A System for Wireless Power Transfer and Data Communication of Long-Term Bio-Monitoring

A system for wireless power transfer and data communication of implantable bio-monitoring systems is presented. The proposed solution uses a servo-controlled power transmitter moved under the animal moving space. An x-y movable magnetic coil transmits the required power with a level able to keep con...

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Veröffentlicht in:	IEEE sensors journal 2015-11, Vol.15 (11), p.6559-6569
Hauptverfasser:	Kilinc, Enver G., Baj-Rossi, Camilla, Ghoreishizadeh, Sara, Riario, Stefano, Stradolini, Francesca, Boero, Cristina, De Micheli, Giovanni, Maloberti, Franco, Carrara, Sandro, Dehollain, Catherine
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Sprache:	eng
Schlagworte:	Animals Data communication Implants Rails Receivers Sensors Transmitters
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creator	Kilinc, Enver G. Baj-Rossi, Camilla Ghoreishizadeh, Sara Riario, Stefano Stradolini, Francesca Boero, Cristina De Micheli, Giovanni Maloberti, Franco Carrara, Sandro Dehollain, Catherine
description	A system for wireless power transfer and data communication of implantable bio-monitoring systems is presented. The proposed solution uses a servo-controlled power transmitter moved under the animal moving space. An x-y movable magnetic coil transmits the required power with a level able to keep constant the received energy by the bio-sensor system. The power is transferred via the optimized remote powering link at 13.56 MHz. The received ac signal is converted to dc voltage with a passive full-wave integrated rectifier and the voltage regulator supplies 1.8 V for the implantable sensor system. The sensor control and readout circuit measures the current on the bio-sensors and transmit the data to the transmitter. The sensor data are transmitted to an external reader by a low-power OOK transmitter and received by a custom designed receiver at 869 MHz. The results are shown in a tablet computer in real time continuously. The long-term characterization of the implantable system is verified by a fully bio-compatible packaged implant with 30 days measurement. A complete prototype is also presented to prove the overall system performance with the experimental in vitro measurement.
doi_str_mv	10.1109/JSEN.2015.2462362
format	Article
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The proposed solution uses a servo-controlled power transmitter moved under the animal moving space. An x-y movable magnetic coil transmits the required power with a level able to keep constant the received energy by the bio-sensor system. The power is transferred via the optimized remote powering link at 13.56 MHz. The received ac signal is converted to dc voltage with a passive full-wave integrated rectifier and the voltage regulator supplies 1.8 V for the implantable sensor system. The sensor control and readout circuit measures the current on the bio-sensors and transmit the data to the transmitter. The sensor data are transmitted to an external reader by a low-power OOK transmitter and received by a custom designed receiver at 869 MHz. The results are shown in a tablet computer in real time continuously. The long-term characterization of the implantable system is verified by a fully bio-compatible packaged implant with 30 days measurement. A complete prototype is also presented to prove the overall system performance with the experimental in vitro measurement.</abstract><pub>IEEE</pub><doi>10.1109/JSEN.2015.2462362</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Data communication Implants Rails Receivers Sensors Transmitters
title	A System for Wireless Power Transfer and Data Communication of Long-Term Bio-Monitoring
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