WIRELESS STRAIN SENSING DEVICE
First Claim
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1. A wireless strain sensing device comprising:
- a stress member; and
a plurality of wireless resonating strain sensors disposed at different areas on the stress member,wherein each of the wireless resonating stain sensors comprises a strain sensing circuit that functions as a strain gauge and a resonator and composed of;
a first dielectric layer composed of dielectric material disposed over the stress member; and
a first conductive layer disposed over the first dielectric layer, andwherein each of the wireless resonating strain sensors is configured to have a resonant frequency that is spectrally separated from each other to enable each of the resonant frequencies of the wireless resonating strain sensors to be distinguishable from each other even when the strain applied to the stress member causes shifting of the resonance frequency thereof.
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Abstract
A wireless strain sensing device uses a plurality of wireless sensors to obtain individual local strain data on the spot (area) where the wireless sensor is disposed on a stress member using a specific frequency response that is scanned externally. The resonance frequency shifts accordance with the locally applied strain on the specific point of the stress member. The change in the resonance frequency in response to the local strain can then be allocated within a limited spectral range for each of the wireless sensors. This permits a plurality of wireless sensors, each having a different initial resonance frequency, to be read concurrently and distinguished.
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Citations
9 Claims
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1. A wireless strain sensing device comprising:
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a stress member; and a plurality of wireless resonating strain sensors disposed at different areas on the stress member, wherein each of the wireless resonating stain sensors comprises a strain sensing circuit that functions as a strain gauge and a resonator and composed of; a first dielectric layer composed of dielectric material disposed over the stress member; and a first conductive layer disposed over the first dielectric layer, and wherein each of the wireless resonating strain sensors is configured to have a resonant frequency that is spectrally separated from each other to enable each of the resonant frequencies of the wireless resonating strain sensors to be distinguishable from each other even when the strain applied to the stress member causes shifting of the resonance frequency thereof. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification