Michal Dzuris scite author profile

Michal Dzuris

3Publications

5Citation Statements Received

29Citation Statements Given

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Affiliations

Institute of Electrical Engineering, Slovak University of Technology in Bratislava, MelroseWakefield Healthcare

Publications

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Towards a MEMS Force Sensor via the Electromagnetic Principle

Hartansky

Mierka

Jančárik

et al. 2023

Sensors

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Force measurement is a science discipline that experiences significant progress with the introduction of new materials and evaluation methods. Many different sensor types, working on different principles, have been developed and reviewed and have found use in medicine as well as many other industries. New trends and demands require a size reduction and simple applicability, with the use of, for example, micro electromechanical systems (MEMS). For purposes of this study, the initial MEMS body is supplemented by its scaled version. Force measurement in this study works on the force to time-delay conversion principle. A compact compliant mechanical body (CCMB) with an embedded parallel resonant circuit (PRC) acting as a transducer realizes the conversion. Depending on the resonant frequency of the transducer (CCMB or MEMS), we have measured the applied force based on the reverse influence of the transducer on the surrounding EM field. The analysis shows that the transducer’s resonant frequency has a detectable reverse influence on the voltage-controlled oscillator (VCO) DC supply current. The force influencing the transducer is determined by the DC supply current ripple position during the VCO frequency sweep. The study presents the method proposal and mathematical analysis, as well as its function verification by simulation and prototype measurements. The proposed principle was validated on a CCMB prototype capable of measuring forces up to ∼2.5 N at a sampling frequency of ∼23 kHz, while the measured time-delay ranges from 14.5 µs to 27.4 µs.

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Measuring the Radiation Pattern of Large FM Antenna System

Dzuris

Hartansky

Krchnak

2023

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Radiation Pattern Antenna System Measurement

Dzuris¹,

Grilli²,

Szolik³

et al. 2021

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Michal Dzuris

Towards a MEMS Force Sensor via the Electromagnetic Principle

Measuring the Radiation Pattern of Large FM Antenna System

Radiation Pattern Antenna System Measurement

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