JPH10126893A - Haring aid - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hearing aid capable of reducing low noises infiltrating one's external auditory meatus and reaching his/her tympanum face. SOLUTION: A low frequency component signal is extracted by passing an input signal to the hearing aid through a low pass filter, a low frequency component signal is extracted from an inner external auditory meatus signal from a microphone 211 against the inner external auditory meatus by passing through a low pass filter 210 having the same frequency characteristic as the low pass filter 205, the output of the low pass filter 205 is delayed so that both the signals chancel each other, its amplitude lever is amplified and the signal is inputted to an adder 208 to be outputted from an earphone 204. Thus, by the signal added to the adder 208, a noise in the external auditory meatus is canceled and an unpleasant noise due to a low frequency peculiar too a hearing aid is suppressed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hearing aid which removes a low-frequency noise component signal that enters the ear canal due to bone conduction or the like.

[0002]

2. Description of the Related Art Hitherto, if a low-frequency noise component is mixed in an input of a hearing aid, there has been a problem that it is very difficult to hear.
Therefore, conventional hearing aids have also been improved so that low-frequency noise components are removed from a microphone input signal so that a hearing aid that is easy to hear is obtained. Conventionally, one of such hearing aids is as shown in FIG. FIG.
FIG. 1 is a block diagram showing a configuration of a conventional hearing aid as an example.

Next, the configuration of a conventional hearing aid will be described with reference to FIG. This conventional example is described in the IEICE Technical Report SP93-48 "Current status and future prospects of development of assistive devices for the hearing impaired". 32. In FIG. 1, reference numeral 101 denotes a microphone that captures external sound with a hearing aid, and reference numeral 102 denotes a logic circuit that detects a noise component input to the microphone 101.

An output frequency characteristic adjusting unit 103 adjusts the frequency characteristics of the input of the microphone 101 (particularly, suppresses low-frequency noise). 104 denotes a low-frequency noise component detected by the logic circuit 102 exceeding a certain threshold. An output frequency characteristic control unit that controls the output frequency characteristic adjustment unit 103 in the case;
An amplifier 105 amplifies the output of the output frequency characteristic adjustment unit 103, and an earphone 106 outputs an audio signal.

Next, an operation of the conventional hearing aid, that is, a noise removing method will be described with reference to FIG. First,
The noise component included in the input of the microphone 101 is detected by the logic circuit 102, and this is detected by the logic circuit 102.
When the low-frequency noise exceeds a certain threshold, the low-frequency noise is notified to the output frequency characteristic control unit 104. Upon receiving the notification, the output frequency characteristic control unit 104 automatically controls the output frequency characteristic adjustment unit 103, thereby lowering the low-frequency part of the input signal to suppress the low-frequency noise component, I try to improve my listening.

As described above, even in the conventional hearing aid, the low-frequency noise component signal is removed from the microphone input.

[0007]

However, in the above-mentioned conventional hearing aid, although the low frequency noise can be removed from the input signal from the microphone, the sound of the low frequency is transmitted from the vicinity of the pinna to the ear canal. Invasion into the external auditory canal also due to bone conduction or leakage of the ear pad causes low-frequency noise on the eardrum surface, and this unpleasant low-frequency noise cannot be completely removed.

The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide a hearing aid which can reduce low-frequency noise reaching the eardrum surface such as invading the ear canal.

[0009]

The hearing aid according to the invention comprises:
In order to achieve the above object, in the delay / amplitude level adjusting unit, an input extracted by a low-pass filter or by extracting a difference between an output signal of a high-pass filter of a frequency characteristic adjusting unit of a hearing aid and a microphone input signal. To find the correlation between the low-frequency component signal of the signal and the low-frequency component signal collected by the microphone in the ear canal provided in the ear canal, to cancel the signal of the low frequency component collected by the microphone in the ear canal,
The delay amount and amplitude level for appropriately delaying and amplifying the input signal are set, and the low frequency component signal of the delayed and amplified input signal is added to the input signal and output from the earphone of the hearing aid. is there.

According to the present invention, a signal having the same amplitude level in a phase opposite to that of the low-frequency noise component invading the ear canal through bone conduction or the like is included in the input signal. Since the low frequency component signal in the ear canal can be removed, a hearing aid can be obtained which can easily and automatically cancel unpleasant low frequency noise on the eardrum surface.

