Implantable medical device having flat electrolytic capacitor fabricated with laser welded anode sheets
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01G-009/04
H01G-009/145
출원번호
US-0124286
(2002-04-18)
발명자
/ 주소
Nielsen, Christian S.
Miltich, Thomas P.
Breyen, Mark D.
Young, Paul B.
출원인 / 주소
Medtronic, Inc.
인용정보
피인용 횟수 :
98인용 특허 :
14
초록▼
Implantable medical devices (IMDs) and components, including flat electrolytic capacitors and methods of making and using same, particularly an improved electrolytic capacitor fabricated of an electrode stack assembly comprising a plurality of capacitor layers stacked in registration upon one anothe
Implantable medical devices (IMDs) and components, including flat electrolytic capacitors and methods of making and using same, particularly an improved electrolytic capacitor fabricated of an electrode stack assembly comprising a plurality of capacitor layers stacked in registration upon one another. Each capacitor layer comprises a valve metal cathode layer having a cathode tab, a valve metal anode layer having an anode tab, and a separator layer located between the cathode layers. The anode layer is assembled from a plurality of valve metal anode sheets that are etched and anodized, stacked side-by-side, and electrically and mechanically joined together by laser weld beads. A valve metal anode tab having a thickness equal to one or more anode sheet is inserted into a tab notch in one or more stacked anode sheet and joined to the anode sheet stack by laser welding the tab and sheet edges together.
대표청구항▼
1. An electrode stack assembly of an electrolytic capacitor comprising:an anode layer comprising: a first anode sheet fabricated of a valve metal having first and second sheet sides bounded by a sheet edge; at least one second anode sheet fabricated of a valve metal having first and second sheet sid
1. An electrode stack assembly of an electrolytic capacitor comprising:an anode layer comprising: a first anode sheet fabricated of a valve metal having first and second sheet sides bounded by a sheet edge; at least one second anode sheet fabricated of a valve metal having first and second sheet sides bounded by a sheet edge, the second anode sheet and first anode sheet fitted side-by-side whereby at least a portion of the first and second anode sheet edges are substantially aligned to comprise an anode layer edge; and a laser weld bead extending across the anode layer edge that electrically and mechanically couples the first and second anode sheets together; a cathode layer; and a separator interposed between the anode layer and the cathode layer. 2. The electrode stack assembly of claim 1, wherein the first anode sheet further comprises a tab notch extending into the first anode sheet edge, and further comprising:an anode tab comprising a first tab portion shaped to fit into the tab notch such that a second tab portion extends outwardly from the anode stack edge and a portion of an anode tab edge is substantially aligned with a portion of the second anode sheet edge; and at least one laser bead extending across the substantially aligned anode tab edge and second anode sheet edge. 3. The electrode stack assembly of claim 1, wherein the first anode sheet further comprises a tab notch extending into the first anode sheet edge, and further comprising:a further second anode sheet, one second anode sheet located against the first sheet side of the first anode sheet and the other second anode sheet located against the second sheet side of the first anode sheet; an anode tab comprising a first tab portion shaped to fit into the tab notch such that a second tab portion extends outwardly from the anode stack edge and a portion of an anode tab edge is substantially aligned with a portion of the second anode sheet edge; and at least one laser bead extending across the substantially aligned anode tab edge and second anode sheet edge. 4. The electrode stack assembly of claim 1, wherein the first and second anode sheets are fabricated with weld notches that are substantially aligned in an anode layer weld notch when the first and second anode sheets are fitted side-by-side, and the laser weld bead extends along the anode layer weld notch.5. The electrode stack assembly of claim 1, wherein the first and second anode sheets are fabricated with weld notches that are substantially aligned in an anode layer weld notch when the first and second anode sheets are fitted side-by-side, weld wires are fitted into the weld notches, and the laser weld bead extends along the weld notch and the weld wire in the anode layer weld notch joining the anode sheets along the anode layer weld notch with the weld wire.6. The electrode stack assembly of claim 5, wherein the laser weld bead comprises a pair of laser weld beads joining the anode sheets at the anode layer weld notch with the weld wire.7. An electrode stack assembly of an electrolytic capacitor comprising:an anode layer comprising: a plurality of N anode sheets fabricated of a valve metal having first and second sheet sides that bounded by a sheet edge, the N anode sheets sheet fitted side-by-side whereby N?2 first and second sheet sides of the plurality of anode sheets are in mutual contact and at least a portion of the first and second anode sheet edges are substantially aligned to comprise an anode layer edge; and a plurality of laser weld beads extend across the anode layer edge at a plurality of locations along the anode layer edge that electrically and mechanically couples the N anode sheets together; a cathode layer; and a separator between the anode layer and the cathode layer. 