Measuring strain in a structure using a sensor having an electromagnetic resonator
First Claim
1. A system for measuring strain experienced by a structure, said system comprising:
- a) a sensor including;
i) a body having an electromagnetic cavity, said electromagnetic cavity adapted to produce a response signal in response to an interrogation signal, the interrogation signal wirelessly received by the sensor, said body being coupled to said structure to allow said strain to alter the resonance properties of said electromagnetic cavity thereby altering said response signal; and
,ii) a coupler coupled to said body, said coupler adapted to transfer said interrogation signal into said electromagnetic cavity and transfer said response signal out of said electromagnetic cavity; and
,b) an interrogator being adapted to generate and wirelessly transmit said interrogation signal to said sensor, said interrogator being further adapted to wirelessly receive said response signal, the interrogator having an antenna for transmitting said interrogation signal and receiving said response signal, and a signal generator coupled to said antenna, said signal generator being adapted to generate said interrogation signal.
3 Assignments
0 Petitions
Accused Products
Abstract
The system (10) comprises a sensor (18) 90×90×90×30 mm as an electromagnetic microwave cavity (20) with a coupler (22) with a wire (40) and an antenna (42). Cavity (20) produces a response signal (26) in response to an interrogation signal (24) from interrogator (16). Sensor (18) is coupled to a structure (14) to allow a strain to alter the resonance properties. 3.6 GHz is used with a detection of a 2.5 kHz change. If not temperature via strain is detected a mechanical amplifier is used with cavity (20) for temperature compensation. Continuous or intermittent narrowband signals are used as interrogation signals (24). Used with bridges for structural health monitoring. Also for aircrafts, dams, buildings, vehicles.
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Citations
31 Claims
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1. A system for measuring strain experienced by a structure, said system comprising:
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a) a sensor including; i) a body having an electromagnetic cavity, said electromagnetic cavity adapted to produce a response signal in response to an interrogation signal, the interrogation signal wirelessly received by the sensor, said body being coupled to said structure to allow said strain to alter the resonance properties of said electromagnetic cavity thereby altering said response signal; and
,ii) a coupler coupled to said body, said coupler adapted to transfer said interrogation signal into said electromagnetic cavity and transfer said response signal out of said electromagnetic cavity; and
,b) an interrogator being adapted to generate and wirelessly transmit said interrogation signal to said sensor, said interrogator being further adapted to wirelessly receive said response signal, the interrogator having an antenna for transmitting said interrogation signal and receiving said response signal, and a signal generator coupled to said antenna, said signal generator being adapted to generate said interrogation signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A sensor for measuring strain experienced by a structure, said sensor comprising:
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a) a body having an electromagnetic cavity for producing a response signal in response to an interrogation signal, the interrogation signal wirelessly received by the sensor, said body being coupled to said structure to allow said strain to alter the resonance properties of said electromagnetic cavity thereby altering said response signal, the electromagnetic cavity contains a dielectric; and b) a coupler coupled to said sensor, said coupler adapted to transfer said interrogation signal into said electromagnetic cavity and transfer said response signal out of said electromagnetic cavity so that the response signal can be wirelessly received by an interrogator. - View Dependent Claims (17, 18, 19, 20)
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21. A method for measuring strain experienced by a structure, said method comprising:
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a) coupling a sensor to the structure, the sensor having an electromagnetic cavity; b) transferring through a coupler an interrogation signal into said electromagnetic cavity to evoke a response signal, the interrogation signal wirelessly received by the sensor, the interrogation signal provided as a continuous narrowband signal and the center frequency of said narrowband signal is swept in a sweep range that includes a resonant frequency of said electromagnetic cavity; and
,c) transferring through the same or a different coupler said response signal out of said electromagnetic cavity, so that the response signal can be wirelessly received by an interrogator. - View Dependent Claims (22, 23, 24)
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25. A sensor for measuring strain experienced by a structure, said sensor comprising:
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a) a body having an electromagnetic cavity for producing a response signal in response to an interrogation signal, the interrogation signal wirelessly received by the sensor, said body being coupled to said structure to allow said strain to alter the resonance properties of said electromagnetic cavity thereby altering said response signal; b) a coupler coupled to said sensor, said coupler adapted to transfer said interrogation signal into said electromagnetic cavity and transfer said response signal out of said electromagnetic cavity so that the response signal can be wirelessly received by an interrogator; and c) a mechanical amplifier coupled to said electromagnetic cavity, said mechanical amplifier being adapted to amplify the magnitude of said strain on said electromagnetic cavity, the mechanical amplifier comprises a first member having a first region with a first length and a second member having a second region with a second length, said second region being coupled to said first region, said first region is exposed to said strain and said second region is coupled to said electromagnetic cavity, and the magnitude of said strain experienced by said electromagnetic cavity is amplified by a factor equal to the ratio of said second length to said first length.
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26. A method for measuring strain experienced by a structure, said method comprising:
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a) coupling a sensor to the structure, the sensor having an electromagnetic cavity; b) transferring through a coupler an interrogation signal into said electromagnetic cavity to evoke a response signal, the interrogation signal wirelessly received by the sensor, the response signal is provided as a continuous broadband signal having a frequency content that includes a resonant frequency of said electromagnetic cavity; and c) transferring through the same or a different coupler said response signal out of said electromagnetic cavity, so that the response signal can be wirelessly received by an interrogator. - View Dependent Claims (29)
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27. A method for measuring strain experienced by a structure, said method comprising:
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a) coupling a sensor to the structure, the sensor having an electromagnetic cavity; b) transferring through a coupler an interrogation signal into said electromagnetic cavity to evoke a response signal, the interrogation signal wirelessly received by the sensor, the interrogation signal is modulated to provide an intermittent narrowband signal, and the frequency of said intermittent narrowband signal is swept in a sweep range that includes a resonant frequency of said electromagnetic cavity; and c) transferring through the same or a different coupler said response signal out of said electromagnetic cavity, so that the response signal can be wirelessly received by an interrogator. - View Dependent Claims (30)
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28. A method for measuring strain experienced by a structure, said method comprising:
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a) coupling a sensor to the structure, the sensor having an electromagnetic cavity; b) transferring through a coupler an interrogation signal into said electromagnetic cavity to evoke a response signal, the interrogation signal wirelessly received by the sensor, the interrogation signal is modulated to provide an intermittent broadband signal having a frequency content that includes a resonant frequency of said electromagnetic cavity; and c) transferring through the same or a different coupler said response signal out of said electromagnetic cavity, so that the response signal can be wirelessly received by an interrogator. - View Dependent Claims (31)
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Specification