Modular flying lead cable and methods for use with heart pump controllers

What is claimed is: 1. A blood circulation assist system, comprising: an implantable blood pump; an external controller via which power to operate the implantable blood pump is supplied to the implantable blood pump, the external controller including an external controller display viewable by a patient in which the implantable blood pump is implanted; a distal driveline assembly comprising a percutaneous cable connected to the implantable blood pump and a distal driveline proximal connector electrically coupled with the percutaneous cable, the percutaneous cable having a skin-interface segment adapted to extend through a skin of a patient, wherein the distal driveline assembly has a flexibility and an exterior length from the skin-interface segment to the distal driveline proximal connector that accommodates positioning of the distal driveline proximal connector, by the patient, between the external controller display and an eye of the patient, and wherein the exterior length of the distal driveline assembly is from 3.0 inches to 7.0 inches; and an external driveline assembly comprising an external driveline cable and an external driveline distal connector, the external driveline cable being connected to the external driveline distal connector and the external controller, the external driveline cable accommodating positioning of the external driveline distal connector, by the patient, for simultaneous viewing of the external driveline distal connector and the external controller display by the patient, wherein the external driveline distal connector is adapted to be connected to the distal driveline proximal connector by the patient, and wherein the external driveline distal connector is adapted to be disconnected from the distal driveline proximal connector by the patient, wherein the external controller and the external driveline assembly are adapted to detect whether the external driveline assembly is connected to the distal driveline assembly and display an indication on the external controller display indicative of whether the external driveline assembly is connected to the distal driveline assembly. 2. The blood circulation assist system of claim 1 , wherein the external driveline cable has a length and a flexibility to accommodate the positioning of the external driveline distal connector, by the patient, for simultaneous viewing of the external driveline distal connector and the external controller display by the patient. 3. The blood circulation assist system of claim 2 , wherein the length of the external driveline cable is from 5 inches to 9 inches. 4. The blood circulation assist system of claim 3 , wherein: the external controller comprises an external driveline connection port; the external driveline assembly comprises an external driveline proximal connector that is connects the external driveline cable to the external driveline connection port; and the external controller comprises an external driveline latching mechanism that prevents the patient from disconnecting the external driveline proximal connector from the external driveline connection port without use of a tool. 5. The blood circulation assist system of claim 1 , wherein: the external driveline assembly comprises a first connection lead and a second connection lead; the second connection lead is electrically connected to the first connection lead while the external driveline distal connector is connected to the distal driveline proximal connector; the second connection lead is electrically disconnected from the first connection lead while the external driveline distal connector is not connected to the distal driveline proximal connector; and the external controller detects whether the external driveline distal connector is connected to the distal driveline proximal connector by detecting whether the second connection lead is electrically connected to the first connection lead. 6. The blood circulation assist system of claim 1 , wherein the distal driveline assembly comprises: an intermediate driveline assembly that includes the distal driveline proximal connector, an intermediate driveline cable, and an intermediate driveline distal connector; the intermediate driveline cable connecting the distal driveline proximal connector to the intermediate driveline distal connector; and a percutaneous driveline assembly that includes a percutaneous driveline proximal connector and the percutaneous cable, the percutaneous driveline proximal connector being connectable to the intermediate driveline distal connector. 7. The blood circulation assist system of claim 6 , wherein the percutaneous driveline proximal connector and the intermediate driveline distal connector are adapted to be connected so that the patient cannot disconnect the intermediate driveline distal connector and the percutaneous driveline proximal connector without use of a tool. 8. The blood circulation assist system of claim 7 , further comprising an intermediate driveline latching mechanism that prevents disconnection of the percutaneous driveline proximal connector and the intermediate driveline distal connector without use of a specialized tool. 9. The blood circulation assist system of claim 1 , wherein: the external driveline distal connector and the distal driveline proximal connector are included in a patient-operable connection assembly; the patient-operable connection assembly comprises a latching mechanism having a retention configuration and a release configuration; the latching mechanism blocks decoupling of the external driveline distal connector from the distal driveline proximal connector in the retention configuration; the latching mechanism accommodates decoupling of the external driveline distal connector from the distal driveline proximal connector in the release configuration; and the latching mechanism is reconfigurable by the patient from the retention configuration to the release configuration. 10. The blood circulation assist system of claim 9 , wherein the latching mechanism is reconfigured from the retention configuration to the release configuration via relative rotation of the external driveline distal connector and the distal driveline proximal connector by the patient. 11. The blood circulation assist system of claim 9 , wherein the latching mechanism comprises a latching member that is operated by the patient to reconfigure the latching mechanism from the retention configuration to the release configuration. 12. A method of connecting an external controller to a blood pump implanted in a patient, the method comprising: connecting a distal end of a percutaneous driveline assembly to the blood pump, the percutaneous driveline assembly comprising a percutaneous driveline cable and a percutaneous driveline proximal connector, the percutaneous driveline cable extending between the blood pump and the percutaneous driveline proximal connector, the percutaneous driveline cable having a skin-interface segment that extends through a skin of the patient; connecting an intermediate driveline assembly to the percutaneous driveline assembly by connecting an intermediate driveline distal connector of the intermediate driveline assembly to the percutaneous driveline proximal connector, the intermediate driveline assembly comprising an intermediate driveline proximal connector and an intermediate driveline cable connecting the intermediate driveline distal connector and the intermediate driveline proximal connector; connecting an external controller assembly to the intermediate driveline assembly, the external controller assembly comprising an external driveline assembly and an external controller via which power i