1-V Low-Power Programmable Rail-to-Rail Operational Amplifier With Improved Transconductance Feedback Technique

Author

Shanshan Dai ; Xiaofei Cao ; Ting Yi ; Hubbard, Allyn E. ; Zhiliang Hong

Author_Institution

Dept. of Electr. & Comput. Eng., Boston Univ., Boston, MA, USA

Volume

21

Issue

10

fYear

2013

Firstpage

1928

Lastpage

1935

Abstract

A low-power process-independent programmable transconductance rail-to-rail operational amplifier (OpAmp) is proposed. It employs an improved transconductance feedback loop that senses the transconductance (g_mT) accurately and enforces it to be equal to the conductance of a reference resistor. Experimental results in a 0.13- μm standard CMOS technology under a 1-V power supply demonstrate a continuous programmable g_mT range from 87 to 165 μA/V with minimum fluctuation of ±2.4% and programmable deviation less than 4.5% from the reference value. The OpAmp achieves a unity-gain bandwidth of 3.7 MHz with a 95-pF load while only consuming 187 μA of quiescent current. The figure of merit of the proposed OpAmp is 1879 MHz·pF/mA.

Keywords

CMOS integrated circuits; feedback; low-power electronics; operational amplifiers; capacitance 95 pF; current 187 muA; figure of merit; frequency 3.7 MHz; programmable deviation; reference resistor; size 0.13 mum; transconductance feedback loop; unity gain bandwidth; voltage 1 V; Feedback loop; Logic gates; Rails; Resistance; Resistors; Transconductance; Transistors; Constant transconductance; low power; operational amplifier; programmable; rail-to-rail;

fLanguage

English

Journal_Title

Very Large Scale Integration (VLSI) Systems, IEEE Transactions on

Publisher

ieee

ISSN

1063-8210

Type

jour

DOI

10.1109/TVLSI.2012.2220387

Filename

6353257