Publication detail

Design of an instrumentation amplifier based on current-conveyors in standard CMOS technology

YAHYA, D. SHEHAB, A.

Original Title

Design of an instrumentation amplifier based on current-conveyors in standard CMOS technology

English Title

Design of an instrumentation amplifier based on current-conveyors in standard CMOS technology

Type

conference paper

Language

en

Original Abstract

Implementation of a nonconventional instrumentation amplifier in BiCMOS technology, using CMOS devices only, in describes in this paper. Exploitation of current-conveyors features a high CMPR and minimizes the number of matched resistors compare to the conventional solutions. Current-mode nature of the circuit result also in a constant bandwith amplification.

English abstract

Implementation of a nonconventional instrumentation amplifier in BiCMOS technology, using CMOS devices only, in describes in this paper. Exploitation of current-conveyors features a high CMPR and minimizes the number of matched resistors compare to the conventional solutions. Current-mode nature of the circuit result also in a constant bandwith amplification.

Keywords

instrumentation amplifier, CMOS technology, current-conveyor, current mode, analogue integrated circuits

RIV year

2010

Released

01.09.2010

Publisher

Novpress

Location

Brno

ISBN

978-80-214-4138-5

Book

Electronic Devices and Systems EDS 2010. Sept. 1-2, 2010

Pages from

395

Pages to

398

Pages count

4

BibTex


@inproceedings{BUT101695,
  author="Doaa {W. F. Yahya} and Ayad Khazal {Shehab}",
  title="Design of an instrumentation amplifier based on current-conveyors in standard CMOS technology",
  annote="Implementation of a nonconventional instrumentation amplifier in BiCMOS technology, using CMOS devices only, in describes in this paper. Exploitation of current-conveyors features a high CMPR and minimizes the number of matched resistors compare to the conventional solutions. Current-mode nature of the circuit result also in a constant bandwith amplification.",
  address="Novpress",
  booktitle="Electronic Devices and Systems EDS 2010. Sept. 1-2, 2010",
  chapter="101695",
  howpublished="print",
  institution="Novpress",
  year="2010",
  month="september",
  pages="395--398",
  publisher="Novpress",
  type="conference paper"
}