8. The electrode stack assembly of claim 7, wherein at least one of the anode sheets further comprises a tab notch extending into the first anode sheet edge, and further comprising:an anode tab comprising a first tab portion shaped to fit into the tab notch such that a second tab portion extends outwardly from the anode stack edge and a portion of an anode tab edge is substantially aligned with a portion of the anode layer edge; and at least one laser bead extending across the substantially aligned anode tab edge and at least one or more anode sheet edge of the anode layer edge. 9. The electrode stack assembly of claim 8, wherein the N anode sheets are fabricated with weld notches that are substantially aligned in an anode layer weld notch when the N anode sheets are fitted side-by-side, weld wires are fitted into the anode layer weld notches, and the laser weld bead extends along the anode layer weld notch and the weld wire in the anode layer weld notch joining the anode sheets along the anode layer weld notch with the weld wire.10. The electrode stack assembly of claim 7, wherein the N anode sheets are fabricated with weld notches that are substantially aligned in an anode layer weld notch when the N anode sheets are fitted side-by-side, weld wires are fitted into the anode layer weld notches, and the laser weld bead extends along the anode layer weld notch and the weld wire in the anode layer weld notch joining the anode sheets along the anode layer weld notch with the weld wire.11. The electrode stack assembly of claim 10, wherein the laser weld bead comprises a pair of laser weld beads joining the anode sheets at the anode layer weld notch with the weld wire.12. The electrode stack assembly of claim 7, wherein the N anode sheets are fabricated with weld notches that are substantially aligned in an anode layer weld notch when the N anode sheets are fitted side-by-side, and the laser weld bead extends along the anode layer weld notch.13. A method of fabricating an electrode stack assembly of an electrolytic capacitor comprising:fabricating an anode layer by: fabricating a first anode sheet of a valve metal having first and second sheet sides that bounded by a sheet edge; fabricating at least one second anode sheet of a valve metal having first and second sheet sides that bounded by a sheet edge, fitting the second anode sheet and first anode sheet side-by-side whereby at least a portion of the first and second anode sheet edges are substantially aligned to comprise an anode layer edge; and laser welding a laser weld bead extending across the anode layer edge that electrically and mechanically couples the first and second anode sheets together; fabricating a cathode layer; and interposing a separator between the anode layer and the cathode layer. 14. The method of claim 13, wherein the step of fabricating a first anode sheet further comprises cutting a tab notch extending into the first anode sheet edge, and further comprising:in the fabricating step, fabricating a further second anode sheet of a valve metal having first and second sheet sides that bounded by a sheet edge, in the fitting step, fitting the further second anode sheet and first anode sheet side-by-side whereby at least a portion of the first and second anode sheet edges are substantially aligned to comprise the anode layer edge; and laser welding at least one laser bead extending across the substantially aligned anode tab edge and second anode sheet edge. 15. The method of claim 13, wherein the step of fabricating a first anode sheet further comprises cutting a tab notch extending into the first anode sheet edge, and further comprising:in the fabricating step, fabricating a further second anode sheet of a valve metal having first and second sheet sides that bounded by a sheet edge, in the fitting step, fitting the further second anode sheet and first anode sheet side-by-side whereby at least a portion of the first and second anode sheet edges are substantially aligned to comprise the anode layer edge; fabricating an anode tab having a first tab portion shaped to fit into the tab notch, a second tab portion shaped to extend outwardly from the anode stack edge and an anode tab edge; fitting the first tab portion into the tab notch such that the second tab portion extends outwardly from the anode stack edge and a portion of the anode tab edge is substantially aligned with portions of the second anode sheet edges; and laser welding at least one laser bead extending across the substantially aligned anode tab edge and second anode sheet edges. 