Rotary electric machine

What is claimed is: 1. A rotary electric machine, comprising: a stator comprising three-phase AC windings; and a field pole rotor, wherein the stator comprises: a stator core provided with a plurality of slots arranged in a circumferential direction at predetermined pitches; and a coil of each phase, which comprises N conductor wires, where N is a positive integer of 2 or more, which are bent back on an outer side of an axial end surface of the stator core, the coil being mounted in the plurality of slots at predetermined slot pitches, and wherein the coil is configured so that: the N conductor wires of wave windings each divided at at least two positions in the circumferential direction are provided in one of the plurality of slots; within a unit of the divided wave windings in which conduction is made, the N conductor wires are connected in one of series and parallel to each other at division positions located at substantially the same circumferential position of conductor-wire end portions; in the each phase, division units of the divided wave windings are connected in series to each other, wherein the divided wave windings are each mounted to a part of all the slots provided in the entire rotary electric machine and are each mounted to respectively different parts of the slots, and a total number of series turns of the series-connected division units of the each phase is a predetermined number of series turns, which does not exceed an upper limit value of a terminal voltage of the rotary electric machine; and the series-connected division units of the each phase have the same total number of series turns. 2. A rotary electric machine according to claim 1 , wherein a number of the wave windings provided in the same slot is N=2M, where M is a positive integer, wherein the wave windings comprise sets of two conductor wires having coil end parts located out of the plurality of slots, the coil end parts of each set being located on different sides in an axial direction of the stator core from each other but at substantially the same circumferential position, and wherein the wave windings comprise conductor wires connected to a high voltage side and a low voltage side of a power source, respectively, the conductor wires having division positions located at substantially the same circumferential position. 3. A rotary electric machine according to claim 2 , wherein the divided wave windings provided in the same number of slots are arranged so as to be symmetrical about a stator central point. 4. A rotary electric machine according to claim 2 , wherein the rotary electric machine is driven by a plurality of inverters, wherein the three-phase AC windings connected to the respective plurality of inverters are prevented from being electrically connected to each other in the rotary electric machine, and wherein a divided wave winding provided in a certain number of slots and to be connected to one of the plurality of inverters and a divided wave winding provided in the certain number of slots and to be connected to another of the plurality of inverters are arranged so as to be symmetrical about a stator central point. 5. A rotary electric machine according to claim 2 , wherein the wave windings are each divided at two positions in the circumferential direction, and wherein the stator core is divided at one position. 6. A rotary electric machine according to claim 5 , wherein the rotary electric machine is driven by a plurality of inverters, wherein the three-phase AC windings connected to the respective plurality of inverters are prevented from being electrically connected to each other in the rotary electric machine, and wherein a divided wave winding provided in a certain number of slots and to be connected to one of the plurality of inverters and a divided wave winding provided in the certain number of slots and to be connected to another of the plurality of inverters are arranged so as to be symmetrical about a stator central point. 7. A rotary electric machine according to claim 1 , wherein a number of the wave windings provided in the same slot is N=2M, where M is a positive integer, wherein the wave windings comprise sets of two conductor wires having coil end parts located out of the plurality of slots, the coil end parts of each set being located on different sides in an axial direction of the stator core from each other but at substantially the same circumferential position, and wherein the wave windings comprise conductor wires connected to a high voltage side and a low voltage side of a power source, respectively, the conductor wires having division positions located on different sides in the circumferential direction from each other. 8. A rotary electric machine according to claim 7 , wherein the coil is divided at at least one position in the circumferential direction, wherein within the unit of the divided wave windings in which the conduction is made, at division positions located at substantially the same circumferential position of the conductor-wire end portions, all of the N conductor wires are each connected in parallel to at least one another conductor wire, and wherein two conductor wires within the division unit are connected to each other at one substantial end portion and another substantial end portion of the division positions. 9. A rotary electric machine according to claim 7 , wherein the divided wave windings provided in the same number of slots are arranged so as to be symmetrical about a stator central point. 10. A rotary electric machine according to claims 7 , wherein the rotary electric machine is driven by a plurality of inverters, wherein the three-phase AC windings connected to the respective plurality of inverters are prevented from being electrically connected to each other in the rotary electric machine, and wherein a divided wave winding provided in a certain number of slots and to be connected to one of the plurality of inverters and a divided wave winding provided in the certain number of slots and to be connected to another of the plurality of inverters are arranged so as to be symmetrical about a stator central point. 11. A rotary electric machine according to claim 7 , wherein the wave windings are each divided at two positions in the circumferential direction, and wherein the stator core is divided at one position. 12. A rotary electric machine according to claim 11 , wherein the rotary electric machine is driven by a plurality of inverters, wherein the three-phase AC windings connected to the respective plurality of inverters are prevented from being electrically connected to each other in the rotary electric machine, and wherein a divided wave winding provided in a certain number of slots and to be connected to one of the plurality of inverters and a divided wave winding provided in the certain number of slots and to be connected to another of the plurality of inverters are arranged so as to be symmetrical about a stator central point. 13. A rotary electric machine according to claim 1 , wherein a number of the wave windings provided in the same slot is N=2M, where M is a positive integer, wherein the wave windings comprise sets of two conductor wires having coil end parts located out of the plurality of slots, the coil end parts of each set being located on different sides in an axial direction of the stator core from each other but at substantially the same circumferential position, and wherein the wave windings comprise: division units having conductor wires connected to a high voltage side and a low voltage side of a power source, respectively, the conduct