Title :
Performance metrics for thermoelectric energy harvesting studied using a novel planar 65 nm silicon CMOS-based thermopile
Author :
Edwards, Hal ; Debord, Jeff ; Tran, Thomas ; Freeman, D. ; Maggio, Ken
Author_Institution :
Texas Instrum., Inc., Dallas, TX, USA
Abstract :
We present a study of thermoelectric energy harvesting with nano-sized thermopiles (nTE) in a planar 65 nm silicon CMOS process. These devices generated power from a 5C temperature difference at a density comparable to commercially available thermoelectric generators, following a metric used in the research literature [1]. By analyzing a thermoelectric harvesting system, we explore the impact of additional performance metrics such as heat source/sink thermal impedance, available heat flow density, and voltage stacking, providing a more comprehensive set of criteria for evaluating the suitability of harvesting technology.
Keywords :
CMOS integrated circuits; elemental semiconductors; energy harvesting; silicon; thermoelectric conversion; thermopiles; 5C temperature difference; Si; heat flow density; heat source-sink thermal impedance; nTE; nanosized thermopile; planar silicon CMOS-based thermopile; power generation; size 65 nm; temperature 5 C; thermoelectric energy harvesting system; thermoelectric generator; voltage stacking; Arrays; Heat sinks; Heating; Impedance; Silicon; Thermoelectric devices;
Conference_Titel :
SENSORS, 2013 IEEE
Conference_Location :
Baltimore, MD
DOI :
10.1109/ICSENS.2013.6688611
