Ivo Colmiais scite author profile

Implantable electronic devices have been evolving at an astonishing pace, due to the development of fabrication techniques and consequent miniaturization, and a higher efficiency of sensors, actuators, processors and packaging. Implantable devices, with sensing, communication, actuation, and wireless power are of high demand, as they pave the way for new applications and therapies. Long-term and reliable powering of such devices has been a challenge since they were first introduced. This paper presents a review of representative state of the art implantable electronic devices, with wireless power capabilities, ranging from inductive coupling to ultrasounds. The different power transmission mechanisms are compared, to show that, without new methodologies, the power that can be safely transmitted to an implant is reaching its limit. Consequently, a new approach, capable of multiplying the available power inside a brain phantom for the same specific absorption rate (SAR) value, is proposed. In this paper, a setup was implemented to quadruple the power available in the implant, without breaking the SAR limits. A brain phantom was used for concept verification, with both simulation and measurement data.

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Thermal modeling of an implantable brain focal cooling device

Dinis

Fernandes

Silva

et al. 2017

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An implantable focal cooling device based on aPeltier is proposed in this paper. The building blocks of this device, namely its battery management, wireless power transfer, communication, and power management modules are presented and discussed. Simulated and experimental data in a deionized water phantom at 37 o C validate the use of the Peltier as a focal cooling device, and simulations in rat brain further confirm this conclusion.

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Smart Wireless-Powering-Enabling IoT in Inhomogeneous Environments: A Case Study on Biomedical Applications

Dinis

Colmiais

Mendes

2022

IEEE Internet Things J.

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Ivo Colmiais

Towards RF graphene devices: A review

Extending the Limits of Wireless Power Transfer to Miniaturized Implantable Electronic Devices

Thermal modeling of an implantable brain focal cooling device

Smart Wireless-Powering-Enabling IoT in Inhomogeneous Environments: A Case Study on Biomedical Applications

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