IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0879811
(2004-06-29)
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발명자
/ 주소 |
- Berens,Jessica Rose
- Gilliland,Don Alan
- Mikhail,Amanda Elisa Ennis
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출원인 / 주소 |
- International Business Machines Corporation
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
2 인용 특허 :
14 |
초록
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Ferrite cores are provided with rounded, convex head ends and complimentary rounded, concave tail ends. The configuration of the head and tail ends permits a reduction in gap width between adjacent cores when they are joined together into a core assembly that suppresses electromagnetic interference
Ferrite cores are provided with rounded, convex head ends and complimentary rounded, concave tail ends. The configuration of the head and tail ends permits a reduction in gap width between adjacent cores when they are joined together into a core assembly that suppresses electromagnetic interference emitted from a cable.
대표청구항
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What we claim is: 1. A ferrite core assembly for suppressing electromagnetic interference, comprising: a plurality of ferrite cores, each having a respective head end with a rounded, convex shape and a respective tail end with a rounded, concave shape that provides a recess, wherein the ferrite cor
What we claim is: 1. A ferrite core assembly for suppressing electromagnetic interference, comprising: a plurality of ferrite cores, each having a respective head end with a rounded, convex shape and a respective tail end with a rounded, concave shape that provides a recess, wherein the ferrite cores are assembled in articulated, flexible sequence such that the head ends of at least some of the ferrite cores extend into the recesses of adjacent ferrite cores, and wherein there are at least four ferrite cores assembled in the articulated, flexible sequence. 2. The core assembly of claim 1, wherein the head ends of the ferrite cores have approximately the shape of a portion of a cylinder with a predetermined radius, and wherein the tail ends of the ferrite cores have approximately the shape of a portion of a cylinder with a radius that is approximately the same as the predetermined radius. 3. The core assembly of claim 2, wherein the core assembly conforms to a cable around which the core assembly is wrapped at least once. 4. The core assembly of claim 2, wherein the core assembly is affixed to a side of a flat cable and extends along at least a portion of the length thereof. 5. The core assembly of claim 1, wherein the head ends of the ferrite cores have approximately the shape of a portion of a sphere with a predetermined radius, and wherein the tail ends of the ferrite cores have approximately the shape of a portion of a sphere with a radius that is approximately the same as the predetermined radius. 6. The core assembly of claim 5, further comprising plastic jackets attached to the ferrite cores adjacent the tail end thereof, each plastic jacket having a cavity that communicates with the recess at the tail end of the respective ferrite core, the cavity being configured to receive the head end of an adjacent one of the ferrite cores and to lock onto the head end of said adjacent one of the ferrite cores. 7. The core assembly of claim 1, in combination with means for attaching the core assembly to a cable. 8. The core assembly of claim 7, wherein the means for attaching comprises heat-shrunk plastic tubing. 9. The core assembly of claim 1, wherein each ferrite core has a bore extending from the head end thereof to the tail end thereof. 10. The core assembly of claim 9, wherein the bore flares outward at the head end and also at the tail end. 11. The core assembly of claim 1, wherein each ferrite core has a respective upper portion with a groove and a lower portion with a groove, the upper and lower portions being joined together with their grooves facing one another to form a bore, the bore passing through the respective ferrite core from the head end thereof to the tail end thereof. 12. A ferrite core assembly for suppressing electromagnetic interference, comprising: a plurality of ferrite cores, each having a respective head end with a rounded, convex shape and a respective tail end with a rounded, concave shape that provides a recess, wherein the ferrite cores are assembled in articulated, flexible sequence such that the head ends of at least some of the ferrite cores extend into the recesses of adjacent ferrite cores, and wherein each ferrite core has a plurality of transverse bores through it. 13. The core assembly of claim 1, wherein the ferrite cores comprise sintered material that includes at least one substance selected from the group consisting of MnZn and NiZn as a principle ingredient. 14. A plurality of ferrite cores in combination with means for joining the ferrite cores together in a flexible sequence, wherein each ferrite core comprises sintered material, and has a curved head end with a rounded, convex shape and a curved tail end with a rounded, concave shape providing a recess at the tail end of the respective ferrite core, wherein the means for joining connects the ferrite cores one after another, with the ferrite cores oriented so that the head ends all face in a first direction and the tail ends all face in a second direction that is opposite to the first direction, and wherein the means for joining connects at least four ferrite cores. 15. A plurality of ferrite cores in combination with means for joining the ferrite cores together in a flexible sequence, wherein each ferrite core comprises sintered material, and has a curved head end with a rounded, convex shape and a curved tail end with a rounded, concave shape providing a recess at the tail end of the respective ferrite core, wherein the means for joining connects the ferrite cores one after another, with the ferrite cores oriented so that the head ends all face in a first direction and the tail ends all face in a second direction that is opposite to the first direction, and wherein the ferrite cores have bores, and the means for joining comprises at least one filament extending through the bores. 16. A plurality of ferrite cores in combination with means for joining the ferrite cores together in a flexible sequence, wherein each ferrite core comprises sintered material, and has a curved head end with a rounded, convex shape and a curved tail end with a rounded, concave shape providing a recess at the tail end of the respective ferrite core, wherein the means for joining connects the ferrite cores one after another, with the ferrite cores oriented so that the head ends all face in a first direction and the tail ends all face in a second direction that is opposite to the first direction, and wherein the means for joining comprises link members that are pivotably attached to pairs of adjacent ferrite cores. 17. The combination of claim 14, wherein the means for joining comprises a tape to which the ferrite cores are attached.
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