Title :
CMOS-compatible purely capacitive interfaces for high-density in-vivo recording from neural tissue
Author :
Sven Schr?der;Claudia Cecchetto;Stefan Keil;Mufti Mahmud;Evelin Brose;?zg? Dogan;Gabriel Bertotti;Dirk Wolanski;Bernd Tillack;Jessica Schneidewind;Hassan Gargouri;Michael Arens;J?rgen Bruns;Bernd Szyszka;Stefano Vassanelli;Roland Thewes
Author_Institution :
TU Berlin, Faculty of Electrical Engineering & Computer Science, Berlin, Germany
Abstract :
CMOS-based neural tissue in-vivo recording chips with a purely capacitive interface are presented with 256 sites resp. 256 recording channels. A 3D post-CMOS ALD-based process allows to provide a highly efficient sensor dielectric and to realize a protective insulation layer for the non-active part of the fabricated devices. A simple interconnect-efficient sensor array topology is used. Electrical characterizations and in-vivo measurements with biological content reveal proper operation of the presented approach.
Keywords :
"Arrays","Transistors","Dielectrics","Electrodes","CMOS integrated circuits","Metals","Standards"
Conference_Titel :
Biomedical Circuits and Systems Conference (BioCAS), 2015 IEEE
DOI :
10.1109/BioCAS.2015.7348358
