Integrating ADC using a single transistor as integrator and amplifier for very low (1 fA minimum) input currents

Author

Uster, M. ; Loeliger, T. ; Guggenbuhl, W. ; Jäckel, H.

Author_Institution

Electron. Lab., Fed. Inst. of Technol., Switzerland

fYear

1999

fDate

1999

Firstpage

86

Lastpage

89

Abstract

In this paper a new analog-to-digital converter (ADC) architecture for the conversion of currents down to the subpicoampere range is presented. A single transistor stage is used to integrate and amplify the input current resulting in simple and area-effective designs. Although the transfer function of the transistor is not linear, inherent linearity of the conversion is achieved by a constant transistor voltage swing and correlated double sampling. The circuit is well suited for highly integrated sensor systems due to its full compatibility with digital CMOS technology and low area requirements. The current-mode design allows low-voltage operation and results in wide dynamic range (140 dB with superimposed bias current) depending only on timing requirements

Keywords

analogue-digital conversion; 1 fA; area requirements; area-effective designs; constant transistor voltage swing; correlated double sampling; digital CMOS technology compatibility; dynamic range; highly integrated sensor systems; inherent linearity; input currents; integrating ADC; low-voltage operation; subpicoampere range; superimposed bias current; timing requirements; transfer function;

fLanguage

English

Publisher

iet

Conference_Titel

Advanced A/D and D/A Conversion Techniques and Their Applications, 1999. Third International Conference on (Conf. Publ. No. 466)

Conference_Location

Glasgow

ISSN

0537-9989

Print_ISBN

0-85296-718-7

Type

conf

DOI

10.1049/cp:19990470

Filename

793978