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D. Samson, M. Kluge, Th. Becker, U. Schmid:
"Energy Harvesting for Autonomous Wireless Sensor Nodes in Aircraft";
Procedia Engineering, 5 (2010), S. 1160 - 1163.

An energy autonomous wireless sensor system consisting of an energy harvesting power source, an energy management unit and
a low power wireless sensor node is tested for aircraft applications. The autonomous power source combines aircraft specific
outside temperature changes with a thermoelectric generator (TEG) and a heat storage unit. The temperature difference generated
with the latter component artificially at the TEG is used to power the sensor node. Additionally, a high efficient low input voltage
power management circuit is necessary to store the generated energy and to convert it to higher voltage levels needed to operate
the sensor. The experimental data are compared with results from numerical simulation models to predict the energy conversion
in the heat storage - TEG system. A new TEG prototype is tested and it is expected that the energy output is improved up to 15%.
The power management storage capacitors are adapted to the available energy, thereby increasing storage voltage and conversion
efficiency. Doing so, the efficiency of the complete system can be increased by ~50%.

energy harvesting; thermoelectric generator; phase-change material; power management; wireless sensor network