Hearing aid having input and output gain compression circuits
First Claim
1. A non-distorting hearing aid for amplifying sounds over a wide dynamic range, the hearing aid comprising:
- a microphone for converting the sounds into an audio signal;
a preamplifier connected to the microphone, the preamplifier including;
a first operational amplifier, an output of the first operational amplifier forming an output of the preamplifier;
a first input resistance for receiving the audio signal and for establishing a current flowing into an input of the first operational amplifier; and
a first variable resistance for conducting a current from the output of the first operational amplifier to the input of the first operational amplifier, a value of the first variable resistor being dependant on a voltage at the output of the preamplifier, wherein the gain of the preamplifier is proportional to a ratio of the first input resistance and the first variable resistance and wherein, when the voltage at the output of the first operational amplifier reaches a first predetermined threshold, the gain of the preamplifier is reduced so that the output of the first operational amplifier remains below a first predetermined voltage; and
an output amplifier connected to the output of the preamplifier, the output amplifier including;
a second operational amplifier, an output of the second operational amplifier forming an output of the output amplifier;
a second input resistance for receiving the output signal from the preamplifier and for establishing a current flowing into an input of the second operational amplifier; and
a second variable resistor for conducting a current from the output of the second operational amplifier to the input of the second operational amplifier, a value of the second variable resistor being dependant on a voltage at the output of the second operational amplifier, wherein the gain of the output amplifier is proportional to a ratio of the second input resistance and the second variable resistance and wherein, when the voltage at the output of the second operational amplifier reaches a second predetermined threshold, the gain of the output amplifier is reduced so that the output of the second operational amplifier remains below a second predetermined voltage.
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Accused Products
Abstract
A hearing aid uses multiple compression feedback loops to minimize sound distortion includes a preamplifier network having an input connected to an input receiver, an output, and an automatically adjustable gain. The preamplifier network measures an output signal which is preferably a voltage and automatically adjusts the gain in response to the output signal. The hearing aid also includes an output drive network having an input connected to the preamplifier network output and an output connected to a load, such as a transducer. The output drive network has an automatically adjustable gain which is responsive to a measured signal at the output of the network. A volume control circuit may also be connected between the output of the preamplifier network and the input of the output drive network to permit the person wearing the hearing aid to adjust the output volume.
120 Citations
3 Claims
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1. A non-distorting hearing aid for amplifying sounds over a wide dynamic range, the hearing aid comprising:
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a microphone for converting the sounds into an audio signal; a preamplifier connected to the microphone, the preamplifier including; a first operational amplifier, an output of the first operational amplifier forming an output of the preamplifier; a first input resistance for receiving the audio signal and for establishing a current flowing into an input of the first operational amplifier; and a first variable resistance for conducting a current from the output of the first operational amplifier to the input of the first operational amplifier, a value of the first variable resistor being dependant on a voltage at the output of the preamplifier, wherein the gain of the preamplifier is proportional to a ratio of the first input resistance and the first variable resistance and wherein, when the voltage at the output of the first operational amplifier reaches a first predetermined threshold, the gain of the preamplifier is reduced so that the output of the first operational amplifier remains below a first predetermined voltage; and an output amplifier connected to the output of the preamplifier, the output amplifier including; a second operational amplifier, an output of the second operational amplifier forming an output of the output amplifier; a second input resistance for receiving the output signal from the preamplifier and for establishing a current flowing into an input of the second operational amplifier; and a second variable resistor for conducting a current from the output of the second operational amplifier to the input of the second operational amplifier, a value of the second variable resistor being dependant on a voltage at the output of the second operational amplifier, wherein the gain of the output amplifier is proportional to a ratio of the second input resistance and the second variable resistance and wherein, when the voltage at the output of the second operational amplifier reaches a second predetermined threshold, the gain of the output amplifier is reduced so that the output of the second operational amplifier remains below a second predetermined voltage. - View Dependent Claims (2, 3)
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Specification