This paper presents, for the first time, an instrumentation technique for passively extracting a resonance frequency of a high-Q resonator across a wireless ultrasonic channel. As a first application, passive wireless measurement of temperature is presented along with a proof of concept of the wireless and passive operation of the device. Temperature resolution of 0.17 °C and a measurement range of 350 mm has been demonstrated
A wireless passive sensing approach is proposed to measure the resonant frequency of a dielectricall...
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity resonator load...
Ultrasonic condition monitoring technologies have been traditionally utilized in industrial and cons...
This paper presents, for the first time, an instrumentation technique for passively extracting a res...
This paper presents a method of wirelessly sensing the resonant frequency of passive resonators usin...
This paper is devoted to the feasibility study of a wireless sensing system, mainly based on passive...
For the first time, a lateral-extensional piezoelectric MEMS resonator is utilized to enable wireles...
This paper presents the method of wireless passive temperature measurement by using the battery-free...
A novel wireless temperature sensor is presented herein for high-temperature applications. This sens...
International audienceDielectric resonators, generally used for frequency filtering in oscillator lo...
International audienceSurface acoustic waves have been studied for more than 50 years and are mainly...
International audienceTwo oscillators are needed for passive wireless sensor readers: a radiofrequen...
Abstract—Surface acoustic wave devices can be used as wireless sensor elements (SAW transponders) fo...
A wireless passive pressure measurement system for an 800 °C high-temperature environment is propose...
High temperature sensors capable of operating in harsh environments are needed in order to prevent d...
A wireless passive sensing approach is proposed to measure the resonant frequency of a dielectricall...
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity resonator load...
Ultrasonic condition monitoring technologies have been traditionally utilized in industrial and cons...
This paper presents, for the first time, an instrumentation technique for passively extracting a res...
This paper presents a method of wirelessly sensing the resonant frequency of passive resonators usin...
This paper is devoted to the feasibility study of a wireless sensing system, mainly based on passive...
For the first time, a lateral-extensional piezoelectric MEMS resonator is utilized to enable wireles...
This paper presents the method of wireless passive temperature measurement by using the battery-free...
A novel wireless temperature sensor is presented herein for high-temperature applications. This sens...
International audienceDielectric resonators, generally used for frequency filtering in oscillator lo...
International audienceSurface acoustic waves have been studied for more than 50 years and are mainly...
International audienceTwo oscillators are needed for passive wireless sensor readers: a radiofrequen...
Abstract—Surface acoustic wave devices can be used as wireless sensor elements (SAW transponders) fo...
A wireless passive pressure measurement system for an 800 °C high-temperature environment is propose...
High temperature sensors capable of operating in harsh environments are needed in order to prevent d...
A wireless passive sensing approach is proposed to measure the resonant frequency of a dielectricall...
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity resonator load...
Ultrasonic condition monitoring technologies have been traditionally utilized in industrial and cons...
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