Heart pump driveline power modulation

What is claimed is: 1. A mechanical circulatory support system comprising: an implantable blood pump comprising motor control electronics and a rectifier, wherein the motor control electronics are configured to convert a direct current (DC) electrical power supplied to the motor control electronics into drive currents supplied to a motor stator of the blood pump to control the blood pump according to one or several stored instructions, wherein the rectifier is electrically connected to the motor control electronics, and wherein the rectifier is configured to generate the DC electrical power supplied to the motor control electronics from an alternating current (AC) electrical power supplied to the rectifier; a driveline electrically connected to the rectifier and configured to supply the AC electrical power to the rectifier; and an external controller comprising a transmission module electrically connected to the driveline, wherein the transmission module comprises switches that are controlled to generate the AC electrical power from an input electrical power, and wherein the external controller is configured to output the AC electrical power to the driveline to transmit the AC electrical power to the rectifier. 2. The mechanical circulatory support system of claim 1 , wherein the AC electrical power supplied to the rectifier has a frequency in a range from 200 Hz to 1000 Hz. 3. The mechanical circulatory support system of claim 1 , wherein the drive line is a percutaneous drive line. 4. The mechanical circulatory support system of claim 3 , wherein the driveline connects to the rectifier in a hermetically sealed housing. 5. The mechanical circulatory support system of claim 3 , wherein the AC electrical power is multiphase. 6. The mechanical circulatory support system of claim 5 , wherein the driveline comprises a plurality of power transmission wires and at least one communication wire. 7. The mechanical circulatory support system of claim 6 , wherein the plurality of power transmission wires and the at least one communication wire include redundancies to allow continued powering of the implantable blood pump when at least one of the plurality of power transmission wires fails. 8. The mechanical circulatory support system of claim 7 , wherein the switches of the transmission module are controlled to change the AC electrical power from multiphase to single phase when the at least one of the plurality of power transmission wires fails. 9. The mechanical circulatory support system of claim 6 , wherein the driveline comprises two power transmission wires, a communication wire, and a redundant wire. 10. The mechanical circulatory support system of claim 6 , wherein the driveline comprises two power transmission wires and two communication wires. 11. The mechanical circulatory support system of claim 6 , wherein the driveline comprises two power transmission wires and a redundant wire configurable as a communication wire and as a power transmission wire. 12. The mechanical circulatory support system of claim 6 , wherein the plurality of power transmission wires and the at least one communication wire include redundancies to allow continued powering of the implantable blood pump when at least one of the at least one communication wire fails.