Title :
Thermoelectric generator for stand-alone electronic device operation in temperature test cabinets
Author :
Neiser, Arne ; Seehase, Dirk ; Fink, Andreas ; Lehnzen, Kevin ; Beikirch, Helmut
Author_Institution :
Inst. of Electron. Appliances & Circuits, Rostock Univ., Rostock, Germany
Abstract :
When testing printed circuit boards in-situ in a test cabinet with a wireless connection, it is very hard to store the necessary energy, especially in a high temperature environment. With a thermoelectric generator (TEG) as an independent energy source in a climate test cabinet, the battery or the external power cable connections for the device under test (DUT) can be omitted. In this paper, we investigate the usability of a TEG in terms of how much energy can be produced by different test utilizations. To have an orientation of the maximum energy a TEG can harvest in such a cabinet, it is inevitable to create some boundary values with the equations based on the Seebeck effect. First experiment results prove that it is possible to archive enough energy to power low-energy radio transceivers for the in-situ data acquisition with a low duty cycle.
Keywords :
Seebeck effect; data acquisition; energy harvesting; power cables; printed circuits; radio transceivers; thermoelectric conversion; DUT; Seebeck effect; TEG; data acquisition; device under test; duty cycle; energy source; power cable connections; printed circuit boards testing; radio transceivers; stand-alone electronic device operation; temperature test cabinets; test cabinet; thermoelectric generator; wireless connection; Generators; Heat sinks; Mathematical model; Resistance; Temperature measurement; Temperature sensors; Voltage measurement;
Conference_Titel :
Electronics Technology (ISSE), Proceedings of the 2014 37th International Spring Seminar on
Conference_Location :
Dresden
DOI :
10.1109/ISSE.2014.6887588
