BibTex format
@inproceedings{He:2009,
author = {He, C and Arora, A and Kiziroglou, ME and Yates, DC and O'Hare, D and Yeatman, EM},
pages = {207--212},
title = {MEMS Energy Harvesting Powered Wireless Biometric Sensor},
year = {2009}
}
RIS format (EndNote, RefMan)
TY - CPAPER
AB - One of the main challenges in developing wireless biometric sensors is the requirement for integration of various systems into a very compact device. Such systems include sensing units, conditioning electronics, transmitters and power supplies. In this work, a novel system integration architecture is presented. A unique feature of this new architecture is that the sub-systems are selected and designed for direct output-to-input connection. An array of active pH sensors is used to transform a pH level to an electrical potential in the range of 0 - 2 Volts. This signal is amplified by an electrostatic energy harvester suitable for human motion operation. The amplified signal drives a custom LC transmitter specially designed to suit the harvester output. A system of notable simplicity is achieved and may serve as a demonstrator for other wireless sensors.
AU - He,C
AU - Arora,A
AU - Kiziroglou,ME
AU - Yates,DC
AU - O'Hare,D
AU - Yeatman,EM
EP - 212
PY - 2009///
SP - 207
TI - MEMS Energy Harvesting Powered Wireless Biometric Sensor
ER -
