An implantable blood pump includes a housing defining an inlet opening and an outlet opening. Within the housing, a dividing wall defines a blood flow conduit extending between the inlet opening and the outlet opening of the housing. The blood pump has a rotary motor that includes a stator and a rot
An implantable blood pump includes a housing defining an inlet opening and an outlet opening. Within the housing, a dividing wall defines a blood flow conduit extending between the inlet opening and the outlet opening of the housing. The blood pump has a rotary motor that includes a stator and a rotor. The stator is disposed within the housing circumferentially about the dividing wall such that the inner blood flow conduit extends through the stator.
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1. An implantable blood pump comprising: a housing defining an inlet opening and an outlet opening oriented at an angle from the inlet opening;a dividing wall within the housing defining a blood flow conduit for carrying blood, the blood flow conduit extending between the inlet opening and the outle
1. An implantable blood pump comprising: a housing defining an inlet opening and an outlet opening oriented at an angle from the inlet opening;a dividing wall within the housing defining a blood flow conduit for carrying blood, the blood flow conduit extending between the inlet opening and the outlet opening of the housing; anda rotary motor including a stator and a rotor, the stator comprising coils configured to interact with the rotor, the stator being disposed within the housing circumferentially about the dividing wall such that the inner blood flow conduit extends through the stator, the stator being disposed circumferentially about at least a part of the rotor and being positioned relative to the rotor such at least portions of the coils are located upstream of the rotor, the rotor having a rotor axis of rotation and including a rotor magnet for driving the rotor, and the stator including pole pieces that axially overlap with the rotor magnet with respect to the rotor axis of rotation. 2. The implantable blood pump of claim 1, further comprising control electronics disposed within the housing about the dividing wall. 3. The implantable blood pump of claim 2, wherein the control electronics are located between the inlet opening and the stator. 4. The implantable blood pump of claim 1, wherein the rotor has only one magnetic moment. 5. The implantable blood pump of claim 1, wherein the stator includes a first coil for driving the rotor and a second coil for controlling a radial position of the rotor, the first coil and the second coil being wound around a first of the pole pieces of the stator. 6. The implantable blood pump of claim 1, wherein the housing defines a volute located such that in use blood flows within the blood flow conduit through the stator before reaching the volute. 7. The implantable blood pump of claim 1, wherein the housing has a first face that defines the inlet opening, a second face opposing the first face, and a peripheral wall extending from the first face to the second face, wherein the housing includes a rounded transition from the second face to the peripheral wall. 8. The implantable blood pump of claim 7, further comprising an inlet cannula in fluid communication with the inlet opening, the inlet cannula extending from the first face. 9. The implantable blood pump of claim 7, wherein the outlet opening is defined in at least one of the second face and the peripheral wall. 10. The implantable blood pump of claim 7, wherein a thickness of the housing between the first face and the second face is less than a width of the housing. 11. The implantable blood pump of claim 1, further comprising: a passive magnetic control system configured to control an axial position of the rotor relative to the stator; andan active electromagnetic control system configured to radially center the rotor within the inner blood flow conduit. 12. The implantable blood pump of claim 1, comprising a magnetic control system for controlling at least one of a radial position and an axial position of the rotor relative to the stator. 13. The implantable blood pump of claim 1, wherein the housing is puck-shaped. 14. The implantable blood pump of claim 1, wherein the stator comprises magnetic levitation components operable to control an axial position and a radial position of the rotor. 15. The implantable blood pump of claim 14, wherein the rotor is disposed in the inner blood flow conduit and includes an impeller operable to pump blood from the inlet opening to the outlet opening through at least a portion of the magnetic levitation components of the stator. 16. The implantable blood pump of claim 1, wherein the stator includes a back iron and the pole pieces are arranged at intervals around the dividing wall. 17. The implantable blood pump of claim 16, wherein the back iron extends around the dividing wall and is formed as a generally flat disc of a ferromagnetic material. 18. The implantable blood pump of claim 16, further comprising: drive coils configured to generate an electromagnetic field to rotate the rotor, the drive coils being wound around the pole pieces; andlevitation coils configured to generate an electromagnetic field to control the radial position of the rotor, the levitation coils being wound around the pole pieces. 19. The implantable blood pump of claim 16, wherein each of the pole pieces is L-shaped. 20. The implantable blood pump of claim 19, wherein each of the pole pieces has a first leg that contacts the back iron and extends from the back iron, and each of the pole pieces has a second leg that extends from the first leg toward the dividing wall proximate a location of a permanent magnet of the rotor. 21. The implantable blood pump of claim 20, wherein the first leg of each of the pole pieces is oriented substantially parallel to the dividing wall. 22. The implantable blood pump of claim 20, wherein the housing comprises a first exterior face configured to face toward a heart, a second exterior face opposite the first exterior face, and an inlet cannula extending outward from the first exterior face, the housing defining a volute between the first exterior face and the second exterior face, wherein the pole pieces are located in the housing between the first exterior face and the volute. 23. The implantable blood pump of claim 20, further comprising first coils configured to generate an electromagnetic field to rotate the rotor and second coils configured to generate an electromagnetic field to control the radial position of the rotor, wherein the first coils and the second coils are disposed about the dividing wall upstream of the permanent magnet of the rotor. 24. The implantable blood pump of claim 1, wherein the implantable blood pump is a centrifugal blood pump, and wherein the rotor comprises centrifugal pump impeller blades. 25. The implantable blood pump of claim 1, wherein the implantable blood pump comprises a back iron located within the housing, the back iron being positioned such that in use blood flows within the blood flow conduit through the back iron. 26. The implantable blood pump of claim 25, wherein the back iron is positioned such that in use blood flows within the blood flow conduit through the back iron before reaching the coils. 