Integrated circuit device
First Claim
Patent Images
1. An integrated circuit device comprising:
- a substrate;
an integrated circuit formed over one surface of the substrate; and
a plurality of depressed portions formed at the other surface of the substrate,wherein the other surface has a larger surface area than the one surface,wherein the plurality of depressed portions contains a heat sink material,wherein the plurality of depressed portions does not penetrate through the substrate,wherein the integrated circuit comprises a thin film transistor,wherein the plurality of depressed portions has a U shape, andwherein the substrate remains at a bottom of the plurality of depressed portions.
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Abstract
To solve the problems caused by accumulation of heat generated from an integrated circuit. The integrated circuit device of the invention includes a substrate over one surface of which an integrated circuit is formed. The other surface of the substrate (a surface over which the integrated circuit is not formed) includes a depressed portion and has a larger surface area than the one surface. The depressed portion formed on the other surface of the substrate is filled with a heat sink material, or a film containing a heat sink material is formed at least over the surface of the depressed portion. Such integrated circuit devices may be provided in a multilayer structure.
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Citations
19 Claims
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1. An integrated circuit device comprising:
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a substrate; an integrated circuit formed over one surface of the substrate; and a plurality of depressed portions formed at the other surface of the substrate, wherein the other surface has a larger surface area than the one surface, wherein the plurality of depressed portions contains a heat sink material, wherein the plurality of depressed portions does not penetrate through the substrate, wherein the integrated circuit comprises a thin film transistor, wherein the plurality of depressed portions has a U shape, and wherein the substrate remains at a bottom of the plurality of depressed portions.
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2. An integrated circuit device comprising:
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a plurality of substrates stacked with each other; an integrated circuit formed over one surface of each of the plurality of substrates; and a plurality of depressed portions formed at the other surface of each of the plurality of substrates, wherein the other surface has a larger surface area than the one surface, wherein the plurality of depressed portions contains a heat sink material, wherein a thickness of the plurality of substrates is 100 μ
m or less,wherein the plurality of depressed portions does not penetrate through the substrate, wherein the integrated circuit comprises a thin film transistor, wherein the plurality of depressed portions has a U shape, and wherein the substrate remains at a bottom of the plurality of depressed portions.
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3. An integrated circuit device comprising:
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a substrate; an integrated circuit formed over one surface of the substrate; and a plurality of depressed portions formed at the other surface of the substrate, wherein the other surface has a larger surface area than the one surface, and wherein a film containing a heat sink material is formed over at least surfaces of the plurality of depressed portions, wherein the plurality of depressed portions does not penetrate through the substrate, wherein the integrated circuit comprises a thin film transistor, wherein the plurality of depressed portions has a U shape, and wherein the substrate remains at a bottom of the plurality of depressed portions.
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4. An integrated circuit device comprising:
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a plurality of substrates stacked with each other; an integrated circuit formed over one surface of each of the plurality of substrates; and a plurality of depressed portions formed at the other surface of each of the plurality of substrates, wherein the other surface has a larger surface area than the one surface, wherein a film containing a heat sink material is formed over at least surfaces of the depressed portions, wherein a thickness of the plurality of substrates is 100 μ
m or less,wherein the plurality of depressed portions does not penetrate through the substrate, wherein the integrated circuit comprises a thin film transistor, wherein the plurality of depressed portions has a U shape, and wherein the substrate remains at a bottom of the plurality of depressed portions.
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5. An integrated circuit device comprising:
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a plurality of substrates stacked with each other; an integrated circuit formed over one surface of each of the plurality of substrates; and a plurality of depressed portions formed at the other surface of each of the plurality of substrates, wherein the other surface has a larger surface area than the one surface, wherein the plurality of depressed portions contains a heat sink material, wherein each of the plurality of substrates includes a heat dissipation portion, wherein a thickness of the plurality of substrates is 100 μ
m or less,wherein the plurality of depressed portions does not penetrate through the substrate, wherein the integrated circuit comprises a thin film transistor, wherein the plurality of depressed portions has a U shape, and wherein the substrate remains at a bottom of the plurality of depressed portions.
