DE19809567A1 - Hearing aid - Google Patents

Abstract

The hearing aid has a microphone, a signal processor, an ear piece and an induction coil (8). At least one further induction coil (9) is also provided. This is arranged parallel and spaced from the first induction coil (8) without displacement. Preferably the two induction coils (8,9) are connected relative to each other such that the induction voltages in the coils (8,9) have opposite signs. A difference element (6) may be provided to determine the difference between the induction voltages of the coils (8,9). At least one amplification element (7) may also be provided to amplify the induction voltage(s) of the coil(s) (8,9).

Description

The invention relates to a hearing aid with the features of The preamble of claim 1. Furthermore, he relates Finding a method for operating a hearing aid with the Features of the preamble of claim 13.

Hearing aids are known as prior art, which have an In induction coil (e.g. telephone coil) to lower converting alternating fields into electrical signals. A trouble-free operation of the hearing aid with telephone coil is ever but only guaranteed if no annoying magneti act alternating fields on the telephone coil and that Affect the useful signal.

From DE 43 26 358 C1 an induction coil can be used as an electromagnetic induction converter (hearing coil) in known electrical hearing aids, which one from a ge stamped flat metal profile has existing bobbin, which is inexpensive to manufacture.

DE 39 17 548 A1 describes a removal device for a hearing frequency current is also described in a hearing aid can be used and two parallel and axially to each other has shifted induction coils. This can also a small electrical current is detected without interference and be reinforced.  

The invention has for its object a hearing aid and a method for suppressing interfering magnetic changes Offer selfelder to the user signal.

The invention is for the hearing aid with the features of characterizing part of claim 1 in conjunction with the generic term solved. Advantageous embodiments of the Hearing aid are realized by subclaims 2-12. For the method, the invention is characterized by the the part of claim 13 in connection with the Oberbe handle released. Advantageous process variants can be found in the further subclaims 14-19.

The hearing aid according to the invention has in particular two inductors tion coils (1st order system) without any displacement are arranged parallel and spaced apart. Of the Distance between the two induction coils is ge chooses that over a distant source of interference magnetic alternating fields practically an equidistance stands. This makes the two induction coils identical Induced induction voltages that cancel each other out, so that magnetic alternating field suppressed in its interference becomes. An increase in effectiveness is achieved by three or more In Production coils generated (second or higher order system).

Alternating magnetic fields located near the hearing aid the one which contains useful signals (e.g. telephone information) lead to induction of different induction amounts voltages in the two induction coils, as this the distance between the two induction coils with one another corresponding and noticeable field weakening of the magneti alternating field. Located near the hearing aid Ordered useful fields therefore generate a non-zero one ne total induction voltage, which is further processed as a useful signal can be processed. Due to the parallel (ie unshifted) arrangement of the two induction coils with egg  a certain distance from each other, magnetic remote interference fields are hidden and magnetic useful signals are received.

The two induction coils are interconnected in this way tet that the two induction voltages oppose each other Show signs and reduce each other. This effect is achieved through an appropriate connection (Series or parallel connection) in connection with an ent speaking winding direction of the two induction coils he enough.

The two induction coils are connected to a differential element Determine the difference between the two induction chips connected.

In a further embodiment, amplifier elements be provided, which the induction voltages before Wei terleitung z. B. reinforce a differential element. Over a Control unit can use the output signals of the induction coils and / or assigned amplifier elements are compared, to thereby the distance between the induction coils elek to define tronically.

In an advantageous embodiment, in particular in the Behind-the-ear device (BTE) is the distance between the two induction coils about 3-6 mm.

This distance can be determined geometrically by a corresponding measurement mechanically or in terms of circuitry (e.g. through the schil control unit) can be adjusted.

In a further advantageous embodiment, the second induction coil are switched off or reversed to e.g. B. with remote magnetic sources (z. B. with Induk loops in churches or lecture rooms) remote magnetic signal through the remaining first  Induction coil or by doubling the received signal (Addition circuit) to receive.

The environment can be detected using a magnetic detection device of the hearing aid according to the useful and interference field situation and are analyzed so that the first and / or in addition, the second induction coil is activated.

Such an alternating field detection system can also be program mable and equipped with fuzzy logic if necessary the.

As a possible realization of such a magnetic De tection device can use a reed contact device be det.

In the method according to the invention, the output signals spaced apart and parallel to each other without displacement mutually arranged induction coils detected and processed tet.

Due to the spaced arrangement of the induction coils become different - as already with the hearing aid according to the invention portrayed - suppresses magnetic interference fields while magnetic near signals are detected.

The method according to the invention leads in this context a difference between the induction voltages through, with the remaining excess white as a useful signal is processed.

Before further processing the induction voltages, a appropriate adjustable gain.

Through a geometric or circuit change The distance between the induction coils can be the degree  the suppression of magnetic interference fields with reference to Distance of the interference source can be defined.

In a further method variant, the Useful and interference signal situation provided, which determines can be whether the second induction coil is switched on or whether z. B. with distant magnetic fields (z. B. with induction loops in churches or lecture rooms) Connection of the second induction coil can be omitted or a connection of the second induction coil in Addi tion circuit is provided.

In a further advantageous embodiment of the method the weighting of the induction voltages can be varied are provided, which if necessary in connection with a intelligent connection of the induction coils to each other the degree of suppression of alternating magnetic fields depending on different recorded parameters (e.g. distance source of interference, direction of incidence, etc.) the.

