A coil component includes a non-conductive bobbin and a coil that winds around the bobbin. The coil includes first and second coil members with joining portions in which joining holes are formed. The bobbin includes first and second bobbin members. The first bobbin member includes: first and second positioning portions that position the first and second coil members, respectively, when the first and second coil members are moved onto the first bobbin member; and a support that supports lower portions of the first and second joining portions. The second bobbin member includes a first insulator disposed between the first and second coil members. The first and second coil members and the second bobbin member are attached to the first bobbin member by being moved in a single direction without a further step of rotating.

An inductor structure with height limit, which comprises: a conductor formed in a bent shape, and is set with a plurality of bending-portions, wherein a first connecting-pin and a second connecting-pin are respectively set at two ends of the conductor; a first magnetic core set with a first combining-surface, wherein the first combining-surface forms a concave groove to accommodate the conductor; and a second magnetic core set with a second combining-surface, wherein the second combining-surface forms a second concave groove to accommodate the conductor; wherein the second combining-surface is combined on the first combining-surface; wherein the conductor is sheathed and set between the first magnetic core and the second magnetic core, and is set with the first connecting-pin and the second connecting-pin exposedly. Therefore, the present invention can increase the magnetic (coupling) route length under the height limit to produce an effect of increasing the inductance value and current.

A transformer includes a transformer core, and a primary winding and a secondary winding each wound about the transformer core. The primary winding includes a wire wound in multiple primary winding layers, and each primary winding layer includes multiple primary turns arranged in a spiral. The secondary winding includes one or more substantially flat conductors defining multiple secondary winding layers. Each secondary winding layer includes one secondary turn, every two adjacent secondary turns have a single different one of the primary winding layers positioned between the two adjacent secondary turns to interleave the secondary winding and the primary winding, and each secondary turn has a different diameter than an adjacent one of the secondary turns.

A transformer includes: a first coil section formed by coiling a conductor pattern in a planar state around an insertion hole provided on a circuit board; a second coil section that includes a first ring composed of a coil formed by coiling a conductor plate, the coil being covered with an electric-insulating resin, a second ring composed of a coil formed by coiling a conductor plate, the coil covered with the electric-insulating resin, and a coupled part formed by covering a coupled position between the first ring and the second ring with the electric-insulating resin; and core sections forming a closed magnetic circuit that magnetically couples the first coil section and the second coil section.

A coil component including a first conductive plate part formed with a first coil pattern having a first opening, and a second conductive plate part formed with a second coil pattern having a second opening and disposed at a predetermined interval in the laminating direction with respect to the first conductive plate part. The first conductive plate part and the second conductive plate part are made of the same single plate and are integrally formed by a bent joining segment.

A packaged module and a metal plate. The packaged module may include a bearing structure, at least one metal strip, a circuit element, and a magnetic material. Further, a first surface of the bearing structure may bear the circuit element; two ends of each of the at least one metal strip may be coupled to the bearing structure, and a part of each metal strip other than the two ends is spaced apart from the bearing structure; and the magnetic material may cover a surface of a winding functional region of the at least one metal strip, where the winding functional region may be a part or all of the metal strip to which the winding functional region belongs. The foregoing solution helps simplify a packaging process and reduce losses and manufacturing costs of the packaged module.

A method of forming a coil for an inductive component includes bending a conductor into a figure 8 configuration. The figure 8 configuration has opposite first and second ends, a first substantially rounded portion, and a second substantially rounded portion. Each of the first and second substantially rounded portions terminates at one of the first and second ends. The method further includes folding the figure 8 configuration so the first substantially rounded portion overlies the second substantially rounded portion. Other example methods of forming coils for inductive components and other example coils are also disclosed.

A transformer includes a transformer core, and a primary winding and a secondary winding each wound about the transformer core. The primary winding includes a wire wound in multiple primary winding layers, and each primary winding layer includes multiple primary turns arranged in a spiral. The secondary winding includes one or more substantially flat conductors defining multiple secondary winding layers. Each secondary winding layer includes one secondary turn, every two adjacent secondary turns have a single different one of the primary winding layers positioned between the two adjacent secondary turns to interleave the secondary winding and the primary winding, and each secondary turn has a different diameter than an adjacent one of the secondary turns.

An integrated copper bar for a secondary power circuit of a power electronic converter, including a transformer primary winding copper bar, a transformer secondary winding copper bar, an inductor winding copper bar, a copper bar for connecting a detection resistor, a copper bar for connecting a drive circuit and a copper bar for connecting an output terminal; wherein, said transformer primary winding copper bar, said transformer secondary winding copper bar, said inductor winding copper bar, said copper bar for connecting a detection resistor, said copper bar for connecting a drive circuit and said copper bar for connecting an output ground terminal are fixed together via injection molding.

In the inductor, when a voltage is applied via each terminal portion, a current flows through each of the first and second coil conductors. At this time, coupling may occur between the first and second coil conductors. However, since the first magnetic body is provided in the inductor, coupling between the first and second coil conductors is suppressed. In addition, since the pair of second magnetic bodies is additionally provided, high inductance can be realized.