IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0081955
(2011-04-07)
|
등록번호 |
US-8300387
(2012-10-30)
|
발명자
/ 주소 |
- Zednickova, Ivana
- Biler, Martin
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
73 |
초록
▼
A capacitor assembly that is thermally and mechanically stable in high temperature environments is provided. Thermal stability is provided by enclosing and hermetically sealing the capacitor element within a housing in the presence of a gaseous atmosphere that contains an inert gas, thereby limiting
A capacitor assembly that is thermally and mechanically stable in high temperature environments is provided. Thermal stability is provided by enclosing and hermetically sealing the capacitor element within a housing in the presence of a gaseous atmosphere that contains an inert gas, thereby limiting the amount of oxygen and moisture supplied to the solid electrolyte of the capacitor. To provide the assembly with good mechanical stability, a polymeric restraint is also employed that is positioned adjacent to and in contact with one or more surfaces of the capacitor element. Without intending to be limited by theory, it is believed that the strength and rigidity of the polymeric restraint can help the capacitor element better withstand vibrational forces incurred during use without resulting in delamination. In this manner, the capacitor assembly is able to better function in high temperature environments.
대표청구항
▼
1. A capacitor assembly comprising: a capacitor element comprising an anode formed from an anodically oxidized, sintered porous body and a solid electrolyte overlying the anode;a housing that defines an interior cavity within which the capacitor element is positioned, wherein the interior cavity has
1. A capacitor assembly comprising: a capacitor element comprising an anode formed from an anodically oxidized, sintered porous body and a solid electrolyte overlying the anode;a housing that defines an interior cavity within which the capacitor element is positioned, wherein the interior cavity has a gaseous atmosphere that contains an inert gas;a polymeric restraint that is positioned adjacent to and in contact with a surface of the capacitor element and a surface of the housing so that at least a portion of the interior cavity remains unoccupied by the capacitor element and the polymeric restraint;an anode termination that is in electrical connection with the anode body; anda cathode termination that is in electrical connection with the solid electrolyte. 2. The capacitor assembly of claim 1, wherein the porous body is formed from tantalum or niobium oxide. 3. The capacitor assembly of claim 1, wherein the solid electrolyte includes a conductive polymer. 4. The capacitor assembly of claim 3, wherein the conductive polymer is in the form of a particle dispersion. 5. The capacitor assembly of claim 1, wherein the solid electrolyte includes manganese dioxide. 6. The capacitor assembly of claim 1, wherein the capacitor element occupies about 30 vol. % or more of the interior cavity. 7. The capacitor assembly of claim 1, wherein inert gases constitute from about 50 wt. % to 100 wt. % of the gaseous atmosphere. 8. The capacitor assembly of claim 1, wherein the polymeric restraint is formed from a curable thermosetting material. 9. The capacitor assembly of claim 8, wherein the curable thermosetting material includes a polyorganosiloxane, epoxy resin, or a combination thereof. 10. The capacitor assembly of claim 1, wherein the polymeric restraint has a tensile strength of from about 2 to about 100 Megapascals, as determined at a temperature of about 25° C. 11. The capacitor assembly of claim 1, wherein the polymeric restraint contacts multiple surfaces of the capacitor element. 12. The capacitor assembly of claim 1, wherein the capacitor assembly comprises multiple polymeric restraints, each of which is adjacent to and in contact with a surface of the capacitor element and a surface of the housing. 13. The capacitor assembly of claim 1, wherein the housing is formed from a metal, plastic, ceramic, or a combination thereof. 14. The capacitor assembly of claim 1, further comprising a lead that extends in a lateral direction from the porous body of the anode, wherein the lead is positioned within the interior cavity of the housing. 15. The capacitor assembly of claim 14, further comprising a connective member that contains a first portion that is positioned generally perpendicular to the lateral direction of the anode lead and connected thereto. 16. The capacitor assembly of claim 15, wherein the connective member further contains a second portion that is generally parallel to the lateral direction in which the anode lead extends. 17. The capacitor assembly of claim 16, wherein the second portion is positioned within the housing. 18. The capacitor assembly of claim 1, wherein at least about 5% of the volume of the interior cavity remains unoccupied by the capacitor element and the polymeric restraint. 19. A method of forming a capacitor assembly, the method comprising: positioning a capacitor element within an interior cavity of a housing, wherein the capacitor element comprises an anodically oxidized, sintered anode body coated with a solid electrolyte;electrically connecting the anode body of the capacitor element to an anode termination and the solid electrolyte of the capacitor element to a cathode termination;thereafter positioning a thermosetting material adjacent to and in contact with a surface of the capacitor element and a surface of the housing;curing the thermosetting material to form a polymeric restraint; andhermetically sealing the capacitor element and the polymeric restraint within the housing in the presence of a gaseous atmosphere that contains an inert gas. 20. The method of claim 19, wherein the thermosetting material contacts multiple surfaces of the capacitor element. 21. The method of claim 19, wherein at least about 5% of the volume of the interior cavity remains unoccupied by the capacitor element and the polymeric restraint.
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