A capacitor component includes: a semiconductor substrate including first and second portions, a trench penetrating through the substrate from one surface of the substrate to the other surface of the substrate to separate the first and second portions of the substrate from each other, a dielectric layer disposed in the trench and on the one surface of the substrate; a first pad electrode and a second pad electrode spaced apart from each other, and penetrating through the dielectric layer to be in contact with the first and second portions of the substrate, respectively, and a passivation layer disposed on the dielectric layer, covering portions of the first pad electrode and the second pad electrode, and exposing at least a portion of each of the first pad electrode and the second pad electrode.

A capacitor component includes: a semiconductor substrate including first and second portions, a trench penetrating through the substrate from one surface of the substrate to the other surface of the substrate to separate the first and second portions of the substrate from each other, a dielectric layer disposed in the trench and on the one surface of the substrate; a first pad electrode and a second pad electrode spaced apart from each other, and penetrating through the dielectric layer to be in contact with the first and second portions of the substrate, respectively, and a passivation layer disposed on the dielectric layer, covering portions of the first pad electrode and the second pad electrode, and exposing at least a portion of each of the first pad electrode and the second pad electrode.

An electronic component that includes a substrate having a first main surface and a second main surface, an element on the first main surface of the substrate, a first contact electrode electrically connected to the element, an insulating film defining a first opening at a position that has an overlap with the first contact electrode in the plan view of the first main surface, a protective film covering the insulating film in a region including at least a part of the periphery of the first opening, and a first external electrode electrically connected to the first contact electrode and extending over the protective film.

A laminated electronic component includes a rectangular parallelepiped shaped stacked body including dielectric layers and internal electrode layers which are alternately laminated and a pair of first conductors and a pair of second conductors which are disposed on an outer surface of the stacked body. The first conductors are disposed in portions which include centers of long sides of a first principal surface which is positioned in a direction of lamination of the dielectric layers and the internal electrode layers of the stacked body, and do not include a vertex of the stacked body so as to extend from first side surfaces to the first principal surface. The second conductors are disposed on second side surfaces, and the first conductors and the second conductors are spaced apart from each other on an outer surface and electrically connected to each other via the internal electrode layers.

A laminated electronic component includes a rectangular parallelepiped shaped stacked body including dielectric layers and internal electrode layers which are alternately laminated and a pair of first conductors and a pair of second conductors which are disposed on an outer surface of the stacked body. The first conductors are disposed in portions which include centers of long sides of a first principal surface which is positioned in a direction of lamination of the dielectric layers and the internal electrode layers of the stacked body, and do not include a vertex of the stacked body so as to extend from first side surfaces to the first principal surface. The second conductors are disposed on second side surfaces, and the first conductors and the second conductors are spaced apart from each other on an outer surface and electrically connected to each other via the internal electrode layers.

A multilayer component is disclosed. In an embodiment, a multilayer component includes a fully active stack comprising a plurality of dielectric layers, internal electrodes and two external electrodes arranged on opposite sides of the stack, wherein at least one portion of the internal electrode layers are coated.

A multilayer component is disclosed. In an embodiment, a multilayer component includes a fully active stack comprising a plurality of dielectric layers, internal electrodes and two external electrodes arranged on opposite sides of the stack, wherein at least one portion of the internal electrode layers are coated.

A multilayer ceramic capacitor includes dielectric layers and internal electrode layers provided on the dielectric layers. The dielectric layers each include a perovskite compound that includes Ca and Zr, and optionally Sr and Ti. Mn is disposed at an interface between one of the dielectric layers and one of the internal electrode layers, and a Mn/Zr molar ratio at the interface is not less than about 0.117.

A multilayer electronic component according to an example embodiment of the present disclosure may include a body including a dielectric layer and internal electrodes alternately arranged in a first direction with the dielectric layer between the internal electrodes, and including first and second surfaces opposing each other in the first direction, third and fourth surfaces connected to the first and second surfaces and opposing each other in a second direction, and fifth and sixth surfaces connected to the first to fourth surfaces and opposing each other in a third direction; external electrodes disposed on the body; and a first inorganic material, including at least one inorganic material among sulfur (S) and fluorine (F), disposed in at least a portion between the body and the external electrodes.

A multilayer electronic component according to an example embodiment of the present disclosure may include a body including a dielectric layer and internal electrodes alternately arranged in a first direction with the dielectric layer between the internal electrodes, and including first and second surfaces opposing each other in the first direction, third and fourth surfaces connected to the first and second surfaces and opposing each other in a second direction, and fifth and sixth surfaces connected to the first to fourth surfaces and opposing each other in a third direction; external electrodes disposed on the body; and a first inorganic material, including at least one inorganic material among sulfur (S) and fluorine (F), disposed in at least a portion between the body and the external electrodes.