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Mixed-Mode Electronically-Tunable First-Order Universal Filter Structure Employing Operational Transconductance Amplifiers

Ajishek Raj

2022Journal of Circuits Systems and Computers18 citationsDOI

Abstract

In this paper, a new mixed-mode first-order universal filter configuration is presented that employs three operational transconductance amplifiers (OTAs) and one grounded capacitor (eminently suitable for IC chip fabrication). All three first-order generic filter functions, namely low pass filter (LPF), high pass filter (HPF) and all pass filter (APF) in all the four possible modes, namely voltage mode (VM), current mode (CM), transresistance mode (TRM) and transconductance mode (TCM) can be realized. The proposed configuration offers high input impedance and high output impedance. The pole frequency of the filter can be controlled electronically by varying a single transconductance. Nonideal analysis of the proposed filter structure has also been carried out and the results have been compared with those obtained from ideal analysis. The performance of the presented filter configuration has been corroborated through PSPICE simulations as well as experimental results. The various simulation and experimental results validate the practical viability of the proposed configurations.

Topics & Concepts

TransconductanceOperational transconductance amplifierFilter (signal processing)High-pass filterVoltage-controlled filterLow-pass filterAll-pass filterElectronic engineeringActive filterOutput impedanceButterworth filterFilter designAmplifierElectronic filter topologyConstant k filterm-derived filterPrototype filterComputer scienceOperational amplifierEngineeringElectrical impedanceVoltageElectrical engineeringCMOSTransistorAnalog and Mixed-Signal Circuit DesignRadio Frequency Integrated Circuit DesignNeuroscience and Neural Engineering
Mixed-Mode Electronically-Tunable First-Order Universal Filter Structure Employing Operational Transconductance Amplifiers | Litcius