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Related Experiment Video

Updated: Jun 18, 2026

The DREAM Implant: A Lightweight, Modular, and Cost-Effective Implant System for Chronic Electrophysiology in Head-Fixed and Freely Behaving Mice
08:42

The DREAM Implant: A Lightweight, Modular, and Cost-Effective Implant System for Chronic Electrophysiology in Head-Fixed and Freely Behaving Mice

Published on: July 26, 2024

Inductive link design for miniature implants.

Philip R Troyk, Alexander D Rush

    Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
    |December 8, 2009
    PubMed
    Summary
    This summary is machine-generated.

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    Optimizing inductive links for neural prostheses requires balancing power and data transmission. This study presents an analytical approach to efficiently design transcutaneous power and data links for high-channel-density microelectrode arrays.

    Area of Science:

    • Biomedical Engineering
    • Neuroscience
    • Implantable Devices

    Background:

    • Microfabrication enables high-channel-density microelectrode arrays for neural prostheses.
    • High channel counts complicate the design of efficient inductive links for powering and communication.
    • Simultaneous high data rates and safe power transmission are critical challenges.

    Purpose of the Study:

    • To develop an analytical method for optimizing transcutaneous power and data links.
    • To efficiently design inductive links for high-channel-density neural implants.
    • To meet system-level design parameters like power dissipation and data rate.

    Main Methods:

    • Proposed an analytical understanding of interacting link-level design parameters.
    • Utilized parameters such as receiver radius, carrier frequency, and implant location.

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  • Applied the technique to design a transcutaneous link for an intracortical visual prosthesis.
  • Main Results:

    • Demonstrated an optimized transcutaneous power and data link design.
    • The analytical approach facilitates meeting competing system requirements.
    • Successfully applied to a specific application: intracortical visual prosthesis.

    Conclusions:

    • An analytical understanding is key to optimizing transcutaneous inductive links for neural prostheses.
    • This method reduces design iterations for complex implantable systems.
    • Enables efficient powering and high-speed data communication for advanced neural devices.