Wound multi-anode electrolytic capacitor with offset anodes
First Claim
1. A wound capacitor, comprising:
- a first anode, including an end edge;
a cathode;
a first separator between the first anode and the cathode, the first separator carrying an electrolyte;
a second anode, substantially adjacent to the first anode, the first anode being in between the second anode and the first separator, the second anode including an end edge;
a second separator substantially adjacent to the cathode, the cathode being in between the first and second separators, the second separator being approximately adjacent to the second anode when wound; and
wherein the first and second anodes, the first and second separators, and the cathode are spirally wound together into a cylindrical capacitor defining a concentric cylindrical axis, the end edges of the first and second anodes being approximately proximal to the cylindrical axis such that the first and second anodes extend spirally outward from the end edges of the respective first and second anodes, the end edge of the first anode being offset from the end edge of the second anode by a first predetermined distance.
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Accused Products
Abstract
A wound multi-anodic electrolytic capacitor has a multi-anode stack of strips of high foil gain tunnel-etched aluminum. Inner end edges the anodes in a multi-anode stack are offset from each other by a predetermined distance. Offsetting the end edges of the anodes advantageously reduces mechanical stresses in the capacitor windings. This increases the reliability of the capacitor and advantageously allows a smaller diameter mandrel opening, increasing the energy density per unit volume of the capacitor and allowing its volume to be reduced. When used in an implantable defibrillator or other cardiac rhythm management device, the smaller capacitor advantageously reduces its volume or, alternatively, allows the use of a larger battery, thereby prolonging its useable life.
113 Citations
24 Claims
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1. A wound capacitor, comprising:
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a first anode, including an end edge; a cathode; a first separator between the first anode and the cathode, the first separator carrying an electrolyte; a second anode, substantially adjacent to the first anode, the first anode being in between the second anode and the first separator, the second anode including an end edge; a second separator substantially adjacent to the cathode, the cathode being in between the first and second separators, the second separator being approximately adjacent to the second anode when wound; and wherein the first and second anodes, the first and second separators, and the cathode are spirally wound together into a cylindrical capacitor defining a concentric cylindrical axis, the end edges of the first and second anodes being approximately proximal to the cylindrical axis such that the first and second anodes extend spirally outward from the end edges of the respective first and second anodes, the end edge of the first anode being offset from the end edge of the second anode by a first predetermined distance. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A cardiac rhythm management system comprising:
a pulse generator including a capacitor wherein the capacitor includes; a first anode, including an end edge; a cathode; a first separator between the first anode and the cathode, the first separator carrying an electrolyte; a second anode, substantially adjacent to the first anode, the first anode being in between the second anode and the first separator, the second anode including an end edge; a second separator substantially adjacent to the cathode, the cathode being in between the first and second separators, the second separator being approximately adjacent to the second anode when wound; and wherein the first and second anodes, the first and second separators, and the cathode are spirally wound together into a cylindrical capacitor defining a concentric cylindrical axis, the end edges of the first and second anodes being approximately proximal to the cylindrical axis such that the first and second anodes extend spirally outward from the end edges of the respective first and second anodes, the end edge of the first anode being offset from the end edge of the second anode by a first predetermined distance. - View Dependent Claims (10)
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11. A spirally wound cylindrical aluminum electrolytic capacitor comprising:
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a tunnel-etched aluminum first anode ribbon including an end edge; an aluminum cathode ribbon; a first separator ribbon including at least two paper ribbons impregnated with a liquid electrolyte; a tunnel-etched aluminum second anode ribbon including an end edge; a second separator ribbon including at least two paper ribbons impregnated with a liquid electrolyte; and wherein the first and second anode ribbons, the first and second separator ribbons, and the cathode ribbon are spirally wound together into a cylindrical capacitor defining a concentric cylindrical axis, each winding of the cylindrical capacitor including a stacked sequence of the second separator ribbon, the cathode ribbon, the first separator ribbon, the first anode ribbon, and the second anode ribbon, and the end edges of the first and second anode ribbons being approximately parallel to each other and also being approximately parallel and approximately proximal to the cylindrical axis, the end edge of the first anode ribbon being offset from the end edge of the second anode ribbon by a first predetermined distance. - View Dependent Claims (12, 13, 14, 15)
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16. A cardiac rhythm management system comprising:
a pulse generator including a capacitor wherein the capacitor includes; a tunnel-etched aluminum first anode ribbon including an end edge; an aluminum cathode ribbon; a first separator ribbon including at least two paper ribbons impregnated with a liquid electrolyte; a tunnel-etched aluminum second anode ribbon including an end edge; a second separator ribbon including at least two paper ribbons impregnated with a liquid electrolyte; and wherein the first and second anode ribbons, the first and second separator ribbons, and the cathode ribbons are spirally wound together into a cylindrical capacitor defining a concentric cylindrical axis, each winding of the cylindrical capacitor including a stacked sequence of the second separator ribbon, the cathode ribbon, the first separator ribbon, the first anode ribbon, and the second anode ribbon, and the end edges of the first and second anode ribbons being approximately parallel to each other and also being approximately parallel and approximately proximal to the cylindrical axis, the end edge of the first anode ribbon being offset from the end edge of the second anode ribbon by a first predetermined distance. - View Dependent Claims (17)
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18. A method of fabricating a capacitor, the method comprising:
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forming a stacked sequence of elements that sequentially includes a second separator, a cathode, a first separator, a first anode, and a second anode, each having an end being approximately aligned with the other elements in the stacked sequence; displacing the end of the first anode from the end of the second anode by a first predetermined distance; and winding the stacked sequence spirally outward from the ends of the stacked sequence of elements to form a resulting cylindrical capacitor, such that the ends of the stacked sequence of elements are approximately proximal to a concentric cylindrical axis of the capacitor. - View Dependent Claims (19, 20)
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21. A method of fabricating a capacitor, the method comprising:
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forming a stacked sequence of elements that sequentially includes a second separator, a cathode, a first separator, a first anode, a second anode, and a third anode, each having an end being approximately aligned with the other elements in the stacked sequence; displacing the end of the first anode from the end of the second anode by a first predetermined distance; displacing the end of the second anode from the end of the third anode by a second predetermined distance; and winding the stacked sequence spirally outward from the ends of the stacked sequence of elements to form a resulting cylindrical capacitor, such that the ends of the stacked sequence of elements are approximately proximal to a concentric cylindrical axis of the capacitor. - View Dependent Claims (22, 23, 24)
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Specification