Double stator permanent magnet machine

The invention claimed is: 1. A double stator permanent magnet machine comprises: an inner stator, further comprising a back iron and a set of inner stator poles connected to the back iron; a rotor, further comprising an outer cage and a shaft connected to the outer cage, rotatively coupled to the inner stator; a set of segments, each segment further comprising a permanent magnet, connected to the outer cage; a first segment of the set of segments including a first permanent magnet with a polarity that is substantially tangential to a direction of motion the rotor; an outer stator, further comprising a set of outer stator poles, rotatively coupled to the rotor; a set of inner stator windings disposed between each of the inner stator poles; a set of outer stator windings disposed between each of the outer stator poles; a set of phases, each phase further comprising a subset of the set of inner stator windings and a subset of the set of outer stator windings; and, whereby the rotor rotates with respect to the inner stator and the outer stator, a reluctance torque is produced by the rotor and a reaction torque is produced by the rotor at a ratio of at least 1:3, when a current is selectively connected to the set of phases. 2. The double stator permanent magnet machine of claim 1 , wherein the set of segments are spaced at a set of equal angular intervals. 3. The double stator permanent magnet machine of claim 1 , wherein the set of inner stator poles are spaced at a set of equal inner angular intervals. 4. The double stator permanent magnet machine of claim 1 , wherein the set of outer stator poles are spaced at a set of equal outer angular intervals. 5. The double stator permanent magnet machine of claim 1 , wherein the set of outer stator poles and the set of inner stator poles are equal in number. 6. The double stator permanent magnet machine of claim 1 , wherein each of the permanent magnets is a material selected from the group of neodymium, samarium-cobalt, ceramic, ferrite, and a non-rare earth magnet. 7. The double stator permanent magnet machine of claim 1 , wherein the outer stator is laminated electric silicon steel. 8. The double stator permanent magnet machine of claim 1 , wherein the inner stator is laminated electric silicon steel. 9. The double stator permanent magnet machine of claim 1 , further comprising: a second segment of the set of segments including a second permanent magnet with a polarity that is substantially tangential to the direction of motion the rotor; a third segment of the set of segments including a third permanent magnet with a polarity that is substantially tangential to the direction of motion the rotor; the polarity of the first permanent magnet configured to point in a same direction as the direction of motion of the rotor; the polarity of the second permanent magnet configured to point in an opposite direction as the direction of motion of the rotor; the polarity of the third permanent magnet configured to point in the same direction as the direction of motion of the rotor; the set of outer stator poles equal in number to the set of inner stator poles; and, the number of outer stator poles and inner stator poles greater than a number of the set of segments. 10. The double stator permanent magnet machine of claim 1 , further comprising: the set of phases including four phases; each of the four phases of the set of phases including: a first subset of outer stator windings of the set of outer stator windings, a second subset of outer stator windings of the set of outer stator windings, a first subset of inner stator windings of the set of inner stator windings, and a second subset of inner stator windings of the set of inner stator windings; wherein the first subset of outer stator windings of the set of outer stator windings of a first phase of the set of phases on a first side of a center axis of the double stator permanent magnet machine, the second subset of outer stator windings of the set of outer stator windings of the first phase on a second side of the center axis that is opposite to the first side, the first subset of inner stator windings of the set of inner stator windings of the first phase on the second side of the center axis and adjacent to the second subset of outer stator windings, and the second subset of inner stator windings of the set of inner stator windings of the first phase on the first side of the center axis and adjacent the first subset of outer stator windings are connected directly in series; the center axis of the double stator permanent magnet machine being central to the inner stator, the rotor, and the outer stator; the first subset of outer stator windings of the first phase of the set of phases between a first subset of two poles of the set of outer stator poles; the second subset of outer stator windings of the first phase of the set of phases between a second subset of two poles of the set of outer stator poles; the first subset of two poles of the set of outer stator poles on opposite sides of the center axis from the second subset of two poles of the set of outer stator poles; the first subset of inner stator windings of the first phase of the set of phases between a first subset of two poles of the set of inner stator poles; the second subset of inner stator windings of the first phase of the set of phases between a second subset of two poles of the set of inner stator poles; the first subset of two poles of the set of inner stator poles on opposite sides of the center axis from the second subset of two poles of the set of inner stator poles; the first subset of outer stator windings for each of the four phases of the set of phases having a proximal-distal positive current flow; the second subset of outer stator windings for each of the four phases of the set of phases having a distal-proximal positive current flow; the first subset of inner stator windings for each of the four phases of the set of phases having a proximal-distal positive current flow; and, the second subset of inner stator windings for each of the four phases of the set of phases having a distal-proximal positive current flow. 11. A double stator permanent magnet machine comprises: an inner stator, further comprising a back iron, a set of inner stator poles connected to and extending radially outward from the back iron spaced at a set of equal inner angular intervals, a set of inner stator windings disposed within the set of inner stator poles, and a first shaft; a rotor, further comprising a set of segments, an outer cage attached to the set of segments, and a second shaft connected to the outer cage, each segment of the set of segments further comprising a permanent magnet, rotatively connected to the inner stator; wherein the first shaft and the second shaft share a common axis; the first shaft fixed with respect to the common axis; the second shaft rotatable about the common axis; a first segment of the set of segments including a first permanent magnet with a polarity that is substantially tangential to a direction of motion the rotor; an outer stator, further comprising a set of outer stator poles spaced at a set of equal outer angular intervals and a set of outer stator windings disposed within the set of outer stator poles rotatively connected to the rotor; a set of phases, each phase further comprising a subset of the set of inner stator windings and a subset of the set of outer stator windings; wherein a first subset of outer stator windings of the set of outer stator windings of a first phase of the set of phases on a first side of a center axis of the double stator permanent m