IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0287905
(2011-11-02)
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등록번호 |
US-8187017
(2012-05-29)
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발명자
/ 주소 |
- Daily, Christopher G.
- Swain, Wilfred J.
- Stoner, Stuart C.
- Kolivoski, Christopher J.
- Johnescu, Douglas M.
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출원인 / 주소 |
- FCI Americas Technology LLC
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
11 인용 특허 :
293 |
초록
▼
Electrical connectors and contacts for transmitting power are provided. One power contact embodiment includes a first plate that defines a first non-deflecting beam and a first deflectable beam, and a second plate that defines a second non-deflecting beam and a second deflectable beam. The first and
Electrical connectors and contacts for transmitting power are provided. One power contact embodiment includes a first plate that defines a first non-deflecting beam and a first deflectable beam, and a second plate that defines a second non-deflecting beam and a second deflectable beam. The first and second plates are positioned beside one another to form the power contact.
대표청구항
▼
1. A power contact comprising: first and second pairs of opposed deflectable beams; anda pair of opposed non-deflecting beams disposed between the first and second pairs of opposed deflectable beams. 2. The power contact of claim 1, wherein each deflectable beam of the first and second pairs of defl
1. A power contact comprising: first and second pairs of opposed deflectable beams; anda pair of opposed non-deflecting beams disposed between the first and second pairs of opposed deflectable beams. 2. The power contact of claim 1, wherein each deflectable beam of the first and second pairs of deflectable beams defines a facing surface that faces the other of the first and second pairs of deflectable beams, respectively, and an outer surface that is opposite the facing surface, wherein the facing surface and the outer surface each extend between opposed upper and lower beam edges of each deflectable beam. 3. The power contact of claim 2, wherein the pair of non-deflecting beams is disposed between the lower beam edges of the first pair of deflectable beams and the upper beam edges of the second pair of deflectable beams. 4. The power contact of claim 3, further comprising first and second contact bodies, each contact body defining: a respective deflectable beam of the first pair of opposed deflectable beams;a respective deflectable beam of the second pair of opposed deflectable beams; anda respective non-deflecting beam of the pair of opposed non-deflecting beams,wherein the respective deflectable beams and the respective non-deflecting beams of the first and second contact bodies register so as to define the first and second pairs of opposed deflectable beams and the pair of opposed non-deflecting beams. 5. The power contact of claim 4, wherein the first and second contact bodies at least partially abut one another such that each deflectable beam of the first and second pairs of deflectable beams, respectively, are spaced from one another, and each non-deflecting beam of the pair of opposed non-deflecting beams are stacked against one another. 6. The power contact of claim 5, wherein the first and second contact bodies are stacked against one another. 7. The power contact of claim 5, further comprising a plurality of terminals that are configured to electrically connect to a printed circuit structure. 8. The power contact of claim 7, wherein each beam of the first and second pairs of deflectable beams and each beam of the pair of non-deflecting beams are oriented along a first direction, and the terminals are oriented along a second direction that is substantially perpendicular to the first direction. 9. The power contact of claim 7, wherein the power contact defines a first portion wherein the first contact body is stacked against the second contact body, and a second portion wherein the first and second contact bodies are flared out from the first portion, the plurality of terminals extending from the second portion. 10. The power contact of claim 7, wherein the power contact defines a first portion wherein the first contact body is stacked against the second contact body, and a second portion defined by the terminals, respectively, wherein the terminals includes a first plurality of terminals defined by the first contact body and a second plurality of terminals defined by the second contact body, and at least a portion of the terminals of the first plurality of terminals and at least a portion of the terminals of the second plurality of terminals flare away from each other. 11. The power contact of claim 1, wherein the opposed beams of each of the first and second pairs of deflectable beams, respectively, are spaced along a first direction, the first and second pairs of deflectable beams are spaced from each other along a second direction that is substantially perpendicular to the first direction, and the pair of opposed non-deflecting beams is disposed between the first and second pairs of deflectable beams along the second direction. 12. A power contact comprising: first and second pairs of opposed non-deflecting beams; anda pair of opposed deflectable beams disposed between the first and second pairs of opposed non-deflecting beams. 13. The power contact of claim 12, wherein each non-deflecting beam of the first and second pairs of non-deflecting beams defines a facing surface that faces the other of the first and second pairs of non-deflecting beams, respectively, and an outer surface that is opposite the facing surface, wherein the facing surface and the outer surface each extend between opposed upper and lower beam edges of each non-deflecting beam. 14. The power contact of claim 13, wherein the pair of deflectable beams is disposed between the lower beam edges of the first pair of non-deflecting beams and the upper beam edges of the second pair of non-deflecting beams. 15. The power contact of claim 14, further comprising first and second contact bodies, each contact body defining: a respective non-deflecting beam of the first pair of opposed non-deflecting beams;a respective non-deflecting beam of the second pair of opposed non-deflecting beams; anda respective deflectable beam of the pair of opposed deflectable beams,wherein the respective non-deflecting beams and the respective deflectable beams of the first and second contact bodies register so as to define the first and second pairs of opposed non-deflecting beams and the pair of opposed deflectable beams. 16. The power contact of claim 15, wherein the first and second contact bodies at least partially abut one another such that each deflectable beam of the pair of opposed deflectable beams are spaced from one another, and each non-deflecting beam of the first and second pairs of non-deflecting beams, respectively, are stacked against one another. 17. The power contact of claim 16, wherein the first and second contact bodies are stacked against one another. 18. The power contact of claim 16, further comprising a plurality of terminals that are configured to electrically connect to a printed circuit structure. 