Compact and efficient realization of fractional-order filter using admittance equalization-based fractional device

Sharma, Vidip Raj; Mangal, Priyansh; Rai, Shireesh Kumar; Mishra, Shalabh Kumar

doi:10.2478/jee-2025-0052

Abstract

This paper proposes a novel fractance device (FD) based on simple R-C pairs for realizing fractional-order analog filters. Unlike conventional R-C ladder network-based FDs, which are complex and bulky, the proposed design employs only two passive components. This simplification results in lower cost, compact hardware, and improved power efficiency. The proposed FD is implemented in a VDTA-based fractional-order universal filter to evaluate its performance. The accuracy and validity of the proposed design are verified through SPICE and MATLAB simulations. Further, Monte Carlo analysis confirms the robustness and stability of the proposed circuit under parameter variations. The novelty of this work lies in its minimal-component realization of fractance behavior without compromising performance. The proposed approach supports SDG 7 (Affordable and Clean Energy) and SDG 9 (Industry, Innovation, and Infrastructure), advancing energy-efficient and innovative solutions for modern communication and signal processing systems.

References

M.D. Ortigueira, “Fractional Calculus for Scientists and Engineers”, Springer Science & Business Media: Portugal, 2011.
Search in Google Scholar Back to article
M. Ortigueira and J. Machado, “Which Derivative?”, Fractal and Fractional, vol.1, no. 1, pp. 3, 2017.
Search in Google Scholar Back to article
A. G. Radwan and A. M. Soliman, A.M., A. S. Elwakil, “First-order filters generalized to the fractional domain”, Journal of Circuits, Systems, and Computers, vol. 17, no. 1, pp. 55–66, 2008
Search in Google Scholar Back to article
A. G. Radwan, K. N. Salama, “Passive and Active Elements Using Fractional Lβ Cα Circuit”, IEEE Trans. Circuit and Syst. I., vol. 58, no. 10, pp. 2388-2397, 2011
Search in Google Scholar Back to article
A. S. Ali, A. G. Radwan, A.M. Soliman, “Fractional order Butterworth filter: active and passive realizations”, IEEE Journal on emerging and selected topics in Circuit and Systems., vol. 3, no. 3, pp. 346-354, 2013
Search in Google Scholar Back to article
D. Kubanek, T. Freeborn, J. Koton, “Fractional-order band-pass filter design using fractional-characteristic specimen functions”, Microelectron Journal, vol 86, pp.77-86, 2019.
Search in Google Scholar Back to article
J. Nako, C. Psychalinos, A. S. Elwakil, “One active element implementation of fractional-order Butterworth and Chebyshev filters”, AEU - International Journal of Electronics and Communications, vol. 168, 2023.
Search in Google Scholar Back to article
G. Varshneya, N. Pandey,!!!x0020;S. Minaei, “CIM applications in fractional domain: Fractional-order universal filter and fractional-order oscillator”, AEU - International Journal of Electronics and Communications, vol. 156, 2022.
Search in Google Scholar Back to article
R. Verma, N. Pandey, N. Pandey. “Electronically tunable fractional order filter”, Arab J Sci Eng; vol. 42, no.8, pp. 3409–22, 2017
Search in Google Scholar Back to article
G. Kaur, A. Q. Ansari, M. S. Hashmi, “Analysis and investigation of CDBA based fractional-order filters”, Analog Integr Circ Sig Process, vol. 105, pp. 111–124, 2020.
Search in Google Scholar Back to article
N. A. Khalila, L. A. Said,!!!x0020;A. G. Radwanc, A. M. Soliman, “Generalized two-port network based fractional order filters” AEU-International Journal of Electronics and Communications, vol. 104, pp. 128-146, 2019.
Search in Google Scholar Back to article
R. Daryani, and B. Aggarwal, “Nature inspired algorithm based design of near ideal fractional order low pass Chebyshev filters and their realization using OTAs and CCII”, Integration, Vol. 97, 2024.
Search in Google Scholar Back to article
R. Daryani, B. Aggarwal, “Designing of CCII-Based Fractional Order Inverse Chebyshev Filters Using Gray Wolf Optimization Approach”. IETE Journal of Research, vol 70. No. 9, pp. 7484-7494, 2024.
Search in Google Scholar Back to article
S. K. Mishra, D. K. Upadhyay, M. Gupta, “An approach to improve the performance of fractional-order sinusoidal oscillators”, Chaos, Solitons & Fractals, Vol. 116, pp.126-135, 2018.
Search in Google Scholar Back to article
R. Daryani, B. Aggarwal, “Designing of a Tunable Fractional Order Chebyshev High Pass Filter Using Particle Swarm Optimization”, Advanced Production and Industrial Engineering, vol. 27, pp. 123 – 129, 2022.
Search in Google Scholar Back to article
S. K. Mishra, D. K. Upadhyay, M. Gupta, “Compact design of fractional order LC oscillator,” 2019 URSI Asia-Pacific Radio Science Conference (AP-RASC), New Delhi, India, pp. 1-4, 2019,
Search in Google Scholar Back to article
S. K. Mishra, M. Gupta, D. K. Upadhyay, “Design and implementation of DDCC-based fractional-order oscillator”, International Journal of Electronics, vol. 106, no.4, pp.581–598. 2018.
Search in Google Scholar Back to article
J. Satansup, and W. Tangsrirat, “Compact VDTA-based current-mode electronically tunable universal filters using grounded capacitors”, Microelectronics Journal, Vol. 45, Issue 6, pp. 613-618, 2014.
Search in Google Scholar Back to article
D. Prasad, M. Kumar, Md. W. Akram, “Current mode fractional order filters using VDTAs with Grounded capacitors”, International Journal of Electronics and Telecommunications, Vol. 65, no. 1, PP. 11-17, 2019.
Search in Google Scholar Back to article
P. Rani, R. Pandey, “Voltage differencing transconductance amplifier based fractional order multiple input single output universal filter”, Solid State Electronics Letters, Vol. 1, Issue 2, Pages 110-118, 2019.
Search in Google Scholar Back to article
J. Srivastava, “VDTA based Fractional Order Universal Filter,” 2020 IEEE International Conference for Innovation in Technology (INOCON), Bangluru, India, 2020, pp. 1-6,
Search in Google Scholar Back to article
A. G. Radwan, A. M. Soliman, A. S. Elwakil, A. Sedeek, “On the stability of linear systems with fractional-order elements”, Chaos, Solitons & Fractals, Vol. 40, Issue 5, pp. 2317-2328, 2009.
Search in Google Scholar Back to article
I. Petras, “Fractional-Order Nonlinear Systems: Modeling, Analysis and Simulation”, Springer Berlin, Heidelberg. 2011.
Search in Google Scholar Back to article

Compact and efficient realization of fractional-order filter using admittance equalization-based fractional device

Abstract

Paradigm

My account