Resumen

QUIROZ, G. et al. Design and simulation of a membranes-based acoustic sensors array for cochlear implant applications. Superf. vacío [online]. 2014, vol.27, n.1, pp.24-29. ISSN 1665-3521.

In this work we present the design and simulation of an acoustic sensors array for detecting specific frequencies in a range, and allowing their identification from a complex audio signal in order to develop an application for cochlear implants. The sensitivity is obtained when a membrane resonates when stimulated by an audio signal which behaves as a mechanical wave. The structure of each sensor is designed with the concept of MEMS capacitive microphones, formed by a flexible membrane between two rigid backplates. The variation of the distance between the membrane and backplates generates a capacitance change that can pass to an electronic readout circuit. The structure has been designed as a mass-spring system where a set of springs, with the same elastic properties, holds the flexible membrane.

Palabras llave : Microphone; Capacitive; Cochlear; Implant; Simulation.

        · texto en Inglés     · Inglés ( pdf )