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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
|
출원번호 | UP-0113988 (2008-05-02) |
등록번호 | US-7593208 (2009-10-20) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 32 인용 특허 : 390 |
The present invention relates to a multi-functional energy conditioner having architecture employed in conjunction with various dielectric and combinations of dielectric materials to provide one or more differential and common mode filters for the suppression of electromagnetic emissions and surge p
The present invention relates to a multi-functional energy conditioner having architecture employed in conjunction with various dielectric and combinations of dielectric materials to provide one or more differential and common mode filters for the suppression of electromagnetic emissions and surge protection. The architecture allows single or multiple components to be assembled within a single package such as an integrated circuit or connector. The component's architecture is dielectric independent and provides for integration of various electrical characteristics within a single component to perform the functions of filtering, decoupling, fusing and surge suppression.
We claim: 1. An energy conditioner having a surface, said energy conditioner comprising: a first differential electrode conductive structure (809, 812); a second differential electrode conductive structure (809A, 812A); a common conductive structure (804, 808, 810); a first differential electrode t
We claim: 1. An energy conditioner having a surface, said energy conditioner comprising: a first differential electrode conductive structure (809, 812); a second differential electrode conductive structure (809A, 812A); a common conductive structure (804, 808, 810); a first differential electrode termination structure (807) forming part of said surface; a second differential electrode termination structure (807A) forming part of said surface; at least one common conductive termination structure (802) forming part of said surface; wherein said first differential electrode conductive structure, said second differential electrode conductive structure, and said common conductive structure are electrically insulated from one another in said energy conditioner by at least one electrically insulating material; wherein said first differential electrode conductive structure comprises a first differential electrode extending in first and second directions in a first plane, and said first differential electrode defines no apertures in said first plane; wherein said first differential electrode consists of a first differential electrode body portion (809) and a first differential electrode extension portion (812); wherein said second differential electrode conductive structure comprises a second differential electrode extending in said first and second directions in a second plane, and said second differential electrode defines no apertures in said second plane; wherein said second differential electrode consists of a second differential electrode body portion (809A) and a second differential electrode extension portion (812A); wherein said common conductive structure comprises a first common conductive electrode, a second common conductive electrode, and a third common conductive electrode; said first common conductive electrode extends in a third plane, said second common conductive electrode extends in a fourth plane, and said third common conductive electrode extends in a fifth plane; said first plane, said second plane, said third plane, said fourth plane, and said fifth plane are all parallel to one another; wherein said first common conductive electrode comprises a first common conductive electrode body portion, a first common conductive electrode first extension portion, and a first common conductive electrode second extension portion, and said first common conductive electrode defines no apertures in said third plane; wherein said second common conductive electrode comprises a second common conductive electrode body portion, a second common conductive electrode first extension portion, and a second common conductive electrode second extension portion, and said second common conductive electrode defines no apertures in said fourth plane; wherein said third common conductive electrode comprises a third common conductive electrode body portion, a third common conductive electrode first extension portion, and a third common conductive electrode second extension portion, and said third common conductive electrode defines no apertures in said fifth plane; wherein said first common conductive electrode body portion is below and opposes said first differential electrode body portion; wherein said second common conductive electrode body portion is above and opposes said first differential electrode body portion; wherein said second common conductive electrode body portion is below and opposes said second differential electrode body portion; wherein said third common conductive electrode body portion is above and opposes said second differential electrode body portion; wherein said first differential electrode body portion extends in said first plane to a first differential electrode body portion perimeter; wherein said first common conductive electrode body portion extends in said third plane to a first common conductive body portion perimeter; wherein said second common conductive electrode body portion extends in said fourth plane to a second common conductive body portion perimeter; wherein said first differential electrode body portion perimeter is inset within both said first common conductive body portion perimeter and said second common conductive body portion perimeter; wherein said second differential electrode body portion extends in said second plane to a second differential electrode body portion perimeter; wherein said third common conductive electrode body portion extends in said fifth plane to a third common conductive body portion perimeter; wherein said second differential