Title :
A three-dimensional microassembly structure for micromachined planar microelectrode arrays
Author :
Ghovanloo, Maysam ; Najafi, Khalil
Author_Institution :
Dept. of Electr. & Comput. Eng., North Carolina State Univ., Raleigh, NC, USA
Abstract :
We present a new three-dimensional (3-D) microassembly method for planar silicon micromachined electrode arrays, which can be used in implantable neuroprosthetic devices for neural recording and stimulation in the central nervous system (CNS). The new microassembly technique is particularly useful when a modular system architecture is adopted to reduce the number of interconnects between modules (probes). The need for a supporting platform and lead transfer between perpendicular planes has been eliminated by stacking the planar probes with insulating glass or polyimide spacers in between and transferring the leads across the spacer sheets with electroplated gold beams. A 3-D 7×4×4 microelectrode array is fabricated using mock up Interestim-3 probes and 500μm-thick glass spacers.
Keywords :
bioelectric phenomena; biomedical electrodes; glass; microelectrodes; micromachining; neurophysiology; probes; prosthetics; silicon; 500 micron; CNS; Si; central nervous system; electroplated gold beam; implantable neuroprosthetic device; insulating glass; mock up Interestim probe; neural recording; neural stimulation; planar probe; planar silicon micromachined electrode array; polyimide spacer; three-dimensional microassembly structure; Central nervous system; Electrodes; Glass; Insulation; Microassembly; Microelectrodes; Neural prosthesis; Probes; Silicon; Stacking; microassembly; microelectrode; micromachining; modular architecture; neural recording; neural stimulation; neuroprosthesis; three-dimensional;
Conference_Titel :
Microtechnology in Medicine and Biology, 2005. 3rd IEEE/EMBS Special Topic Conference on
Print_ISBN :
0-7803-8711-2
DOI :
10.1109/MMB.2005.1548398
