EP1771037A2 - Hearing-aid device with digital control elements - Google Patents

Abstract

A hearing aid with converter for receiving an input signal and converting into an electrical input signal, a signal processing unit for processing and amplifying the input signal, an output converter (3) for converting the processed and amplified input signal into an output signal, perceived as an acoustic signal by the wearer. An operator device (6,8,9) is used for switch-on and -off of the hearing aid and for adjusting a level for at least one parameter influencing signal processing. By programming, it can be determined whether for the parameter after switch-on of the value set before switch-off or a standard setting is applied. An independent claim is included for a method of operating an on-the-ear or in-the-ear hearing aid.

Description

Hearing aid with digital controls

The invention relates to a portable in or on the ear of a hearing aid wearer hearing aid with an input transducer for receiving an input signal and conversion to an electrical input signal, a signal processing unit for processing and amplification of the electrical input signal, an output transducer for converting the processed and amplified electrical input signal in one of the Hearing aid carrier as an audible signal perceptible output signal and an operating device for switching on and off of the hearing aid and for setting a value for at least one signal processing influencing parameters by the hearing aid wearer, wherein means for storing the set when the hearing aid device value of the parameter in the turned off hearing aid and means for automatically setting the stored value of the respective parameter after turning on the hearing aid are.

Furthermore, the invention relates to a method for operating such a hearing aid.

In a hearing aid, an input signal is recorded by means of an input transducer and converted into an electrical input signal. Usually serves as an input transducer at least one microphone which receives an acoustic input signal. Modern hearing aids often comprise a microphone system with a plurality of microphones in order to achieve a direction dependent on the direction of arrival of acoustic signals reception, a directional characteristic. However, the input transducers may also include a telecoil or antenna for receiving electromagnetic input signals. The input signals converted by the input transducer into electrical input signals are fed to a signal processing unit for further processing and amplification. The further processing and amplification is done to compensate for the individual hearing loss of a hearing aid wearer usually in response to the signal frequency. The signal processing unit outputs an electrical output signal, which is fed via an output transducer to the hearing of the hearing aid wearer, so that the latter perceives the output signal as an acoustic signal. As output transducers usually listeners are used, which generate an acoustic output signal. However, output transducers for generating mechanical vibrations are also known, which directly excite certain parts of the ear, such as the ossicles, to vibrate. Furthermore, output transducers are known which directly stimulate neurons of the ear.

In hearing aids, parameters relating to signal processing can usually be set by the hearing aid wearer. Such parameters are, for example, the current hearing program for adapting the signal processing in the hearing aid to different environmental situations or the volume setting. In modern hearing aid devices, the set values of the relevant parameters are usually stored in digital form in a memory. The value of a parameter may also be binary, for example if the parameter merely indicates whether a particular algorithm (e.g., smoke suppression, noise cancellation, etc.) or a particular function (e.g., directional microphone) is on or off. The adjustment is carried out either by directly attached to the hearing aid controls or by means of a remote control for the hearing aid in question.

The central component of the signal processing unit of a modern hearing aid is a digital signal processor (DSP). This can be freely programmable, hard-wired or executed in a mixed form. The values of adjustable parameters which influence the signal processing must first be read from a memory after being switched on and transmitted to the digital signal processor.

During the adaptation of a hearing aid to the individual hearing loss of a hearing aid wearer, in addition to parameters which the hearing aid wearer can no longer change during normal operation of the hearing aid, standard settings for the parameters adjustable by the hearing aid wearer are also determined. It also determines in which hearing program the hearing aid is operated by default after switching on. Once set in this way standard settings for the respective hearing aid wearer are then automatically set after each turn on the hearing aid, that is, read from a non-volatile memory and transferred to the digital signal processor.

From the EP 0779015 E1 there is known a hearing aid system having an ear-wearing hearing aid and an external magnetic actuator, wherein the external magnetic actuator for adjusting parameters of the hearing aid is moved in the vicinity thereof and therefrom. The known hearing device comprises a memory device for storing the values of the parameters which are valid before the hearing device is switched off and for setting these values after the hearing device has been switched back on.

