An electronic component according one embodiment of the disclosure includes an insulator, an internal conductor, and an external electrode. The insulator is made of a material containing resin. The insulator includes a first insulating layer that has a first bonding surface perpendicular to one axial direction and a second insulating layer bonded to the first bonding surface. The internal conductor includes a plurality of first via conductive members provided in the first insulating layer and a plurality of second via conductive members provided in the second insulating layer. Each of the first via conductive members has a first contact connected to the corresponding second via conductive member at a position offset in the one axial direction with respect to the first bonding surface.

An inductor having an excellent Q values is provided with a configuration in which an inductor and a capacitor are integrally formed in a single element. Specifically, an LC device is provided that includes an element, an inductor, a capacitor, and a magnetic body portion. The element has a planar shape, and includes an insulating resin layer at at least part of the element. The inductor includes a loop-shaped conductor pattern and is formed inside the element. The capacitor is a mounting-type element, and is disposed in an opening of the loop-shaped conductor pattern and inside the element with at least a mounting surface of the capacitor being in contact with the resin layer. The magnetic body portion forms part of the element and is disposed between the conductor pattern and the capacitor over substantially an entire length of the loop-shaped conductor pattern.

A chip part is provided that includes a substrate in which an element region and an electrode region are set, an insulating film (a first insulating film and a second insulating film) which is formed on the substrate and which selectively includes an internal concave/convex structure in the electrode region on a surface, a first connection electrode and a second connection electrode which include, at a bottom portion, an anchor portion entering the concave portion of the internal concave/convex structure and which include an external concave/convex structure on a surface on the opposite side and a circuit element which is disposed in the element region and which is electrically connected to the first connection electrode and the second connection electrode.

A multilayer conductor includes at least one separation dielectric layer and a plurality of conductor layers stacked in an alternating manner. Each of the plurality of conductor layers includes a first conductor sublayer and a second conductor sublayer separated from the first conductor sublayer by a sublayer dielectric layer. The second conductor sublayer at least partially overlaps with the first conductor sublayer in each of the plurality of conductor layers. The multilayer conductor is included, for example, in a device including a magnetic core adjacent to at least part of the multilayer conductor.

An LC composite component includes a magnetic substrate with magnetism, a magnetic layer with magnetism, inductors, capacitors, and core parts with magnetism. The magnetic substrate includes a first surface and a second surface on a side opposite to the first surface. The magnetic layer is disposed to face the first surface of the magnetic substrate. The inductors and the capacitors are disposed between the first surface of the magnetic substrate and the magnetic layer. The core parts are disposed between the first surface of the magnetic substrate and the magnetic layer and connected to the magnetic layer. The thickness of the core part is 1.0 or more times the thickness of the magnetic layer, the thickness of the magnetic substrate is 1.0 or more times the thickness of the magnetic layer.

An LC composite component includes a non-magnetic substrate, a magnetic layer with magnetism, capacitors, inductors, and core parts with magnetism. The non-magnetic substrate includes a first surface and a second surface on a side opposite to the first surface. The magnetic layer is disposed to face the first surface of the non-magnetic substrate. The inductors and the capacitors are disposed between the first surface of the non-magnetic substrate and the magnetic layer. The core parts are disposed between the first surface of the non-magnetic substrate and the magnetic layer and connected to the magnetic layer. The thickness of the core parts is 1.0 or more times the thickness of the magnetic layer in a direction perpendicular to the first surface of the non-magnetic substrate, and each of the magnetic layer and the core parts contains magnetic metal particles and resin.

An electronic component according one embodiment of the disclosure includes an insulator, an internal conductor, and an external electrode. The insulator may be formed of a material that contains resin. The internal conductor is provided inside the insulator and includes a conductive main body and an outer coating film that is provided on at least a part of a peripheral surface of the conductive main body and has a resistivity higher than the conductive main body. The external electrode is disposed on the insulator and electrically coupled to the internal conductor.

A semiconductor device capable of reducing in size thereof and suppressing degradation in the characteristics of circuit components is provided. The semiconductor device includes an LC circuit comprised of a spiral inductor provided over a semiconductor substrate and a capacitive element coupled with the spiral inductor. The spiral inductor includes a central area encircled with a metal wiring and a peripheral area other than the central area. The capacitive element is formed in an upper-layer or a lower-layer position corresponding to the peripheral area other than the central area.

A composite component-embedded circuit board includes a circuit board including a first functional block disposed closer to an upper surface of the circuit board, and a second functional block different from the first functional block and disposed closer to a lower surface of the circuit board, and a composite chip circuit embedded in the circuit board and including first and second circuit elements. The composite component further includes first and second terminal electrodes. The first terminal electrode is disposed on an upper surface of the composite component. The first terminal electrode is connected to the composite circuit and to the first functional block. The second terminal electrode is disposed on a lower surface of the composite component. The second terminal electrode is connected to the composite circuit and to the second functional block.

An electronic component includes a multilayer body including insulator layers laminated in a lamination direction, a side surface electrode provided on a side surface defined by contiguous outer edges of the insulator layers, and connected to a ground potential, at least one conductor layer provided on the insulator layers, a shield conductor layer provided on the insulator layer that is different from the insulator layer on which the inner conductor layer is provided, and overlapping with the inner conductor layer when viewed from the lamination direction, a first lead conductor layer provided on the insulator layer that is different from the insulator layer on which the shield conductor layer is provided, and connected to the side surface electrode, and a first interlayer connection conductor passing through least one of the insulator layers in the lamination direction to connect the shield conductor layer and the first lead conductor layer.