According to the hearing aid of the present invention, in order to achieve the above object, the delay amount and the amplitude level of the low frequency component signal of the input signal are calculated from the sound pressure transfer function between the vicinity of the pinna and the ear canal. The input signal is set to match the level and amplitude level, and the low frequency component signal of the delayed and amplified input signal is added to the input signal and output from the earphone of the hearing aid.

According to the present invention, the input signal contains a signal having the same amplitude level as that of the low frequency component noise which invades the ear canal through bone conduction or the like. Since the frequency component signal can be removed, a hearing aid that can automatically cancel unpleasant low-frequency noise on the eardrum surface can be obtained.

Further, in order to achieve the above object, the hearing aid according to the present invention adjusts the amount of delay and the amplitude level of the low frequency component signal of the input signal by adjusting the knob while the user checks the sound with the earphone. The low-frequency component signal of the delayed and amplified input signal is added to the input signal and output from the earphone of the hearing aid.

According to the present invention, the user adjusts the delay amount and the amplitude level of the low frequency component signal of the input signal while actually confirming the sound of the earphone with his / her ear. Since the frequency component signal can be removed, a hearing aid can be obtained which can easily and surely cancel unpleasant low-frequency noise on the eardrum surface.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The first aspect of the present invention provides a first low-pass filter for extracting a low frequency component of an input signal input from a microphone, and a sound signal in an external auditory canal input from a microphone in an external auditory canal. A second low-pass filter having the same characteristics as the first low-pass filter for extracting a low-frequency component of the low-frequency component, a low-frequency signal from the first low-pass filter, and a low-frequency signal from the second low-pass filter And a delay / amplitude level adjusting unit for calculating a time difference that gives a maximum correlation by calculating a cross-correlation between the low-frequency signal from the first low-pass filter by the time difference obtained by the delay / amplitude level adjusting unit. And a low-frequency signal from the first low-pass filter and a low-frequency signal from the second low-pass filter. A variable amplifier that amplifies the difference between the signal and the amplitude, and an adder that adds the input signal and the output of the variable amplifier and outputs the result to an earphone, and the delay of the variable delay unit and the amplitude level of the variable amplifier. The low frequency component of the input signal is adjusted to a delay amount and an amplitude level that cancels the low frequency component signal collected by the microphone in the ear canal, and the low frequency component of the input signal is output from the earphone. This has the effect of automatically canceling out the low-frequency noise peculiar to the hearing aid and obtaining a hearing aid capable of removing unpleasant low-frequency noise.

According to a second aspect of the present invention, a high-pass filter for extracting a high-frequency component of an input signal input from a microphone, and a high-frequency component from the high-pass filter are subtracted from the input signal and input. A differentiator that outputs a low-frequency component signal of the signal; and a low-frequency component of the internal auditory canal sound signal having the same cutoff frequency as the low-frequency cutoff frequency of the high-pass filter and input from the internal auditory canal microphone. A low-pass filter, a delay / amplitude level adjustment unit for calculating a cross-correlation between the low-frequency signal from the differentiator and the low-frequency signal from the low-pass filter to determine a time difference that gives the maximum correlation, A variable delay unit that delays the low-frequency signal from the difference unit by the time difference obtained by the level adjustment unit, and an output of the variable delay unit A variable amplifier that amplifies the difference between the low-frequency signal from the low-pass filter and the low-frequency signal from the low-pass filter by an amplitude difference, and an adder that adds the input signal and the output of the variable amplifier to output to the earphone. And adjusting the low frequency component of the input signal to a delay amount and an amplitude level that cancel the low frequency component signal collected by the microphone in the external auditory canal by adjusting the delay of the variable delay device and the amplitude level of the variable amplifier. Output from the earphones, and automatically cancel out the low-frequency noise peculiar to the hearing aid on the eardrum surface, thereby obtaining a hearing aid capable of removing uncomfortable low-frequency noise. Having.

According to a third aspect of the present invention, there is provided a low-pass filter for extracting a low-frequency component of an input signal input from a microphone, and a sound pressure transmission characteristic due to bone conduction from the vicinity of a human pinna to an ear canal in advance. And a delay / amplitude level adjustment unit that controls the adjustment of the delay and amplitude level of the low-frequency component signal from the low-pass filter using the adjustment values. A variable amplifier that adjusts the amplitude level of the low-frequency component signal from the low-pass filter according to the amplitude level held by the amplitude level adjustment unit; and the variable amplifier that adjusts the delay amount held by the delay / amplitude level adjustment unit. A variable delay device for delaying the output of the variable delay device, and an adder for adding an input signal and the output of the variable delay device and outputting the result to an earphone. The amplitude level of the amplifier and the delay of the variable delay device are controlled in advance based on sound pressure transmission characteristics such as bone conduction from the vicinity of the pinna to the ear canal, which cancels low frequency component signals in the ear canal. With such a function, a low frequency noise peculiar to the hearing aid on the eardrum surface is automatically canceled by a simple circuit, so that a hearing aid capable of removing uncomfortable low frequency noise is obtained. .

