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Detail publikace
ŽÁK, J. HADAŠ, Z. DUŠEK, D. PEKÁREK, J. SVATOŠ, V. JANÁK, L. PRÁŠEK, J. Hubálek, J.
Originální název
The Charge Push-Through Electronics Design for Fully Implantable Artificial Cochlea Powered by Energy Harvesting Technologies
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
angličtina
Originální abstrakt
Fully implantable artificial cochlea in comparison with recent approaches including partially implantable devices is proposed and discussed in this work. The proposed implant consists of subcircuits which are designed in close context to reach optimal performance and the lowest power consumption. Power consumption of the device is decreased to a value which allows designing the device as a zero powered system using energy harvesting. A new technique of output signal generation for nerve stimulation is described. These signal processing circuits powered by energy harvesting power source were designed and simulated in relation to the results of complex electro mechanical diaphragm and SPICE energy harvesting power source simulation.
Klíčová slova
biomechanics, MEMS sensor, cochlear implant, energy harvesting, zero power system, signal processing
Autoři
ŽÁK, J.; HADAŠ, Z.; DUŠEK, D.; PEKÁREK, J.; SVATOŠ, V.; JANÁK, L.; PRÁŠEK, J.; Hubálek, J.
Vydáno
1. 7. 2016
Nakladatel
Springer
Místo
New York
ISSN
0946-7076
Periodikum
Microsystem Technologies
Ročník
22
Číslo
7
Stát
Spolková republika Německo
Strany od
1709
Strany do
1719
Strany počet
11
URL
http://link.springer.com/article/10.1007%2Fs00542-016-2810-x
BibTex
@article{BUT120024, author="Jaromír {Žák} and Zdeněk {Hadaš} and Daniel {Dušek} and Jan {Pekárek} and Vojtěch {Svatoš} and Luděk {Janák} and Jan {Prášek} and Jaromír {Hubálek}", title="The Charge Push-Through Electronics Design for Fully Implantable Artificial Cochlea Powered by Energy Harvesting Technologies", journal="Microsystem Technologies", year="2016", volume="22", number="7", pages="1709--1719", doi="10.1007/s00542-016-2810-x", issn="0946-7076", url="http://link.springer.com/article/10.1007%2Fs00542-016-2810-x" }