Yener, Şuayb ÇağrıMutlu, Reşat2022-05-112022-05-112017978-1538604403https://doi.org/10.1109/EBBT.2017.7956774https://hdl.handle.net/20.500.11776/64302017 Electric Electronics, Computer Science, Biomedical Engineerings' Meeting, EBBT 2017 -- 20 April 2017 through 21 April 2017 -- -- 128484To extend the concept of the memristive systems to capacitive systems, memcapacitive systems have been described in 2009. Memcapacitors which are a subset of memcapacitive systems are flux-dependent nonlinear circuit elements with memory. Materials with memcapacitive properties has already been reported in literature. The elusive memcapacitor show promise for new type of applications because of their unusual characteristics which cannot be mimicked with linear circuit elements. Since these elements are not commercially available yet, their analytical solutions and simulation studies are very important. Then these solutions may provide valuable insight for their usage, behavior and predicting of their new application areas. In this study, a memcapacitor-inductor oscillation circuit is examined using simulations and also its small signal equivalent circuit is obtained using perturbation theory since such a circuit does not have an exact solution. © 2017 IEEE.en10.1109/EBBT.2017.7956774info:eu-repo/semantics/closedAccessCircuit TheoryElectric CircuitsMemcapacitive SystemsMemcapacitorOscillation CircuitsBiomedical engineeringCircuit theoryElectric network analysisEquivalent circuitsLinear networksNetworks (circuits)Perturbation techniquesTiming circuitsCapacitive systemsMemcapacitorMemristive systemsOscillation circuitsPerturbation theorySimulation studiesSmall signal equivalent circuitSmall signal modelElectric network parametersConference Object2-s2.0-85025436213