A coil component having a structure that can easily realize a desired positional relationship between a cover member and a bobbin portion is provided. The coil component includes a bobbin portion, a magnetic core inserted through the bobbin portion, and a coil wound around the bobbin portion, and a cover member covering the bobbin portion by being externally fitted to the bobbin portion. In the coil component, the cover member and the bobbin portion abut each other, and at least one of the cover member and the bobbin portion elastically biases the other in a first direction parallel to a mounting surface.

A power converter includes a magnetic core and a plurality of windings. The plurality of windings are each wound around the magnetic core and bent to have a portion extending in the direction in which the magnetic core extends. Each of the plurality of windings is bent to include a region located farthest out from the magnetic core among all of the plurality of windings.

A power converter includes a magnetic core and a plurality of windings. The plurality of windings are each wound around the magnetic core and bent to have a portion extending in the direction in which the magnetic core extends. Each of the plurality of windings is bent to include a region located farthest out from the magnetic core among all of the plurality of windings.

An electrical transformer and method of manufacturing an electrical transformer. The electrical transformer comprises a set of primary windings comprising first and second primary windings connected in parallel and first and second sets of secondary windings. Each of the first and second sets comprises a plurality of secondary windings that are connected in parallel. The secondary windings of the first set are electrically isolated from the secondary windings of the second set. The set of primary windings and the first and second sets of secondary windings are arranged in a stacked structure in which the secondary windings of the first set are interleaved with the secondary windings of the second set, and at least one secondary winding of the first set and/or at least one secondary winding of the second set is arranged between the first and second primary windings.

Provided is a power conversion device, including: a casing having a recessed portion; a magnetic component accommodated in the recessed portion of the casing; a heat radiation plate, which covers an opening of the recessed portion of the casing, and is thermally coupled to the magnetic component; and a fixing band wound around the magnetic component and the heat radiation plate to fix the magnetic component to the heat radiation plate, wherein at least a part of the fixing band is accommodated in a band accommodating groove formed in the recessed portion of the casing. With this configuration, assembly dimensional tolerance caused between the magnetic component and the heat radiation plate can be eliminated and it is therefore possible to maintain high output and achieve downsizing.

Provided is a power conversion device, including: a casing having a recessed portion; a magnetic component accommodated in the recessed portion of the casing; a heat radiation plate, which covers an opening of the recessed portion of the casing, and is thermally coupled to the magnetic component; and a fixing band wound around the magnetic component and the heat radiation plate to fix the magnetic component to the heat radiation plate, wherein at least a part of the fixing band is accommodated in a band accommodating groove formed in the recessed portion of the casing. With this configuration, assembly dimensional tolerance caused between the magnetic component and the heat radiation plate can be eliminated and it is therefore possible to maintain high output and achieve downsizing.

A power converter includes a circuit board, a first magnetic core, and a housing. The circuit board includes an insulating substrate and a first coil conductor. The insulating substrate includes a first side surface. The first magnetic core includes a first magnetic core member and a second magnetic core member. A first side surface of the insulating substrate is opposed to a first portion of the housing and is spaced away from the first portion of the housing. The first magnetic core member and the second magnetic core member are both thermally connected to the first portion.

A power converter includes a circuit board, a first magnetic core, and a housing. The circuit board includes an insulating substrate and a first coil conductor. The insulating substrate includes a first side surface. The first magnetic core includes a first magnetic core member and a second magnetic core member. A first side surface of the insulating substrate is opposed to a first portion of the housing and is spaced away from the first portion of the housing. The first magnetic core member and the second magnetic core member are both thermally connected to the first portion.

A coil of electrically conductive material includes first and second sections, the first section including a first plurality of turns and the second section including a second plurality of turns. Both the first plurality of turns and the second plurality of turns are arranged around a winding axis of the coil. The first plurality of turns are smaller than the second plurality of turns such that when viewed along the winding axis of the coil, the first plurality of turns fit within the second plurality of turns. When viewed perpendicular to the winding axis of the coil, the first and second sections are adjacent.

A stationary induction apparatus includes a core, a first winding, a second winding, and an insulating structure arranged between facing surfaces of the first winding and the second winding. The insulating structure is located between the facing surfaces of the first winding and the second winding. The insulating structure includes a first insulator having a cylindrical shape with the core as its central axis, and first insulating spacers arranged between the first winding and the first insulator and between the second winding and the first insulator. The first insulator includes a first nonlinear resistive layer containing a nonlinear resistive material having a nonlinear volume resistivity that decreases when an electric field is higher than a threshold. The first nonlinear resistive layer is provided in a portion of the first insulator which is at least in contact with one of the first insulating spacers.