Power management system
First Claim
Patent Images
1. A power supply for a patient care system, comprising:
- an off-line switcher having an external power input and an internal power output;
a first temperature sensor outputting a first signal representative of a first sensed temperature adjacent the off-line switcher;
a voltage sensor outputting a second signal VS representative of a sensed output voltage of the off-line switcher;
a current sensor outputting a third signal IS representative of a sensed output current of the off-line switcher;
a battery;
a battery charger communicating with the off-line switcher and the battery to charge the battery at a charge rate;
a memory storing a power management procedure; and
processor means communicating with said sensors for varying the charge rate to the battery in accordance with the power management procedure in response to said first, second and third signals.
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Abstract
In a power supply of a patient care system, a power management system monitors the temperature of an off-line switcher and adjusts the amount of current supplied by the off-line switcher to operate the off-line switcher within a range of temperature and power limits.
224 Citations
32 Claims
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1. A power supply for a patient care system, comprising:
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an off-line switcher having an external power input and an internal power output;
a first temperature sensor outputting a first signal representative of a first sensed temperature adjacent the off-line switcher;
a voltage sensor outputting a second signal VS representative of a sensed output voltage of the off-line switcher;
a current sensor outputting a third signal IS representative of a sensed output current of the off-line switcher;
a battery;
a battery charger communicating with the off-line switcher and the battery to charge the battery at a charge rate;
a memory storing a power management procedure; and
processor means communicating with said sensors for varying the charge rate to the battery in accordance with the power management procedure in response to said first, second and third signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
determining an internal power load PS by multiplying the second signal VS by the third signal IS; and
determining a power rating PTEMP based on the first sensed temperature, wherein the processor means varies the charge rate in response to said determined internal power load PS and said determined power rating PTEMP.
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3. The power supply of claim 1 wherein the power supply processor supplies a charge rate signal indicating the charge rate of the battery, and further comprising:
a charge rate circuit, responsive to the charge rate signal, coupled to the battery charger, to set the charge rate of the battery, wherein the processor means varies the charge rate using the charge rate signal.
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4. The power supply of claim 3 wherein the charge rate circuit includes a voltage divider.
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5. The power supply of claim 3 wherein the charge rate signal indicates whether the battery is to be charged at a high charge rate or a low charge rate, and the charge rate circuit sets the charge rate of the battery to the high charge rate or to the low charge rate.
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6. The power supply of claim 1 further comprising:
a battery temperature sensor thermally coupled to the battery and outputting a fourth signal representative of a sensed battery temperature, wherein the power supply processor adjusts the charge rate of the battery in response to the fourth signal.
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7. The power supply of claim 1 further comprising:
a system DC power source, electrically connected to the off-line switcher, electrically connected to the battery, the system DC power source outputting a set of voltages.
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8. The power supply of claim 1 wherein the current sensor includes:
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a sense resistor connected in series with the off-line switcher, and a high side current sense amplifier connected across the sense resistor, the high side current sense amplifier outputting the third signal as an analog signal; and
an analog-to-digital converter that converts the third signal from an analog to a digital third signal for input to the power supply processor.
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9. The power supply of claim 1 wherein the battery charger receives the first signal and outputs a digital first signal to the power supply processor.
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10. The power supply of claim 1 wherein the power management procedure is periodically executed at predetermined intervals.
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11. The power supply of claim 1 wherein the processor means comprises:
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saving the second signal and the third signal at a high charge rate as VH and IH, respectively, causing the battery charger to reduce the charge rate to a low charge rate, and while in the low charge rate the processor means;
determines a sensed output voltage VLand the sensed output current IL, determines the power rating PTEMP based on the first signal, and causes the battery charger to change to the high charge rate when the power rating PTEMP exceeds (((VS−
VL+VH)*(IS−
IL+IH))+PHYS), where PHYS is a predetermined hysteresis value.
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12. The power supply of claim 1 wherein the first temperature sensor is positioned at a predetermined distance from the off-line switcher, and first signal representative of the first sensed temperature includes a temperature offset value in accordance with the predetermined distance.
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13. The power supply of claim 12 wherein the temperature offset value is determined in accordance with the charge rate of the battery.
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14. A patient care system comprising:
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at least one functional unit; and
an interface unit adapted to be coupled to and communicate with the at least one functional unit, the advanced interface unit including;
an off-line switcher having an external power input and an internal power output;
a first temperature sensor outputting a first signal representative of a first sensed temperature;
a voltage sensor outputting a second signal VS representative of a sensed output voltage of the off-line switcher;
a current sensor outputting a third signal IS representative of a sensed output current of the off-line switcher;
a battery to supply a battery voltage;
a battery charger electrically coupled to the off-line switcher and to the battery charging said battery at a charge rate;
system DC power means, electrically connected to the off-line switcher and electrically connected to the battery to alternately receive system DC power therefrom, the system DC power means generating a set of voltages, at least one voltage of said set of voltages being supplied to the at least one functional unit;
a memory storing a power management procedure; and
processor means communicating with said sensors for varying the charge rate of the battery in accordance with the power management procedure in response to the first, second and third signals. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22)
determining an internal power load by multiplying the second signal by the third signal; and
determining a power rating based on the first signal, wherein the processor means varies the charge rate in response to said determined internal power load and power rating.
