IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0483253
(2006-07-06)
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등록번호 |
US-7433174
(2008-10-07)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Maxwell Technologies, Inc.
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대리인 / 주소 |
Hensley Kim & Holzer, LLC
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인용정보 |
피인용 횟수 :
1 인용 특허 :
3 |
초록
▼
An electrode termination contact interface, adapted for use in an energy storage device, is disclosed. The disclosed apparatus and article of manufacture function to lower equivalent series resistance of the electrode termination contact interface for energy storage devices, such as for example a ca
An electrode termination contact interface, adapted for use in an energy storage device, is disclosed. The disclosed apparatus and article of manufacture function to lower equivalent series resistance of the electrode termination contact interface for energy storage devices, such as for example a capacitor device or a battery device. In one embodiment of the present teachings, an ultracapacitor electrode termination contact interface, adapted to increase reliability and manufacturing yield of such devices is disclosed.
대표청구항
▼
What is claimed is: 1. A method of making an electrode termination contact interface to a terminal cap, comprising the steps of: (a.) forming a first electrode foil having a plurality of active carbon deposits disposed upon predetermined portions of the first electrode foil, the electrode foil furt
What is claimed is: 1. A method of making an electrode termination contact interface to a terminal cap, comprising the steps of: (a.) forming a first electrode foil having a plurality of active carbon deposits disposed upon predetermined portions of the first electrode foil, the electrode foil further having a plurality of current collecting tab portions disposed thereon; (b.) defining a plurality of fold zones thereupon the first electrode foil, wherein the fold zones are bounded by a plurality of fold lines; (c.) folding the first electrode foil symmetrically about alternating fold lines; (d.) defining a plurality of fold zone outer radius folds, wherein the plurality of fold zone outer radius folds all lie at a fixed position relative to a winding center axis; (e.) interposing at least one separator sheet between the plurality of fold zones, wherein the at least one separator sheet electrically isolate the plurality of fold zones; (f.) defining a plurality of fold zone inner radius folds, wherein the plurality of fold zone inner radius folds are linearly spaced toward an annular core, and; (g.) collecting the plurality of current collecting tab portions for each of the plurality of fold zones into a first plurality of gatherings. 2. The method of making an electrode termination contact interface to a terminal cap of claim 1, further comprising: (h.) attaching the first plurality of gatherings into a first terminal cap, wherein the first terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a first direction. 3. The method of making an electrode termination contact interface to a terminal cap of claim 1, further comprising: (h.) forming a second electrode foil having a plurality of active carbon deposits disposed upon predetermined portions of the second electrode foil, the second electrode foil further having a plurality of current collecting tab portions disposed thereon; (i.) defining a plurality of fold zones thereupon the second electrode foil, wherein the fold zones are bounded by a plurality of fold lines; (j.) folding the second electrode foil symmetrically about alternating fold lines; (k.) defining a plurality of fold zone outer radius folds, wherein the plurality of fold zone outer radius folds all lie at a fixed position relative to a winding center axis; (l.) interposing at least one separator sheet between each one of the plurality of fold zones, wherein the at least one separator sheet electrically isolate the plurality of fold zones; (m.) defining a plurality of fold zone inner radius folds, wherein the plurality of fold zone inner radius folds are linearly spaced toward an annular core, and; (n.) collecting the plurality of current collecting tab portions for each of the plurality of fold zones into a second plurality of gatherings. 4. The method of making an electrode termination contact interface to a terminal cap of claim 3, comprising the steps of: (o.) attaching the first plurality of gatherings into a first terminal cap, wherein the first terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a first direction, and; (p.) attaching the second plurality of gatherings into a second terminal cap, wherein the second terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a second direction, wherein the second direction is approximately opposite to the first direction. 5. The method of making an electrode termination contact interface to a terminal cap of claim 3, further comprising: (o.) joining the first electrode foil to the second electrode foil, comprising the steps of: (A.) orienting the first electrode foil such that the plurality of current collecting tab portions align along a positive vertical axis; (B.) orienting the second electrode foil such that the plurality of current collecting tab portions align along a negative vertical axis, and; (C.) fitting the first electrode foil into the second electrode foil. 6. The method of making an electrode termination contact interface to a terminal cap of claim 5, further comprising: (p.) attaching the first plurality of gatherings into a first terminal cap, wherein the first terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a first direction for which the first plurality of gatherings fit therethrough. 7. The method of making an electrode termination contact interface to a terminal cap of claim 6, further comprising: (q.) attaching the second plurality of gatherings into a second terminal cap, wherein the second terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a second direction for which the second plurality of gatherings fit therethrough. 