Publication detail
New Bulk-Driven Class AB CCII
KHATEB, F. KHATIB, N.
Original Title
New Bulk-Driven Class AB CCII
English Title
New Bulk-Driven Class AB CCII
Type
conference paper
Language
en
Original Abstract
Bulk-driven technique has been verified to be a promising candidate in the area of low-voltage low-power techniques. In this paper, class AB current conveyor utilizing bulk-driven technique has been proposed. The proposed circuit was implemented based on CMOS technology to put a step forward in the field of low-voltage low-power applications; the non-ideal model of current conveyor has been explained. The circuit has been simulated at +-0.4 V supply voltage and total power dissipation 27.8 uW. The simulation results have been included to prove the theoretical consideration.
English abstract
Bulk-driven technique has been verified to be a promising candidate in the area of low-voltage low-power techniques. In this paper, class AB current conveyor utilizing bulk-driven technique has been proposed. The proposed circuit was implemented based on CMOS technology to put a step forward in the field of low-voltage low-power applications; the non-ideal model of current conveyor has been explained. The circuit has been simulated at +-0.4 V supply voltage and total power dissipation 27.8 uW. The simulation results have been included to prove the theoretical consideration.
Keywords
Bulk-driven MOST, current conveyor, low-voltage low-power MOST.
RIV year
2011
Released
19.04.2011
Location
Brno
ISBN
978-1-61284-322-3
Book
21st International Conference Radioelektronika 2011
Pages from
115
Pages to
118
Pages count
4
URL
Documents
BibTex
@inproceedings{BUT36364,
author="Fabian {Khateb} and Nabhan {Khatib}",
title="New Bulk-Driven Class AB CCII",
annote="Bulk-driven technique has been verified to be a promising candidate in the area of low-voltage low-power techniques. In this paper, class AB current conveyor utilizing bulk-driven technique has been proposed. The proposed circuit was implemented based on CMOS technology to put a step forward in the field of low-voltage low-power applications; the non-ideal model of current conveyor has been explained. The circuit has been simulated at +-0.4 V supply voltage and total power dissipation 27.8 uW. The simulation results have been included to prove the theoretical consideration.",
booktitle="21st International Conference Radioelektronika 2011",
chapter="36364",
howpublished="electronic, physical medium",
year="2011",
month="april",
pages="115--118",
type="conference paper"
}