Active solid-state devices (e.g. – transistors – solid-state diode – Combined with electrical contact or lead – Bump leads
Reexamination Certificate
2001-01-30
2003-01-14
Eckert, George (Department: 2815)
Active solid-state devices (e.g., transistors, solid-state diode
Combined with electrical contact or lead
Bump leads
C257S777000, C257S778000, C257S780000, C257S782000, C257S786000, C257S787000
Reexamination Certificate
active
06507114
ABSTRACT:
FIELD OF THE INVENTION
This invention relates generally to semiconductor packaging, and specifically to a board-on-chip package that includes a semiconductor die, and a substrate bonded circuit side down to the die. This invention also relates to a method for fabricating the package, and to electronic assemblies incorporating the package.
BACKGROUND OF THE INVENTION
One type of semiconductor package is referred to as a “chip scale package”. Chip scale packages are also referred to as “chip size packages”, and the dice are referred to as being “minimally packaged”. Chip scale packages can be fabricated in “uncased” or “cased” configurations. Uncased chip scale packages have a “footprint” (peripheral outline) that is about the same as an unpackaged die. Cased chip scale packages have a peripheral outline that is slightly larger that an unpackaged die. For example, a footprint for a typical cased chip scale package can be about 1.2 times the size of the die contained within the package.
A conventional chip scale package includes a substrate bonded to the die. Typically, the substrate comprises an organic material, such as bismaleimide triazine (BT), an epoxy resin (e.g., “FR-4”) or a polyimide resin. The substrate includes a pattern of conductors, such as copper traces, that are wire bonded, or other wise electrically connected, to bond pads, or other connection points, on the die.
The substrate also includes external contacts in electrical communication with the conductors. Typically, the external contacts comprise solder balls arranged in a dense array, such as a ball grid array (BGA), or a fine ball grid array (FBGA). These dense arrays permit a high input/output capability for the chip scale package. For example, a FBGA on a chip scale package can include several hundred solder balls. The pattern of conductors on the substrate, and the associated bonding sites for the external contacts, is sometimes referred to as a “circuit”.
One type of chip scale package is known as a board-on-chip (BOC) package. With a BOC package the substrate (i.e., the board) is bonded to the circuit side (face) of the die, and wire bonds are made between the conductors on the substrate and the bond pads on the die.
Referring to
FIGS. 1A and 1B
, a conventional BOC package
10
is illustrated. The BOC package
10
includes a semiconductor die
12
having a circuit side
14
, and a pattern of bond pads
16
on the circuit side
14
. The bond pads
16
are in electrical communication with the integrated circuits and semiconductor devices contained on the die
12
. The BOC package
10
also includes a substrate
18
bonded to the circuit side
14
of the die
12
. The substrate
18
has a circuit side
22
containing a pattern of conductors
24
, and an adhesive layer
20
, which bonds the substrate
18
to the die
12
. The substrate
18
has a peripheral outline that is smaller than the peripheral outline of the die
12
, such that the bond pads
16
are not covered by the substrate
18
and the adhesive layer
20
.
The BOC package
10
also includes an array of external contacts
26
on the substrate
18
in electrical communication with the conductors
24
. The external contacts
26
comprise solder balls in a grid array, such as a ball grid array (BGA) or a fine ball grid array (FBGA). The external contacts
26
are bonded to ball bonding sites
30
on the conductors
24
using a bonding technique such as soldering, welding or brazing. A solder mask
32
on the substrate
18
facilitates bonding and electrical isolation of the external contacts
26
. The conductors
24
also include wire bonding sites
30
, and wires
34
are wire bonded to the wire bonding sites
30
, and to the bond pads
16
on the die
12
. The BOC package
10
also includes an encapsulant
36
that encapsulates the wires
34
and the associated wire bonds on the wire bonding sites
30
and on the bond pads
16
. Typically, the encapsulant
36
comprises a Novolac based epoxy formed in a desired shape using a transfer molding process, and then cured using an oven.
One feature of this type of BOC package
10
is that using standard wire bonding techniques the wires
34
are formed with a loop height W
1
. In addition, the encapsulant
36
must have a width X
1
, and a thickness Y
1
which insures that the wires
34
are fully covered by a desired covering thickness Z
1
(e.g., 0.02 mm to 0.10 mm). Accordingly, the thickness Y
1
of the encapsulant
36
must be selected to be at least equal to the loop height W
1
plus the covering thickness Z
1
(Y
1
=W
1
+Z
1
). An overall height YP (profile) of the package
10
is thus affected by the loop height W
1
, by the covering thickness Z
1
, and by the thickness Y
1
of the encapsulant
36
.
It would be advantageous to be able to decrease the loop height W
1
and the thickness Y
1
of the encapsulant
36
. In particular, reductions in the loop height W
1
and the thickness Y
1
of the encapsulant
36
would allow the overall height YP of the package
10
to be decreased. Similarly, it would be advantageous to be able to decrease the width X
1
of the encapsulant
36
, as this would decrease the footprint of the BOC package
10
.
Another feature of the BOC package
10
is that the relatively large thickness Y
1
of the encapsulant
36
forms a recess
38
proximate to the external contacts
26
. In order to make electrical contact with a mating substrate, such as a printed circuit board, the external contacts
26
must have a diameter D
1
that is larger than the depth D
2
of the recess
38
. In order to satisfy this requirement the external contacts
26
must be larger than otherwise required. It would be advantageous to be able to decrease the depth D
2
of the recess
38
.
Yet another feature of the BOC package
10
is that during molding of the encapsulant
36
, some mold material may bleed onto the solder mask
32
. The mold bleed can adversely affect bonding of the external contacts
26
to the bonding sites
28
. The mold bleed can also adversely affect the electrical connections to the external contacts
26
, and the cosmetic appearance of the BOC package
10
.
The present invention is directed to an improved BOC package that has a reduced thickness, and a smaller footprint than the prior art BOC package
10
. In addition, the BOC package uses less encapsulant material, has less mold bleed, and a substantially planar encapsulant surface. The present invention is also directed to a method for fabricating the improved package, and to improved electronic assemblies incorporating the package.
SUMMARY OF THE INVENTION
In accordance with the present invention, an improved BOC package, a method for fabricating the BOC package, and electronic assemblies incorporating the BOC package are provided.
The BOC package includes a semiconductor die, a substrate adhesively bonded to the die, and an array of external contacts (e.g., BGA solder balls) on the substrate. The BOC package also includes wires that are wire bonded to the die and to the substrate, and molded segments on either side of the substrate for encapsulating the wires.
The semiconductor die includes a circuit side (face) having a pattern of die contacts in electrical communication with the integrated circuits contained on the die. The substrate also includes a circuit side (face) having a pattern of conductors and wire bonding sites located outside of the peripheral edges of the substrate. In addition, the substrate includes a back side with the external contacts and ball bonding sites for bonding the external contacts to the substrate.
In the BOC package the substrate is bonded to the die with its circuit side “down”, or “facing” the circuit side of the die (i.e., circuit side to circuit side). Stated differently, the circuit side of the substrate faces “in” relative to the exterior of the package, rather than “out” as with conventional BOC packages. This arrangement permits a loop height of the wires, and a height of the molded segments, to be decreased by a distance equal to a thickness of the substrate. In addit
Chai Lee Kian
Hui Chong Chin
Kuan Lee Choon
Eckert George
Gratton Stephen A.
Micro)n Technology, Inc.
Warren Matthew E.
LandOfFree
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