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Modelling, Simulation and Experimental Analysis of a Metal-Polymer Hybrid Fibre based Microstrip Resonator for High Frequency Characterisation

Publikation: Beiträge in ZeitschriftenKonferenzaufsätze in FachzeitschriftenForschungbegutachtet

Standard

Modelling, Simulation and Experimental Analysis of a Metal-Polymer Hybrid Fibre based Microstrip Resonator for High Frequency Characterisation. / Schimmack, Manuel; Taute, Wolfgang; Höft, Michael.
in: Procedia Engineering, Jahrgang 168, 2016, S. 975-978.

Publikation: Beiträge in ZeitschriftenKonferenzaufsätze in FachzeitschriftenForschungbegutachtet

Harvard

Schimmack, M, Taute, W & Höft, M 2016, 'Modelling, Simulation and Experimental Analysis of a Metal-Polymer Hybrid Fibre based Microstrip Resonator for High Frequency Characterisation', Procedia Engineering, Jg. 168, S. 975-978. https://doi.org/10.1016/j.proeng.2016.11.319

APA

Schimmack, M., Taute, W., & Höft, M. (2016). Modelling, Simulation and Experimental Analysis of a Metal-Polymer Hybrid Fibre based Microstrip Resonator for High Frequency Characterisation. Procedia Engineering, 168, 975-978. https://doi.org/10.1016/j.proeng.2016.11.319

Vancouver

Schimmack M, Taute W, Höft M. Modelling, Simulation and Experimental Analysis of a Metal-Polymer Hybrid Fibre based Microstrip Resonator for High Frequency Characterisation. Procedia Engineering. 2016;168:975-978. doi: 10.1016/j.proeng.2016.11.319

Bibtex

@article{7b65a19eb76c4395afc239f717ef2413,
title = "Modelling, Simulation and Experimental Analysis of a Metal-Polymer Hybrid Fibre based Microstrip Resonator for High Frequency Characterisation",
abstract = "Conductive multifilament fibres are the fundamental core for wearable technology in the biomedical engineering fields, as conductors in sensors or in bio-sensing textiles for healthcare. This contribution presents a model, simulation and the experimental analysis of a metal-polymer hybrid fibre based microstrip resonator for high frequency characterisation. The high frequency electromagnetic field simulation (HFSS) by ANSYS{\textregistered} is used for the modelling and finite element based simulation. It follows the design and manufacturing of the metal-polymer hybrid fibre based microstrip resonator for analysis of the scattering parameter measurements and the quality factors to 10 GHz with a vector network analyser (VNA) by Rohde & Schwarz{\textregistered}. Simulations and analysis also compare solid matter wire with the metal-polymer hybrid fibre.",
keywords = "Engineering, finite element simulation, metal-polymer hybrid fibre, microstrip resonator, quality factor, resonator losses",
author = "Manuel Schimmack and Wolfgang Taute and Michael H{\"o}ft",
note = "Publisher Copyright: {\textcopyright} 2016 The Authors.",
year = "2016",
doi = "10.1016/j.proeng.2016.11.319",
language = "English",
volume = "168",
pages = "975--978",
journal = "Procedia Engineering",
issn = "1877-7058",
publisher = "Elsevier B.V.",

}

RIS

TY - JOUR

T1 - Modelling, Simulation and Experimental Analysis of a Metal-Polymer Hybrid Fibre based Microstrip Resonator for High Frequency Characterisation

AU - Schimmack, Manuel

AU - Taute, Wolfgang

AU - Höft, Michael

N1 - Publisher Copyright: © 2016 The Authors.

PY - 2016

Y1 - 2016

N2 - Conductive multifilament fibres are the fundamental core for wearable technology in the biomedical engineering fields, as conductors in sensors or in bio-sensing textiles for healthcare. This contribution presents a model, simulation and the experimental analysis of a metal-polymer hybrid fibre based microstrip resonator for high frequency characterisation. The high frequency electromagnetic field simulation (HFSS) by ANSYS® is used for the modelling and finite element based simulation. It follows the design and manufacturing of the metal-polymer hybrid fibre based microstrip resonator for analysis of the scattering parameter measurements and the quality factors to 10 GHz with a vector network analyser (VNA) by Rohde & Schwarz®. Simulations and analysis also compare solid matter wire with the metal-polymer hybrid fibre.

AB - Conductive multifilament fibres are the fundamental core for wearable technology in the biomedical engineering fields, as conductors in sensors or in bio-sensing textiles for healthcare. This contribution presents a model, simulation and the experimental analysis of a metal-polymer hybrid fibre based microstrip resonator for high frequency characterisation. The high frequency electromagnetic field simulation (HFSS) by ANSYS® is used for the modelling and finite element based simulation. It follows the design and manufacturing of the metal-polymer hybrid fibre based microstrip resonator for analysis of the scattering parameter measurements and the quality factors to 10 GHz with a vector network analyser (VNA) by Rohde & Schwarz®. Simulations and analysis also compare solid matter wire with the metal-polymer hybrid fibre.

KW - Engineering

KW - finite element simulation

KW - metal-polymer hybrid fibre

KW - microstrip resonator

KW - quality factor

KW - resonator losses

UR - http://www.scopus.com/inward/record.url?scp=85009985704&partnerID=8YFLogxK

U2 - 10.1016/j.proeng.2016.11.319

DO - 10.1016/j.proeng.2016.11.319

M3 - Conference article in journal

VL - 168

SP - 975

EP - 978

JO - Procedia Engineering

JF - Procedia Engineering

SN - 1877-7058

ER -

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