PAP system blower

What is claimed is: 1. A blower, comprising: a housing including an inlet and an outlet; a rotor; a bearing-housing structure provided to the housing and adapted to rotatably support the rotor; a motor provided to the bearing-housing structure, the motor including a stator assembly, a magnet, and a rotor cap, wherein the bearing-housing structure includes a bearing shaft having an exterior surface and an interior bearing surface, wherein the stator assembly is provided along the exterior surface of the bearing shaft and the rotor is rotatably supported by the interior bearing surface of the bearing shaft, and wherein the interior bearing surface is configured as a sleeve bearing along an exterior surface of the rotor; and an impeller, wherein the rotor cap includes an interior surface that supports the magnet and an exterior surface that supports the impeller, wherein the rotor is freely inserted into an opening of the rotor cap such that the rotor is not directly fastened to the rotor cap, and wherein the magnet is configured to magnetically interact with the stator assembly to axially retain the rotor cap and hence the impeller in an operative position relative to the stator assembly and cause spinning movement of the rotor cap and hence the impeller in use. 2. The blower according to claim 1 , wherein the blower is configured to provide pressurized air up to a maximum of approximately 8 cm H 2 O. 3. The blower according to claim 1 , wherein the blower is configured to be operated at a speed of approximately 15,000 rpm. 4. The blower according to claim 1 , wherein the inlet and the outlet are co-axially aligned. 5. The blower according to claim 1 , wherein the housing includes a top cover providing the inlet and a bottom cover providing the outlet. 6. The blower according to claim 5 , further comprising a plurality of pre-swirl inlet vanes provided to the top cover to direct airflow towards the inlet. 7. The blower according to claim 6 , further comprising a pre-swirl cover to cover the pre-swirl inlet vanes. 8. The blower according to claim 7 , wherein the pre-swirl cover includes an axial shock bumper or stop to prevent the rotor from lifting off the bearing-housing structure. 9. The blower according to claim 5 , wherein the bottom cover includes a plurality of stator vanes to direct airflow. 10. The blower according to claim 1 , wherein the bearing-housing structure is constructed of a lubricious material. 11. The blower according to claim 10 , wherein the bearing-housing structure is constructed of sintered bronze or a polyamide-imide resin. 12. The blower according to claim 1 , wherein the motor is at least partially nested within the impeller. 13. The blower according to claim 1 , wherein the bearing shaft is constructed of or coated with a lubricous material or a material to reduce friction between the bearing shaft and the rotor. 14. The blower according to claim 13 , wherein the bearing shaft provides only a single bearing of the non-ball bearing type for the rotor. 15. A PAP device for generating a supply of pressurized air, the PAP device comprising a chassis and the blower of claim 1 provided within the chassis. 16. A PAP system comprising the PAP device of claim 15 , a patient interface adapted to form a seal with a patient's face, and air delivery tubing to interconnect the patient interface and the PAP device. 17. The blower according to claim 1 , wherein the bearing shaft includes a trilobe configuration. 18. The blower according to claim 1 , wherein the bearing shaft includes a lubricant reservoir therewithin. 19. The blower according to claim 1 , wherein the bearing shaft includes a one or more recessed channels along a thrust surface of the bearing shaft to retain lubricant. 20. The blower according to claim 1 , wherein the bearing-housing structure includes an annular disk that substantially aligns with or extends radially beyond an outer edge of the impeller to provide a shielding function. 21. The blower according to claim 20 , wherein the bearing shaft and the disk include a split configuration in which the bearing shaft and the disk are separate components. 22. The blower according to claim 21 , wherein the bearing shaft and the disk are constructed of different materials. 23. The blower according to claim 1 , wherein the bearing-housing structure is coupled to a bottom cover of the housing. 24. The blower according to claim 23 , wherein the bearing-housing structure includes an annular disk coupled to stator vanes provided between the disk and the bottom cover. 25. The blower according to claim 23 , further comprising an elastomeric material provided between the bearing-housing structure and the bottom cover. 26. The blower according to claim 1 , wherein the impeller includes a plurality of blades, each blade including a leading edge with a slanted or angled configuration. 27. The blower according to claim 1 , wherein the bearing shaft includes a radial bearing portion and a thrust bearing portion. 28. The blower according to claim 1 , wherein the rotor cap and the impeller are integrally formed as a one-piece structure. 29. The blower according to claim 1 , wherein the bearing shaft provides only a single bearing of the non-ball bearing type for the rotor. 30. The blower according to claim 1 , wherein the bearing-housing structure includes a one piece structure. 31. The blower according to claim 1 , wherein the magnet is off-set from the stator assembly to magnetically preload the rotor cap on a thrust bearing portion of the bearing-housing structure. 32. The blower according to claim 1 , further comprising a rotor retainer structured and arranged to retain the rotor in an operative position relative to the bearing-housing structure. 33. The blower according to claim 32 , wherein the rotor retainer comprises a flange coupled to the rotor to prevent vertical movement of the rotor. 34. The blower according to claim 32 , wherein the rotor retainer comprises a retention arm provided to the housing and positioned and arranged to prevent vertical movement of the rotor.