Analysis of four coils by inductive powering links for powering bio-implantable sensor

Analysis of four coils by inductive powering links for powering bio-implantable sensor

The inductive coupling link technique is popularly used for transmitting power in many biomedical applications, where it helps in transferring power to numerous implanted biomedical devices like a wireless pressure sensor system. It has also been noted that the inductive coupling variables significa...

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Main Authors: Alghrairi, Mokhalad, Sulaiman, Nasri, Wan Hasan, Wan Zuha, Jaafar, Haslina, Mutashar, Saad
Format: Article
Published: Association for Information Communication Technology Education and Science (UIKTEN) 2022
Online Access:http://psasir.upm.edu.my/id/eprint/100203/
https://www.temjournal.com/content/113/TEMJournalAugust2022_1352_1356.html
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Institution: Universiti Putra Malaysia
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spelling my.upm.eprints.1002032024-07-10T06:24:21Z http://psasir.upm.edu.my/id/eprint/100203/ Analysis of four coils by inductive powering links for powering bio-implantable sensor Alghrairi, Mokhalad Sulaiman, Nasri Wan Hasan, Wan Zuha Jaafar, Haslina Mutashar, Saad The inductive coupling link technique is popularly used for transmitting power in many biomedical applications, where it helps in transferring power to numerous implanted biomedical devices like a wireless pressure sensor system. It has also been noted that the inductive coupling variables significantly affect the coupling efficiency. In this study, the researchers have investigated the inductive coupling link variables for 3 transmitter coils and one receiver coil. They used a resonant frequency of 27 MHz as the operating frequency, based on the Industrial, Scientific and Medical (ISM) band. The experimental results indicated that the Voltage gain (i.e., Vgain) value of the inductive links was dependent on the Coupling Factor (K) existing between every coil and load resistance (i.e., Rload). It was also noted that the value of the Voltage gain increased with an increase in the implanted resistance, based on a constant coupling factor. Furthermore, the simulation results indicated that if the Rload=1000, the Vgain value would be maximal, whereas if Rload = 200Ω, the Vgain value would be minimal and ≈ 5V.These results indicated that the operating system could satisfy all the requirements for powering the implanted sensor biodevices. Association for Information Communication Technology Education and Science (UIKTEN) 2022-08-29 Article PeerReviewed Alghrairi, Mokhalad and Sulaiman, Nasri and Wan Hasan, Wan Zuha and Jaafar, Haslina and Mutashar, Saad (2022) Analysis of four coils by inductive powering links for powering bio-implantable sensor. TEM Journal: Technology, Education, Management, Informatics, 11 (3). pp. 1352-1356. ISSN 2217-8309; ESSN: 2217-8333 https://www.temjournal.com/content/113/TEMJournalAugust2022_1352_1356.html 10.18421/TEM113-45
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
description The inductive coupling link technique is popularly used for transmitting power in many biomedical applications, where it helps in transferring power to numerous implanted biomedical devices like a wireless pressure sensor system. It has also been noted that the inductive coupling variables significantly affect the coupling efficiency. In this study, the researchers have investigated the inductive coupling link variables for 3 transmitter coils and one receiver coil. They used a resonant frequency of 27 MHz as the operating frequency, based on the Industrial, Scientific and Medical (ISM) band. The experimental results indicated that the Voltage gain (i.e., Vgain) value of the inductive links was dependent on the Coupling Factor (K) existing between every coil and load resistance (i.e., Rload). It was also noted that the value of the Voltage gain increased with an increase in the implanted resistance, based on a constant coupling factor. Furthermore, the simulation results indicated that if the Rload=1000, the Vgain value would be maximal, whereas if Rload = 200Ω, the Vgain value would be minimal and ≈ 5V.These results indicated that the operating system could satisfy all the requirements for powering the implanted sensor biodevices.
format Article
author Alghrairi, Mokhalad
Sulaiman, Nasri
Wan Hasan, Wan Zuha
Jaafar, Haslina
Mutashar, Saad
spellingShingle Alghrairi, Mokhalad
Sulaiman, Nasri
Wan Hasan, Wan Zuha
Jaafar, Haslina
Mutashar, Saad
Analysis of four coils by inductive powering links for powering bio-implantable sensor
author_facet Alghrairi, Mokhalad
Sulaiman, Nasri
Wan Hasan, Wan Zuha
Jaafar, Haslina
Mutashar, Saad
author_sort Alghrairi, Mokhalad
title Analysis of four coils by inductive powering links for powering bio-implantable sensor
title_short Analysis of four coils by inductive powering links for powering bio-implantable sensor
title_full Analysis of four coils by inductive powering links for powering bio-implantable sensor
title_fullStr Analysis of four coils by inductive powering links for powering bio-implantable sensor
title_full_unstemmed Analysis of four coils by inductive powering links for powering bio-implantable sensor
title_sort analysis of four coils by inductive powering links for powering bio-implantable sensor
publisher Association for Information Communication Technology Education and Science (UIKTEN)
publishDate 2022
url http://psasir.upm.edu.my/id/eprint/100203/
https://www.temjournal.com/content/113/TEMJournalAugust2022_1352_1356.html
_version_ 1805889501946445824

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