JP2011176648A - Hearing aid system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hearing aid system in which a hearing aid receives a beacon signal automatically, and switches a mode to a receiving mode by an induction coil. <P>SOLUTION: The hearing aid system comprises: an output device; and a receiver such as the hearing aid. The output device is equipped with: a voice input part; a beacon generation part; and a loop coil for generating a magnetic field proportional to a voice signal inputted in the voice input part and the beacon signal generated from the beacon generation part. The receiver is equipped with: an induction coil and a first receiving circuit for receiving the beacon signal; a microphone for picking up voice; a second receiving circuit for receiving the voice picked up by the microphone; and a signal processing circuit which performs signal processing of the respective signals received by the first receiving circuit and the second receiving circuit to perform switching control so as to invalidate the voice to be received by the second receiving circuit and to validate the voice received by the first receiving circuit when the beacon signal is detected by the signal processing circuit. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a hearing aid system, and more particularly to a hearing aid system that can automatically switch the hearing mode of a hearing aid to a reception mode using an induction coil.

Conventionally, as a hearing aid system, as a conventional hearing aid system, an output device composed of a loop coil, an amplifier, and a voice input unit for generating a magnetic field, an induction coil, a receiving circuit, a signal processing unit, a microphone, a receiving device Some of them consisted of hearing aids consisting of a circuit, a mode switch, an amplifier, a receiver, and a battery.
According to the hearing aid system, the output device amplifies the sound input from the sound input unit with an amplifier and drives the loop coil, the loop coil generates a magnetic field proportional to the input sound and transmits it to the hearing aid, In the hearing aid, when the mode changeover switch is switched to the T side, the hearing aid switches from the microphone reception mode to the built-in induction coil reception mode, and the induction coil receives the magnetic field generated by the loop coil to receive the signal. It was converted into sound by the processing unit and transmitted to the ear via an amplifier and a receiver (for example, Patent Document 1).

JP 2002-27597 A

However, in the conventional hearing aid system, it is necessary to manually switch the mode selector switch of the hearing aid in order to switch the hearing aid to the reception mode by the induction coil. In some cases, the output device or equipment may not be aware of a mark or sign indicating that it is compatible with hearing aids, and may be inconvenient.
The present invention has been made in order to solve this problem, and by providing a beacon generation circuit in the output device, a hearing aid system in which a hearing aid receiving a beacon signal can automatically switch to a reception mode by an induction coil. The purpose is to provide.

  In order to achieve the above object, a hearing aid system according to a first aspect of the present invention is a hearing aid system including an output device and a receiving device such as a hearing aid. The output device receives sound. An audio input unit, a beacon generation unit for generating a beacon signal, a loop coil for generating a magnetic field proportional to the audio signal input to the audio input unit and the beacon signal generated from the beacon generation unit, Is a magnetic field coupled by a magnetic field generated by a loop coil, and an audio signal, an induction coil and a first receiving circuit for receiving a beacon signal, a microphone for picking up sound, and a sound picked up by the microphone Signal processing that performs signal processing on each signal received by the second receiving circuit, the first receiving circuit, and the second receiving circuit for receiving Comprising a circuit, the receiving apparatus, and performs control so as to enable the sound received by the first receiving circuit upon detection of a beacon signal by the signal processing circuit.

In the hearing aid system according to the second aspect of the present invention, in the first aspect, the receiving device is configured such that the signal level of the beacon signal received by the first receiving circuit is equal to or higher than a predetermined level. When detected, the induction coil reception mode is prohibited, or control for reducing the reception gain is performed.

In the hearing aid system according to the third aspect of the present invention, in the first or second aspect, the output device uses the unique information such as the output device ID for identifying the output device as an encoded beacon signal. , And the receiving apparatus includes a decoding circuit for decoding the encoded beacon signal.

According to the hearing aid system of the first aspect, it is possible to automatically receive the voice from the induction coil and improve the user-friendliness.
According to the hearing aid system of the second aspect, it is possible to avoid damage to the ear due to excessive reception volume due to the person holding the hearing aid approaching the output device too much.
According to the hearing aid system of the third aspect, it is possible to receive the unique ID of the output device, and the hearing aid can perform control to switch to the induction coil reception mode only when approaching a specific output device. Furthermore, by providing a separate display device for the hearing aid, it is possible to display characters and figures transmitted from the output device, so that information can be visually recognized.

It is a block diagram of a hearing aid system in the 1st example of the present invention. It is a block diagram of a hearing aid system in the 2nd example of the present invention.

Hereinafter, preferred embodiments of the hearing aid system of the present invention will be described with reference to the drawings.
FIG. 1 is a system configuration diagram of a hearing aid system according to an embodiment of the present invention.
As shown in FIG. 1, the hearing aid system of the present invention includes an output device 100 and a hearing aid 105. The output device 100 includes a sound input unit 101 to which sound is input, a frequency outside the audible band (for example, 32 kHz). A beacon generation circuit 102 for generating a beacon signal modulated at a fixed period, an output device side output device side amplifier 103 for amplifying the audio signal from the audio input unit 101 and the beacon signal from the beacon generation circuit 102, It comprises a loop coil 104 for generating a magnetic field proportional to each signal output from the output device side amplifier.
In addition, the hearing aid 105 is coupled to the magnetic field generated by the loop coil 104 of the output device 100 to receive each signal by induction coupling 106 and the first receiving circuit 107, and a signal for detecting each received signal. It has a processing unit 108, and further receives a microphone 109 for picking up normal sound, a second receiving circuit 110 for receiving sound picked up by the microphone, and first and second receiving circuits. It includes a hearing aid side amplifier 111 for amplifying a sound signal, a receiver 112 for receiving the sound amplified by the hearing aid side amplifier, and a battery 113 for driving the hearing aid 105.

