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Title: | Concept and modelling of memsensors as two terminal devices with enhanced capabilities in neuromorphic engineering | Authors: | VAHL, Alexander CARSTENSEN, Jurgen KAPS, Soren LUPAN, Oleg STRUNSKUS, Thomas ADELUNG, Rainer FAUPEL, Franz |
Issue Date: | 13-Mar-2019 | Source: | TY - JOUR AU - Vahl, Alexander AU - Carstensen, Jürgen AU - Kaps, Sören AU - Oleg, Lupan AU - Strunskus, Thomas AU - Adelung, Rainer AU - Faupel, Franz PY - 2019/03/13 SP - 4361 T1 - Concept and modelling of memsensors as two terminal devices with enhanced capabilities in neuromorphic engineering VL - 9 DO - 10.1038/s41598-019-39008-5 JO - Scientific Reports ER - | Journal: | SCIENTIFIC REPORTS | Abstract: | We report on memsensors, a class of two terminal devices that combines features of memristive and sensor devices. Apart from a pinched hysteresis (memristive property) and stimulus dependent electrical resistance (sensing property) further properties like dynamic adaptation to an external stimulus emerge. We propose a three component equivalent circuit to model the memsensor electrical behaviour. In this model we find stimulus dependent hysteresis, a delayed response to the sensory signal and adaptation. Stimulus dependent IV hysteresis as a fingerprint of a memsensor device is experimentally shown for memristive ZnO microrods. Adaptation in memsensor devices as found in our simulations resembles striking similarities to the biology. Especially the stimulus dependency of the IV hysteresis and the adaptation to external stimuli are superior features for application of memsensors in neuromorphic engineering. Based on the simulations and experimental findings we propose design rules for memsensors that will facilitate further research on memsensitive systems. |
URI: | http://cris.utm.md/handle/5014/149 | ISSN: | 2045-2322 | DOI: | 10.1038/s41598-019-39008-5 |
Appears in Collections: | Journal Articles |
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Concept_and_modelling_of_memsensors_as_two_termina.pdf | 2.81 MB | Adobe PDF | View/Open |
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