KR20040019147A - Fitting method of hearing aid - Google Patents

Abstract

PURPOSE: A fitting method of a hearing aid is provided to enable a worker to control the hearing aid easily by adjusting every kind of parameter values of the hearing aid. CONSTITUTION: An input unit(42) selects an operation mode of a hearing aid fitting system and also can input measurement values. A control part(44) varies a number of parameter values according to an operation control signal inputted by being connected to parameters constituting a hearing aid. A memory(46) stores every kind of operation control signals and programs of the system. A display(48) displays a signal being output from the input unit by an inputted operation control signal. And a control part(50) outputs a corresponding operation control signal to the control port and the display by processing the signal being output from the input unit.

Description

Fitting method of hearing aid

The present invention relates to a method of fitting a hearing aid, and more particularly, to an automatic fitting method of a hearing aid for dividing and adjusting the hearing aid into a plurality of sound regions and frequency bands and allowing an operator to easily adjust the hearing aid.

The configuration of a general digital hearing aid will be described with reference to the following drawings.

1 is a block diagram showing the configuration of a conventional digital programmable hearing aid, wherein the conventional digital programmable hearing aid has an operation controlled by a microphone 10 for acquiring sound and converting it into an electrical signal, and an input operation control signal. A high frequency band by a voltage accumulator 12 for compressing a voice signal output from the microphone 10 at a predetermined compression rate, and an operation control signal inputted from a signal output from the voltage accumulator 12; Compression and extension of the high frequency band signal and the low frequency band signal passing through the band split filter 14, respectively, according to an input operation control signal. The sum of the signals output from the plurality of compensators 16 and 17 and the plurality of compensators 16 and 17 is output as one signal. 18, an amplifying unit 20 for amplifying a signal output from the summer 18 at a predetermined rate according to an input operation control signal, a speaker 22 for outputting the same, and a plurality of devices. Consists of a control unit 30 for controlling the operation to compensate for the hearing loss of the hearing aid user, in addition to the T-Coil function to further listen to the phone sound is added.

On the other hand, in the above configuration, the control unit 30 has a resistance value is set according to the user's selection, the variable resistor (R14) for adjusting the crossover frequency (CF) of the band split filter 14 and the user, The resistance value is set according to the selection, and the variable resistor R16 controls the compression rate of the high frequency comparator 16, and the resistance value is set according to the user's selection, and the variable resistance (controlling the compression rate of the low frequency comparator 17) R17), the volume control resistance (Rvc) variable according to the user's choice, the maximum output variable resistor (Rmpo) to obtain the maximum output, and the resistance value set according to the user's choice to obtain the maximum gain in the quiet state. And a controller 32 for controlling the operation of the voltage accumulator 12 on the basis of the threshold resistor Rth for adjusting the voltage and the output signal of the voltage accumulator 12 and the threshold resistance value. A large number constituting 30 The variable resistor is preset by a separate fitting system according to the hearing ability of the user who wants to use the hearing aid. Since the fitting method of the control unit 30 as described above adopts foreign technology as it is, There was an inadequate problem, and accordingly there was a problem of repair in case of failure of the hearing aid.

An object of the present invention for solving the problems as described above is divided into a plurality of sound regions and frequency bands by adjusting various parameter values of the hearing aid to make it easy to listen anytime, anywhere and hearing aids that allow the operator to easily adjust the hearing aid It is to provide a fitting method of.

1 is a block diagram showing the configuration of a conventional digital hearing aid

Figure 2 is a block diagram showing a typical hearing aid fitting system

3A to 3D illustrate an embodiment of a hearing aid fitting method in accordance with the present invention.

4A-4E illustrate another embodiment of a hearing aid fitting method in accordance with the present invention.

An embodiment of the present invention for achieving the object as described above looks at with reference to the accompanying drawings.

2 is a block diagram illustrating a typical hearing aid fitting system.

The hearing aid fitting system selects various operation modes and inputs the measured values 42 and inputs the measured values according to an operation control signal that is electrically connected to various parameters constituting the hearing aid 40. A control terminal 44 for varying a plurality of parameter values, a memory 46 in which various operation control signals and programs of the system are recorded, and a signal output from the input means 42 by an input operation control signal is used. Display means 48 for displaying the image and the control unit 50 for processing the signal output from the input means 42 and outputting the corresponding operation control signal to the control terminal 44 and the display means 48. It is composed.

