EP2200343A1 - Hearing aid with directional microphone - Google Patents

Abstract

The aid (5) has a housing region (5A) facing away from an eardrum (2) of a user, and a directional microphone (6) provided with two sound inlet openings, where one of the inlet openings is connected to a sound entry opening (6B) in the region, and the other opening is provided within a housing. A receiver (8) is connected to a sound exit opening (8B) and provided in another housing region (5D). The housing is formed between the entry and the sound exit opening. The sound entry opening and the latter inlet opening are inclined along a straight line running in a direction of an auditory canal.

Description

The invention relates to a portable in the ear of a user hearing aid with a housing, a directional microphone and a handset.

The size in the ear portable hearing aids are - due to the way of wearing in the ear of a user - set narrow limits. Therefore, the distance between the microphone and the handset of such a hearing aid is usually limited to a few inches. However, this leads to the risk of feedback (feedback), in particular if a high amplification of an acoustic input signal by the hearing aid is required.

A well-functioning solution to this problem does not yet exist. Rather, the maximum amplification of acoustic input signals by a hearing aid that can be worn in the ear are subject to narrow limits, even if the feedback tendency can be restricted by known feedback suppression algorithms or feedback suppression filters.

From the US 5,201,006 is an ear-hearing hearing aid with a main microphone and several sub-microphones for feedback suppression known. The additional microphones are distributed over the outer circumference of the known hearing aid, in particular in the area of the hearing aid, which is located in the concha and thus outside the ear canal. The effects of a not completely closing the auditory canal housing are thus only selectively eliminated. In order to achieve a good effect, a large number of subordinate microphones is required, which, however, can be accommodated at most with great effort in a hearing aid that can be worn in the ear.

From the DE 198 10 043 A1 is known in the ear portable hearing aid with a microphone boom known. The entire construction is relatively filigree and therefore prone to failure.

From the US 5,757,933 is known in the ear portable hearing aid with several juxtaposed in a faceplate microphones known. A particularly effective extinction of the sound generated by the listener of the hearing aid is thus not possible.

From the publication DE 38 40 393 A1 a hearing aid worn in the ear is known, the housing of which is adapted to the individual auditory canal of the user and, when worn, fits snugly against the ear canal.

From the publication US 4,528,426 is a directional microphone known, the housing comprises an acoustically transparent foam.

From the publication DE 299 04 157 U1 is a telephone receiver cover made of acoustically transparent foam known.

The object of the present invention is to reduce the tendency to feedback in hearing aids that are portable in the ear.

This object is achieved by a portable in the ear hearing aid with the features of claim 1.

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 and converts it into an electrical input signal. Modern hearing aids often include a microphone system with multiple microphones, depending on the direction of incidence acoustic signals reception, ie a certain directional characteristics to achieve. However, telephone coils or antennas for receiving electromagnetic input signals and conversion to electrical input signals are also common as input transducers. 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 takes place to compensate for the individual hearing loss of a user usually in response to the signal frequency of the input signal. The signal processing unit supplies at its output an electrical output signal, which is supplied 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. A hearing aid further includes a voltage source (battery or rechargeable battery) for powering the electronic components. Furthermore, controls (on / off switch, program switch, volume control, etc.) may be present.

Hearing aid devices are essentially divided into three types: behind-the-ear hearing aids (BTE) are worn behind the ear, with the exception of earmolds located in the ear. In-the-ear hearing aids (IdO) are worn with hearing aid mainly in the concha of the auricle. Partially, they also protrude into the ear canal. CIC hearing aids (Completely in the Canal) are virtually invisible from the outside. They are completely in the ear canal during use.