From the DE 299 05 172 U1 a hand-held programming device for hearing aids is known, with which the signal processing related parameters of a hearing aid can be adjusted.

The object of the present invention is to simplify the operation of a hearing aid.

This object is achieved by a hearing aid device which can be worn on or in the ear of a hearing aid wearer with the features according to patent claim 1.

Furthermore, the object is achieved by a method for operating a hearing aid device which can be worn on or in the ear of a hearing aid wearer with the method steps according to patent claim 8.

The basic idea of the invention is based on the fact that the values of the parameters of the hearing aid device which can be set by the hearing aid wearer are stored in digital form in a nonvolatile memory as long as the hearing aid is switched off. After switching on, the numerical values stored in this way are activated immediately so that the signal processing in the hearing aid device takes place immediately after switching on again with exactly the values for the relevant parameters that were valid before the hearing aid was switched off. This has the advantage that the hearing aid automatically takes over the last selected by the hearing aid wearer settings after switching on again and this therefore not again manually for him pleasant settings must select by operating controls.

Another advantage of the invention results in the care of children. In order to avoid operating errors, these devices are often secured by protective covers, so that the controls can not be operated by the children. To operate a control element, the corresponding protective cover must first be removed in this case. In such devices, it is thus particularly advantageous if the last selected settings are valid again after switching off and on again.

The values of the parameters which can be set by a hearing aid wearer are advantageously stored in a nonvolatile memory which retains the stored values even when the power supply is interrupted, for example when the hearing aid is switched off. Preferably, the memory is designed as an EEPROM. The current values of the parameters can either be immediately after each Change to be stored in the memory. Alternatively, after the operation of a control element for switching off the hearing aid device, the hearing aid device can also first be transferred to a switch-off mode in which the current values are written to the relevant memory before the voltage supply is interrupted.

The invention provides that programming of the relevant hearing aid device determines for which of the parameters adjustable by the hearing aid wearer the values set before the switch-off should be valid again after switching on again and for which parameters after switching on again a standard setting is selected. For example, it can be determined in a hearing aid according to the invention that this is always always operated after switching in the hearing program with the program number 1, but with the volume setting is automatically set before switching off the current value.

Furthermore, in a variant of the invention, it is provided that values of parameters set during the switched-off state are not only retained by the user, but also values of parameters which are set automatically by the hearing aid device during operation. The settings made automatically by the hearing aid device are usually based on the result of a signal analysis. Such settings relate in particular to the currently set hearing program, currently used algorithms or functions (noise suppression, directional microphone) or the automatic gain control.

The invention will be explained in more detail with reference to an embodiment. The figure shows a hearing aid according to the invention in the block diagram. For receiving an acoustic input signal and conversion of the acoustic input signal into an electrical input signal, a microphone 1 is present. The electrical input signal is for further processing and frequency-dependent amplification of a Signal processing unit 2 supplied. The further processed and amplified signal is finally converted by a receiver 3 into an acoustic signal and fed to the hearing of a hearing aid wearer. To power the hearing aid, a battery 5 is present, which is connected via an on-off switch 6 with the different electronic hearing aid components.

The signal processing in the signal processing unit 2 of the hearing aid device can be adapted by means of a control unit 7 to different listening environments and hearing aid wearer preferences. In this case, the parameters relating to signal processing can also be automatically determined and set by the control unit 7, for. B. as a result of an analysis of the current hearing situation. In addition, parameters relating to the signal processing can also be set manually by actuation of operating elements by the hearing aid wearer. In the embodiment, a program selector 8 and a digital volume control 9 are available for this purpose.

In the hearing aid according to the embodiment, it can be determined by programming whether a predetermined hearing program and a predetermined volume setting (default setting) are activated after power on, or whether the listening program or volume setting that was set before turning off is set. At least in the latter case, the currently set hearing program or the currently set volume setting is stored in a non-volatile memory 10. This retains the values stored in it, even if the power supply is interrupted by opening the switch 6 in the hearing aid. When the hearing aid is switched on by closing the switch 6, the values previously stored in the non-volatile memory 10 are read out and transmitted to the control unit 7, which then processes the signal processing in the signal processing unit with respect to the selected hearing program or with respect to the volume setting 2 with the valid values before switching off. Therefore, the user does not have to search again for the settings that he found to be pleasant before switching them off. The hearing aid adjusts these automatically.