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16. The patient care system of claim 14 wherein the processor means supplies a charge rate signal, and further comprising:
a charge rate circuit, responsive to the charge rate signal, coupled to the battery charger to set the charge rate of the battery, wherein the processor means varies the charge rate using the charge rate signal.
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17. The patient care system of claim 16 wherein the charge rate circuit includes a voltage divider.
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18. The patient care system of claim 16 wherein the charge rate signal indicates whether the battery is to be charged at a high charge rate or a low charge rate, and the charge rate circuit sets the charge rate of the battery to the high charge rate or to the low charge rate.
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19. The patient care system of claim 14 further comprising:
a battery temperature sensor thermally coupled to the battery and outputting a fourth signal representative of a sensed battery temperature, wherein the processor means adjusts the charge rate of the battery in response to the fourth signal.
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20. The patient care system of claim 14 where in the charge rate is initially a high charge rate, and the processor means comprises:
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saving the second signal VS and the third signal IS at the high charge rate as VH and IH, respectively;
causing the battery charger to reduce the charge rate to a low charge rate, and while in the low charge rate the processor means;
determines the sensed output voltage VL and the sensed output current IL, determines the power rating PTEMP based on the first sensed temperature, and causes the battery charger to change to the high charge rate when the power rating PTEMP exceeds (((VS−
VL+VH)*(IS −
IL+IH))+PHYS), where PHYS is a predetermined hysteresis value.
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21. The patient care system of claim 14 wherein the first temperature sensor is positioned at a predetermined distance from the off-line switcher, and first signal representative of the first sensed temperature includes a temperature offset value in accordance with the predetermined distance.
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22. The patient care system of claim 21 wherein the temperature offset value is determined in accordance with the charge rate of the battery.
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23. A method of managing power in a patient care system comprising:
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charging a battery at a first charge rate;
measuring a first temperature of an internal power source;
measuring a supplied voltage VH and a supplied current IH from the internal power source;
determining a supplied power supplied by the internal power source at the first charge rate;
determining a maximum allowable power PTEMP for the first temperature; and
varying the charge rate of the battery when the supplied power exceeds the maximum allowable power PTEMP. - View Dependent Claims (24, 25, 26, 27)
wherein said varying varies the charge rate in response to said determined internal power load PS and power rating PTEMP.
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25. The method of claim 23 wherein the first charge rate is a high charge rate, and further comprising:
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measuring and storing a supplied voltage VL and a supplied current IL from the internal power source at the low charge rate;
measuring a operational supplied voltage VS and a operational supplied current IS from the internal power source;
measuring a second temperature of the internal power source; and
determining the maximum allowable power PTEMP for the second temperature, wherein said varying varies the charge rate by charging at the high charge rate when the maximum allowable power, PTEMP, exceeds ((VS−
VL+VH)*(IS−
IL +IH))+PHYS, where PHYS is a predetermined power hysteresis value.
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26. The method of claim 23 wherein the first temperature sensor is positioned at a predetermined distance from the off-line switcher, and further comprising:
adjusting the first temperature in accordance with the predetermined distance.
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27. The method of claim 26 further comprising:
adjusting the first temperature in accordance with the charge rate of the battery.
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28. A computer program product for managing power in a patient care system, the computer program product for use in conjunction with a computer system, the computer program product comprising a computer readable storage medium and a computer program mechanism embedded therein, the computer program mechanism comprising:
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a power manager that;
causes a battery to charge at a first charge rate, measures a first temperature of an internal power source, determines a supplied power supplied by the internal power source at the first charge rate, determines a maximum allowable power for the first temperature, and varies the charge rate of the battery when the supplied power exceeds the maximum allowable power; and
instructions that periodically invoke the power manager. - View Dependent Claims (29, 30, 31, 32)
a battery temperature manager that monitors a battery temperature of a battery and causes the charge rate of the battery to be adjusted based on the battery temperature.
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30. The computer program product of claim 28, wherein the first charge rate is a high charge rate, and the power manager further includes instructions that:
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measure and store a supplied voltage VL and a supplied current IL from the internal power source at a low charge rate;
measure an operational supplied voltage VS and an operational supplied current IS from the internal power source;
measure a second temperature of the internal power source; and
determine the maximum allowable power PTEMP for the second temperature;
wherein the charge rate is varied when the maximum allowable power PTEMP exceeds ((VS−
VL+VH)*(IS−
IL+IH))+PHYS, where PHYS is a predetermined power hysteresis value.
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31. The computer program product of claim 28 wherein the first temperature sensor is positioned at a predetermined distance from the off-line switcher, and the power manager further includes instructions that:
adjust the first temperature in accordance with the predetermined distance.
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32. The computer program product of claim 31 wherein the power manager further includes instructions that adjust the first temperature in accordance with a charge rate of the battery.
Specification