A solid electrolytic capacitor that includes a plurality of capacitor elements each including an anode portion, a dielectric layer, and a cathode portion having a solid electrolyte layer and a current collector layer; a leading conductor layer; an insulating resin body; a first external electrode; and a second external electrode. The plurality of capacitor elements are stacked in layers, with mutually adjacent capacitor elements having their respective current collector layers connected to each other. The current collector layer of only the capacitor element adjacent to the leading conductor layer is connected to the leading conductor layer. The first external electrode is connected to the leading conductor layer at the first end surface.

A method of manufacturing a capacitor assembly package structure includes providing a capacitor unit and a conductive connection layer, in which the capacitor unit includes a plurality of capacitors, and each of the capacitors includes a positive portion and a negative portion electrically connected to the conductive connection layer; partially enclosing the capacitors by an insulative package body, in which the positive portion of each of the capacitors has a positive lateral surface exposed from a first lateral surface of the insulative package body; and then enclosing a first portion of the insulative package body and electrically connecting to the positive portion of each of the capacitors by a first electrode structure, and enclosing a second portion of the insulative package body and electrically connecting to the conductive connection layer by a second electrode structure.

A method of manufacturing a capacitor assembly package structure includes providing a capacitor unit and a conductive connection layer, in which the capacitor unit includes a plurality of capacitors, and each of the capacitors includes a positive portion and a negative portion electrically connected to the conductive connection layer; partially enclosing the capacitors by an insulative package body, in which the positive portion of each of the capacitors has a positive lateral surface exposed from a first lateral surface of the insulative package body; and then enclosing a first portion of the insulative package body and electrically connecting to the positive portion of each of the capacitors by a first electrode structure, and enclosing a second portion of the insulative package body and electrically connecting to the conductive connection layer by a second electrode structure.

A composite electronic component includes a composite body having a multilayer ceramic capacitor and a tantalum capacitor coupled to each other, so as to have an excellent acoustic noise reduction effect, a low equivalent series resistance (ESR)/equivalent series inductance (ESL), improved direct current (DC)-bias characteristics, and a low chip thickness.

A composite electronic component includes a composite body having a multilayer ceramic capacitor and a tantalum capacitor coupled to each other, so as to have an excellent acoustic noise reduction effect, a low equivalent series resistance (ESR)/equivalent series inductance (ESL), improved direct current (DC)-bias characteristics, and a low chip thickness.

A solid electrolytic capacitor element includes an anode body, a dielectric layer disposed on a surface of the anode body, a solid electrolyte layer covering at least a part of the dielectric layer, and a cathode lead-out layer covering at least a part of the solid electrolyte layer. The cathode lead-out layer includes a carbon layer that is in contact with the solid electrolyte layer and covers at least a part of the solid electrolyte layer. The carbon layer includes a carbonaceous material and a cyclodextrin compound. The cyclodextrin compound has a concentration of a saturated aqueous solution at 25° C. of 1.5 mass% or more.

The present disclosure provides a solid electrolytic capacitor package structure for increasing electrical performances and a method of manufacturing the same, and a capacitor unit thereof. The capacitor unit includes at least one first capacitor, the at least one first capacitor includes a conductive polymer composite material layer. The conductive polymer composite material layer includes a conductive polymer material and a first nanometer material mixed with the conductive polymer material, and the first nanometer material includes a plurality of first fully embedded nanometer structures completely enclosed by the conductive polymer material and a plurality of first partially exposed nanometer structures partially exposed from the conductive polymer material.

The present disclosure provides a solid electrolytic capacitor package structure for increasing electrical performances and a method of manufacturing the same, and a capacitor unit thereof. The capacitor unit includes at least one first capacitor, the at least one first capacitor includes a conductive polymer composite material layer. The conductive polymer composite material layer includes a conductive polymer material and a first nanometer material mixed with the conductive polymer material, and the first nanometer material includes a plurality of first fully embedded nanometer structures completely enclosed by the conductive polymer material and a plurality of first partially exposed nanometer structures partially exposed from the conductive polymer material.

A solid electrolytic capacitor including a capacitor element and an anode lead assembly is provided. The capacitor element includes a sintered, porous anode body; a dielectric layer overlying the sintered, porous anode body; and a cathode overlying the dielectric layer that includes a solid electrolyte. The anode lead assembly includes a first anode lead having an embedded portion positioned within the anode body and an external portion extending from a surface of the anode body in a longitudinal direction. The external portion includes a substantially planar surface. Meanwhile, the second anode lead is positioned external to the anode body and includes a first portion and a second portion. The first portion has a substantially planar surface that is connected to the substantially planar surface of the external portion of the first anode lead.

A solid electrolytic capacitor including a capacitor element and an anode lead assembly is provided. The capacitor element includes a sintered, porous anode body; a dielectric layer overlying the sintered, porous anode body; and a cathode overlying the dielectric layer that includes a solid electrolyte. The anode lead assembly includes a first anode lead having an embedded portion positioned within the anode body and an external portion extending from a surface of the anode body in a longitudinal direction. The external portion includes a substantially planar surface. Meanwhile, the second anode lead is positioned external to the anode body and includes a first portion and a second portion. The first portion has a substantially planar surface that is connected to the substantially planar surface of the external portion of the first anode lead.