The present disclosure relates to a fabrication process for a current transformer. For example, the process may include wrapping first windings around a first core half of a magnetic core of a current transformer. The process may include wrapping second windings around a second core half of the magnetic core. The magnetic core may be inserted into an overmold tool. The process may include overmolding a first overmold over the first core half of the magnetic core and a second overmold over the second core half of the magnetic core. After overmolding, the magnetic core may be cut in half.

The present disclosure relates to a fabrication process for a current transformer. For example, the process may include wrapping first windings around a first core half of a magnetic core of a current transformer. The process may include wrapping second windings around a second core half of the magnetic core. The magnetic core may be inserted into an overmold tool. The process may include overmolding a first overmold over the first core half of the magnetic core and a second overmold over the second core half of the magnetic core. After overmolding, the magnetic core may be cut in half.

A microelectronic module that includes a semiconductor carrier including a FET that comprises a serpentine gate electrode having an elongated gate width and gate width-to-gate length ratio in access of 100 wherein resistive, capacitive, and inductive elements are embedded within the structure of the serpentine gate electrode.

The invention is concerned with a cooling arrangement for a high voltage power device in an enclosure and immersed in an insulating fluid. The arrangement includes a cooling device for placing in the interior of the enclosure and having a channel formed as a duct for the insulating fluid the duct having a first wall including a phase change material for cooling insulating fluid that passes through the channel. The invention is also concerned with a method of operating a valve of a cooling device in such a cooling arrangement.

The invention is concerned with a cooling arrangement for a high voltage power device in an enclosure and immersed in an insulating fluid. The arrangement includes a cooling device for placing in the interior of the enclosure and having a channel formed as a duct for the insulating fluid the duct having a first wall including a phase change material for cooling insulating fluid that passes through the channel. The invention is also concerned with a method of operating a valve of a cooling device in such a cooling arrangement.

A transformer includes a magnetic core, a first winding and at least one second winding. The magnetic core has a window through which the first winding passes through without contacting the magnetic core. The second winding passes through the window of the magnetic core and is wound on the magnetic core. The second winding has a distance from the first winding, and a semi-conductive part is disposed between the second winding and the magnetic core. The present disclosure can effectively lower the risk of partial discharge between the second winding and the magnetic core, and thus the transformer of the present disclosure has high reliability.

A transformer includes a magnetic core, a first winding and at least one second winding. The magnetic core has a window through which the first winding passes through without contacting the magnetic core. The second winding passes through the window of the magnetic core and is wound on the magnetic core. The second winding has a distance from the first winding, and a semi-conductive part is disposed between the second winding and the magnetic core. The present disclosure can effectively lower the risk of partial discharge between the second winding and the magnetic core, and thus the transformer of the present disclosure has high reliability.

A zero-sequence blocking transformer includes a first core part around which is wound a first winding and a second core part around which is wound a second winding, and a third core part to create an additional leakage flux path. The concept of this disclosure can be applied to any known core structure by adding an additional leakage flux component part. In the case of a known toroidal core, the additional component part may be a rod of magnetic material fitted into the gap between the two windings to intentionally create an additional leakage flux path. Alternatively, an EE core geometry can be used and the additional leakage flux path is created by forming an air gap or adding a magnetic material insert in the leg which does not carry a winding.

A transformer includes an isolation core casing of a power converter. The transformer includes a primary winding, a secondary winding, a magnetic core, a cover, and a cup. The cover and cup are joined and sealed together to form the core casing. The primary winding is wound directly on the magnetic core, and the magnetic core is sealed within the core casing. The secondary winding is wound around the core casing such that the primary and secondary windings are electrically isolated from each other by a solid insulation barrier provided by the core casing, resulting in no increase in the creepage or the clearance path between the primary and the secondary windings, which allows the transformer to be miniaturized without negatively affecting safety and converter performance due to leakage inductance.

A transformer includes an isolation core casing of a power converter. The transformer includes a primary winding, a secondary winding, a magnetic core, a cover, and a cup. The cover and cup are joined and sealed together to form the core casing. The primary winding is wound directly on the magnetic core, and the magnetic core is sealed within the core casing. The secondary winding is wound around the core casing such that the primary and secondary windings are electrically isolated from each other by a solid insulation barrier provided by the core casing, resulting in no increase in the creepage or the clearance path between the primary and the secondary windings, which allows the transformer to be miniaturized without negatively affecting safety and converter performance due to leakage inductance.