Rotor carrier connection

What is claimed is: 1. A rotor for a hybrid drivetrain comprising: a rotor carrier comprising: a first tubular portion comprising: an outer surface; and an inner spline portion; and an annular portion comprising a first through hole; at least one rotor segment installed on the outer surface; a torque converter comprising: an impeller comprising: a first shell; and a plurality of first blades fixed to the first shell; a cover comprising: a second shell fixed to the first shell to form a hydraulic chamber; and a fastener fixed to the second shell and extending through the first through hole; and a turbine disposed in the hydraulic chamber and comprising: a third shell; and a plurality of second blades fixed to the third shell; and a clutch plate comprising an outer spline portion installed in the inner spline portion to rotationally connect the clutch plate to the rotor carrier. 2. The rotor of claim 1 wherein: the first through hole is a plurality of first through holes; and the fastener is a plurality of fasteners each extending through a one of the plurality of first through holes. 3. The rotor of claim 1 wherein: the rotor carrier comprises a second tubular portion extending from the annular portion; and the second shell comprises a third tubular portion installed into the second tubular portion to radially position the cover relative to the rotor carrier. 4. The rotor of claim 3 wherein: the rotor carrier comprises a first conical portion extending from the second tubular portion; and, the second shell comprises a second conical portion extending from the third tubular portion and parallel to the first conical portion. 5. The rotor of claim 3 wherein the torque converter further comprises a clutch piston disposed in the hydraulic chamber and sealed to the third tubular portion. 6. The rotor of claim 1 wherein: the rotor comprises a rotational axis; the at least one rotor segment comprises an outer surface with a first radius measured from the rotational axis; and the fastener is disposed at a second radius measured from the rotational axis and greater than the first radius. 7. The rotor of claim 1 wherein the fastener is a stud projection welded to the second shell. 8. The rotor of claim 1 wherein: the second shell comprises a second through hole; and, the fastener is a stud installed in the second through hole and welded to the second shell. 9. The rotor of claim 8 wherein: the second shell comprises a counterbore aligned with the second through hole; and the stud comprises a head disposed in the counterbore. 10. The rotor of claim 8 wherein the stud is welded to the second shell by laser welding that forms a liquid-tight seal between the stud and the second shell. 11. A hybrid module for a vehicle comprising: the rotor of claim 1 ; a module housing; and a stator installed in the module housing and radially aligned with the at least one rotor segment. 12. The hybrid module of claim 11 wherein the module housing is arranged for fixing to a transmission housing and to an internal combustion engine. 13. The hybrid module of claim 11 further comprising a transmission housing fixed to the module housing, wherein the torque converter is at least partially disposed within the transmission housing. 14. A method of assembling a hybrid drivetrain comprising: providing a transmission comprising: a torque converter comprising a plurality of studs; and a transmission housing with an access hole; providing a hybrid module with a rotor carrier comprising a plurality of through holes; inserting each one of the plurality of studs into a one of the plurality of through holes; and fixing the torque converter to the rotor carrier with a plurality of nuts installed on the plurality of studs by rotating the torque converter to align each one of the plurality of studs with the access hole to install each one of the plurality of nuts. 15. The method of claim 14 wherein: the hybrid module comprises a module housing; and the method further comprises fixing the transmission housing to the module housing. 16. A rotor for a hybrid drivetrain comprising: a rotor carrier comprising: a first tubular portion comprising an outer surface; an annular portion comprising a first through hole; and a second tubular portion extending from the annular portion; at least one rotor segment installed on the outer surface; and a torque converter comprising: an impeller comprising: a first shell; and a plurality of first blades fixed to the first shell; a cover comprising: a second shell fixed to the first shell to form a hydraulic chamber, the second shell comprising a third tubular portion contacting the second tubular portion and radially centering the cover relative to the rotor carrier; and a fastener fixed to the second shell and extending through the first through hole; and a turbine disposed in the hydraulic chamber and comprising: a third shell; and a plurality of second blades fixed to the third shell. 17. The rotor of claim 16 wherein: the rotor carrier comprises a first conical portion extending from the second tubular portion; and, the second shell comprises a second conical portion extending from the third tubular portion and parallel to the first conical portion. 18. The rotor of claim 16 wherein the torque converter further comprises a clutch piston disposed in the hydraulic chamber and sealed to the third tubular portion.