Dispersion of Heat Flux Sensors Manufactured in Silicon Technology

Dispersion of Heat Flux Sensors Manufactured in Silicon Technology

In this paper, we focus on the dispersion performances related to the manufacturing process of heat flux sensors realized in CMOS (Complementary metal oxide semi-conductor) compatible 3-in technology. In particular, we have studied the performance dispersion of our sensors and linked these to the ph...

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Main Authors: Katir Ziouche, Pascale Lejeune, Zahia Bougrioua, Didier Leclercq
Format: Article
Language:English
Published: MDPI AG 2016-06-01
Series:Sensors
Subjects:
silicon
sensor
CMOS
heat flux
thermoelectric
dispersion
Online Access:http://www.mdpi.com/1424-8220/16/6/853
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spelling doaj-ad05140939054574a0328bcf20baad202020-11-24T21:44:40ZengMDPI AGSensors1424-82202016-06-0116685310.3390/s16060853s16060853Dispersion of Heat Flux Sensors Manufactured in Silicon TechnologyKatir Ziouche0Pascale Lejeune1Zahia Bougrioua2Didier Leclercq3Institute of Electronics, Microelectronics and Nanotechnology, University Lille 1 and CNRS; Villeneuve d’Ascq, 59652, FranceInstitute of Electronics, Microelectronics and Nanotechnology, University Lille 1 and CNRS; Villeneuve d’Ascq, 59652, FranceInstitute of Electronics, Microelectronics and Nanotechnology, University Lille 1 and CNRS; Villeneuve d’Ascq, 59652, FranceInstitute of Electronics, Microelectronics and Nanotechnology, University Lille 1 and CNRS; Villeneuve d’Ascq, 59652, FranceIn this paper, we focus on the dispersion performances related to the manufacturing process of heat flux sensors realized in CMOS (Complementary metal oxide semi-conductor) compatible 3-in technology. In particular, we have studied the performance dispersion of our sensors and linked these to the physical characteristics of dispersion of the materials used. This information is mandatory to ensure low-cost manufacturing and especially to reduce production rejects during the fabrication process. The results obtained show that the measured sensitivity of the sensors is in the range 3.15 to 6.56 μV/(W/m2), associated with measured resistances ranging from 485 to 675 kΩ. The dispersions correspond to a Gaussian-type distribution with more than 90% determined around average sensitivity S e ¯ = 4.5 µV/(W/m2) and electrical resistance R ¯ = 573.5 kΩ within the interval between the average and, more or less, twice the relative standard deviation.http://www.mdpi.com/1424-8220/16/6/853siliconsensorCMOSheat fluxthermoelectricdispersion
collection DOAJ
language English
format Article
sources DOAJ
author Katir Ziouche
Pascale Lejeune
Zahia Bougrioua
Didier Leclercq
spellingShingle Katir Ziouche
Pascale Lejeune
Zahia Bougrioua
Didier Leclercq
Dispersion of Heat Flux Sensors Manufactured in Silicon Technology
Sensors
silicon
sensor
CMOS
heat flux
thermoelectric
dispersion
author_facet Katir Ziouche
Pascale Lejeune
Zahia Bougrioua
Didier Leclercq
author_sort Katir Ziouche
title Dispersion of Heat Flux Sensors Manufactured in Silicon Technology
title_short Dispersion of Heat Flux Sensors Manufactured in Silicon Technology
title_full Dispersion of Heat Flux Sensors Manufactured in Silicon Technology
title_fullStr Dispersion of Heat Flux Sensors Manufactured in Silicon Technology
title_full_unstemmed Dispersion of Heat Flux Sensors Manufactured in Silicon Technology
title_sort dispersion of heat flux sensors manufactured in silicon technology
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2016-06-01
description In this paper, we focus on the dispersion performances related to the manufacturing process of heat flux sensors realized in CMOS (Complementary metal oxide semi-conductor) compatible 3-in technology. In particular, we have studied the performance dispersion of our sensors and linked these to the physical characteristics of dispersion of the materials used. This information is mandatory to ensure low-cost manufacturing and especially to reduce production rejects during the fabrication process. The results obtained show that the measured sensitivity of the sensors is in the range 3.15 to 6.56 μV/(W/m2), associated with measured resistances ranging from 485 to 675 kΩ. The dispersions correspond to a Gaussian-type distribution with more than 90% determined around average sensitivity S e ¯ = 4.5 µV/(W/m2) and electrical resistance R ¯ = 573.5 kΩ within the interval between the average and, more or less, twice the relative standard deviation.
topic silicon
sensor
CMOS
heat flux
thermoelectric
dispersion
url http://www.mdpi.com/1424-8220/16/6/853
work_keys_str_mv AT katirziouche dispersionofheatfluxsensorsmanufacturedinsilicontechnology
AT pascalelejeune dispersionofheatfluxsensorsmanufacturedinsilicontechnology
AT zahiabougrioua dispersionofheatfluxsensorsmanufacturedinsilicontechnology
AT didierleclercq dispersionofheatfluxsensorsmanufacturedinsilicontechnology
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