Analysis and design of wireless power delivery system for biomedical implants
The development of wireless power technology for biomedical implant application has accelerated over the past years due to its potential in reducing surgeries to change the internal battery for biomedical implant patients. Lesser surgeries will translate to lesser surgical risk to undertake and more...
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sg-ntu-dr.10356-534142023-07-07T16:29:44Z Analysis and design of wireless power delivery system for biomedical implants Low, Geng Hong. Tan Soon Yim School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering::Wireless communication systems The development of wireless power technology for biomedical implant application has accelerated over the past years due to its potential in reducing surgeries to change the internal battery for biomedical implant patients. Lesser surgeries will translate to lesser surgical risk to undertake and more time and money saved. Resonant inductive coupling provides such a solution as it is short-ranged energy transfer and involves magnetic field which does not interact with most materials. Theories and parameters involved were provided as supplements to the project. Literature review gives an overview of the researches which had been done. Analyses on electrical toothbrush, research papers and biomedical implantable devices give a more in-depth look into the constraints and limitations and explore parameters which can be optimized. Experiments were carried out to verify the analyses done and outline the parameters which can be optimized. Comparisons of the various parameters were also done. Concept design was explained to fulfill the proposed system. Lastly, prototype coils were designed and optimized; power-transfer efficiency of more than 50% was obtained. Bachelor of Engineering 2013-06-03T04:42:27Z 2013-06-03T04:42:27Z 2013 2013 Final Year Project (FYP) http://hdl.handle.net/10356/53414 en Nanyang Technological University 79 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Wireless communication systems Low, Geng Hong. Analysis and design of wireless power delivery system for biomedical implants |
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The development of wireless power technology for biomedical implant application has accelerated over the past years due to its potential in reducing surgeries to change the internal battery for biomedical implant patients. Lesser surgeries will translate to lesser surgical risk to undertake and more time and money saved.
Resonant inductive coupling provides such a solution as it is short-ranged energy transfer and involves magnetic field which does not interact with most materials. Theories and parameters involved were provided as supplements to the project.
Literature review gives an overview of the researches which had been done. Analyses on electrical toothbrush, research papers and biomedical implantable devices give a more in-depth look into the constraints and limitations and explore parameters which can be optimized.
Experiments were carried out to verify the analyses done and outline the parameters which can be optimized. Comparisons of the various parameters were also done.
Concept design was explained to fulfill the proposed system. Lastly, prototype coils were designed and optimized; power-transfer efficiency of more than 50% was obtained. |
author2 |
Tan Soon Yim |
author_facet |
Tan Soon Yim Low, Geng Hong. |
format |
Final Year Project |
author |
Low, Geng Hong. |
author_sort |
Low, Geng Hong. |
title |
Analysis and design of wireless power delivery system for biomedical implants |
title_short |
Analysis and design of wireless power delivery system for biomedical implants |
title_full |
Analysis and design of wireless power delivery system for biomedical implants |
title_fullStr |
Analysis and design of wireless power delivery system for biomedical implants |
title_full_unstemmed |
Analysis and design of wireless power delivery system for biomedical implants |
title_sort |
analysis and design of wireless power delivery system for biomedical implants |
publishDate |
2013 |
url |
http://hdl.handle.net/10356/53414 |
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1772826167156408320 |