New Thermoelectric Sensor Adapted to Realize an Infrared Radiations Detector

New Thermoelectric Sensor Adapted to Realize an Infrared Radiations Detector

The present paper deals with the design and the realization of a new thermoelectric sensor (Seebeck), sensitive to the infrared radiations emitted by different sources. The function mechanism utilizes radiative absorption phenomena, heat transfer, and thermoelectric effects. The sensor includes two...

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Main Authors: Mohammed Rahmoun, Khalid Hachami, Abdelwahad Touil, Benaissa Bellach, Mohammed Bailich, Ammar Merdani
Format: Article
Language:English
Published: Hindawi Limited 2011-01-01
Series:Active and Passive Electronic Components
Online Access:http://dx.doi.org/10.1155/2011/708361
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spelling doaj-b6749992b0a146038a27b32cdc1909aa2020-11-24T21:44:37ZengHindawi LimitedActive and Passive Electronic Components0882-75161563-50312011-01-01201110.1155/2011/708361708361New Thermoelectric Sensor Adapted to Realize an Infrared Radiations DetectorMohammed Rahmoun0Khalid Hachami1Abdelwahad Touil2Benaissa Bellach3Mohammed Bailich4Ammar Merdani5Electronics and Telecommunications Team, School of Applied Sciences Engineering, University Med Premier, Oujda, MoroccoElectronics and Telecommunications Team, School of Applied Sciences Engineering, University Med Premier, Oujda, MoroccoElectronics and Telecommunications Team, School of Applied Sciences Engineering, University Med Premier, Oujda, MoroccoElectronics and Telecommunications Team, School of Applied Sciences Engineering, University Med Premier, Oujda, MoroccoElectronics and Telecommunications Team, School of Applied Sciences Engineering, University Med Premier, Oujda, MoroccoElectronics and Telecommunications Team, School of Applied Sciences Engineering, University Med Premier, Oujda, MoroccoThe present paper deals with the design and the realization of a new thermoelectric sensor (Seebeck), sensitive to the infrared radiations emitted by different sources. The function mechanism utilizes radiative absorption phenomena, heat transfer, and thermoelectric effects. The sensor includes two printed circuits, the first is a planar thermoelectric circuit constituted of many plated differential thermocouples, and the second is constituted of a resistive constantan track and placed at the top of the first circuit so that the constantan track is placed on the top of the even thermocouple junctions. The constantan track, covered with a resin of great absorptivity, collects the infra-red radiations and generates temperature gradients between the junction points of the first circuit. Then the resulting temperature differences between the junction points are directly converted into a proportional Seebeck voltage. As an application, the sensor is adapted in order to realize a device for detecting infrared radiations, and the results are very encouraging.http://dx.doi.org/10.1155/2011/708361
collection DOAJ
language English
format Article
sources DOAJ
author Mohammed Rahmoun
Khalid Hachami
Abdelwahad Touil
Benaissa Bellach
Mohammed Bailich
Ammar Merdani
spellingShingle Mohammed Rahmoun
Khalid Hachami
Abdelwahad Touil
Benaissa Bellach
Mohammed Bailich
Ammar Merdani
New Thermoelectric Sensor Adapted to Realize an Infrared Radiations Detector
Active and Passive Electronic Components
author_facet Mohammed Rahmoun
Khalid Hachami
Abdelwahad Touil
Benaissa Bellach
Mohammed Bailich
Ammar Merdani
author_sort Mohammed Rahmoun
title New Thermoelectric Sensor Adapted to Realize an Infrared Radiations Detector
title_short New Thermoelectric Sensor Adapted to Realize an Infrared Radiations Detector
title_full New Thermoelectric Sensor Adapted to Realize an Infrared Radiations Detector
title_fullStr New Thermoelectric Sensor Adapted to Realize an Infrared Radiations Detector
title_full_unstemmed New Thermoelectric Sensor Adapted to Realize an Infrared Radiations Detector
title_sort new thermoelectric sensor adapted to realize an infrared radiations detector
publisher Hindawi Limited
series Active and Passive Electronic Components
issn 0882-7516
1563-5031
publishDate 2011-01-01
description The present paper deals with the design and the realization of a new thermoelectric sensor (Seebeck), sensitive to the infrared radiations emitted by different sources. The function mechanism utilizes radiative absorption phenomena, heat transfer, and thermoelectric effects. The sensor includes two printed circuits, the first is a planar thermoelectric circuit constituted of many plated differential thermocouples, and the second is constituted of a resistive constantan track and placed at the top of the first circuit so that the constantan track is placed on the top of the even thermocouple junctions. The constantan track, covered with a resin of great absorptivity, collects the infra-red radiations and generates temperature gradients between the junction points of the first circuit. Then the resulting temperature differences between the junction points are directly converted into a proportional Seebeck voltage. As an application, the sensor is adapted in order to realize a device for detecting infrared radiations, and the results are very encouraging.
url http://dx.doi.org/10.1155/2011/708361
work_keys_str_mv AT mohammedrahmoun newthermoelectricsensoradaptedtorealizeaninfraredradiationsdetector
AT khalidhachami newthermoelectricsensoradaptedtorealizeaninfraredradiationsdetector
AT abdelwahadtouil newthermoelectricsensoradaptedtorealizeaninfraredradiationsdetector
AT benaissabellach newthermoelectricsensoradaptedtorealizeaninfraredradiationsdetector
AT mohammedbailich newthermoelectricsensoradaptedtorealizeaninfraredradiationsdetector
AT ammarmerdani newthermoelectricsensoradaptedtorealizeaninfraredradiationsdetector
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