E-charger with hybrid dampening system

What is claimed is: 1. An e-charger comprising: a shaft supported for rotation about an axis; a compressor wheel that is attached to the shaft; an electric motor configured to drive the shaft and the compressor wheel in rotation; a housing that houses the electric motor and at least part of the shaft, the housing including a motor case that encases the electric motor and an outer housing that houses the motor case, the outer housing including an end plate and a bearing mount that is received by the end plate; a bearing that is attached to the bearing mount and the shaft, the bearing supporting rotation of the shaft relative to the bearing mount; and a dampening system incorporated in the housing and configured to dampen loads transferring through the housing, the dampening system including at least one solid-state dampener that is resiliently flexible, the dampening system including at least one fluid viscous dampener that includes a coolant fluid provided between the motor case and the outer housing; and the at least one solid-state dampener comprising a sealing dampener that is resiliently flexible, that seals against the motor case and the outer housing, and that defines a fluid boundary for the coolant fluid; and the at least one solid-state dampener further comprising a radial dampener, the radial dampener disposed radially between the bearing mount and the end plate, the radial dampener configured to resiliently flex to dampen loads transferring radially between the bearing mount and the end plate. 2. The e-charger of claim 1 , wherein the outer housing includes a first member and a second member; and wherein the at least one solid-state dampener comprises a radial dampener that is radially disposed between the first member and the second member, the radial dampener configured to resiliently flex to dampen loads transferring radially between the first member and the second member. 3. The e-charger of claim 2 , wherein the radial dampener has a neutral position and is configured to resiliently flex from the neutral position to dampen loads transferring radially between the first member and the second member; and wherein the radial dampener, in the neutral position, is at least partly wavy and includes a peak and a trough disposed at different radial distances from the axis. 4. The e-charger of claim 1 , wherein the sealing dampener is disposed between and sealed to both the motor case and a first longitudinal side surface of the bearing mount. 5. The e-charger of claim 4 , wherein the sealing dampener is a first sealing dampener, and wherein the at least one solid-state dampener comprises a second sealing dampener that is disposed between and sealed to both a second longitudinal side surface of the bearing mount and the end plate. 6. The e-charger of claim 1 , wherein the at least one fluid viscous dampener is cooperatively defined between corresponding nest surfaces of the motor case and the outer housing, the corresponding nest surfaces nested together to define a fluid boundary, the fluid boundary separating two neighboring fluid passages for the coolant fluid. 7. The e-charger of claim 6 , wherein the corresponding nest surfaces are elongate and extend along the axis. 8. The e-charger of claim 1 , wherein the dampening system is configured to dampen loads transferring radially through the housing via the at least one solid-state dampener and the fluid viscous dampener; and wherein the dampening system is configured to dampen loads transferring longitudinally through the housing via the at least one solid-state dampener. 9. The e-charger of claim 8 , wherein the sealing dampener is a first sealing dampener disposed radially between a second pair of opposing radial surfaces of the outer housing and the motor case; and wherein the at least one solid-state dampener further comprises a second sealing dampener disposed longitudinally between a third pair of opposing longitudinal surfaces of the outer housing and the motor case. 10. An e-charger comprising: a shaft supported for rotation about an axis; a compressor wheel that is attached to the shaft; an electric motor configured to drive the shaft and the compressor wheel in rotation; a housing that houses the electric motor and at least part of the shaft, the housing including a motor case that encases the electric motor and an outer housing that houses the motor case, wherein the outer housing includes a bearing mount with an inner diameter surface and an outer diameter surface; a bearing that is attached to the inner diameter surface of the bearing mount and the shaft, the bearing supporting rotation of the shaft relative to the bearing mount; a dampening system incorporated in the housing and configured to dampen loads transferring through the housing, the dampening system including at least one solid-state dampener that is resiliently flexible, the dampening system including at least one fluid viscous dampener that includes a coolant fluid provided between the motor case and the outer housing; and the at least one solid-state dampener comprising a sealing dampener that is resiliently flexible, that seals against the motor case and the outer housing, and that defines a fluid boundary for the coolant fluid; wherein the sealing dampener is disposed between and is sealed to the outer diameter surface of the bearing mount and the motor case. 11. The e-charger of claim 10 , wherein the sealing dampener is a third sealing dampener; wherein the at least one solid-state dampener includes a fourth sealing dampener disposed between and sealed to opposing longitudinal surfaces of the motor case and the outer housing. 12. The e-charger of claim 11 , wherein the third sealing dampener is annular and extends about the axis; wherein the fourth sealing dampener includes a continuous band that is spaced radially away from the axis; and wherein the third sealing dampener and the fourth sealing dampener are attached together to collectively define a unitary sealing dampener. 13. An e-charger comprising: a shaft supported for rotation about an axis; a compressor wheel that is attached to the shaft; an electric motor configured to drive the shaft and the compressor wheel in rotation; a motor case that encases the electric motor; an outer housing that houses the motor case, the outer housing including a first member and a second member; a cooling system including a coolant jacket defined between the outer housing and the motor case, the coolant jacket surrounding the motor case and provided on a first longitudinal end face, a second longitudinal end face, and an outer face of the motor case, the coolant jacket defining a plurality of coolant passages arranged along a flow path from an inlet to an outlet; and a dampening system including: a solid-state radial dampener that is disposed radially between the first member and the second member of the outer housing and that is configured to resiliently flex to dampen radial loads transferred between the first and second members; a first sealing dampener disposed longitudinally between and sealed to first opposing longitudinal surfaces of the motor case and the outer housing, the first sealing dampener providing a first fluid barrier for the coolant and configured to resiliently flex to dampen longitudinal loads transferred between the motor case and the outer housing; a second sealing dampener disposed longitudinally between and sealed to second opposing longitudinal surfaces of the first member and the second member of the outer housing, the second sealing dampener providing a second fluid barrier for the coolant and configured to re