Improved Wireless, Transcutaneous Power Transmission for In Vivo Applications

Improved Wireless, Transcutaneous Power Transmission for In Vivo Applications

Electric power, sufficient for many in vivo applications, can be transmitted wirelessly from a small external solenoid (filled with a soft magnetic core), to a novel, magnetoelectric (ME) receiver a few centimeter (cm) inside the body. The ME receiver is a sandwich of electroactive (e.g., piezoelect...

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Veröffentlicht in:IEEE sensors journal 2008-01, Vol.8 (1), p.57-62
Hauptverfasser: O'Handley, R.C., Huang, J.K., Bono, D.C., Simon, J.
Format: Artikel
Sprache:eng
Schlagworte:
Biocompatibility
Biomedical materials
Bonding
Electric power generation
In vivo
In vivo power
In vivo testing
In vivo tests
Magnetic cores
Magnetic materials
magnetoelectric materials
Magnetostriction
Piezoelectric materials
Power generation
Power transmission
Receivers
Soft magnetic materials
Solenoids
Surgical implants
wireless power transfer
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Zusammenfassung:Electric power, sufficient for many in vivo applications, can be transmitted wirelessly from a small external solenoid (filled with a soft magnetic core), to a novel, magnetoelectric (ME) receiver a few centimeter (cm) inside the body. The ME receiver is a sandwich of electroactive (e.g., piezoelectric) material bonded between two magnetostrictive layers. The electroactive layer may be poled in its plane so that it can function in the stronger g 33 mode (induced voltage parallel to the direction of principal magnetostrictive stress). Preliminary experimental results indicate that a 7 cm long ferrite-filled solenoid (NI ap 122 Amp-turns) producing an RMS magnetic field of order 1600 A/m (20 Oe) at the ME receiver (of volume 0.1 cm 3 ) 3 cm from the field source, generates in the ME receiver a power of 200 mW (2 W/cm 3 ). The receiver, in turn, generates a power of 160 mW.
ISSN:1530-437X
1558-1748
DOI:10.1109/JSEN.2007.912899