Sensor compensation using analogue-digital adaptive circuits

Sensor nonlinearities, ageing, temperature changes and other physical dependences force to include conditioning circuits in electronic measurement and control systems. This paper shows an analogue-digital processing architecture based on an adaptive circuit designed to extend the linear range of an...

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Main Authors: Medrano-Marques, N., Zatorre-Navarro, G., Celma-Pueyo, S.
Format: Conference Proceeding
Language:English
Subjects:
Aging
Circuits
Force control
Force measurement
Force sensors
Intelligent sensors
Nonlinear control systems
Sensor systems
Temperature dependence
Temperature sensors
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creator Medrano-Marques, N.
Zatorre-Navarro, G.
Celma-Pueyo, S.
description Sensor nonlinearities, ageing, temperature changes and other physical dependences force to include conditioning circuits in electronic measurement and control systems. This paper shows an analogue-digital processing architecture based on an adaptive circuit designed to extend the linear range of an angular position sensor, compensating the output drift due to temperature variations. System-level simulations give a temperature-independent linear output in the range of 293-353 K, with an accuracy of 2 degrees in the angular position. Inherent low power and low size characteristics make these circuits valuable to implementing the "smartness" part of smart sensors
doi_str_mv 10.1109/ISCAS.2006.1692816
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Aging
Circuits
Force control
Force measurement
Force sensors
Intelligent sensors
Nonlinear control systems
Sensor systems
Temperature dependence
Temperature sensors
title Sensor compensation using analogue-digital adaptive circuits
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