A stator-based permanent magnet field-enhanced hybrid-excitation motor capable of operating under multiple operating conditions and a driving control method thereof are provided. The motor includes a stator, excitation windings, permanent magnets, a rotor, armature windings, and an air gap. The stator is a structure with double-cross-shaped stator modules. A power converter of the motor by four H-bridges is formed. Incoming and outgoing ends of the excitation winding are each connected with a center point of one H-bridge arm, and incoming and outgoing ends of a three-phase winding are each connected with a center point of one H-bridge arm to form an open winding structure; the H-bridge of the excitation winding is connected in series with a bus of the open winding structure of the three-phase winding; every three bridge arms of the open winding structure form a group; and a switch transistor is arranged between each two groups.

A stator-based permanent magnet field-enhanced hybrid-excitation motor capable of operating under multiple operating conditions and a driving control method thereof are provided. The motor includes a stator, excitation windings, permanent magnets, a rotor, armature windings, and an air gap. The stator is a structure with double-cross-shaped stator modules. A power converter of the motor by four H-bridges is formed. Incoming and outgoing ends of the excitation winding are each connected with a center point of one H-bridge arm, and incoming and outgoing ends of a three-phase winding are each connected with a center point of one H-bridge arm to form an open winding structure; the H-bridge of the excitation winding is connected in series with a bus of the open winding structure of the three-phase winding; every three bridge arms of the open winding structure form a group; and a switch transistor is arranged between each two groups.

A stator-based permanent magnet field-enhanced hybrid-excitation motor capable of operating under multiple operating conditions and a driving control method thereof are provided. The motor includes a stator, excitation windings, permanent magnets, a rotor, armature windings, and an air gap. The stator is a structure with double-cross-shaped stator modules. A power converter of the motor by four H-bridges is formed. Incoming and outgoing ends of the excitation winding are each connected with a center point of one H-bridge arm, and incoming and outgoing ends of a three-phase winding are each connected with a center point of one H-bridge arm to form an open winding structure; the H-bridge of the excitation winding is connected in series with a bus of the open winding structure of the three-phase winding; every three bridge arms of the open winding structure form a group; and a switch transistor is arranged between each two groups.

A stator-based permanent magnet field-enhanced hybrid-excitation motor capable of operating under multiple operating conditions and a driving control method thereof are provided. The motor includes a stator, excitation windings, permanent magnets, a rotor, armature windings, and an air gap. The stator is a structure with double-cross-shaped stator modules. A power converter of the motor by four H-bridges is formed. Incoming and outgoing ends of the excitation winding are each connected with a center point of one H-bridge arm, and incoming and outgoing ends of a three-phase winding are each connected with a center point of one H-bridge arm to form an open winding structure; the H-bridge of the excitation winding is connected in series with a bus of the open winding structure of the three-phase winding; every three bridge arms of the open winding structure form a group; and a switch transistor is arranged between each two groups.

An electric machine is provided and includes a stator that includes teeth, conductive windings configured to be wound about the teeth and a rotor rotatable about the stator. The rotor includes an annular core defining first slots along a circumferential dimension and one or more second slots along the circumferential dimension between neighboring first slots, permanent magnets disposable in the first slots and cage windings disposable in the second slots.

An electric machine is provided and includes a stator that includes teeth, conductive windings configured to be wound about the teeth and a rotor rotatable about the stator. The rotor includes an annular core defining first slots along a circumferential dimension and one or more second slots along the circumferential dimension between neighboring first slots, permanent magnets disposable in the first slots and cage windings disposable in the second slots.

In a rotating electrical machine, conductive portions of multiphase armature windings are arranged in a circumferential direction. Each of the conductor portions has a selected value of a radial thickness at which a product of a transverse sectional area of the corresponding one of the conductor portions and a value of an interlinkage magnetic flux of a magnet unit to the corresponding one of the conductor portions at a selected operating point of the magnet unit has a maximum value or a value adjacent to the maximum value. The selected operating point of the magnet unit corresponds to the selected value of the radial thickness of each of the conductor portions.

In a rotating electrical machine, conductive portions of multiphase armature windings are arranged in a circumferential direction. Each of the conductor portions has a selected value of a radial thickness at which a product of a transverse sectional area of the corresponding one of the conductor portions and a value of an interlinkage magnetic flux of a magnet unit to the corresponding one of the conductor portions at a selected operating point of the magnet unit has a maximum value or a value adjacent to the maximum value. The selected operating point of the magnet unit corresponds to the selected value of the radial thickness of each of the conductor portions.