Circuit board and production of the same
First Claim
1. A circuit board, comprising:
- not less than two wiring layers;
an insulator layer for electric insulation between the wiring layers; and
an inner-via-hole conductive member provided in the insulator layer in a thickness direction of the insulator layer for electric connection between the wiring layers, wherein;
the insulator layer is made of a composite material containing an organic resin and a material having a smaller thermal expansion coefficient than that of the organic resin, and includes a surface part, a core part, and a surface part laminated in the stated order, the surface part having a high content of the organic resin, the core part having a low content of the organic resin;
the wiring layers have a land portion that is connected with the inner-via-hole conductive member, the land portion being embedded so as to be substantially in contact with the core part; and
the inner-via-hole conductive member has a thickness substantially equal to a thickness of the core part.
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Accused Products
Abstract
A circuit board is configured so as to include not less than two wiring layers, an insulator layer for electric insulation between the wiring layers, and an inner-via-hole conductive member provided in the insulator layer in a thickness direction of the insulator layer, for electric connection between the wiring layers. The insulator layer is made of a composite material containing an organic resin and a material having a smaller thermal expansion coefficient than that of the organic resin, and includes a surface part, a core part, and a surface part laminated in the stated order, the surface part having a high content of the organic resin, the core part having a low content of the organic resin. The wiring layers have a land portion that is connected with the inner-via-hole conductive member, the land portion being embedded so as to be substantially in contact with the core part, and the inner-via-hole conductive member has a thickness substantially equal to a thickness of the core part. According to this configuration, a part of the metal foil is embedded in the insulator layer so as to be in contact with the core layer. Therefore, this makes it possible to provide a circuit board in which portions of the conductive material can be selectively compressed, and which hence is capable of ensuring stable connection between layers.
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Citations
26 Claims
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1. A circuit board, comprising:
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not less than two wiring layers;
an insulator layer for electric insulation between the wiring layers; and
an inner-via-hole conductive member provided in the insulator layer in a thickness direction of the insulator layer for electric connection between the wiring layers, wherein;
the insulator layer is made of a composite material containing an organic resin and a material having a smaller thermal expansion coefficient than that of the organic resin, and includes a surface part, a core part, and a surface part laminated in the stated order, the surface part having a high content of the organic resin, the core part having a low content of the organic resin;
the wiring layers have a land portion that is connected with the inner-via-hole conductive member, the land portion being embedded so as to be substantially in contact with the core part; and
the inner-via-hole conductive member has a thickness substantially equal to a thickness of the core part. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 19, 20, 21, 22, 23, 25, 26)
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18. A circuit board producing method, the circuit board including not less than two wiring layers, an insulator layer for electric insulation between the wiring layers, and an inner-via-hole conductive member provided in the insulator layer in a thickness direction of the insulator layer for electric connection between the wiring layers,
the circuit board producing method comprising the steps of: -
making an insulator layer of a composite material containing an organic resin and a material having a smaller thermal expansion coefficient than that of the organic resin so that the insulator layer includes a surface part, a core part, and a surface part laminated in the stated order, the surface part having a high content of the organic resin, the core part having a low content of the organic resin;
opening an inner via hole in the insulator layer in a thickness direction of the insulator layer, and filling the inner via hole with a conductive material;
providing metal foils on both sides of the insulator layer, each metal foil having a protruded portion at a predetermined position so that the position coincides with a position of the inner via hole filled with the conductive material;
applying heat and pressure to external sides of the metal foils by hot pressing so that the protruded portions of the metal foils come substantially in contact with the core part of the insulator layer, to cause the inner via hole filled with the conductive material to form an inner-via-hole conductive member with a thickness substantially equal to a thickness of the core part; and
etching the metal foils so as to leave the protruded portion as the land portion.
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24. A circuit board producing method, the circuit board including not less than two wiring layers, an insulator layer for electric insulation between the wiring layers, and an inner-via-hole conductive member provided in the insulator layer in a thickness direction of the insulator layer for electric connection between the wiring layers,
the circuit board producing method comprising the steps of: -
making an insulator layer of a composite material containing an organic resin and a material having a smaller thermal expansion coefficient than that of the organic resin so that the insulator layer includes a surface part, a core part, and a surface part laminated in the stated order, the surface part having a high content of the organic resin, the core part having a low content of the organic resin;
opening an inner via hole in the insulator layer in a thickness direction of the insulator layer, and filling the inner via hole with a conductive material;
providing transfer bases on both sides of the insulator layer, each of the transfer bases having a metal foil patterned in a predetermined pattern so as to coincide with a position of the inner via hole filled with the conductive material; and
applying heat and pressure to external sides of the transfer bases by hot pressing so that the metal foils come substantially in contact with the core part of the insulator layer, to cause the inner via hole filled with the conductive material to form an inner-via-hole conductive member with a thickness substantially equal to a thickness of the core part.
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Specification