Compact low noise efficient blower for CPAP devices

What is claimed is: 1. A centrifugal blower for a non-invasive ventilation device, the centrifugal blower comprising: a substantially axially symmetrical housing having a housing inlet and a housing outlet between which is a flow path for gas, wherein the housing outlet is structured to direct gas exiting the blower in a substantially axial direction; a motor having a shaft, wherein the shaft includes a shaft axis, wherein the shaft axis is generally parallel to the substantially axial direction, and wherein the motor has a first side oriented towards the housing inlet and a second side oriented towards the housing outlet; a first impeller attached to the shaft on the first side of the motor; and second and third impellers attached to the shaft on the second side of the motor. 2. A non-invasive ventilation (NIVV) device comprising an outer casing and the blower according to claim 1 supported within the outer casing. 3. The blower of claim 1 , wherein the shaft axis, the housing inlet, and the housing outlet are co-axial. 4. The blower of claim 1 , wherein each of the first, second, and third impellers includes a plurality of blades adapted to accelerate gas tangentially and to direct it radially outward. 5. The blower of claim 4 , wherein the plurality of blades are sandwiched between a first disk-like shroud and a second disk-like shroud. 6. The blower of claim 5 , wherein the first disk-like shroud includes an outer diameter that is smaller compared to an outer diameter of the second disk-like shroud. 7. The blower of claim 5 , wherein the first disk-like shroud overlaps an inner portion of the plurality of blades of each of the impellers and includes a hub that is adapted to receive the shaft. 8. The blower of claim 5 , wherein the second disk-like shroud includes a center opening and extends to radially outer tips of the plurality of blades of each of the impellers. 9. The blower of claim 4 , wherein each of the plurality of blades has a continuously curved shape. 10. The blower of claim 4 , wherein each of the plurality of blades is tapered in width in radially outer portions. 11. The blower of claim 4 , wherein each of the plurality of blades has an inlet angle with respect to a tangent of between 0 degrees and 90 degrees. 12. The blower of claim 4 , wherein each of the plurality of blades has an outlet angle with respect to a tangent of between 70 degrees and 110 degrees. 13. The blower of claim 1 , wherein the motor comprises a motor case forming the first and second sides. 14. The blower of claim 13 , further comprising a first stationary vane structure including a plurality of stator vanes, wherein the first stationary vane structure is located adjacent the second side of the motor, and wherein the motor case is structured and arranged to provide a barrier to isolate stator vanes of the first stationary vane structure from an impeller blade pressure pulse of the first impeller. 15. The blower of claim 14 , wherein the second impeller is adapted to receive a flow of gas from the first stationary vane structure. 16. The blower of claim 15 , further comprising a second stationary vane structure including a plurality of stator vanes adapted to receive a flow of gas exiting the second impeller. 17. The blower of claim 16 , wherein the third impeller is adapted to receive a flow of gas from the second stationary vane structure. 18. The blower of claim 17 , further comprising a third stationary vane structure including a plurality of stator vanes adapted to receive a flow of gas exiting the third impeller. 19. The blower of claim 18 , wherein the plurality of stator vanes of the third stationary vane structure are formed in the housing adjacent the housing outlet. 20. The blower of claim 18 , further comprising a first shield between the second impeller and the second stationary vane structure, wherein the first shield has an outer edge extending radially beyond an outer radial edge of each of the plurality of stator vanes of the second stationary vane structure, and further comprising a second shield between the third impeller and the third stationary vane structure, wherein the second shield has an outer edge extending radially beyond an outer radial edge of each of the plurality of stator vanes of the third stationary vane structure.