Comparative Study of Discrete Component Realizations of Fractional-Order Capacitor and Inductor Active Emulators

Due to the absence of commercially available fractional-order capacitors and inductors, their implementation can be performed using fractional-order differentiators and integrators, respectively, combined with a voltage-to-current conversion stage. The transfer function of fractional-order different...

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Published in	Journal of circuits, systems, and computers Vol. 27; no. 11; p. 1850170
Main Authors	Tsirimokou, Georgia, Kartci, Aslihan, Koton, Jaroslav, Herencsar, Norbert, Psychalinos, Costas
Format	Journal Article
Language	English
Published	World Scientific Publishing Company 01.10.2018
Subjects	fractional-order differentiator fractional-order integrator op-amp Oustaloup’s approximation current conveyor operational transconductance amplifier Continued Fraction Expansion current feedback operational amplifier
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Abstract	Due to the absence of commercially available fractional-order capacitors and inductors, their implementation can be performed using fractional-order differentiators and integrators, respectively, combined with a voltage-to-current conversion stage. The transfer function of fractional-order differentiators and integrators can be approximated through the utilization of appropriate integer-order transfer functions. In order to achieve that, the Continued Fraction Expansion as well as the Oustaloup’s approximations can be utilized. The accuracy, in terms of magnitude and phase response, of transfer functions of differentiators/integrators derived through the employment of the aforementioned approximations, is very important factor for achieving high performance approximation of the fractional-order elements. A comparative study of the accuracy offered by the Continued Fraction Expansion and the Oustaloup’s approximation is performed in this paper. As a next step, the corresponding implementations of the emulators of the fractional-order elements, derived using fundamental active cells such as operational amplifiers, operational transconductance amplifiers, current conveyors, and current feedback operational amplifiers realized in commercially available discrete-component IC form, are compared in terms of the most important performance characteristics. The most suitable of them are further compared using the OrCAD PSpice software.
AbstractList	Due to the absence of commercially available fractional-order capacitors and inductors, their implementation can be performed using fractional-order differentiators and integrators, respectively, combined with a voltage-to-current conversion stage. The transfer function of fractional-order differentiators and integrators can be approximated through the utilization of appropriate integer-order transfer functions. In order to achieve that, the Continued Fraction Expansion as well as the Oustaloup’s approximations can be utilized. The accuracy, in terms of magnitude and phase response, of transfer functions of differentiators/integrators derived through the employment of the aforementioned approximations, is very important factor for achieving high performance approximation of the fractional-order elements. A comparative study of the accuracy offered by the Continued Fraction Expansion and the Oustaloup’s approximation is performed in this paper. As a next step, the corresponding implementations of the emulators of the fractional-order elements, derived using fundamental active cells such as operational amplifiers, operational transconductance amplifiers, current conveyors, and current feedback operational amplifiers realized in commercially available discrete-component IC form, are compared in terms of the most important performance characteristics. The most suitable of them are further compared using the OrCAD PSpice software.
Author	Herencsar, Norbert Tsirimokou, Georgia Psychalinos, Costas Kartci, Aslihan Koton, Jaroslav
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Keywords	fractional-order differentiator fractional-order integrator op-amp Oustaloup’s approximation current conveyor operational transconductance amplifier Continued Fraction Expansion current feedback operational amplifier
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Notes	This paper was recommended by Regional Editor Piero Malcovati.
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