Modelling Hysteresis with Memristors
In the realm of electronics, the foundational passivecomponents—resistors, inductors, and capacitors—arewell-established. However, in 1971, Leon Chua introduced atheoretical fourth element, the memristor, identified by itsdistinctive characteristic of memristance and its manifestation ina pinched hy...
Elmentve itt :
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| Dokumentumtípus: | Cikk |
| Megjelent: |
2024
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| Sorozat: | ANALECTA TECHNICA SZEGEDINENSIA
18 No. 4 |
| Tárgyszavak: | |
| doi: | 10.14232/analecta.2024.4.14-20 |
| mtmt: | 35639547 |
| Online Access: | http://publicatio.bibl.u-szeged.hu/35354 |
| Tartalmi kivonat: | In the realm of electronics, the foundational passivecomponents—resistors, inductors, and capacitors—arewell-established. However, in 1971, Leon Chua introduced atheoretical fourth element, the memristor, identified by itsdistinctive characteristic of memristance and its manifestation ina pinched hysteresis loop. This intriguing property suggestspotential applications beyond conventional electronics,particularly in modelling hysteresis phenomena across variousdomains. This paper delves into the exploration of memristance asa mathematical framework for simulating hysteresis in electricaland mechanical systems. We commence by elucidating the theoreticalunderpinnings of memristance and its hysteresis behaviour,followed by a comprehensive overview of existing hysteresismodels. Subsequently, we propose a novel approach that leveragesthe memristor model to offer enhanced insights and predictivecapabilities for hysteresis in these systems. Through analyticalexamination and simulation studies, we demonstrate the versatilityand applicability of the memristor model, underscoring itspotential as a universal tool for hysteresis modelling. Thisresearch not only broadens the understanding of memristiveproperties but also opens new avenues for cross-disciplinaryapplications, ranging from electronic circuit design to mechanicalsystem analysis. |
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| Terjedelem/Fizikai jellemzők: | 14-20 |
| ISSN: | 1788-6392 |