Implantable middle ear hearing devices (IMEHDs) have been developed as a new technology to overcome the limitations of conventional hearing aids. The piezoelectric cantilever transducers currently used in the IMEHDs have the advantages of low power consumption and ease of fabrication, but generate less high-frequency output. To address this problem, we proposed and designed a new piezoelectric transducer based on a piezoelectric stack for the IMEHD. This new transducer, attached to the incus body with a coupling rod, stimulates the ossicular chain in response to the expansion-and-contraction of its piezoelectric stack. To test its feasibility for hearing loss compensation, a bench testing of the transducer prototype and a temporal bone expe...
This paper presents design and fabrication of a MEMS-based thin film piezoelectric transducer to be ...
The paper presents a comprehensive review of mechanical energy harvesters and microphone sensors for...
Implantable assembly components that are biocompatible and highly miniaturized are an important obje...
Implantable middle ear hearing devices (IMEHDs) have been developed as a new technology to overcome ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
Round window (RW) stimulation is a new application of middle ear implants for treating hearing loss,...
This paper reports the development of a single cantilever thin film PLD-PZT transducer prototype. Th...
This paper presents a multi-channel piezoelectric acoustic transducer that is working within the aud...
The design and implementation of a novel piezoelectric-based actuator for an implantable middle-ear ...
A small mutti-layer piezoelectric actuator, which contains a stack of piezoelectric crystals in a th...
This paper describes the design and development of a small actuator using a miniature piezoelectric ...
AuthorThis paper presents a multi-channel acoustic transducer that works within the audible frequenc...
In order to decrease the power consumption of current piezoelectric stack actuator for incus-body dr...
A concept for a partially implantable hearing device, for which the power supply and signal transmis...
The Totally Implantable Envoy ® System is currently undergoing clinical trials in both the United St...
This paper presents design and fabrication of a MEMS-based thin film piezoelectric transducer to be ...
The paper presents a comprehensive review of mechanical energy harvesters and microphone sensors for...
Implantable assembly components that are biocompatible and highly miniaturized are an important obje...
Implantable middle ear hearing devices (IMEHDs) have been developed as a new technology to overcome ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
Round window (RW) stimulation is a new application of middle ear implants for treating hearing loss,...
This paper reports the development of a single cantilever thin film PLD-PZT transducer prototype. Th...
This paper presents a multi-channel piezoelectric acoustic transducer that is working within the aud...
The design and implementation of a novel piezoelectric-based actuator for an implantable middle-ear ...
A small mutti-layer piezoelectric actuator, which contains a stack of piezoelectric crystals in a th...
This paper describes the design and development of a small actuator using a miniature piezoelectric ...
AuthorThis paper presents a multi-channel acoustic transducer that works within the audible frequenc...
In order to decrease the power consumption of current piezoelectric stack actuator for incus-body dr...
A concept for a partially implantable hearing device, for which the power supply and signal transmis...
The Totally Implantable Envoy ® System is currently undergoing clinical trials in both the United St...
This paper presents design and fabrication of a MEMS-based thin film piezoelectric transducer to be ...
The paper presents a comprehensive review of mechanical energy harvesters and microphone sensors for...
Implantable assembly components that are biocompatible and highly miniaturized are an important obje...