Review Article
A Literature Survey on Wireless Power Transfer for Biomedical Devices
Table 4
Other model of implantable power device.
| | Ref | Journal | Year | Frequency | Output power (mW) | Optimization method for inductor dimensions | Transmitter dimension (mm2) | Receiver dimension (mm2) | Gap (mm) | (%) | Simulation model |
| | [34] | “European Solid State Circuit Conference (ESSCIRC)” | 2013 | 160 MHz | >183 | Based on the method in [35, 36] | doutT = 14.5
Printed square (Momentum EM & HFSS) | doutT = 2.2
Printed square (Momentum EM & HFSS) | 10 | 1 | 7 mm of 0.2 molar NaCl layer and 3 mm air | | [56] | IEEE Transactions on Biomedical Engineering | 2012 | 13.56 MHz | 24 | Based on the method in [57, 58] | doutT = 480
Circular
Built under floor | Capsule
13 × 27 | 1000 | 3.04 | Endoscopic capsule | | [26] | ELSEVIER: Procedia Engineering | 2010 | | 300 | | | Capsule
16 × 28 | Free move | | Endoscopic capsule | | [38] | IEEE Transaction Biomedical Circuit System | 2009 | 13.56 MHz | | Based on the method in [19] | doutT = 30
dinT = 11.1
Printed square (HFSS) | doutR = 10
dinR = 5.5
Printed square (HFSS) | 10 | 51.8 | Receiver placed between two layers of saline in |
|
|