The effect of a directional microphone with two sound inlets depends crucially on the position of the two Sound inlet openings from. In particular, these determine the direction of least sensitivity, the so-called Notch of the directional microphone system. According to the invention, the sound inlet openings of the directional microphone and the sound outlet of the listener are arranged at least approximately along a straight line, so that the listener is arranged in the region of the lowest sensitivity of the directional microphone. For this purpose, a first sound inlet opening of the directional microphone with worn hearing aid out of the ear canal. In contrast, the second sound inlet opening of the directional microphone is aligned with the eardrum of the user. In order that sound entering the hearing aid device can reach the second sound inlet opening of the directional microphone, the housing of the hearing aid device has a circumferential sound inlet opening or several sound inlet openings distributed over the circumference of the hearing aid device. These first open into a cavity within the hearing aid, wherein the second sound inlet opening of the directional microphone also opens into this cavity.

Preferably, the directional microphone consists of two interconnected omnidirectional microphones. In principle, the invention is not limited to such a constructed microphone system. For example, a gradient microphone with two sound inlets could also be used.

The invention has the advantage that only two omnidirectional microphones are required in order to effectively suppress the sound generated by the listener of the hearing aid and thus to prevent feedback. As a result, particularly small designs in the ear of portable hearing aids, such as CIC hearing aids, realize with relatively high gain.

The housing design of a hearing aid according to the invention is advantageously at least approximately chosen so that the shortest connection of the sound outlet opening of the hearing aid leaking sound to the sound inlet opening of the inner microphone is constant, regardless of which way the sound takes over the housing. In the case of an at least substantially cylindrical hearing aid, this is achieved in that both the sound inlet openings of the microphones and the sound outlet opening in the housing of the hearing aid lie on the symmetry axis of the cylindrical hearing aid. In case of an individually adapted to a user housing geometry, this property can be achieved by a corresponding housing education in conjunction with a specific placement of the sound outlet opening in the housing. Such optimization preferably takes place with the aid of a computer-aided design customary in modern shell production.

In order to suppress the indirect, for example, by reflections on the ear canal wall, in the sound inlet opening of the inner microphone sound, the entire geometry of the hearing aid according to the invention is preferably selected so that the running through the sound inlet openings of the microphones and the sound outlet opening of the hearing aid straight line at least runs approximately centrally through the ear canal.

An embodiment of the hearing aid according to the invention provides that a housing portion of the hearing aid, in which the sound entry openings for the second microphone are not tight against the ear canal, whereas another, with the hearing aid worn closer to the eardrum lying housing portion fits tightly against the ear canal and this seals. As a result, the proportion of the sound emitted by the hearing aid, which directly reaches the directional microphone, has already been considerably reduced. This special design also contributes to the reduction of feedback.

An alternative embodiment of the invention provides that the hearing aid according to the invention the ear canal in any Housing area seals. The hearing aid in question is thus designed for an open supply.

Advantageously, the hearing aid is at least in a housing portion in which the hearing aid is not tight against the ear canal, surrounded by a foam skirt. Preferably, the foam jacket is made of a material, in particular of an open-porous material, which acts as a cerumen protection and prevents the penetration of dirt and cerumen into the sound inlet openings of the microphone arranged inside the hearing aid. The foam material surrounding the sound inlet openings is advantageously acoustically transparent, so that sound can pass almost unhindered from the outside to the inner microphone of the hearing aid located in the ear canal.

The invention will be explained in more detail with reference to an embodiment. It shows FIG. 1 a schematic representation of a present in the auditory canal of a user inventive hearing aid and FIG. 2 a directional diagram of the directional microphone of the hearing aid.

FIG. 1 shows a sectional view in the region of a human ear. Evident are the outer ear 1 with the adjoining auditory canal, which is completed by the eardrum 2. The auditory meatus is surrounded in its outer area by relatively soft tissue and in its further area of cartilaginous tissue 4.