According to a fourth aspect of the present invention, there is provided a low-pass filter for extracting a low-frequency component of an input signal input from a microphone, and a delay amount of the low-frequency component signal from the low-pass filter by adjusting a knob. And a delay / amplitude level adjustment unit that outputs an adjustment value of the amplitude level,
A variable amplifier for adjusting the amplitude level of the low-frequency component signal from the low-pass filter under the control of the delay / amplitude level adjusting unit; and a variable delay for delaying the output of the variable amplifier under the control of the delay / amplitude level adjusting unit. And an adder for adding an input signal and the output of the variable delay unit and outputting the sum to the earphone. The amplitude level of the variable amplifier and the delay of the variable delay unit while listening to the output of the adder from the earphone. And adjust the low frequency component of the input signal to the delay amount and amplitude level to cancel the low frequency component signal in the ear canal and output it from the earphone. This has the effect of providing a hearing aid that can accurately remove low-frequency noise.

Hereinafter, based on the attached drawings and FIGS.
An embodiment of the present invention will be described in detail. FIG. 1 is a block diagram illustrating a configuration of a hearing aid according to a first embodiment of the present invention, FIG. 2 is a block diagram illustrating a configuration of a hearing aid according to a second embodiment of the present invention, and FIG. FIG. 4 is a block diagram illustrating a configuration of a hearing aid according to the fourth embodiment. FIG. 4 is a block diagram illustrating a configuration of a hearing aid according to a fourth embodiment of the present invention.

First, the configuration of a hearing aid according to the first embodiment of the present invention will be described with reference to FIG. In FIG. 1, reference numeral 201 denotes a microphone that captures an external input signal to a hearing aid, 202 denotes an output frequency characteristic adjustment unit that adjusts the frequency characteristics of the external input signal (for example, high-frequency emphasis or low-frequency emphasis), and 203 denotes an external input. An amplifier for amplifying the signal, an earphone 204 for outputting the sound of the adjusted input signal, and a low-pass filter (first low-pass filter) 205 for extracting only the low frequency component signal of the external input signal.

Reference numeral 211 denotes a microphone in the external auditory canal attached to the earphone 204 and provided in the external auditory canal.
10 is a low-pass filter (second low-pass filter) having the same characteristics as the low-pass filter 205 that extracts only the low-frequency component signal of the sound collected in the ear canal, and 209 is the low-frequency signal of the signal in the ear canal and an external input signal The delay / amplitude level adjustment unit 206 for calculating the cross-correlation with the low-frequency signal of the above and obtaining a time difference giving the maximum correlation is obtained by the delay / amplitude level adjustment unit 209 under the control of the delay / amplitude level adjustment unit 209. Low-pass filter 2 by time difference
05, a variable delay unit for amplifying the output of the variable delay unit 206 under the control of the delay / amplitude level adjustment unit 209; and 208, a sum of the output of the amplifier 203 and the output of the variable amplifier 207. It is an adder.

Next, the operation of the hearing aid according to the first embodiment of the present invention will be described with reference to FIG. First, an external input signal to the hearing aid is captured by the microphone 201, and a part of the signal is input to the output frequency characteristic adjustment unit 202.
The rest outputs a low frequency component signal through a low pass filter 205.

On the other hand, the signal in the external auditory canal collected by the microphone 211 in the external auditory canal attached to the earphone 204 and directed toward the external auditory canal passes through the low-pass filter 210 having the same characteristics as the low-pass filter 205 so that only the low-frequency component signal is output. Is extracted. Delay / amplitude level adjuster 2
09 calculates the cross-correlation between the low-frequency signal of the signal in the ear canal and the low-frequency signal of the external input signal from the low-pass filter 205, and obtains a time difference that gives the maximum correlation.

