JP2004502322A - Method for controlling dynamic range of hearing device, method for manufacturing hearing device, and hearing device - Google Patents

Abstract

In the hearing device, the input impedance Z _e of the output electrical / mechanical transducer (5a) Is changed by the switch device (7) to change and adjust the dynamic range.

Description

[0001]
The present invention relates to a method for controlling a dynamic range of a hearing device described in the introduction of claim 1 and a method of controlling a plurality of hearing devices having transfer characteristics different from each other described in the introduction of claim 6. A manufacturing method, a hearing device having at least one acoustic / electrical input transducer according to the preamble of claim 7 and an electromechanical transducer according to the preamble of claim 12.
[0002]
A hearing device usually comprises at least one acoustic / electrical input transducer, a signal processor connected to the downstream stream and an electric / mechanical transducer connected to the output of the signal processor. In the case of digital hearing devices, the signal processing device is correspondingly formed as a digital device, with an analog / digital converter at the input and a digital / analog converter at the output, if necessary. A converter is provided. The above applies to the in-ear device and the out-of-ear device. Usually, in these devices, the output electrical / mechanical transducer is formed as a speaker device having a driving excitation coil. In an implantable hearing device (inner ear cochlear implant), the electrical / mechanical transducer on the output side also has a mechanical excitation element.
[0003]
SUMMARY OF THE INVENTION It is an object of the present invention to provide, in the above-described hearing device, a possibility of changing and adjusting respective appropriate dynamic ranges by the simplest means. The term hearing device as used in the present invention is understood to include hearing devices such as headphones in addition to hearing aids for the hearing impaired.
[0004]
In order to achieve the above object, a method for controlling a dynamic range according to the invention described at the outset is characterized by selectively switching the input impedance of an acoustic / mechanical transducer.
[0005]
That is, the present invention is based on the recognition that the dynamic range used in a hearing device as described above largely depends on the input impedance of the electrical / mechanical transducer. By simply switching the input impedance to various impedance values, the aforementioned dynamic range can be selected most easily. In a hearing device embodying the invention, the dynamic range depends on the hearing impairment to be corrected or in the field, i.e. according to the perceived acoustic environment, or, for example, in the case of headphones, as the case may be. Can be adjusted and changed.
[0006]
In a preferred embodiment of the method according to the invention, a selective switching of the input impedance is carried out, for example by an acoustic expert, in order to achieve the desired dynamic range for the adjustment of a hearing device, in particular a hearing aid. You.
[0007]
In addition to or instead of the above-described selective switching of the input impedance, the switching of the input impedance is performed by the signal processing device in the adjustment of the hearing device, that is, the change adjustment is performed corresponding to each acoustic environment. can do.
[0008]
In addition, the selective switching of the input impedance according to the present invention can be performed automatically, for example, by the control of the signal processing device described above, and / or by an operation from outside the hearing device. This may be by manual operation, especially on the hearing device itself, such as headphones or extra-ear hearing aids, or by remote control, combined with remote control as needed and preferably controlling the signal processing device. Can be included.
[0009]
The concept proposed by the present invention also makes it possible, when manufacturing a plurality of hearing devices having different characteristics, to add a dynamic range corresponding to each characteristic type to each device type in terms of hardware and / or software. It offers the possibility of manufacturing at a substantially lower cost than making it to fit. That is, in the method for manufacturing a hearing device according to the present invention, a plurality of hearing devices having different characteristic forms are manufactured in the same configuration, and a dynamic range according to the characteristic form is selectively set for the input impedance of the electric / mechanical transducer. It can be set by switching. In this way, when manufacturing hearing devices of various characteristics, it is possible to concentrate on the manufacturing of the hearing device with a single basic configuration, and thereafter to select the required dynamic range by switching according to the present invention. Becomes possible.
[0010]
Further, in order to achieve the above object, a hearing device according to the present invention provides the features described in claim 7. Preferred embodiments of the hearing device according to the invention are described in claims 8 to 11.
[0011]
Furthermore, according to claim 12, an electrical / mechanical transducer of a hearing device is proposed, wherein the means for performing the method according to the invention are realized integrally with this transducer. This provides a transducer module that can be easily manufactured by direct assembly and avoids the additional large assembly steps in the production of a hearing device.
[0012]
Hereinafter, the present invention will be described by way of example with reference to the accompanying drawings.
[0013]
In FIG. 1, the hearing device is, for example, a headphone or, in particular, an out-of-ear or in-ear hearing aid, or optionally an inner ear cochlear implant, which is connected to the acoustic / electric transducer 1 on the input side and downstream. Signal processing device 3. The signal processing device 3 is a digital processing device in the case of a digital hearing device. The output side of the signal processing device 3 is connected to an electric / mechanical transducer device 5 according to the invention.
[0014]
The transducer device 5 includes a real electrical / mechanical transducer 5a, which is an input E5 to the transducer device _5. With respect to the input impedance _Ze Having. In the present invention, the input impedance Z _e of the transducer 5a Is input to the input E ₅ by the switch device 7 that is switched and controlled by the control input S. _Are configured to be switchable to a plurality of impedances Z _e1 , Z _{e2 ,.} That is, the switch device 7 indicated by a dashed line in FIG. 1 uses the control input S to input the input impedance Z _e of the electric / mechanical transducer on the output side. Has a switching function that enables to switch to a desired impedance selected in advance.
[0015]
FIG. 3 is a diagram illustrating one embodiment relating to switching of input impedance according to the present invention. Here, the switching control of the input impedance can be performed by a manual operation of a man (man), whether it is a direct operation of the switching device at the site (Loc) or a remote control (Rem). it can. In particular, in the case of remote control, a method of remotely controlling the signal processing device can be used. The input impedance Z _e of the electrical / mechanical transducer Can be automatically (out, FIG. 3) by the signal processing device 3 shown in FIG. 1 in combination with manual control as necessary. This makes it possible to automatically adjust the dynamic range of the hearing device to each of the operation modes connected to the signal processing device, and practically corresponding to the acoustic environment.
[0016]
The switch device 7 also has a separate, separate connection between the output of the signal processing device 3 and the input of this transducer, depending on the configuration of the electro / mechanical transducer, in particular the individual impedance element members that determine its input impedance. It can also be formed as a switch device. Preferably and as also shown in FIG. 2, the switching device can be formed integrally in the electro / mechanical transducer module 15.
[0017]
In FIG. 2, inside the transducer module 15, an electric / mechanical transducer 17 common to a hearing device is shown as a speaker having an inductive exciter 19 for driving. The exciter 19 has, for example, two coils 19a and 19b. In the switching device 18, these coils 19a, 19b are connected in series or parallel to each other by a control input S, whereby the input impedance of the transducer module 15 is switched, at least determined by the combination of these coils. Obviously, it is possible to realize two or more input impedance states by selective switching. In this case, a method of selectively switching provided individual impedances by parallel and / or series connection is adopted. Each desired input impedance can be realized.
[0018]
In the case of hearing aids, anyway, the transfer characteristics of the signal processing device are adjusted by the sound specialist for the individual needs of the wearer, so that the corresponding selection is made at this time to first select the input impedance. Is carried out. This selection change is maintained as needed until changed again by an expert, for example an acoustic expert. Alternatively, switching of the input impedance for such basic adaptation adjustments can be performed automatically or manually by the wearer during use of the hearing device. However, preferably, by providing a means for performing a reset, for example, a means for manually operating the signal processing device, it is possible to always return to the basic setting of the input impedance performed by the expert as described above. is there.
[0019]
According to the present invention, it is possible to switch the dynamic range of a hearing device by the simplest means. Manufactured together in the same configuration as each other, and only after such manufacturing, the above-mentioned selective switching of the input impedance, i.e. the switching of the dynamic range, is carried out, if necessary, by an adjusting expert, such as the above-mentioned acoustic expert. This makes it possible to determine the characteristic form of the manufactured device.
[Brief description of the drawings]
FIG. 1 is a schematic functional block / signal flow diagram illustrating the principle of a method or a hearing device according to the invention and a transducer integrated therewith.
FIG. 2 is a schematic diagram showing an electro-mechanical transducer device formed as a speaker module having an inductive exciter for implementing the control method according to the invention.
FIG. 3 is a schematic diagram showing one embodiment for performing input impedance switching control according to the present invention.

