A Low-Profile Wireless Passive Temperature Sensor Using Resonator/Antenna Integration Up to 1000C
A novel wireless temperature sensor is presented herein for high-temperature applications.
This sensor is robust in harsh environments using stable materials and purely passive …
This sensor is robust in harsh environments using stable materials and purely passive …
Evanescent-mode-resonator-based and antenna-integrated wireless passive pressure sensors for harsh-environment applications
A wireless pressure sensor for high-temperature applications is demonstrated based on a
microwave evanescent-mode cavity resonator. Cavity deformation resulting from applied …
microwave evanescent-mode cavity resonator. Cavity deformation resulting from applied …
Wireless passive high-temperature sensor based on multifunctional reflective patch antenna up to 1050 degrees centigrade
A novel wireless passive temperature sensor based on a reflective patch is demonstrated up
to 1050° C herein. This reflective patch acts as a patch resonator (temperature sensor) and …
to 1050° C herein. This reflective patch acts as a patch resonator (temperature sensor) and …
Wireless passive temperature sensors using integrated cylindrical resonator/antenna for harsh-environment applications
Wireless passive temperature sensors for harsh-environment applications based on
cylindrical microwave cavity resonators are presented herein. Slot antennas are integrated …
cylindrical microwave cavity resonators are presented herein. Slot antennas are integrated …
All-ceramic LC resonator for chipless temperature sensing within high temperature systems
KSV Idhaiam, PD Pozo, K Sabolsky… - IEEE Sensors …, 2021 - ieeexplore.ieee.org
The primary focus of this work is to fabricate and evaluate electroceramic based LC
resonators for wireless sensing at high temperatures. An all-ceramic planar LC resonator …
resonators for wireless sensing at high temperatures. An all-ceramic planar LC resonator …
Temperature-dependent dielectric properties, thermally-stimulated relaxations and defect-property correlations of TiO2 ceramics for wireless passive temperature …
J Zhang, Z Yue, Y Zhou, B Peng, X Zhang… - Journal of the European …, 2016 - Elsevier
We prepared TiO 2 ceramics by conventional solid-state reaction process and systematically
characterized their temperature-dependent dielectric properties over wide ranges of …
characterized their temperature-dependent dielectric properties over wide ranges of …
All-ceramic passive wireless temperature sensor realized by tin-doped indium oxide (ITO) electrodes for harsh environment applications
KS Varadharajan Idhaiam, JA Caswell, PD Pozo… - Sensors, 2022 - mdpi.com
In this work, an all-ceramic passive wireless inductor–capacitor (LC) resonator was
presented for stable temperature sensing up to 1200° C in air. Instead of using conventional …
presented for stable temperature sensing up to 1200° C in air. Instead of using conventional …
Design and research of wireless passive high-temperature sensor based on SIW resonance
F Xu, S Su, L Zhang, T Ren - Micromachines, 2022 - mdpi.com
The temperature of advanced components in aviation and aerospace fields is difficult to
obtain timely. In this study, we aimed to investigate microwave backscattering technology …
obtain timely. In this study, we aimed to investigate microwave backscattering technology …
Characterization of SiCN ceramic material dielectric properties at high temperatures for harsh environment sensing applications
A novel method is presented in this paper to precisely characterize the dielectric properties
of silicon carbon nitride (SiCN) ceramic materials at high temperatures for wireless passive …
of silicon carbon nitride (SiCN) ceramic materials at high temperatures for wireless passive …
Wireless passive sensor development for harsh environment applications
Three researchers at University of Central Florida from electrical engineering, materials
science, and mechanical engineering teamed together to develop high-temperature (>; …
science, and mechanical engineering teamed together to develop high-temperature (>; …