Specialized Software and Hardware for Impedance Spectroscopy of Thermoelectric Energy Converters

Dunets, Roman; Dzundza, Bogdan; Kostyuk, O. B.

doi:10.23939/istcmtm2020.04.018

Cited by 1 publication

(1 citation statement)

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“…The obtained results (Fig. 8) are in good agreement with the data given in the technical documentation for the industrial thermoelectric modules and with previous studies by direct measurements on samples obtained from the same material under identical deposition conditions for thin films [18]. The discrepancies did not exceed 3-5 %.…”

Section: Discussion Of Research Resultssupporting

confidence: 91%

Features for the design of a specialized information-measuring system for the study of thermoelectric properties of semiconductors

Dunets

Dzundza

Turovska

et al. 2021

EEJET

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Methods for studying thermoelectric parameters of semiconductors that are optimal for the implementation of software and hardware have been analyzed and selected. It is based on the Harman method and its modifications, adapted for pulse measurements, which are convenient to implement on a modern element base. An important advantage of these methods is the absence of the need for accurate measurements of heat fluxes, which greatly simplifies and reduces the time for conducting experimental research. The required operating ranges for the voltage 10 µV–1 V, for the current 10 µA–300 mA and the element base performance at the processing level of 40–200 million samples per second have been determined. Structural and electrical circuits, as well as software for a specialized computer system for studying thermoelectric parameters of both bulk and thin-film thermoelectric materials, and express analysis of the operational characteristics of finished modules have been developed. It has been shown that the proposed scheme copes well with the task. And the use of FPGA and 32-bit microcontrollers provide sufficient processing speed up to 200 MSPS and the necessary synchronization modes for the implementation of the Harman pulse method even when studying films of nanometer thickness. Experimental studies of both bulk thermoelectric modules based on Bi2Te3 and thin-film thermoelectric material based on PbTe have been carried out. The effectiveness of the developed tools and techniques has been shown, which made it possible to more than halve the time for sample preparation and experiment. Based on the presented models, all the main thermoelectric and operational parameters have been determined, in particular, electrical conductivity, Seebeck coefficient, thermal conductivity, thermoelectric figure of merit. As a result of the development of specialized computer tools, it was possible to reduce the labor intensity of the process of measuring the main electrical and operational parameters of semiconductor thermoelectric materials and energy conversion modules based on them, as well as to automate the process of defects identification of thermoelectric modules. The labor intensity of the research process has decreased not only due to the automation of the measurement process, but also due to an optimized technique that allows research on a sample of one configuration, since the manufacture and preparation of samples are the most laborious

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Section: Discussion Of Research Resultssupporting

confidence: 91%