Blower and PAP system

What is claimed is: 1. A blower, comprising: a housing including an inlet and an outlet; a stationary component provided to the housing, the stationary component comprising a tube portion; an impeller positioned between the inlet of the housing and the stationary component; and a motor adapted to drive the impeller, wherein the motor includes a rotor to which the impeller is coupled, the rotor including at least one retention groove configured to retain a blower component to the rotor in an operative position, and the rotor further including at least one annular groove configured to reduce a stiffness of the rotor, the at least one retention groove including a depth into the rotor that is smaller than a corresponding depth into the rotor of the at least one annular groove, wherein the tube portion includes an interior portion providing an interior surface structured to retain and align a pair of bearings that rotatably support the rotor, and the at least one annular groove is adapted to be positioned between the pair of bearings, and wherein the motor includes a magnet coupled to the rotor such that the magnet is arranged outside the interior portion. 2. The blower according to claim 1 , wherein the at least one annular groove has a diameter of between about 2 mm and about 2.5 mm. 3. The blower according to claim 1 , wherein the at least one annular groove has a width of between about 1 mm and about 2 mm. 4. The blower according to claim 1 , wherein the at least one retention groove is arranged in a double helix configuration. 5. The blower according to claim 1 , wherein the blower further comprises at least one of the following noise reduction features: (i) the tube portion includes a diameter in a side closest to the impeller that is sufficient size to accommodate adhesive to retain one of the pair of bearings; (ii) the stationary component and a stator assembly of the motor are overmolded with one another to provide a stationary assembly, the stationary assembly including a plurality of mounting protrusions to precisely position and align a printed circuit board assembly and its attendant components accurately with respect to the stationary assembly; (iii) a blower bracket to locate and align the blower within a casing; and/or (iv) a chimney or inlet tube portion provided to the inlet of the housing. 6. A PAP device adapted to provide a supply of pressurized breathable gas for treatment of a respiratory disease or sleep disordered breathing comprising: a casing; and the blower according to claim 1 supported within the casing. 7. The blower according to claim 1 , wherein the at least one annular groove includes a diameter that extends transverse to a longitudinal axis of the rotor. 8. The blower according to claim 1 , wherein the motor includes a stator assembly arranged outside the interior portion and arranged to interact with the magnet to control movement of the rotor. 9. The blower according to claim 1 , wherein the blower component comprises the pair of bearings. 10. A flow generator adapted to provide a supply of pressurized breathable gas for treatment of a respiratory disease or sleep disordered breathing, comprising: a housing including an upper housing and a lower housing sealingly connected together, the upper housing including an air inlet opening; an inlet elbow supported within the housing between the upper housing and the lower housing, the inlet elbow arranged to be in fluid communication with the air inlet opening of the upper housing; and a blower comprising a blower housing including an inlet and an outlet; a stationary component provided to the blower housing; an impeller positioned between the inlet of the blower housing and the stationary component; and a motor adapted to drive the impeller, the motor including a rotor coupled to the impeller, wherein the inlet elbow is structured and arranged within the housing to direct incoming air flow from the air inlet opening of the upper housing to the lower housing for delivery to the blower, and wherein the inlet elbow is configured to reduce noise generated by the blower. 11. The flow generator according to claim 10 , wherein the inlet elbow is curved to reflect sound wavelengths. 12. The flow generator according to claim 10 , wherein the inlet elbow is formed of a flexible or elastomeric material. 13. The flow generator according to claim 12 , wherein the inlet elbow is formed of silicone. 14. The flow generator according to claim 10 , wherein the inlet of the blower is provided adjacent a top end of the upper housing and an outlet of the inlet elbow is provided adjacent a lower end of the lower housing. 15. The flow generator according to claim 10 , wherein the inlet of the blower and an inlet of the inlet elbow are both oriented towards a top end of the upper housing. 16. The flow generator according to claim 10 , wherein the inlet elbow includes a lower end that terminates above the lower housing with a gap. 17. The flow generator according to claim 10 , wherein the air flow is dispersed into an internal area of the housing upon exiting a lower end of the inlet elbow. 18. The flow generator according to claim 17 , wherein the inlet elbow disperses the air flow in 360° into the internal area. 19. The flow generator according to claim 10 , wherein the inlet elbow provides a tubular conduit configured to direct air flow. 20. The flow generator according to claim 10 , wherein the inlet elbow is configured to direct incoming air flow from the air inlet opening vertically downwards to the lower housing.