package of
FIG. 6
would easily suffer from delamination as in the case of the integrated circuit package of FIG.
5
. Further, one particular drawback to the integrated circuit package of
FIG. 6
is that the resin flow used in the transfer molding process to form the encapsulant
23
would be flashed over the top surface
223
of the heat sink
22
if the bottom portion
222
is insufficiently elevated to allow the top surface
223
of the heat sink
22
to be adequately exposed to the outside of the encapsulant
23
. When flashing happens, it would also cause the exposed area of the heat sink
22
to be reduced, thus lessening the heat dissipating efficiency by the heat sink
22
; and whereas, if the bottom portion
222
of the heat sink
22
is overly elevated, it would cause the top surface
223
to abut overly forcibly on the mold (not shown) used in the transfer molding process, thus causing delamination to the adhesive materiale layer between the substrate
21
and the bottom of the bottom portion
222
. Moreover, the upper portion
220
and the bottom portion
222
of the heat sink
22
would cause disturbance to the resin flow used in the transfer molding process, thus causing the resulted encapsulant
23
to be formed with undesired voids. The use of the integrated circuit package of
FIG. 6
is therefore still unsatisfactory.
The particular structures of the heat sinks
116
,
22
used in the integrated circuit packages of
FIGS. 5 and 6
would make the chip mounting area such small that they are used chiefly to pack one chip therein and hardly can be used to pack two or more chips. Therefore, they would not meet multi-chip-module package requirements.
SUMMARY OF THE INVENTION
It is therefore an objective of the present invention to provide an integrated circuit package with a fully-exposed heat sink, which can be assembled without the use of a jig and silver paste, while nonetheless allowing the heat sink to be positioned precisely on the substrate.
It is another objective of the present invention to provide an integrated circuit package with a fully-exposed heat sink, which can help prevent the molding resin used in the compound molding process to flash over the exposed surface of the heat sink.
It is still another objective of the present invention to provide an integrated circuit package with a fully-exposed heat sink, which is formed with a large chip mounting area so that is can be used to pack two or more integrated circuit chips therein.
It is yet another objective of the present invention to provide an integrated circuit package with a fully-exposed heat sink, which can help prevent the resin flow used in the compound moldi

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