Electrocardiography triggered piston pump

I claim: 1. A biocompatible positive displacement pump that triggers with the beating of a mammalian heart comprising: (a) a frame system; (b) a pump unit, comprising: (i) a pump head system; (ii) a pump casing component; and (iii) a drive train system, comprising a motor drive power supply; (c) an electronics system, comprising: (i) an electronics power supply; (ii) a microcontroller, comprising an operating code, which comprises: (1) an electrocardiogram (ECG) trigger subsystem; (2) a position encoder processing subsystem; (3) an operating controls subsystem; (4) an overwrite and error control subsystem; (5) a readback processing subsystem; and (6) programming to operate the pump; (iii) an interface board; (iv) a sensor shield; (v) an ECG signal condition board; (vi) a motion controller; (vii) at least one limit switch; (viii) an actuator; (ix) a quadrature encoder; and (x) at least one user control; wherein the microcontroller is connected to the interface board, the sensor shield, the ECG signal conditioning board, and the motion controller; wherein the interface board provides as least one output signal from the microcontroller to at least one Bayonet Neill-Concelman (BNC) connector; wherein the sensor shield is connected to the at least one user control, the at least one limit switch, and the quadrature encoder; wherein the ECG signal conditioning shield connects to an ECG wiring harness; and wherein the pump is operated using the at least one user control; wherein the frame system provides a mounting point for the pump head and electronics system; and wherein the electronics system is operatively connected to the pump unit. 2. A biocompatible positive displacement pump that triggers with the beating of a mammalian heart comprising: (a) a frame system; (b) a pump unit, comprising: (i) a pump head system; (ii) a pump casing component; and (iii) a drive train system, comprising a motor drive power supply; (c) an electronics system, comprising: (i) an electronics power supply; (ii) a microcontroller, comprising an operating code, which comprises programming to operate the pump and an operating control subsystem, wherein the operating controls subsystem comprises: (1) an action to motor; (2) an operating states table; and (3) a subsystem governs actuation motion; (iii) an interface board; (iv) a sensor shield; (v) an electrocardiogram (ECG) signal condition board; (vi) a motion controller; (vii) at least one limit switch; (viii) an actuator; (ix) a quadrature encoder; and (x) at least one user control; wherein the microcontroller is connected to the interface board, the sensor shield, the ECG signal conditioning board, and the motion controller; wherein the interface board provides as least one output signal from the microcontroller to at least one Bayonet Neill-Concelman (BNC) connector; wherein the sensor shield is connected to the at least one user control, the at least one limit switch, and the quadrature encoder; wherein the ECG signal conditioning shield connects to an ECG wiring harness; and wherein the pump is operated using the at least one user control; wherein the frame system provides a mounting point for the pump head and electronics system; and wherein the electronics system is operatively connected to the pump unit. 3. A biocompatible positive displacement pump that triggers with the beating of a mammalian heart comprising: (a) a frame system; (b) a pump unit, comprising: (i) a pump head system; (ii) a pump casing component; and (iii) a drive train system, comprising a motor drive power supply; (c) an electronics system, comprising: (i) an electronics power supply; (ii) a microcontroller, comprising an operating code comprising programming to operate the pump, and wherein the operating code is configured to match the pump head system's geometry; (iii) an interface board; (iv) a sensor shield; (v) an electrocardiogram (ECG) signal condition board; (vi) a motion controller; (vii) at least one limit switch; (viii) an actuator; (ix) a quadrature encoder; and (x) at least one user control; wherein the microcontroller is connected to the interface board, the sensor shield, the ECG signal conditioning board, and the motion controller; wherein the interface board provides as least one output signal from the microcontroller to at least one Bayonet Neill-Concelman (BNC) connector; wherein the sensor shield is connected to the at least one user control, the at least one limit switch, and the quadrature encoder; wherein the ECG signal conditioning shield connects to an ECG wiring harness; and wherein the pump is operated using the at least one user control; wherein the frame system provides a mounting point for the pump head and electronics system; and wherein the electronics system is operatively connected to the pump unit. 4. A biocompatible positive displacement pump that triggers with the beating of a mammalian heart comprising: (a) a frame system; (b) a pump unit, comprising: (i) a pump head system; (ii) a pump casing component; and (iii) a drive train system, comprising a motor drive power supply; (c) an electronics system, comprising: (i) an electronics power supply; (ii) a microcontroller, comprising an operating code comprising programming to operate the pump, comprising: (1) an electrocardiogram (ECG) trigger subsystem; (2) a position encoder processing subsystem; (3) an operating controls subsystem, comprising: a. an action to motor; b. an operating states table, comprising:  1. a prime state;  2. a pause/idle state;  3. a pump on trigger state; and  4. a pump without trigger state; (iii)c. a subsystem governs actuation motion; (4) an overwrite and error control subsystem; and (5) a readback processing subsystem (iii) an interface board; (iv) a sensor shield; (v) an ECG signal condition board; (vi) a motion controller; (vii) at least one limit switch; (viii) an actuator; (ix) a quadrature encoder; and (x) at least one user control; wherein the microcontroller is connected to the interface board, the sensor shield, the ECG signal conditioning board, and the motion controller; wherein the interface board provides as least one output signal from the microcontroller to at least one Bayonet Neill-Concelman (BNC) connector; wherein the sensor shield is connected to the at least one user control, the at least one limit switch, and the quadrature encoder; wherein the ECG signal conditioning shield connects to an ECG wiring harness; and wherein the pump is operated using the at least one user control; wherein the frame system provides a mounting point for the pump head and electronics system; and wherein the electronics system is operatively connected to the pump unit.