A hybrid hysteresis motor is disclosed. The hybrid hysteresis motor includes a stator with, a plurality of axial slots on a first base-end and a plurality of radial slots on an inner surface. The motor further includes an output shaft, a first axial-flux rotor mounted on the output shaft and associated with the stator, and a radial-flux rotor mounted on the output shaft and disposed inside the stator.

A hybrid hysteresis motor is disclosed. The hybrid hysteresis motor includes a stator with, a plurality of axial slots on a first base-end and a plurality of radial slots on an inner surface. The motor further includes an output shaft, a first axial-flux rotor mounted on the output shaft and associated with the stator, and a radial-flux rotor mounted on the output shaft and disposed inside the stator.

An operation method and an operation device of a motor driver for driving a motor are provided. The operation method includes: establishing a hysteresis control method; and adjusting a switch frequency of a power module for operating the motor by using the hysteresis control method according to a change of rotation speed of the motor and a current switch frequency.

An operation method and an operation device of a motor driver for driving a motor are provided. The operation method includes: establishing a hysteresis control method; and adjusting a switch frequency of a power module for operating the motor by using the hysteresis control method according to a change of rotation speed of the motor and a current switch frequency.

An operation method and an operation device of a motor driver for driving a motor are provided. The operation method includes: establishing a hysteresis control method; and adjusting a switch frequency of a power module for operating the motor by using the hysteresis control method according to a change of rotation speed of the motor and a current switch frequency.

An operation method and an operation device of a motor driver for driving a motor are provided. The operation method includes: establishing a hysteresis control method; and adjusting a switch frequency of a power module for operating the motor by using the hysteresis control method according to a change of rotation speed of the motor and a current switch frequency.

A hybrid hysteresis motor is disclosed. The hybrid hysteresis motor includes a stator with, a plurality of axial slots on a first base-end and a plurality of radial slots on an inner surface. The motor further includes an output shaft, a first axial-flux rotor mounted on the output shaft and associated with the stator, and a radial-flux rotor mounted on the output shaft and disposed inside the stator.

A hybrid hysteresis motor is disclosed. The hybrid hysteresis motor includes a stator with, a plurality of axial slots on a first base-end and a plurality of radial slots on an inner surface. The motor further includes an output shaft, a first axial-flux rotor mounted on the output shaft and associated with the stator, and a radial-flux rotor mounted on the output shaft and disposed inside the stator.

Described is a bearingless motor based upon a homopolar flux-biased magnetic bearing for force generation and a hysteresis motor for torque generation. The bearingless slice motor levitates and rotates a ring-shaped rotor made of a semi-hard magnetic material. The rotor is biased with a homopolar permanent-magnetic flux, on which 2-pole flux can be superimposed to generate suspension forces. Torque is generated by a hysteretic coupling between the rotor and a rotating multi-pole stator field.

Described is a bearingless motor based upon a homopolar flux-biased magnetic bearing for force generation and a hysteresis motor for torque generation. The bearingless slice motor levitates and rotates a ring-shaped rotor made of a semi-hard magnetic material. The rotor is biased with a homopolar permanent-magnetic flux, on which 2-pole flux can be superimposed to generate suspension forces. Torque is generated by a hysteretic coupling between the rotor and a rotating multi-pole stator field.