Abstract |
A new type of electromagnetic vibration transducer designed to be placed onto the tympanic membrane was developed. The actuator consisted of two photodiodes, two permanent magnets, an aluminum ring, two opposing wound coils, a latex membrane and a Provil Novo membrane. An optic probe was designed to allow sound and light signals to enter the ear canal, thereby preventing the acoustic occlusion effect of traditional ear molds. Two light-emitting diodes were used for carrying the input signals. The corresponding photodiodes were used for receiving the light signals and generating currents in the actuator. The opto-electromagnetic vibration actuator was fabricated and tested using a Laser Doppler vibrometer. The actuator showed displacements of vibration between 30 and 1 nm from 300 to 6500Hz and reduced in amplitude at higher frequencies. The average gain of the actuator with 140microA on the umbo displacement was about 20 dB relative to 87 dBA at the distance of 6cm from the tympanic membrane and 0microA in actuator.
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Authors | Chia-Fone Lee, Chih-Hua Shih, Jen-Fang Yu, Jyh-Horng Chen, Yuan-Fang Chou, Tien-Chen Liu |
Journal | Journal of biomechanics
(J Biomech)
Vol. 41
Issue 16
Pg. 3515-8
(Dec 05 2008)
ISSN: 0021-9290 [Print] United States |
PMID | 18995856
(Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
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Topics |
- Acoustic Stimulation
(instrumentation)
- Electronics
(instrumentation)
- Equipment Design
- Equipment Failure Analysis
- Humans
- Magnetics
(instrumentation)
- Man-Machine Systems
- Optical Devices
- Physical Stimulation
(instrumentation)
- Transducers
- Tympanic Membrane
(physiology)
- Vibration
(therapeutic use)
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