27. The implantable blood pump of claim 1, wherein the rotor defines comprises a central hole such that in use blood flows through the central hole of the rotor. 28. The implantable blood pump of claim 1, wherein the stator is positioned such that the blood flow conduit extends completely through the stator before reaching the rotor. 29. The implantable blood pump of claim 1, wherein the stator comprises a back iron; and wherein the blood flow conduit extends through the back iron. 30. The implantable blood pump of claim 1, wherein the pole pieces are spaced apart around the rotor axis of rotation. 31. The implantable blood pump of claim 1, wherein the rotor magnet is used for magnetic levitation of the rotor. 32. An implantable blood pump comprising: a housing defining an inlet opening and an outlet opening;a dividing wall within the housing defining a blood flow conduit, the blood flow conduit extending between the inlet opening and the outlet opening of the housing;a rotary motor including a stator and a rotor, the stator being disposed within the housing circumferentially about the dividing wall such that the inner blood flow conduit extends through the stator, the stator being disposed circumferentially about at least a part of the rotor and being positioned relative to the rotor such that in use blood flows within the blood flow conduit through the stator before reaching the rotor, and the rotor having permanent magnetic poles for magnetic levitation of the rotor;a passive magnetic control system configured to control an axial position of the rotor relative to the stator; andan active electromagnetic control system configured to radially center the rotor within the inner blood flow conduit. 33. An implantable blood pump comprising: a housing defining an inlet opening and an outlet opening;a dividing wall within the housing defining a blood flow conduit for carrying blood, the blood flow conduit extending between the inlet opening and the outlet opening of the housing; anda rotary motor including a stator and a rotor, the stator being disposed within the housing circumferentially about the dividing wall such that the inner blood flow conduit extends through the stator, the stator being disposed circumferentially about at least a part of the rotor and being positioned relative to the rotor such that the blood flow conduit extends through the stator before reaching the rotor, and the rotor having permanent magnetic poles for magnetic levitation of the rotor;wherein the stator includes a back iron;wherein the stator includes pole pieces arranged at intervals around the dividing wall and each of the pole pieces is L-shaped; andwherein each of the pole pieces has a first leg that contacts the back iron and extends from the back iron, and each of the pole pieces has a second leg that extends from the first leg toward the dividing wall. 34. The implantable blood pump of claim 33, wherein the first leg of each of the pole pieces is oriented substantially parallel to the dividing wall. 35. The implantable blood pump of claim 33, wherein the housing comprises a first exterior face configured to face toward a heart, a second exterior face opposite the first exterior face, and an inlet cannula extending outward from the first exterior face, the housing defining a volute between the first exterior face and the second exterior face, wherein the pole pieces are located in the housing between the first exterior face and the volute. 36. The implantable blood pump of claim 33, further comprising first coils configured to generate an electromagnetic field to rotate the rotor and second coils configured to generate an electromagnetic field to control the radial position of the rotor, wherein the first coils and the second coils are disposed about the dividing wall upstream of the permanent magnet of the rotor. 37. An implantable blood pump comprising: a housing defining an inlet opening and an outlet opening;a dividing wall within the housing defining a blood flow conduit for carrying blood, the blood flow conduit extending between the inlet opening and the outlet opening of the housing;a rotary motor including a stator and a rotor, the stator being disposed within the housing circumferentially about the dividing wall such that the inner blood flow conduit extends through the stator, the stator being disposed circumferentially about at least a part of the rotor and being positioned relative to the rotor such that the blood flow conduit extends through the stator before reaching the rotor, and the rotor having permanent magnetic poles for magnetic levitation of the rotor;a passive magnetic control system configured to act as an axial bearing for magnetic levitation of the rotor; andan active electromagnetic control system configured to act as a radial bearing for magnetic levitation of the rotor. 38. An implantable blood pump comprising: a housing defining an inlet opening and an outlet opening oriented at an angle from the inlet opening;a dividing wall within the housing defining a blood flow conduit for carrying blood, the blood flow conduit extending between the inlet opening and the outlet opening of the housing; anda rotary motor including a stator and a rotor, the stator comprising coils configured to interact with the rotor, the stator being disposed within the housing circumferentially about the dividing wall such that the inner blood flow conduit extends through the stator, the stator being disposed circumferentially about at least a part of the rotor and being positioned relative to the rotor such that the blood flow conduit extends through the stator before reaching the rotor, and the rotor having a rotor axis of rotation and including a rotor magnet for driving the rotor, and the stator including pole pieces that axially overlap with the rotor magnet with respect to the rotor axis of rotation;wherein the implantable blood pump comprises a back iron located within the housing, the back iron being positioned such that in use blood flows within the blood flow conduit through the back iron before reaching the coils. 39. The implantable blood pump of claim 38, wherein the rotor magnet is used for magnetic levitation of the rotor. 40. An implantable blood pump comprising: a housing defining an inlet opening and an outlet opening oriented at an angle from the inlet opening;a dividing wall within the housing defining a blood flow conduit for carrying blood, the blood flow conduit extending between the inlet opening and the outlet opening of the housing; anda rotary motor including a stator and a rotor, the stator comprising coils configured to interact with the rotor, the stator being disposed within the housing circumferentially about the dividing wall such that the inner blood flow conduit extends through the stator, the stator being disposed circumferentially about at least a part of the rotor and being positioned relative to the rotor such that the blood flow conduit extends through the stator before reaching the rotor, and the rotor having a rotor axis of rotation and including a rotor magnet for driving the rotor, and the stator including pole pieces that axially overlap with the rotor magnet with respect to the rotor axis of rotation;wherein the rotor comprises a central hole such that in use blood flows through the central hole of the rotor. 41. The implantable blood pump of claim 40, wherein the rotor magnet is used for magnetic levitation of the rotor.
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