A Miniaturized Differential Microwave Microfluidic Sensor With High Decoupling

A Miniaturized Differential Microwave Microfluidic Sensor With High Decoupling

This letter presents a miniaturized differential microfluidic sensor by longitudinally integrating two substrate integrated waveguide (SIW) re-entrant cavity resonators (RECRs) for characterization of dielectric liquid materials. The mutual coupling between these two RECRs is prevented by the stacke...

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Veröffentlicht in:IEEE microwave and wireless components letters 2021-07, Vol.31 (7), p.909-912
Hauptverfasser: Fu, Linglong, Huang, Jie, Xiang, Yuhan, Chen, Yukang, Gu, Wenwen, Wu, Yongfeng
Format: Artikel
Sprache:eng
Schlagworte:
Cavity resonators
Complex permittivity
Decoupling
dielectric characterization of liquids
Frequency shift
Liquids
Microfluidics
microwave differential sensors
Microwave theory and techniques
Mutual coupling
Permittivity
Permittivity measurement
Prediction models
Q factors
Reentrant cavity resonators
Sensors
substrate integrated waveguide (SIW) re-entrant resonators
Substrate integrated waveguides
Substrates
Temperature measurement
Temperature sensors
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Zusammenfassung:This letter presents a miniaturized differential microfluidic sensor by longitudinally integrating two substrate integrated waveguide (SIW) re-entrant cavity resonators (RECRs) for characterization of dielectric liquid materials. The mutual coupling between these two RECRs is prevented by the stacked metal wall between them. The feedline implemented by a microstrip-to-stripline-to-SIW transformer in the stacked metal wall is proposed to excite these two RECRs simultaneously. The dependence of complex permittivity of calibrated samples on the resonance frequency shift and quality factor of the sensor is used to build a predictive model of complex permittivity of liquid. The ability of this sensor to accurately measure liquid complex permittivity is verified by practical measurements.
ISSN:1531-1309
2771-957X
1558-1764
2771-9588
DOI:10.1109/LMWC.2021.3075454