Active solid-state devices (e.g. – transistors – solid-state diode – Combined with electrical contact or lead – Chip mounted on chip
Reexamination Certificate
2001-08-28
2003-01-28
Paladini, Albert W. (Department: 2827)
Active solid-state devices (e.g., transistors, solid-state diode
Combined with electrical contact or lead
Chip mounted on chip
C257S778000, C257S686000, C257S723000, C257S779000, C257S780000, C257S784000, C257S774000
Reexamination Certificate
active
06512302
ABSTRACT:
TECHNICAL FIELD
The present invention relates to apparatus and methods of packaging and testing die for use in, for example, chip scale packages and other similar devices.
BACKGROUND OF THE INVENTION
Conventional packaging of die in microelectronic devices involves two levels of packaging.
FIG. 1
shows a first level of packaging of a die package
40
in accordance with the prior art. In this example, a die (or integrated circuit)
20
is attached to a lead frame
22
having a plurality of conductive leads
24
formed thereon. The die
20
is typically attached with a layer of adhesive epoxy or glue. Bonding pads
26
on the die
20
are connected by bonding wires
28
to respective contact pads
30
on the lead frame
22
, a technique commonly known as wire-bonding. The contact pads
30
are electrically coupled to an inner end of each conductive lead
24
. In this representative example. each conductive lead
24
has an outer end that terminates in a connecting pin
32
. The die
20
and lead frame
22
are then encapsulated by a cover
34
, thus constituting the first level of packaging. In a second level of packaging, the encapsulated die and lead frame may be mounted to an electronics device, such as by inserting the connecting pins
32
into associated sockets on a printed circuit board and securing the pins in place using solder reflow techniques.
Recently, die have been mounted directly to a substrate, such as a printed circuit board, thus eliminating the lead frame and the first level of packaging. Mounting of the die
20
directly to a circuit board is generally referred to as chip-on-board (COB) packaging. For example,
FIG. 2
shows the die
20
mounted directly to a circuit board
40
in a COB or “flip chip” packaging arrangement. In this arrangement, the bonding pads
26
are located on a bottom surface of the die
20
. The circuit board
40
has a set of terminals or conductive bumps
42
on one surface. As shown in
FIG. 2
, the die
20
is mounted with the bonding pads
26
of the die
20
facing the surface of the printed circuit board
40
to which the die
20
is being mounted such that the bonding pads
26
make direct contact with the terminals
42
. Thus, the bonding wires
28
and lead frame
22
are eliminated.
It is customary to provide a layer of material known as a glob top or encapsulating layer
44
over the die
20
to hermetically seal the die
20
. The glob top
44
serves as a chemical insulator protecting the die
20
from humidity, oxidation, and other harmful elements. The glob top
44
also protects the die
20
mechanically and relieves mechanical stress in the die
20
.
It is also known to stack die on top of another die to save space on the printed circuit board. For example,
FIG. 3
shows a packaging arrangement having an inner die
50
mounted in a flip chip arrangement on the circuit board
40
such that the bonding pads
26
of the inner die
50
are in direct contact with the conductive terminals
42
on the circuit board
40
. An outer die
52
is attached to the inner die
50
. Bonding wires
28
extend from a set of second bonding pads
54
on the outer die
52
to a set of second terminals
56
on the circuit board
40
. A glob top
44
is then applied over the stacked die to hermetically seal and protect the die
50
,
52
.
A conventional method of testing the stacked die
50
,
52
arrangement is to test the package after it has been completely assembled. Testing of the die prior to packaging is typically limited to spot-checking of a random sample of the die while the die are attached to the wafer.
FIG. 4
shows a conventional method
60
of assembling and testing stacked die on a printed circuit board (PCB). In a first step
62
, the inner die
50
is attached to the PCB
40
with the contact pads
26
of the inner die
50
in contact with the terminals
42
. The outer die
52
is then attached to the inner die
50
in a second step
64
, and the glob top is applied to encapsulate the die in a third “sealing” step
65
.
In a fourth “testing” step
66
, input signals are systematically applied to the package to test all or some aspects of component performance, including speed, functionality, open circuits, shorts, and burn-in testing. In a fifth “determination” step
68
, it is determined whether the package has performed the tests successfully. If so, the assembly and test method is complete
70
.
If the package has not performed the tests successfully, it is determined whether the package has previously been reworked
72
. If the package has been previously reworked but continues to fail the tests, the entire package is discarded in a “rejection” step
74
, including the inner die, the outer die, and in some cases even the PCB. If the package has not been previously reworked, however, the package is reworked
76
, and the package is returned to the testing step
66
for evaluation.
Although successful results have been achieved using the above-referenced die packages, and methods of assembling and testing such die packages, certain disadvantages have been encountered. For example, because the glob top
44
is designed to protect the die from environmental and mechanical stress, the materials used for the glob top are typically poor thermal conductors. Due to relatively poor heat dissipation through the glob top, the die or the PCB may become hotter than desirable, particularly for stacked die or high-power die applications.
Furthermore, because the conventional method of testing the die package involves testing after the inner die has been attached to the PCB and the outer die has been attached to the inner die, if a package does not pass a test successfully, the stacked die and PCB package must undergo a time-consuming and costly rework procedure, or must be discarded entirely. This is particularly true if the testing is performed after the glob top has been applied.
SUMMARY OF THE INVENTION
The present invention is directed to apparatus and methods of packaging and testing die for use in, for example, chip scale packages and other similar devices. In one aspect of the invention, a stacked die package comprises a packaging substrate including a first surface having a recess disposed therein and a plurality of conductive leads coupled thereto, a first die attached to the packaging substrate within the recess and having a plurality of first bond pads, and a second die attached to the first die and having a plurality of second bond pads, the first and second bond pads being electrically coupled to at least some of the conductive leads. When the stacked die package is engaged with, for example, a circuit board, the first surface of the packaging substrate is proximate the circuit board so that the packaging substrate at least partially encloses and protects the first and second die. The properties and dimensions of the packaging substrate are tailored to optimize the operational environment of the die, including improving thermal dissipation and enhancing performance of the die. In an alternate aspect, the packaging substrate comprises an electrically-conductive substrate and an electrically insulative layer is formed between the conductive leads and the packaging substrate.
In another aspect of the invention the first bond pads are electrically coupled to the conductive leads by wire-bonding. Alternately, the first bond pads are in direct contact with the conductive leads in a flip chip arrangement. In another aspect, the first and second die are sealed within an encapsulating layer for protection.
A method of packaging and testing a die package in accordance with the invention includes testing a die having a plurality of bond pads formed thereon, determining that the die has tested successfully, providing a packaging substrate including a first surface having a recess formed therein and a plurality of conductive leads formed thereon, attaching the die to the packaging substrate within the recess and with the bond pads electrically coupled to at least some of the conductive leads to form the die package, and testing the
Corisis David J.
Kinsman Larry D.
Mess Leonard E.
Moden Walter L.
Dorsey & Whitney LLP
Paladini Albert W.
Thai Luan
LandOfFree
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