Method for producing the coil of a rotary electric machine stator and stator thus obtained

What is claimed is: 1. A stator for an electrical machine having an axis (A), comprising: a) a plurality of axially extending slots; b) within every slot of a subset of the slots, at least four sections of conductor, arranged so that i) a first section of conductor and a second section of conductor are both located at a first radial distance from the axis (A); ii) a third section of conductor and a fourth section of conductor are both located at a second radial distance from the axis (A); c) a plurality of connecting sections which i) connect all first sections of conductor in electrical series with each other to form a first continuous winding; ii) connect all second sections of conductor in electrical series with each other to form a second continuous winding; iii) connect all third sections of conductor in electrical series with each other to form a third continuous winding which is electrical series with the first sections of conductor; and iv) connect all fourth sections of conductor in electrical series with each other to form a fourth continuous winding which is in electrical series with the second sections of conductor; in which a pair of electrical conductors begin at a first slot and terminates at an Nth slot, and which forms a first layer in said slots, and in which: d) said pair of electrical conductors reverses direction at the Nth slot, and runs through the same slots in reverse sequence to form a second layer, such that all members of said pair of electrical conductors, within the slots in the second layer are located at the same radial distance D2 from the axis. 2. The stator according to claim 1 , wherein for each turn, two wires form complementary axial ripples which are overlapped axially, so that one of the two wires is positioned axially above the other. 3. The stator according to claim 1 , wherein each wire of the conductor comprises consecutively, from upstream to downstream a lower strand which is arranged overall below the lower face of an annular core; an upstream axial strand which is arranged in a first slot associated with the winding; an upper strand which is arranged overall above the upper face of the annular core, and a downstream axial strand which is arranged in a second slot associated with the winding, said second slot being positioned downstream relative to said first slot. 4. The stator according to claim 1 , wherein in at least one turn of the coil, the lower strand of a first wire is arranged axially above a lower strand of a second wire, the first axial strand of the first wire is positioned upstream of the first axial strand of the second wire, the upper strand of the first wire is arranged axially above the upper strand of the second wire and the second axial strand of the first wire is positioned downstream of the second axial strand of the second wire. 5. The stator according to claim 1 , wherein in at least one other turn of the coil, the lower strand of the first wire is arranged axially below a lower strand of the second wire, the first axial strand of the first wire is positioned upstream of the first axial strand of the second wire, the upper strand of the first wire is arranged axially below the upper strand of the second wire and the second axial strand of the first wire is positioned downstream of the second axial strand of the second wire. 6. The stator according to claim 3 , wherein all the axial strands of each wire, which are arranged in the same slot, are positioned at the same angular dimension about axis A of the stator. 7. The stator according to claim 2 , wherein each wire of the conductor comprises consecutively, from upstream to downstream a lower strand which is arranged overall below the lower face of the annular core; an upstream axial strand which is arranged in a first slot associated with the winding; an upper strand which is arranged overall above the upper face of the annular core, and a downstream axial strand which is arranged in a second slot associated with the winding, said second slot being positioned downstream relative to said first slot. 8. The stator according to claim 2 , wherein in at least one turn of the coil, the lower strand of a first wire is arranged axially above a lower strand of a second wire, the first axial strand of the first wire is positioned upstream of the first axial strand of the second wire, the upper strand of the first wire is arranged axially above the upper strand of the second wire and the second axial strand of the first wire is positioned downstream of the second axial strand of the second wire. 9. The stator according to claim 3 , wherein in at least one turn of the coil, the lower strand of a first wire is arranged axially above a lower strand of a second wire, the first axial strand of the first wire is positioned upstream of the first axial strand of the second wire, the upper strand of the first wire is arranged axially above the upper strand of the second wire and the second axial strand of the first wire is positioned downstream of the second axial strand of the second wire. 10. The stator according to claim 2 , wherein in at least one other turn of the coil, the lower strand of the first wire is arranged axially below a lower strand of the second wire, the first axial strand of the first wire is positioned upstream of the first axial strand of the second wire, the upper strand of the first wire is arranged axially below the upper strand of the second wire and the second axial strand of the first wire is positioned downstream of the second axial strand of the second wire. 11. The stator according to claim 3 , wherein in at least one other turn of the coil, the lower strand of the first wire is arranged axially below a lower strand of the second wire, the first axial strand of the first wire is positioned upstream of the first axial strand of the second wire, the upper strand of the first wire is arranged axially below the upper strand of the second wire and the second axial strand of the first wire is positioned downstream of the second axial strand of the second wire. 12. The stator according to claim 4 , wherein in at least one other turn of the coil, the lower strand of the first wire is arranged axially below a lower strand of the second wire, the first axial strand of the first wire is positioned upstream of the first axial strand of the second wire, the upper strand of the first wire is arranged axially below the upper strand of the second wire and the second axial strand of the first wire is positioned downstream of the second axial strand of the second wire. 13. The stator according to claim 4 , wherein all the axial strands of each wire, which are arranged in the same slot, are positioned at the same angular dimension about axis A of the stator. 14. The stator according to claim 1 , wherein said adjacent slots in the sequence are separated by other slots, through which the pair of electrical conductors do run. 15. The stator according to claim 1 , in which the conductors in the first layer are connected in electrical series with the respective conductors in the second layer. 16. A stator for an electrical machine having an axis (A), comprising: a) a plurality of axially extending slots; b) within every slot of a subset of the slots, at least four sections of conductor, arranged so that i) a first section of conductor and a second section of conductor are both located at a first radial distance from the axis (A); ii) a third section of conductor and a fourth section of conductor are both located at a second radial distance from the axis (A); c) a plur