Next, the variable delay unit 206 delays the output of the low-frequency signal of the low-pass filter 205 by this time difference under the control of the delay / amplitude level adjusting unit 209. Further, the delay / amplitude level adjusting unit 209 obtains a difference in gain between the low-frequency signal of the external input signal delayed by the cross-correlation and the low-frequency component signal from the microphone 211 in the external auditory canal. The gain of the variable amplifier 207 is automatically set so as to reduce the difference by feedback.

The output of the low-frequency signal of the low-pass filter 205 is input to the adder 208 after the delay amount and the amplitude gain have been adjusted in this manner (the input signal has a phase opposite to that of the input of the microphone 201). After being added to the external input signal from, the sound is output from the earphone 204 as sound. As a result, the sound signal output from the earphone 204 includes a signal having the same amplitude and a phase opposite to the sound that enters the external auditory canal through bone conduction or the like, and the two signals cancel each other out in the external ear conduction. Will be removed. In this way, it is possible to suppress the unpleasant noise of the low frequency in the outer ear guide specific to the hearing aid.

It is needless to say that such a hearing aid circuit can be constituted by an analog circuit or a digital circuit. According to the software of the digital signal processor, analog circuits 202 to 202 can be used.
The same signal processing content as the processing executed by 210 (except earphone 204) can be realized by digital signal processing.

It is more effective if the hearing aid is provided with a button and knob for fine adjustment so that the user can fine-tune the delay amount and the amplitude level while checking the sound quality.

Next, the configuration of a hearing aid according to a second embodiment of the present invention will be described with reference to FIG. In FIG. 2, reference numeral 301 denotes a microphone that captures an external input signal to the hearing aid, and 313 denotes a high-pass filter 302 and a low-pass filter (third low-pass filter) 303. An output frequency characteristic adjustment unit for outputting, an amplifier for amplifying the three-band frequency components of the external input signal, and an earphone for outputting the sound of the adjusted input signal.

Reference numeral 306 denotes a differentiator for subtracting the output of the high-pass filter 302 (the high-frequency component of the external input signal) from the external input signal from the microphone 301 to output a low-frequency component signal. A microphone 311 attached to the ear canal and provided toward the ear canal has the same cutoff frequency as the low cutoff frequency of the high-pass filter 302, and outputs only the low frequency component signal of the audio signal collected in the ear canal. This is a low-pass filter (fourth low-pass filter) to be extracted.

Reference numeral 310 denotes a delay / amplitude level adjustment unit for calculating a cross-correlation between the low-frequency signal from the low-pass filter 311 and the low-frequency signal from the differentiator 306 to obtain a time difference giving the maximum correlation. A variable delay unit that delays the low frequency signal from the difference unit 306 by the time difference obtained by the delay / amplitude level adjustment unit 310 under the control of the delay / amplitude level adjustment unit 310. A variable amplifier that amplifies the output of the variable delay unit 307 under control, and 309 is an adder that adds the output of the amplifier 304 and the output of the variable amplifier 308.

Next, the operation of the hearing aid according to the second embodiment of the present invention will be described with reference to FIG. First, the input signal to the hearing aid is captured by the microphone 301, a part of the signal is input to the high-pass filter 302, and the rest is output from the differentiator 306, in which the output of the high-pass filter 302 is subtracted, and the low-frequency component signal is output from the differentiator 306. Is done. At this time, the output of the microphone 301 is input to the minus side of the differentiator 306, and the output of the high-pass filter 302 is input to the plus side, so that the differentiator 3
The phase of the low frequency component signal which is the output of the signal 06 is opposite to the phase of the output signal of the microphone 301.

On the other hand, the signal in the external auditory canal collected by the microphone 312 in the external auditory canal attached to the earphone 305 and provided toward the external auditory canal is supplied to the high-pass filter 302.
, A low-frequency component signal is extracted through a low-pass filter 311 having the same cut-off frequency as the low-frequency cut-off frequency. The delay / amplitude level adjustment unit 310 calculates the cross-correlation between the low-frequency signal of the signal in the ear canal and the low-frequency signal output from the differentiator 306, and obtains a time difference that gives the maximum correlation.

Next, the variable delay unit 307 delays the output of the low frequency signal of the difference unit 306 by this time difference under the control of the delay / amplitude level adjustment unit 310. In addition,
The amplitude level adjusting unit 310 is connected to the low frequency signal of the external input signal delayed by the cross-correlation and the microphone 31 in the ear canal
The difference between the gain and the low-frequency component signal from the second is obtained, and the difference is fed back to the variable amplifier 308, and the gain of the amplifier 308 is automatically set so as to reduce the difference.

