Stator of electric machine, electromotor having the same, and electric vehicle having the electromotor

The invention claimed is: 1. An electric machine, comprising: a stator core having a plurality of slots; and a stator winding in which a winding having a rectangular shaped cross section or circular shaped cross section is wound in series around the slot, wherein the stator winding has a plurality of winding portions for each phase, each of the winding portions has a plurality of segment conductors inserted into four or more slots sequentially disposed along a circumferential direction such that there are three or more slots for each pole and each phase, and segment conductors with different phases are simultaneously inserted into at least any one of the four or more slots of each of winding portions, wherein the stator winding has a plurality of winding portions connected in parallel with one another for each phase, and each of the winding portions has a plurality of poles, and each of the winding portions has a first layer through a fourth layer, when each of the poles is disposed at five slots, a first layer and a second layer of the first and second slots and a third layer and a fourth layer of the fourth and fifth slots among the five slots of the one pole have the same phase along a circumferential direction of the stator core, and a second layer and the third layer of the fourth and firth slots have different phases, wherein a first layer through a fourth layer of the third slot among the five slots of the one pole have the same phase, wherein the first layer of the first slot and the first layer of the third slot have the same phase, and wherein the second layer and a third layer of the first and second slots have different phases. 2. The electric machine of claim 1 , wherein the winding portion for each phase has a plurality of winding portions connected in parallel with one another. 3. The electric machine of claim 2 , wherein the segment conductor has a first layer through a fourth layer separated from one another in a radial direction within the each slot, and the each segment conductor comprises: a first conductor having a pair of insertion portions inserted into different slots from each other, and a connection portion connecting the insertion portions to each other, and extension portions extended from the insertion portions, respectively; and a second conductor having an insertion portion inserted into the slot, and a plurality of extension portions extended from both end portions of the insertion portion, respectively. 4. An electromotor, comprising: the electric machine of claim 2 ; and a rotor rotatably disposed with respect to the electric machine, wherein the electric machine and rotor are configured to rotate at 12000 through 24000 rpm. 5. An electric vehicle, comprising: a vehicle body; a battery provided in the vehicle body; an electromotor of claim 4 provided in the vehicle body to provide a driving force to the vehicle body. 6. The electric machine of claim 5 , wherein the vehicle body has a plurality of wheels, and further comprises a decelerator provided between the electromotor and the wheel, and wherein the decelerator has a deceleration ratio of 5.5:1 to 10:1. 7. The electromotor of claim 5 , wherein the stator core has 36 through 72 slots, and the stator winding has a plurality of winding portions connected in parallel with one another with the number of 2 to 8 in parallel for each phase, and the stator winding has 3 to 10 poles, and alternating current power of 500 to 1000 Hz is applied to the stator winding. 8. The electric machine of claim 1 , wherein the stator winding has a plurality of lead wires connecting each phase power to a winding portion, and the stator winding has a first winding portion and a second winding portion connected to in parallel with each other, and each lead wire has a power connecting portion connected to a power source, and a first branch portion and a second branch portion branched from the power connecting portion and connected to each of one ends of the first winding portion and the second winding portion, respectively. 9. The electric machine of claim 8 , wherein the stator winding has a neutral line connecting each of the other ends of the first winding portion and the second winding portion, wherein the neutral line has a first branch portion through a sixth branch portion connected to each phase of the first winding portion and the second winding portion, and wherein the first winding portion and the second winding portion are disposed such that the poles of the same phase are separated from one another by one slot or two slots in a circumferential direction of the stator core. 10. An electromotor, comprising: the electric machine of claim 1 ; and a rotor rotatably disposed with respect to the electric machine, wherein the electric machine and rotator are configured to rotate at 12000 through 24000 rpm.