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New Electronic Interface Circuits for Humidity Measurement Based on the Current Processing Technique

Thumbnail
2021
1444.pdf (2.122Mb)
Authors
Petrović, Predrag B.
Nikolić, Maria Vesna
Tatović, Mihajlo
Article (Published version)
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Abstract
The paper describes a new electronic conditioning circuit based on the current-processing technique for accurate and reliable humidity measurement, without post-processing requirements. Pseudobrookite nanocrystalline (Fe2TiO5) thick film was used as capacitive humidity transducer in the proposed design. The interface integrated circuit was realized in TSMC 0.18 mu m CMOS technology, but commercial devices were used for practical realization. The sensing principle of the sensor was obtained by converting the information on environment humidity into a frequency variable square-wave electric current signal. The proposed solution features high linearity, insensitivity to temperature, as well as low power consumption. The sensor has a linear function with relative humidity in the range of Relative Humidity (RH) 30-90 %, error below 1.5 %, and sensitivity 8.3 x 10(14) Hz/F evaluated over the full range of changes. A fast recovery without the need of any refreshing methods was observed with a... change in RH. The total power dissipation of readout circuitry was 1 mW.

Keywords:
Humidity sensor / experimental verification / DXCCTA / current-processing technique / capacity sensor interface
Source:
Measurement Science Review, 2021, 21, 1, 1-10
Publisher:
  • Sciendo, Warsaw
Funding / projects:
  • Directed synthesis, structure and properties of multifunctional materials (RS-172057)
  • Smart grids (RS-42009)
  • Zero- to Three-Dimensional Nanostructures for Application in Electronics and Renewable Energy Sources: Synthesis, Characterization and Processing (RS-45007)

DOI: 10.2478/msr-2021-0001

ISSN: 1335-8871

WoS: 000655290100001

Scopus: 2-s2.0-85104297913
[ Google Scholar ]
2
URI
http://rimsi.imsi.bg.ac.rs/handle/123456789/1447
Collections
  • Radovi istraživača / Researchers’ publications
Institution/Community
Institut za multidisciplinarna istraživanja
TY  - JOUR
AU  - Petrović, Predrag B.
AU  - Nikolić, Maria Vesna
AU  - Tatović, Mihajlo
PY  - 2021
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/1447
AB  - The paper describes a new electronic conditioning circuit based on the current-processing technique for accurate and reliable humidity measurement, without post-processing requirements. Pseudobrookite nanocrystalline (Fe2TiO5) thick film was used as capacitive humidity transducer in the proposed design. The interface integrated circuit was realized in TSMC 0.18 mu m CMOS technology, but commercial devices were used for practical realization. The sensing principle of the sensor was obtained by converting the information on environment humidity into a frequency variable square-wave electric current signal. The proposed solution features high linearity, insensitivity to temperature, as well as low power consumption. The sensor has a linear function with relative humidity in the range of Relative Humidity (RH) 30-90 %, error below 1.5 %, and sensitivity 8.3 x 10(14) Hz/F evaluated over the full range of changes. A fast recovery without the need of any refreshing methods was observed with a change in RH. The total power dissipation of readout circuitry was 1 mW.
PB  - Sciendo, Warsaw
T2  - Measurement Science Review
T1  - New Electronic Interface Circuits for Humidity Measurement Based on the Current Processing Technique
EP  - 10
IS  - 1
SP  - 1
VL  - 21
DO  - 10.2478/msr-2021-0001
ER  - 
@article{
author = "Petrović, Predrag B. and Nikolić, Maria Vesna and Tatović, Mihajlo",
year = "2021",
abstract = "The paper describes a new electronic conditioning circuit based on the current-processing technique for accurate and reliable humidity measurement, without post-processing requirements. Pseudobrookite nanocrystalline (Fe2TiO5) thick film was used as capacitive humidity transducer in the proposed design. The interface integrated circuit was realized in TSMC 0.18 mu m CMOS technology, but commercial devices were used for practical realization. The sensing principle of the sensor was obtained by converting the information on environment humidity into a frequency variable square-wave electric current signal. The proposed solution features high linearity, insensitivity to temperature, as well as low power consumption. The sensor has a linear function with relative humidity in the range of Relative Humidity (RH) 30-90 %, error below 1.5 %, and sensitivity 8.3 x 10(14) Hz/F evaluated over the full range of changes. A fast recovery without the need of any refreshing methods was observed with a change in RH. The total power dissipation of readout circuitry was 1 mW.",
publisher = "Sciendo, Warsaw",
journal = "Measurement Science Review",
title = "New Electronic Interface Circuits for Humidity Measurement Based on the Current Processing Technique",
pages = "10-1",
number = "1",
volume = "21",
doi = "10.2478/msr-2021-0001"
}
Petrović, P. B., Nikolić, M. V.,& Tatović, M.. (2021). New Electronic Interface Circuits for Humidity Measurement Based on the Current Processing Technique. in Measurement Science Review
Sciendo, Warsaw., 21(1), 1-10.
https://doi.org/10.2478/msr-2021-0001
Petrović PB, Nikolić MV, Tatović M. New Electronic Interface Circuits for Humidity Measurement Based on the Current Processing Technique. in Measurement Science Review. 2021;21(1):1-10.
doi:10.2478/msr-2021-0001 .
Petrović, Predrag B., Nikolić, Maria Vesna, Tatović, Mihajlo, "New Electronic Interface Circuits for Humidity Measurement Based on the Current Processing Technique" in Measurement Science Review, 21, no. 1 (2021):1-10,
https://doi.org/10.2478/msr-2021-0001 . .

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