A synchronous reluctance motor includes a stator and a rotor, where a laminate section of the rotor has flux barriers, and where the rotor is formed with a high number of poles.

A forever technologies ultimate energy device affecting energy dynamics planet genesis, gravity fields do: embodies sui generis boundaries perfections in ultimately compact structures, discerns, distinguishes forms of cycling energy genres, effectuates an energy form respective directionality and embraces energy cycling maximum conductance, or maximum ultimate Heat Rate efficiency or maximally, ultimately short paths-of-passage lengths' sums comprising a least sum (PPLSLS).

A forever technologies ultimate energy device affecting energy dynamics planet genesis, gravity fields do: embodies sui generis boundaries perfections in ultimately compact structures, discerns, distinguishes forms of cycling energy genres, effectuates an energy form respective directionality and embraces energy cycling maximum conductance, or maximum ultimate Heat Rate efficiency or maximally, ultimately short paths-of-passage lengths' sums comprising a least sum (PPLSLS).

A separately excited electric machine having a stator provided with at least one exciter unit and a rotor provided with strips. Each exciter unit comprises two secondary magnetic circuits and one primary magnetic circuit. Each secondary magnetic circuit comprises a stator exciter winding and two annular yokes provided with teeth. The primary magnetic circuit comprises a rotor exciter winding and an annular ring. First magnetic fluxes generated by the primary magnetic circuit circulate around loops in each strip and second magnetic fluxes generated by the secondary magnetic circuits circulate around loops in the strips, the teeth, and the ring. Each strip thus has a first north pole and a first south pole, with the teeth comprising in alternation second north poles and second south poles.

A separately excited electric machine having a stator provided with at least one exciter unit and a rotor provided with strips. Each exciter unit comprises two secondary magnetic circuits and one primary magnetic circuit. Each secondary magnetic circuit comprises a stator exciter winding and two annular yokes provided with teeth. The primary magnetic circuit comprises a rotor exciter winding and an annular ring. First magnetic fluxes generated by the primary magnetic circuit circulate around loops in each strip and second magnetic fluxes generated by the secondary magnetic circuits circulate around loops in the strips, the teeth, and the ring. Each strip thus has a first north pole and a first south pole, with the teeth comprising in alternation second north poles and second south poles.

A sequential actuator for a radio frequency switch includes a rotor designed to be rotated in a designated rotational direction of the actuator and a stator defining with the rotor when the stator is energized an active torque curve of the rotor having asymmetric positive and negative torque curve portions. Magnetic elements are distributed between the rotor and the stator and define a detent torque curve of the rotor. In some examples, when the stator is energized, the rotor undergoes a first rotation from a position of partial angular overlap of a first rotor magnetic element with a first stator electromagnet to a position of angular alignment of the first rotor magnetic element with the first stator electromagnet. Upon reaching this angular position, a second rotor magnetic element has a partial angular overlap with a second stator electromagnet and the rotor further undergoes a second rotation to another position of angular alignment of the second rotor magnetic element with the second stator electromagnet.

A motor device includes a motor housing, a stator core having at least two poles fixedly installed in the stator housing symmetrically, a coil winding wound around the stator core, and an insulating coil holder for insulating the stator core from the coil winding, and the motor device further includes at least two pairs of magnetic steel structures cooperating with the stator core. All of the magnetic steel structures are fixedly connected to the periphery of the shaft coupling, and the shaft coupling is fixedly connected to the motor shaft. An electric toothbrush having the above motor device is further provided.

A machine and a method for converting between electrical and mechanical energies, the machine may include a stator with first, second (and possibly third) pole faces, a rotor assembly with first, second (and possibly third) rotors connected via a shaft. A magnetic source may be attached to either the rotor assembly or the stator. The source creates a magnetic flux field loop. The machine may include one or more electrical conductors wrapped around a portion of the stator, where the conductors may have multiple portions positioned in a gap between a stator pole face and a rotor. Current flow through all the portions flows across the stator pole face in a same direction. The magnetic source creates a magnetic flux field loop that may rotate with the rotors, causing the conductor portions to pass through the loop, and causing a conversion of energy.

A machine and a method for converting between electrical and mechanical energies, the machine may include a stator with first, second (and possibly third) pole faces, a rotor assembly with first, second (and possibly third) rotors connected via a shaft. A magnetic source may be attached to either the rotor assembly or the stator. The source creates a magnetic flux field loop. The machine may include one or more electrical conductors wrapped around a portion of the stator, where the conductors may have multiple portions positioned in a gap between a stator pole face and a rotor. Current flow through all the portions flows across the stator pole face in a same direction. The magnetic source creates a magnetic flux field loop that may rotate with the rotors, causing the conductor portions to pass through the loop, and causing a conversion of energy.

An actuator includes a yoke extending about a rotation axis. A coil is wrapped about the yoke. A rotor having a direct axis and a quadrature axis is supported for rotation about a rotation axis relative to the yoke. The rotor has a reluctance along the direct axis that is different than a reluctance along the quadrature axis to rotate the rotor when current is applied to the coil.