16. The method of claim 13, wherein:the steps of fabricating the first and second anode sheets further comprises fabricating the first and second anode sheets with weld notches that are substantially aligned in an anode layer weld notch when the first and second anode sheets are fitted side-by-side to form an anode layer weld notch; and the laser-welding step further comprises laser welding the weld bead extending along the anode layer weld notch. 17. The method of claim 13, wherein:the steps of fabricating the first and second anode sheets further comprises fabricating the first and second anode sheets with weld notches that are substantially aligned in an anode layer weld notch when the first and second anode sheets are fitted side-by-side to form an anode layer weld notch; and the laser welding step further comprises fitting a weld wire into the anode layer weld notch, and laser welding the weld bead along the anode layer weld notch joining the anode sheets along the anode layer weld notch with the weld wire. 18. The method of claim 17, wherein the laser welding step further comprises welding a pair of laser weld beads joining the anode sheets along the anode layer weld notch with the weld wire.19. A method of fabricating an electrode stack assembly of an electrolytic capacitor comprising:fabricating an anode layer by: fabricating a plurality of N anode sheets of a valve metal having first and second sheet sides that bounded by a sheet edge; fitting the N anode sheets sheet side-by-side whereby N?2 first and second sheet sides of the plurality of anode sheets are in mutual contact and at least a portion of the first and second anode sheet edges are substantially aligned to comprise an anode layer edge; and laser welding at least one laser weld bead across the anode layer edge at a location along the anode layer edge that electrically and mechanically couples the N anode sheets together; fabricating a cathode layer; and interposing a separator between the anode layer and the cathode layer. 20. The method of claim 19, wherein the anode layer fabricating step further comprises:in the anode sheet fabricating step, fabricating at least one of the anode sheets with a tab notch extending into the first anode sheet edge, and further comprising: fabricating an anode tab comprising a first tab portion shaped to fit into the tab notch, a second tab portion shaped extends outwardly from the anode stack edge, and an anode tab edge; in the fitting step, fitting the first tab portion into the tab notch such that the second tab portion extends outwardly from the anode stack edge and a portion of an anode tab edge is substantially aligned with the portion of the anode layer edge; and laser welding at least one laser bead extending across the substantially aligned anode tab edge and at least one or more anode sheet edge of the anode layer edge. 21. The method of claim 20, wherein the anode layer fabricating step further comprises:in the anode sheet fabricating step, fabricating the N anode sheets with weld notches that are substantially aligned in an anode layer weld notch when the N anode sheets are fitted side-by-side in the fitting step; and the laser-welding step comprises laser welding the laser weld bead along the anode layer weld notch. 22. The method of claim 19, wherein the anode layer fabricating step further comprises:in the anode sheet fabricating step, fabricating the N anode sheets with weld notches that are substantially aligned in an anode layer weld notch when the N anode sheets are fitted side-by-side in the fitting step; and the laser-welding step comprises laser welding the laser weld bead along the anode layer weld notch. 23. The method of claim 19, wherein the anode layer fabricating step further comprises:in the anode sheet fabricating step, fabricating the N anode sheets with weld notches that are substantially aligned in an anode layer weld notch when the N anode sheets are fitted side-by-side in the fitting step; and in the laser welding step, fitting a weld wire into the anode layer weld notch, and laser welding the laser weld bead along the anode layer weld notch joining the anode sheets along the anode layer weld notch with the weld wire. 24. The method of claim 19, wherein the anode layer fabricating step further comprises:in the anode sheet fabricating step, fabricating the N anode sheets with weld notches that are substantially aligned in an anode layer weld notch when the N anode sheets are fitted side-by-side in the fitting step; and in the laser welding step, fitting a weld wire into the anode layer weld notch, and laser welding the laser weld bead as a pair of laser weld beads joining the anode sheets along the anode weld notch with the weld wire.
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