Article Title

FGMOS-based differential difference CCCII and its applications

Authors

ÖKKEŞ GÖKALP SÖKMEN
SEZAİ ALPER TEKİN
HAMDİ ERCAN
MUSTAFA ALÇI

DOI

10.3906/elk-1402-36

Abstract

controlled current conveyor (DDCCC) is proposed in this paper. Major advantages of the FGMOS-based DDCCC are low power dissipation and simplicity. The proposed circuit is designed using only 14 MOS transistors. The total power dissipation of the proposed circuit is equal to 7.38 $\mu $W. The other advantage of this circuit is that intrinsic resistance seen at port X of the DDCCC can easily be tuned by a biasing current. The tuning range of the intrinsic resistance is rather wide. Additionally, a current controlled universal filter and tunable positive and negative active resistors are presented as applications of the proposed circuit. The DDCCC and its applications are simulated using SPICE in 0.18 $\mu $m CMOS technology.

Keywords

Current mode circuit, current conveyor, FGMOS transistor, low power

First Page

2401

Last Page

2411

Recommended Citation

SÖKMEN, ÖKKEŞ GÖKALP; TEKİN, SEZAİ ALPER; ERCAN, HAMDİ; and ALÇI, MUSTAFA (2016) "FGMOS-based differential difference CCCII and its applications," Turkish Journal of Electrical Engineering and Computer Sciences: Vol. 24: No. 4, Article 28. https://doi.org/10.3906/elk-1402-36
Available at: https://journals.tubitak.gov.tr/elektrik/vol24/iss4/28