In the auditory canal shown is a portable in the ear hearing aid 5 in CIC (completely in the canal) design. The housing of the hearing aid device 5 shown by way of example can be subdivided into four housing regions. A first housing region 5A forms the first housing section of the hearing aid device 5 pointing out of the auditory canal. Farther inwards, a second, substantially cylindrical housing region 5B adjoins it whose diameter is smaller than the diameter of the auditory canal in this area is and so that is not close to the ear canal. Farther inwards, a third housing region 5C adjoins it, which rests tightly against it in the cartilaginous (bony) region of the auditory canal. The housing closure forms a fourth housing area 5D facing the eardrum.

To record acoustic input signals and conversion into electrical input signals, the hearing aid device 5 comprises the two omnidirectional microphones 6 and 7, which are electrically connected to a directional microphone 6, 7. The electrical input signals are fed to a signal processing unit 12 in which the electrical input signals are processed and amplified. This finally results in an electrical output signal, which is converted by a receiver 8 into an acoustic output signal and is supplied to the user's ear via a sound outlet opening 8A in the receiver 8 and a sound channel 8C, which opens into a sound outlet opening 8B in the hearing device housing.

So that sound can enter the sound inlet opening 6A of the microphone 6, located approximately in the middle of the first housing portion 5A, a sound inlet opening 6B, between this sound inlet opening 6B in the housing and the sound inlet opening 6A of the microphone 6, a sound tube 6C is present. The second microphone 7 of the directional microphone 6, 7 is located in idO hearing aids in an unusual way further inside the hearing aid 5 lying position. So that sound supplied to the ear from outside can also reach this microphone 7, a plurality of second sound inlet openings 11A, 11B, 11C, etc. are distributed over the circumference of the second housing area 5B. In this case, the "inner" microphone 7 is positioned such that the distance between the sound inlet opening 7A of the microphone 7 to the second sound inlet openings 11A, 11B, 11C, etc. is approximately equal. The sound inlet opening 7A and the sound inlet openings 11A, 11B, 11C, etc. open in the embodiment in a cavity of the hearing aid device 5. But it can also individual sound channels (not shown) of the individual second sound inlet openings 11A, 11B, 11C, etc. lead to the sound inlet port 7A of the microphone 7. The cavity is separated in the embodiment by a partition wall 10 of the area in which the handset 8 is located.

As FIG. 1 it can be seen, are the sound inlet opening 6B in the first housing portion 5A of the hearing aid 5, the sound inlet opening 6A of the microphone 6, the sound inlet opening 7A of the microphone 7 and the sound outlet opening 8B of the hearing aid 5 approximately on a straight line G, which in turn at least approximately in the middle of the ear canal runs.

The directional characteristic set in the directional microphone 6, 7 is in FIG. 2 illustrated. Such a directional characteristic can be achieved, for example, by delaying the microphone signal generated by the microphone 7 during the electronic interconnection of the two microphones 6 and 7 and subtracting it from the microphone signal of the microphone 6. Out FIG. 2 It can be seen that the direction of the highest sensitivity of the directional microphone 6, 7 out of the ear canal and the direction of the least sensitivity (Notch) points in the direction of the sound outlet opening 8B. This achieves optimum reception of the sound entering the auditory canal from the outside in conjunction with the greatest possible suppression of the sound generated by the earpiece 8 by the directional microphone 6, 7.

The housing geometry of the hearing aid device 5 is advantageously designed such that the shortest path of the sound generated by the earphone 8 from the sound outlet opening 8B via the third housing portion 5C and the second sound inlet openings 11A, 11B, 11C, etc. to the sound inlet opening 7A of the microphone. 7 at least substantially always the same length, regardless of where the sound propagates through the third housing portion 5C. These conditions can already be used in the computer-aided design of the housing shell of the hearing aid adapted to the individual auditory canal of the user 5 can be achieved. Overall, this arrangement has the advantage that with the built-up of only two omnidirectional microphones 6 and 7 directional microphone already a substantial suppression of the sound generated by the handset 8 can be achieved. Feedbacks are thus largely prevented, even with a high gain of an incoming into the hearing aid 5 sound signal.

