A capacitor that includes an insulating substrate; a capacitance forming portion including a metal porous body, a dielectric film, and a conductive film; and a sealing portion that seals the capacitance forming portion. The capacitance forming portion is on a first main surface of the insulating substrate. A first external connection line including a first via conductor penetrating the insulating substrate from the first main surface side toward the second main surface side is connected to the metal porous body; and a second external connection line including a second via conductor penetrating the insulating substrate from the first main surface side toward the second main surface side is connected to the conductive film. When viewed in a normal direction of the first main surface, the first via conductor and the second via conductor are both in a region where the capacitance forming portion is disposed.

A multilayer ceramic electronic component includes: a ceramic body including a dielectric layer and first and second internal electrodes stacked to be alternately exposed to one side surface and the other side surface with the dielectric layer disposed therebetween; and first and second external electrodes disposed on an external surface of the ceramic body to be connected to the first and second internal electrodes, respectively, in which the ceramic body includes an area of overlap in a thickness direction of the first and second internal electrodes, margin region, and/or cover region, and the margin region in the width direction and/or the cover region includes a phosphoric acid-based second phase.

According to one embodiment, a capacitor includes a conductive substrate, a conductive layer, a dielectric layer, and first and second external electrodes. The conductive substrate has a first main surface provided with recess(s), a second main surface, and an end face extending between edges of the first and second main surfaces. The conductive layer covers the first main surface and side walls and bottom surfaces of the recess(s). The dielectric layer is interposed between the conductive substrate and the conductive layer. The first external electrode includes a first electrode portion facing the end face and is electrically connected to the conductive layer. The second external electrode includes a second electrode portion facing the end face and is electrically connected to the conductive substrate.

According to one embodiment, a capacitor includes a conductive substrate, a conductive layer, a dielectric layer, and first and second external electrodes. The conductive substrate has a first main surface provided with recess(s), a second main surface, and an end face extending between edges of the first and second main surfaces. The conductive layer covers the first main surface and side walls and bottom surfaces of the recess(s). The dielectric layer is interposed between the conductive substrate and the conductive layer. The first external electrode includes a first electrode portion facing the end face and is electrically connected to the conductive layer. The second external electrode includes a second electrode portion facing the end face and is electrically connected to the conductive substrate.

A semiconductor package structure and a method of manufacturing the same are provided. The semiconductor package structure includes an electronic component having a first surface, a second surface opposite to the first surface and a circuit structure closer to the first surface than to the second surface. The semiconductor package structure also includes a passive component connected to the second surface of the electronic component. The semiconductor package structure further includes a conductive element extending into the electronic component and configured to electrically connect the circuit structure with the passive component.

A multilayer substrate includes a stacked body including a first main surface, and a conductor pattern (including a mounting electrode provided on the first main surface, and a first auxiliary pattern provided on the first main surface). The stacked body includes a plurality of insulating base material layers made of a resin as a main material and stacked on one another. The first auxiliary pattern is located adjacent to or in a vicinity of the mounting electrode. The mounting electrode, in a plan view of the first main surface (when viewed in the Z-axis direction), is interposed between a different conductor pattern (the mounting electrode) and the first auxiliary pattern.

A multilayer ceramic electronic component includes an electronic component main body including a first outer electrode disposed on a first side surface of a multilayer body, and a second outer electrode spaced apart from the first outer electrode and disposed on the first side surface, a first metal terminal connected to the first outer electrode, a second metal terminal connected to the second outer electrode, and an exterior material. The first side surface or a second side surface opposes a mounting surface of a mounting substrate, first and second inner electrode layers are disposed perpendicularly or substantially perpendicularly to the mounting surface, and a portion of the first side surface, the first and second outer electrodes, and a portion of the first and second metal terminals are covered with the exterior material.

A multilayer ceramic electronic component includes an electronic component main body including a first outer electrode disposed on a first side surface of a multilayer body, and a second outer electrode spaced apart from the first outer electrode and disposed on the first side surface, a first metal terminal connected to the first outer electrode, a second metal terminal connected to the second outer electrode, and an exterior material. The first side surface or a second side surface opposes a mounting surface of a mounting substrate, first and second inner electrode layers are disposed perpendicularly or substantially perpendicularly to the mounting surface, and a portion of the first side surface, the first and second outer electrodes, and a portion of the first and second metal terminals are covered with the exterior material.

An electronic component includes a single-layer glass plate, an outer-surface conductor that is disposed above an outer surface of the single-layer glass plate and that is at least a part of an electrical element, and a terminal electrode that is a terminal of the electrical element. The terminal electrode is disposed above the outer surface of the single-layer glass plate and being electrically connected to the outer-surface conductor.

An electronic component includes a single-layer glass plate, an outer-surface conductor that is disposed above an outer surface of the single-layer glass plate and that is at least a part of an electrical element, and a terminal electrode that is a terminal of the electrical element. The terminal electrode is disposed above the outer surface of the single-layer glass plate and being electrically connected to the outer-surface conductor.