Semiconductor Device, Wiring Board, And Manufacturing Method Thereof
First Claim
1. A semiconductor device characterized by comprising:
- a wiring board comprising a plurality of connecting terminals arranged on one surface in a direction of thickness and a plurality of external connecting bumps arranged on the other surface in the direction of thickness; and
at least one semiconductor chip connected to said connecting terminals, wherein said wiring board comprises;
a first wiring portion comprising a plurality of wiring layers and said external connecting bumps; and
a second wiring portion electrically connected to said first wiring portion and integrated with said first wiring portion in the direction of thickness, said connecting terminals are made of contact plugs formed in through holes extending through the second wiring portion in the direction of thickness, sizes of opposing surfaces of said first wiring portion and said second wiring portion are equal, a thermal expansion coefficient of said second wiring portion is smaller than a thermal expansion coefficient of said first wiring portion and equal to a thermal expansion coefficient of said semiconductor chip, said semiconductor chip is a silicon chip, said second wiring portion comprises a base made of silicon, and said contact plugs are formed in said base.
2 Assignments
0 Petitions
Accused Products
Abstract
A wiring board (20) includes a first wiring portion (10) having a plurality of wiring layers (1) and a plurality of external connecting bumps (5), and a second wiring portion (15) integrated with the first wiring portion in the direction of thickness. The thermal expansion coefficient of the second wiring portion is made smaller than that of the first wiring portion, and equal to that of a semiconductor chip (30) to be mounted on the wiring board. This suppresses the internal stress resulting from the thermal expansion coefficient difference between the semiconductor chip and wiring board, and increases the reliability of a semiconductor device (50) obtained by mounting the semiconductor chip on the wiring board. The sizes of the opposing surfaces of the first and second wiring portions are also made equal. This requires only one second wiring portion to be formed even when improving the performance of the semiconductor device by mounting a plurality of semiconductor chips on the wiring board, thereby improving the performance at a low cost.
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Citations
18 Claims
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1. A semiconductor device characterized by comprising:
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a wiring board comprising a plurality of connecting terminals arranged on one surface in a direction of thickness and a plurality of external connecting bumps arranged on the other surface in the direction of thickness; and
at least one semiconductor chip connected to said connecting terminals, wherein said wiring board comprises;
a first wiring portion comprising a plurality of wiring layers and said external connecting bumps; and
a second wiring portion electrically connected to said first wiring portion and integrated with said first wiring portion in the direction of thickness, said connecting terminals are made of contact plugs formed in through holes extending through the second wiring portion in the direction of thickness, sizes of opposing surfaces of said first wiring portion and said second wiring portion are equal, a thermal expansion coefficient of said second wiring portion is smaller than a thermal expansion coefficient of said first wiring portion and equal to a thermal expansion coefficient of said semiconductor chip, said semiconductor chip is a silicon chip, said second wiring portion comprises a base made of silicon, and said contact plugs are formed in said base. - View Dependent Claims (5, 6)
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2. (canceled)
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3. (canceled)
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4. (canceled)
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7. A wiring board characterized by comprising:
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a first wiring portion comprising a plurality of wiring layers and a plurality of external connecting bumps; and
a second wiring portion comprising a plurality of connecting terminals configured to connect to at least one semiconductor chip, wherein said second wiring portion is electrically connected to said first wiring portion and integrated with said first wiring portion in a direction of thickness, said connecting terminals are made of contact plugs formed in through holes extending through said second wiring portion in the direction of thickness, sizes of opposing surfaces of said first wiring portion and said second wiring portion are equal, a thermal expansion coefficient of said second wiring portion is smaller than a thermal expansion coefficient of said first wiring portion and equal to a thermal expansion coefficient of said semiconductor chip, said second wiring portion comprises a base made of silicon, and said contact plugs are formed in said base. - View Dependent Claims (11, 12)
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8. (canceled)
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9. (canceled)
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10. (canceled)
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13. A wiring board manufacturing method characterized by comprising the steps of:
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forming a first wiring portion comprising a plurality of wiring layers and a plurality of external connecting bumps; and
forming a second wiring portion comprising a plurality of connecting terminals configured to connect to at least one semiconductor chip, such that the second wiring portion is integrated with the first wiring portion in a direction of thickness, wherein the connecting terminals are made of contact plugs formed in through holes extending through the second wiring portion in the direction of thickness, sizes of opposing surfaces of the first wiring portion and the second wiring portion are equal, a thermal expansion coefficient of the second wiring portion is smaller than a thermal expansion coefficient of the first wiring portion and equal to a thermal expansion coefficient of the semiconductor chip, the step of forming the first wiring portion comprises the step of forming at least a portion of the first wiring portion on one surface in the direction of thickness of a silicon base of the second wiring portion, and the step of forming the second wiring portion comprises the steps of;
forming a plurality of recesses in said one surface of the base;
burying a conductive material in the recesses; and
after the step of forming at least a portion of the first wiring portion, thinning the base from the other surface in the direction of thickness of the base to expose the conductive material buried in the recesses, thereby forming the contact plugs and obtaining the second wiring portion. - View Dependent Claims (17, 18)
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14. (canceled)
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15. (canceled)
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16. (canceled)
Specification