Semiconductor device manufacturing: process – Coating with electrically or thermally conductive material
Reexamination Certificate
2002-08-22
2004-07-20
Cuneo, Kamand (Department: 2829)
Semiconductor device manufacturing: process
Coating with electrically or thermally conductive material
Reexamination Certificate
active
06764931
ABSTRACT:
BACKGROUND OF THE INVENTION
(a) Field of the Invention
The present invention relates to technologies for manufacturing multilayer wiring boards used as packages for mounting semiconductor elements (hereinafter referred to as “semiconductor packages”). More specifically, the present invention relates to a semiconductor package containing a capacitor portion using a conductive resin layer formed on a wiring layer, a method of manufacturing the same and a semiconductor device.
(b) Description of the Related Art
In order to meet demands for higher density, semiconductor packages in recent years include wiring patterns which are disposed close to one another. Accordingly, such semiconductor packages would incur problems such as an occurrence of crosstalk noises between a plurality of wiring, or fluctuation of electric potential of power source line and the like. In particular, a package for mounting a semiconductor element for high-frequency use, in which high-speed switching operations are required, tends to incur crosstalk noises along with an increase in frequency or incur switching noises because a switching element therein is turned on and off in a high speed. As a result, electric potential of a power source line and the like tends to vary easily.
Therefore, as a remedy for the foregoing problems, “decoupling” of a signal line or a power source line has been heretofore put into practice. Such decoupling is carried out by adding capacitor elements such as chip capacitors to a package mounting a semiconductor element thereon.
However, in this case, design freedom of wiring patterns may be restricted by provision of the chip capacitors, or an increase in inductance may be incurred due to elongated wiring patterns for connecting the chip capacitors and power/ground terminals of the semiconductor element. As the decoupling effect of the chip capacitor is impaired where the inductance is large, it is preferred to set the inductance as small as possible. In other words, it is desirable to dispose the capacitor elements such as chip capacitors as close to the semiconductor element as possible.
There is also a risk that the package becomes larger and heavier as a whole because the capacitor elements such as chip capacitors are added to the package, which goes against the tide of downsizing and weight saving of semiconductor packages in recent years.
Therefore, instead of adding the capacitor elements such as chip capacitors to the package, it is conceivable to allow the package to contain equivalent capacitor elements (capacitor portions) in order to deal with the above-mentioned inconveniences.
Conventionally, technologies for building the capacitor portion into the package have been limited to a few methods, such as a method of laminating a sheet member containing inorganic filler for improving dielectric constant between wiring layers, as a dielectric layer of the capacitor portion.
As described above, in the conventional semiconductor package, the sheet member made of a high-dielectric material is laminated between the wiring layers as the dielectric layer of the capacitor portions in the case of allowing the package to contain the capacitor elements (the capacitor portions) for exerting the decoupling effect. In this context, it is necessary to form an insulating layer between the wiring layers thicker than the dielectric layer concerned. Accordingly, there arises an inconvenience in that the thickness of the interlayer insulating film cannot be sufficiently made thin.
Such an inconvenience inhibits formation of a low-profile semiconductor package and resultantly goes against the tide of recent demands for providing a high-density equipped semiconductor device while reducing an entire thickness of the package. In addition, costs for an interlayer insulating film rise as a film thickness thereof increases. As a result, there is also a problem of an increase in manufacturing costs of the package.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a semiconductor package capable of containing a capacitor portion for exerting a decoupling effect without inhibiting formation of a low-profile package or increasing manufacturing cost, and also to provide a manufacturing method thereof and a semiconductor device.
To attain the above object, according to one aspect of the present invention, there is provided a method of manufacturing a semiconductor package containing a capacitor portion. Here, the method includes the steps of forming a first wiring layer on an insulative base member, the first wiring layer being patterned in a predetermined shape for serving as a first electrode layer of the capacitor portion, forming a resin layer on a surface of the first wiring layer for serving as a dielectric layer of the capacitor layer by an electrophoretic deposition process, and forming a second wiring layer on the insulative base member inclusive of the resin layer, the second wiring layer being patterned in a predetermined shape for serving as a second electrode layer of the capacitor portion.
According to the method of manufacturing a semiconductor package of the present invention, it is possible to constitute the capacitor portion by using the resin layer formed on the first wiring layer on the insulative base member by the electrophoretic deposition process as the dielectric layer and by using the first wiring layer and the second wiring layer formed on the insulative base member inclusive of the resin layer severally as electrode layers.
In this way, a desired decoupling effect (suppression of occurrence of crosstalk noises between a plurality of wiring, suppression of variation in electric potential of a power source line, and the like) can be realized. Moreover, some of the members constituting the package (namely, the first and the second wiring layers and the resin layer) are also used as the respective electrode layers and as the dielectric layer of the capacitor portion. Accordingly, it is unnecessary to build a sheet member into the package for capacitor elements as encountered in the prior art. Such an advantage contributes to a formation of a low-profile semiconductor package as well as to a reduction in manufacturing costs.
Moreover, according to another aspect of the present invention, there is provided a semiconductor package manufactured in accordance with the above-described method of manufacturing a semiconductor package.
Furthermore, according to still another aspect of the present invention, there is provided a semiconductor device comprising the above-mentioned semiconductor package and a semiconductor element mounted on an opposite side of the semiconductor package to the side where the external connection terminals are bonded, electrode terminals of the semiconductor element being electrically connected to the conductors exposed from the openings formed in the protective film.
REFERENCES:
patent: 5796587 (1998-08-01), Lauffer et al.
Nakamura et al., “Polyimide Films Prepared by Electrophoretic Deposition and Their Dielectric Breakdown”, SPIE, vol. 2780, pp. 71-75, Sep. 11-14, 1995.
Iijima Takahiro
Rokugawa Akio
Shimizu Noriyoshi
Armstrong Kratz Quintos Hanson & Brooks, LLP
Cuneo Kamand
Geyer Scott B.
Shinko Electric Industries Co. Ltd.
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