8. The method of making an electrode termination contact interface to a terminal cap of claim 3, further comprising: (o.) joining the first electrode foil to the second electrode foil, comprising the steps of: (A.) orienting the first electrode foil such that the plurality of current collecting tab portions align along a positive vertical axis; (B.) orienting the second electrode foil such that the plurality of current collecting tab portions align along the positive vertical axis, and; (C.) fitting the first electrode foil into the second electrode foil. 9. The method of making an electrode termination contact interface to a terminal cap of claim 8, further comprising: (p.) attaching the first plurality of gatherings into a first terminal cap, wherein the first terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a first direction for which the first plurality of gatherings fit therethrough. 10. The method of making an electrode termination contact interface to a terminal cap of claim 9, further comprising: (q.) attaching the second plurality of gatherings into a second terminal cap, wherein the second terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a second direction for which the second plurality of gatherings fit therethrough. 11. An electrode structure adapted for use in an energy storage device, comprising: (a.) a first electrode foil having a plurality of active carbon deposits disposed upon predetermined portions of the first electrode foil, the electrode foil further having a plurality of current collecting tab portions disposed thereon; (b.) a plurality of fold zones thereupon the first electrode foil, wherein the fold zones are bounded by a plurality of fold lines; (c.) a plurality of fold zone outer radius folds, wherein the plurality of fold zone outer radius folds all lie at a fixed position relative to a winding center axis; (d.) at least one separator sheet between the plurality of fold zones, wherein the at least one separator sheet electrically isolate the plurality of fold zones, and; (e.) a plurality of fold zone inner radius folds, wherein the plurality of fold zone inner radius folds are linearly spaced toward an annular core. 12. The electrode structure of claim 11, further comprising: (f.) a first terminal cap wherein the first terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a first direction. 13. The electrode structure of claim 11, further comprising: (f.) a second electrode foil having a plurality of active carbon deposits disposed upon predetermined portions of the second electrode foil, the electrode foil further having a plurality of current collecting tab portions disposed thereon; (g.) a plurality of fold zones thereupon the second electrode foil, wherein the fold zones are bounded by a plurality of fold lines; (h.) a plurality of fold zone outer radius folds, wherein the plurality of fold zone outer radius folds all lie at a fixed position relative to a winding center axis; (i.) at least one separator sheet between the plurality of fold zones, wherein the at least one separator sheet electrically isolate the plurality of fold zones, and; (j.) a plurality of fold zone inner radius folds, wherein the plurality of fold zone inner radius folds are linearly spaced toward an annular core. 14. The electrode structure of claim 13, further comprising: (k.) a first terminal cap wherein the first terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a first direction, and; (l.) a second terminal cap wherein the second terminal cap has a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a second direction. 15. An article of manufacture comprising an electrode termination contact interface and a terminal cap assembly, comprising: (a.) the electrode termination contact interface, comprising: (A.) a first electrode foil having a plurality of current collecting tab portions oriented in a first direction; (B.) a separator; (C.) a second electrode foil having the plurality of current collecting tab portions oriented in a second direction; (b.) a first terminal cap, comprising: (A.) a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a first direction; (B.) a threading disposed circumferentially about the first terminal cap, wherein the threading is wound in a first orientation; (c.) a second terminal cap, comprising: (A.) a plurality of terminal cap opening tabs, wherein the plurality of terminal cap opening tabs open in a second direction, and; (B.) a threading disposed circumferentially about the first terminal cap, wherein the threading is wound in a second orientation, wherein the second orientation is approximately opposite from the first orientation. 16. The article of manufacture of claim 15, wherein the first direction of the current collecting tab portions of the first electrode foil is approximately opposite in direction from the second direction of the current collecting tab portions of the second electrode foil. 17. The article of manufacture of claim 16, wherein the plurality of current collecting tabs is adapted to fit through the plurality of terminal cap opening tabs of the first terminal cap, and wherein the plurality of current collecting tabs is further adapted to fit through the plurality of terminal cap opening tabs of the second terminal cap. 18. The article of manufacture of claim 17, wherein the plurality of current collecting tabs of the second electrode foil are adapted to fit through a plurality of terminal cap opening tabs of a third terminal cap, and wherein the plurality of current collecting tabs of the second electrode foil are further adapted to fit through a plurality of terminal cap opening tabs of a fourth terminal cap. 19. The article of manufacture of claim 15, wherein the first direction of the current collecting tab portions of the first electrode foil is approximately identical in direction as the second direction of the current collecting tab portions of the second electrode foil. 20. The article of manufacture of claim 19, wherein the plurality of current collecting tabs is adapted to fit through the plurality of terminal cap opening tabs of the first terminal cap, and wherein the plurality of current collecting tabs is further adapted to fit through the plurality of terminal cap opening tabs of the second terminal cap.
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