Florian Probst scite author profile

Due to higher automation and predictive maintenance, it becomes more and more important to acquire as many data as possible during industrial processes. However, many scenarios require remote sensing since either moving parts would result in wear and tear of cables or harsh environments prevent a wired connection. In the last few years, resonant surface acoustic wave (SAW) sensors have promised the possibility to be interrogable wirelessly which showed very good results in first studies. Therefore, the sensor’s resonance frequency shifts due to a changed measurand and thus has to be determined. However, up to now frequency reader systems showed several drawbacks like high costs or insufficient accuracy that blocked the way for a widespread usage of this approach in the mass market. Hence, this article presents a miniaturized and low cost six-port based frequency reader for SAW resonators in the 2.45 GHz ISM band that does not require an external calculation unit. It is shown that it can be either used to evaluate the scenario or measure the frequency directly with an amplitude or phase measurement, respectively. The performance of the system, including the hardware and embedded software, is finally shown by wired and contactless torque measurements.

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Design of a Low Voltage D-band LNA in 22 nm FDSOI

Hetterle

Engelmann

Probst

et al. 2022

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Design of two Low DC-Power High-Efficiency D-Band Power Amplifiers in 22 nm FDSOI

Engelmann

Hetterle

Probst

et al. 2022

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Low-Cost Six-Port for High-Volume Frequency Measurement Systems in the 2.4 GHz ISM-Band

Scheiner

Probst

Michler

et al. 2021

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Florian Probst

A 15-Gb/s PMCW Radar PRBS-Generator for MIMO and Joint Radar-Communication Systems

Miniaturized Hybrid Frequency Reader for Contactless Measurement Scenarios Using Resonant Surface Acoustic Wave Sensors

Design of a Low Voltage D-band LNA in 22 nm FDSOI

Design of two Low DC-Power High-Efficiency D-Band Power Amplifiers in 22 nm FDSOI

Low-Cost Six-Port for High-Volume Frequency Measurement Systems in the 2.4 GHz ISM-Band

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