Electronic control system and process for electromagnetic pump
First Claim
1. An electronic control system for use with an electromagnetic pump having a coil that can be energized to produce a pump stroke, the electronic control system comprising:
- a power source;
a capacitor connected to the power source for receiving a charge from the power source and connectable to the coil to selectively discharge power pulse signals to the pump coil for selectively energizing the pump coil;
control electronics for controlling the capacitor to discharge for each power pulse signal.
1 Assignment
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Accused Products
Abstract
An electronic control systems and process for infusion devices and pump configurations can provide highly efficient use of electrical power. The system may include a capacitor which is controlled to partially, but not fully discharge, to provide a power pulse to a pump coil. In this manner, the capacitor remains partially charged and need not be re-charged from a fully discharged state. In addition, the power applied to the coil in a given discharge pulse signal may be controlled to correspond to the power needs of the pump, by controlling the degree to which the capacitor is discharged to produce the pulse signal. A power cut-off switch may be provided to control the discharge of the capacitor such that the capacitor is stopped from discharging prior to the actual end of the armature stroke. The time at which the capacitor discharge is stopped may be selected such that energy remaining in the coil after the capacitor stops discharging is sufficient to continue the pump stroke to the actual end of the stroke. The time at which the capacitor discharge is cut off may be based on the location of the armature in its stroke motion. A power disconnect switch may be provided between the capacitor and the battery, to allow the capacitor to be electrically disconnected from the battery during storage or other periods of non-use, to avoid losing battery power due to the inherent leakage of the capacitor during prolonged periods of non-use.
254 Citations
58 Claims
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1. An electronic control system for use with an electromagnetic pump having a coil that can be energized to produce a pump stroke, the electronic control system comprising:
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a power source;
a capacitor connected to the power source for receiving a charge from the power source and connectable to the coil to selectively discharge power pulse signals to the pump coil for selectively energizing the pump coil;
control electronics for controlling the capacitor to discharge for each power pulse signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. An electronic control system for use with an electromagnetic pump having a coil that can be energized to produce a pump stroke, the electronic control system comprising:
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a power control circuit connectable to the pump coil for providing electrical power to the pump coil to selectively energize the pump coil; and
a detector for detecting the end of a pump stroke;
wherein the power control circuit includes an electronic circuit for cutting off electrical power to the pump coil prior to the detected end of the pump stroke. - View Dependent Claims (17, 18, 19, 20, 21, 22, 24)
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23. An electronic control system for use with an electromagnetic pump having a coil that can be energized to produce a pump stroke, the electronic control system comprising:
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a power control circuit connectable to the pump coil for providing electrical power pulse signals to the pump coil to selectively energize the pump coil, each power pulse signals having a definable amount of power; and
a pressure sensor for detecting a pressure differential in the pump;
wherein the power control circuit includes an electronic circuit for controlling the amount of power of each power pulse signal based on the detected pressure differential, and wherein the power control circuit comprises a power source and a capacitor connected to the power source for receiving a charge from the power source and connectable to the coil to selectively discharge power pulse signals to the pump coil. - View Dependent Claims (25, 26, 27, 28)
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29. An electronic control system for use with an electromagnetic pump having a coil that can be energized to produce a pump stroke, the electronic control system comprising:
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a power source;
a capacitor connected to the power source for receiving a charge from the power source and connectable to the coil to selectively discharge power pulse signals to the pump coil for selectively energizing the pump coil;
a switch device connected between the power source and the capacitor for selectively disconnecting the power source from the capacitor for periods of non-use. - View Dependent Claims (30, 31)
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32. A drive mechanism for delivery of infusion medium, the drive mechanism comprising:
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an inlet for receiving infusion medium;
a coil that can be energized to produce a pump stroke;
an armature disposed adjacent the coil, and moveable between first and second positions to define a pump stroke, in response to an energization of the coil;
an outlet in flow communication with the outlet chamber, for discharging a volume of infusion medium with each pump stroke; and
a power control circuit connected to the pump coil for selectively energizing the pump coil to produce stroke;
wherein the coil has an aspect ratio defined by the length of the coil divided by the diameter of the coil and wherein the coil aspect ratio is less than 1.
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33. A drive mechanism for delivery of infusion medium, the drive mechanism comprising:
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an inlet for receiving infusion medium;
a coil that can be energized to produce a pump stroke;
an armature disposed adjacent the coil, and moveable between first and second positions to define a pump stroke, in response to an energization of the coil;
an outlet in flow communication with an outlet chamber, for discharging a volume of infusion medium with each pump stroke; and
a power control circuit connected to the pump coil for selectively energizing the pump coil to produce a pump stroke;
wherein the drive mechanism further comprises a coil core for providing a flux path upon energization of the coil, wherein the coil core defines an outer annular pole surface and an inner annular pole surface and the armature defines corresponding outer and inner annular pole surfaces, wherein the inner pole surfaces are separated by a first gap and the outer pole surfaces are separated by a second gap, and wherein the ratio of the first gap to the second gap is within the range of about 0.3 to about 1.0.
