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On the Design of Power Law Filters and Their Inverse Counterparts

Shibendu Mahata, Norbert Herencsár, David Kubánek

2021Fractal and Fractional17 citationsDOIOpen Access PDF

Abstract

This paper presents the optimal modeling of Power Law Filters (PLFs) with the low-pass (LP), high-pass (HP), band-pass (BP), and band-stop (BS) responses by means of rational approximants. The optimization is performed for three different objective functions and second-order filter mother functions. The formulated design constraints help avoid placement of the zeros and poles on the right-half s-plane, thus, yielding stable PLF and inverse PLF (IPLF) models. The performances of the approximants exhibiting the fractional-step magnitude and phase responses are evaluated using various statistical indices. At the cost of higher computational complexity, the proposed approach achieved improved accuracy with guaranteed stability when compared to the published literature. The four types of optimal PLFs and IPLFs with an exponent α of 0.5 are implemented using the follow-the-leader feedback topology employing AD844AN current feedback operational amplifiers. The experimental results demonstrate that the Total Harmonic Distortion achieved for all the practical PLF and IPLF circuits was equal or lower than 0.21%, whereas the Spurious-Free Dynamic Range also exceeded 57.23 and 54.72 dBc, respectively.

Topics & Concepts

InverseTotal harmonic distortionAmplifierStability (learning theory)Control theory (sociology)Power (physics)PassbandHarmonicTopology (electrical circuits)Filter (signal processing)MathematicsComputer scienceBand-pass filterBandwidth (computing)Electronic engineeringTelecommunicationsPhysicsEngineeringMachine learningArtificial intelligenceComputer visionGeometryControl (management)CombinatoricsQuantum mechanicsAnalog and Mixed-Signal Circuit DesignRadio Frequency Integrated Circuit DesignAdvancements in PLL and VCO Technologies