Pump and method for mixed flow blood pumping

What is claimed is: 1. A blood pump assembly, comprising: an implantable blood pump having a motor stator with phase windings for at least three phases, each of the phase windings having a first end and a second end, each of the second ends of the phase windings being connected to a common loadable point; a pump controller; and a percutaneous lead for connecting the blood pump to the pump controller, the percutaneous lead including a set of conductors comprising: a first conductor for connecting the pump controller and the first end of a first of the phase windings, a second conductor for connecting the pump controller and the first end of a second of the phase windings, a third conductor for connecting the pump controller and the first end of a third of the phase windings, and an additional conductor for connecting the pump controller and the common loadable point; wherein the pump controller includes independent drive electronics for each of the first, second, third, and additional conductors configured to independently control the current in the first, second, third, and additional conductors, and wherein the pump controller is configured to: detect a fault condition in which one of the first, second, or third conductors and the additional conductor are disconnected; and in response to detecting the fault condition in which one of the first, second, or third conductors and the additional conductor are disconnected, operate the blood pump in a one-phase mode; wherein the percutaneous lead encloses the first, second, third, and additional conductors and includes a mating region that includes four connectors, wherein first, second, and third connectors of the four connectors are arranged in a triangular pattern with a fourth connector of the four connectors located generally at a center of the triangular pattern, and wherein each of the conductors terminate at one of the four connectors. 2. The blood pump assembly of claim 1 , wherein the pump controller is configured to allow operation of the pump with the additional conductor as a neutral connection to the common loadable point. 3. The blood pump assembly of claim 1 , wherein the pump controller is configured to operate the pump in a three-phase mode, a two-phase mode, or the one-phase mode. 4. The blood pump assembly of claim 3 , wherein the pump controller is configured to: operate the blood pump in the three-phase mode; detect a fault condition in which one of the first, second, or third conductors is disconnected; and in response to detecting the fault condition in which one of the first, second, or third conductors is disconnected, change from operating the blood pump in the three-phase to operating the blood pump in the two-phase mode. 5. The blood pump assembly of claim 3 , wherein the pump controller is configured to: detect a fault condition in which two of the first, second, or third conductors are disconnected; and in response to detecting the fault condition in which two of the first, second, or third conductors are disconnected, operate the blood pump in the one-phase mode. 6. The blood pump assembly of claim 1 , wherein the implantable blood pump comprises a hub having an axis of rotation and a generally cylindrical shape, the hub having an upstream end region, a central region, and a downstream end region, and wherein the implantable blood pump comprises blades located at the downstream end region of the hub and extending downstream of the hub. 7. The blood pump assembly of claim 6 , wherein downstream portions of the blades extend radially outward from the hub. 8. The blood pump assembly of claim 6 , wherein the implantable blood pump includes a housing, and the hub is suspended within the housing by fore and aft bearings.