Damping system for an e-charger

What is claimed is: 1. An electrically driven compressor assembly comprising: a shaft; a compressor wheel that is supported on the shaft; an electric motor with a stator and a rotor, the electric motor configured to rotate the shaft and the compressor wheel; a housing assembly that houses the stator, the rotor, and at least part of the shaft, the housing assembly including a first member, a second member, and a third member that cooperate to encapsulate the rotor and the stator, the first member including an open end, the second member at least partly covering the open end and a first radial surface of the first member opposing a second radial surface of the second member; a first bearing that is attached to the second member of the housing assembly and that is attached to the shaft, the first bearing supporting the shaft for rotation relative to the second member about an axis of rotation; a second bearing that is attached to the third member and the shaft, the second bearing supporting the shaft for rotation relative to the third member about the axis of rotation; a first dampener disposed between the first radial surface of the first member and the second radial surface of the second member of the housing assembly, a radial space defined between the first dampener and one of the first radial surface and the second radial surface, the first dampener configured to elastically deform to provide dampening of a radial force transferred between the first member and the second member of the housing assembly with respect to the axis of rotation; and a second dampener that is disposed between the first member and the third member, the second dampener configured to elastically deform to provide dampening of a force that is transferred between the first member and the third member of the housing assembly. 2. The compressor assembly of claim 1 , wherein the first dampener is configured to elastically deform between a first position and a second position; wherein the first dampener includes a first dampener surface that is uneven in the first position; and wherein the first dampener surface is configured to deform as the first dampener moves between the first position and second position. 3. The compressor assembly of claim 2 , wherein the first dampener extends in a circumferential direction about the axis of rotation, wherein the first dampener includes an inner radial surface facing the axis of rotation and an outer radial surface facing away from the axis of rotation, and wherein the first dampener surface is one of the inner radial surface and the outer radial surface is uneven in the first position. 4. The compressor assembly of claim 3 , the first dampener surface is the inner radial surface of the first wherein the outer radial surface of the first dampener is uneven in the first position, and wherein the outer radial surface of the first dampener is configured to deform as the first dampener moves between the first position and the second position. 5. The compressor assembly of claim 4 , wherein the first dampener has a thickness measured between the inner radial surface of the first dampener and the outer radial surface of the first dampener; and wherein the thickness of the first dampener is constant along the circumferential direction. 6. The compressor assembly of claim 3 , wherein the at least one of the inner radial surface of the first dampener and the outer radial surface of the first dampener includes a plurality of alternating peaks and troughs in the first position. 7. The compressor assembly of claim 1 , wherein the first member of the housing assembly includes a first inner diameter surface; wherein the second member of the housing assembly includes a second outer diameter surface that faces the first inner diameter surface; wherein the dampener abuts the first inner diameter surface of the first member of the housing assembly; and wherein the dampener abuts the second outer diameter surface of the second member of the housing assembly. 8. The compressor assembly of claim 1 , wherein the dampener is a unitary member that extends annularly and continuously about an axis of rotation of the shaft. 9. The compressor assembly of claim 1 , wherein the bearing is a greasepack ball bearing. 10. An electrically driven compressor assembly comprising: a shaft; a compressor wheel that is supported on the shaft; an electric motor with a stator and a rotor, the electric motor configured to rotate the shaft and the compressor wheel; a housing assembly that houses the stator, the rotor, and at least part of the shaft, the housing assembly including a first member and a second member, the first member including an open end, the second member at least partly covering the open end, a first inner diameter surface of the first member opposing a second outer diameter surface of the second member, the first member including a first face that faces in a first longitudinal direction relative to an axis of rotation, and the second member including a second face that faces in a second longitudinal direction relative to the axis of rotation; a bearing that is attached to the second member of the housing assembly and that is attached to the shaft, the bearing supporting the shaft for rotation relative to the second member about the axis of rotation; a dampener disposed between and abutting the first inner diameter surface of the first member and the second outer diameter surface of the second member of the housing assembly, the dampener configured to elastically deform to provide dampening of a radial force transferred between the first member and the second member of the housing assembly with respect to the axis of rotation; wherein the dampener abuts the first face of the first member and abuts the second face of the second member; and wherein the dampener is configured to deform to provide dampening of a longitudinal force that is transferred longitudinally between the first member and the second member. 11. The compressor assembly of claim 10 , wherein the bearing is a first bearing and the dampener is a first dampener; wherein the housing assembly further includes a third member, wherein the first member, the second member, and the third member cooperate to encapsulate the rotor and the stator; further comprising a second bearing that is attached to the third member of the housing assembly and that is attached to the shaft, the bearing supporting the shaft for rotation relative to the third member about the axis; and further comprising a second dampener that is disposed between the first member and the third member, the second dampener configured to elastically deform to provide dampening of a force that is transferred between the first member and the third member of the housing assembly. 12. The compressor assembly of claim 10 , wherein the bearing is a greasepack ball bearing. 13. A method of manufacturing an electrically driven compressor assembly comprising: providing a first member and a second member of a housing assembly, the first member including an open end; supporting a shaft on the second member for rotation relative to the second member about an axis of rotation with a bearing, the bearing attached to the second member and attached to the shaft; supporting a compressor wheel on the shaft; housing an electric motor within the first member and the second member of the housing assembly, the second member at least partly covering the open end of the first member and a first radial surface of the first member opposing a second radial surface of the second member, a first face of the first member facing in a first longitudinal di