Supercharger having pre-boosting configuration

What is claimed is: 1 . A supercharger comprising: a shaft portion connected to a pulley; a pair of supercharger rotors arranged for concurrent rotation with respective rotor shafts; a clutch rotor mounted to the shaft portion, wherein the clutch rotor rotates around a longitudinal axis; a clutch armature mounted to a drive shaft and unconnected to the shaft portion, 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; and an electric motor having an output that provides a rotational input to one of the rotor shafts. 2 . The supercharger of claim 1 wherein the electric motor is mounted to a housing of the supercharger. 3 . The supercharger of claim 2 wherein the output of the electric motor comprises an electric motor output shaft. 4 . The supercharger of claim 3 wherein the electric motor output shaft rotates around a first axis and wherein the one of the rotor shafts rotates around a second axis, wherein the first and second axes are collinear. 5 . The supercharger of claim 1 wherein the electric motor rotates the supercharger rotors at substantially one-third of peak engagement speed. 6 . The supercharger of claim 1 wherein the electric motor is configured to rotate the supercharger rotors prior to engagement of the clutch rotor and the clutch armature thereby reducing an initial speed differential between the clutch rotor and the clutch armature. 7 . 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. 8 . The supercharger of claim 7 , 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. 9 . The supercharger of claim 1 wherein the electric motor is configured to provide a constant rotational input to the supercharger rotors when the first shaft portion is being rotated. 10 . A supercharger comprising: a first shaft portion connected to a pulley and configured to rotate around a longitudinal axis; a pair of rotors each having a plurality of meshed lobes; a drive shaft that drives the pair of rotors; a clutch assembly that selectively couples the first shaft portion and the drive shaft between a disengaged position and an engaged position; and an electric motor that drives the pair of rotors and is configured to reduce a speed differential between the first shaft portion and the drive shaft upon movement from the disengaged position to the engaged position. 11 . The supercharger of claim 10 wherein the clutch assembly further comprises: a clutch rotor mounted to the first 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 shaft portion in the disengaged position, the clutch armature configured to rotate around the longitudinal axis, wherein the clutch rotor and clutch armature selectively cooperate in the engaged position and the disengaged position, wherein in the engaged position the clutch rotor and the clutch armature rotate together. 12 . The supercharger of claim 11 , further comprising: a clutch coil spaced along the longitudinal axis from the pulley wherein the clutch rotor is magnetized by the clutch coil. 13 . The supercharger of claim 12 , 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. 14 . The supercharger of claim 10 wherein the electric motor is mounted to a housing of the supercharger. 15 . The supercharger of claim 14 wherein the electric motor has an output comprising an electric motor output shaft. 16 . The supercharger of claim 15 wherein the electric motor output shaft rotates around a first axis and wherein one of the rotors comprises a rotor shaft that rotates around a second axis, wherein the first and second axes are collinear. 17 . The supercharger of claim 10 wherein the electric motor rotates the supercharger rotors at substantially one-third of peak engagement speed. 18 . The supercharger of claim 10 wherein the electric motor is configured to rotate the supercharger rotors prior to engagement of the clutch rotor and the clutch armature thereby reducing an initial speed differential between the clutch rotor and the clutch armature. 19 . A supercharger comprising: a first shaft portion connected to a pulley and configured to rotate around a longitudinal axis; a pair of supercharger rotors each having a plurality of meshed lobes and each configured for concurrent rotation with a respective rotor shaft; a drive shaft that drives the pair of rotors; a clutch assembly that selectively couples the first shaft portion and the drive shaft between a disengaged position and an engaged position, the clutch assembly comprising; a clutch rotor mounted to the first 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 shaft portion in the disengaged position, the clutch armature configured to rotate around the longitudinal axis, wherein the clutch rotor and clutch armature selectively cooperate in the engaged position and the disengaged position, wherein in the engaged position the clutch rotor and the clutch armature rotate together; and an electric motor that drives the pair of supercharger rotors and is configured to reduce a speed differential between the first shaft portion and the drive shaft upon movement from the disengaged position to the engaged position. 20 . The supercharger of claim 19 wherein the electric motor is configured to rotate the supercharger rotors prior to engagement of the clutch rotor and the clutch armature thereby reducing an initial speed differential between the clutch rotor and the clutch armature. 21 . The supercharger of claim 18 , further comprising one of a pulley and gear arrangement disposed intermediate an electric motor output shaft of the electric motor and the rotor shaft. 22 . The supercharger of claim 18 wherein the electric motor provides an input to the drive shaft. 23 . The supercharger of claim 22 , further comprising a power transfer device disposed intermediate the electric motor and the drive shaft.