Coil winding methods and structures for a slotless stator in a motor

What is claimed is: 1. A method for making a poly-phase field winding for a slotless stator including a plurality of coil windings arranged in at least a first coil group and a second coil group, each of the first coil group and the second coil group including a coil winding formed from separate insulated wire corresponding to each phase of the poly-phase field winding, said method comprising: forming the first coil group by winding an insulated wire for each coil winding in a first direction around a mandrel such that each turn of the wire is adjacent a next turn of the wire, wherein each coil winding in the first coil group has substantially the same coil width when completed and a separation between adjacent coil windings in the first coil group is a distance substantially equal to the width of one of the completed windings; after forming the first coil group, axially shifting along the mandrel the insulated wire from a trailing edge of each coil winding a distance substantially equal to the number of coil groups multiplied by twice the number of coil windings minus one times the width of one of the completed windings to position the wires at a leading edge of each of coil winding in the second coil group; forming the second coil group by winding the insulated wire for each coil winding in the same first direction around the mandrel such that each turn of the wire is adjacent a next turn of the wire, wherein each coil winding in the second coil group and the first coil group has substantially the same coil width when completed and wherein a separation between adjacent coil windings in the second coil group is a distance substantially equal to the width of one of the completed windings; removing the mandrel from the wound first and second coil groups; collapsing the wound first coil group and the second coil group to a single layer web such that coil winding segments formed on a first side of the mandrel are interleaved with the coil winding segments formed on the opposite side of the mandrel, and wrapping the single layer web into a cylinder to form the field winding. 2. The method of claim 1 , wherein each of the coil winding segments from the first coil group is positioned opposite a corresponding coil winding segment from the second group. 3. The method of claim 1 , wherein the inner diameter of the cylindrical single layer web is substantially equal to the interior diameter of a stator. 4. The method of claim 1 , wherein the coil winding segments are parallel to the axis of the cylinder. 5. The method of claim 1 , further comprising coaxially fitting a four pole rotor in the cylinder. 6. The method of claim 1 , further comprising mounting the cylinder in an inner surface of an annular magnetic flux return ring. 7. The method of claim 6 , wherein the annular magnetic flux ring is a ferromagnetic ring. 8. A poly-phase polyphase field winding for a slotless stator, comprising: a plurality of coil windings arranged in a first coil group and a second coil group, each of the first coil group and the second coil group including a coil winding formed from separate insulated wire corresponding to each phase of the polyphase field winding; a single layer cylindrical web including the first coil group and the second coil group collapsed such that coil winding segments formed on a first side of a mandrel are interleaved with the coil winding segments formed on the opposite side of the mandrel, the coil winding segments are arranged in parallel and do not overlap; and each of the coil winding segments from the first coil group is positioned opposite a corresponding coil winding segment from the second group, wherein the plurality of coil windings are formed by winding an insulated wire for each coil winding in a first direction around the mandrel such that each turn of the wire is adjacent a next turn of the wire, wherein each coil winding in the first coil group and the second coil group has substantially the same coil width when completed and a separation between adjacent coil windings is a distance substantially equal to the width of one of the completed windings, and wherein a distance between each coil winding in the first coil group and the related coil winding in the second group formed from the same insulated wire is substantially equal to the number of coil groups multiplied by twice the number of coil windings in each group minus one times the width of one of the completed windings. 9. The polyphase winding of claim 8 , further including a four pole rotor coaxially fitted within the cylindrical web. 10. The polyphase winding of claim 8 , further comprising an annular magnetic flux return ring mounted on an outer surface of the cylindrical web. 11. The polyphase winding of claim 10 , wherein the annular magnetic flux ring is a ferromagnetic ring. 12. The polyphase winding of claim 11 , wherein the annular magnetic flux ring is secured to the cylindrical web by molding. 13. A motor including a polyphase winding according to claim 8 .