A multi-conductor winding for an electric machine includes a plurality of conductors having a substantially identical wire form with a plurality of end turns joining a plurality of slot segments. A first portion of the plurality of conductors is arranged in a first orientation and a second portion of the plurality of conductors is arranged in a second orientation that is a mirror image of the first orientation. The plurality of end turns of the plurality of conductors includes at least three distinct winding pitches.

A stator includes a stator core having a through hole and a plurality of slots, and a continuous wire coil that, is mounted in the stator core, wherein the continuous wire coil includes a conductor wire and has a plurality of straight portions inserted in the slots, and a coil end portion that connects ends of the straight portions adjacent to each other on an outer side in an axial direction of the stator core, the coil end portion has a top portion formed by folding the conductor wire in a radial direction, the top portion has a width W in a circumferential direction, and the width w satisfies the following condition:

W≤2πR/N

where,
R is an innermost diameter of continuous wire coil wound so that an outer diameter is smaller than an inner diameter of a through hole,
N is the number of slots.

A stator includes a stator core having slots arranged in a circumferential direction and a stator coil formed by wave-winding continuous coil wires on the stator core. Each of the continuous coil wires has in-slot portions received in the slots and turn portions each of which connects, on the outside of the slots, one pair of the in-slot portions. The stator coil is formed, by spirally rolling a band-shaped coil wire bundle that is formed by bundling the continuous coil wires, into a cylindrical shape. In the coil wire bundle, the continuous coil wires are transposed at a plurality of locations. Moreover, in a range where the continuous coil wires extend in the circumferential direction of the stator core by one complete turn, at least one interval between adjacent transposition locations in the coil wire bundle is greater than or equal to the circumferential length of one turn portion.

A process for making a continuous bar winding (4) for an electric machine is described, comprising: a) a step of providing a template (10) having a template axis (X) and a circular array of slots (11) extended about said template axis (X), said circular array of slots having a number of slots equal to a number of slots of the stator or of the rotor of said electric machine, each slot (11) of said circular array having a first and a second open end face (11A, 11B) which are axially spaced from one another and a third open end face (11C), said third face (11C) being a longitudinal face extended between said first and second end faces (11A, 11B) b) a step of providing a conductive bar (20); c) a step of locking a locking portion (21) of said conductive bar; d) a step of inserting the conductive bar (20) into the slots (11) of said array and shaping the conductive bar (20) so that such conductive bar (20) repeatedly passes through the slots (11) of said array from the side of the first open end faces (11A) to the side of the second open end faces (11B) and vice versa, so that said bar (20) has a plurality of bar portions (20B, 20E, 20H) received in the slots (11) of said array and a plurality of connecting portions (20C, 20D; 20F, 20G) projecting beyond said first and second open end faces (11A, 11B), each of said connecting portions joining a pair of said bar portions (20B, 20E, 20H) received in the slots (11) of said array; in which said step d) comprises: d1) an operation of inserting a first bar portion (20B) of said plurality of bar portions into a respective slot (11) of said circular array of slots (11) through said third face (11C) of such slot (11); d2) an operation of shaping a first connecting portion (20C, 20D) of said plurality of connecting portions (20C, 20D; 20F, 20G); d3) an operation of inserting a second bar portion (20E) of said plurality of bar portions (20B, 20E, 20H) into a further slot (11) of said array, different from the slot (11) into which said first bar portion (20B) has been inserted, through said third face (11C) of the further slot (11); in which said first connecting portion (20C, 20D) joins said first and second bar portions (20B, 20E) projecting beyond the second end faces (11B) of the slots (11<