Passive and wireless in-vivo acoustic wave flow sensor
First Claim
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1. A fluid flow sensing system, comprising:
- a piezoelectric substrate;
a surface acoustic wave flow sensor for monitoring a flow of fluid through a cylindrically-shaped compartment formed from a plurality of walls, said surface acoustic wave flow sensor comprising at least one upstream surface acoustic wave sensing device and at least one downstream surface acoustic wave sensing device, said surface acoustic wave flow sensor comprising at least one interdigital transducer and a self-heating heater formed upon said piezoelectric substrate wherein said self-heating heater is disposed between said at least one upstream surface acoustic wave sensing device and said at least one downstream surface acoustic wave sensing device, said interdigital transducer comprising an electrode material that is selected to convert negligible electrical coupling to surface waves thereof;
a first antenna connected to said self-heating heater to receive RF energy wherein said self-heating heater absorbs said RF energy and converts said RF energy to heat; and
a second antenna integrated with said at least one interdigital transducer, wherein said second antenna receives at least one signal, which excites said at least one interdigital transducer to produce a frequency output associated with said flow of said fluid for analysis thereof.
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Abstract
A wireless surface wave flow sensor can be utilized for monitoring the flow of fluid. Such a surface wave flow sensor can be configured to include one or more interdigital transducers and a self-heating heater formed upon a piezoelectric substrate. The interdigital transducer(s) can be selected to convert electrical signals to surface waves thereof. An antenna can also be connected to the surface wave device, wherein the antenna can receive one or more signals, which excites the acoustic device to produce a frequency output associated with the flow of the fluid for analysis thereof.
31 Citations
20 Claims
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1. A fluid flow sensing system, comprising:
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a piezoelectric substrate; a surface acoustic wave flow sensor for monitoring a flow of fluid through a cylindrically-shaped compartment formed from a plurality of walls, said surface acoustic wave flow sensor comprising at least one upstream surface acoustic wave sensing device and at least one downstream surface acoustic wave sensing device, said surface acoustic wave flow sensor comprising at least one interdigital transducer and a self-heating heater formed upon said piezoelectric substrate wherein said self-heating heater is disposed between said at least one upstream surface acoustic wave sensing device and said at least one downstream surface acoustic wave sensing device, said interdigital transducer comprising an electrode material that is selected to convert negligible electrical coupling to surface waves thereof; a first antenna connected to said self-heating heater to receive RF energy wherein said self-heating heater absorbs said RF energy and converts said RF energy to heat; and a second antenna integrated with said at least one interdigital transducer, wherein said second antenna receives at least one signal, which excites said at least one interdigital transducer to produce a frequency output associated with said flow of said fluid for analysis thereof. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A fluid flow sensing system, comprising:
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a piezoelectric substrate; a surface acoustic wave flow sensor for monitoring a flow of fluid for monitoring a flow of fluid through a cylindrically-shaped compartment formed from a plurality of walls including an inside wall thereof, wherein said surface acoustic wave flow sensor comprises at least one interdigital transducer and a self-heating heater formed upon said piezoelectric substrate wherein said self-heating heater is disposed between said at least one upstream surface acoustic wave sensing device and said at least one downstream surface acoustic wave sensing device, wherein said at least one interdigital transducer comprises an electrode material that is selected to convert negligible electrical coupling to surface waves thereof, said at least one interdigital transducer constituting at least one upstream surface acoustic wave device and at least one downstream surface acoustic wave device, wherein said at least one upstream surface acoustic wave device, said at least one downstream surface acoustic wave device and said self-heating heater are located on said inside wall of said structure; a first antenna connected to said self-heating heater to receive RF energy wherein said self-heating heater absorbs said RF energy and converts said RF energy to heat; a second antenna integrated with said at least one interdigital transducer, wherein said second antenna receives at least one signal, which excites said at least one interdigital transducer to produce a frequency output associated with said flow of said fluid for analysis thereof, wherein said fluid comprises blood and wherein said surface acoustic wave flow sensor and said second antenna are implantable within a human body for monitoring said blood; and a transmitter and receiver unit for transmitting said at least one signal to said second antenna for exciting said at least one interdigital transducer to produce said at least one frequency output associated with said flow of said fluid for analysis thereof, wherein said transmitter and receiver unit is located outside of said human body. - View Dependent Claims (8, 9, 10, 11)
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12. A fluid flow sensing method, comprising the steps of:
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providing a piezoelectric substrate; configuring upon said piezoelectric substrate, a surface acoustic wave flow sensor for monitoring a flow of fluid; configuring said surface wave flow sensor to comprise at least one interdigital transducer and a biocompatible acoustic coating formed upon said piezoelectric substrate, said at least one interdigital transducer comprising at least one upstream surface acoustic wave sensing device and at least one downstream surface acoustic wave sensing device, wherein said at least one interdigital transducer comprises an electrode material that is selected to convert negligible electrical coupling to surface waves thereof and a self-heating heater formed upon said piezoelectric substrate wherein said self-heating heater is disposed between said at least one upstream surface acoustic wave sensing device and said at least one downstream surface acoustic wave sensing device; connecting a first antenna to said self-heating heater to receive RF energy wherein said self-heating heater absorbs said RF energy and converts said RF energy to heat; and integrating a second antenna to surface acoustic wave device, wherein said second antenna receives at least one signal, which excites said at least one interdigital transducer to produce a frequency output associated with said flow of said fluid for analysis thereof. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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Specification