Metal working – Method of mechanical manufacture – Electrical device making
Reexamination Certificate
2001-02-13
2004-04-06
Cuneo, Kamand (Department: 2827)
Metal working
Method of mechanical manufacture
Electrical device making
C029S852000, C029S853000
Reexamination Certificate
active
06715204
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a printed circuit board and a method of manufacturing same, and more particularly, to the formation of a pattern and the formation of a blind via hole on a printed circuit board.
In the prior art, a printed circuit board includes an insulative substrate having an upper surface on which an upper surface pattern is formed and a lower surface on which a lower surface pattern is formed, and blind via holes for electrically connecting the upper and lower surface patterns. Due to the recent trend of greater integration, a blind via hole is formed by a laser so that it has a microscopic diameter.
To form a blind via hole with a laser, as shown in FIG.
4
(
a
), an upper surface and a lower surface of an insulative substrate
95
are respectively coated by upper surface and lower surface metal foils
921
,
922
. An opening
920
is formed in the upper surface metal foil
921
in correspondence with a blind via hole formation portion
935
, and a laser
94
is emitted toward the opening
920
. The laser
94
forms an opening in the insulative substrate
95
at a position corresponding to the blind via hole formation portion
935
and forms a blind via hole
93
that extends to the lower surface metal foil
922
. As shown in FIG.
4
(
b
), after the formation of the blind via hole
93
is completed, chemical plating or electroplating is performed to form a metal plating film
923
on the wall of the blind via hole
93
.
However, since the metal foil is thick in the conventional printed circuit board, etching must be performed under severe conditions, and etching takes time. Thus, the formation of the upper surface pattern through etching is difficult. This decreases work efficiency.
Accordingly, the thickness of the metal foil may be reduced. However, in this case, as shown in FIG.
4
(
x
), the thickness of the lower surface metal foil
922
is reduced, the laser
94
may inflict damage
929
on the lower surface metal foil
922
.
It is an object of the present invention to provide a printed circuit board and method of manufacturing same that facilitate the formation of the upper surface pattern and prevent a laser from damaging the lower metal foil when forming blind via holes.
SUMMARY OF THE INVENTION
A first embodiment according to the present invention proposes a method for manufacturing a printed circuit board. The method includes the steps of coating a lower surface and an upper surface of an insulative substrate, respectively, with a lower surface metal foil and an upper surface metal foil, the thickness of which is less than that of the lower surface metal foil, forming an opening in the upper surface metal foil at a portion corresponding to a blind via hole formation portion of the insulative substrate, forming a blind via hole, the bottom of which is the lower surface metal foil, by emitting a laser against the blind via hole formation portion through the opening, applying a conductor to the blind via hole, and forming an upper surface pattern and a lower surface pattern by respectively etching the upper surface metal foil and the lower surface metal foil.
The thickness of the upper surface metal foil is less than the thickness of the lower surface metal foil. This facilitates etching of the upper surface pattern, and the thickness of the lower surface metal foil is such that the lower surface metal foil is prevented from being damaged by the emission of a laser during formation of the blind via hole. Accordingly; the upper pattern is easily formed through etching, damage to the lower surface pattern due to the laser emission is prevented, and a conductor is applied to the blind via hole in a satisfactory state.
When making the upper surface metal foil thinner than the lower surface metal foil, after both surfaces of the insulative substrate are respectively coated with an upper surface metal foil and a lower surface metal foil that have the same thickness, it is preferred that etching be performed on the upper surface metal foil to remove part of the upper surface metal foil. In this manner, by performing etching in a single step, the formation of the thin upper surface metal foil is facilitated.
Alternatively, when making the upper surface metal foil thinner than the lower surface metal foil, after both surfaces of the insulative substrate are respectively coated with an upper surface metal foil and a lower surface metal foil that have the same thickness, a metal plating film may further be applied to the surface of the lower metal foil.
It is preferred that the thickness of the upper surface pattern be 2 to 12 &mgr;m. When thinner than 2 &mgr;m, the strength of the upper pattern may be insufficient. When thicker than 12 &mgr;m, etching may be difficult during the formation of the upper surface pattern.
It is preferred that the thickness of the lower surface pattern be 15 to 25 &mgr;m. When thinner than 15 &mgr;m, the lower surface pattern, which defines the bottom of the blind via hole, may be damaged by the laser emission. Further, there is no benefit to making the thickness greater than 25 &mgr;m.
To apply a conductor to the via hole, for example, chemical plating and electroplating may be performed to form a metal plating film on the wall of the via hole or the interior of the via hole may be filled with a conductive material, such as solder. However, other methods may be employed to apply a conductor.
A resin material, such as epoxy, polyimide, and bismaleimidetriazine, or a filler-containing multiple resin substrate made of these resin materials in addition to glass cloth and glass filler may be used as the insulative substrate.
The upper surface metal foil and the lower surface metal foil may, for example, both be made of copper foil, although other materials may be used.
In the above manufacturing method, the upper surface pattern and the lower surface pattern are formed after applying a conductor to the blind via hole. However, the upper surface pattern and the lower surface pattern may be formed before forming the blind via hole.
That is, in a second embodiment according to the present invention, a method for manufacturing a printed circuit board includes the steps of coating a lower surface and an upper surface of an insulative substrate respectively with a lower surface metal foil and an upper surface metal foil the thickness of which is less than that of the lower surface metal foil and forming an upper surface pattern and a lower surface pattern by respectively etching the upper surface metal foil and the lower surface metal foil. The upper surface pattern has an opening exposing the upper surface of the insulative substrate at a portion corresponding to a blind via hole formation portion. The lower surface pattern covers the lower surface of the insulative substrate at a portion corresponding to the blind via hole formation portion. The method further includes the steps of forming a blind via hole, the bottom of which is the lower surface pattern, by emitting a laser against the insulative substrate through the opening, and applying a conductor to the blind via hole.
The manufacturing method of the second embodiment obtains the same effects as the manufacturing method of the first aspect. The details are the same as the manufacturing method of the first embodiment.
A third embodiment provides a printed circuit board obtained through the manufacturing method of the first or second embodiments. The printed circuit board includes an insulative substrate, an upper surface pattern and a lower surface pattern provided, respectively, on an upper surface and a lower surface of the insulative substrate, and a blind via hole for electrically connecting the upper surface pattern and the lower surface pattern. An upper portion of the blind via hole is opened and a bottom of the blind via hole is covered by the lower surface pattern. The thickness of the upper surface pattern is less than that of the lower surface pattern.
The upper surface pattern is thinner than the lower surface pattern. Thus, when manufact
Chihara Kenji
Takada Masaru
Tsukada Kiyotaka
Boyle Fredrickson Newholm Stein & Gratz S.C.
Cuneo Kamand
Ibiden Co. Ltd.
Norris Jeremy
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