Research Article

Design of Universal Filter using MO-CCCDTA on 32nm FinFET Technology

by  Shantanu Chakraborty
journal cover
International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 144 - Issue 1
Published: Jun 2016
Authors: Shantanu Chakraborty
10.5120/ijca2016910093
PDF

Shantanu Chakraborty . Design of Universal Filter using MO-CCCDTA on 32nm FinFET Technology. International Journal of Computer Applications. 144, 1 (Jun 2016), 36-39. DOI=10.5120/ijca2016910093

                        @article{ 10.5120/ijca2016910093,
                        author  = { Shantanu Chakraborty },
                        title   = { Design of Universal Filter using MO-CCCDTA on 32nm FinFET Technology },
                        journal = { International Journal of Computer Applications },
                        year    = { 2016 },
                        volume  = { 144 },
                        number  = { 1 },
                        pages   = { 36-39 },
                        doi     = { 10.5120/ijca2016910093 },
                        publisher = { Foundation of Computer Science (FCS), NY, USA }
                        }
                        %0 Journal Article
                        %D 2016
                        %A Shantanu Chakraborty
                        %T Design of Universal Filter using MO-CCCDTA on 32nm FinFET Technology%T 
                        %J International Journal of Computer Applications
                        %V 144
                        %N 1
                        %P 36-39
                        %R 10.5120/ijca2016910093
                        %I Foundation of Computer Science (FCS), NY, USA
Abstract

The paper aims at designing a universal filter using current mode circuit. The main advantages of current mode circuits over voltage mode circuits are better linearity in performance,higher bandwidth responses, low noise performances. The preferred technology is 32nm FinFET technology since CMOS technology shows short channel effects and DIBL (Drain Induced Bareer Lowering) which hampers the performance of the circuit. As channel length reduces from 45nm CMOS technology to 32nm technology, the FinFET technology shows superior performances. The paper shows all the responses ( Low Pass, High Pass,Band Pass and Band Reject) of the Universal Filter. Bias currents are applied to reduce the effects of parasitic capacitances and resistances in the circuit. The circuit uses the MO-CCCDTA as the building block of the filter.The simulation is done on HSPICE software.

References
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Index Terms
Computer Science
Information Sciences
No index terms available.
Keywords

Bandwidth FinFET HSPICE MO-CCCDTA(modified output current controlled current differencing transconductance amplifier) short channel effects.

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