Acoustic transducer for an implantable medical device
First Claim
1. An implantable medical device comprising:
- a housing defining a hermetically sealed chamber, the housing including a diaphragm portion with an inner surface, the diaphragm portion having a first resonance frequency;
an acoustic communication circuit within the chamber; and
an acoustic transducer within the chamber including;
a substantially rigid pin member having a first end attached to the inner surface in the diaphragm portion and a second end opposite the first end; and
an active portion coupled to the second end of the pin member, the active portion being electrically coupled to the acoustic communication circuit and having a second resonance frequency;
wherein the pin member offsets the active portion from the diaphragm portion to allow deformation of the active portion such that the first resonance frequency can be configured independently of the second resonance frequency; and
wherein the pin member is configured to transmit induced mechanical vibrations between the diaphragm portion of the housing and the active portion of the acoustic transducer, wherein the pin member has an outer diameter that is smaller than an outer diameter of the active portion.
1 Assignment
0 Petitions
Accused Products
Abstract
An implantable medical device includes a housing defining a hermetically sealed chamber and includes a diaphragm portion having a first resonance frequency, an acoustic communication circuit within the chamber, and an acoustic transducer within the chamber. The transducer includes a substantially rigid pin member attached to an inner surface of the diaphragm portion, and an active portion coupled to the pin member. The active portion has a second resonant frequency and includes a piezoelectric element electrically coupled to the acoustic communication circuit. The diaphragm portion and the active transducer portion may be configured such that the first and second resonance frequencies are substantially equal.
199 Citations
10 Claims
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1. An implantable medical device comprising:
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a housing defining a hermetically sealed chamber, the housing including a diaphragm portion with an inner surface, the diaphragm portion having a first resonance frequency; an acoustic communication circuit within the chamber; and an acoustic transducer within the chamber including; a substantially rigid pin member having a first end attached to the inner surface in the diaphragm portion and a second end opposite the first end; and an active portion coupled to the second end of the pin member, the active portion being electrically coupled to the acoustic communication circuit and having a second resonance frequency; wherein the pin member offsets the active portion from the diaphragm portion to allow deformation of the active portion such that the first resonance frequency can be configured independently of the second resonance frequency; and wherein the pin member is configured to transmit induced mechanical vibrations between the diaphragm portion of the housing and the active portion of the acoustic transducer, wherein the pin member has an outer diameter that is smaller than an outer diameter of the active portion. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An implantable medical device comprising:
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a housing defining a hermetically sealed chamber, the housing including a diaphragm portion with an inner surface, the diaphragm portion having a first resonance frequency; an acoustic communication circuit within the chamber; and an acoustic transducer within the chamber including; a substantially rigid pin member having a first end attached to the inner surface in the diaphragm portion and a second end opposite the first end; and an active portion coupled to the second end of the pin member, the active portion being electrically coupled to the acoustic communication circuit and having a second resonance frequency; wherein the active portion further includes; a generally planar, flexible disk member having a first surface and a second surface opposite the first surface; first and second generally planar, annular piezoelectric elements attached to and electrically isolated from the first and second surface of the disk member, respectively, and electrically coupled to the communication circuit; and the second end of the pin member is attached to the second surface of the disk member; wherein one or more of the pin member, the disk member, the first and second piezoelectric elements, and the diaphragm portion are configured such that the first and second resonant frequencies are substantially equal; and wherein the acoustic communication circuit is adapted to apply an AC voltage to the piezoelectric elements causing the piezoelectric elements to vibrate at the first resonance frequency.
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10. An implantable medical device comprising:
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a housing defining a hermetically sealed chamber, the housing including a diaphragm portion with an inner surface, the diaphragm portion having a first resonance frequency; an acoustic communication circuit within the chamber; and an acoustic transducer within the chamber including; a substantially rigid pin member having a first end attached to the inner surface in the diaphragm portion and a second end opposite the first end; and an active portion coupled to the second end of the pin member, the active portion being electrically coupled to the acoustic communication circuit and having a second resonance frequency; wherein the active portion further includes; a generally planar, flexible disk member having a first surface and a second surface opposite the first surface; first and second generally planar, annular piezoelectric elements attached to and electrically isolated from the first and second surface of the disk member, respectively, and electrically coupled to the communication circuit; and the second end of the pin member is attached to the second surface of the disk member; wherein one or more of the pin member, the disk member, the first and second piezoelectric elements, and the diaphragm portion are configured such that the first and second resonant frequencies are substantially equal; and wherein the acoustic communication circuit is adapted to apply a time varying voltage to the piezoelectric elements causing the piezoelectric elements to vibrate at the first resonance frequency.
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Specification