Survey on Two-Port Network-Based Fractional-Order Oscillators

Abstract This chapter merges the fractional calculus and two-port networks in oscillator design. The fractional-order elements α and β add extra degrees of freedom that increase the design flexibility and frequency band while providing control over the phase difference. A prototype of the fractional-order two-port network oscillators is introduced. It consists of a general two-port network and three impedances distributed as input, output, and a feedback impedance. Three different two-port network classifications are obtained according to the ground location. This chapter focuses on one of these classifications from which two derived prototypes can be extracted. The general analytical formulas of the oscillation frequency and condition as well as the phase difference are derived in terms of the transmission matrix parameter of a general two-port network. Different active building blocks are used to serve as a two-port network. Numerical, Spice simulations, and experimental results are given to validate the presented analysis.

[1]  A. Elwakil,et al.  Design equations for fractional-order sinusoidal oscillators: Four practical circuit examples , 2008 .

[2]  Lobna A. Said,et al.  Three Fractional-Order-Capacitors-Based Oscillators with Controllable Phase and Frequency , 2017, J. Circuits Syst. Comput..

[3]  Kazuhiro Saito,et al.  Simulation of Power-Law Relaxations by Analog Circuits : Fractal Distribution of Relaxation Times and Non-integer Exponents , 1993 .

[4]  Ahmed M. Soliman,et al.  Fractional order oscillators with single non-zero transmission matrix element , 2015, 2015 International Conference on Science and Technology (TICST).

[5]  Ahmed S. Elwakil,et al.  On the two-port network analysis of common amplifier topologies , 2010, Int. J. Circuit Theory Appl..

[6]  Ahmed S. Elwakil,et al.  On the Generalization of Second-Order Filters to the fractional-Order Domain , 2009, J. Circuits Syst. Comput..

[7]  Ahmed S. Elwakil On the two-port network classification of Colpitts oscillators , 2009, IET Circuits Devices Syst..

[8]  Ahmed M. Soliman,et al.  Current feedback operational amplifier (CFOA) based fractional order oscillators , 2014, 2014 21st IEEE International Conference on Electronics, Circuits and Systems (ICECS).

[9]  Ahmed M. Soliman,et al.  Fractional-order inverting and non-inverting filters based on CFOA , 2016, 2016 39th International Conference on Telecommunications and Signal Processing (TSP).

[10]  Shikha Singh,et al.  Control of New Type of Fractional Chaos Synchronization , 2017, AISI.

[11]  Ahmad Taher Azar,et al.  Fractional controllable multi-scroll V-shape attractor with parameters effect , 2017, 2017 6th International Conference on Modern Circuits and Systems Technologies (MOCAST).

[12]  K. R. Sturley,et al.  Radio Receiver Design. Part I, Radio Frequency Amplification and Detection , 1955 .

[13]  Ahmed M. Soliman,et al.  CCII based fractional filters of different orders , 2013, Journal of advanced research.

[14]  Ahmed Gomaa Radwan,et al.  Stability and non-standard finite difference method of the generalized Chua's circuit , 2011, Comput. Math. Appl..

[15]  I. Podlubny Fractional differential equations : an introduction to fractional derivatives, fractional differential equations, to methods of their solution and some of their applications , 1999 .

[16]  Ahmed Gomaa Radwan,et al.  Optimization of Fractional-Order RLC Filters , 2013, Circuits Syst. Signal Process..

[17]  Ahmad Taher Azar,et al.  FPGA implementation of two fractional order chaotic systems , 2017 .

[18]  Ahmed S. Elwakil Design of non-balanced cross-coupled oscillators with no matching requirements , 2010, IET Circuits Devices Syst..

[19]  L. A. Said,et al.  Fractional order oscillator with independent control of phase and frequency , 2014, 2014 2nd International Conference on Electronic Design (ICED).

[20]  Chien-Cheng Tseng,et al.  Design of FIR and IIR fractional order Simpson digital integrators , 2007, Signal Process..

[21]  Ahmed M. Soliman,et al.  Fractional Order Sallen–Key and KHN Filters: Stability and Poles Allocation , 2015, Circuits Syst. Signal Process..

[22]  Ahmed M. Soliman,et al.  Fractional Order Oscillator Design Based on Two-Port Network , 2016, Circuits Syst. Signal Process..

