Very-low-tranconductance CMOS amplifier using multi-tanh bulk-driven input stage with gate-controlled assymetry for Gm-C applications

Author

Robles, O. ; Baruqui, F.

Author_Institution

Analog & Digital Signal Process. Lab., Fed. Univ. of Rio de Janeiro, Rio de Janeiro, Brazil

fYear

2013

fDate

Feb. 27 2013-March 1 2013

Firstpage

1

Lastpage

4

Abstract

A novel structure of the multi-tanh bulk-driven input stage OTA is presented in this paper. The circuit was designed and simulated in a 130nm CMOS process. The results show a nominal transconductance of 1.593 nS with an input linear range of 400 mVpp, assuming a THD no greater than -40 dB. The system supply voltage is 1.2 V (given by the technology), and the power consumption goes up to 315.7 nW. The achieved ultra low transconductance, along with the wide linear range (33% of the dynamic range) makes the transconductor highly suitable for low-frequency biomedical G_m-C applications. Furthermore, Monte Carlo analysis was conducted and showed the circuit possesses high resilience to process variation and mismatch: transconductance´s standard deviation lower than 4% of its nominal value, and maximum THD of -40 dB.

Keywords

CMOS analogue integrated circuits; Monte Carlo methods; harmonic distortion; operational amplifiers; CMOS process; Monte Carlo analysis; THD; gate-controlled assymetry; low-frequency biomedical applications; multitanh bulk-driven input stage OTA; nominal transconductance; power 315.7 nW; size 130 nm; standard deviation; time 1.593 ns; ultralow transconductance; very-low-tranconductance CMOS amplifier; voltage 1.2 V; voltage 400 mV; CMOS integrated circuits; Equations; Generators; Logic gates; Power demand; Resilience; Transconductance;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems (LASCAS), 2013 IEEE Fourth Latin American Symposium on

Conference_Location

Cusco

Print_ISBN

978-1-4673-4897-3

Type

conf

DOI

10.1109/LASCAS.2013.6519035

Filename

6519035