Stepper motor drive systems and tubing occluder system

What is claimed is: 1. A tube occluder system comprising: a tube clamp device configured to releasably receive a tube; a stepper motor having a first winding and a second winding, and arranged to adjust an amount of compression applied to the tube by the tube clamp device; and a drive system electrically coupled to the stepper motor and comprising: a first port configured to electrically connect to a first winding input of the first winding; a second port configured to electrically connect to a first winding output of the first winding; a third port configured to electrically connect to a second winding input of a second winding; a fourth port configured to electrically connect to a second winding output of the second winding; a first snubber circuit in electrical communication between the second port and the third port; and a second snubber circuit in electrical communication between the fourth port and the first port. 2. The tube occluder system of claim 1 , wherein the first snubber circuit comprises a resistor and a diode in series electrical connection with the resistor, and the diode is configured to pass current from the second port to the third port, and prevent current flow from the third port to the second port. 3. The tube occluder system of claim 2 , wherein the second snubber circuit comprises a resistor and a second diode in series electrical connection with the second resistor, and the second diode is configured to pass current from the fourth port to the first port, and prevent current flow from the first port to the fourth port. 4. The tube occluder system of claim 1 , further comprising a power bus, a first diode configured to pass current from the power bus to the first port, and a second diode configured to pass current from the power bus to the third port. 5. The tube occluder system of claim 1 , further comprising a low electrical potential power bus, a first switch configured to controllably connect the second port to the low electrical potential power bus, and a second switch configured to controllably connect the fourth port to the low electrical potential power bus, and at least one resistor configured to limit current flow from the second port to the low electrical potential power bus and to limit current flow from the third port to the low electrical potential power bus. 6. A method of recirculating energy in a stepper motor, the method comprising: providing power at a power bus to a first output and to a second output; flowing power through a first electrical load electrically connected to the first output; switching a first switch to block power flow out of the first electrical load to a low electrical potential bus; switching a second switch to permit power from the power bus to flow from the second output, through a second electrical load electrically connected to the second output, to the low electrical potential bus; directing, by a first snubber circuit, power flow out of the first electrical load to the second output; switching the second switch to block power flow out of the second electrical load to the low electrical potential bus; switching the first switch to permit power from the power bus to flow from the first output, though the first electrical load, to the low electrical potential bus; and directing, by a second snubber circuit, power flow out of the second electrical load to the first output. 7. The method of claim 6 , further comprising: preventing backflow of current from the first snubber circuit to the power bus; and preventing backflow of current from the second snubber circuit to the power bus. 8. The method of claim 6 , wherein the first snubber circuit comprises a resistor and a diode in series electrical connection with the resistor, wherein directing, by the first snubber circuit, power flow out of the first electrical load to the second output comprises: permitting, by the diode, power flow from the first electrical load at a first input to the second output; and preventing, by the diode, power flow from the second output to the first input. 9. The method of claim 8 , wherein the second snubber circuit comprises a second resistor and a second diode in series electrical connection with the second resistor, wherein directing, by the second snubber circuit, power flow out of the second electrical load to the first output comprises: permitting, by the second diode, power flow from the second electrical load at a second input to the first output; and preventing, by the second diode, power flow from the first output to the second input. 10. The method of claim 6 , wherein: the first electrical load comprises a first inductive electrical load; the second electrical load comprises a second inductive electrical load; switching the first switch to permit power from the power bus to flow from the first output, though the first electrical load, to the low electrical potential bus comprises energizing the first inductive electrical load; and switching the second switch to permit power from the power bus to flow from the second output, through a second electrical load electrically connected to the second output, to the low electrical potential bus comprises energizing the second inductive electrical load. 11. The method of claim 10 , wherein power flow out of the first electrical load to the first output at least partly comprises current flow caused by inductance of the first inductive load, and power flow out of the second electrical load to the second output at least partly comprises current flow caused by inductance of the second inductive load. 12. The method of claim 6 , wherein: the first electrical load comprises a first winding of a stepper motor; and the second electrical load comprises a second winding of the stepper motor. 13. The method of claim 12 , wherein: switching the first switch to permit power from the power bus to flow from the first output, though the first electrical load, to the low electrical potential bus comprises energizing the first winding; and switching the second switch to permit power from the power bus to flow from the second output, through a second electrical load electrically connected to the second output, to the low electrical potential bus comprises energizing the second winding. 14. The method of claim 13 , further comprising: controllably switching the first switch and the second switch to urge rotation of the stepper motor in a first direction; actuating, by the stepper motor, a tube clamp device configured to releasably receive a tube; and adjusting, based on the actuation, an amount of compression applied to the tube by the tube clamp device. 15. An electrical drive system comprising: a first port configured to electrically connect to a first load input of a first electrical load; a second port configured to electrically connect to a first load output of the first electrical load; a third port configured to electrically connect to a second load input of a second electrical load; a fourth port configured to electrically connect to a second load output of the second electrical load; a first snubber circuit in electrical communication between the second port and the third port; and a second snubber circuit in electrical communication between the fourth port and the first port. 16. The system of claim 15 , wherein: the first snubber circuit comprises a first resistor and a first diode in series electrical connection with the first resistor, and the first diode is configured to pass current from the second port to the third port, and prevent current fl