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Natural frequency dependency of magneto-mechanical resonators on magnet distance
Citation Link: https://doi.org/10.15480/882.15876
Publikationstyp
Journal Article
Date Issued
2025-08-12
Sprache
English
TORE-DOI
Journal
Citation
IEEE sensors journal (in Press): (2025)
Publisher DOI
Scopus ID
Publisher
IEEE
The precise derivation of physical quantities like temperature or pressure at arbitrary locations is useful in numerous contexts, e.g. medical procedures or industrial process engineering. The novel sensor technology of magneto-mechanical resonators (MMR), based on the interaction of a rotor and stator permanent magnet, allows for the combined tracking of the sensor position and orientation while simultaneously sensing an external measurand. Thereby, the quantity is coupled to the torsional oscillation frequency, e.g. by varying the magnet distance. In this paper, we analyze the (deflection angle-independent) natural frequency dependency of MMR sensors on the rotor-stator distance, and evaluate the performance of theoretical models. The three presented sensors incorporate magnets of spherical and/or cylindrical geometry and can be operated at adjustable frequencies within the range of 61.9-307.3 Hz. Our proposed method to obtain the natural frequency demonstrates notable robustness to variations in the initial deflection amplitudes and quality factors resulting in statistical errors on the mean smaller than 0.05%. We find that the distance-frequency relationship is well described by an adapted dipole model accounting for material and manufacturing uncertainties. Their combined effect can be compensated by an adjustment of a single parameter which drives the median model deviation generally below 0.2%. Our depicted methods and results are important for the design and calibration process of new sensor types utilizing the MMR technique.
Subjects
calibration
frequency response
inductive measurement
magneto-mechanical resonators (MMR)
natural frequency
passive sensing
torsional oscillator
wireless sensing
DDC Class
621.3: Electrical Engineering, Electronic Engineering
530: Physics
Publication version
publishedVersion
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Name
Natural_Frequency_Dependency_of_Magneto-Mechanical_Resonators_on_Magnet_Distance.pdf
Type
Main Article
Size
8.96 MB
Format
Adobe PDF