Hairpin winding electric machine with multi-conductor hairpin assemblies

What is claimed is: 1. A method of assembling a hairpin motor comprising: providing separate first, second, third, and fourth hairpin blanks having separate insulation coatings and no common encasement; bending each of the hairpin blanks to form first, second, third, and fourth hairpins each having first and second legs; assembling the first and second hairpins on a stator core by inserting the first and second legs of the first and second hairpins into first and second slots of the stator core, respectively; assembling the third and fourth hairpins on the stator core by inserting the first and second legs of the third and fourth hairpins into third and fourth slots of the stator core, respectively; and welding the first legs of the first and second hairpins to each other and to the second legs of the third and fourth hairpins so that the first, second, third, and fourth hairpins are electrically connected to each other via a weld. 2. The method of claim 1 further comprising: providing separate fifth and sixth hairpin blanks having separate insulation coatings and no common encasement; bending the fifth and sixth hairpin blanks to form fifth and sixth hairpins each having first and second legs; assembling the fifth and sixth hairpins on the stator core by inserting the first and second legs of the fifth and sixth hairpins into fifth and sixth slots of the stator core, respectively; and welding the first legs of the fifth and sixth hairpins to each other and to the second legs of the first and second hairpins so that the first, second, fifth, and sixth hairpins are electrically connected to each other via another weld. 3. The method of claim 1 further comprising: providing a fifth hairpin blank having an insulation coating; bending the fifth hairpin blank to have first and second legs; and assembling the fifth hairpin on the stator core by inserting the first and second legs of the fifth hairpin into the first and second slots of the stator core, respectively, wherein the welding joins the fifth hairpin to the first and second hairpins. 4. The method of claim 1 , wherein the first and second hairpins are bent separately. 5. The method of claim 1 further comprising inserting a rotor into the stator core. 6. A method of assembling a hairpin motor comprising: providing a stator core having first, second, third and fourth slots; providing separate first, second, third, and fourth hairpin blanks having separate insulation coatings and no common encasement; bending each of the hairpin blanks to form first, second, third, and fourth hairpins each having first and second legs; assembling the first and second hairpins on a stator core by inserting the first and second legs of the first and second hairpins into the first and second slots of the stator core, respectively; assembling the third and fourth hairpins on the stator core by inserting the first and second legs of the third and fourth hairpins into the third and fourth slots of the stator core, respectively; welding the first legs of the first and second hairpins to each other and to the second legs of the third and fourth hairpins so that the first, second, third, and fourth hairpins are electrically connected to each other via a weld; providing separate fifth and sixth hairpin blanks having separate insulation coatings and no common encasement; bending the fifth and sixth hairpin blanks to form fifth and sixth hairpins each having first and second legs; assembling the fifth and sixth hairpins on the stator core by inserting the first and second legs of the fifth and sixth hairpins into fifth and sixth slots of the stator core, respectively; and welding the first legs of the fifth and sixth hairpins to each other and to the second legs of the first and second hairpins so that the first, second, fifth, and sixth hairpins are electrically connected to each other via another weld. 7. The method of claim 6 further comprising: providing a fifth hairpin blank having an insulation coating; bending the fifth hairpin blank to have first and second legs; and assembling the fifth hairpin on the stator core by inserting the first and second legs of the fifth hairpin into the first and second slots of the stator core, respectively, wherein the welding joins the fifth hairpin to the first and second hairpins. 8. The method of claim 6 , wherein the first and second hairpins are bent separately. 9. The method of claim 6 further comprising inserting a rotor into the stator core.