Introduction: Optimal charging of RC circuits is a well-studied problem in the integer-order domain due to its importance from economic and system temperature hazards perspectives
Review of fractional-order electrical characterization of supercapacitors
2018Abdelkareem M.A.Allagui A.Elwakil A.S.Fouda M.E.Freeborn T.J.JournalMaundy B.J.Radwan A.G.Said Z.
The tests and calculation of the key performance metrics of supercapacitors including capacitance, power and energy stored are commonly reported by the academia and the industry based on formulæ valid only for ideal capacitors
Pinched hysteresis with inverse-memristor frequency characteristics in some nonlinear circuit elements
Abstract Pinched hysteresis is considered to be a signature of the existence of memristance
A simple model of double-loop hysteresis behavior in memristive elements
This brief investigates the double-loop hysteresis behavior in memristive elements
Improved memristor-based relaxation oscillator
This paper presents an improved memristor-based relaxation oscillator which offers higher frequency and wider tunning range than the existing reactance-less oscillators
Power dissipation of memristor-based relaxation oscillators
Recently, many reactance-less memristive relaxation oscillators were introduced, where the charging and discharging processes depend on memristors
Fractional-Order Two-Port Networks
We introduce the concept of fractional-order two-port networks with particular focus on impedance and admittance parameters
Experimental verification of triple lobes generation in fractional memristive circuits
Recently, the triple-lobe behavior is found in the I-V characteristics of some memristive devices generating another non-zero pinchoff point
Fractional-order multi-phase oscillators design and analysis suitable for higher-order PSK applications
Recently, multi-phase oscillator design witnesses a lot of progress in communication especially phase shift keying based systems
Optimization of fractional-order RLC filters
This paper introduces some generalized fundamentals for fractional-order RL ? C ? circuits as well as a gradient-based optimization technique in the frequency domain