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6. An integrated circuit device comprising:
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a plurality of substrates stacked with each other; an integrated circuit formed over one surface of each of the plurality of substrates; and a plurality of depressed portions formed at the other surface of each of the plurality of substrates, wherein the other surface has a larger surface area than the one surface, wherein a film containing a heat sink material is formed over at least surfaces of the depressed portions, wherein each of the plurality of substrates includes a heat dissipation portion, wherein a thickness of the plurality of substrates is 100 μ
m or less,wherein the plurality of depressed portions does not penetrate through the substrate, wherein the integrated circuit comprises a thin film transistor, wherein the plurality of depressed portions has a U shape, and wherein the substrate remains at a bottom of the plurality of depressed portions.
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7. An integrated circuit device comprising:
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a plurality of substrates stacked with each other; an integrated circuit formed over one surface of each of the plurality of substrates; and a plurality of depressed portions formed at the other surface of each of the plurality of substrates, wherein the other surface has a larger surface area than the one surface, wherein the plurality of depressed portions contains a heat sink material, wherein a part of the plurality of substrates includes a heat dissipation portion, wherein a thickness of the plurality of substrates is 100 μ
m or less,wherein the plurality of depressed portions does not penetrate through the substrate, wherein the integrated circuit comprises a thin film transistor, wherein the plurality of depressed portions has a U shape, and wherein the substrate remains at a bottom of the plurality of depressed portions.
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8. An integrated circuit device comprising:
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a plurality of substrates stacked with each other; an integrated circuit formed over one surface of each of the plurality of substrates; and a plurality of depressed portions formed at the other surface of each of the plurality of substrates, wherein the other surface has a larger surface area than the one surface, wherein a film containing a heat sink material is formed over at least surfaces of the depressed portion, wherein a part of the plurality of substrates includes a heat dissipation portion, wherein a thickness of the plurality of substrates is 100 μ
m or less,wherein the plurality of depressed portions does not penetrate through the substrate, wherein the integrated circuit comprises a thin film transistor, wherein the heat sink material is formed of a material in which a metal is mixed with polymer, and wherein the substrate remains at a bottom of the plurality of depressed portions.
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9. The integrated circuit device according to any one of claim 1 to 8, wherein the heat sink material has a higher thermal conductivity than the substrate.
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10. The integrated circuit device according to any one of claims 1 to 8, wherein the substrate is one of a glass substrate and a quartz substrate, and wherein the heat sink material has a thermal conductivity of 2 W/(m·
- K) or more at 20°
C.
- K) or more at 20°
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11. The integrated circuit device according to any one of claim 1 to 8, wherein the substrate is one of a glass substrate and a quartz substrate, and wherein the heat sink material has a thermal conductivity of 10 W/(m·
- K) or more at 20°
C.
- K) or more at 20°
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12. The integrated circuit device according to any one of claims 1 to 8, wherein the substrate is one of a glass substrate and a quartz substrate, and wherein the heat sink material has a thermal conductivity of 100 W/(m·
- K) or more at 20°
C.
- K) or more at 20°
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13. The integrated circuit device according to any one of claim 1 to 8, wherein the substrate is a Si substrate, and wherein the heat sink material has a thermal conductivity of 150 W/(m·
- K) or more at 20°
C.
- K) or more at 20°
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14. The integrated circuit device according to any one of claim 1 to 8, wherein the substrate is a Si substrate, and wherein the heat sink material has a thermal conductivity of 200 W/(m·
- K) or more at 20°
C.
- K) or more at 20°
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15. The integrated circuit device according to claim 1, wherein the substrate has a thickness of 100 μ
- m or less.
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16. The integrated circuit device according to any one of claims 1 to 8, wherein the integrated circuit device is incorporated in one selected from the group consisting of a television receiver, a digital camera, a video camera, a computer, a mobile telephone, an image reproducing device, an electronic book, and an IC card.
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17. The integrated circuit device according to claim 3, wherein the substrate has a thickness of 100 μ
- m or less.
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18. The integrated circuit device according to any one of claims 1 to 8, wherein the thin film transistor comprises an amorphous semiconductor film or a polycrystalline semiconductor film.
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19. The integrated circuit device according to claim 8, wherein the metal is any one selected from magnesium, aluminum, duralumin, iron, nickel, zinc, tin, copper, or an alloy thereof.
Specification