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Load Dependence Behavior Of The Thermoelectric Module Energy Harvesting System By Inverse Dynamic Analysis–Maximum Power Point Tracking

This paper presents the characterization behavior of a thermoelectric module (TEM) analysis by the implementation of a new inverse dynamic analysis–maximum power point tracking (IDA-MPPT), with different load resistance values to the common maximum power point circuit (MPPC) controller. In this stud...

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Main Authors: R. Mohamed, R. Mohamed, A. Mohamed, A. Mohamed, Md Yusop, Azdiana, Sulaiman, Noor Asyikin
Format: Article
Language:English
Published: Science Publishing Corporation 2019
Online Access:http://eprints.utem.edu.my/id/eprint/24792/2/IJET-25969.PDF
http://eprints.utem.edu.my/id/eprint/24792/
https://www.sciencepubco.com/index.php/ijet/article/view/25969/13324
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spelling my.utem.eprints.247922020-12-10T10:34:05Z http://eprints.utem.edu.my/id/eprint/24792/ Load Dependence Behavior Of The Thermoelectric Module Energy Harvesting System By Inverse Dynamic Analysis–Maximum Power Point Tracking R. Mohamed, R. Mohamed A. Mohamed, A. Mohamed Md Yusop, Azdiana Sulaiman, Noor Asyikin This paper presents the characterization behavior of a thermoelectric module (TEM) analysis by the implementation of a new inverse dynamic analysis–maximum power point tracking (IDA-MPPT), with different load resistance values to the common maximum power point circuit (MPPC) controller. In this study, a conventional TEM test unit measurement is performed consists of a hotplate and a TEM module. The two MPPC boards are fed with the harvested voltage from the TEM module and a supercapacitor is linked with it. The load resistor is then fed with the boosted voltage of the second board. The three phases experimental analysis is introduced in a closed loop manner. There are, TEM system analysis without the IDA-MPPT implementation, TEM system analysis with IDA-MPPT implementation, and a newly developed IDA-MPPT unit experimental analysis. Results have shown that the TEM system with IDA-MPPT implementation with 1kΩ resistor is capable of achieving 5V output stable line voltages with 83.33% efficiency. In conclusion, with the input stable voltage of the MPPC board from the new input –shaping process, a satisfactory load behavior is achievable by its voltage readings. Science Publishing Corporation 2019 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/24792/2/IJET-25969.PDF R. Mohamed, R. Mohamed and A. Mohamed, A. Mohamed and Md Yusop, Azdiana and Sulaiman, Noor Asyikin (2019) Load Dependence Behavior Of The Thermoelectric Module Energy Harvesting System By Inverse Dynamic Analysis–Maximum Power Point Tracking. International Journal of Engineering & Technology, 8 (1.7). pp. 138-145. ISSN 2227-524X https://www.sciencepubco.com/index.php/ijet/article/view/25969/13324
institution Universiti Teknikal Malaysia Melaka
building UTEM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknikal Malaysia Melaka
content_source UTEM Institutional Repository
url_provider http://eprints.utem.edu.my/
language English
description This paper presents the characterization behavior of a thermoelectric module (TEM) analysis by the implementation of a new inverse dynamic analysis–maximum power point tracking (IDA-MPPT), with different load resistance values to the common maximum power point circuit (MPPC) controller. In this study, a conventional TEM test unit measurement is performed consists of a hotplate and a TEM module. The two MPPC boards are fed with the harvested voltage from the TEM module and a supercapacitor is linked with it. The load resistor is then fed with the boosted voltage of the second board. The three phases experimental analysis is introduced in a closed loop manner. There are, TEM system analysis without the IDA-MPPT implementation, TEM system analysis with IDA-MPPT implementation, and a newly developed IDA-MPPT unit experimental analysis. Results have shown that the TEM system with IDA-MPPT implementation with 1kΩ resistor is capable of achieving 5V output stable line voltages with 83.33% efficiency. In conclusion, with the input stable voltage of the MPPC board from the new input –shaping process, a satisfactory load behavior is achievable by its voltage readings.
format Article
author R. Mohamed, R. Mohamed
A. Mohamed, A. Mohamed
Md Yusop, Azdiana
Sulaiman, Noor Asyikin
spellingShingle R. Mohamed, R. Mohamed
A. Mohamed, A. Mohamed
Md Yusop, Azdiana
Sulaiman, Noor Asyikin
Load Dependence Behavior Of The Thermoelectric Module Energy Harvesting System By Inverse Dynamic Analysis–Maximum Power Point Tracking
author_facet R. Mohamed, R. Mohamed
A. Mohamed, A. Mohamed
Md Yusop, Azdiana
Sulaiman, Noor Asyikin
author_sort R. Mohamed, R. Mohamed
title Load Dependence Behavior Of The Thermoelectric Module Energy Harvesting System By Inverse Dynamic Analysis–Maximum Power Point Tracking
title_short Load Dependence Behavior Of The Thermoelectric Module Energy Harvesting System By Inverse Dynamic Analysis–Maximum Power Point Tracking
title_full Load Dependence Behavior Of The Thermoelectric Module Energy Harvesting System By Inverse Dynamic Analysis–Maximum Power Point Tracking
title_fullStr Load Dependence Behavior Of The Thermoelectric Module Energy Harvesting System By Inverse Dynamic Analysis–Maximum Power Point Tracking
title_full_unstemmed Load Dependence Behavior Of The Thermoelectric Module Energy Harvesting System By Inverse Dynamic Analysis–Maximum Power Point Tracking
title_sort load dependence behavior of the thermoelectric module energy harvesting system by inverse dynamic analysis–maximum power point tracking
publisher Science Publishing Corporation
publishDate 2019
url http://eprints.utem.edu.my/id/eprint/24792/2/IJET-25969.PDF
http://eprints.utem.edu.my/id/eprint/24792/
https://www.sciencepubco.com/index.php/ijet/article/view/25969/13324
_version_ 1687397263388704768
score 13.23648

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