The low-frequency output signal of the differentiator 306 is added to the output signal from the amplifier 304 in the adder 309 after the delay amount and the amplitude gain have been adjusted in this way, and then output from the earphone 305. Is output. As a result, the sound signal output from the earphone includes a signal having the same amplitude in the opposite phase to the sound that directly enters the ear canal due to bone conduction or the like, and the two signals cancel each other out in the external ear conduction. Will be removed. In this way, it is possible to suppress the unpleasant noise of the low frequency in the outer ear guide specific to the hearing aid.

It is needless to say that such a hearing aid circuit can be constituted by an analog circuit or a digital circuit. According to the software of the digital signal processor, the analog circuits 302 to
The same signal processing contents as the processing executed by 311 (excluding the earphone 305) can be realized by digital signal processing.

It is more effective if the hearing aid is provided with a button and knob for fine adjustment so that the user can fine-tune the delay amount and the amplitude level while checking the sound quality.

Next, the configuration of a hearing aid according to a third embodiment of the present invention will be described with reference to FIG. In FIG. 3, reference numeral 401 denotes a microphone that captures an external input signal to the hearing aid, 402 denotes an output frequency characteristic adjustment unit that adjusts the frequency characteristics of the external input signal (for example, high-frequency emphasis or low-frequency emphasis), and 403 denotes an external input. An amplifier for amplifying the signal, an earphone 405 for outputting the sound of the adjusted input signal, and a low-pass filter 406 for extracting only the low frequency component signal of the external input signal.

Reference numeral 409 also holds a delay amount and an amplitude level adjustment value previously calculated from standard sound pressure transmission characteristics due to bone conduction from the vicinity of the human pinna to the external auditory canal, whereby the variable amplifier 407 and the variable delay And 407, a variable amplifier for amplifying the low frequency component signal output from the low-pass filter 406 under the control of the delay / amplitude level adjusting unit 409, and 408, a delay / amplitude level adjusting unit 409. 404 is a variable delay device that delays the output of the variable amplifier 407 under the control of
This is an adder for adding an external input signal from the variable delay circuit 03 and an output from the variable delay unit 408.

Next, the operation of the hearing aid according to the third embodiment of the present invention will be described with reference to FIG. First, the input signal to the hearing aid is captured by the microphone 401, a part of the signal is input to the output frequency characteristic adjustment unit 402, and the rest is output as a low-frequency component signal through the low-pass filter 406. This low frequency component signal is delayed
The variable amplifier 407 is controlled by the amplitude level adjusting unit 409.
, The amplitude level is adjusted, and the variable delay unit 408 adjusts the delay amount. The adjustment amount is set to a value calculated by measuring a standard sound pressure transmission characteristic by bone conduction from the vicinity of the human pinna to the external auditory meatus in advance, as described below,
It is stored or held in the delay / amplitude level adjustment unit 409. This measurement is performed based on the sound pressure in the ear canal / the sound pressure near the pinna.

Here, from the vicinity of the pinna to the ear canal (near the eardrum)
A method of calculating the adjustment amounts of the amplitude level and the delay from the sound pressure transmission characteristics up to this point will be described. First, in this example, the sound pressure transmission characteristics from the vicinity of the pinna to the external auditory meatus (near the eardrum) are Z-converted (in the case of analog processing by Fourier transform) assuming digital processing, and H (z) Given.

[0041]

(Equation 1)

[0042]

(Equation 2)

[0043]

(Equation 3)

As described above, the low-frequency signal output of the low-pass filter 406 is input to the adder 404 after the delay amount and the amplitude level are adjusted, added to the external input signal from the amplifier 403, and Earphone 405
Is output as audio. As a result, the earphone 405
The sound signal output from will include a signal of the same amplitude in phase opposite to the sound that enters the ear canal through bone conduction, etc., and both signals will be canceled out and eliminated in the external ear conduction Become. In this way, it is possible to suppress the unpleasant noise of the low frequency in the outer ear guide specific to the hearing aid.

It is needless to say that such a hearing aid circuit can be constituted by either an analog circuit or a digital circuit. According to the software of the digital signal processor, the analog circuits 402 to 402 can be used.
The same signal processing content as the processing executed by 409 (excluding earphone 405) can be realized by digital signal processing.

