A magnetic part including: a coil that generates a magnetic flux when a current flows through the coil; a core that is formed of a magnetic substance that forms a magnetic path of the magnetic flux; a support member that supports the core; and a fixing member that fixes the core to the support member. The core includes a column portion that is vertically provided with respect to a surface where the core is in contact with the support member. The fixing member presses the column portion of the core against the support member. The support member has a recess in a portion of a facing surface that faces the core, where the portion of a facing surface does not face the column portion.

An electronic component, such as, for example, an inductor, includes a core defining an axis and a conductor that is at least partially wound about the core. The electronic component further includes a mounting surface defining a plane that extends substantially parallel to the axis of the core. The mounting surface is configured to engage a surface of a board. The conductor may include a first terminal and a second terminal extending along the plane such that the first and second terminals are able to be mounted to the surface of the board.

A coil component includes a first alignment winding region in which a second wire is continuously wound so as to have turns such that the turns of the second wire are aligned with turns of a first wire having the same ordinal number outside the first wire in a direction perpendicular to a central axis. The ordinal number is counted from the turn nearest to the first flange portion.

An inductor and a method of making an inductor. The inductor includes a stack of dielectric layers. The inductor also includes a plurality of metal levels comprising patterned metallic features of the inductor. Each metal level is located at an interface between adjacent dielectric layers in the stack. The patterned metallic features include a first plurality of inductor windings arranged in a substantially flat spiral in one of the metal levels. The patterned metallic features also include a second plurality of inductor windings in which each winding is located in a respective one of the plurality of metal levels. The first plurality of windings is connected in series with the second plurality of windings.

A coil component includes a drum core and first and second wires. The first wire includes a first extending portion. The second wire includes a third extending portion. The first and third extending portions are not in contact with each other. Each of the first and second wires includes a coat including a first region and a second region. The coat in the first and third extending portions is the second region at least in part. The coat is the first region at a contacting point where the first and second wires are in contact for the first time from a first flange portion in the drum core.

A coil component includes: a magnetic body part having a first compact containing a first magnetic material and a first resin, and a second compact placed on the outside of the first compact and containing a second magnetic material and a second resin; a coil formed by a conductive wire which comprises a metal conductor covered with an insulating film, and embedded in the magnetic body part; and lead parts of the coil placed on the outside of the first compact; wherein the filling rate of the first magnetic material constituting the first compact is higher than the filling rate of the second magnetic material constituting the second compact. The filling rate of magnetic grains can be improved while also ensuring the insulating property of the coil, etc.

In an exemplary embodiment, a coil component includes: an element body part 10 that is formed containing a magnetic material; a coil 40 that is embedded within the element body part 10 and constituted by a wound conductive wire; lead wires 44a, 44b that are extended from the conductive wire and are led out from the coil 40; and terminal parts 70a, 70b that are joined to the lead wires 44a, 44b; wherein tip parts 46a, 46b of the lead wires 44a, 44b, each having a prescribed length from the tip, are embedded in the element body part 10 and also extend along the bottom face 22 of the element body part 10, and the terminal parts 70a, 70b are joined to the tip parts 46a, 46b of the lead wires 44a, 44b on the bottom face 22 of the element body part 10.

An inductor includes an integrated preform having a coil installed thereinside. The coil includes extension portions extending from two stages of a spiral wound portion. The integrated preform is formed by bonding together first and second preforms. The first and/or second preform is shaped like a housing including a plate-shaped bottom, a wall provided around the periphery of the bottom portion, and two cut out portions provided in the wall. The extension portions extend to outside the integrated preform via the cut out portions. The difference between a first distance from a reference surface, which is the bottom surface of the bottom of the first or second preform, to a bottom surface of one cut out portion and a second distance from the reference surface to the bottom surface of the other cut out portion is substantially an integer multiple of the width of the flat wire.