Claims (12)

Dynamic range of a hearing device having at least one acoustic / electrical input transducer, a signal processor connected downstream of the acoustic / electrical input transducer, and at least one electrical / mechanical transducer connected to the signal processor. Controlling the input impedance of the acoustic / mechanical transducer selectively. The method according to claim 1, wherein the switching is performed in adjusting the hearing device for a wearer. 3. The method according to claim 1, wherein the switching is controlled by the signal processing device. 4. The method according to claim 1, wherein the switching is performed automatically and / or from outside the hearing device. 5. The method according to claim 1, wherein the impedance is switched by selective series and / or parallel connection of impedance elements. A method of manufacturing a plurality of hearing devices having different transmission characteristics between an input acoustic / electrical transducer and at least one output electrical / mechanical transducer, wherein the plurality of hearing devices are manufactured with the same configuration. And wherein the dynamic range specified by the impedance of the plurality of hearing devices is set by selectively switching the input impedance of the electrical / mechanical transducer. At least one acoustic / electrical input transducer and a signal processing device having an input connected to the output of the acoustic / electrical input transducer and at least one electrical / mechanical transducer connected to the output of the signal processing device. A hearing device according to claim 1, wherein said electrical / mechanical transducer has an input impedance switchable by a control input. The hearing device according to claim 7, wherein the control input is connected to an output of the signal processing device. 9. The hearing device according to claim 7, wherein the control input is connected to a manually operable control device. 9. A hearing device according to claim 7, wherein the control input is provided with a switch device for selectively connecting at least two impedance element members in series or in parallel. 11. The hearing device according to claim 9, wherein the impedance element member is at least partially formed of a coil. An electrical / mechanical transducer of a hearing device having at least two impedance element members, wherein said electrical / mechanical transducer is provided with a switching device having a control input, and wherein said control input is effective for each of said electrical / mechanical transducers. Wherein the input impedance of the transducer is determined by different switching of the impedance element members.