Wireless flow sensor using present flow rate data
First Claim
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1. A system comprising:
- a fluid container;
a fluid line connected to the fluid container;
a fluid dispenser physically coupled to the fluid container and configured to cause the fluid container to dispense fluid through the fluid line;
a sensor circuit positioned inside the fluid line, the sensor circuit having an antenna configured to receive and harvest RF power, a fluid flow rate sensor, an electronic controller and a memory, the fluid flow rate sensor, electronic controller and memory being powered solely by the RF power harvested by the antenna from a power source, the sensor circuit configured to physically contact the fluid, to measure a present flow rate of the fluid, and to transmit the measured present flow rate as present flow rate data as an RF signal back to the source of the RF power that collects the flow data received by RF power and performs a control function of the fluid dispenser based on the RF received flow rate data;
a control circuit electrically coupled to the fluid dispenser and communicationally coupled to the sensor circuit, the control circuit being the power source of the RF power to the sensor circuit and configured to power the sensor circuit by a transmission of RF radiated power to the sensor circuit to permit the sensor circuit to perform the sensing of the fluid flow rate, to transmit data to the sensor circuit, and to receive the present flow rate data from the sensor circuit by an RF signal, to determine a flow rate command based at least in part on the present flow rate data, and to transmit the flow rate command to the fluid dispenser, the fluid dispenser further configured to adjust a flow rate of fluid being dispensed from the fluid container based on the flow rate command; and
wherein the system is configured to operate in a repeatable feedback series loop that includes (i) a transmission of the RF radiated power from the control circuit to the sensor circuit;
followed by (ii) a transmission of the present flow rate data from the sensor circuit as an RF signal back to the control circuit;
followed by (iii) a transmission of the flow rate command based at least in part on the present flow rate data from the control circuit to the fluid dispenser;
followed by (iv) the output of an adjusted fluid flow rate of fluid being dispensed from the fluid container as caused by the fluid dispenser under control of the flow rate command from the control circuit, followed by the feedback series loop returning to step (i) and repeating steps (i)-(iv) at least two more times.
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Abstract
A flow rate sensor is provided in a wireless, leadless package. The flow rate sensor includes a MEMs sensor coupled to an ASIC and an antenna. The flow rate sensor is powered by radiation received from a control module adjacent the flow rate sensor. The flow rate sensor is placed within a fluid and monitors the flow rate of the fluid. The control module is not in the fluid and receives flow rate data from the flow rate sensor.
44 Citations
18 Claims
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1. A system comprising:
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a fluid container; a fluid line connected to the fluid container; a fluid dispenser physically coupled to the fluid container and configured to cause the fluid container to dispense fluid through the fluid line; a sensor circuit positioned inside the fluid line, the sensor circuit having an antenna configured to receive and harvest RF power, a fluid flow rate sensor, an electronic controller and a memory, the fluid flow rate sensor, electronic controller and memory being powered solely by the RF power harvested by the antenna from a power source, the sensor circuit configured to physically contact the fluid, to measure a present flow rate of the fluid, and to transmit the measured present flow rate as present flow rate data as an RF signal back to the source of the RF power that collects the flow data received by RF power and performs a control function of the fluid dispenser based on the RF received flow rate data; a control circuit electrically coupled to the fluid dispenser and communicationally coupled to the sensor circuit, the control circuit being the power source of the RF power to the sensor circuit and configured to power the sensor circuit by a transmission of RF radiated power to the sensor circuit to permit the sensor circuit to perform the sensing of the fluid flow rate, to transmit data to the sensor circuit, and to receive the present flow rate data from the sensor circuit by an RF signal, to determine a flow rate command based at least in part on the present flow rate data, and to transmit the flow rate command to the fluid dispenser, the fluid dispenser further configured to adjust a flow rate of fluid being dispensed from the fluid container based on the flow rate command; and wherein the system is configured to operate in a repeatable feedback series loop that includes (i) a transmission of the RF radiated power from the control circuit to the sensor circuit;
followed by (ii) a transmission of the present flow rate data from the sensor circuit as an RF signal back to the control circuit;
followed by (iii) a transmission of the flow rate command based at least in part on the present flow rate data from the control circuit to the fluid dispenser;
followed by (iv) the output of an adjusted fluid flow rate of fluid being dispensed from the fluid container as caused by the fluid dispenser under control of the flow rate command from the control circuit, followed by the feedback series loop returning to step (i) and repeating steps (i)-(iv) at least two more times. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method comprising:
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(i) dispensing, by a fluid container, fluid through a fluid line connected to the fluid container, the dispensing being caused by a dispensing mechanism physically coupled to the fluid container; (ii) powering, by the transmission of an RF power signal at a frequency sufficiently low to provide useful electrical power from a control circuit, a sensor circuit positioned inside the fluid line to perform a sensing of the fluid flow rate, the sensor circuit having an antenna configured to receive and harvest RF power, a fluid flow rate sensor, an electronic controller and a memory, the fluid flow rate sensor, electronic controller and memory being powered solely by the RF power harvested by the antenna, the sensor circuit being configured to physically contact the fluid, the control circuit being electrically coupled to the dispensing mechanism and communicationally coupled to the sensor circuit by an RF signal; (iii) measuring, by the sensor circuit, a present flow rate of the fluid being dispensed; (iv) transmitting, by the sensor circuit, the measured present flow rate to the control circuit by an RF signal; (v) determining, by the control circuit, a flow rate command based at least in part on the measured present flow rate; (vi) transmitting, by the control circuit, the flow rate command to the dispensing mechanism; (vii) adjusting, by the dispensing mechanism, a flow rate of the fluid being dispensed based on the flow rate command; and (viii) returning to step (i) and repeating each of the steps (i)-(vii) at least two more times as part of a feedback series loop. - View Dependent Claims (11, 12, 13)
