International Journal For Multidisciplinary Research

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Simulation Validation of the Analytical Model of Differential Inductive Servo Sensor for Imaging Signal Generation and Measurement Applications

Author(s) Abdulwahab Deji, Bashir Esima Musa
Country Malaysia
Abstract This paper explores the utility of the seesaw model sensor apparently giving a differential output in a differential manner, which validates one of the major findings of this research using simulation techniques. In this article, simulation is carried out of the designed mathematical model and its necessary derivations for frequency, frequency hysteresis, sensing voltage, magnetic field strength, resonant frequency, mass of bar and mass of target object and the current excitation responses also obtained. Furthermore, the linearity issues of the transducer response curve are addressed for an application scenario of using an inductor with 3R resistor in a differential manner. The parameter of interest is displacement of the core bringing about changes in inductance. Displacement makes the differential inductor to oscillate and undergo changes in differential style. Other parameters of interest such range, frequency, inward output voltage, outward output voltage were explored and results obtained validated the analytical modelling from mathematical derivations in recent literature.
Keywords This paper explores the utility of the seesaw model sensor apparently giving a differential output in a differential manner, which validates one of the major findings of this research using simulation techniques. In this article, simulation is carried out of the designed mathematical model and its necessary derivations for frequency, frequency hysteresis, sensing voltage, magnetic field strength, resonant frequency, mass of bar and mass of target object and the current excitation responses also obtained. Furthermore, the linearity issues of the transducer response curve are addressed for an application scenario of using an inductor with 3R resistor in a differential manner. The parameter of interest is displacement of the core bringing about changes in inductance. Displacement makes the differential inductor to oscillate and undergo changes in differential style. Other parameters of interest such range, frequency, inward output voltage, outward output voltage were explored and results obtained validated the analytical modelling from mathematical derivations in recent literature.
Field Engineering
Published In Volume 6, Issue 3, May-June 2024
Published On 2024-06-05
Cite This Simulation Validation of the Analytical Model of Differential Inductive Servo Sensor for Imaging Signal Generation and Measurement Applications - Abdulwahab Deji, Bashir Esima Musa - IJFMR Volume 6, Issue 3, May-June 2024. DOI 10.36948/ijfmr.2024.v06i03.21864
DOI https://doi.org/10.36948/ijfmr.2024.v06i03.21864
Short DOI https://doi.org/gtxrpn
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