It is more effective if the hearing aid is provided with a button and knob for fine adjustment so that the user can fine-tune the delay amount and the amplitude level while checking the sound quality.

Next, the configuration of a hearing aid according to a fourth embodiment of the present invention will be described with reference to FIG. In FIG. 4, reference numeral 501 denotes a microphone that captures an external input signal to the hearing aid; 502, an output frequency characteristic adjustment unit that adjusts the frequency characteristics of the external input signal (for example, high-frequency emphasis or low-frequency emphasis); An amplifier for amplifying the signal, an earphone 505 for outputting the sound of the adjusted input signal, and a low-pass filter 506 for extracting only the low frequency component signal of the external input signal.

511 is a delay / amplitude level adjusting unit 5
A knob (which may be a button or a dial) for adjusting the amplitude level of the variable amplifier 507 and the delay amount of the variable delay unit 508 by a user;
A delay / amplitude level adjustment unit 507 that controls the amplitude level of the variable amplifier 507 and the delay amount of the variable delay unit 508 by adjusting the delay / amplitude level control unit 507. 508 is a variable delay unit that delays the output of the variable amplifier 507 under the control of the delay / amplitude level adjustment unit 509, and 504 is an external input signal from the amplifier 503 and an output signal from the variable delay unit 508. It is an adder for adding.

Next, the operation of the hearing aid according to the fourth embodiment of the present invention will be described with reference to FIG. First, the input signal to the hearing aid is captured by the microphone 501, a part of the signal is input to the output frequency characteristic adjustment unit 502, and the rest is output as a low-frequency component signal through the low-pass filter 506. On the other hand, the delay / amplitude level adjustment unit 509 is controlled by the knob 511 to
And the delay amount of the variable delay unit 408 are adjusted. Then, under the control of the delay / amplitude level adjusting unit 509, the variable amplifier 407 and the variable delay unit 408 are respectively provided.
In, the amplitude level and delay amount of the low frequency component signal from the low-pass filter 506 are adjusted.

The low-frequency component signal from the low-pass filter 506 whose delay amount and amplitude level have been adjusted as described above is input to the adder 504, added to the external input signal from the amplifier 503, and then added to the earphone 505. Is output as audio. As a result, the audio signal output from the earphone 505 includes a signal having the same amplitude and a phase opposite to that of the sound invading the ear canal through bone conduction and the like.
Both signals cancel out and are removed in the outer ear conductor. In this way, it is possible to suppress the unpleasant noise of the low frequency in the outer ear guide specific to the hearing aid.

[0051]

The hearing aid according to the present invention is constructed as described above, and in particular, determines the correlation between the low frequency component signal of the input signal and the low frequency component signal of the signal in the ear canal, and collects the sound by the microphone in the ear canal. The low-frequency component signal of the input signal is delayed, amplified, and added to the input signal so that the low-frequency component signal of the input signal is canceled so that the low-frequency component added to the input signal is canceled. The signal automatically cancels the low-frequency noise specific to the hearing aid on the eardrum surface, thereby obtaining a hearing aid capable of removing uncomfortable low-frequency noise with a simple circuit.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a hearing aid according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a hearing aid according to a second embodiment of the present invention.

FIG. 3 is a block diagram showing a configuration of a hearing aid according to a third embodiment of the present invention.

FIG. 4 is a block diagram showing a configuration of a hearing aid according to a fourth embodiment of the present invention.

FIG. 5 is a block diagram showing a configuration of a conventional hearing aid;

[Explanation of symbols]

 Reference Signs List 101 microphone 102 logic circuit 103 output frequency characteristic adjustment unit 104 output frequency characteristic control unit 105 amplifier 106 earphone 201 microphone 202 output frequency characteristic adjustment unit 203 amplifier 204 earphone 205 low-pass filter 206 variable delay unit 207 variable amplifier 208 adder 209 delay / amplitude Level adjustment unit 210 Low-pass filter 211 Microphone in ear canal 301 Microphone 302 High-pass filter 303 Low-pass filter 304 Amplifier 305 Earphone 306 Difference unit 307 Variable delay unit 308 Variable amplifier 309 Adder 310 Delay / amplitude level adjustment unit 311 Low-pass filter 312 Microphone in ear canal 313 Output frequency characteristic adjustment unit 401 Microphone 402 Output frequency characteristic adjustment unit 403 Amplifier 404 Adder 405 Earphone 406 Low-pass filter 407 Variable amplifier 408 Variable delay 409 Delay / amplitude level adjuster 501 Microphone 502 Output frequency characteristic adjuster 503 Amplifier 504 Adder 505 Earphone 506 Low-pass filter 507 Variable amplifier 508 Variable delay 509 Delay -Amplitude level adjuster 511 knob