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14. A system comprising:
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a fluid container configured to store fluid; a fluid line connected to the fluid container; a dispensing mechanism physically coupled to the fluid container and configured to cause the fluid container to dispense the fluid through the fluid line; a sensor circuit positioned inside the fluid line, the sensor circuit having an antenna configured to receive and harvest RF power, a fluid parameter sensor, an electronic controller and a memory, the fluid parameter sensor, electronic controller and memory being powered solely by the RF power harvested by the antenna from a power source, the sensor circuit configured to physically contact the fluid, to measure a fluid parameter of the fluid, and to transmit the measured fluid parameter and fluid identification data as an RF signal back to the source of the RF power that collects the fluid parameter and fluid identification data received by RF power and performs a control function of the fluid dispenser based on the received fluid parameter and fluid identification data, the fluid identification identifying the fluid; and a control circuit electrically coupled to the fluid dispenser and communicationally coupled to the sensor circuit, the control circuit being the power source of the RF power to the sensor circuit and configured to power the sensor circuit by a transmission of RF radiated power to the sensor circuit to permit the sensor circuit to perform the sensing of the fluid flow rate, to transmit data to the sensor circuit, and to receive the measured fluid parameter and the fluid identification by an RF signal, to transmit a disable command to the dispensing mechanism when the fluid identification does not match a predetermined identification, and to transmit a flow rate command to the dispensing mechanism when the fluid identification matches the predetermined identification and the measured fluid parameter is different from a predetermined value; and wherein the system is configured to operate in a repeatable feedback series loop that includes (i) a transmission of the RF radiated power from the control circuit to the sensor circuit;
followed by (ii) a transmission of the fluid parameter data from the sensor circuit as an RF signal back to the control circuit;
followed by (iii) a transmission of the flow rate command based at least in part on the present fluid parameter data from the control circuit to the fluid dispenser;
followed by (iv) the output of an adjusted fluid flow rate of fluid being dispensed from the fluid container as caused by the fluid dispenser under control of the flow rate command from the control circuit, followed by the feedback series loop returning to step (i) and repeating steps (i)-(iv) at least two more times. - View Dependent Claims (15, 16)
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17. A system comprising:
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a fluid container; a fluid line connected to the fluid container; a fluid dispenser physically coupled to the fluid container and configured to cause the fluid container to dispense fluid through the fluid line; a sensor circuit positioned inside the fluid line, the sensor circuit having an antenna configured to receive and harvest RF power, a fluid parameter sensor, an electronic controller and a memory, the fluid parameter sensor, electronic controller and memory being powered solely by the RF power harvested by the antenna from a power source, the sensor circuit configured to physically contact the fluid, to measure a fluid parameter of the fluid, and to transmit the measured fluid parameter data as an RF signal back to the source of the RF power that collects the fluid parameter data received by RF power and performs a control function of the fluid dispenser based on the RF received fluid parameter data; a control circuit electrically coupled to the fluid dispenser and communicationally coupled to the sensor circuit, the control circuit being the power source of the RF power to the sensor circuit and configured to power the sensor circuit by a transmission of RF radiated power to the sensor circuit to permit the sensor circuit to perform the sensing of the fluid parameter, to transmit data to the sensor circuit, and to receive the present fluid parameter data from the sensor circuit by an RF signal, to determine a flow rate command based at least in part on the present fluid parameter data, and to transmit the flow rate command to the fluid dispenser, the fluid dispenser further configured to adjust a flow rate of fluid being dispensed from the fluid container based on the flow rate command; and wherein the system is configured to operate in a repeatable feedback series loop that includes (i) a transmission of the RF radiated power from the control circuit to the sensor circuit;
followed by (ii) a transmission of the present fluid parameter data from the sensor circuit as an RF signal back to the control circuit;
followed by (iii) a transmission of the flow rate command based at least in part on the present fluid parameter data from the control circuit to the fluid dispenser;
followed by (iv) the output of an adjusted fluid flow rate of fluid being dispensed from the fluid container as caused by the fluid dispenser under control of the flow rate command from the control circuit, followed by the feedback series loop returning to step (i) and repeating steps (i)-(iv) at least two more times. - View Dependent Claims (18)
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Specification
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Current AssigneeSTMicroelectronics Incorporated (STMicroelectronics NV)
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Original AssigneeSTMicroelectronics Incorporated (STMicroelectronics NV)
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InventorsTrombly, Nicholas, Furlan, Patrick
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Primary Examiner(s)GILBERT, ANDREW M
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Application NumberUS13/553,541Publication NumberTime in Patent Office1,636 DaysField of Search604/890.1, 604 30- 31, 604 65- 67, 604/131, 604/151, 604/189, 604/246US Class Current1/1CPC Class CodesA61M 2205/0244 Micromachined materials, e....A61M 2205/0294 Piezoelectric materialsA61M 2205/3317 Electromagnetic, inductive ...A61M 2205/332 Force measuring meansA61M 2205/3334 Measuring or controlling th...A61M 2205/3355 Controlling downstream pump...A61M 2205/3368 TemperatureA61M 2205/3372 Temperature compensationA61M 2205/3569 sublocal, e.g. between cons...A61M 2205/3592 using telemetric means, e.g...A61M 2205/50 with microprocessors or com...A61M 2205/6009 for matching patient with h...A61M 2205/8243 by inductionA61M 5/14244 adapted to be carried by th...A61M 5/1456 with a replaceable reservoi...A61M 5/16854 by monitoring line pressureA61M 5/16877 Adjusting flow; Devices for...A61M 5/172 electrical or electronic A6...A61M 5/3134 characterised by constructi...
