A transformer (900) comprising a primary-side auxiliary winding (976, wherein in use the primary-side auxiliary winding (976) is configured such that a first electric potential distribution is induced in the primary-side auxiliary winding (976); and a secondary-side auxiliary winding (982) configured such that a second electric potential distribution is induced in the secondary-side auxiliary winding (982). The primary-side auxiliary winding (976) is physically located between (a) a main pair of windings; and (b) the second-side auxiliary winding (982). A first portion of the secondary-side auxiliary winding (982) is positioned adjacent to a shield-portion of the primary-side auxiliary winding (976) such that the first electric potential distribution matches the second electric potential distribution: (1) along the respective lengths of the first portion of the secondary-side auxiliary winding (982) and the shield-portion of the primary-side auxiliary winding (975); and (2) over a frequency range that is greater than a particular threshold frequency.

A magnetic component includes a first core, a supporting base, at least one winding, at least one insulation member and a second core. The first core has an accommodating space. The supporting base is disposed in the accommodating space and the supporting base has an electrode platform. The at least one winding is disposed in the accommodating space and stacked on the supporting base, wherein a winding end of the at least one winding is disposed on a connecting portion of the electrode platform. The at least one insulation member is disposed in the accommodating space and stacked on the at least one winding. The second core is disposed on the first core and covers the accommodating space.

A transformer includes first and second primary windings serially electrically connected in a primary-side series combination. The transformer further includes a secondary winding disposed between the first primary winding and the second primary winding. The transformer further includes first and second shielding windings serially electrically connected in a shielding series combination. The first shielding winding is disposed between the first primary winding and the secondary winding, and the second shielding winding is disposed between the second primary winding and the secondary winding.

An inductor skeleton structure includes a pedestal and a main winding part. The pedestal includes a base, a fixing part and an auxiliary winding part, the fixing part is disposed on the base, and the auxiliary winding part is extended away from the base from a side surface; the main winding part has a main winding groove; the main winding part is fixed on a side of the base by the fixing part; the auxiliary winding part is used for winding an auxiliary coil capable of covering at least a portion of the welding surface; and the auxiliary coil is flush with or beyond the fitting surface.

An inductive wireless power transfer device is disclosed. The inductive wireless power transfer device includes a transmit coil for generating a magnetic field with a magnetic field intensity suitable for power transmission through magnetic induction. The transmit coil includes at least one halo antenna structure having a first winding for generating the magnetic field and a second winding for reducing the magnetic field intensity of the magnetic field in a central area of the transmit coil.

A winding assembly for a transformer device includes a first and second coil with a plurality of windings, and a first set and a second set of thermally conductive plates. The first and second coils include a plurality of interleaved sets of turns. The plates of the first and second sets of the thermally conductive plates are interleaved with the sets of turns of the first and second coils respectively, and are disposed adjacent to one of the sets of turns of the first and second coils respectively, to transfer heat away from the coils. The first and second coils and the first and second sets of thermally conductive plates are encased in the resin dielectric material.