Daniel Dušek scite author profile

The micro-electro-mechanical array for application as fully implantable cochlea is presented in this paper. The complete system including a short overview of energy harvesting and the system configuration is proposed. This study mainly covers mechanical properties of cochlea microfabricated silicon structure. Electro-mechanical simulations are proceeded to optimize the material used for resonators, the size of array membranes and to estimate the resistive change due to the input sound signal. The sound is detected by thin Si X N Y diaphragm due to resonant frequency and the displacement of the membrane caused by acoustic pressure. The displacement is detected employing piezoresistive electrodes (NiCr). Design and fabrication process based on MEMS technology are described and discussed. The response measurement of the cochlea structure is performed. The sizes of the membranes vary from (0.5 × 0.5) mm to (2.0 × 2.0) mm and the average current change is 6.55•10 -3 % corresponding to the acoustic pressure of 0.01 Pa.

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Model-based design of artificial zero power cochlear implant

Zak

Hadaš

Dušek

et al. 2015

Mechatronics

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Daniel Dušek

Eccentrically mounted rotor pack and its influence on the vibration and noise of an asynchronous generator

Design and Fabrication of Fully Implantable MEMS Cochlea

Model-based design of artificial zero power cochlear implant

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