TY - JOUR
T1 - Spatial equivalent circuit model for simulation of on-chip thermoelectric harvesters
AU - Lineykin, Simon
AU - Sitbon, Moshe
AU - Kuperman, Alon
N1 - Publisher Copyright:
© 2020 by the authors.
PY - 2020/6/1
Y1 - 2020/6/1
N2 - Interest in autonomous low-power energy sources has risen with the development and widespread use of devices with very low energy consumption. Interest in thermoelectric harvesters has increased against this background. Thermoelectric harvesters, especially harvesters on-chip, have peculiar properties related to the thermal route, thermal transients, and spatial temperature distribution within the chip. A behavioral model of the harvester is required for engineers to successfully develop voltage converters with maximum power point tracking and energy storage units. There are accurate models based on the finite element method, but these models are usually not compatible with simulators of electrical circuits, and therefore are not convenient for designers. Existing equivalent circuit models fit this requirement, but usually do not consider many parameters. This article proposes an original method that allows simulating spatial thermoelectric processes by analogy with the finite difference method, using electrical circuits simulations software. The study proposes a complete methodology for building the model and examples of simulations of one-, twoand three-dimensional problems, as well as examples of simulation of macro problems in the presence of external thermal and electrical devices, such as heatsink and electrical load.
AB - Interest in autonomous low-power energy sources has risen with the development and widespread use of devices with very low energy consumption. Interest in thermoelectric harvesters has increased against this background. Thermoelectric harvesters, especially harvesters on-chip, have peculiar properties related to the thermal route, thermal transients, and spatial temperature distribution within the chip. A behavioral model of the harvester is required for engineers to successfully develop voltage converters with maximum power point tracking and energy storage units. There are accurate models based on the finite element method, but these models are usually not compatible with simulators of electrical circuits, and therefore are not convenient for designers. Existing equivalent circuit models fit this requirement, but usually do not consider many parameters. This article proposes an original method that allows simulating spatial thermoelectric processes by analogy with the finite difference method, using electrical circuits simulations software. The study proposes a complete methodology for building the model and examples of simulations of one-, twoand three-dimensional problems, as well as examples of simulation of macro problems in the presence of external thermal and electrical devices, such as heatsink and electrical load.
KW - Circuit simulator
KW - Equivalent circuit model
KW - Low power generator
KW - Miniaturized generator
KW - On-chip generator
KW - Thermal electrical analogies
KW - Thermoelectric generator
KW - Thermoelectric harvester
UR - http://www.scopus.com/inward/record.url?scp=85087951740&partnerID=8YFLogxK
U2 - 10.3390/mi11060574
DO - 10.3390/mi11060574
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AN - SCOPUS:85087951740
SN - 2072-666X
VL - 11
SP - 1
EP - 19
JO - Micromachines
JF - Micromachines
IS - 6
M1 - 574
ER -