Rotary blood pump

What is claimed is: 1. A blood pump comprising: a pump housing; a rotor rotatably disposed in said pump housing; a plurality of ramps located between said pump housing and said rotor to create an axial hydrodynamic bearing surface; each of said plurality of ramps being inclined at an angle relative to horizontal; a flat surface associated with each of said plurality of ramps; each of said flat surfaces extending horizontally relative to said angle of its associated ramp; a passive axial magnetic bearing supporting said rotor comprised of a housing magnet and corresponding rotor magnet wherein magnetic fields of said pump housing magnet and said corresponding rotor magnet are arranged to create a biasing force on the rotor in an axial direction; said plurality of ramps and said passive axial magnetic bearing sized to cooperate with each other so as to suspend said impeller during operation of said pump. 2. A blood pump according to claim 1 , wherein, said angle ranges between about 0.5 degrees and about 3 degrees. 3. A blood pump according to claim 1 , wherein said each of said plurality of ramps is disposed on said rotor. 4. A blood pump according to claim 1 , wherein each of said plurality of ramps is disposed on said pump housing. 5. A blood pump according to claim 4 , wherein each of said plurality of ramps is formed integrally on said pump housing. 6. A blood pump according to claim 1 , wherein said plurality of ramps is comprised of at least three ramps. 7. A blood pump according to claim 1 , wherein said plurality of ramps constitutes a cumulative total area within a range of about 40% to 90% of said a chamber surface area of said pump housing. 8. A blood pump according to claim 1 , wherein the plurality of ramps are sized to produce an amount of force adequate to substantially compensate for the sum of the net hydrodynamic/hydrostatic forces of said pump plus an attractive force between a motor magnet and back iron of said pump. 9. A blood pump according to claim 1 , wherein said plurality of ramps are sized and shaped to produce a hydrodynamic bearing when a clearance between said pump housing and said rotor is within a range of about 0.0002 inches to 0.001 inches. 10. A blood pump according to claim 8 , wherein said compensatory force produced by said plurality of ramps equals at least around 1.302 pounds. 11. A blood pump according to claim 1 , wherein said pump housing magnet and said rotor magnet are positionally offset from each other in an axial direction. 12. A blood pump comprising: a housing assembly defining an interior pump surface; a rotor rotatably disposed in said housing assembly; a plurality of ramps interposed between said interior pump surface and said rotor to create a hydrodynamic bearing; each of said plurality of ramps inclined at an angle relative to horizontal; a flat surface associated with each of said plurality of ramps; each of said flat surfaces extending horizontally relative to said angle of its associated ramp; and a passive axial magnetic bearing supporting said rotor comprised of a housing assembly magnet and corresponding rotor magnet wherein magnetic fields of said pump housing magnet and said corresponding rotor magnet are arranged to create a biasing force on the rotor in an axial direction; said plurality of ramps and said passive axial magnetic bearing sized to cooperate with each other so as to suspend said impeller during operation of said pump. 13. A blood pump according to claim 12 , wherein said angle is between about 0.5 degrees and about 3 degrees. 14. A blood pump according to claim 12 , wherein said each of said plurality of ramps is disposed on said rotor. 15. A blood pump according to claim 12 , wherein each of said plurality of ramps is disposed on said interior pump surface. 16. A blood pump according to claim 15 , wherein each of said plurality of ramps is formed integrally on said interior pump surface. 17. A blood pump according to claim 12 , wherein said plurality of ramps is comprised of at least three ramps. 18. A blood pump according to claim 12 , wherein said plurality of ramps constitutes a cumulative total area within a range of about 40 % to 90 % of said interior pump surface area. 19. A blood pump according to claim 12 , wherein the plurality of ramps are sized to produce an amount of force adequate to compensate for the sum of the net hydrodynamic/hydrostatic forces of said pump plus an attractive force between a motor magnet and back iron of said pump. 20. A blood pump according to claim 12 , wherein said plurality of ramps are sized and shaped to produce a hydrodynamic bearing when a clearance between said internal pump surface and said rotor is within a range of about 0.0002 inches to 0.001 inches. 21. A blood pump according to claim 19 , wherein said compensatory force produced by said plurality of ramps equals at least around 1.302 pounds. 22. A blood pump according to claim 12 , wherein said housing magnet and said rotor magnet are positioned to be offset from each other in an axial direction.