An example includes a capacitor case sealed to retain electrolyte, at least one anode disposed in the capacitor case, the at least one anode comprising a sintered portion disposed on a substrate, an anode conductor coupled to the substrate in electrical communication with the sintered portion, the anode conductor sealingly extending through the capacitor case to an anode terminal disposed on the exterior of the capacitor case with the anode terminal in electrical communication with the sintered portion, a second electrode disposed in the capacitor case, a separator disposed between the second electrode and the anode and a second electrode terminal disposed on an exterior of the capacitor case and in electrical communication with the second electrode, with the anode terminal and the second electrode terminal electrically isolated from one another.

An example includes a capacitor case sealed to retain electrolyte, at least one anode disposed in the capacitor case, the at least one anode comprising a sintered portion disposed on a substrate, an anode conductor coupled to the substrate in electrical communication with the sintered portion, the anode conductor sealingly extending through the capacitor case to an anode terminal disposed on the exterior of the capacitor case with the anode terminal in electrical communication with the sintered portion, a second electrode disposed in the capacitor case, a separator disposed between the second electrode and the anode and a second electrode terminal disposed on an exterior of the capacitor case and in electrical communication with the second electrode, with the anode terminal and the second electrode terminal electrically isolated from one another.

Disclosed herein is an electrode feedthru assembly for an electronic device and method of manufacturing. The feedthru assembly includes a ferrule, an electrode assembly, and an elastomer. The ferrule includes a bore through which the electrode assembly is positioned. The electrode assembly includes an electrode wire attached to a crimp pin. The crimp pin includes a crimp terminal portion and a pin terminal portion, the crimp terminal portion crimped to the a portion of the electrode wire to form a connected portion of the electrode assembly. The elastomer is disposed in the bore of the ferrule between the ferrule and the electrode assembly. The elastomer is configured to electrically isolate the ferrule from the electrode assembly and to encapsulate at least the connected portion of the electrode assembly.

Disclosed herein is an electrode feedthru assembly for an electronic device and method of manufacturing. The feedthru assembly includes a ferrule, an electrode assembly, and an elastomer. The ferrule includes a bore through which the electrode assembly is positioned. The electrode assembly includes an electrode wire attached to a crimp pin. The crimp pin includes a crimp terminal portion and a pin terminal portion, the crimp terminal portion crimped to the a portion of the electrode wire to form a connected portion of the electrode assembly. The elastomer is disposed in the bore of the ferrule between the ferrule and the electrode assembly. The elastomer is configured to electrically isolate the ferrule from the electrode assembly and to encapsulate at least the connected portion of the electrode assembly.

A capacitor that comprises a solid electrolytic capacitor element, a casing material that encapsulates the capacitor element, an anode termination, and a cathode termination is provided. A nanocoating is disposed on at least a portion of the capacitor element, casing material, anode termination, cathode termination, or a combination thereof. The nanocoating has an average thickness of about 2,000 nanometers or less and contains a vapor-deposited polymer.

A capacitor that comprises a solid electrolytic capacitor element, a casing material that encapsulates the capacitor element, an anode termination, and a cathode termination is provided. A nanocoating is disposed on at least a portion of the capacitor element, casing material, anode termination, cathode termination, or a combination thereof. The nanocoating has an average thickness of about 2,000 nanometers or less and contains a vapor-deposited polymer.

An issue of this invention is to enhance reliability of an electrolytic capacitor in a manner that an electrolytic solution does not leak from a sealed part while a high initial electrical conductivity is maintained even at a higher environment temperature or in a high-humidity condition. An electrolytic solution for aluminum electrolytic capacitor is described, containing a solvent (A) and an electrolyte (D) represented by general formula (1) below. In formula (1), R.sup.1 to R.sup.3 each represent alkyl having 1 to 3 carbon atoms, R.sup.4 to R.sup.7 each represent alkyl having 1 to 3 carbon atoms or a hydrogen atom, and X.sup.− represents an anion of an acid (C). ##STR00001##

An issue of this invention is to enhance reliability of an electrolytic capacitor in a manner that an electrolytic solution does not leak from a sealed part while a high initial electrical conductivity is maintained even at a higher environment temperature or in a high-humidity condition. An electrolytic solution for aluminum electrolytic capacitor is described, containing a solvent (A) and an electrolyte (D) represented by general formula (1) below. In formula (1), R.sup.1 to R.sup.3 each represent alkyl having 1 to 3 carbon atoms, R.sup.4 to R.sup.7 each represent alkyl having 1 to 3 carbon atoms or a hydrogen atom, and X.sup.− represents an anion of an acid (C). ##STR00001##

A capacitor carrier assembly includes a carrier, a capacitor disposed in the carrier and electrically conductive connection terminals that support the carrier with respect to another electronic component or device such as a printed circuit board. Each connection terminal has a body portion that is electrically connected to one capacitor lead of the pair of capacitor leads at a connection location, and a device connection portion that protrudes from the carrier. Leads of the capacitor and the connection locations are encapsulated by wall structures of the carrier.

A solid electrolyte capacitor includes a bottomed cylindrical housing having a bottom surface portion, a side surface portion raised from the bottom surface portion and an opening portion formed on an end portion of the side surface portion; a capacitor element housed in the inside of the housing, the capacitor element being formed by winding an anode foil and a cathode foil in an overlapping state with a separator interposed therebetween and by filling a solid electrolyte between the anode foil and the cathode foil; and a sealing member sealing the opening portion of the housing in a state where the capacitor element is housed in the inside of the housing, wherein an oxide film repairing body made of a hydrophilic synthetic resin is disposed at least one of between the bottom surface portion and the capacitor element of the housing and between the capacitor element and the sealing member.