The fitting method of the hearing aid according to the present invention using the fitting system configured as described above will be described in more detail below.

The fitting method of the hearing aid according to the present invention divides the frequency of the audible band into a plurality of sample bands, and when adjusting the hearing aid by subdividing the sound into a plurality of sounds so as to hear well in each situation such as a quiet place, a noisy place, and a telephone call. The presetting process allows the operator to input a plurality of variable values for each sound and frequency band while watching the display means, and connects the hearing aid to the control terminal and uses the input means while watching the display means to the hearing aid user's hearing. In accordance with the input of the airway value and bone conduction, the hearing value input process of inputting the airway value and bone conduction at a plurality of frequencies selected as a sample among the frequencies of the audio band set in the preset process, and the hearing value input as described above As a result, the hearing aid can be adjusted to achieve optimal performance in quiet locations. , TK-Point is the average airway value of each frequency band, the gain is 35-45dB as a compensation standard, and the compression ratio is higher as the Bone value is worse, the output suppression start point, noise suppression start point, high and low cutoff frequency value, feedback phenomenon In the quiet place where the tooth filter value and the volume are manually or automatically adjusted in order to prevent the noise, as described above, after adjusting the parameters of the appropriate sound field in the quiet place, the system records these parameters in the memory. Changes the variable settings of the appropriate sound field in the loudspeaker to adjust the values of the appropriate sound field in the noisy place so that you can hear them well in noisy places. In this case, the lower gain is set lower and the higher gain is set higher, the noise suppression starting point is lowered, It consists of a single voice in the appropriate area setting process in noisy places, which set a little higher.

In addition, in the fitting method of the hearing aid, the telephone sound region is further set so that the sound can be heard well during a telephone call, and the microphone and the T-coil gain control screen are displayed through the display means. Adjust the microphone and T-Coil gain accordingly.

Meanwhile, in the present invention, the sound region is composed of a suitable sound region in a quiet place and a suitable sound region in a noisy place and a telephone sound region, among which a suitable sound region in a quiet place has a volume where a loud volume is heard in a quiet place. In quiet places, the volume is subdivided into areas where the volume is low, and in the noisy areas, suitable sound areas are subdivided into areas where loud volume is heard in noisy places and low volume areas in noisy places. It is subdivided into the listening area and the phone sound only, and the values of various variables are adjusted for each area.

In the case of subdividing a suitable sound region in a quiet place and a suitable sound region in a loud place from the above, set the value adjusted in the process of setting a suitable sound region in the quiet place to an area where volume is loud in a quiet place, and in a quiet place In the low volume area, adjust the volume and output suppression start point (MPO) from 2 dB to 3 dB lower in the variable value of the loud volume area in the quiet place, and in the noisy sound area where the volume is loud in a suitable sound area. Compared to the area where the volume is loud in a quiet place, set the low gain lower than the low gain, set the high gain higher, set the noise suppression starting point 2dB lower, and set the low cutoff slightly higher.

And, the area of listening to the surrounding sound while receiving a call among the phone sound areas is to adjust the MT microphone attenuation and T-Coil gain appropriately up and down on the basis of -6dB and 10dB, leaving other settings as it is, and only the phone sound. In the loud listening area, MT microphone attenuation is set to 0dB and only the T-Coil gain is adjusted up or down based on 10dB.

Looking at the fitting method of the hearing aid according to the present invention having such a configuration below.

Example 1

In the first embodiment, the sound area of the hearing aid is loud in a quiet place (sound 1), a low volume in a quiet place (sound 2), a loud volume in a noisy place (sound 3), and a loud Divide the area where the volume is heard in low volume (sound 4), and the frequency bands are 250Hz-500Hz (channel 1), 1000Hz-1500Hz (channel 2), 2000Hz-3000Hz (channel 3), 4000Hz-6000Hz (channel 4). ).

First, the hearing aid is connected to the control terminal, the hearing aid adjusting program is executed through the display means, and the airgram as shown in FIG. 3A is executed to input the airway value and the bone conduction value according to the hearing aid user's hearing.

If the hearing aid is not used for the first time but is in use, the hearing aid reads the preset value and adjusts various values of sound 1 according to the menu shown in FIG.

