Motor assembly for an electric power steering assembly

Having thus described the invention, it is claimed: 1. A motor assembly for an electric power steering assembly, the motor assembly comprising: a motor housing; a stator; a hollow rotor defining an inner cavity, the rotor configured for rotational movement within the motor housing; a worm shaft having a first end and a second end; a motor coupling positioned within the inner cavity and coupled to the rotor for rotational movement therewith, the worm shaft first end coupled to the motor coupling for rotational movement therewith; and at least one damper coupled to the worm shaft, wherein the at least one damper is oriented within the rotor inner cavity. 2. The motor assembly of claim 1 , further comprising a bearing rotatably supporting the rotor at a first end of the motor housing. 3. The motor assembly of claim 2 , further comprising a second bearing rotatably supporting the rotor at a second end of the motor housing opposite the first end of the motor housing. 4. The motor assembly of claim 2 , wherein the motor coupling supports rotation of the rotor at a second end of the motor housing opposite the first end of the motor housing. 5. The motor assembly of claim 1 , further comprising a first bearing and a second bearing rotatably supporting the worm shaft. 6. The motor assembly of claim 5 , further comprising a motor end cover coupled to the motor housing, wherein the first bearing is coupled to the motor end cover. 7. The motor assembly of claim 1 , wherein the motor does not include a motor shaft coupled to the rotor. 8. The motor assembly of claim 1 , wherein the motor coupling is slidably coupled to the rotor and/or the worm shaft first end to facilitate slidable movement of the motor coupling and/or the worm shaft in an axial direction within the rotor inner cavity. 9. A method of assembling a motor assembly for an electric power steering assembly, the method comprising: providing a motor having a hollow rotor defining an inner cavity, the rotor configured for rotational movement within a motor housing; providing a worm shaft having a first end and a second end; providing a motor coupling; positioning the motor coupling within the inner cavity and coupling the motor coupling to the rotor for rotational movement therewith; coupling the worm shaft first end to the motor coupling for rotational movement therewith; coupling at least one damper to the worm shaft; and orienting the at least one damper within the rotor inner cavity. 10. The method of claim 9 , further comprising providing the motor with a bearing to rotatably support the rotor at a first end of the motor housing. 11. The method of claim 10 , further comprising providing the motor with a second bearing to rotatably support the rotor at a second end of the motor housing opposite the first end of the motor housing. 12. The method of claim 10 , further comprising supporting, with the motor coupling, the rotation of the rotor at a second end of the motor housing opposite the first end of the motor housing. 13. The method of claim 9 , further comprising providing a first bearing and a second bearing to rotatably support the worm shaft. 14. The method of claim 13 , further comprising coupling the first bearing to a motor end cover and coupling the motor end cover to the motor housing. 15. The method of claim 9 , further comprising slidably coupling the motor coupling to the rotor and/or the worm shaft first end to facilitate slidable movement of the motor coupling and/or the worm shaft in an axial direction within the rotor inner cavity.