Ternary number system offers higher information processing within the same number of digits when compared to binary systems
Memristor-CNTFET based ternary logic gates
Multilevel electronic systems offer the reduction of implementationÂ’ complexity, power consumption, and area
Ternary Functions Design Using Memristive Threshold Logic
Memristive threshold logic (MTL) concept is emerged in many circuits to enable high-performance systems in terms of power, energy, area, and delay
Realization of fractional-order capacitor based on passive symmetric network
In this paper, a new realization of the fractional capacitor (FC) using passive symmetric networks is proposed
Stability analysis of fractional-order Colpitts oscillators
The mathematical formulae of six topologies of fractional-order Colpitts oscillator are introduced in this paper
On the stability of linear systems with fractional-order elements
Linear integer-order circuits are a narrow subset of rational-order circuits which are in turn a subset of fractional-order
High-Frequency Capacitorless Fractional-Order CPE and FI Emulator
A fractional-order capacitor and inductor emulator, implemented using MOS transistors, instead of passive capacitors, is introduced in this paper
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
Fundamentals of fractional-order LTI circuits and systems: number of poles, stability, time and frequency responses
This paper investigates some basic concepts of fractional-order linear time invariant systems related to their physical and non-physical transfer functions, poles, stability, time domain, frequency domain, and their relationships for different fractional-order differential equations
Controllable V-shape multiscroll butterfly attractor: System and circuit implementation
In this paper, a new controllable V-shape multiscroll attractor is presented, where a variety of symmetrical and unsymmetrical attractors with a variable number of scrolls can be controlled using new staircase nonlinear function and the parameters of the system