An Active-Only Temperature-Insensitive Current-Mode Biquad Filter Based on Differentiator Structures Employing CCCCTAs

Supawat Lawanwisut; Montree Siripruchyanun; Winai Jaikla

doi:10.4236/cs.2013.43038

Circuits and Systems > Vol.4 No.3, July 2013

An Active-Only Temperature-Insensitive Current-Mode Biquad Filter Based on Differentiator Structures Employing CCCCTAs

Supawat Lawanwisut, Montree Siripruchyanun, Winai Jaikla
Department of Engineering Education, Faculty of Industrial Education, King Mongkut’s Institute of Technology Ladkrabang, Bangkok, Thailand.
Department of Teacher Training in Electrical Engineering, Faculty of Technical Education, King Mongkut’s University of Technology North Bangkok, Bangkok, Thailand.
DOI: 10.4236/cs.2013.43038 PDF HTML 3,627 Downloads 5,631 Views Citations

Abstract

This article presents an active-only current-mode universal biquad filter performing three standard functions: low-pass, high-pass and band-pass function, which can be readily modified to achieve the rest functions (band-stop and all-pass). The circuit principle is based on active-only circuit designed by using differentiators which are constructed from current controlled current conveyor transconductance amplifier (CCCCTA) cooperating with an internally frequency compensated operational amplifier (OA). The features of the circuit are that: the pole frequency and quality factor can be independently tuned via the input bias currents and it is ideally temperature-insensitive, its circuit description is very simple, consisting of 3 CCCCTAs and 2 operational amplifiers, and the proposed circuit is very appropriate for further developing into integrated circuit architecture. The PSpice simulation results are shown. The given results agree well with the theoretical anticipation.

Keywords

Active-Only; CCCCTA; Current-Mode; Biquad Filter

Share and Cite:

Lawanwisut, S. , Siripruchyanun, M. and Jaikla, W. (2013) An Active-Only Temperature-Insensitive Current-Mode Biquad Filter Based on Differentiator Structures Employing CCCCTAs. Circuits and Systems, 4, 280-286. doi: 10.4236/cs.2013.43038.

Conflicts of Interest

The authors declare no conflicts of interest.

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