Study of Chopping Magnetic Flux Modulation on Surface Acoustic Wave Magnetic Sensor

Wang, H., Arbustini, J., Elzenheimer, E., Schell, V., Hoft, M., Quandt, E., Schmidt, G., Heidari, H. and Bahr, A. (2022) Study of Chopping Magnetic Flux Modulation on Surface Acoustic Wave Magnetic Sensor. In: 29th IEEE International Conference on Electronics, Circuits and Systems (ICECS 2022), Glasgow, UK, 24-26 October 2022, ISBN 9781665488235 (doi: 10.1109/ICECS202256217.2022.9970973)

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Abstract

Some methods of magnetic flux modulation are used to overcome flicker phase noise, low-frequency acoustical distortions, and movement artifacts. This work proposes employing a chopping flux modulation technique controlling a high permeability toroid together with a surface acoustic wave sensor inside. In this primary proof-of-concept study, an external magnetic field is generated to estimate quantitative signal parameters and the effect of the toroid shielding factor. Finally, the limitations of this approach should be identified and how low-frequency magnetic signals are influenced. The achievable sensitivity was empirically evaluated, and a quantitative signal quality value was calculated by estimating the signal power spectrum and noise power spectrum. Thus, the study compares the signal-plus-noise to noise ratio with and without magnetic flux modulation of a reproducible excitation magnetic signal generated by a solenoid coil. The experimental results show that the noise floor of this magnetic sensor system is improved. However, the signal-plus-noise to noise ratio without the modulation is 17 dB, and with the modulation, this parameter becomes 13 dB for a given mono-frequency signal of 20 μT . In perspective, this method exhibits disadvantages in reducing the sensitivity because, with the toroid inside, the calibration factor of the solenoid is not the same anymore, and the shielding factor reduces the field strength of the alternative-current field. Furthermore, the results show that the chopping flux modulation technique requires exploring how to compensate for the losses and setup issues that affect the magnetic field to define how suitable it is for surface acoustic waves magnetic sensors.

Item Type:Conference Proceedings
Additional Information:This work was funded by the German Research Foundation (Deutsche Forschungsgemeinschaft, DFG) through the Collaborative Research Centre CRC 1261.
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Heidari, Professor Hadi and Wang, Mr Huxi
Authors: Wang, H., Arbustini, J., Elzenheimer, E., Schell, V., Hoft, M., Quandt, E., Schmidt, G., Heidari, H., and Bahr, A.
College/School:College of Science and Engineering > School of Engineering > Electronics and Nanoscale Engineering
ISBN:9781665488235
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