Metal-Polymer Hybrid Embroidered Microwave Multiresonator for High-Frequency Sensing: Modelling, Simulation, and Experimental Analysis
Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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Metal-Polymer Hybrid Embroidered Microwave Multiresonator for High-Frequency Sensing : Modelling, Simulation, and Experimental Analysis . / Schimmack, Manuel; Taute, Wolfgang; Höft, Michael.
2018 48th European Microwave Conference, EuMC 2018. IEEE Xplore : IEEE - Institute of Electrical and Electronics Engineers Inc., 2018. p. 495-498 8541718 (2018 48th European Microwave Conference, EuMC 2018).Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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TY - CHAP
T1 - Metal-Polymer Hybrid Embroidered Microwave Multiresonator for High-Frequency Sensing
T2 - 48th European Microwave Conference - EuMC 2018
AU - Schimmack, Manuel
AU - Taute, Wolfgang
AU - Höft, Michael
N1 - Conference code: 48
PY - 2018/11/20
Y1 - 2018/11/20
N2 - This paper presents a novel metal-polymer hybrid embroidered microwave ring multiresonator, which is implemented in a respiratory filter for high-frequency particle sensing. Metal-polymer multifilament fibres are the fundamental core for wearable technology, including bio-sensing textiles for use in healthcare and for electromagnetic shielding, which can be used in various applications. HFSS (ANSYS) was used for modelling a two-wire transmission ring multiresonator and an FEM based simulation was performed to analyze different coupling methods. Following this, the design and manufacture of the embroidered sensor is described. After that, a scatter analysis was made of the measured parameters from 2–8 GHz and the quality factors. In a case study, beech dust particles were used to load the respiratory filter to characterize the performance of the implemented ring multiresonator.
AB - This paper presents a novel metal-polymer hybrid embroidered microwave ring multiresonator, which is implemented in a respiratory filter for high-frequency particle sensing. Metal-polymer multifilament fibres are the fundamental core for wearable technology, including bio-sensing textiles for use in healthcare and for electromagnetic shielding, which can be used in various applications. HFSS (ANSYS) was used for modelling a two-wire transmission ring multiresonator and an FEM based simulation was performed to analyze different coupling methods. Following this, the design and manufacture of the embroidered sensor is described. After that, a scatter analysis was made of the measured parameters from 2–8 GHz and the quality factors. In a case study, beech dust particles were used to load the respiratory filter to characterize the performance of the implemented ring multiresonator.
KW - Q-factor
KW - Ring multiresonator
KW - Sensing
KW - Engineering
UR - http://www.scopus.com/inward/record.url?scp=85059808787&partnerID=8YFLogxK
U2 - 10.23919/EuMC.2018.8541718
DO - 10.23919/EuMC.2018.8541718
M3 - Article in conference proceedings
SN - 978-1-5386-5285-5
T3 - 2018 48th European Microwave Conference, EuMC 2018
SP - 495
EP - 498
BT - 2018 48th European Microwave Conference, EuMC 2018
PB - IEEE - Institute of Electrical and Electronics Engineers Inc.
CY - IEEE Xplore
Y2 - 23 September 2018 through 27 September 2018
ER -