Thermoelectric Converters of Human Warmth for Self-Powered Wireless Sensor Nodes

Author

Leonov, Vladimir ; Torfs, Tom ; Fiorini, Paolo ; Van Hoof, Chris

Author_Institution

IMEC, Leuven

Volume

7

Issue

5

fYear

2007

fDate

5/1/2007 12:00:00 AM

Firstpage

650

Lastpage

657

Abstract

Solar cells are the most commonly used devices in customer products to achieve power autonomy. This paper discusses a complementary approach to provide power autonomy to devices on a human body, i.e., thermoelectric conversion of human heat. In indoor applications, thermoelectric converters on the skin can provide more power per square centimeter than solar cells, particularly in adverse illumination conditions. Moreover, they work day and night. The first sensor nodes powered by human heat have been demonstrated and tested on people in 2004-2005. They used the state-of-the-art 100-muW watch-size thermoelectric wrist generators fabricated at IMEC and based on custom-design small-size BiTe thermopiles. The sensor node is completed with a power conditioning module, a microcontroller, and a wireless transceiver mounted on a watchstrap

Keywords

biosensors; microcontrollers; thermoelectric conversion; thermopiles; transceivers; wireless sensor networks; 100 muW; BiTe thermopiles; human body; human heat; human warmth; microcontroller; power conditioning module; thermoelectric converters; thermoelectric wrist generators; wireless sensor nodes; wireless transceiver; Humans; Lighting; Photovoltaic cells; Skin; Testing; Thermal sensors; Thermoelectric devices; Thermoelectricity; Wireless sensor networks; Wrist; Bismuth telluride; body-area network; energy scavenger; thermoelectric generator (TEG); thermopile; wireless sensor;

fLanguage

English

Journal_Title

Sensors Journal, IEEE

Publisher

ieee

ISSN

1530-437X

Type

jour

DOI

10.1109/JSEN.2007.894917

Filename

4154682