IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0716764
(2003-11-19)
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발명자
/ 주소 |
- Carter,Daniel P.
- Crocker,Michael T.
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출원인 / 주소 |
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대리인 / 주소 |
Schwegman, Lundberg, Woessner &
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인용정보 |
피인용 횟수 :
10 인용 특허 :
39 |
초록
▼
An electronic assembly comprising one or more high performance integrated circuits includes at least one high capacity heat sink. The heat sink, which comprises a number of fins projecting substantially radially from a core, is structured to capture air from a fan and to direct the air to optimize h
An electronic assembly comprising one or more high performance integrated circuits includes at least one high capacity heat sink. The heat sink, which comprises a number of fins projecting substantially radially from a core, is structured to capture air from a fan and to direct the air to optimize heat transfer from the heat sink. The heat sink fins can be formed in different shapes. In one embodiment, the fins are curved. In another embodiment, the fins are bent. In yet another embodiment, the fins are curved and bent. Methods of fabricating heat sinks and electronic assemblies, as well as application of the heat sink to an electronic assembly and to an electronic system, are also described.
대표청구항
▼
What is claimed is: 1. A heat sink for use with an axial flow fan comprising: a core having a central axis; and a plurality of cooling fins arranged about the core, each fin having a base and a tip, wherein the bases are coupled to the core substantially parallel to the central axis, wherein the f
What is claimed is: 1. A heat sink for use with an axial flow fan comprising: a core having a central axis; and a plurality of cooling fins arranged about the core, each fin having a base and a tip, wherein the bases are coupled to the core substantially parallel to the central axis, wherein the fins are shaped to capture a tangential component of air from the fan, and wherein an upper portion of each of the fins is bent towards the tangential component. 2. The heat sink recited in claim 1, wherein the core comprises a central cavity to receive a thermal plug formed of a material having a high thermal conductivity. 3. The heat sink recited in claim 1, wherein the core has a circular or semi-rectangular shape. 4. The heat sink recited in claim 1, wherein the fin tips define a face having a periphery, wherein the face is to thermally contact an electronic component, and wherein the face comprises inter-fin openings. 5. The heat sink recited in claim 4, wherein the periphery of the face has a semi-rectangular shape. 6. A heat sink for use with an axial flow fan comprising: a core having a central axis; and a plurality of cooling fins arranged about the core, each fin having a base and a tip, wherein the bases are coupled to the care substantially parallel to the central axis, wherein the fins are shaped to capture a tangential component of air from the fan, wherein the core is shaped to maximize the number of fins while maintaining a substantially uniform aspect ratio in the fins, and wherein an upper portion of each of the fins is bent towards the tangential component. 7. The heat sink recited in claim 6 wherein the core comprises a central cavity to receive a thermal plug formed of a material having a high thermal conductivity. 8. The heat sink recited in claim 6, wherein the fin tips define a face having a periphery, wherein the face is to thermally contact an electronic component, and wherein the face comprises inter-fin openings. 9. The heat sink recited in claim 8, wherein the periphery of the face has a semi-rectangular shape. 10. An electronic assembly comprising: a substrate; an electronic component mounted on a surface of the substrate; an axial flow fan to move air towards the substrate, the air having an axial component and a tangential component; and a heat sink including a first face in thermal contact with the electronic component; a second face facing the fan; a core having a central axis; and a plurality of cooling fins arranged about the core, each fin having a base and a tip, wherein the bases are coupled to the core substantially parallel to the central axis, wherein the fins are shaped to capture both components of air, and wherein an upper portion of each of the fins is bent towards the tangential component. 11. The electronic assembly recited in claim 10, wherein the electronic component comprises an integrated circuit (IC). 12. The electronic assembly recited in claim 11, wherein the fins are formed of material having a high thermal conductivity, and wherein the aspect ratio of the fins is sufficient to maintain a junction temperature within the IC at or below a predetermined maximum value. 13. The electronic assembly recited in claim 10, wherein the fin tips define the first face, and wherein the first face comprises inter-fin openings. 14. An electronic system comprising: a circuit board; a processor integrated circuit (IC) mounted on the circuit board; at least one chipset mounted on the circuit board and electrically coupled to the processor IC for operation in conjunction with the processor IC; at least one axial flow fan to move air towards the circuit board, the air having both an axial component and a tangential component; and at least one heat sink including a first face in thermal contact with either the processor IC or the chipset; a second face facing the at least one fan; a core having a central axis; and a plurality of cooling fins arranged about the core, each fin having a base and a tip, wherein the bases are coupled to the core substantially parallel to the central axis, wherein the fins are shaped to capture both components of air, wherein the core is shaped to maximize the number of fins while maintaining a substantially uniform aspect ratio in the fins, and wherein an upper portion of each of the fins is bent towards the tangential component. 15. The electronic system recited in claim 14, wherein the fins are formed of material having a high thermal conductivity, and wherein the aspect ratio of the fins is sufficient to maintain a junction temperature within the IC at or below a predetermined maximum value. 16. The electronic system recited in claim 14, wherein the fin tips define the first face, and wherein the first face comprises inter-fin openings. 17. A heat sink comprising: a core having a central axis, and having a surface to thermally contact a heat-generating electrical component; a plurality of cooling fins arranged about the core, each fin having a base and a tip, wherein the bases are coupled to the core substantially parallel to the central axis, and wherein an upper portion of each of the fins is bent in the same relative direction; and a first face having a periphery defined by the fin tips, wherein the first face is to face the component, and wherein the first face comprises inter-fin openings. 18. The heat sink recited in claim 17, wherein the inter-fin openings extend from the base to the tip of selected fins. 19. The heat sink recited in claim 17, wherein the periphery of the first face has a semi-rectangular shape. 20. The heat sink recited in claim 17, wherein the first face substantially matches the shape of the core. 21. The heat sink recited in claim 17, wherein the electronic component is to comprise an integrated circuit (IC). 22. The heat sink recited in claim 21, wherein the fins are formed of material having a high thermal conductivity, and wherein the aspect ratio of the fins is sufficient to maintain a junction temperature within the IC at or below a predetermined maximum value. 23. A heat sink comprising: a core having a central axis, and having a surface to thermally contact a heat-generating electrical component; a plurality of cooling fins arranged about the core, each fin having a base and a tip, wherein the bases are coupled to the core substantially parallel to the central axis, wherein each fin comprises a vertical portion and an angled portion, and wherein the angled portion of each fin is bent in the same relative direction; and a first face having a periphery defined by the fin tips, wherein the first face is to face the component, and wherein the first face comprises inter-fin openings. 24. The heat sink recited in claim 23, wherein the inter-fin openings extend from the base to the tip of selected fins. 25. The heat sink recited in claim 23, wherein the periphery of the first face has a semi-rectangular shape. 26. The heat sink recited in claim 23, wherein the first face substantially matches the shape of the core. 27. The heat sink recited in claim 23, wherein the electronic component is to comprise an integrated circuit (IC). 28. The heat sink recited in claim 27, wherein the fins are formed of material having a high thermal conductivity, and wherein the aspect ratio of the fins is sufficient to maintain a junction temperature within the IC at or below a predetermined maximum value.
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