A solid electrolytic capacitor that includes: a capacitor element including an anode body connected to an anode lead, a dielectric layer on a surface of the anode body, and a cathode layer opposite to the anode body via the dielectric layer; an exterior resin covering the capacitor element; a first external electrode terminal on a first outer surface of the exterior resin and electrically connected to the anode body; a second external electrode terminal on a second outer surface of the exterior resin and electrically connected to the cathode layer; and a resin layer having a lower filler content than the exterior resin and covering at least a portion of an outer periphery of the anode lead between the first outer surface of the exterior resin and the anode body.

A solid electrolytic capacitor element includes an anode body that includes a porous part in at least a surface layer of the anode body, a dielectric layer, and a cathode part. The cathode part includes a solid electrolyte layer that covers the at least a part of the dielectric layer. The anode body includes a first part and a second part. The first part is a cathode forming part on which the solid electrolyte layer is formed, and the second part is a part on which the solid electrolyte layer is not formed. The second part includes at least an anode part including an end of the anode body opposite to the first part. The first part is sectionalized into a plurality of regions, and the first part has a groove at a boundary between adjacent regions among the plurality of regions.

A solid electrolytic capacitor element includes an anode body that includes a porous part in at least a surface layer of the anode body, a dielectric layer, and a cathode part. The cathode part includes a solid electrolyte layer that covers the at least a part of the dielectric layer. The anode body includes a first part and a second part. The first part is a cathode forming part on which the solid electrolyte layer is formed, and the second part is a part on which the solid electrolyte layer is not formed. The second part includes at least an anode part including an end of the anode body opposite to the first part. The first part is sectionalized into a plurality of regions, and the first part has a groove at a boundary between adjacent regions among the plurality of regions.

Many electronic devices may employ electrolytic polymer capacitors in their power supplies for noise filtering, decoupling/bypassing, frequency conversion and DC-DC and AC-DC conversion. However, some polymer capacitors exhibit an anomalous charging current phenomenon, which may prevent proper charging and cause failure in power circuits of the electronic devices. Disclosed herein are polymer capacitors that have a wide band gap material layer between an insulator/dielectric and a polymer cathode, a charge depletion region in the insulator/dielectric, or both, that may mitigate the anomalous charging current.

Many electronic devices may employ electrolytic polymer capacitors in their power supplies for noise filtering, decoupling/bypassing, frequency conversion and DC-DC and AC-DC conversion. However, some polymer capacitors exhibit an anomalous charging current phenomenon, which may prevent proper charging and cause failure in power circuits of the electronic devices. Disclosed herein are polymer capacitors that have a wide band gap material layer between an insulator/dielectric and a polymer cathode, a charge depletion region in the insulator/dielectric, or both, that may mitigate the anomalous charging current.

An electrolytic capacitor includes a capacitor element, an anode lead terminal, a cathode lead terminal, and an exterior body. The anode lead terminal includes an anode terminal part and a first upright part. The first upright part includes two exposed parts and a bent part disposed between the two exposed parts. The two exposed parts are connected to the anode terminal part and exposed from the exterior body The bent part includes a recess at a tip of the bent part. The bent part is bent toward a first end surface of the capacitor element so that the recess is disposed in the exterior body. An anode lead is connected to the recess of the bent part.

An electrolytic capacitor includes a capacitor element, an anode lead terminal, a cathode lead terminal, and an exterior body. The anode lead terminal includes an anode terminal part and a first upright part. The first upright part includes two exposed parts and a bent part disposed between the two exposed parts. The two exposed parts are connected to the anode terminal part and exposed from the exterior body The bent part includes a recess at a tip of the bent part. The bent part is bent toward a first end surface of the capacitor element so that the recess is disposed in the exterior body. An anode lead is connected to the recess of the bent part.

A solid electrolytic capacitor comprises a capacitor element, an anode terminal and a cathode terminal. The capacitor element comprises an anode body, a dielectric layer, a solid electrolytic layer, a conductive layer and an anode lead wire. The anode lead wire is partially embedded in the anode body and extends in a horizontal direction from the anode body. The anode lead wire has a thicker portion and a thinner portion. The thinner portion is positioned closer to the anode body than the thicker portion is in the horizontal direction. The anode terminal at least has a first end, a second end and an overlapping portion. The anode terminal is connected to the anode lead wire under a state where the first end of the anode terminal is positioned on the thinner portion while the overlapping portion of the anode terminal overlaps with the thicker portion.

A solid electrolytic capacitor comprises a capacitor element, an anode terminal and a cathode terminal. The capacitor element comprises an anode body, a dielectric layer, a solid electrolytic layer, a conductive layer and an anode lead wire. The anode lead wire is partially embedded in the anode body and extends in a horizontal direction from the anode body. The anode lead wire has a thicker portion and a thinner portion. The thinner portion is positioned closer to the anode body than the thicker portion is in the horizontal direction. The anode terminal at least has a first end, a second end and an overlapping portion. The anode terminal is connected to the anode lead wire under a state where the first end of the anode terminal is positioned on the thinner portion while the overlapping portion of the anode terminal overlaps with the thicker portion.

An electrolytic capacitor that includes: a cuboid resin molded body having a first end surface and a second end surface opposite to each other; a first external electrode on the first end surface and electrically connected to an exposed end of an anode; and a second external electrode on the second end surface and electrically connected to an exposed end of a cathode, wherein at least one of the first and second external electrodes has a multilayer structure including: an inner plating layer; and a resin electrode layer on the inner plating layer and containing a resin component and at least one metal selected from Ni, Cu, and Ag, and a total number of layers defining each of the first and second external electrodes is four or less.