Compact stacked planar inverted-F antenna for passive deep brain stimulation implants

A compact meandered three-layer stacked circular planar inverted-F antenna is designed and simulated at the UHF band (902.75 - 927.25 MHz) for passive deep brain stimulation implants. The UHF band is used because it offers small antenna size, and high data rate. The top and middle radiating layers a...

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Bibliographic Details
Main Authors: Hosain, Md Kamal, Kouzani, A. Z., Tye, S., Mortazavi, D., Kaynak, A.
Format: Conference Proceeding
Language:English
Subjects:
Gain
Implants
Satellite broadcasting
Skin
Transmitting antennas
Online Access:Request full text
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Summary:A compact meandered three-layer stacked circular planar inverted-F antenna is designed and simulated at the UHF band (902.75 - 927.25 MHz) for passive deep brain stimulation implants. The UHF band is used because it offers small antenna size, and high data rate. The top and middle radiating layers are meandered, and low cost substrate and superstrate materials are used to limit the radius and height of the antenna to 5 mm and 1.64 mm, respectively. A dielectric substrate of FR-4 of ε r = 4.7 and δ = 0.018, and a biocompatible superstrate of silicone of ε r = 3.7 and δ = 0.003 with thickness of 0.2 mm are used in the design. The resonance frequency of the proposed antenna is 918 MHz with a bandwidth of 24 MHz at return loss of -10 dB in free space. The antenna parameter such as 3D gain pattern of the designed antenna within a skin-tissue model is evaluated by using the finite element method. The compactness, wide bandwidth, round shape, and stable characteristics in skin make this antenna suitable for DBS. The feasibility of the wireless power transmission to the in the human head is also examined.
ISSN:1094-687X
1558-4615
2694-0604
DOI:10.1109/EMBC.2012.6346065