Biocompatible, implantable hearing aid microactuator
First Claim
1. A biocompatible, implantable microactuator adapted for inclusion in a fully implantable hearing aid system, the microactuator comprising:
- a hollow body having an open first face;
an open first end that is coupled to said hollow body and that is separated from the first face thereof;
a first flexible diaphragm that is sealed across the open first end and that is adapted for deflecting outward from and inward toward said open first end, said open first end and said first flexible diaphragm being adapted for implantation into a fenestration;
a second flexible diaphragm sealed across the first face of said body thereby hermetically sealing said body and said first end;
an incompressible liquid filling said hermetically sealed body and first end; and
a first biocompatible unimorph that is mechanically coupled to said second flexible diaphragm and that is adapted for receiving an electrical driving signal, whereby upon application of the electrical driving signal to said first biocompatible unimorph, said first biocompatible unimorph indirectly deflects said first flexible diaphragm by directly deflecting said second flexible diaphragm, which deflection is coupled by said liquid within the body from said second flexible diaphragm to said first flexible diaphragm, said first biocompatible unimorph including;
a plate of biocompatible piezoelectric material;
a layer of biocompatible metal bonded to said plate of biocompatible piezoelectric material; and
a thin, biocompatible electrode applied to said plate of biocompatible piezoelectric material opposite said layer of biocompatible metal, whereby application of the electrical driving signal across said layer of biocompatible metal and said biocompatible electrode causes the first biocompatible unimorph to deflect.
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Accused Products
Abstract
A biocompatible, implantable microactuator (82) for a fully implantable hearing aid system includes a hollow body (84) that has an open first end (88) and, open first and second faces (94a and 94b). Flexible diaphragms (92, 96a and 96b), respectively covering the end (88) and faces (94a and 94b), hermetically seal the body (84). An incompressible liquid (98) fills the body (84). Transducers (102), provided by laminated, stress-biased unimorphs (32 or 62) that are mechanically coupled to the flexible diaphragms (96a and 96b), deflect the diaphragms (96a and 96b) in response to an electrical driving signal. Deflections of the diaphragms (96a and 96b) are coupled by the liquid (98) to the first flexible diaphragm (92). The unimorphs (32 or 62) include a layer of biocompatible metal (36 or 66-68) deposited on one side of a biocompatible piezoelectric ceramic plate (34 or 64) to stress-bias the plate (34 or 64). A thin, biocompatible electrode (44 or 72) coats the other side of the plate (34 or 64).
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Citations
9 Claims
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1. A biocompatible, implantable microactuator adapted for inclusion in a fully implantable hearing aid system, the microactuator comprising:
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a hollow body having an open first face; an open first end that is coupled to said hollow body and that is separated from the first face thereof; a first flexible diaphragm that is sealed across the open first end and that is adapted for deflecting outward from and inward toward said open first end, said open first end and said first flexible diaphragm being adapted for implantation into a fenestration; a second flexible diaphragm sealed across the first face of said body thereby hermetically sealing said body and said first end; an incompressible liquid filling said hermetically sealed body and first end; and a first biocompatible unimorph that is mechanically coupled to said second flexible diaphragm and that is adapted for receiving an electrical driving signal, whereby upon application of the electrical driving signal to said first biocompatible unimorph, said first biocompatible unimorph indirectly deflects said first flexible diaphragm by directly deflecting said second flexible diaphragm, which deflection is coupled by said liquid within the body from said second flexible diaphragm to said first flexible diaphragm, said first biocompatible unimorph including; a plate of biocompatible piezoelectric material; a layer of biocompatible metal bonded to said plate of biocompatible piezoelectric material; and a thin, biocompatible electrode applied to said plate of biocompatible piezoelectric material opposite said layer of biocompatible metal, whereby application of the electrical driving signal across said layer of biocompatible metal and said biocompatible electrode causes the first biocompatible unimorph to deflect. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification