Plastic and nonmetallic article shaping or treating: processes – Direct application of fluid pressure differential to... – Producing multilayer work or article
Reexamination Certificate
2001-12-26
2004-11-02
Ortiz, Angela (Department: 1732)
Plastic and nonmetallic article shaping or treating: processes
Direct application of fluid pressure differential to...
Producing multilayer work or article
C264S272150, C264S272170, C264S275000
Reexamination Certificate
active
06811738
ABSTRACT:
FIELD OF THE INVENTION
The present invention is directed to a method for manufacturing a protective package for an electronic device and, more particularly, an electronic device having a pressure sensor, optical sensor or another type of sensor.
BACKGROUND OF THE INVENTION
It is well known that semiconductor electronic devices comprising pressure sensors and optical sensors have become more important and are more frequently used. To access the active portion of the electronic devices, that comprises the sensor, it is necessary to form packages that include a window.
FIG. 1
shows a perspective view of a package
1
for an electronic device with a sensor formed according to a first known method. Beginning from a substrate
2
, for example, made from semiconductor material, dies made from semiconductor material are formed and comprise an electronic circuit
3
. Such dies are encapsulated by a package
4
made from plastic material, which leaves a portion of the electronic circuit
3
uncovered. For example, an overmolding technique is used to form the package
4
such that a liquid epoxy resin S is dispensed on the substrate
2
and on the perimeter of the electronic circuit portion that must remain uncovered.
The first method is advantageous for many reasons, but it also has some drawbacks. In fact, this method does not produce regular surfaces like the ones formed using the traditional molding method. Moreover, the dimensions of these packages are not completely checkable and the resin depositing process is not easily repeatable, especially on the electronic circuit surface.
Indeed, a second method uses dams
6
that are placed on the substrate
2
, as shown in the sectional view of a package in FIG.
2
. Liquid epoxy resin is then dispensed between the dams, the substrate and the electronic circuit perimeter. Although this approach addresses the proposed objective, it presents some disadvantages. In fact, the resin outline on the integrated circuit surface cannot be maintained at a constant level during the production cycle.
Recently, methods using standard molding techniques for the production of semiconductor packages with a window have been introduced.
FIG. 3
shows a sectional view of a mold
7
that comprises a half-mold
7
a
and a half-mold
7
b
, which define a space
7
c
for containing the electronic device
3
when they are laid on each other. According to this known technique, the upper half-mold
7
b
internally comprises a spring clamp
8
placed in a position almost corresponding to the portion of the electronic circuit to be left uncovered.
Such a spring clamp
8
basically has a parallelepiped shape and is slid into a recess in the upper half-mold
7
b
. The spring clamp
8
is biased by elastic elements, for example springs. When the half-mold
7
b
is laid on the half-mold
7
a
, the spring clamp
8
abuts against the device surface that is to be left empty. A high temperature molten epoxy resin is then injected in the mold to form the plastic package.
Although this method is advantageous for many reasons, it presents the drawback of damaging the circuit operation. In fact, the force applied on the two half-molds during the reciprocal coupling, to prevent the resin from pouring out of the molds when the injection occurs, is about 10-30 tons. Indeed, the force of the spring clamp abutting down against the electronic circuit does not have to be higher than 100 Kilos to possibly damage the electronic circuit
3
. The presence of the spring clamp partially allows the force of the floating clamp abutting the electronic circuit to be modulated. Nevertheless, the direct contact of the metallic clamp against the active surface of the circuit can damage the functionality of the circuit, as shown in FIG.
4
.
A further drawback occurs when the electronic circuit is tilted on the clamp surface, as shown in FIG.
5
. In fact, the method shows an undesired resin infiltration during the mold-filling phase. Also, the electronic circuit surface that is not perfectly parallel to the support is damaged. It has been suggested to coat the mold and the spring clamp with a film tape
9
, as shown in
FIG. 6
, to reduce the possibility of damaging the electronic circuit during, coupling of the two half-molds. Nevertheless, this method can correct only small irregularities of the integrated circuit. The film tape
9
must be also substituted at every new production phase, thereby increasing the production costs.
Further, the uniform deposition of the film tape on the half-mold is very critical. The mold used in conventional molding techniques provides a plurality of mold shapes having adjacent cavities to simultaneously form a plurality of packages. Therefore, the spring clamp must be introduced into the mold for each device to be molded. All of these inserts increase the possibility of having a part of the resin fill the spaces between the mobile portions during the mold-filling phase, thereby causing a jam or a yield reduction due to the resin being deposited on the integrated circuit surface.
SUMMARY OF THE INVENTION
In view of the foregoing background, it is therefore an object of the present invention to provide a method for manufacturing protective packages having a window and presenting features to overcome the manufacturing method drawbacks of prior art.
The present invention forms protective packages for electronic devices by using a mold having an insert or lug. Advantageously, such an insert also comprises an elastic membrane fitting itself to the integrated circuit surface when the mold closes down. In particular, the membrane is urged or biased by a pressured fluid, towards and in pressing contact against the circuit. During the injection phase of the insulating material, a window in the package is formed by the membrane.
More specifically, the invention makes reference to a method for forming a protective package made out of plastic material for an electronic circuit integrated on a semiconductor substrate and comprising an electronic circuit that can be at least partially activated from the outside of the protective package and that is to be encapsulated in the protective package.
Furthermore, the invention is directed to a mold for molding a plastic protective package encapsulating an integrated electronic circuit that can be at least partially activated from the outside of the protective packaging. The mold is formed by a pair of half-molds laid on each other to make a space for containing the integrated circuit. The invention particularly relates, but not exclusively, to a method for forming a protective package made out of plastic material for an integrated electronic device having a window to at least partially access the electronic device. The following description is made with reference to this field and only to simplify its explanation.
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patent: 5424249 (1995-06-01), Ishibashi
patent: 5622873 (1997-04-01), Kim et al.
patent: 5773322 (1998-06-01), Weld
patent: 5862248 (1999-01-01), Salatino et al.
patent: 5929517 (1999-07-01), Distefano et al.
patent: 5997798 (1999-12-01), Tetreault et al.
patent: 6000924 (1999-12-01), Wang et al.
patent: 6164946 (2000-12-01), Mess
patent: 6193493 (2001-02-01), Steijer et al.
patent: 6667439 (2003-12-01), Salatino et al.
patent: 0 813 236 (1997-12-01), None
patent: 87/04973 (1987-08-01), None
patent: WO 94/16544 (1994-07-01), None
Patent abstracts of Japan, vol. 1998, No. 08 dated Jun. 30, 1998; publication No. 10075040 published on Mar. 17, 1998, entitled “Method for Manufacturing Resin-Coated Circuit Board”; Applicant: Toshiba Chem Corp.
Cigada Andrea
Magni Pierangelo
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