Process for making a capacitor foil with enhanced surface area
First Claim
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1. A process for making an anode foil for use in an electrolytic capacitor comprising the steps of:
- providing a thin metallic foil having first and second surfaces;
providing a first insulative mask shaped to cover a portion of said first surface of said foil;
assembling said first mask on said first surface of said foil such that said mask covers said portion of said first foil surface and exposes another portion of said first foil surface; and
etching the exposed portion of said first surface to provide an etched foil first surface having an increased surface area.
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Abstract
An improved electrolytic capacitor is provided by producing an anode foil which has areas which are not subject to stress during manufacturing being highly etched and those areas which are subject to stress during manufacturing being lightly etched or not etched at all. The process of the invention provides an etch mask to cover during the etch process those portions of the anode foil which will be subjected to stress during construction of the capacitor. The highly etched areas, which are very brittle, provide increased capacitance and thus improved energy density. For layered or stacked capacitors, a weld tab is covered with the etch mask to allow connection of the anode layers. Additionally, strong edges may be maintained thereby reducing the possibility of cracking that would normally occur during the stamping and assembly operations. For flat or oval capacitors made by rolling or winding the capacitor element on a large arbor, and then flattening the element by compressing it in a press, high stress occurs at the sharp bends resulting in cracking or breaking if the foil is not flexible. The method of the invention allows high gain foil to be used in the flat areas, while masking strengthens the locations where the sharp bends occur, thereby improving the capacitance.
181 Citations
14 Claims
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1. A process for making an anode foil for use in an electrolytic capacitor comprising the steps of:
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providing a thin metallic foil having first and second surfaces; providing a first insulative mask shaped to cover a portion of said first surface of said foil; assembling said first mask on said first surface of said foil such that said mask covers said portion of said first foil surface and exposes another portion of said first foil surface; and etching the exposed portion of said first surface to provide an etched foil first surface having an increased surface area.
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2. A process for making an anode foil for use in an electrolytic capacitor comprising the steps of:
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providing a thin metallic foil having first and second surfaces; providing a first insulative mask shaped to cover a portion of said first surface of said foil; providing a second insulative mask shaped to cover a portion of said second surface of said foil corresponding to said portion of said first surface covered by said first mask; assembling said first mask on said first surface of said foil such that said mask covers said portion of said first foil surface and exposes another portion of said first foil surface; assembling said second mask on said second surface of said foil; and etching the exposed portions of said first and second surfaces. - View Dependent Claims (3, 4)
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5. A process of making an electrolytic capacitor comprising the steps of:
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preparing an anode foil by etching a portion of each major surface of said foil; growing an oxide layer on each etched portion of said anode foil; providing an insulating separator and a cathode foil; and assembling said separator between one surface of said anode foil and said cathode foil; and impregnating said oxide layers with an electrolyte. - View Dependent Claims (6, 7, 8)
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9. A method of making an oval capacitor comprising the steps of:
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preparing an anode foil having a length substantially longer than its width and including a plurality of generally rectangular areas on one foil surface which are highly etched and a plurality of flexible strip areas perpendicular to the longitudinal extent of said anode foil separating said highly etched areas; forming an oxide layer on the etched portions of said anode foil; providing first and second insulating layers and a metal cathode foil each having a size and shape similar to that of said anode foil with said insulating layers being wider and longer than said anode and cathode layers; assembling in sequential layers said first insulating layer, said cathode foil, said second insulating layer and said anode foil; rolling said layers around an arbor to form a cylindrical capacitor having an open central core; and flattening said cylindrical capacitor by pressing it on opposite sides such that two flat areas are formed connected by two bent or curved sides wherein said highly etched areas of said anode foil are located within said flat areas and said strips which are lightly or not etched are located within said bent sides. - View Dependent Claims (10)
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11. A process of making an electrolytic capacitor comprising the steps of:
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preparing a plurality of anode foils for use as anode layers by etching a portion of first and second surfaces of said foils and not etching other portions said of first and second surfaces; growing an oxide layer on each etched portion of said anode foil; providing a plurality of insulating separators and cathode foils with twice as many separators as anode layers and one more cathode foil than anode layers; and assembling said foils and separators in a sequence of cathode foil, separator, anode foil, separator, cathode foil, separator, anode foil, separator, and cathode foil; and impregnating said oxide layers with an electrolyte. - View Dependent Claims (12)
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13. A process of making an electrolytic capacitor comprising the steps of:
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preparing a plurality of anode foils for use as anode layers by etching a portion of first and second surfaces of said foils and etching to a lesser degree other portions said of first and second surfaces; growing an oxide layer on each etched portion of said anode foil; providing a plurality of insulating separators and cathode foils with twice as many separators as anode layers and one more cathode foil than anode layers; and assembling said foils and separators in a sequence of cathode foil, separator, anode foil, separator, cathode foil, separator, anode foil, separator, and cathode foil; and impregnating said oxide layers with an electrolyte. - View Dependent Claims (14)
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Specification
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Current AssigneePacesetter Incorporated (Abbott Laboratories Incorporated)
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Original AssigneeVentritex Incorporated (Abbott Laboratories Incorporated)
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InventorsStrange, Thomas F., Elias, William H., Stevens, James I.
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Primary Examiner(s)Powell, William
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Application NumberUS08/443,134Time in Patent Office832 DaysField of Search216/6, 216/33, 216/41, 216/47, 216/102, 216/91, 437/919, 148/DIG. 14, 361/523US Class Current216/6CPC Class CodesH01G 9/055 Etched foil electrodes
