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Circuit-Level Modeling and Simulation of Wireless Sensing and Energy Harvesting With Hybrid Magnetoelectric Antennas for Implantable Neural Devices

A magnetoelectric antenna (ME) can exhibit the dual capabilities of wireless energy harvesting and sensing at different frequencies. In this article, a behavioral circuit model for hybrid ME antennas is described to emulate the radio frequency (RF) energy harvesting and sensing operations during cir...

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Autores principales: DAS, DIPTASHREE, XU, ZIYUE, NASROLLAHPOUR, MEHDI, MARTOS-REPATH, ISABEL, ZAEIMBASHI, MOHSEN, KHALIFA, ADAM, MITTAL, ANKIT, CASH, SYDNEY S., SUN, NIAN X., SHRIVASTAVA, AATMESH, ONABAJO, MARVIN
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10569408/
https://www.ncbi.nlm.nih.gov/pubmed/37829556
http://dx.doi.org/10.1109/ojcas.2023.3259233
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author DAS, DIPTASHREE
XU, ZIYUE
NASROLLAHPOUR, MEHDI
MARTOS-REPATH, ISABEL
ZAEIMBASHI, MOHSEN
KHALIFA, ADAM
MITTAL, ANKIT
CASH, SYDNEY S.
SUN, NIAN X.
SHRIVASTAVA, AATMESH
ONABAJO, MARVIN
author_facet DAS, DIPTASHREE
XU, ZIYUE
NASROLLAHPOUR, MEHDI
MARTOS-REPATH, ISABEL
ZAEIMBASHI, MOHSEN
KHALIFA, ADAM
MITTAL, ANKIT
CASH, SYDNEY S.
SUN, NIAN X.
SHRIVASTAVA, AATMESH
ONABAJO, MARVIN
author_sort DAS, DIPTASHREE
collection PubMed
description A magnetoelectric antenna (ME) can exhibit the dual capabilities of wireless energy harvesting and sensing at different frequencies. In this article, a behavioral circuit model for hybrid ME antennas is described to emulate the radio frequency (RF) energy harvesting and sensing operations during circuit simulations. The ME antenna of this work is interfaced with a CMOS energy harvester chip towards the goal of developing a wireless communication link for fully integrated implantable devices. One role of the integrated system is to receive pulse-modulated power from a nearby transmitter, and another role is to sense and transmit low-magnitude neural signals. The measurements reported in this paper are the first results that demonstrate simultaneous low-frequency wireless magnetic sensing and high-frequency wireless energy harvesting at two different frequencies with one dual-mode ME antenna. The proposed behavioral ME antenna model can be utilized during design optimizations of energy harvesting circuits. Measurements were performed to validate the wireless power transfer link with an ME antenna having a 2.57 GHz resonance frequency connected to an energy harvester chip designed in 65nm CMOS technology. Furthermore, this dual-mode ME antenna enables concurrent sensing using a carrier signal with a frequency that matches the second 63.63 MHz resonance mode. A wireless test platform has been developed for evaluation of ME antennas as a tool for neural implant design, and this prototype system was utilized to provide first experimental results with the transmission of magnetically modulated action potential waveforms.
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spelling pubmed-105694082023-10-12 Circuit-Level Modeling and Simulation of Wireless Sensing and Energy Harvesting With Hybrid Magnetoelectric Antennas for Implantable Neural Devices DAS, DIPTASHREE XU, ZIYUE NASROLLAHPOUR, MEHDI MARTOS-REPATH, ISABEL ZAEIMBASHI, MOHSEN KHALIFA, ADAM MITTAL, ANKIT CASH, SYDNEY S. SUN, NIAN X. SHRIVASTAVA, AATMESH ONABAJO, MARVIN IEEE Open J Circuits Syst Article A magnetoelectric antenna (ME) can exhibit the dual capabilities of wireless energy harvesting and sensing at different frequencies. In this article, a behavioral circuit model for hybrid ME antennas is described to emulate the radio frequency (RF) energy harvesting and sensing operations during circuit simulations. The ME antenna of this work is interfaced with a CMOS energy harvester chip towards the goal of developing a wireless communication link for fully integrated implantable devices. One role of the integrated system is to receive pulse-modulated power from a nearby transmitter, and another role is to sense and transmit low-magnitude neural signals. The measurements reported in this paper are the first results that demonstrate simultaneous low-frequency wireless magnetic sensing and high-frequency wireless energy harvesting at two different frequencies with one dual-mode ME antenna. The proposed behavioral ME antenna model can be utilized during design optimizations of energy harvesting circuits. Measurements were performed to validate the wireless power transfer link with an ME antenna having a 2.57 GHz resonance frequency connected to an energy harvester chip designed in 65nm CMOS technology. Furthermore, this dual-mode ME antenna enables concurrent sensing using a carrier signal with a frequency that matches the second 63.63 MHz resonance mode. A wireless test platform has been developed for evaluation of ME antennas as a tool for neural implant design, and this prototype system was utilized to provide first experimental results with the transmission of magnetically modulated action potential waveforms. 2023 2023-03-20 /pmc/articles/PMC10569408/ /pubmed/37829556 http://dx.doi.org/10.1109/ojcas.2023.3259233 Text en https://creativecommons.org/licenses/by/4.0/This work is licensed under a Creative Commons Attribution 4.0 License. For more information, see https://creativecommons.org/licenses/by/4.0/
spellingShingle Article
DAS, DIPTASHREE
XU, ZIYUE
NASROLLAHPOUR, MEHDI
MARTOS-REPATH, ISABEL
ZAEIMBASHI, MOHSEN
KHALIFA, ADAM
MITTAL, ANKIT
CASH, SYDNEY S.
SUN, NIAN X.
SHRIVASTAVA, AATMESH
ONABAJO, MARVIN
Circuit-Level Modeling and Simulation of Wireless Sensing and Energy Harvesting With Hybrid Magnetoelectric Antennas for Implantable Neural Devices
title Circuit-Level Modeling and Simulation of Wireless Sensing and Energy Harvesting With Hybrid Magnetoelectric Antennas for Implantable Neural Devices
title_full Circuit-Level Modeling and Simulation of Wireless Sensing and Energy Harvesting With Hybrid Magnetoelectric Antennas for Implantable Neural Devices
title_fullStr Circuit-Level Modeling and Simulation of Wireless Sensing and Energy Harvesting With Hybrid Magnetoelectric Antennas for Implantable Neural Devices
title_full_unstemmed Circuit-Level Modeling and Simulation of Wireless Sensing and Energy Harvesting With Hybrid Magnetoelectric Antennas for Implantable Neural Devices
title_short Circuit-Level Modeling and Simulation of Wireless Sensing and Energy Harvesting With Hybrid Magnetoelectric Antennas for Implantable Neural Devices
title_sort circuit-level modeling and simulation of wireless sensing and energy harvesting with hybrid magnetoelectric antennas for implantable neural devices
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10569408/
https://www.ncbi.nlm.nih.gov/pubmed/37829556
http://dx.doi.org/10.1109/ojcas.2023.3259233
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