Your search keyword '"Tripathy M"' showing total 4 results

1. A high-Q fractional-order twin-T notch filter for low-frequency applications

Author

Biswal, K, Swain, S, Tripathy, M C, and Kar, S K

Published

2023

2. Realization of optimized fractional-order symmetric-slope bandpass filter using switched-capacitors

Author

SWAIN, S, TRIPATHY, M C, and BEHERA, S

Published

2023

3. Particle Swarm Optimization-Based Bandpass Filter Using Switched-Fractional Capacitors.

Author

Swain, S., Tripathy, M. C., and Behera, S.

Subjects

*BANDPASS filters, *CAPACITORS, *CAPACITOR switching, *PARTICLE swarm optimization

Abstract

A new approach to designing a fractional bandpass filter using switched-fractional capacitors has been reported for the first time. This is achieved using four fractional-capacitors $ (F{C_1},\textrm{ }F{C_2},F{C_3},\textrm{ and }F{C_4}) $ (F C 1 , F C 2 , F C 3 , and F C 4) with orders α, β, δ, and λ, respectively, where $ 0 \lt \alpha , \beta , \delta , \lambda \le 1 $ 0 < α , β , δ , λ ≤ 1. The presented work deals with designing a fractional bandpass filter using switched capacitors and switched-fractional capacitors in place of resistors. The stability and the speed of response of the proposed filter have been investigated by computing the filter parameters analytically. Filter parameters such as settling-time ( $ {t_s} $ t s ), peak-overshoot ( $ {M_p} $ M p ), and rise-time ( $ {t_r} $ t r ) improve compared with their integer-order counterpart. Furthermore, detailed comparative studies on different design parameters have also been carried out through simulation studies and experimentations. The particle swarm optimization (PSO) technique is used for getting the optimal values of the orders of the switched-fractional capacitors to improve the response of the proposed filter. [ABSTRACT FROM AUTHOR]

Published

2023

4. Modeling and Performance Improvement of Fractional-Order Band-Pass Filter Using Fractional Elements.

Author

Biswal, K., Swain, S., Tripathy, M. C., and Kar, S. K.

Subjects

QUALITY factor, MATHEMATICAL optimization

Abstract

Fractional-order circuits are the emerging area for analyzing the parametric response of the filters and its performance improvement can be analytically observed by using an optimization technique. In this paper, the fractional-order band-pass filter, using fractional-order capacitor (FC) and fractional-order inductor (FI), is investigated. The characteristics of the filter with desired fractional-order of FC and FI bearing range from 0.1 ≤ α ≤ 1.0 to 0.1 ≤ β ≤ 1.0, respectively having a step change of 0.1, are simulated. The frequency parameters of the proposed band-pass filter having order with in this range of α and β resulted during simulation. The quality factor is optimized from the results of the fractional-orders α and β for the given FC and FI, respectively. The theoretical quality factor in this integer-order filter is compared with its optimized Q value in its fractional-order counterpart. The proposed filter is modeled by using the best orders of α = 0.4 and β = 1.0 for FC and FI, respectively with optimized Q-factor. Finally, the frequency parameters of the filter as modeled are obtained through simulation using MATLAB/Simulink R2011a. [ABSTRACT FROM AUTHOR]

Published

2023