Novel Reconnection-Less Reconfigurable Filter Design Based on Unknown Nodal Voltages Method and Its Fractional-Order Counterpart

Novel Reconnection-Less Reconfigurable Filter Design Based on Unknown Nodal Voltages Method and Its Fractional-Order Counterpart

A novel solution of reconnection-less electronically reconfigurable filter is introduced in the paper. The filter is designed based on unknown nodal voltages method (MUNV) using operational transconductance amplifiers (OTAs) and variable gain amplifier (VGA). The structure can provide all-pass, band...

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Bibliographic Details
Main Authors: Lukas Langhammer, Roman Sotner, Jan Dvorak, Jan Jerabek, Peter A. Ushakov
Format: Article
Language:English
Published: Kaunas University of Technology 2019-06-01
Series:Elektronika ir Elektrotechnika
Subjects:
electronic control
electronic reconfiguration
operational transconductance amplifier
reconfigurable filter
universal filter
Online Access:http://eejournal.ktu.lt/index.php/elt/article/view/23673
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spelling doaj-1be36279702c467eb56728ffb45f44902020-11-25T01:56:35ZengKaunas University of TechnologyElektronika ir Elektrotechnika1392-12152029-57312019-06-01253343810.5755/j01.eie.25.3.2367323673Novel Reconnection-Less Reconfigurable Filter Design Based on Unknown Nodal Voltages Method and Its Fractional-Order CounterpartLukas LanghammerRoman SotnerJan DvorakJan JerabekPeter A. UshakovA novel solution of reconnection-less electronically reconfigurable filter is introduced in the paper. The filter is designed based on unknown nodal voltages method (MUNV) using operational transconductance amplifiers (OTAs) and variable gain amplifier (VGA). The structure can provide all-pass, band-stop, high-pass 2nd order functions, high-pass function of the 1st order and direct transfer from the same topology without requirement of manual reconnection. The proposed structure also offers the electronic control of the pole frequency. Moreover, fractional-order design of the proposed filter is also provided. The behaviour is verified by simulations using Cadence IC6 (spectre) software.http://eejournal.ktu.lt/index.php/elt/article/view/23673electronic controlelectronic reconfigurationoperational transconductance amplifierreconfigurable filteruniversal filter
collection DOAJ
language English
format Article
sources DOAJ
author Lukas Langhammer
Roman Sotner
Jan Dvorak
Jan Jerabek
Peter A. Ushakov
spellingShingle Lukas Langhammer
Roman Sotner
Jan Dvorak
Jan Jerabek
Peter A. Ushakov
Novel Reconnection-Less Reconfigurable Filter Design Based on Unknown Nodal Voltages Method and Its Fractional-Order Counterpart
Elektronika ir Elektrotechnika
electronic control
electronic reconfiguration
operational transconductance amplifier
reconfigurable filter
universal filter
author_facet Lukas Langhammer
Roman Sotner
Jan Dvorak
Jan Jerabek
Peter A. Ushakov
author_sort Lukas Langhammer
title Novel Reconnection-Less Reconfigurable Filter Design Based on Unknown Nodal Voltages Method and Its Fractional-Order Counterpart
title_short Novel Reconnection-Less Reconfigurable Filter Design Based on Unknown Nodal Voltages Method and Its Fractional-Order Counterpart
title_full Novel Reconnection-Less Reconfigurable Filter Design Based on Unknown Nodal Voltages Method and Its Fractional-Order Counterpart
title_fullStr Novel Reconnection-Less Reconfigurable Filter Design Based on Unknown Nodal Voltages Method and Its Fractional-Order Counterpart
title_full_unstemmed Novel Reconnection-Less Reconfigurable Filter Design Based on Unknown Nodal Voltages Method and Its Fractional-Order Counterpart
title_sort novel reconnection-less reconfigurable filter design based on unknown nodal voltages method and its fractional-order counterpart
publisher Kaunas University of Technology
series Elektronika ir Elektrotechnika
issn 1392-1215
2029-5731
publishDate 2019-06-01
description A novel solution of reconnection-less electronically reconfigurable filter is introduced in the paper. The filter is designed based on unknown nodal voltages method (MUNV) using operational transconductance amplifiers (OTAs) and variable gain amplifier (VGA). The structure can provide all-pass, band-stop, high-pass 2nd order functions, high-pass function of the 1st order and direct transfer from the same topology without requirement of manual reconnection. The proposed structure also offers the electronic control of the pole frequency. Moreover, fractional-order design of the proposed filter is also provided. The behaviour is verified by simulations using Cadence IC6 (spectre) software.
topic electronic control
electronic reconfiguration
operational transconductance amplifier
reconfigurable filter
universal filter
url http://eejournal.ktu.lt/index.php/elt/article/view/23673
work_keys_str_mv AT lukaslanghammer novelreconnectionlessreconfigurablefilterdesignbasedonunknownnodalvoltagesmethodanditsfractionalordercounterpart
AT romansotner novelreconnectionlessreconfigurablefilterdesignbasedonunknownnodalvoltagesmethodanditsfractionalordercounterpart
AT jandvorak novelreconnectionlessreconfigurablefilterdesignbasedonunknownnodalvoltagesmethodanditsfractionalordercounterpart
AT janjerabek novelreconnectionlessreconfigurablefilterdesignbasedonunknownnodalvoltagesmethodanditsfractionalordercounterpart
AT peteraushakov novelreconnectionlessreconfigurablefilterdesignbasedonunknownnodalvoltagesmethodanditsfractionalordercounterpart
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