Hearing aid with digital processing for: correlation of signals from plural microphones, dynamic range control, or filtering using an erasable memory
First Claim
1. A method for adapting the transmission function of a hearing aid to various types of hearing difficulty, characterized in that the analog sound signal to be transmitted is converted into a digital signal, is then subjected to a discrete signal processing based on selected stored parameters matched to the difficulty in hearing for which provision is to be made, that the digital signal is then converted back into an analog electrical signal and is converted into sound in a manner known in the case of hearing aids, characterized in that several input signals are individually converted to digital signals, and are correlated in a digital arithmetic unit to provide a resultant output.
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Abstract
In an illustrated embodiment a behind-the-ear hearing aid includes a microphone, an amplifier-low pass filter circuit, an analog to digital converter, a digital integrated circuit arithmetic and logic unit for implementing a n-th order transfer function in the Z domain, a digital to analog converter and an output transducer, for producing the desired sound response. A memory multiplexer is provided for loading of the multiplier coefficients necessary to adapt the transfer function circuit to essentially any class of hearing deficiency into an erasable programmable read only memory (EPROM). The structure is such that the coefficient memory may be loaded after the standard universal hearing aid has been completely assembled, and indeed the hearing aid may be reprogrammed as needed after a period of use, essentially without disassembly.
123 Citations
10 Claims
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1. A method for adapting the transmission function of a hearing aid to various types of hearing difficulty, characterized in that the analog sound signal to be transmitted is converted into a digital signal, is then subjected to a discrete signal processing based on selected stored parameters matched to the difficulty in hearing for which provision is to be made, that the digital signal is then converted back into an analog electrical signal and is converted into sound in a manner known in the case of hearing aids, characterized in that several input signals are individually converted to digital signals, and are correlated in a digital arithmetic unit to provide a resultant output.
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2. A hearing aid system comprising
receiving means for receiving an audio signal, output means comprising a transducer for producing an auditory signal, an analog to digital converter coupled to said receiving means and operative to supply a converted signal in digital form in accordance with the audio signal, discrete signal processing means connected with said analog to digital converter and comprising a finite impulse response (FIR) filter circuit for processing an input signal in accordance with said converted signal to provide a filtered signal with a frequency response adapted to the frequency response of the receiving and output means and of the ear, and erasable memory means for storing filter parameters for said finite impulse response (FIR) filter circuit, a digital to analog converter connected with said filter circuit to supply an analog signal in accordance with said filtered signal, and circuit means for amplifying the analog signal to provide an amplified analog signal and for supplying said amplified analog signal to said output means for producing an auditory signal in accordance therewith.
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3. A hearing aid system comprising
receiving means for receiving an audio input signal, an analog to digital converter coupled to said receiving means for supplying a converted signal in digital form in accordance with said audio input signal, memory means connected with said analog to digital converter and having an input-output characteristic to supply a translated signal in accordance with said converted signal but with each input digital value translated into an output digital word, the input-output characteristic of said memory means serving to adjust the dynamic range of the audio input signal without introducing time delay, said memory means comprising an erasable memory for storing input-output characteristic values for providing said input-output chacteristic, a digital to analog converter coupled with said memory means to supply an analog signal with adjusted dynamic range in accordance with the translated signal, circuit means to amplify and process the analog signal, and transducer means responsive to the amplified and processed analog signal for producing an audio output signal.
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4. A hearing aid system comprising
discrete signal processing means comprising analog to digital conversion means for receiving a plurality of analog audio input signals and for converting each analog audio input signal into a discrete signal, and comprising discrete signal correlation means and discrete signal filtering means for correlating the discrete signals in accordance with said plurality of audio input signals and for producing a resultant discrete signal which is correlated and filtered so as to be adapted to aid in hearing, digital to analog converter means for producing a converter analog output signal in accordance with said resultant discrete signal, amplifier means to amplify the converter analog output signal, and a transducer for producing an auditory output signal in accordance with the output of said amplifier means.
Specification