Many recent nanoscale studies have paved the way for obtaining suitable models for describing the nonlinear dynamics of memristive elements. Memristor, which is one of these elements and expresses the relationship between magnetic flux and electric charge, has had a wide application area since it has been modeled. In this study, oscillator and regulator circuits are designed as memristive, and these circuits are investigated with important parameters such as power consumption, operating speed, and regulation. Considering the Wien bridge oscillator and voltage regulator circuits as the working environment, the performance comparison is made by using the memristor circuit model instead of the standard resistor. The results obtained are interesting because they show the advantages of using memristor in both oscillator and regulator circuits in terms of power consumption, speed, and regulation properties.
Cite this article as: S. Gürsul and S. E. Hamamcı, "Effects of memristor on oscillator and regulator circuits," Electrica., 23(1), 129-136, 2023.