Electrolytic capacitor and multi-anodic attachment
First Claim
1. A planar capacitor comprising:
- a planar case having first and second opposing and substantially planar surfaces;
one or more anode stacks between the first and second planar surfaces, with at least one of the anode stacks comprising;
an inner anode layer between first and second outer anode layers, with each outer layer having an inner surface facing the inner anode layer and an outer surface facing away from the inner anode layer; and
only one tab extending from the at least one anode stack, the one tab having two major opposing surfaces, with at least one of the two major surfaces contacting the outer surface of the first or second outer anode layer.
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Abstract
A multi-anodic aluminum electrolytic capacitor includes an electrical connection to the multiple porous (e.g., tunnel-etched) anodes in an anode stack using a single anode tab that is attached only to a first anode. Other anodes are electrically coupled to the anode tab through the first anode. Anodes in the anode stack are in intimate physical and electrical contact with other such anodes as a result of layering effected by planar stacking or cylindrical winding. The need for separate tabs to different anode layers is eliminated or at least minimized, thereby reducing capacitor volume, increasing capacitor reliability, and reducing the cost and complexity of the capacitor manufacturing process for multi-anodic capacitors. The capacitor is capable of use in implantable defibrillators, camera photoflashes, and other electric circuit applications.
99 Citations
14 Claims
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1. A planar capacitor comprising:
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a planar case having first and second opposing and substantially planar surfaces;
one or more anode stacks between the first and second planar surfaces, with at least one of the anode stacks comprising;
an inner anode layer between first and second outer anode layers, with each outer layer having an inner surface facing the inner anode layer and an outer surface facing away from the inner anode layer; and
only one tab extending from the at least one anode stack, the one tab having two major opposing surfaces, with at least one of the two major surfaces contacting the outer surface of the first or second outer anode layer. - View Dependent Claims (2, 3, 4, 5, 6, 7)
at least one cathode; and
at least one separator between the at least one anode stack and the one cathode, the one separator including a liquid electrolyte.
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7. An implantable cardiac rhythm management system comprising the capacitor of claim 1.
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8. A planar capacitor comprising:
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a planar case having first and second opposing and substantially planar surfaces;
at least one anode stack between the first and second planar surfaces, the one anode stack having a total thickness and comprising;
an inner anode layer between first and second outer anode layers, with each outer layer having an inner surface facing the inner anode layer and an outer surface facing away from the inner anode layer and with each anode layer having a respective layer thickness; and
only one tab extending from the one anode stack, the one tab having two major opposing surfaces defining a tab thickness, with at least one of the two major surfaces contacting the inner surface of the first or second outer anode layer and with the total thickness being at least as great as a sum of the layer thicknesses of the anode layers and the tab thickness. - View Dependent Claims (9, 10, 11, 12, 13)
at least one cathode; and
at least one separator between the one anode stack and the one cathode, the one separator including an electrolyte.
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13. An implantable cardiac rhythm management system comprising the capacitor of claim 8.
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14. A planar capacitor comprising:
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a planar case having first and second opposing and substantially planar surfaces; and
at least one anode stack between the first and second planar surfaces, the one anode stack including;
two or more anode layers, with at least one of the anode layers not joined to any other anode layer; and
no more than one tab extending from the one anode stack for every two of the anode layers in the one anode stack, with the one tab having a tab thickness contributing to the total thickness of the one anode stack.
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Specification