Coupled Structures for Microwave Sensing, 2024 Lecture Notes in Electrical Engineering Series, Vol. 1150
Coordonnateurs : Martín Ferran, Bronchalo Enrique
This book offers a comprehensive and timely review of planar microwave sensors based on coupled structures. Gathering chapters contributed by the most authoritative researchers on this topic, it presents various strategies for sensor performance optimization using coupled lines, directional couplers, and coupled resonators (either distributed or semi-lumped), focusing mainly on sensitivity optimization, and covering chains of coupled resonators as well. The book also reports on analytical methods, design formulas, sensor validation tests, with both simulation and experimental methods, describing some relevant practical applications. Mainly reflecting the research activity carried out by the different contributors in the last years, this book also includes two introductory chapters to help readers who are not very familiar with microwave sensing technologies and coupled structures. All in all, this book addresses advanced graduate students and researchers involved in microwave and sensor technologies, and may be of interest for engineers and professionals as well, working in areas as diverse as wireless sensors and sensor networks, biosensing, chemical sensing, motion control, microfluidics, Internet of Things (IoT), and smart systems.
1. Planar Microwave Sensors. - 2. Coupled Planar Microwave Resonators and Transmission-Line Structures. - 3. Permittivity Sensors Based on Coupled Line Sections. - 4. Coupled-Line Directional Coupler Permittivity Sensors. - 5. Reflective-Mode Permittivity Sensors Based on Distributed and Semi-Lumped Coupled Resonators, etc.
Date de parution : 04-2024
Ouvrage de 466 p.
15.5x23.5 cm
Thème de Coupled Structures for Microwave Sensing :
Mots-clés :
Planar Microwave Sensors; Coupled Resonators; Coupled Transmission Lines; Sensitivity Optimization of Microwave Sensors; Electromagnetic Induced Transparency; Permittivity Sensors; Reflective Mode Sensors; Transmission Mode Sensors; Coupled ring Resonators; Magnetoinductive Waves; Coupled Line Directional Couplers; Dielectric Characterization; Microfluidic Sensing