Electric machine having offset rotor sections

What is claimed is: 1. A rotor shaft component comprising: a longitudinal axle having a plurality of keybars extending outward from a surface of the longitudinal axle, wherein each of the plurality of keybars are disposed axially along and circumferentially around the longitudinal axle, further wherein an axis of the plurality of keybars is parallel to the longitudinal axle, wherein a portion each of the plurality of keybars overlap an adjacent keybar in a circumferential direction, wherein each of the plurality of keybars are configured to receive a corresponding key on a corresponding rotor section of a plurality of rotor sections, thereby defining a stacked rotor assembly having a step-skewed configuration. 2. The component of claim 1 , wherein the plurality of keybars has a helical profile. 3. The component of claim 1 , wherein each of the plurality of keybars are straight. 4. The component of claim 1 , wherein each of the plurality of rotor sections comprises a plurality of rotor laminations. 5. The component of claim 1 , wherein each of the plurality of rotor sections comprises a solid core section. 6. The component of claim 1 , wherein the stacked rotor assembly is configured for use in one of an interior permanent magnet (IPM) machine and a Synchronous Reluctance motor. 7. The component of claim 1 , wherein the plurality of keybars are disposed circumferentially around the longitudinal axis, wherein a skew angle, θ seat , is an angle between adjacent rotor sections. 8. The component of claim 7 , wherein the skew angle, θ seat , is selected to provide a shift in a torque vs. rotor position profile of the plurality of rotor sections, thereby reducing torque ripple. 9. The component of claim 7 , wherein an offset θ key between adjacent keybars comprises θ sect +θ 0 , wherein θ 0 comprises an additional mechanical offset for clearance for adjacent rotor sections. 10. The component of claim 1 , wherein the plurality of keybars comprises a first set of keybars, the component further comprising a second set of keybars, wherein each of the keybars of the second set of keybars is located circumferentially opposite a keybar of the first set of keybars. 11. An assembly comprising: a plurality of motor rotor sections, wherein each of the plurality of motor rotor sections comprise a solid core rotor core section, and wherein each of the plurality of motor rotor section has a key; and a rotor bar extending through the plurality of motor rotor sections, the rotor bar including a longitudinal axle having a plurality of keybars extending outward from a surface of the longitudinal axle, wherein each of the plurality of keybars are disposed axially along and circumferentially around the longitudinal axle, further wherein an axis of the plurality of keybars is parallel to the longitudinal axle, and wherein a portion each of the plurality of keybars overlap an adjacent keybar in a circumferential direction, wherein each of the plurality of keybars are configured to receive a corresponding key on a corresponding motor rotor section of the plurality of motor rotor sections, thereby defining a stacked rotor assembly having a step-skewed configuration. 12. The assembly of claim 11 , further comprising a plurality of end plates having the plurality of motor rotor sections located therebetween. 13. The assembly of claim 11 , further comprising a plurality of magnets located within the motor rotor sections. 14. An interior permanent magnet (IPM) machine comprising the assembly of claim 13 , and, a stator surrounding the assembly. 15. The IPM machine of claim 14 , wherein the assembly is configured to reduce torque ripple in the IPM machine. 16. The assembly of claim 13 , wherein the plurality of magnets comprise a material of at least one of ferrite, alnico, and a rare earth metal. 17. A Synchronous Reluctance motor comprising the assembly of claim 11 , and, a stator surrounding the assembly. 18. The Synchronous Reluctance motor of claim 17 , wherein the assembly is configured to reduce torque ripple in the Synchronous Reluctance motor. 19. An Interior Permanent Magnet (IPM) machine rotor comprising: a rotor shaft component including a longitudinal axle having a plurality of keybars extending outward from a surface of the longitudinal axle, wherein each of the plurality of keybars are disposed axially along and circumferentially around the longitudinal axle, further wherein an axis of the plurality of keybars is parallel to the longitudinal axle, wherein a portion each of the plurality of keybars overlap an adjacent keybar in a circumferential direction; and a plurality of motor rotor sections, each of the plurality of motor rotor section having a key, wherein each of the plurality of keybars are configured to receive a corresponding key on a corresponding motor rotor section of the plurality of motor rotor sections, thereby defining a stacked rotor assembly of an Interior Permanent Magnet (IPM) machine rotor having a step-skewed configuration, and wherein the plurality of motor rotor sections are solid core. 20. The IPM machine rotor of claim 19 , wherein the plurality of motor rotor sections are laminated. 21. A Synchronous Reluctance motor rotor comprising: a rotor shaft component including a longitudinal axle having a plurality of keybars extending outward from a surface of the longitudinal axle, wherein each of the plurality of keybars are disposed axially along and circumferentially around the longitudinal axle, further wherein an axis of the plurality of keybars is parallel to the longitudinal axle, wherein a portion each of the plurality of keybars overlap an adjacent keybar in a circumferential direction; and a plurality of motor rotor sections assembled along the rotor shaft component and defining a rotor stack assembly, each of the plurality of motor rotor section having a key, wherein each of the plurality of keybars are configured to receive a corresponding key on a corresponding motor rotor section of the plurality of motor rotor sections, thereby defining a stacked rotor assembly of a Synchronous Reluctance motor rotor having a step-skewed configuration with a skew angle, θ sect , defined by the following equation: θ sect =θ skew /( N sect −1), where θ skew is a rotor skew angle between end sections of the rotor stack assembly; and N sect is a number of the plurality of motor rotor sections. 22. The Synchronous Reluctance motor rotor of claim 21 , wherein the plurality of motor rotor sections are laminated. 23. The Synchronous Reluctance motor rotor of claim 21 , wherein the plurality of motor rotor sections are solid core.