First, TK-Point adjusts the TK-Point of channel 1 to 44dB, channel 2 to 54dB, channel 3 if the hearing aid airway value is 40dB at 250Hz, 50dB at 500Hz, 55dB at 1000Hz, 65dB at 2000Hz, and 70dB at 4000Hz. Adjust to 64dB and channel 4 to 70dB.

And, gain can be adjusted by adjusting each channel based on 35-45dB of compensation graph based on 60dB response graph, and compression rate increases the compression rate as the bone quality of the hearing tester is worse. If the frequency is 20, 25, 45, 60, 65, the compression ratio of channel 1 is 1.3: 1, channel 2 is 1.5: 1, channel 3 is 1.8: 1, and channel 4 is adjusted to 2: 1.

After the adjustment to the compression ratio, the output suppression start point (MPO) and the noise suppression start point (Expansion) are adjusted.The output suppression start point limits the maximum output level.If the gain of the hearing aid itself is high, there is no need to limit it much and the gain is low. If this is the case, it is necessary to limit it, and in general, limit it to -2dB at maximum output. And, the starting point of noise suppression is a technique of increasing the gain little by little as the input signal strength increases. The opposite concept of compression is a technique of preventing noise from being mixed by not amplifying the input signal below a certain intensity. In order to see, the response graph for 40dB should be below the response graph for 60dB input, so adjust it to 44dB.

In addition, in order to adjust the frequency band, the crossover frequency is adjusted in FIG. 3C, and the low cutoff frequency and the high cutoff frequency are adjusted. Accordingly, the sound of frequencies lower and higher than the adjusted frequency is not heard. In this case, the bass cut-off frequency may be adjusted so that the gain between the 250 Hz band and the 500 Hz band is significantly different.

Also, if the gain is expected to be very high and feedback is expected, the filter depth is selected by automatic adjustment and the filtering is started. Basically, the set value does not need to be adjusted to the most ideally adjusted value.

For the volume control, the overall band gain and volume of FIG. 3D may be adjusted.

When all the adjustments to the sound 1 are completed, the adjusted values are saved and the sound 2 is selected to adjust the volume and output suppression starting point from 2 dB to 3 dB lower than the sound 1, and the sound 4 is the volume and output suppression than the sound 3 Adjust the starting point as low as 2dB to 3dB, where sound 3 has lower bass gain, lower gain on channels 1 and 2, lower gain on channels 1 and 2, and gains on channels 3 and 4 compared to sound 1. The higher the control, the lower the noise suppression starting point by 2dB, which gives high discrimination even in noisy places.

On the other hand, in the above-described embodiment, the controller performs the setting as described above according to the input airway value and bone conduction value for the first time, by the operator pressing the mode selection button (for example, 'autofitting') displayed on the display means. Is done.

Example 2

In the second embodiment, the sound region of the hearing aid is a quiet sound region (sound 1), a loud sound region (sound 2), an area for listening to the surrounding sounds while listening to a call (sound 3) and an area for hearing only the phone sound (sound 4). The frequency band is divided into 250 Hz-500 Hz (channel 1), 1000 Hz-1500 Hz (channel 2), 2000 Hz-3000 Hz (channel 3), and 4000 Hz-6000 Hz (channel 4).

First, the hearing aid is connected to the control terminal, the hearing aid adjusting program is executed through the display means, and the audiogram as shown in FIG. 4A is executed to input the airway value and the bone conduction value according to the hearing aid user's hearing.

If the hearing aid is not in use for the first time but is in use, after reading the preset value in the hearing aid, the variable values of the sound 1 are adjusted according to a menu as shown in FIG. 4B, where the adjusted value is adjusted in the first embodiment. Since the value is the same as that of the sound 1, the description thereof is omitted.

In Embodiment 2, when the direction mode is selected and the direction mode is provided, the gain is automatically adjusted to have the direction and the 'beta (direction)' control button is set to adjust the direction. In the setting of the sound 2, the direction mode is selected while leaving the setting value of the sound 1 as shown in FIG. 4C, and the beta (direction) value and the low frequency cutoff value are adjusted. Increase the value little by little and if the sound is too sharp, lower the low frequency cutoff value from 800 to 500.