Claims (4)

[Claims] A first low-pass filter for extracting a low-frequency component of an input signal input from a microphone; and a first low-pass filter for extracting a low-frequency component of an internal auditory canal signal input from a microphone in an external auditory canal. And a second low-pass filter having the same characteristic as described above, and calculating a cross-correlation between a low-frequency signal from the first low-pass filter and a low-frequency signal from the second low-pass filter to obtain a time difference that gives the maximum correlation. A delay / amplitude level adjustment unit to be obtained, a variable delay device for delaying the low frequency signal from the first low-pass filter by a time difference obtained by the delay / amplitude level adjustment unit, and an output of the variable delay device. A variable amplifier that amplifies by the difference between the amplitude of the low-frequency signal from the first low-pass filter and the low-frequency signal from the second low-pass filter. If, by adding the input signal and the output of the variable amplifier becomes an adder to output to the earphone,
The earphone by adjusting the low frequency component of the input signal to a delay amount and an amplitude level that cancels the low frequency component signal collected by the microphone in the external auditory canal with the delay of the variable delay device and the amplitude level of the variable amplifier. A hearing aid characterized by being output from a hearing aid. 2. A high-pass filter for extracting a high-frequency component of an input signal input from a microphone, and a high-frequency component from the high-pass filter is subtracted from the input signal to output a low-frequency component signal of the input signal. A differentiator, a low-pass filter having the same cut-off frequency as the low-pass cut-off frequency of the high-pass filter, and a low-pass filter for extracting a low-frequency component of the internal auditory canal sound signal input from the external auditory canal microphone; A delay / amplitude level adjusting unit for calculating a cross-correlation between the low-pass frequency signal and the low-frequency signal from the low-pass filter to obtain a time difference that gives a maximum correlation, and the time difference obtained by the delay / amplitude level adjusting unit A variable delay device for delaying a low-frequency signal from the differentiator, and an output of the variable delay device; A variable amplifier that amplifies an amplitude difference from a low-frequency signal from a low-pass filter, and an adder that adds an input signal and the output of the variable amplifier to output to an earphone. The amplitude level of the variable amplifier and the low-frequency component of the input signal are adjusted to a delay amount and an amplitude level that cancel out the low-frequency component signal collected by the microphone in the ear canal and output from the earphone. Features hearing aids. 3. A low-pass filter for extracting a low-frequency component of an input signal input from a microphone, and adjustment of a delay amount and an amplitude level previously calculated from a sound pressure transmission characteristic of bone conduction from a vicinity of a human pinna to an ear canal. A delay / amplitude level adjustment unit that holds a value and controls the adjustment of the delay and amplitude level of the low-frequency component signal from the low-pass filter according to the adjustment value; and the amplitude held by the delay / amplitude level adjustment unit. A variable amplifier that adjusts the amplitude level of the low-frequency component signal from the low-pass filter according to the level, and a variable delay device that delays the output of the variable amplifier according to the amount of delay held in the delay / amplitude level adjustment unit. An adder for adding an input signal and an output of the variable delay unit and outputting the added signal to an earphone, wherein the amplitude level of the variable amplifier and the variable delay Control based on sound pressure transmission characteristics such as bone conduction from the vicinity of the auricle to the ear canal, which previously holds the delay of the organ, and cancels the low frequency component signal in the ear canal. hearing aid. 4. A low-pass filter for extracting a low-frequency component of an input signal input from a microphone, and a delay for outputting a delay amount and an amplitude level adjustment value of the low-frequency component signal from the low-pass filter by adjusting a knob. An amplitude level adjustment unit, a variable amplifier that adjusts the amplitude level of the low frequency component signal from the low-pass filter under the control of the delay / amplitude level adjustment unit, and the variable amplifier that is controlled by the delay / amplitude level adjustment unit And an adder for adding an input signal and the output of the variable delay unit and outputting the added signal to an earphone. While listening to the output of the adder from the earphone, the amplitude level of the variable amplifier And the delay of the variable delay device to a low frequency range of the input signal to a delay amount and an amplitude level that cancel the low frequency component signal in the ear canal. Hearing aid, characterized in that as by adjusting the number component output from the earphone.