Digital hearing aid system
First Claim
Patent Images
1. A method for reducing the effect of occlusion in a digital hearing instrument, comprising the steps of:
- receiving an intended audio signal from a front microphone circuit;
receiving an occlusion signal from a rear microphone circuit, said rear microphone circuit including a microphone positioned within an ear canal;
subtracting the occlusion signal from the intended audio signal to generate an audio output;
amplifying the intended audio signal;
filtering the audio output signal with a loop filter, wherein the frequency response of the loop filter exhibits greater than unity gain (0 dB) below a pre-selected transition frequency and less than unity gain above the pre-selected transition frequency; and
filtering the amplified intended audio signal with a high frequency equalizer circuit, wherein the frequency response of the high frequency equalizer circuit compensates for the frequency response of the loop filter above the pre-selected transition frequency.
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Abstract
A digital hearing aid is provided that includes front and rear microphones, a sound processor, and a speaker. Embodiments of the digital hearing aid include an occlusion subsystem, and a directional processor and headroom expander. The front microphone receives a front microphone acoustical signal and generates a front microphone analog signal. The rear microphone receives a rear microphone acoustical signal and generates a rear microphone analog signal. The front and rear microphone analog signals are converted into the digital domain, and at least the front microphone signal is coupled to the sound processor. The sound processor selectively modifies the signal characteristics and generates a processed signal. The processed signal is coupled to the speaker which converts the signal to an acoustical hearing aid output signal that is directed into the ear canal of the digital hearing aid user. The occlusion sub-system compensates for the amplification of the digital hearing aid user'"'"'s own voice within the ear canal. The directional processor and headroom expander optimizes the gain applied to the acoustical signals received by the digital hearing aid and combine the amplified signals into a directionally-sensitive response.
155 Citations
23 Claims
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1. A method for reducing the effect of occlusion in a digital hearing instrument, comprising the steps of:
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receiving an intended audio signal from a front microphone circuit; receiving an occlusion signal from a rear microphone circuit, said rear microphone circuit including a microphone positioned within an ear canal; subtracting the occlusion signal from the intended audio signal to generate an audio output; amplifying the intended audio signal; filtering the audio output signal with a loop filter, wherein the frequency response of the loop filter exhibits greater than unity gain (0 dB) below a pre-selected transition frequency and less than unity gain above the pre-selected transition frequency; and filtering the amplified intended audio signal with a high frequency equalizer circuit, wherein the frequency response of the high frequency equalizer circuit compensates for the frequency response of the loop filter above the pre-selected transition frequency. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of reducing the effect of occlusion in a digital hearing instrument, comprising:
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receiving an analog intended audio signal from a front microphone; converting the analog intended audio signal into a digital intended audio signal; modifying a characteristic of the digital intended audio signal to produce a processed signal; receiving an analog occlusion signal from a rear microphone positioned within an ear canal; converting the analog occlusion signal into a digital occlusion signal; subtracting the digital occlusion signal from the processed signal to generate an audio output signal; converting the audio output signal into an acoustical output signal with a speaker circuit; and directing the acoustical output signal into the ear canal; wherein said modifying of a characteristic of the digital intended audio signal includes; modifying a first frequency component of the digital intended audio signal in a first manner; and modifying a second frequency component of the digital intended audio signal in a second manner, said second frequency component being different from said first frequency component, and said first manner being different from said second manner. - View Dependent Claims (9, 10)
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11. A digital hearing aid comprising:
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a front microphone adapted to receive an analog intended audio signal; a first analog-to-digital converter adapted to convert the analog intended audio signal into a digital intended audio signal; a sound processor adapted to modify a characteristic of the digital intended audio signal to produce a processed signal; a rear microphone adapted to receive an analog occlusion signal, said rear microphone being positioned within an ear canal; a second analog-to-digital converter adapted to convert the analog occlusion signal into a digital occlusion signal; an occlusion subsystem adapted to subtract the digital occlusion signal from the processed signal and to generate an audio output signal; and a speaker adapted to convert the audio output signal into an acoustical output signal that is directed into the ear canal; wherein said sound processor is further adapted to modify a first frequency component of the digital intended audio signal in a first manner and to modify a second frequency component of the digital intended audio signal in a second manner, said second frequency component being different from said first frequency component, and said first manner being different from said second manner. - View Dependent Claims (12, 13)
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14. A digital hearing instrument comprising:
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a front microphone adapted to receive an analog intended audio signal; a first analog-to-digital converter adapted to convert the analog intended audio signal into a digital intended audio signal at a first sampling rate; a sound processing subsystem adapted to modify a characteristic of the digital intended audio signal to produce a processed signal; a rear microphone adapted to receive an analog occlusion signal, said rear microphone being positioned within an ear canal; a second analog-to-digital converter adapted to convert the analog occlusion signal into a digital occlusion signal at a second sampling rate, said second sampling rate being higher than said first sampling rate; an occlusion subsystem adapted to subtract the digital occlusion signal from the processed signal and to generate an audio output signal; and a speaker adapted to convert the audio output signal into an acoustical output signal that is directed into the ear canal. - View Dependent Claims (15, 16, 17, 18)
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19. A method for reducing the effect of occlusion in a digital hearing aid comprising:
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receiving an analog intended audio signal from a front microphone positioned external to a user'"'"'s ear canal; sampling said analog intended audio signal at a first rate and converting the samples of the analog intended audio signal into a digital audio intended signal; processing said digital audio intended signal in a manner adapted to compensate for a hearing impairment of the user, said processing of said digital audio intended signal yielding a processed signal; receiving an analog occlusion signal from a rear microphone positioned within the user'"'"'s ear canal; sampling said analog occlusion signal at a second rate and converting the samples of the analog occlusion signal into a digital occlusion signal, said second rate being higher than said first rate; and subtracting the digital occlusion signal from the processed signal to generate an audio output signal adapted to compensate for an amplification of the user'"'"'s own voice within the user'"'"'s ear canal. - View Dependent Claims (20, 21, 22, 23)
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Specification
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Current AssigneeSemiconductor Components Industries LLC (ON Semiconductor Corporation)
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Original AssigneeSound Design Technologies Limited (ON Semiconductor Corporation)
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InventorsRyan, James G., Brown, David R., Armstrong, Stephen W., Sykes, Frederick E.
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Primary Examiner(s)Le; Huyen D
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Application NumberUS11/150,896Publication NumberTime in Patent Office1,212 DaysField of Search381/83, 381/92, 381/93, 381/94.1, 381/312, 381/313, 381/314, 381/317, 381/318, 381/320, 381/321US Class Current381/312CPC Class CodesH04R 2225/43 Signal processing in hearin...H04R 2460/05 Electronic compensation of ...H04R 25/356 Amplitude, e.g. amplitude s...H04R 25/407 Circuits for combining sign...H04R 25/453 electronicallyH04R 25/505 using digital signal proces...
