A coil component includes a molded portion having one surface and the other surface opposing each other, and including a support portion and a core portion which is disposed on the support portion and includes a recess portion, and a wound coil disposed on the one surface of the molded portion, and having an innermost turn, at least one middle turn and an outermost turn, formed outward from a center of the one surface of the molded portion, wherein at least a portion of the innermost turn of the wound coil is disposed in the recess portion and, a maximum width of the recess portion is 30% or less of a width of the core portion, based on one cross-section of the coil component, including an axis of the core portion.

A wireless power feeding device includes an attachment member having a socket to be electrically connected to a power supply and a fastener to be electrically connected to a ground, and a band having a socket pin to be inserted to the socket and a locking tool to be locked to the fastener, the band being attached to the attachment member and fixing a power receiving device to which power is to be wirelessly fed to the attachment member, wherein the socket pin has a power feeding electrode to be electrically connected to the power supply within the socket, and a ground connection sensing electrode to be electrically connected to the ground via the locking tool and the fastener, and the attachment member has a switch circuit electrically connecting the power supply to the power feeding electrode only when the ground connection sensing electrode is electrically connected to the ground.

A filter inductor for high-current applications. The filter inductor includes a magnetic core and a winding. The winding includes a shaped section having opposing ends, a pair of arm sections laterally extending from the opposing ends of the shaped section, respectively, and a pair of inductor pins, each extending perpendicular from an end of a respective arm section. The magnetic core includes a first core portion and a second core portion. The first core portion includes a recessed channel configured to receive the shaped section of the winding. The second core portion includes a pair of recessed regions configured to receive the pair of arm sections of the winding, respectively. The first core portion and the second core portion are coupled in contact to one another to secure the shaped section of the winding within the magnetic core. The filter inductor can be edge-mounted to a printed circuit board.

A coil component includes: a body; a substrate disposed in the body, and having a first surface and a second surface facing each other; a coil unit including first and second coil patterns disposed on the first surface and the second surface of the substrate, respectively, first and second lead-out portions extending to surfaces of the body, a first connection portion disposed between the first coil pattern and the first lead-out portion, and a second connection portion disposed between the second coil pattern and the second lead-out portion; and first and second external electrodes disposed to be spaced apart from each other on the body and connected to the first and second lead-out portions, respectively. Each of the first and second connection portions includes one connection pattern and at least one separation pattern. The connection pattern has a smaller line width than a respective one of the lead-out portions.

A coil cooling structure comprises a coil which includes a strip-shaped conductor wound around a specific axis a plurality of times; an alumina layer which is formed on an end surface of the coil in the direction of the specific axis through thermal spraying of alumina and whose surface is flattened; a cooling plate which is mainly formed of alumina and has a flow passage for a cooling medium; and an adhesive which bonds the alumina layer and the cooling plate and which elastically deforms depending on a difference in thermal expansion between the alumina layer and the cooling plate.

A surface-mount inductor having a molded body which includes a coil formed by winding a rectangular wire and sealed by sealant having resin and filler, a surface of the molded body being a mounting face, the coil includes: first rolls wound in two-roll arrangement along the winding axis, the ends of the wire being placed at the outermost turn; and second rolls wound in positions adjacent to the first rolls and oppositely shifted along the winding axis, the inner diameter being equal to or larger than the outer diameter of the first rolls, the ends of the wire are brought out from the outermost turn of the second rolls as lead ends which are sealed in a manner that the winding axis is parallel with the mounting face and the lead ends are partially exposed at the mounting face, as well as a method for manufacturing the same.

An inductor is configured to keep an inductance value within an allowable range of a specification. The inductor includes a conductor embedded in a core containing magnetic powder. The core includes a mounting surface facing a mounting substrate side at the time of mounting, an upper surface facing the mounting surface, a pair of end surfaces orthogonal to the mounting surface, and a pair of side surfaces orthogonal to the mounting surface and the pair of end surfaces. The conductor includes a conductive wire portion extending inside the core over the pair of end surfaces, and an electrode portion led out from each of the end surfaces and extending along the end surface and the mounting surface. The conductive wire portion is curved toward the mounting surface side in side view when the core is viewed from the side surface.

An inductor including a conductor having a plate thickness is embedded in a core containing magnetic powder. The core includes a mounting surface facing a mounting substrate side at the time of mounting, an upper surface facing the mounting surface, and a pair of end surfaces orthogonal to the mounting surface. The conductor includes a conductive wire extending inside the core over the pair of end surfaces, and a pair of electrode terminals. Each electrode terminal includes an electrode portion at respective end portions of the conductive wire and exposed to the mounting surface, and first and second bent portions having a first bend and second bend, respectively, which are each 2.0 times to 3.0 times the plate thickness. When one of the first and second bends is 2.0 times or more the plate thickness, the other is less than 3.0 times the plate thickness.

An inductor includes a core containing magnetic powder and a conductor embedded in the core. The core includes a mounting surface facing a mounting substrate side at the time of mounting, end surfaces orthogonal to the mounting surface, and side surfaces orthogonal to the mounting surface and the end surfaces. The conductor includes a conductive wire portion extending inside the core over the end surfaces and electrode portions at both end portions of the conductive wire portion and extending from the end surface of the core to the mounting surface. Each electrode portion is exposed to the side surfaces of the core, and in both end portions of the conductive wire portion, a shape of an edge portion corresponding to the side surface of the core is a cutout shape in which a location inside the core is cut out from a location connected to the electrode portion.

An inductor capable of suppressing deformation of a conductive wire portion in a core. The inductor includes a conductor is embedded in a core containing magnetic powder. The core includes a mounting surface facing a mounting substrate side at the time of mounting, and a pair of end surfaces orthogonal to the mounting surface. The inductor includes a conductive wire portion extending inside the core over the pair of end surfaces and an electrode portion led out from each of the pair of end surfaces and extending along the end surface and the mounting surface. The conductive wire portion includes a reinforcing portion.