Microfluidic channels with integrated ultrasonic transducers for temperature measurement and method
First Claim
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1. A sensor for sensing velocity of ultrasonic waves in fluids in microchannels formed in a microfluidic device comprising:
- a capacitive micromachined ultrasonic transducer integrated in one wall of the channel, a pulser for applying electrical pulses to said ultrasonic transducer to transmit ultrasonic waves which travel through the fluid in said channel and reflect from the opposite wall of said channel, said transducer adapted to receive ultrasonic waves reflected from the opposite wall and generate an output signal, an analog to digital converter connected to received said output signals and provide a representative digital output, and a processor configured to receive said digital output and determine the time of travel of ultrasonic waves through the fluid and to determine from the time of travel and the distance the ultrasonic waves travel through the fluid the velocity of the ultrasonic waves in the fluid.
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Abstract
There is described a method and apparatus for measuring temperature of a fluid in a microchannel of the type having spaced walls. An ultrasonic transducer transmits ultrasonic waves transmitted from one wall to the opposite wall. A processor determines the time-of-flight of the ultrasonic waves from the one wall and reflected to the opposite wall to the one wall. The processor converts the time-of-flight to velocity by dividing the distance between walls by the time-of-flight. The processor converts velocity to temperature from the relationship of velocity to temperature in the fluid.
64 Citations
4 Claims
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1. A sensor for sensing velocity of ultrasonic waves in fluids in microchannels formed in a microfluidic device comprising:
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a capacitive micromachined ultrasonic transducer integrated in one wall of the channel, a pulser for applying electrical pulses to said ultrasonic transducer to transmit ultrasonic waves which travel through the fluid in said channel and reflect from the opposite wall of said channel, said transducer adapted to receive ultrasonic waves reflected from the opposite wall and generate an output signal, an analog to digital converter connected to received said output signals and provide a representative digital output, and a processor configured to receive said digital output and determine the time of travel of ultrasonic waves through the fluid and to determine from the time of travel and the distance the ultrasonic waves travel through the fluid the velocity of the ultrasonic waves in the fluid. - View Dependent Claims (2)
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3. A sensor for sensing velocity of sound in fluids in microchannels formed in a microfluidic device comprising:
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a capacitive micromachined ultrasonic transducer integrated into one wall of said microchannel;
a pulser for applying electrical pulses to said ultrasonic transducer to transmit ultrasonic waves which travel through the fluid in said channel and reflect from the opposite wall of said channel, said transducer adapted to receive ultrasonic waves and generate an output signal; and
a processor circuit configured to receive the electrical pulses and the output signal and determine the velocity of the ultrasonic waves by measuring the phase difference between the transmitted ultrasonic waves and the received ultrasonic waves. - View Dependent Claims (4)
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Specification
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Current AssigneeBoard of Trustees of the Leland Stanford Junior University (Stanford Management Co.)
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Original AssigneeBoard of Trustees of the Leland Stanford Junior University (Stanford Management Co.)
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InventorsKhuri-Yakub, Butrus T., Yaralioglu, Goksen G., Jagannathan, Hemanth, Ergun, Arif S.
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Primary Examiner(s)CHAPMAN JR, JOHN E
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Application NumberUS10/198,290Publication NumberTime in Patent Office790 DaysField of Search735/97, 736/22, 374/119, 374/117US Class Current73/597CPC Class CodesG01H 5/00 Measuring propagation veloc...G01K 11/24 of the velocity of propagat...G01N 2291/02881 TemperatureG01N 29/024 by measuring propagation ve...G01N 29/223 Supports, positioning or al...G01N 29/326 compensating for temperatur...
