Provided is an electric generator having a stator, a rotor, a plurality of coils including conductors shaped as a tape, the stator extending axially along a longitudinal axis between a first axial end and a second axial end, the stator including a plurality of slots, the plurality of slots being circumferentially distributed around a longitudinal axis of the stator, each of the coils respectively comprising: two slot portions respectively housed in two slots of the stator, two end-windings axially protruding from stator at the first axial end and a second axial end.

Provided is an electric generator having a stator, a rotor, a plurality of coils including conductors shaped as a tape, the stator extending axially along a longitudinal axis between a first axial end and a second axial end, the stator including a plurality of slots, the plurality of slots being circumferentially distributed around a longitudinal axis of the stator, each of the coils respectively comprising: two slot portions respectively housed in two slots of the stator, two end-windings axially protruding from stator at the first axial end and a second axial end.

A motive magnetic system includes a first coil configured to produce a constant magnetic field. The first coil includes a support structure having a groove and a high temperature superconductor (HTS) cable comprising a metal at least partially filling the HTS cable. The cable is disposed in the groove. A second coil is configured to produce an alternating magnetic field. The first coil and the second coil are positioned so that the constant magnetic field and the alternating magnetic field interact to cause a magnetic force between the first coil and the second coil that causes motion between the first and second coil.

An annular field of a superconducting generator includes a partial cryogenic shielding assembly and a superconducting field winding surrounded by a thermal shield. The thermal shield is surrounded by a housing defining an insulating vacuum enclosure. The annular field includes a torque tube assembly disposed within the housing and coupling the thermal shield to the housing. A blanket of multi-layer thermal insulation is disposed within the vacuum enclosure, extending generally between the housing and the thermal shield. The annular field further includes a partial cryogenic shielding assembly including a floating shield disposed within the vacuum enclosure, between the housing and the thermal shield. The floating shield extends only a portion of an overall length of the housing. The floating shield includes an insulative stack of multi-layer thermal insulation. A superconducting generator and a wind turbine utilizing the superconducting generator with improved partial shielding are disclosed.

An annular field of a superconducting generator includes a partial cryogenic shielding assembly and a superconducting field winding surrounded by a thermal shield. The thermal shield is surrounded by a housing defining an insulating vacuum enclosure. The annular field includes a torque tube assembly disposed within the housing and coupling the thermal shield to the housing. A blanket of multi-layer thermal insulation is disposed within the vacuum enclosure, extending generally between the housing and the thermal shield. The annular field further includes a partial cryogenic shielding assembly including a floating shield disposed within the vacuum enclosure, between the housing and the thermal shield. The floating shield extends only a portion of an overall length of the housing. The floating shield includes an insulative stack of multi-layer thermal insulation. A superconducting generator and a wind turbine utilizing the superconducting generator with improved partial shielding are disclosed.

Provided is an electrical machine including a rotor and a stator with at least one coil, wherein the coil includes one or more windings of one or more tape-shaped conductors wherein the or each conductor has a longitudinal axis, wherein the coil includes two opposing straight sections and two opposing arc-shaped coil head sections, wherein the coil includes at least two torsion sections, in which the or each winding is twisted around the longitudinal axis of the or each conductor, so that a width direction of the one or each conductors in at least one of the straight sections is parallel or essentially parallel to a direction of a magnetic field generated or generatable by the rotor penetrating the at least one straight section.

Provided is an electrical machine including a rotor and a stator with at least one coil, wherein the coil includes one or more windings of one or more tape-shaped conductors wherein the or each conductor has a longitudinal axis, wherein the coil includes two opposing straight sections and two opposing arc-shaped coil head sections, wherein the coil includes at least two torsion sections, in which the or each winding is twisted around the longitudinal axis of the or each conductor, so that a width direction of the one or each conductors in at least one of the straight sections is parallel or essentially parallel to a direction of a magnetic field generated or generatable by the rotor penetrating the at least one straight section.

The present disclosure relates to armature segments for an armature for an electrical machine. An armature segment may comprise a plurality of coils and an electrically insulating supporting structure providing structural support to the plurality of coils. An armature may comprise a plurality of armature segments. The present disclosure further relates to methods for assembling such armature segments and armature.

A generator, which may be used in a wind turbine, has a first stationary component carrying a first winding configuration and a second rotating component carrying a second winding configuration. The second rotating component includes a body portion and a plurality of teeth spaced around and extending radially from the body portion. The second winding configuration is arranged in slots defined between adjacent teeth. A housing is arranged around and rotates with the body portion. A heat exchange circuit is arranged on the second rotating component and includes a coolant channel defined in the teeth; a pump; and a heat exchanger arranged on the housing so as to rotate with the housing, the heat exchanger transverse to a rotational direction of the housing.

A dual pole high temperature superconductive parallel path switched reluctance motor combining high temperature superconductive wire in stator coils, a switched reluctance motor type, parallel path motor technology, and a configuration and geometry of electromagnetic coils and permanent magnets in a dual pole stator in a magnetically coupled relation to a dual annular salient rotor to create complete and continuous square, short flux path.