Bulk PZT Cantilever Based MEMS Acoustic Transducer for Cochlear Implant Applications

Bulk PZT Cantilever Based MEMS Acoustic Transducer for Cochlear Implant Applications

This paper presents the first acoustic experimental results of a MEMS based bulk piezoelectric transducer for use in fully implantable cochlear implants (FICI). For this purpose, the transducer was attached onto an acoustically vibrating membrane. Sensing and energy harvesting performances were meas...

Full description

Bibliographic Details
Main Authors: Aziz Koyuncuoğlu, Bedirhan İlik, Salar Chamanian, Hasan Uluşan, Parinaz Ashrafi, Dilek Işık, Haluk Külah
Format: Article
Language:English
Published: MDPI AG 2017-08-01
Series:Proceedings
Subjects:
energy harvesting
bulk PZT
acoustic energy harvesting
cochlear implants
Online Access:https://www.mdpi.com/2504-3900/1/4/584
id doaj-51affa1a019f42a9b98175894eeafbe1
record_format Article
spelling doaj-51affa1a019f42a9b98175894eeafbe12020-11-25T00:33:39ZengMDPI AGProceedings2504-39002017-08-011458410.3390/proceedings1040584proceedings1040584Bulk PZT Cantilever Based MEMS Acoustic Transducer for Cochlear Implant ApplicationsAziz Koyuncuoğlu0Bedirhan İlik1Salar Chamanian2Hasan Uluşan3Parinaz Ashrafi4Dilek Işık5Haluk Külah6METU-MEMS Research and Application Center, Middle East Technical University, Ankara, TurkeyMETU-MEMS Research and Application Center, Middle East Technical University, Ankara, TurkeyMETU-MEMS Research and Application Center, Middle East Technical University, Ankara, TurkeyMETU-MEMS Research and Application Center, Middle East Technical University, Ankara, TurkeyMETU-MEMS Research and Application Center, Middle East Technical University, Ankara, TurkeyMETU-MEMS Research and Application Center, Middle East Technical University, Ankara, TurkeyMETU-MEMS Research and Application Center, Middle East Technical University, Ankara, TurkeyThis paper presents the first acoustic experimental results of a MEMS based bulk piezoelectric transducer for use in fully implantable cochlear implants (FICI). For this purpose, the transducer was attached onto an acoustically vibrating membrane. Sensing and energy harvesting performances were measured using neural stimulation and rectifier circuits, respectively. The chip has a 150 Hz bandwidth around 1800 Hz resonance frequency that is suitable for mechanical filtering as a sensor. As an energy harvester, bulk piezoelectric transducer generated a rectified power of 16.25 μW with 2.47 VDC with 120 dB-A sound input at 1780 Hz. Among other MEMS acoustic energy harvesters in the literature, reported transducer has the highest power density (1.5 × 10−3 W/cm3) to our knowledge.https://www.mdpi.com/2504-3900/1/4/584energy harvestingbulk PZTacoustic energy harvestingcochlear implants
collection DOAJ
language English
format Article
sources DOAJ
author Aziz Koyuncuoğlu
Bedirhan İlik
Salar Chamanian
Hasan Uluşan
Parinaz Ashrafi
Dilek Işık
Haluk Külah
spellingShingle Aziz Koyuncuoğlu
Bedirhan İlik
Salar Chamanian
Hasan Uluşan
Parinaz Ashrafi
Dilek Işık
Haluk Külah
Bulk PZT Cantilever Based MEMS Acoustic Transducer for Cochlear Implant Applications
Proceedings
energy harvesting
bulk PZT
acoustic energy harvesting
cochlear implants
author_facet Aziz Koyuncuoğlu
Bedirhan İlik
Salar Chamanian
Hasan Uluşan
Parinaz Ashrafi
Dilek Işık
Haluk Külah
author_sort Aziz Koyuncuoğlu
title Bulk PZT Cantilever Based MEMS Acoustic Transducer for Cochlear Implant Applications
title_short Bulk PZT Cantilever Based MEMS Acoustic Transducer for Cochlear Implant Applications
title_full Bulk PZT Cantilever Based MEMS Acoustic Transducer for Cochlear Implant Applications
title_fullStr Bulk PZT Cantilever Based MEMS Acoustic Transducer for Cochlear Implant Applications
title_full_unstemmed Bulk PZT Cantilever Based MEMS Acoustic Transducer for Cochlear Implant Applications
title_sort bulk pzt cantilever based mems acoustic transducer for cochlear implant applications
publisher MDPI AG
series Proceedings
issn 2504-3900
publishDate 2017-08-01
description This paper presents the first acoustic experimental results of a MEMS based bulk piezoelectric transducer for use in fully implantable cochlear implants (FICI). For this purpose, the transducer was attached onto an acoustically vibrating membrane. Sensing and energy harvesting performances were measured using neural stimulation and rectifier circuits, respectively. The chip has a 150 Hz bandwidth around 1800 Hz resonance frequency that is suitable for mechanical filtering as a sensor. As an energy harvester, bulk piezoelectric transducer generated a rectified power of 16.25 μW with 2.47 VDC with 120 dB-A sound input at 1780 Hz. Among other MEMS acoustic energy harvesters in the literature, reported transducer has the highest power density (1.5 × 10−3 W/cm3) to our knowledge.
topic energy harvesting
bulk PZT
acoustic energy harvesting
cochlear implants
url https://www.mdpi.com/2504-3900/1/4/584
work_keys_str_mv AT azizkoyuncuoglu bulkpztcantileverbasedmemsacoustictransducerforcochlearimplantapplications
AT bedirhanilik bulkpztcantileverbasedmemsacoustictransducerforcochlearimplantapplications
AT salarchamanian bulkpztcantileverbasedmemsacoustictransducerforcochlearimplantapplications
AT hasanulusan bulkpztcantileverbasedmemsacoustictransducerforcochlearimplantapplications
AT parinazashrafi bulkpztcantileverbasedmemsacoustictransducerforcochlearimplantapplications
AT dilekisık bulkpztcantileverbasedmemsacoustictransducerforcochlearimplantapplications
AT halukkulah bulkpztcantileverbasedmemsacoustictransducerforcochlearimplantapplications
_version_ 1725315565856227328

Similar Items