Ali Maleki Gargari scite author profile

A novel passive wireless rotation sensing system with high levels of sensitivity and resolution is proposed and demonstrated for measuring elastic-region bending in materials such as steel. This system is composed of a transceiver antenna and a double-plate sensor in the form of an inter-digital configuration, which does not incorporate any active component. The sensor exhibits a large rotation resolution of 20 µ-rad, an excellent sensitivity of 28 MHz/°in average, and a large linear dynamic range of approximately 40°. In operation, as a result of the relative rotation between the plates of the sensor, the operating resonance frequency of the system is shifted. This is read out and tracked in the S 11 response of the transceiver antenna from which the rotation angle is determined. The prototype is designed for microwave regime and it is suitable for measuring very small angles (10 −4 ∼ 10 −5 rad). Critical figuresof-merit of the sensor including sensitivity, dynamic range, and resolution are assessed via systematic measurements, and the validity of resolution experiment is verified by employing digital image correlation method for 2-D measurements.

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Wireless High Sensitivity Low-Profile Permittivity Sensor Using Resonant Absorbing Surfaces

Gargari

Markley

2020

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Ali Maleki Gargari

Passive Matched Mushroom Structure for a High Sensitivity Low Profile Antenna-Based Material Detection System

A Wireless Metamaterial-Inspired Passive Rotation Sensor With Submilliradian Resolution

Wireless High Sensitivity Low-Profile Permittivity Sensor Using Resonant Absorbing Surfaces

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