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Analytical Modeling and Optimization of Small Solenoid Coils for Millimeter-Sized Biomedical Implants.

Authors :
Cheng, Yuhua
Wang, Gaofeng
Ghovanloo, Maysam
Source :
IEEE Transactions on Microwave Theory & Techniques. Mar2017, Vol. 65 Issue 3, p1024-1035. 12p.
Publication Year :
2017

Abstract

The new trend towards minimally invasive millimeter-sized and free-floating distributed implants promises to enable emerging applications, such as chronic neural recording with minimal damage to the surrounding tissue. However, wireless power transmission (WPT) to these medical devices is quite challenging. The magnetic field produced by external transmitter (Tx) coils at the position of small implants can be considered homogeneous to separate the optimization of Tx and receiver (Rx) coils for efficient WPT. This paper focuses on the optimization of the solenoid-type Rx coils, which are suitable for this application. We have developed an analytical model of solenoid coils that includes the impact of tissue and coating around the coils, verified through simulations and measurements. Using the proposed model, under a given size restriction and a specific load, we find the optimal operating frequency and coil geometry to maximize a figure of merit (FoM) for the Rx that includes the loaded quality factor and its internal efficiency as well as a factor related to the coupling coefficient. For a millimeter-sized coil, the optimal operating frequency for the Rx and the number of turns are found to be 500 MHz and six, respectively, if the coil is closely wound using AWG36 copper wires. If the pitch is also optimized, then 700 MHz and four turns provide the best FoM for the solenoid Rx. [ABSTRACT FROM PUBLISHER]

Details

Language :
English
ISSN :
00189480
Volume :
65
Issue :
3
Database :
Academic Search Index
Journal :
IEEE Transactions on Microwave Theory & Techniques
Publication Type :
Academic Journal
Accession number :
121745668
Full Text :
https://doi.org/10.1109/TMTT.2016.2627564