Monitoring of redundant conductors

What is claimed is: 1. A blood pump system comprising: a blood pump configured for implantation in a patient; an external power supply configured to supply an electrical current to the blood pump for operation of the blood pump; a percutaneous drive line including a first electrical conductor providing a first electrical current path between the external power supply and the blood pump and a second electrical conductor providing a second electrical current path between the external power supply and the blood pump, the second electrical current path being separated from and redundant to the first electrical current path over a redundant length of the percutaneous drive line such that, in the event of a discontinuity in one of the first and second current paths, the other of the first and second current paths will conduct an increased amount of the electrical current from the external power supply to the blood pump; and a monitor including a current measuring device and a processing device, the current measuring device configured to measure electrical current in the first conductor and the processing device configured to monitor the electrical current in the first conductor and produce an information signal based on a comparison between the electrical current measured in the first conductor and a reference electrical current magnitude, the information signal indicating whether a discontinuity or a short occurred for the second conductor based on the comparison between the measured electrical current in the first conductor and the reference electrical current magnitude and not based on a measured current in the second conductor. 2. The blood pump system of claim 1 , wherein: the processing device is further configured to determine whether a discontinuity or a short occurred for the first conductor based on the comparison between the measured electrical current in the first conductor and the reference electrical current magnitude; and the information signal is indicative of whether a discontinuity or a short occurred for the first conductor based on the comparison between the measured electrical current in the first conductor and the reference electrical current magnitude and not based on a measured current in the second conductor. 3. The blood pump system of claim 1 , wherein: the processing device is configured to assess a detected increase in the electrical current in the first conductor to detect a short in the first conductor; and the processing device is configured to assess the detected increase in the electrical current in the first conductor to detect a discontinuity in the second conductor. 4. The blood pump system of claim 1 , further comprising an additional monitor that monitors a reference conductor used to provide the reference electrical current magnitude to compare to the electrical current measured in the first conductor to determine if the electrical current measured in the first conductor has increased or decreased relative to the reference electrical current magnitude, wherein the reference conductor carries a reference electrical current having the reference current magnitude from the external power supply to the blood pump. 5. The blood pump system of claim 1 , wherein the percutaneous drive line further comprising additional conductors that provide additional redundant current paths that carry electrical current between the external power supply and the blood pump, the first, second, and additional conductors being redundant conductors such that, in use, the first, second, and additional conductors each carry a share of the electrical current flowing from the external power supply to the blood pump. 6. The blood pump system of claim 1 , wherein the first conductor and the second conductor are configured such that each carries substantially the same electrical current under normal operating conditions of the blood pump system. 7. The blood pump system of claim 1 , wherein the blood pump comprises a ventricular assist device. 8. The blood pump system of claim 1 , wherein the blood pump system further comprises a controller configured to receive information, from the monitor, about the measured electrical current in the first conductor. 9. The blood pump system of claim 8 , wherein the controller is configured to provide a signal to a user when a change occurs in the measured electrical current in the first conductor. 10. The blood pump system of claim 9 , wherein the controller is configured to provide information to a user about whether or not a discontinuity or a short occurred in the first conductor. 11. The blood pump system of claim 9 , wherein the controller is configured to provide information to a user about whether or not a discontinuity or a short occurred in the second conductor. 12. The blood pump system of claim 9 , wherein the controller comprises a feature for controlling pump speed. 13. The blood pump system of claim 9 , wherein the controller comprises a built-in rechargeable backup battery and a plurality of power or driveline connectors, wherein each connector of said plurality exits the system controller from the same side. 14. The blood pump system of claim 13 , wherein the built-in rechargeable backup battery is configured to provide power to the blood pump. 15. The blood pump system of claim 13 , wherein the built-in rechargeable backup battery is configured to control a power alarm. 16. The blood pump system of claim 9 , wherein the controller comprises a visible LED indicator, a built-in LCD display, and a securing device. 17. The blood pump system of claim 16 , wherein the visible LED indicator indicates the status of power or driveline connectors of the controller. 18. The blood pump system of claim 16 , wherein the built-in LCD display is configured to indicate a history of alarms or events. 19. The blood pump system of claim 16 , wherein the built-in LCD display is configured to indicate a status of the pump. 20. The blood pump system of claim 16 , wherein the built-in LCD display is configured to indicate modification of one or more pump parameters selected from a group consisting of pump speed, flow rate, power consumption, and pulsatility index. 21. The blood pump system of claim 16 , wherein the securing device is selected from a group consisting of a lanyard, a belt clip, and a combination thereof. 22. The blood pump system of claim 21 , wherein the belt clip is configured to be removable, articulating, or both. 23. The blood pump system of claim 1 further comprising a controller housing the monitor, the controller including a backup battery, three cable connectors on one side of the controller, and LED illuminated icons. 24. A method comprising: transferring an electrical current from an external power supply to an implantable blood pump via a percutaneous drive line including a first electrical conductor providing a first electrical current path between the external power supply and the implantable blood pump and a second electrical conductor providing a second electrical current path between the external power supply and the implantable blood pump, the second electrical current path being separated from and redundant to the first electrical current path over a redundant length of the percutaneous drive line such that, in the event of a discontinuity in one of the first and second current paths, the other of the first and second current paths will conduct an increased amount of the electr