Sound 3 adjusts the MT microphone attenuation value and T-Coil gain appropriately up and down based on -6dB and 10dB in MT mode as shown in FIG. 4D. The MT microphone attenuation is reduced from -6 to 0. If you want to hear the call more loudly, increase the gain of the T-Coil, and vice versa.

Sound 4 is to hear only the phone sound as shown in Figure 4e, MT microphone attenuation is 0dB and only T-Coil gain is adjusted up and down based on 10dB, and then stored it.

On the other hand, in the above-described embodiment, the controller performs the setting as described above according to the input airway value and bone conduction value for the first time, by the operator pressing the mode selection button (for example, 'autofitting') displayed on the display means. Is done.

According to the present invention configured as described above, the hearing aid can be clearly heard at any time and anywhere by providing direction to the hearing aid, thereby greatly improving the satisfaction of the wearer of the hearing aid, and watching the screen at the time of initial setting or readjustment of the hearing aid. By allowing the operator to easily adjust, the hearing aid can be easily adjusted.

Claims (4)

It is electrically connected to various parameters of the hearing aid, including parameters for adjusting the compression ratio of the high / low frequency compressor, a parameter for adjusting the crossover frequency of the band split filter, and a threshold parameter for obtaining the maximum gain in a quiet state. In the fitting method using a fitting system of a digital hearing aid comprising a control terminal for adjusting the various parameter values constituting the hearing aid in accordance with an input operation control signal, The frequency band of the audible band is divided into a number of sample bands, and the sound is subdivided into a number of pieces so that it can be heard in each situation such as a quiet place, a loud place, and a telephone call. A presetting process for inputting a plurality of variable values for each star and frequency band; Connect the hearing aid to the control terminal and watch the display means, using the input means to input the corresponding airway value and bone conduction value according to the hearing aid user's hearing, but the airway at a plurality of frequencies selected as a sample among the frequencies of the audio band set in the preset process Hearing value input process for inputting the teeth and bone values, As described above, according to the input hearing value, a number of adjustment variables are adjusted so that the hearing aid can be operated in a quiet place with optimum performance. TK-Point is an average airway value of each frequency band, and the gain compensates for 35-45 dB. As a reference, the compression rate is higher as the bone density becomes worse, and the sound is suitable in a quiet place where the output suppression start point, the noise suppression start point, the treble and bass cutoff frequency values, the tooth filter value to prevent feedback, and the volume are manually or automatically adjusted. Area setting process, Adjust the parameters of the appropriate sound field in a quiet place as described above and record them in the memory, and give the directivity to the parameter settings of the suitable sound field in this quiet place so that you can hear them in the noisy place in a noisy place. Adjust the variable values in the sound field, but leave the values in the quiet sound field as they are, in case of gain, lower low gain, higher high gain, lower noise suppression start point, and lower low Hearing aid fitting method characterized in that consisting of a sound area setting process suitable in a noisy place. The method according to claim 1, wherein the hearing aid fitting method further sets a telephone sound region for sounding a telephone call and displays a microphone and a T-coil gain control screen through the display unit and inputs the input value to the input unit. According to the fitting method of the hearing aid, characterized in that to adjust the microphone and the T-Coil gain. 2. The sound field according to claim 1, wherein the sound region suitable for the quiet place is subdivided into a region where the volume is loud in a quiet place and a volume where the volume is low in a quiet place, and the sound region suitable for a loud place corresponds to a region where the volume is loud in a loud place. In a noisy place, the volume is subdivided into a low volume area. In the quiet place, set the value adjusted in the appropriate sound area setting process in a quiet place where the volume is loud, and in a quiet place, the volume is low in the quiet area. Adjust the volume and output suppression starting point (MPO) from 2dB to 3dB lower in the variable value of the area where the volume is loud in the place, and in the loud area where the volume is loud in the noisy place, the volume is loud in the quiet place. Compare 1.5 kHz to the audible area A low gain is lower than the high gain and is set higher than the starting point, and noise suppression is also set to low level 2dB, the method of fitting a hearing aid, characterized in that to set the low cut off high. The method of claim 2, wherein the call sound region is subdivided into an area where the surrounding sound is louder and only the phone sound is heard while receiving a call. And T-Coil gain properly adjusted up / down based on -6dB and 10dB, MT microphone attenuation is set to 0dB and T-Coil gain only up / down based on 10dB in the area where only the phone sound is loud. Hearing aid fitting method characterized in that.