Hearing aid with adaptive matching of input transducers

US 6,741,714 B2
Filed: 06/25/2001
Issued: 05/25/2004
Est. Priority Date: 10/04/2000
Status: Active Grant

First Claim

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1. A hearing aid comprisinga first and a second input transducer for transforming an acoustic input signal into respective first and second input transducer signals, a first signal processor having a first input that is connected to the first input transducer signal and a second input that is connected to the second input transducer signal for generation of a third electrical signal by processing and combining the input signals, an output transducer for transforming the third electrical signal into an acoustic output signal, an adaptive matching circuit with first and second inputs that are connected with the respective first and second input transducer signals and first and second outputs that are connected to the respective first and second processor inputs for modification of amplitude and phase responses of the first and second output signals in response to determinations of difference in the amplitude and phase responses so that the amplitude and phase responses of the first and second output signals are substantially identical, and a correlation detector for detection of non-correlated first and second processor input signals and for generation of a first control signal in response to the detection so that signal processing in the hearing aid can be adapted according to the detection, wherein the correlation detector generates a second control signal that is connected to the adaptive matching circuit for inhibition of adaptive matching upon detection of non-correlated signals.

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Abstract

A hearing aid with a directional characteristic, including at least two spaced apart input transducers and wherein transducer signal type, such as transducer noise, wind noise, sound emitted from a sound source located in the surroundings of the hearing aid, distorted signals, such as clipped signals, slew rate limited signals, etc, is determined, and wherein signal processing in the hearing aid, such as transducer matching, filtering, signal combination, etc, is adapted according to the determined signal type. For example, the directional characteristic may be switched to an omnidirectional characteristic when at least one of the input transducer signals is dominated by noise or distortion, and/or adaptive matching of input transducers may be put on hold while at least one of the input transducer signals is dominated by noise or distortion.

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14 Claims

1. A hearing aid comprisinga first and a second input transducer for transforming an acoustic input signal into respective first and second input transducer signals, a first signal processor having a first input that is connected to the first input transducer signal and a second input that is connected to the second input transducer signal for generation of a third electrical signal by processing and combining the input signals, an output transducer for transforming the third electrical signal into an acoustic output signal, an adaptive matching circuit with first and second inputs that are connected with the respective first and second input transducer signals and first and second outputs that are connected to the respective first and second processor inputs for modification of amplitude and phase responses of the first and second output signals in response to determinations of difference in the amplitude and phase responses so that the amplitude and phase responses of the first and second output signals are substantially identical, and a correlation detector for detection of non-correlated first and second processor input signals and for generation of a first control signal in response to the detection so that signal processing in the hearing aid can be adapted according to the detection, wherein the correlation detector generates a second control signal that is connected to the adaptive matching circuit for inhibition of adaptive matching upon detection of non-correlated signals.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. A hearing aid according to claim 1, wherein the correlation detector comprises a first signal level detector for detection of first signal levels.
  - 3. A hearing aid according to claim 1, wherein the correlation detector further comprises a second signal level detector for detection of second signal levels.
  - 4. A hearing aid according to claim 1, wherein the correlation detector comprises a second signal processor that is adapted to calculate a cross-correlation value of signals derived from the first and second signals.
  - 5. A hearing aid according to claim 1, wherein the first control signal is connected to the first signal processor for controlling the way in which the first signal processor combines the first and second processor input signals.
  - 6. A hearing aid according to claim 5, wherein the first signal processor combines the first and second processor input signals for omnidirectional sound reception.

7. A hearing aid comprising:
- a first and a second input transducer for transforming an acoustic input signal into respective first and second input transducer signals, a first signal processor having a first input that is connected to the first input transducer signal and a second input that is connected to the second input transducer signal for generation of a third electrical signal by processing and combining the input signals, an output transducer for transforming the third electrical signal into an acoustic output signal, a correlation detector for detection of non-correlated first and second processor input signals and for generation of a first control signal in response to the detection so that signal processing in the hearing aid can be adapted according to the detection, wherein the correlation detector comprises a second signal processor that is adapted to calculate a cross-correlation value r0 as an approximation to or an estimate of a value r defined by the following equation;
  
  $r = \frac{\sum XY - \frac{\sum X \sum Y}{N}}{\sqrt{(\sum X^{2} - \frac{{(\sum X)}^{2}}{N}) (\sum Y^{2} - \frac{{(\sum Y)}^{2}}{N})}}$ wherein X is a sampled signal derived from the first signal, Y is a sampled signal derived from the second signal, and N is the number of samples.
- View Dependent Claims (8, 9, 10)
- - 8. A hearing aid according to claim 7, wherein the signals X and Y are digitized in one bit words.
  - 9. A hearing aid according to claim 7, wherein the correlation value r₀is calculated as a running sum wherein a predetermined value Δ
    - ₁is added to the sum when sign(X)=sign (Y) and wherein a predetermined value Δ
      
      ₂is added to the sum when sign(X)≠
      
      sign (Y).
  - 10. A hearing aid according to claim 9, wherein Δ
    - ₁is equal to one and Δ
      
      ₂is equal to zero.

11. A hearing aid comprisinga first and a second input transducer for transforming an acoustic input signal into respective first and second input transducer signals, a first signal processor having a first input that is connected to the first input transducer signal and a second input that is connected to the second input transducer signal for generation of a third electrical signal by processing and combining the input signals, an output transducer for transforming the third electrical signal into an acoustic output signal, a correlation detector for detection of non-correlated first and second processor input signals and for generation of a first control signal in response to the detection so that signal processing in the hearing aid can be adapted according to the detection, and means for detecting and limiting a slew rate of at least one of the input transducer signal levels.

12. A hearing aid comprisinga first and a second input transducer for transforming an acoustic input signal into respective first and second input transducer signals, a first signal processor having a first input that is connected to the first input transducer signal and a second input that is connected to the second input transducer signal for generation of a third electrical signal by processing and combining the input signals, an output transducer for transforming the third electrical signal into an acoustic output signal, a correlation detector for detection of non-correlated first and second processor input signals and for generation of a first control signal in response to the detection so that signal processing in the hearing aid can be adapted according to the detection, wherein the first signal processor is adapted to process the first and second electrical signals for formation of an omnidirectional characteristic upon detection of non-correlated signals.
- View Dependent Claims (13, 14)
- - 13. The hearing aid according to claim 12, wherein the omnidirectional characteristic is formed by selecting one of said first and said second input transducer signals as the third electrical signal.
  - 14. The hearing aid according to claim 12, wherein the omnidirectional characteristic is formed by averaging the first and second input transducer signals.

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Current Assignee
Widex A/S (WS Audiology A/S)
Original Assignee
Widex A/S (WS Audiology A/S)
Inventors
Jensen, Lars Baekgaard
Primary Examiner(s)
LE, HUYEN D

Application Number

US09/887,260
Publication Number

US 20020041696A1
Time in Patent Office

1,065 Days
Field of Search

381/312, 381/91, 381/92, 381/111, 381/122, 381/313, 381/320, 381/321, 381/1
US Class Current

381/313
CPC Class Codes

H04R 2410/07   Mechanical or electrical re...

H04R 25/407   Circuits for combining sign...

H04R 29/006   Microphone matching

Hearing aid with adaptive matching of input transducers

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Hearing aid with adaptive matching of input transducers

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Abstract

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