electrode body portion perimeter is inset within both said second common conductive electrode body portion perimeter and said third common conductive electrode body portion perimeter; wherein said first differential electrode extension portion extends from said first differential electrode body portion to said first differential electrode termination structure; wherein said second differential electrode extension portion extends from said second differential electrode body portion to said second differential electrode termination structure; wherein said first differential electrode termination structure and said second differential electrode termination structure are on opposite sides of said energy conditioner from one another; wherein said first common conductive electrode first extension portion extends from said first common conductive electrode body portion to a first region of said at least one common conductive termination structure; wherein said second common conductive electrode first extension portion extends from said second common conductive electrode body portion to said first region of said at least one common conductive termination structure; wherein said third common conductive electrode first extension portion extends from said third common conductive electrode body portion to said first region of said at least one common conductive termination structure; wherein said first common conductive electrode second extension portion extends from said first common conductive electrode body portion to a second region of said at least one common conductive termination structure; wherein said second common conductive electrode second extension portion extends from said second common conductive electrode body portion to said second region of said at least one common conductive termination structure; wherein said third common conductive electrode second extension portion extends from said third common conductive electrode body portion to said second region of said at least one common conductive termination structure; wherein said first differential electrode body portion perimeter is generally rectangular defining a first differential electrode body portion perimeter first side, a first differential electrode body portion perimeter second side, a first differential electrode body portion perimeter third side, and a first differential electrode body portion perimeter fourth side; wherein said first differential electrode extension portion extends from only a portion of said first differential electrode body portion perimeter first side; wherein said second differential electrode body portion perimeter is generally rectangular defining a second differential electrode body portion perimeter first side, a second differential electrode body portion perimeter second side, a second differential electrode body portion perimeter third side, and a second differential electrode body portion perimeter fourth side; and wherein said second differential electrode extension portion extends from only a portion of said second differential electrode body portion perimeter third side. 2. The conditioner of claim 1 wherein one side of said surface is generally rectangular. 3. The conditioner of claim 1 wherein a ratio of (1) a minimum distance in said first plane between said first differential electrode body portion perimeter and said second common conductive body portion perimeter to (2) distance in a direction perpendicular to said first plane, between said first differential electrode body portion perimeter and said second common conductive body portion perimeter, is between 0 and 20. 4. The conditioner of claim 1 wherein (1) said first region of said at least one common conductive termination structure and (2) said second region of said at least one common conductive termination structure are on opposite sides of said energy conditioner from one another. 5. The conditioner of claim 4 wherein said at least one common conductive termination structure forms a single conductive structure that extends along said surface from said first region of said at least one common conductive termination structure to said second region of said at least one common conductive termination structure. 6. The conditioner of claim 5 wherein said at least one common conductive termination structure forms a single conductive loop around said surface that extends along said surface from said first region of said at least one common conductive termination structure to said second region of said at least one common conductive termination structure. 7. The conditioner of claim 1: wherein said first differential electrode body portion perimeter first side is on an opposite side of said surface from said second differential electrode body portion perimeter third side. 8. The conditioner of claim 7: wherein said first common conductive electrode first extension portion extends from said first common conductive electrode body portion to a first region of said at least one common conductive termination structure along a direction that is perpendicular to a line passing through said first differential electrode extension portion and said second differential electrode extension portion; wherein said second common conductive electrode first extension portion extends from said second common conductive electrode body portion to said first region of said at least one common conductive termination structure along a direction that is perpendicular to a line passing through said first differential electrode extension portion and said second differential electrode extension portion; and wherein said third common conductive electrode first extension portion extends from said third common conductive electrode body portion to said first region of said at least one common conductive termination structure along a direction that is perpendicular to a line passing through said first differential electrode extension portion and said second differential electrode extension portion.
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