The hearing aid according to the embodiment also has an interface 11 to a PC 12, via which the hearing aid can be programmed. During programming, at least some of the parameters which can be set by the user or automatically by the hearing aid device can also be used to determine whether a value valid before switching off is also valid immediately after switching on, or whether a standard value should be set for this purpose.

Claims (11)

1. At or in the ear of a hearing aid wearer portable hearing aid with an input transducer (1) for receiving an input signal and conversion to an electrical input signal, a signal processing unit (2) for processing and amplification of the electrical input signal, an output transducer (3) for converting the processed and amplified electrical input signal in a by the hearing aid wearer perceptible as an acoustic signal output signal and an operating device (6, 8, 9) for switching on and off of the hearing aid and for setting a value for at least one signal processing influencing parameters by the hearing aid wearer, wherein means (10 ) for storing the value of the parameter set in the switched-off hearing aid device when the hearing aid is switched on, and means (7) for automatically setting the stored value of the relevant parameter after the hearing aid has been switched on are rhanden, characterized in that it can be determined by programming the hearing aid device, whether for the parameter after switching on the set before switching off value or a default setting is set. 2. Hearing aid according to claim 1 with means (7) for automatically setting a value for at least one signal processing influencing automatically adjustable parameters, wherein means (10) for storing the automatically switched on at the hearing aid value of the automatically adjustable parameter in the turned off hearing aid and means (7) are provided for automatically setting the stored values of the parameter concerned immediately after switching on the hearing aid. 3. Hearing aid according to claim 1 or 2, comprising a non-volatile memory (10) for storing the value of the parameter. 4. Hearing aid according to claim 3, wherein the non-volatile memory is designed as an EEPROM. 5. Hearing aid according to one of claims 1 to 4, wherein the parameter relates to the volume adjustment. 6. Hearing aid according to one of claims 1 to 5, wherein the parameter relates to the current hearing program. 7. Hearing aid according to one of claims 1 to 6, with a push-button switch (6) for switching on and off of the hearing aid. 8. Hearing aid according to one of claims 1 to 7, wherein it can be determined by programming the hearing aid device, whether for the parameter after switching on the set before switching off value or a default setting is set. 8. A method for operating a portable on or in the ear of a hearing aid wearer hearing aid with an input transducer (1) for receiving an input signal and conversion to an electrical input signal, a signal processing unit (2) for processing and amplification of the electrical input signal, an output transducer (3) Conversion of the processed and amplified electrical input signal into a perceptible by the hearing aid wearer as an acoustic signal output signal and an operating device (6, 8, 9) for switching on and off of the hearing aid and for setting len of a value for at least one of the signal processing influencing parameters by the hearing aid wearer, wherein the set before switching off the hearing aid device value of the parameter is stored in the switched-off hearing aid and the stored value is automatically set after switching the hearing aid back to the current value of this parameter, characterized characterized in that it is determined by programming the hearing aid device, whether after switching on the hearing aid, a default value or the last valid before switching off value for this parameter is set. 9. A method for operating a portable on or in the ear of a hearing aid wearer hearing aid with an input transducer (1) for receiving an input signal and conversion to an electrical input signal, a signal processing unit (2) for processing and amplification of the electrical input signal, an output transducer (3) conversion of the processed and amplified electric input signal into an as an acoustic signal perceptible output signal and an operating device of the hearing aid wearer (6, 8, 9) for turning on and off the hearing aid device and to adjust a value for at least one signal processing parameters influencing by the hearing aid wearer characterized in that the value of the parameter set before switching off the hearing aid device is stored in the switched-off hearing aid device and the stored value is automatically displayed as current after the hearing aid device is switched on again The value of this parameter is set. 10. The method of claim 9, wherein it is determined by programming the hearing aid device, whether after switching on the hearing aid, a default value or the last before switching off valid value for this parameter is set.

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