[23]  Georgia Tsirimokou,et al.  A systematic procedure for deriving RC networks of fractional-order elements emulators using MATLAB , 2017 .

[24]  Ahmed M. Soliman,et al.  Generalized family of fractional-order oscillators based on single CFOA and RC network , 2017, 2017 6th International Conference on Modern Circuits and Systems Technologies (MOCAST).

[25]  D. H. Zanette,et al.  Synchronization of multi-phase oscillators: an Axelrod-inspired model , 2009 .

[26]  Jun Ueda,et al.  Two-Port Network Models for Compliant Rhomboidal Strain Amplifiers , 2013, IEEE Transactions on Robotics.

[27]  Igor Podlubny,et al.  Fractional-order systems and PI/sup /spl lambda//D/sup /spl mu//-controllers , 1999 .

[28]  Jirí Vlach,et al.  RC models of a constant phase element , 2011, Int. J. Circuit Theory Appl..

[29]  Soliman A. Mahmoud,et al.  New 1.5-V CMOS second generation current conveyor based on wide range transconductor , 2006 .

[30]  Ahmed M. Soliman,et al.  Active realization of doubly terminated LC ladder filters using current feedback operational amplifier (CFOA) via linear transformation , 2011 .

[31]  I. Podlubny Fractional-order systems and PIλDμ-controllers , 1999, IEEE Trans. Autom. Control..

[32]  Ahmed M. Soliman,et al.  Fractional-order oscillator based on single CCII , 2016, 2016 39th International Conference on Telecommunications and Signal Processing (TSP).

[33]  Karabi Biswas,et al.  Impedance Behaviour of a Microporous PMMA-Film ‘Coated Constant Phase Element’ based Chemical Sensor , 2008 .

[34]  Sundarapandian Vaidyanathan,et al.  Fractional Order Control and Synchronization of Chaotic Systems , 2017, Studies in Computational Intelligence.

[35]  Ahmed M. Soliman,et al.  Two-port oscillators based on three impedance structure , 2014, 2014 2nd International Conference on Electronic Design (ICED).

[36]  Costas Psychalinos,et al.  New analog implementation technique for fractional-order controller: A DC motor control , 2017 .

[37]  M. Nakagawa,et al.  Basic Characteristics of a Fractance Device , 1992 .

[38]  Ahmed M. Soliman,et al.  Fractional order oscillators based on operational transresistance amplifiers , 2015 .

[39]  Christian Vollaire,et al.  Modelling and reduction of common mode currents in a variable-speed drive system by two-port network approach , 2008 .

[40]  K. B. Oldham,et al.  The Fractional Calculus: Theory and Applications of Differentiation and Integration to Arbitrary Order , 1974 .

[41]  Ahmed S. Elwakil,et al.  A fractional-order dynamic PV model , 2016, 2016 39th International Conference on Telecommunications and Signal Processing (TSP).

[42]  Ahmed S. Elwakil,et al.  All possible second-order four-impedance two-stage Colpitts oscillators , 2011, IET Circuits Devices Syst..

[43]  Ahmed S. Elwakil,et al.  Fractional-order sinusoidal oscillators: Design procedure and practical examples , 2008, IEEE Transactions on Circuits and Systems I: Regular Papers.

[44]  Yoshiaki Hirano,et al.  Simulation of Fractal Immittance by Analog Circuits: An Approach to the Optimized Circuits , 1999 .

[45]  Ahmed M. Soliman,et al.  Two-port two impedances fractional order oscillators , 2016, Microelectron. J..

[46]  Ahmed Madian,et al.  Fractional order two port network oscillator with equal order , 2014, 2014 26th International Conference on Microelectronics (ICM).

[47]  Ahmed S. Elwakil,et al.  Variability of Cole-model bioimpedance parameters using magnitude-only measurements of apples from a two-electrode configuration , 2017 .

[48]  Ahmed S. Elwakil,et al.  Experimental comparison of integer/fractional-order electrical models of plant , 2017 .

[49]  T. Freeborn,et al.  Fractional-step Tow-Thomas biquad filters , 2012 .

[50]  Ahmed M. Soliman,et al.  Active Circuits: Active Realization of Doubly Terminated LC Ladder Filters Using Active Building Blocks [Paperback] , 2011 .