Wide audio bandwidth transduction method and device
First Claim
1. A communication device comprising:
- means for establishing an ultrasonic signal;
means for modulating the ultrasonic signal with an audio signal using carrier plus single sideband modulation to produce a modulated ultrasonic signal at an output; and
means for mounting the output in proximity to a human ear at a location where bone conduction will transport the modulated ultrasonic signal to a hearing mechanism associated with the ear which receives the audio signal as inaudible ultrasonic acoustic energy, wherein a difference between the frequency of the ultrasonic signal and the frequency of a single sideband is substantially equal to the frequency of the audio signal.
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Accused Products
Abstract
The present invention is directed to a communication system wherein bone conducted ultrasonic signals are used as carriers to efficiently produce high fidelity, wide audio bandwidth sound. Exemplary embodiments rely on the use of modulation techniques which can achieve high fidelity audible sound, such as carrier plus single sideband (SSB) modulation. Known non-linearities within the ear itself can be exploited to demodulate the modulated ultrasonic carrier without producing audible sounds at the input to the user'"'"'s ear. The non-linearities of the ear itself, in conjunction with the human brain'"'"'s perception of audible frequencies generated in response to modulated ultrasonic stimulation, are relied upon to detect audio information.
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Citations
14 Claims
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1. A communication device comprising:
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means for establishing an ultrasonic signal;
means for modulating the ultrasonic signal with an audio signal using carrier plus single sideband modulation to produce a modulated ultrasonic signal at an output; and
means for mounting the output in proximity to a human ear at a location where bone conduction will transport the modulated ultrasonic signal to a hearing mechanism associated with the ear which receives the audio signal as inaudible ultrasonic acoustic energy, wherein a difference between the frequency of the ultrasonic signal and the frequency of a single sideband is substantially equal to the frequency of the audio signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
a transducer configured as a microelectromechanical system.
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5. The communication device according to claim 1, wherein the ultrasonic signal modulating means operates over a frequency bandwidth that is within 5 to 20% of its center frequency.
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6. The communication device according to claim 1, wherein the ultrasonic signal and the modulated ultrasonic signal are supplied as separate outputs of the communication device.
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7. The communication device according to claim 1, configured as a portion of a sound processor in a hearing aid device.
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8. The communication device according to claim 1, configured for two-way communications, comprising:
a microphone for transducing audible sound into electrical signals for transmission to a remote location.
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9. The communication device according to claim 1, wherein the mounting means comprises a transducer having a acoustic impedance substantially matched to an impedance of human head tissue.
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10. A method for communicating audible sound by a communication device, comprising the steps of:
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producing an ultrasonic signal;
modulating the ultrasonic signal with an audio signal using carrier plus single sideband modulation to produce a modulated ultrasonic signal at an output, the ultrasonic signal being modulated so that a difference between the frequency of the ultrasonic signal and the frequency of a single sideband is substantially equal to the frequency of the audio signal; and
directing the output in proximity to a human ear at a location where bone conduction will transport the modulated ultrasonic signal to a hearing mechanism associated with the human ear which receives the audio signal as inaudible ultrasonic acoustic energy. - View Dependent Claims (11, 12, 13, 14)
a first signal component that has a constant frequency and second signal component that has a frequency that is a combination of the constant frequency and an audio frequency.
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12. The method for communicating audible sound according to claim 10, wherein the communication device comprises:
a single ultrasonic transducer.
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13. The method for communicating audible sound according to claim 10, wherein the communication device comprises:
multiple ultrasonic transducers, a first ultrasonic transducer transmitting a first ultrasonic signal component and a second ultrasonic transducer transmitting a second ultrasonic signal component.
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14. The method for communicating audible sound according to claim 13, wherein the first ultrasonic transducer and the second ultrasonic transducer each has a acoustic impedance substantially matched to an impedance of human head tissue.
Specification