Three degree-of-freedom electromagnetic machine control system and method

What is claimed: 1. A multi-degree-of-freedom electromagnetic machine, comprising: a stator comprising a first stator conductor, a second stator conductor, and a third stator conductor, the first stator conductor following a first general trajectory, the second stator conductor following a second general trajectory that is different from the first general trajectory, the third stator conductor following a third general trajectory that is different from the first and second general trajectories, the first stator conductor, second stator conductor, and third stator conductor together forming a general shape of a surface; an armature disposed adjacent to, and movable in three degrees-of-freedom relative to, the stator, the armature surrounding at least a portion of the stator and including a plurality of spaced-apart armature coils, each armature coil configured, upon being electrically energized, to generate a magnetic field; and a control coupled to the first, second, and third stator conductors, and to the armature coils, the control configured to: (i) supply direct current (DC) to the first, second, and third stator conductors, and (ii) supply DC to one or more of the armature coils, to thereby generate one or more magnetic fields that interact with the stator conductors and vary an orientation of the one or more magnetic fields relative to the stator conductors, to thereby generate desired rotation of the armature, relative to the stator, about up to three perpendicular axes. 2. The machine of claim 1 , further comprising: a plurality of permanent magnets coupled to the armature, each armature coil associated with one or more of the permanent magnets. 3. The machine of claim 1 , wherein: the first stator conductor, the second stator conductor, and the third stator conductor comprise a plurality of electrically conductive segments; and each of the electrically conductive segments comprises a conductor of predetermined length. 4. The machine of claim 1 , wherein the first stator conductor, the second stator conductor, and the third stator conductor comprise a contiguous conductor. 5. The machine of claim 1 , wherein: the stator further comprises a first body formed of magnetically permeable material and having an outer surface, at least a portion of the outer surface having the general shape of the surface; and the first stator conductor, the second stator conductors, and the third stator conductor are disposed at least adjacent at least the portion of the outer surface of the stator. 6. The machine of claim 1 , wherein: the surface is a sphere; and the first, second, and third general trajectories are such that the first stator conductor, the second stator conductor, and the third stator conductor are oriented at predetermined angles relative to each other. 7. A multi-degree-of-freedom electromagnetic machine, comprising: a spherical stator having a first axis of symmetry, a second axis of symmetry, and a third axis of symmetry, the first, second, and third axes of symmetry disposed perpendicular to each other; a first stator conductor disposed on the spherical stator about the first axis of symmetry; a second stator conductor disposed on the spherical stator about the second axis of symmetry; a third stator conductor disposed on the spherical stator about the third axis of symmetry; an armature disposed adjacent to, and movable in three degrees-of-freedom relative to, the stator, the armature surrounding at least a portion of the spherical stator and including a plurality of spaced-apart armature coils, each armature coil configured, upon being electrically energized, to generate a magnetic field; and a control coupled to the first, second, and third stator conductors, and to the armature coils, the control configured to: (i) supply direct current (DC) to the first, second, and third stator conductors, and (ii) supply DC to one or more of the armature coils, to thereby generate one or more magnetic fields that interact with the stator conductors and vary an orientation of the one or more magnetic fields relative to the stator conductors, to thereby generate desired rotation of the armature, relative to the stator, about up to three perpendicular axes. 8. The machine of claim 7 , further comprising: a plurality of permanent magnets coupled to the armature, each armature coil associated with one or more of the permanent magnets. 9. The machine of claim 7 , wherein: the first stator conductor, the second stator conductor, and the third stator conductor comprise a plurality of electrically conductive segments; and each of the electrically conductive segments comprises a conductor of predetermined length. 10. The machine of claim 7 , wherein the first stator conductor, the second stator conductor, and the third stator conductor comprise a contiguous conductor. 11. The machine of claim 7 , wherein: the spherical stator further comprises a first body formed of magnetically permeable material and having an outer surface; and the first stator conductor, the second stator conductors, and the third stator conductor are disposed at least adjacent at least the portion of the outer surface of the first body.