In the case of the hearing aid device 5 according to the exemplary embodiment, the second housing region 5B is surrounded by an acoustically transparent foam 9. The foam 9 also covers the second sound entry openings 11A, 11B, 11C, etc., thus preventing the entry of cerumen into the hearing aid 5. Advantageously, the foam surrounding the second housing portion 5B foam 9 is releasably connected to the hearing aid 5, so that it can be optionally replaced in a simple manner.

As a further special feature, the hearing aid device 5 according to the exemplary embodiment is designed such that the third housing region 5C bears tightly against the cartilaginous or bony region 4 of the ear canal. As a result, the sound generated by the handset 8 and reaching the microphones 6 and 7 is already significantly attenuated. This also contributes to increasing the maximum achievable with the hearing aid 5 gain.

Claims (12)

In the ear of a user portable hearing aid (5) with a housing which has a first housing area (5A) facing away from the eardrum (2) of the user when the hearing aid is worn (5) and a fourth housing area (5D) facing the eardrum (2) of the user, a directional microphone (6, 7) with at least two sound inlet openings (6A, 7A), wherein the first sound inlet opening (6A) is connected to a first sound inlet opening (6B) in the first housing area (5A) of the hearing aid (5) and wherein the second Sound inlet opening (7A) is disposed within the housing of the hearing aid (5), a receiver (8) which is connected to a sound outlet opening (8B) arranged in the fourth housing region (5D), - wherein in the housing of the hearing aid device (5) between the first sound inlet opening (6A) and the sound outlet opening (8B) at least one second sound inlet opening (11A, 11B, 11C) is present, via the sound of the second sound inlet opening (7A) of the directional microphone (6 , 7) can be fed, - Wherein the housing of the hearing aid (5) at least in a second housing portion (5B), in which the second sound inlet opening (11A, 11B, 11C) is arranged, with worn hearing aid (5) is not tight against the ear canal of the user, - Wherein the first sound inlet opening (6B) and the second sound inlet opening (7A) of the directional microphone (6, 7) are arranged at least approximately along a direction extending in the direction of the ear canal straight line (G) and - Wherein the direction of a minimum of the directivity of the directional microphone (6, 7) at least substantially in the direction of the eardrum facing direction of the straight line (G). Hearing aid (5) according to claim 1, wherein the straight line (G) runs at least approximately centrally with the hearing aid worn through the ear canal. Hearing aid (5) according to claim 1 or 2, wherein the sound outlet opening (8B) is arranged at least approximately on the straight line (G). Hearing aid device (5) according to one of claims 1 to 3, wherein the housing in the first housing portion (5A) and the second housing portion (5B) with worn hearing aid (5) does not fit tightly against the ear canal. Hearing aid device (5) according to one of claims 1 to 4, wherein the hearing aid device (5) in a third housing portion (5C) bears tightly against the ear canal. Hearing aid (5) according to claim 5, wherein the worn with hearing aid (5) closely fitting housing portion (5) rests in the bony portion of the ear canal. Hearing aid (5) according to one of claims 1 to 4, adapted for an open supply of the user. Hearing aid (5) according to one of claims 1 to 7, wherein the directional microphone (6, 7) of at least two electrically interconnected omnidirectional microphones (6, 7) is constructed. Hearing aid device (5) according to one of claims 1 to 8, wherein a plurality of circumferentially of the hearing aid device (5) distributed second sound inlet openings (11A, 11B, 11C) are present. Hearing aid (5) according to one of claims 1 to 8, wherein the second sound inlet opening extends at least substantially annularly around the housing. Hearing aid (5) according to one of claims 1 to 10, wherein the or each second sound inlet opening (11A, 11B, 11C) is provided with a Cerumenschutzeinrichtung. Hearing aid (5) according to one of claims 1 to 11, wherein the housing is surrounded at least in the second housing portion (5B) by an at least substantially acoustically transparent foam (9).

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