A coil component includes an insulating substrate; a coil portion disposed on at least one surface of the insulating substrate; and a body embedding the insulating substrate and the coil portion and having an active portion in which the coil portion is disposed, and a cover portion disposed on the active portion. A ratio of a thickness (T2) of the cover portion to a thickness (T1) of the insulating substrate satisfies 3<T2/T1<6, and the thickness (T2) of the cover portion satisfies 90 μm<T2<120 μm.

A coil component includes a body having a first surface and a second surface, both side surfaces, and both end surfaces connecting the first surface to the second surface and opposing each other, a plurality of coil portions embedded in the body and spaced apart from each other, first to fourth side electrodes connected to the plurality of coil portions and exposed to the both side surfaces, respectively, and first to fourth external electrodes disposed on the first surface and connected to the first to fourth side electrodes, respectively. A length of an edge of each of the first to fourth external electrodes, contacting the first surface and one of the both side surfaces, is greater than a length of an edge of a respective one of the first to fourth side electrodes, contacting the first surface and one of the both side surfaces.

An inductor component comprising a magnetic layer containing a magnetic powder and a resin containing the magnetic powder, a first spiral wiring and a second spiral wiring disposed on the same plane in the magnetic layer and adjacent to each other, and an insulating layer disposed between the first spiral wiring and the second spiral wiring and containing no magnetic substance. The first spiral wiring includes a first side surface facing the second spiral wiring, and at least a portion of the first side surface is in contact with the magnetic layer.

An inductor includes a magnetic body, and a conductor embedded in the magnetic body. The conductor includes a first conductor, and a second conductor covering a periphery of the first conductor.

A coil component includes a mold portion having a first surface and the second surface opposing each other, a winding coil disposed in the second surface of the mold portion, a cover portion disposed on the mold portion and the winding coil, and accommodating grooves on the first surface of the mold portion to be spaced apart from each other, and in which both ends of the winding coil are disposed, the accommodating grooves extend from one side of the mold portion in a width direction, and a minimum distance from the accommodating grooves to the second surface of the mold portion increases or decreased in the width direction.

An element body 4 includes a metal particle dispersion element 15 in which metal particles 12 are dispersed. A surface of the metal particle dispersion element 15 includes an indicator area 10. The indicator area 10 includes a recess 10a having a predetermined depth measured from a reference plane L of the metal particle dispersion element 15. The predetermined depth D1 is deeper than D50 of the metal particles 12 included in the metal particle dispersion element 15.

An inductor component comprising a laminated body having a magnetic layer containing a resin and a metal magnetic powder contained in the resin; an inductor wiring disposed in the laminated body; and an external terminal exposed from the laminated body. The external terminal includes a metal part and a resin part, and in a cross section of the external terminal, the resin part is enclosed in the metal part.

An inductor that is configured to store energy in a magnetic field includes a wire and a core. The wire is configured to deliver electrical current to the inductor to generate the magnetic field. The core is disposed radially about the wire. The core comprises magnetic particles that are suspended in a non-magnetic matrix. The magnetic particles are arranged such that a magnetic permeability of the core increases in a direction that extends radially outward from the wire along a cross-sectional area of the magnetic core from a first region that is adjacent to the wire to a second region that is adjacent to an outer periphery of the magnetic core.

The inductor component includes: coil portion around which lead wire is wound; lead-out portion at which an end portion of the lead wire is led out; connection line portion to which the lead-out portion is connected; outer terminal portion integrally formed with the connection line portion; and mold body which contains a magnetic material and in which the coil portion and the connection line portion are embedded. The connection line portion has a shape elongating along the lead-out portion, and includes a pair of first bonding pieces between the coil portion and terminal of the lead-out portion, the pair of first bonding pieces elongating from both sides of the connection line portion in mutually opposite directions. The pair of first bonding pieces has distal end sides each folded toward a part of the lead-out portion on the opposite side from the connection line portion.

In an exemplary embodiment, a coil component includes: an element body part 10 including a magnetic material; a coil 30 built into the element body part 10; an external electrode 50a electrically connected to the coil 30 and provided at least on a bottom face 12 of the element body part 10 along a side 13a of the bottom face 12; and an external electrode 50b electrically connected to the coil 30 and provided at least on the bottom face 12 along a side 13b, opposite the side 13a, of the bottom face 12; wherein the external electrode 50a has a tip part 52a facing the external electrode 50b; the external electrode 50b has a tip part 52b facing the external electrode 50a; and a void 70a is formed between the external electrode 50a and the bottom face 12 in a manner extending from the tip part 52a.