A 6-bit, 0.2 V to 0.9 V Highly Digital Flash ADC With Comparator Redundancy

Author

Daly, Denis C. ; Chandrakasan, Anantha P.

Author_Institution

Energic Semicond., Cambridge, MA, USA

Volume

44

Issue

11

fYear

2009

Firstpage

3030

Lastpage

3038

Abstract

A 6-bit highly digital flash ADC is implemented in a 0.18 mum CMOS process. The ADC operates in the subthreshold regime down to 200 mV and employs comparator redundancy and reconfigurability to improve linearity. The low-voltage sampling switch employs voltage boosting, stacking and feedback to reduce leakage. Common-mode rejection is implemented digitally via an IIR filter. The minimum FOM of the ADC is 125 fJ/conversion-step at a 0.4 V supply, where it achieves an ENOB of 5.05 at 400 kS/s. The clocked comparators´ switching thresholds are adjusted through a combination of device sizing and stacking. A quadratic relationship between the amount of device stacking and the strength of an input network in the subthreshold regime is derived, demonstrating an advantage of stacking over device width scaling to adjust comparator thresholds.

Keywords

CMOS digital integrated circuits; IIR filters; analogue-digital conversion; comparators (circuits); CMOS process; IIR filter; common-mode rejection; comparator redundancy; digital flash ADC; feedback; size 0.18 mum; voltage 0.2 V to 0.9 V; voltage boosting; voltage stacking; word length 6 bit; Boosting; CMOS process; Clocks; Feedback; IIR filters; Linearity; Sampling methods; Stacking; Switches; Voltage; ADC; analog-digital conversion; calibration; comparators (circuits); low-power electronics; reassignment; redundancy; ultra-low-voltage operation;

fLanguage

English

Journal_Title

Solid-State Circuits, IEEE Journal of

Publisher

ieee

ISSN

0018-9200

Type

jour

DOI

10.1109/JSSC.2009.2032699

Filename

5308602