Various embodiments include a passive component comprising: a substrate; and two conductor tracks disposed on the substrate. The substrate forms an electrically insulating bridge between at least two phases of an electrically rotating machine. Each of the two conductor tracks is coupled to a separate phase of the at least two phases so an electrical potential across the electrically insulating bridge is the same as in the insulation system of the machine and the potential load on the passive component corresponds to the potential load on the insulation system.

Various embodiments include a passive component comprising: a substrate; and two conductor tracks disposed on the substrate. The substrate forms an electrically insulating bridge between at least two phases of an electrically rotating machine. Each of the two conductor tracks is coupled to a separate phase of the at least two phases so an electrical potential across the electrically insulating bridge is the same as in the insulation system of the machine and the potential load on the passive component corresponds to the potential load on the insulation system.

A corona shielding paper for use in a corona shielding system for an electric machine, e.g. a high-voltage machine, may be produced by compacting partial discharge-resistant, planar, conductive particles but can include both reinforcement fibers and a woven fabric.

A corona shielding paper for use in a corona shielding system for an electric machine, e.g. a high-voltage machine, may be produced by compacting partial discharge-resistant, planar, conductive particles but can include both reinforcement fibers and a woven fabric.

A coil of a stator winding of an electric machine has a number of windings that are wound together with a number of layers of a mica strip, onto which, in turn, a number of layers of a cover strip are wound. The cover strip has a sequence of two layers. The two layers are a woven fabric and a film. The fabric is formed of glass fiber or of a first high-performance polymer. The film is formed of a second high-performance polymer.

A highly reliable rotating electric machine is provided in which the amount of charge discharged by partial discharge can be reduced while the machine is downsized by decreasing the thickness of insulation for coils, and it is possible to prevent paper flapping in coil end portions because of rotating wind produced by rotation of the rotor. The foregoing machine includes a stator coil including a coil conductor and a main insulation layer covering the coil conductor surface, a slot core which encloses the stator coil, and a first insulating paper sheet which is wound around the stator coil, adjoining the slot core, and a second insulating paper sheet which is wound around the stator coil, adjoining the main insulation layer, both the insulation paper sheets being placed between the stator coil and the slot core, wherein the first insulating paper sheet has a semiconductive layer abutting on the slot core and the second insulating paper sheet has a semiconductive layer located abutting on the stator coil, and an end portion of the second insulating paper sheet is exposed in an opening portion of the slot core.

A highly reliable rotating electric machine is provided in which the amount of charge discharged by partial discharge can be reduced while the machine is downsized by decreasing the thickness of insulation for coils, and it is possible to prevent paper flapping in coil end portions because of rotating wind produced by rotation of the rotor. The foregoing machine includes a stator coil including a coil conductor and a main insulation layer covering the coil conductor surface, a slot core which encloses the stator coil, and a first insulating paper sheet which is wound around the stator coil, adjoining the slot core, and a second insulating paper sheet which is wound around the stator coil, adjoining the main insulation layer, both the insulation paper sheets being placed between the stator coil and the slot core, wherein the first insulating paper sheet has a semiconductive layer abutting on the slot core and the second insulating paper sheet has a semiconductive layer located abutting on the stator coil, and an end portion of the second insulating paper sheet is exposed in an opening portion of the slot core.

Various embodiments include an insulation material and/or impregnation resin for a wrapping tape insulation, comprising: a basis resin; a hardener; and a nanoparticle filler fraction. The basis resin comprises a polymer with at least a partial SiR2-O backbone, so a partial electric discharges results in an at least partial sintering of the nanoparticles to form a barrier layer.

Various embodiments include an insulation material and/or impregnation resin for a wrapping tape insulation, comprising: a basis resin; a hardener; and a nanoparticle filler fraction. The basis resin comprises a polymer with at least a partial SiR2-O backbone, so a partial electric discharges results in an at least partial sintering of the nanoparticles to form a barrier layer.

The present disclosure relates to a stator for an electric rotating machine, the stator comprising a stator core comprising teeth and slots, and a stator coil comprising a plurality of hairpins configured to be inserted into the slots of the stator core in a predetermined pattern. Each of the plurality of hairpins comprises a conductor and a coating layer surrounding an outer surface of the conductor. The plurality of hairpins comprise a first hairpin configured to be placed in a first section of the stator coil predetermined from an end to which power is to be input, and a second hairpin placed in a section after the first section. The first hairpin provides better insulation performance than the second hairpin, and the first section has a higher voltage distribution ratio than the section including the second hairpin.