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Wireless Power Delivery Techniques for Miniature Implantable Bioelectronics

Amanda Singer, Jacob T. Robinson

2021Advanced Healthcare Materials152 citationsDOIOpen Access PDF

Abstract

Progress in implanted bioelectronic technology offers the opportunity to develop more effective tools for personalized electronic medicine. While there are numerous clinical and pre-clinical applications for these devices, power delivery to these systems can be challenging. Wireless battery-free devices offer advantages such as a smaller and lighter device footprint and reduced failures and infections by eliminating lead wires. However, with the development of wireless technologies, there are fundamental tradeoffs between five essential factors: power, miniaturization, depth, alignment tolerance, and transmitter distance, while still allowing devices to work within safety limits. These tradeoffs mean that multiple forms of wireless power transfer are necessary for different devices to best meet the needs for a given biological target. Here six different types of wireless power transfer technologies used in bioelectronic implants-inductive coupling, radio frequency, mid-field, ultrasound, magnetoelectrics, and light-are reviewed in context of the five tradeoffs listed above. This core group of wireless power modalities is then used to suggest possible future bioelectronic technologies and their biological applications.

Topics & Concepts

BioelectronicsWirelessWireless power transferTransmitterComputer scienceElectrical engineeringMiniaturizationContext (archaeology)Maximum power transfer theoremPower (physics)TelecommunicationsEngineeringNanotechnologyChannel (broadcasting)Materials sciencePaleontologyBiologyQuantum mechanicsPhysicsBiosensorWireless Power Transfer SystemsNeuroscience and Neural EngineeringEnergy Harvesting in Wireless Networks