Add to ORKGIn this paper we present a new slot antenna with an embedded temperature sensor for remote sensing in harsh environment applications. When the antenna is illuminated with a plane wave it returns a signal. The returned signal\u27s frequency is modulated by the loaded capacitance formed by an array of MEMS bimorph (metal-dielectric) cantilevers. The MEMS cantilevers deflect downwards when the temperature is changed from 20C to 300C. As a result, the resonant frequency of the slot is linearly tuned from 19.45 to 19.30 GHz. The design yields a totally passive and integrated antenna/sensor. The MEMS fabrication is inherently robust, do...
The temperature sensor presented in this paper is based on a microwave dielectric resonator, which u...
A novel wireless passive temperature sensor based on a reflective patch is demonstrated up to 1050 d...
We demonstrate compact analytical multi-physics models that accurately predict the deformed shape of...
This paper presents the design, fabrication and characterization of a wireless capacitive pressure s...
A novel wireless temperature sensor is presented herein for high-temperature applications. This sens...
This paper presents the design and fabrication of a new packaged MEMS capacitive temperature sensor ...
A contactless sensor represents an attractive solution for high-temperature measurements in harsh en...
For the first time, a lateral-extensional piezoelectric MEMS resonator is utilized to enable wireles...
Wireless passive temperature sensors have been receiving increasing attention due to the ever-growin...
A high-temperature sensor based on a metamaterial unit cell is proposed in this paper. The wireless ...
A novel wireless passive temperature sensor based on a reflective patch is demonstrated up to 1050 °...
Wireless passive temperature sensors have been receiving increasing attention due to the ever-growin...
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity resonator load...
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity resonator load...
The temperature sensor presented in this paper is based on a microwave dielectric resonator, which u...
The temperature sensor presented in this paper is based on a microwave dielectric resonator, which u...
A novel wireless passive temperature sensor based on a reflective patch is demonstrated up to 1050 d...
We demonstrate compact analytical multi-physics models that accurately predict the deformed shape of...
This paper presents the design, fabrication and characterization of a wireless capacitive pressure s...
A novel wireless temperature sensor is presented herein for high-temperature applications. This sens...
This paper presents the design and fabrication of a new packaged MEMS capacitive temperature sensor ...
A contactless sensor represents an attractive solution for high-temperature measurements in harsh en...
For the first time, a lateral-extensional piezoelectric MEMS resonator is utilized to enable wireles...
Wireless passive temperature sensors have been receiving increasing attention due to the ever-growin...
A high-temperature sensor based on a metamaterial unit cell is proposed in this paper. The wireless ...
A novel wireless passive temperature sensor based on a reflective patch is demonstrated up to 1050 °...
Wireless passive temperature sensors have been receiving increasing attention due to the ever-growin...
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity resonator load...
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity resonator load...
The temperature sensor presented in this paper is based on a microwave dielectric resonator, which u...
The temperature sensor presented in this paper is based on a microwave dielectric resonator, which u...
A novel wireless passive temperature sensor based on a reflective patch is demonstrated up to 1050 d...
We demonstrate compact analytical multi-physics models that accurately predict the deformed shape of...