The operation of the hearing aid system configured as described above will be described.
Usually, the hearing aid is set to a mode for receiving sound input to the microphone 109.
In this microphone reception mode, the sound input to the microphone 109 is received by the second receiving circuit 110, appropriately signal-processed by the signal processing unit 108, then amplified by the hearing aid side amplifier 111 and received by the receiver 112. And
Here, when a person who has the hearing aid 105 approaches the area where the output device 100 is installed, the audio signal input to the audio input unit 101 of the output device 100 and a frequency outside the audible band (for example, 32 kHz) are modulated. The beacon signals thus amplified are respectively amplified by the output device side amplifier 103, and each amplified signal is input to the loop coil 104, whereby a magnetic field proportional to each signal is generated.

As a result, the induction coil 106 of the hearing aid 105 is magnetically coupled by the magnetic field generated by the loop coil 104, whereby each signal output from the output device 100 can be received by the first receiving circuit 107. Each signal received by the first receiving circuit is appropriately signal-processed by the signal processing unit 108 to receive a beacon signal.
When a beacon signal is received, control is performed to control the second receiving circuit 110 to invalidate the voice signal received by the microphone 109 and to switch to the induction coil reception mode by the induction coil 106.
As a result, it is possible to automatically receive the voice from the induction coil and improve the user-friendliness.

When no beacon signal is received, the microphone reception mode, which is the normal state, is again entered.
Here, in the above embodiment, when a beacon signal is received, the second reception circuit 110 is controlled to invalidate the audio signal received by the microphone 109 and switch to the induction coil reception mode by the induction coil 106. Although the control is performed, the second receiving circuit 110 can also be controlled to enable the induction coil reception mode by the induction coil 106 while maintaining the audio signal received by the microphone 109 in an effective state.

Also, since the beacon signal is filtered, it is not mixed in the audio signal.
In addition, when a person holding the hearing aid 105 gets too close to the output device 100, the following control is performed.
When it is detected that the signal level of the beacon signal received by the induction coil 106 of the hearing aid 105 is equal to or higher than a predetermined level set in advance, the induction coil reception mode is prohibited or control for reducing the reception gain is performed. As a result, the person holding the hearing aid 105 gets too close to the output device 100 and the received sound volume becomes excessive, and damage to the ear due to excessive sound can be avoided.

Further, as shown in FIG. 2, the output device 100 includes a CPU 102a and an encoding circuit 102b so that the encoded beacon signal can be output to the output device-side amplifier 103, and the loop coil 104 as in the above-described embodiment. The beacon signal output from the output device 100 is first received by generating a magnetic field that is proportional to the beacon signal output at, and the induction coil 106 of the hearing aid 105 is magnetically coupled by the magnetic field generated by the loop coil 104. Received by the circuit 107. The received beacon signal is decrypted by the decryption circuit 108 a provided in the signal processing unit 108, so that the unique ID of the output device 100 can be received, and the hearing aid 105 approaches the specific output device 100. Only the control to switch to the induction coil reception mode can be performed.
Further, by providing a separate display device for the hearing aid 105, it is possible to display characters and figures transmitted from the output device 100, so that information can be visually recognized.

DESCRIPTION OF SYMBOLS 100 ... Output device 101 ... Voice input part 102 ... Beacon generation circuit 102a ... CPU
102b ... Coding circuit 103 ... Output device side amplifier 104 ... Loop coil 105 ... Hearing aid 106 ... Inductive coil 107 ... First receiving circuit 108 ... Signal processing unit 108a ..Composite circuit 109 ... Microphone 110 ... Second reception circuit 111 ... Hearing aid side amplifier 112 ... Receiver 113 ... Battery

Claims (3)

A hearing aid system comprising an output device and a receiving device such as a hearing aid,
The output device includes a voice input unit to which voice is input, a beacon generation unit for generating a beacon signal, a voice signal input to the voice input unit, and a magnetic field proportional to the beacon signal generated from the beacon generation unit. A loop coil for generating
The receiving device is magnetically coupled by a magnetic field generated by the loop coil, whereby the voice signal, the induction coil and the first receiving circuit for receiving the beacon signal, a microphone for picking up the voice, and the microphone A second receiving circuit for receiving the voice picked up in the above, a signal processing circuit for signal processing each signal received by the first receiving circuit and the second receiving circuit,
The receiving apparatus performs control so as to validate the voice received by the first receiving circuit when the signal processing circuit detects the beacon signal. When the receiving apparatus detects that the signal level of the beacon signal received by the first receiving circuit is equal to or higher than a predetermined level, control for prohibiting the induction coil receiving mode or reducing the receiving gain is performed. The hearing aid system according to claim 1, wherein: The output device includes an encoding circuit for outputting unique information such as an output device ID for specifying the output device as an encoded beacon signal,
The hearing aid system according to claim 1, wherein the receiving device includes a composite circuit for decoding the encoded beacon signal.

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