Solenoid pinch valve apparatus and method for medical fluid applications having reduced noise production

The invention claimed is: 1. A medical fluid delivery machine comprising: a solenoid valve; and a controller configured to perform a power actuation sequence in which power to the solenoid valve undergoes a plurality of cycles that switch from an actuation power level to a hold power level, wherein the actuation power level is increased at each subsequent cycle, and wherein the actuation power level of at least one of the plurality of cycles is sufficient to fully actuate the solenoid valve. 2. The medical fluid delivery machine of claim 1 , wherein the medical fluid delivery machine is configured to perform at least one of dialysis, hemofiltration, hemodiafiltration, or peritoneal dialysis, and wherein the solenoid valve is operable with a tube carrying blood or a treatment fluid. 3. The medical fluid delivery machine of claim 1 , wherein the plurality of cycles includes a predetermined number of cycles. 4. The medical fluid delivery machine of claim 1 , wherein the actuation power level of each of the cycles after the cycle that fully actuates the solenoid valve is greater than needed to fully actuate the solenoid valve, the subsequent cycles non-noise producing because the solenoid valve has already been fully actuated. 5. The medical fluid delivery machine of claim 1 , wherein the solenoid valve includes a valve plunger, the valve plunger at each of the cycles prior to the cycle that fully actuates the solenoid valve returning to a valve closed position. 6. The medical fluid delivery machine of claim 5 , wherein the solenoid valve is positioned adjacent to a tube, the tube cushioning the valve plunger each time the plunger returns to the valve closed position. 7. The medical fluid delivery machine of claim 5 , wherein the valve plunger becomes fully actuated at a velocity close to zero. 8. The medical fluid delivery machine of claim 1 , wherein the hold power level is the same for each cycle. 9. The medical fluid delivery machine of claim 1 , wherein at least one of: (i) the actuation power level of the first cycle of the plurality of cycles is insufficient to fully actuate the solenoid valve under a best case scenario of actuation factors, or (ii) the actuation power level of the last cycle of the plurality of cycles is sufficient to fully actuate the solenoid valve under a worst case scenario of actuation factors. 10. The medical fluid delivery machine of claim 9 , wherein the actuation factors include at least one of temperature, tubing vibration, solenoid valve to solenoid valve variation, power supply fluctuation or solenoid valve wear. 11. The medical fluid delivery machine of claim 1 , wherein the controller includes a microprocessor in communication with a solenoid driver. 12. The medical fluid delivery machine of claim 1 , wherein switching from the actuation power level to the hold power level includes switching from an actuation power pulse width to a hold power pulse width, wherein the actuation power pulse width is increased at each subsequent cycle, and wherein the actuation power pulse width of the at least one of the plurality of cycles is sufficient to fully actuate the solenoid valve. 13. The medical fluid delivery machine of claim 12 , wherein an amplitude of at least one of: (i) the actuation power pulse width or (ii) the hold power pulse width is constant. 14. The medical fluid delivery machine of claim 1 , wherein switching from the actuation power level to the hold power level includes switching from an actuation power pulse magnitude to a hold power pulse magnitude, wherein the actuation power pulse magnitude is increased at each subsequent cycle, and wherein the actuation power pulse magnitude of the at least one of the plurality of cycles is sufficient to fully actuate the solenoid valve. 15. The medical fluid delivery machine of claim 1 , wherein the controller is configured to perform the power actuation sequence by pulsing power to the solenoid valve a plurality of times from a first power level that is selected so as not to fully actuate the solenoid valve, increasing each time towards a second power level that is selected so as to ensure full actuation of the solenoid valve, wherein each pulse of power includes a reduction to a power level below the first power level. 16. The medical fluid delivery machine of claim 1 , wherein the solenoid valve includes a plunger opposed by a biasing device, and wherein the controller is configured to perform the power actuation sequence by (i) actuating the plunger against the biasing device a plurality of times at increasing levels of acceleration and (ii) reducing the level of acceleration between the increasing levels of acceleration until one of the levels of acceleration is sufficient to push the plunger against the biasing device to a fully actuated position. 17. The medical fluid delivery machine of claim 16 , wherein the controller is configured to increase the level of plunger acceleration from a first level that is selected so as to not fully actuate the plunger to a second level that is selected so as to fully actuate the plunger, the level of acceleration sufficient to push the plunger to the fully actuated position occurring between the first and second acceleration levels. 18. The medical fluid delivery machine of claim 15 , wherein the first and second power levels are selected such that full actuation will occur at a power level between the first and second power levels. 19. The medical fluid delivery machine of claim 15 , wherein each pulse of power after full activation includes a reduction to a hold power level that maintains the solenoid valve in a fully actuated state. 20. The medical fluid delivery machine of claim 17 , wherein the biasing device, at each acceleration level prior to the level of acceleration sufficient to push the plunger to the fully actuated position, pushes the plunger back to an initial position. 21. The medical fluid delivery machine of claim 1 , further comprising: a sensor positioned and arranged to detect that the solenoid valve is in a fully actuated position, wherein the controller is configured to stop the power actuation sequence and apply the hold power level when the sensor detects that the solenoid valve is in the fully actuated position. 22. A method for medical fluid delivery comprising: providing power to a solenoid valve over a plurality of cycles, including (i) providing power at an actuation power level, (ii) switching from the actuation power level to a hold power level, (iii) repeating (i) and (ii) and increasing, in each subsequent cycle, the actuation power level, and (iv) fully actuating the solenoid valve when the actuation power level of at least one of the plurality of cycles is sufficient to fully actuate the solenoid valve; and delivering medical fluid when the solenoid valve is fully actuated. 23. The method of claim 22 , which includes determining, after at least one cycle of the plurality of cycles, whether the solenoid valve has fully actuated. 24. The method of claim 22 , which includes determining, after at least one cycle of the plurality of cycles, whether the actuation power level is at a maximum level. 25. The method of claim 24 , wherein, after the actuation power level reaches the maximum level, the power actuation sequence is completed without determining whether the solenoid valve has fully actuated.