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34. An infusion device comprising:
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an electromagnetic pump having a coil that can be energized to produce a pump stroke;
a power source;
a capacitor connected to the power source for receiving a charge from the power source and connectable to the coil to selectively discharge power pulse signals to the pump coil for selectively energizing the pump coil; and
control electronics for controlling the capacitor to discharge for each power pulse signal. - View Dependent Claims (35)
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36. An infusion device comprising:
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an electromagnetic pump having a coil that can be energized to produce a pump stroke;
a power control circuit connectable to the pump coil for providing electrical power to the pump coil to selectively energize the pump coil; and
a detector for detecting the end of a pump stroke;
wherein the power control circuit includes an electronic circuit for cutting off electrical power to the pump coil prior to the detected end of the pump stroke.
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37. An infusion device comprising:
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an electromagnetic pump having a coil that can be energized to produce a pump stroke;
a power source;
a capacitor connected to the power source and to the pump coil for receiving a charge from the power source and for selectively discharging power pulse signals to the pump coil to selectively energize the pump coil;
a switch device connected between the power source and the capacitor for selectively disconnecting the power source from the capacitor for periods of non-use;
a power control circuit connected to the pump coil for providing electrical power pulse signals to the pump coil to selectively energize the pump coil, each power pulse signal having a definable amount of power; and
a pressure sensor for detecting a pressure differential in the pump;
wherein the power control circuit includes an electronic circuit for controlling the amount of power of each power pulse signal based on the detected pressure differential.
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38. An infusion device comprising:
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an electromagnetic pump having a coil that can be energized to produce a pump stroke;
a power source;
a capacitor connected to the power source and to the pump coil for receiving a charge from the power source and for selectively discharging power pulse signals to the pump coil to selectively energize the pump coil; and
a switch device connected between the power source and the capacitor for selectively disconnecting the power source from the capacitor for periods of non-use.
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39. A method of controlling power to an electromagnetic pump having a coil that can be energized to produce a pump stroke, the method comprising:
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connecting a power source to a capacitor to charge the capacitor;
selectively discharging the capacitor to the pump coil to selectively energize the pump coil; and
controlling the capacitor to discharge for each power pulse signal. - View Dependent Claims (40, 41, 42, 43, 44, 45, 46, 47)
detecting the end of a pump stroke; and
cutting off the capacitor discharge prior to the detected end of the pump stroke.
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44. A method as recited in claim 43, wherein detecting the end of a pump stroke comprises detecting the back EMF in the coil.
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45. A method as recited in claim 39, further comprising:
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detecting a pressure differential in the pump; and
controlling the capacitor discharge based on the detected pressure differential.
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46. A method as recited in claim 45, wherein controlling the capacitor discharge based on the detected pressure differential comprises controlling the capacitor discharge to produce a power pulse for increasing power as the detected pressure differential increases and decreasing power as the detected pressure differential decreases.
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47. A method as recited in claim 39, wherein the capacitor is controlled to discharge partially, but not fully, for each power pulse signal.
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48. A method of controlling power to an electromagnetic pump having a coil that can be energized to produce a pump stroke, the method comprising:
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providing electrical power to the pump coil to selectively energize the pump coil;
detecting the end of a pump stroke; and
cutting off electrical power to the pump coil prior to the detected end of the pump stroke. - View Dependent Claims (49, 50, 51, 52, 53, 55, 56, 58)
connecting a power source to a capacitor to charge the capacitor; - and
selectively discharging the capacitor to provide a power pulse signal to the pump coil to selectively energize the pump coil.
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50. A method as recited in claim 49, wherein selectively discharging the capacitor comprises controlling the capacitor to discharge for each power pulse signal.
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51. A method as recited in claim 50, wherein the capacitor is controlled to discharge partially, but not fully, for each power pulse signal.
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52. A method as recited in claim 48, wherein detecting the end of a pump stroke comprises detecting the back EMF in the coil.
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53. A method as recited in claim 52, wherein detecting the end of a pump stroke further comprises comparing a detected EMF with an historical record of EMF detections.
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55. A method as recited in claim 49, wherein selectively discharging the capacitor comprises controlling the capacitor to increase its discharge period for each power pulse signal as the detected pressure differential increases and to decrease its discharge period for each pulse signal as the detected pressure differential decreases.
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56. A method as recited in claim 49, wherein selectively discharging the capacitor comprises controlling the capacitor to discharge for each power pulse signal.
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58. A method as recited in claim 49, wherein the capacitor is controlled to discharge partially, but not fully, for each power pulse signal.
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54. A method of controlling power to an electromagnetic pump having a coil that can be energized to produce a pump stroke, the method comprising:
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providing electrical power pulse signals to the pump coil to selectively energize the pump coil, each power pulse signal having a definable amount of power;
detecting a pressure differential in the pump; and
controlling the amount of power of each power pulse signal based on the detected pressure differential, wherein providing electrical power pulse signals comprises;
connecting a power source to a capacitor to charge the capacitor; and
selectively discharging the capacitor to provide a power pulse signal to the pump coil to selectively energize the pump coil. - View Dependent Claims (57)
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Specification