VDTA Based Electronically Tunable Purely Active Simulator Circuit for Realizing Floating Resistance

VDTA Based Electronically Tunable Purely Active Simulator Circuit for Realizing Floating Resistance

This paper proposes a new active synthetic floating resistor circuit employing three voltage differencing transconductance amplifiers (VDTAs). The proposed configuration enjoys following advantageous features; (a) purely active realization (b) electronically tunable resistance (c) no external comp...

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Bibliographic Details
Main Authors: Mayank Srivastava, Dinesh Prasad
Format: Article
Language:English
Published: Eastern Macedonia and Thrace Institute of Technology 2015-04-01
Series:Journal of Engineering Science and Technology Review
Subjects:
VDTA
Synthetic resistor
floating resistor
electronic control
purely active simulation circuit ______________________
Online Access:http://www.jestr.org/downloads/Volume8Issue3/fulltext83152015.pdf
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spelling doaj-9048c6c43b4548d0acba1c212621b6b42020-11-24T22:59:18ZengEastern Macedonia and Thrace Institute of TechnologyJournal of Engineering Science and Technology Review1791-23771791-23772015-04-0183112116VDTA Based Electronically Tunable Purely Active Simulator Circuit for Realizing Floating ResistanceMayank Srivastava0Dinesh Prasad1Deptt. of Electronics and Communication Engineering, ASET, Amity University Uttar Prasdesh, Sector 125, Noida (U.P.), IndiaDeptt. of Electronics and Communication Engineering, FET, Jamia Millia Islamia, New Delhi, IndiaThis paper proposes a new active synthetic floating resistor circuit employing three voltage differencing transconductance amplifiers (VDTAs). The proposed configuration enjoys following advantageous features; (a) purely active realization (b) electronically tunable resistance (c) no external component matching constraint(s) (d) good nonideal behavior and (e) low sensitivity values. The workability of proposed resistor simulator has been verified by an application example of voltage mode low-pass filter. To validate the theoretical analysis SPICE simulations with TSMC 0.18µm CMOS process parameters have been performed.http://www.jestr.org/downloads/Volume8Issue3/fulltext83152015.pdfVDTASynthetic resistorfloating resistorelectronic controlpurely active simulation circuit ______________________
collection DOAJ
language English
format Article
sources DOAJ
author Mayank Srivastava
Dinesh Prasad
spellingShingle Mayank Srivastava
Dinesh Prasad
VDTA Based Electronically Tunable Purely Active Simulator Circuit for Realizing Floating Resistance
Journal of Engineering Science and Technology Review
VDTA
Synthetic resistor
floating resistor
electronic control
purely active simulation circuit ______________________
author_facet Mayank Srivastava
Dinesh Prasad
author_sort Mayank Srivastava
title VDTA Based Electronically Tunable Purely Active Simulator Circuit for Realizing Floating Resistance
title_short VDTA Based Electronically Tunable Purely Active Simulator Circuit for Realizing Floating Resistance
title_full VDTA Based Electronically Tunable Purely Active Simulator Circuit for Realizing Floating Resistance
title_fullStr VDTA Based Electronically Tunable Purely Active Simulator Circuit for Realizing Floating Resistance
title_full_unstemmed VDTA Based Electronically Tunable Purely Active Simulator Circuit for Realizing Floating Resistance
title_sort vdta based electronically tunable purely active simulator circuit for realizing floating resistance
publisher Eastern Macedonia and Thrace Institute of Technology
series Journal of Engineering Science and Technology Review
issn 1791-2377
1791-2377
publishDate 2015-04-01
description This paper proposes a new active synthetic floating resistor circuit employing three voltage differencing transconductance amplifiers (VDTAs). The proposed configuration enjoys following advantageous features; (a) purely active realization (b) electronically tunable resistance (c) no external component matching constraint(s) (d) good nonideal behavior and (e) low sensitivity values. The workability of proposed resistor simulator has been verified by an application example of voltage mode low-pass filter. To validate the theoretical analysis SPICE simulations with TSMC 0.18µm CMOS process parameters have been performed.
topic VDTA
Synthetic resistor
floating resistor
electronic control
purely active simulation circuit ______________________
url http://www.jestr.org/downloads/Volume8Issue3/fulltext83152015.pdf
work_keys_str_mv AT mayanksrivastava vdtabasedelectronicallytunablepurelyactivesimulatorcircuitforrealizingfloatingresistance
AT dineshprasad vdtabasedelectronicallytunablepurelyactivesimulatorcircuitforrealizingfloatingresistance
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