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Chapter

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Title

An examination of the effect of feature size scaling on effective power consumption in analog to digital converters

Authors

[ 1 ] Katedra Sterowania i Inżynierii Systemów (KI), Wydział Informatyki i Zarządzania, Politechnika Poznańska | [ P ] employee

Year of publication

2006

Chapter type

paper

Publication language

english

Abstract

EN Wireless sensor network (WSN) nodes require components with ultra-low power consumption, as they must operate without an external power supply. One technique for reducing consumption of a system is to scale it to a smaller technology; however, in recent technologies is not clear whether the decrease in dynamic power consumption outweighs the increase in static power consumption (due to leakage currents). Here this is considered by examining the power consumption of three implementations of an analog to digital converter (ADC). One in 350 nm, one in 180 nm, and one in 90 nm, were simulated and compared. The results show that the dynamic power consumption was reduced by a factor of four over the three technologies, but standby power consumption increased by an order of magnitude. The power consumption of the 180 nm implementation was always lower than the 350 nm implementation. However, assuming a WSN application with a duty cycle of 1%, the effective power consumption of the 90 nm ADC was higher than both the 180 nm and the 350 nm implementation. This highlights the dominance of leakage current in determining the effective power consumption in low-throughput nodes.

Pages (from - to)

194 - 199

DOI

10.1109/SIPS.2006.352580

URL

https://ieeexplore.ieee.org/document/4161850

Book

2006 IEEE Workshop on Signal Processing Systems Design and Implementation : Baniff, Canada, October 2-4, 2006

Presented on

2006 IEEE Workshop on Signal Processing Systems Design and Implementation, 2-4.10.2006, Baniff, Canada

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