Add to ORKGA wireless passive sensing approach is proposed to measure the resonant frequency of a dielectrically-loaded cavity resonator. This resonator is made of SiCN ceramic material which is very stable inside harsh environments with temperatures up to 1500C. The resonator is coupled to CPW lines with one antenna placed at each end of the CPW lines. A wide-band signal is transmitted through two antenna pairs and passes the resonator with the maximum transfer of energy at the resonant frequency of the resonator, i.e. 12.6 GHz. This allows for measuring the resonant frequency of the resonator in a wireless manner. Measurement results are provided for distances up to 40 mm with good agreement with simulations. The proposed methodology is aimed for te...
A novel method is presented in this paper to precisely characterize the dielectric properties of sil...
A novel method is presented in this paper to precisely characterize the dielectric properties of sil...
The high temperature resistant polymer derived ceramic (PDC-SiBCN) was used as a temperature sensiti...
A wireless passive sensing approach is proposed to measure the resonant frequency of a dielectricall...
Wireless passive temperature sensors for harsh-environment applications based on cylindrical microwa...
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity resonator load...
This paper presents a passive wireless polymer-derived silicon carbonitride (SiCN) ceramic sensor ba...
This thesis explores design challenges and promising solutions for temperature sensors for high temp...
This paper presents a method of wirelessly sensing the resonant frequency of passive resonators usin...
A wireless pressure sensor for high-temperature applications is demonstrated based on a microwave ev...
A wireless pressure sensor for high-temperature applications is demonstrated based on a microwave ev...
A novel technique is presented in this paper to precisely characterize silicon carbonitride (SiCN) c...
This paper presents a design for temperature and pressure wireless sensors made of polymer-derived c...
In this paper, we report the design and fabrication of a new temperature sensor by coupling a coplan...
The temperature sensor presented in this paper is based on a microwave dielectric resonator, which u...
A novel method is presented in this paper to precisely characterize the dielectric properties of sil...
A novel method is presented in this paper to precisely characterize the dielectric properties of sil...
The high temperature resistant polymer derived ceramic (PDC-SiBCN) was used as a temperature sensiti...
A wireless passive sensing approach is proposed to measure the resonant frequency of a dielectricall...
Wireless passive temperature sensors for harsh-environment applications based on cylindrical microwa...
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity resonator load...
This paper presents a passive wireless polymer-derived silicon carbonitride (SiCN) ceramic sensor ba...
This thesis explores design challenges and promising solutions for temperature sensors for high temp...
This paper presents a method of wirelessly sensing the resonant frequency of passive resonators usin...
A wireless pressure sensor for high-temperature applications is demonstrated based on a microwave ev...
A wireless pressure sensor for high-temperature applications is demonstrated based on a microwave ev...
A novel technique is presented in this paper to precisely characterize silicon carbonitride (SiCN) c...
This paper presents a design for temperature and pressure wireless sensors made of polymer-derived c...
In this paper, we report the design and fabrication of a new temperature sensor by coupling a coplan...
The temperature sensor presented in this paper is based on a microwave dielectric resonator, which u...
A novel method is presented in this paper to precisely characterize the dielectric properties of sil...
A novel method is presented in this paper to precisely characterize the dielectric properties of sil...
The high temperature resistant polymer derived ceramic (PDC-SiBCN) was used as a temperature sensiti...