Flow estimation in a blood pump

The invention claimed is: 1. An implantable blood pump system comprising: (a) a pump including a housing having an axis, and a rotor disposed within the housing, the rotor being rotatable around the axis; and (b) a control circuit operatively coupled to the pump, the control circuit being configured to: determine a parameter that varies in response to thrust on the rotor along the axis, and determine a flow rate of blood based at least in part on the parameter. 2. An implantable blood pump system as in claim 1 , wherein the control circuit determines a flow rate based on the parameter and speed of rotation of the rotor. 3. An implantable blood pump system as in claim 1 , wherein the parameter is related to displacement of the rotor along the axis. 4. An implantable blood pump system as in claim 1 , wherein the pump includes a stator operatively coupled to the control circuit, the stator incorporating a plurality of coils for applying a rotating magnetic field to the rotor. 5. An implantable blood pump system as in claim 4 , wherein the parameter is based on back electromotive force (BEMF) in one or more of the plurality of coils. 6. An implantable blood pump system as in claim 4 , wherein the control circuit is further operative to: sample voltage across a first coil in the stator during an open-phase period in which: (i) the first coil is not being driven, and (ii) at least one other coil in the stator is being driven; so as to determine a function of back electromotive force (BEMF) during the open-phase period, wherein the flow rate of blood is determined based at least in part on the function of BEMF and speed of rotation of the rotor. 7. An implantable blood pump system as in claim 6 , wherein the control circuit includes a processor coupled to a memory, the memory storing a table that relates different values of the function of BEMF during the open-phase period and speed of rotation of the rotor to different flow rates. 8. An implantable blood pump system as in claim 6 wherein the control circuit is operative to determine the speed of rotation of the rotor based on the sampled voltage. 9. An implantable blood pump system as in claim 6 , wherein the control circuit is configured to determine a blood flow rate based on an amount of current supplied to the pump in conjunction with the function of BEMF and speed of rotation of the rotor. 10. An implantable blood pump system as in claim 9 , wherein the control circuit is operative to determine the flow rate of blood based on the function of BEMF and speed only when the flow rate based on the function of BEMF and speed of rotation of the rotor is less than a threshold, and to determine the flow rate of blood based on the amount of current when the flow rate based on the function of BEMF and speed of rotation of the rotor is above the threshold. 11. An implantable blood pump system as in claim 9 , wherein the blood flow rate is related to current by a function such that for at least some values of current, there is a two-to-one mapping between current and flow rate such there is a first value of flow rate below a threshold value and a second value above the threshold value, and wherein the system selects the first or second value based on whether the flow rate based on the function of BEMF and speed of rotation of the rotor is below or above the threshold. 12. An implantable blood pump system as in claim 6 wherein the function is based on a rate of change of BEMF. 13. An implantable blood pump system as in claim 1 , wherein the control circuit includes a processor coupled to a memory. 14. An implantable blood pump system as in claim 1 , further comprising: an electromagnet for producing an axial magnetic force on the rotor; and an active control circuit for generating a control signal for setting the magnitude of the axial magnetic force to keep the rotor at a substantially fixed position along the axis; and wherein the parameter is determined by the control circuit based on the control signal. 15. An implantable blood pump system as in claim 1 , wherein the control circuit includes a pump control module for adjusting operation of the pump based at least in part on the determined flow rate. 16. A control circuit for monitoring the operation of an implantable blood pump, the control circuit comprising: a parameter determination circuit operative to determine a parameter that varies in response to thrust generated by a rotor of the pump; and a flow rate determination circuit operative to determine a flow rate of blood based at least in part on the parameter. 17. A control circuit as in claim 16 , wherein the parameter is related to displacement of the rotor along an axis of rotation of the rotor. 18. A control circuit as in claim 16 , wherein the parameter is related to back electromotive force (BEMF) in a coil of the pump. 19. A control circuit as in claim 18 , wherein: the control circuit is operable to sample voltage across a first coil in the during an open-phase period in which: (i) the first coil is not being driven, and (ii) at least one other coil in the stator is being driven; so as to evaluate a function of back electromotive force (BEMF) during the open-phase period, wherein the flow rate is determined based at least in part on the function of BEMF and speed of rotation of the rotor. 20. A control circuit as in claim 19 , further comprising: a processor; and a memory coupled to the processor, the memory storing a table that relates different values of the function of BEMF during the open-phase period and speed of rotation of the rotor to different flow rates. 21. A control circuit as in claim 19 wherein the control circuit is operative to determine the speed of rotation of the rotor based on the sampled voltage. 22. A control circuit as in claim 19 , wherein the control circuit is further configured to determine the blood flow rate based at least in part on the magnitude of a current supplied to the pump to drive the pump. 23. A control circuit as in claim 22 , wherein the flow rate of blood is determined based on the function of BEMF and speed only when the flow rate based on the function of BEMF and speed of rotation of the rotor is less than a threshold, and the flow rate of blood is determined based on the magnitude of the current supplied to the pump when the flow rate is above the threshold. 24. An implantable blood pump system as in claim 22 , wherein the blood flow rate is related to current by a function such that for at least some values of current, there is a two-to-one mapping between current and flow rate such there is a first value of flow rate below a threshold value and a second value above the threshold value, and wherein the system selects the first or second value based on whether the flow rate based on the function of BEMF and speed of rotation of the rotor is below or above the threshold. 25. A control circuit as in claim 19 , wherein the function of BEMF is a rate of change of the BEMF. 26. A control circuit as in claim 16 , further comprising a pump control module operative to control operation of the pump based at least in part on the flow rate determined by the flow rate determination circuit. 27. A control circuit as in claim 16 , wherein the parameter related to thrust is a function of a control signal applied to an electromagnet to keep the rotor in position within the pump. 28. A me