In this research, the analysis of the active circuit in the fractional domain has been performed by using the fractional differential equation approach where
the measurability in time dimension of the derivative term has also been concerned unlike the previous work. The OTA-C filter has been adopted as the
candidate active circuit due to its compactness and capability to serves as the fundamental building block of more complicated circuits. The derivative term of
the fractional differential equation which includes the fractional time component parameters for obtaining such time dimensional measurability has been interpreted in Caputo sense, and the analytical solution of such an equation has been determined with the aid of Laplace transformation.Etc...
Keywords
Active Circuit, Fractional Differential Equation, Fractional Domain, OTA-C Filter, Time Dimensional Measurability
ECTI TRANSACTIONS ON COMPUTER INFORMATION TECHNOLOGY