Interlocked stator yoke and star for electric motor

What is claimed is: 1. A stator for an electric motor, said stator comprising: a yoke; a star disposed in said yoke, wherein said star comprises a plurality of arms; wherein said star receives a rotor therein; wherein said star has at least one wire coiled around a portion of each arm of said plurality of arms of said star; wherein each said arm of said star comprises a respective outer engaging portion, with each outer engaging portion comprising an outer leading edge that extends laterally from said respective outer engaging portion, and wherein each outer engaging portion further comprises a first indentation; wherein said yoke comprises a plurality of ports at an inner surface of said yoke, and wherein each port of said plurality of ports comprises a sidewall, and wherein each port of said plurality of ports further comprises a second indentation; wherein said yoke and said star are configured such that said star, is rotatable in said yoke between an unlocked position and a locked position; wherein, when said star is in said unlocked position with respect to said yoke, said star is rotatable relative to said yoke to said locked position, and wherein said locked position comprises said star retained at said yoke via an interference fit, such that said outer leading edges of respective outer engaging portions of said star contact corresponding sidewalls of said ports of said yoke, and further such that said first indentations of said outer engaging portions align with a respective second indentation of a respective port. 2. The stator of claim 1 , wherein said inner surface of said yoke has larger radius portions and smaller radius portions, and wherein said outer engaging portions of said star are disposed at said larger radius portions when in the unlocked position and at said smaller radius portions when in the locked position, and wherein said outer engaging portions of said star face said inner surface of said yoke. 3. The stator of claim 1 , wherein said star and said stator comprise laminated components. 4. The stator of claim 3 , wherein said star and said stator each comprise corresponding laminations in a plane perpendicular to the axial direction. 5. The stator of claim 1 , wherein said star, when in said unlocked position, has a first amount of interference with said yoke, and wherein said star, when in said locked position, has a second amount of interference with said yoke, and wherein said second amount of interference is greater than the first amount of interference. 6. The stator of claim 1 further comprising a locking pin disposed between an aligned pair of corresponding first and second indentations. 7. A method for assembling a stator for an electric motor, wherein said method comprises: providing a star configured to receive a rotor therein, wherein said star comprises a plurality of arms; providing a yoke configured to receive said star; coiling at least one wire around a portion of each arm of said plurality of arms of said star; wherein each said arm of said star comprises a respective outer engaging portion, with each outer engaging portion comprising an outer leading edge that extends laterally from said respective outer engaging portion, and wherein each said outer engaging portion further comprises a first indentation; wherein said yoke comprises a plurality of ports at an inner surface of said yoke, and wherein each port of said plurality of ports comprises a sidewall, and wherein each said port of said plurality of ports further comprises a second indentation; axially inserting said star into said yoke in an unlocked position with respect to said yoke, wherein, when said star is axially inserted into said yoke in said unlocked position, said star is axially inserted into said yoke with reduced interference and reduced insertion force as compared to axially inserting said star into said yoke in a locked position; and rotating said star relative to said yoke to rotate said star to said locked position, wherein, when said star is in said locked position, said star is retained at said yoke via an interference fit, wherein said rotating said star to said locked position comprises rotating said star until said outer leading edges of respective outer engaging portions of said star contact corresponding sidewalls of said ports of said yoke, such that said first indentations of said outer engaging portions align with said second indentations of respective ports. 8. The method of claim 7 , wherein said inner surface of said yoke has larger radius portions and smaller radius portions, and wherein said outer engaging portions of said star are disposed at said larger radius portions when said star is in the unlocked position and at said smaller radius portions when said star is in the locked position, and wherein said outer engaging portions of said star face said inner surface of said yoke. 9. The method of claim 7 further comprising inserting a locking pin between said yoke and said star to further retain said star in said locked position relative to said yoke, wherein said inserting a locking pin between said yoke and said star comprises inserting said locking pin in aligned first and second indentations. 10. The method of claim 7 , wherein, after winding the coils at said star, said star is insertable into said yoke with a reduced force axial movement. 11. The method of claim 7 , wherein said star and said stator comprise laminated components. 12. The method of claim 11 , wherein said star and said stator are laminated in a plane perpendicular to the axial direction. 13. The method of claim 7 , wherein said yoke and said star are formed via a single common stamping. 14. The method of claim 13 , wherein said rotor is formed via the single common stamping. 15. The method of claim 7 , wherein said star, when in said unlocked position, has a first amount of interference with said yoke, and wherein said star, when in said locked position, has a second amount of interference with said yoke, and wherein said second amount of interference is greater than the first amount of interference. 16. The method of claim 7 , wherein rotating said star relative to said yoke comprises fixing a rotational position of said yoke.