Adaptable frequency counter with phase filtering for resonance frequency monitoring in nanomechanical sensing

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Publication Date

2024

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Institution Author

Demir, Alper

Co-Authors

Besic, Hajrudin
Vukicevic, Veljko
Steurer, Johannes
Schmid, Silvan

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Institute of Electrical and Electronics Engineers Inc.

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Journal Article
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Abstract

Nanomechanical sensors based on detecting and tracking resonance frequency shifts are to be used in many applications. Various open- and closed-loop tracking schemes, all offering a trade-off between speed and precision, have been studied both theoretically and experimentally. In this work, we advocate the use of a frequency counter (FC) as a frequency shift monitor in conjunction with a self-sustaining oscillator (SSO) nanoelectromechanical system (NEMS) configuration. We derive a theoretical model for characterizing the speed and precision of frequency measurements with state-of-the-art FCs. Based on the understanding provided by this model, we introduce novel enhancements to FCs that result in a trade-off characteristics which is on a par with the other tracking schemes. We describe a low-cost field-programmable-gate array (FPGA)-based implementation for the proposed FC and use it with the SSO-NEMS device in order to study its frequency tracking performance. We compare the proposed approach with the phase-locked-loop-based scheme both in theory and experimentally. Our results show that similar or better performance can be achieved at a substantially lower cost and improved ease of use. We obtain almost perfect correspondence between the theoretical model predictions and the experimental measurements.

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Engineering, electrical and Electronic, Instruments and instrumentation, Physics, applied

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