Supercharger having integrated clutch and torsional damper

What is claimed is: 1. A supercharger comprising: a first shaft portion connected to a pulley; a coupling assembly that couples the first shaft portion to a second shaft portion, wherein the first and second shaft portions are configured to rotate around a common longitudinal axis, the coupling assembly configured to provide torsional damping between the first and second shaft portions, wherein the coupling assembly further comprises: a first hub having a plurality of first hub pins extending therefrom, the first hub mounted for concurrent rotation with the first shaft portion; a second hub mounted for concurrent rotation with the second shaft portion; a first coupling disposed intermediate the first and second hubs, the first coupling defining a plurality of first coupling bores that receive the first hub pins; and a first elastomeric bushing mounted around one of the first hub pins and received by one of the first coupling bores, the first elastomeric bushing providing dampening between the first hub and the first coupling; a clutch rotor mounted to the second shaft portion, wherein the clutch rotor rotates around the longitudinal axis; and a clutch armature mounted to a drive shaft and unconnected to the first and second shaft portions, the clutch armature configured to rotate around the longitudinal axis, wherein the clutch rotor and clutch armature selectively cooperate in an engaged position and a disengaged position, wherein in the engaged position the clutch rotor and the clutch armature rotate together. 2. The supercharger of claim 1 , further comprising: a clutch coil spaced along the longitudinal axis from the pulley wherein the clutch rotor is magnetized by the clutch coil. 3. The supercharger of claim 2 , further comprising a clutch housing, wherein the clutch coil is mounted in the clutch rotor and is disposed between the clutch housing and the clutch rotor in a direction along the longitudinal axis. 4. The supercharger of claim 1 , further comprising a plurality of first elastomeric bushings, wherein a first elastomeric bushing is mounted around each of the first hub pins. 5. The supercharger of claim 1 wherein the second hub includes a plurality of second hub pins extending therefrom. 6. The supercharger of claim 5 , further comprising a plurality of second elastomeric bushings, wherein a second elastomeric bushing is mounted around each of the second hub pins. 7. The supercharger of claim 6 , further comprising: a second coupling disposed intermediate the first and second hubs, the second coupling defining a plurality of second coupling bores that receive the second hub pins. 8. The supercharger of claim 7 , further comprising: a center hub having a plurality of first center hub pins and a plurality of second center hub pins extending therefrom, wherein each first center hub pin is arranged coaxially to a corresponding second center hub pin. 9. The supercharger of claim 8 wherein the first center hub pins extend oppositely from the center hub relative to the second center hub pins. 10. The supercharger of claim 8 , further comprising a plurality of third elastomeric bushings, wherein a third elastomeric bushing is mounted around each of the first center hub pins and the second center hub pins. 11. The supercharger of claim 10 wherein the second coupling defines a plurality of third coupling bores that receive the second center hub pins. 12. The supercharger of claim 1 , further comprising a plurality of sleeves disposed between corresponding plurality of first hub pins and first elastomeric bushings. 13. The supercharger of claim 12 wherein each sleeve of the plurality of sleeves comprises a central body portion and a flange, wherein the central body portion defines a central passage configured to receive a corresponding first hub pin of the plurality of first hub pins. 14. A supercharger comprising: a first shaft portion connected to a pulley; a coupling assembly that couples the first shaft portion to a second shaft portion, wherein the first and second shaft portions are configured to rotate around a common longitudinal axis, the coupling assembly configured to provide torsional damping between the first and second shaft portions, wherein the coupling assembly comprises: a first hub having a plurality of first hub pins extending therefrom, the first hub mounted for concurrent rotation with the first shaft portion; a second hub mounted for concurrent rotation with the second shaft portion; a first coupling disposed intermediate the first and second hubs, the first coupling defining a plurality of first coupling bores that receive the first hub pins; and a first elastomeric bushing mounted around one of the first hub pins and received by one of the first coupling bores, the first elastomeric bushing providing dampening between the first hub and the first coupling; a pair of rotors each having a plurality of meshed lobes; a drive shaft that drives the pair of rotors; and a clutch assembly that selectively couples the second shaft portion and the drive shaft. 15. The supercharger of claim 14 wherein the clutch assembly further comprises: a clutch rotor mounted to the second shaft portion, wherein the clutch rotor rotates around the longitudinal axis; and a clutch armature mounted to the drive shaft and unconnected to the first and second shaft portions, the clutch armature configured to rotate around the longitudinal axis, wherein the clutch rotor and clutch armature selectively cooperate in an engaged position and a disengaged position, wherein in the engaged position the clutch rotor and the clutch armature rotate together. 16. The supercharger of claim 15 , further comprising: a clutch coil spaced along the longitudinal axis from the pulley wherein the clutch rotor is magnetized by the clutch coil. 17. The supercharger of claim 16 , further comprising a clutch housing, wherein the clutch coil is mounted in the clutch rotor and is disposed between the clutch housing and the clutch rotor in a direction along the longitudinal axis. 18. A supercharger comprising: a first shaft portion connected to a pulley; a coupling assembly that couples the first shaft portion to a second shaft portion, wherein the first and second shaft portions are configured to rotate around a longitudinal axis, the coupling assembly configured to provide torsional damping between the first and second shaft portions, the coupling assembly comprising: a first hub having a plurality of first hub pins extending therefrom, the first hub mounted for concurrent rotation with the input shaft; a second hub having a plurality of second hub pins extending therefrom, the second hub mounted for concurrent rotation with the rotor shaft; a first coupling disposed intermediate the first and second hubs, the first coupling defining a plurality of first coupling bores that receive the first hub pins; a second coupling disposed intermediate the first and second hubs, the second coupling defining a plurality of second coupling bores that receive the second hub pins; a center hub having a plurality of first center hub pins and a plurality of second center hub pins extending therefrom, the first center hub pins being coaxial with the second center hub pins, wherein each first center hub pin is received in corresponding first coupling bores of the first coupling and each second center hub pin is received in corresponding second coupling bores of the second coupling; a plurality of elastomeric bushings; a plurality of sleeves, wherein the pluralit