19. The power contact of claim 18, wherein each beam of the first and second pairs of non-deflecting beams and each beam of the pair of deflectable beams are oriented along a first direction, and the terminals are oriented along a second direction that is substantially perpendicular to the first direction. 20. The power contact of claim 18, wherein the power contact defines a first portion wherein the first contact body is stacked against the second contact body, and a second portion wherein the first and second contact bodies are flared out from the first portion, the plurality of terminals extends from the second portion. 21. The power contact of claim 18, wherein the power contact defines a first portion wherein the first contact body is stacked against the second contact body, and a second portion defined by the terminals, respectively, wherein the terminals includes a first plurality of terminals defined by the first contact body and a second plurality of terminals defined by the second contact body, and at least a portion of the terminals of the first plurality of terminals and at least a portion of the terminals of the second plurality of terminals flare away from each other. 22. The power contact of claim 12, wherein the opposed beams of the pairs of deflectable beams are spaced along a first direction, the first and second pairs of non-deflecting beams are spaced from each other along a second direction that is substantially perpendicular to the first direction, and the pair of deflectable beams is disposed between the first and second pairs of non-deflecting beams along the second direction. 23. A power connector system comprising: a first power contact defining first and second pairs of opposed deflectable beams and a first pair of opposed non-deflecting beams disposed between the first and second pairs of opposed deflectable beams; anda second power contact configured to mate with the first power contact, the second power contact defining second and third pairs of opposed non-deflecting beams and a third pair of opposed deflectable beams disposed between the second and third pairs of opposed non-deflecting beams,wherein when the first and second power connectors are mated, the first pair of opposed deflectable beams receives the second pair of opposed non-deflecting beams, the second pair of opposed deflectable beams receives the third pair of opposed non-deflecting beams, and the third pair of opposed deflectable beams receives the first pair of opposed non-deflecting beams. 24. The power connector system of claim 23, wherein each deflectable beam of the first, second, and third pairs of deflectable beams defines a facing surface that faces the other deflectable beam of the first, second, and third pairs, respectively, and an outer surface that is opposite the facing surface, and the facing and outer surfaces extend between opposed upper and lower beam edges of each deflectable beam, wherein the first pair of non-deflecting beams is disposed between the lower beam edges of the first pair of deflectable beams and the upper beam edges of the second pair of deflectable beams, andwherein the second pair of non-deflecting beams is disposed adjacent the upper beam edges of the third pair of deflectable beams and the third pair of non-deflecting beams is disposed adjacent the lower beam edges of the third pair of deflectable beams. 25. The power connector system of claim 24, wherein the first and second pairs of opposed deflectable beams and the first pair of opposed non-deflecting beams are oriented in a first direction. 26. The power connector system of claim 25, wherein the first power contact comprises terminals that are configured to electrically connect to a printed circuit structure. 27. The power connector system of claim 26, wherein the terminals are oriented in a second direction that is substantially perpendicular to the first direction. 28. The power connector system of claim 27, wherein the first power contact comprises first and second contact bodies, each contact body defining respective deflectable beams of the first and second pairs of deflectable beams and a respective non-deflecting beam of the first pair of non-deflecting beams. 29. The power connector system of claim 28, wherein the first and second contact bodies at least partially abut one another such that the deflectable beams of the first pair of opposed deflectable beams are spaced from one another, the deflectable beams of the second pair of opposed deflectable beams are spaced from one another, and the non-deflecting beams of the first pair of opposed non-deflecting beams are stacked against one another. 30. The power connector system of claim 29, wherein the first power contact includes a first portion wherein the first contact body is stacked against the second contact body and a second portion wherein the first and second contact bodies are flared with respect to the first portion. 31. The power connector system of claim 30, wherein the first and second contact bodies are angled away from each other in the second portion. 32. The power connector system of claim 24, wherein the second and third pairs of opposed non-deflecting beams and the third pair of opposed deflectable beams are oriented in a first direction. 33. The power connector system of claim 32, wherein the second power contact comprises terminals that are configured to electrically connect to a printed circuit structure. 34. The power connector system of claim 33, wherein the terminals are oriented in the first direction. 35. The power connector system of claim 34, wherein the second power contact comprises first and second contact bodies, each contact body defining a respective deflectable beam of the third pair of deflectable beams and respective non-deflecting beams of the second and third pairs of non-deflecting beams. 36. The power connector system of claim 35, wherein the first and second contact bodies at least partially abut one another such that the non-deflecting beams of the second pair of opposed non-deflecting beams are stacked against one another, the non-deflecting beams of the third pair of opposed non-deflecting beams are stacked against one another, and the deflectable beams of the third pair of opposed deflectable beams are spaced from one another. 37. The power connector system of claim 36, wherein the second power contact includes a first portion wherein the first contact body is stacked against the second contact body, and a second portion wherein the first and second contact bodies are flared with respect to the first portion. 38. The power connector system of claim 37, wherein the first and second contact bodies are angled away from each other in the second portion. 39. The power connector system of claim 23, further comprising: a first insulative housing that supports the first power contact, the first insulative housing defining a first aperture through which heat transfers from the first power contact; anda second insulative housing that is configured to mate with the first insulative housing and, wherein the second insulative housing supports the second power contact and defines a second aperture through which heat transfers from the second power contact.
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