Electric drive unit with gear shaft, rotor shaft and three bearings

What is claimed is: 1. An electric drive unit having only three bearings in a rotor shaft and gear shaft portion of the electric drive unit, the electric drive unit comprising: a rotor shaft having a first end, a second end, and a first region of the rotor shaft extending from the first end to a first shoulder; a gear shaft having a third end and a fourth end; a first bearing supporting the rotor shaft near the second end; a second bearing supporting the gear shaft at the third end; and a third bearing supporting the gear shaft at the fourth end; wherein: the first region of the rotor shaft resides within the fourth end of the gear shaft; the fourth end of the gear shaft resides adjacent the first shoulder; the third bearing supports the rotor shaft; and the rotor shaft and gear shaft portion comprises only three bearings, wherein the rotor shaft has a second region of the rotor shaft extending from the second end to a second shoulder; the gear shaft has a third region of the gear shaft extending from the third end to a third shoulder, and a fourth region of the gear shaft extending from the fourth end to a fourth shoulder; the first bearing supports the rotor shaft in the second region adjacent the second shoulder; the second bearing supports the third region of the gear shaft and resides adjacent the third shoulder; and the third bearing supports the fourth region of the gear shaft and resides adjacent the fourth shoulder. 2. The electric drive unit of claim 1 , additionally comprising: a first spline connector within the first region of the rotor shaft; and a second spline connector within a fifth region of the rotor shaft, wherein the fifth region resides within the third end to the fourth shoulder, and wherein the rotor shaft interfaces with the gear shaft via a spline connection of the second spline connector with the first spline connector. 3. The electric drive unit of claim 1 , wherein the third bearing supports the rotor shaft in the fourth region. 4. The electric drive unit of claim 1 , wherein the rotor shaft includes a pilot journal in the first region, wherein the gear shaft includes a pilot bore in the fourth region and wherein the pilot journal and pilot bore bear against each other. 5. The electric drive unit of claim 1 , wherein the gear shaft further includes a gear. 6. The electric drive unit of claim 1 , further comprising a wave spring adjacent to the first bearing and on an opposite side of the first bearing from the second shoulder. 7. The electric drive unit of claim 1 , wherein only the first bearing is in direct contact with the rotor shaft, wherein the contact is near the second end in the second region. 8. An electric drive unit having only three bearings in a rotor shaft and gear shaft portion of the electric drive unit, the electric drive unit comprising: a rotor shaft having a first end, a second end, and a first region of the rotor shaft extending from the first end to a first shoulder; a gear shaft having a third end and a fourth end; a first bearing supporting the rotor shaft near the second end; a second bearing supporting the gear shaft at the third end; and a third bearing supporting the gear shaft at the fourth end; wherein: the first region of the rotor shaft resides within the fourth end of the gear shaft; the fourth end of the gear shaft resides adjacent the first shoulder; the third bearing supports the rotor shaft; the rotor shaft and gear shaft portion comprises only three bearings; a balancing ring and a lock nut, wherein a first portion of the rotor shaft extends outward from a first rotor end, wherein the first portion of the rotor shaft is positioned through the balancing ring such that the first rotor end is adjacent to the balancing ring; and wherein the balancing ring is secured to the first rotor end using the lock nut. 9. The electric drive unit of claim 8 , wherein the lock nut comprises a plurality of channels in an outer edge of the lock nut. 10. The electric drive unit of claim 8 , wherein the balancing ring is machined to balance the rotor. 11. The electric drive unit of claim 8 , wherein the balancing ring is interposed between the lock nut and first rotor end. 12. The electric drive unit of claim 8 , wherein the first portion of the rotor shaft comprises a threaded region, and wherein the lock nut is secured to the rotor shaft via the threaded region. 13. The electric drive unit of claim 8 , wherein the balancing ring functions as a Belleville-type spring when loaded against the lock nut and the first rotor end. 14. The electric drive unit of claim 8 , additionally comprising a stack of laminated discs determining the first rotor end and an opposite second rotor end, and wherein the stack of laminated discs has an opening therethrough. 15. The electric drive unit of claim 14 , wherein the rotor shaft extends through the opening and is connected to the stack of laminated discs. 16. The electric drive unit of claim 14 , wherein the rotor shaft is connected to the stack of laminated discs with an interference fit. 17. The electric drive unit of claim 14 , wherein the first portion of the rotor shaft extends outward beyond the stack of laminated discs and wherein a second portion of the rotor shaft extends outward from the second rotor end beyond the stack of laminated discs. 18. The electric drive unit of claim 17 , wherein the second portion of the rotor shaft comprises a shoulder having a plurality of channels in an outer edge of the shoulder. 19. The electric drive unit of claim 18 , wherein the plurality of channels in the outer edge of the shoulder of the second portion of the rotor shaft are torque reaction features configured to avoid engagement of a first spline connector and a second spline connector.