The invention is based on exemplary embodiments in the Drawing figures explained in more detail. Show it:

Fig. 1 shows a basic diagram with a first and a second inductor,

Fig. 2 shows a first connection possibility of the two induction coils and

Fig. 3 shows another connection possibility of the two induction coils.

Fig. 1 shows a hearing aid with a microphone 1, an integrated preamplifier 2, a signal processing unit 3, a stronger Nachver 4 as well as a receiver. 5 A first induction coil 8 and a (switchable) second induction coil 9 can be connected to the preamplifier 2 with their output signals. This can magnetic useful signals, for. B. from Tele foneinrichtung be detected.

The second induction coil 9 is arranged in parallel, that is to say without displacement and spaced apart from the first induction coil 8 , so that, as already described, the desired effect of weakening a distant magnetic interference field is obtained while nearby arranged magnetic useful signals are detected and be reinforced.

Fig. 2 shows a first connection possibility of the first induction coil 8 and the second induction coil 9 , which are attached pa rallel, that is, without axial displacement and spaced apart with the distance 12 .

The two induction coils 8 , 9 are connected in series in FIG. 2 and are combined in their winding direction in such a way that induction voltages with opposite signs are induced in the two induction coils 8 , 9 . The difference of the induction voltages can then be determined by the differential element 6 and via an output signal 11 , for. B. to the preamplifier 2 .

In the case of distant magnetic interference fields, induction voltages which are virtually identical in magnitude are induced in the induction coils 8 , 9 , since the distance 12 does not have an effect on the considerably larger distance of the distant interference source and the field gradient does not lead to an induction of different induction voltages.

However, if the magnetic signal source in the vicinity of the induction coils 8 , 9 is arranged, that is, for. B. standing in an Ab, the corresponding to the two or three times the distance 12 In duktionsspulen 8, 9, is detected, the useful signal, since voltages are induced in the induction coils 8, 9 different induction and the field gradient affect.

In this case, the difference element 6 detects a difference in the induction voltages, so that the useful signal can be processed and amplified accordingly via the output signal 11 .

The distance 12 can be reduced or enlarged mechanically or in terms of circuitry. A z. B. necessary mechanical adjustment device is not shown.

From Fig. 3 shows a circuitry adjustment of the (apparent) distance 12 between the first induction coil 8 and the second induction coil 9 . Via the control unit 10 , the first amplifier element 7 a of the first induction coil 8 and the second amplifier element 7 b of the second induction coil 9 can be set accordingly in order to weight the induction voltages in the induction coils 8 , 9 . A different weighting of the induction voltages in the two induction coils 8 , 9 corresponds to an increase in the mechanical spacing or reduction of the induction coils 8 , 9 .

The output signals 11 of the two amplifier elements 7 a, 7 b are fed to the difference element 6 , where the difference is determined and passed on via the output signal 11 .

Via a magnetic detection device (not shown), z. B. in connection with the control unit 10 a connection or disconnection of the second induction coil 9 to z. B. in rooms with induction loops (z. B. in churches and lecture rooms) to switch off the second induction coil 9 or to operate in addition circuit to the first induction coil 8 to improve the signal / noise ratio.

Claims (19)

1. Hearing aid with a microphone, a signal processing unit, a receiver and an induction coil (hearing coil), characterized in that at least one further induction coil ( 9 ) is provided, which is arranged parallel and spaced apart from the first induction coil ( 8 ) without displacement. 2. Hearing aid according to claim 1, characterized in that the two induction coils ( 8 , 9 ) are connected opposite to each other, so that the induction voltages in the induction coils ( 8 , 9 ) have opposite signs. 3. Hearing aid according to claim 1 or 2, characterized in that a dif ferent element ( 6 ) for determining the difference between the induction voltages ( 8 , 9 ) of the induction coils is provided. 4. Hearing aid according to one of claims 1-3, characterized in that at least one amplifier element ( 7 ) for amplifying the induction voltage (s) of the induction coil (s) ( 8 , 9 ) is (are) provided. 5. Hearing aid according to one of claims 1-4, characterized in that a control unit ( 10 ) for matching the output signals of at least two amplifier elements ( 7 a, 7 b) is provided. 6. Hearing aid according to one of claims 1-5, characterized in that the distance between the induction coils ( 8 , 9 ) is approximately 3-6 mm. 7. Hearing aid according to one of claims 1- 6, characterized in that the distance between the induction coils ( 8 , 9 ) is adjustable. 8. Hearing aid according to claim 7, characterized in that the distance between the induction coils ( 8 , 9 ) is geometrically adjustable. 9. Hearing aid according to claim 7 or 8, characterized in that the distance between the induction coils ( 8 , 9 ) is adjustable in terms of circuitry (for example, electrically or electronically). 10. Hearing aid according to one of claims 1-9, characterized in that the first and / or second induction coil ( 8 , 9 ) can be switched off or switched in addition circuit. 11. Hearing aid according to one of claims 1-10, characterized in that a magnetic detection device for activating the first and / or second induction coil ( 8 , 9 ) is provided. 12. Hearing aid according to claim 11, characterized in that the magnetic detection device as a reed contact device is trained. 13. Method for operating a hearing aid with a Microphone, a signal processing unit, a handset and an induction coil (hearing coil), in particular for operation a hearing aid according to one of claims 1-12, characterized in that the Output signals spaced apart and without He arranged displacement parallel to each other Induction coils are detected and processed. 14. The method according to claim 13, characterized in that a Difference formation between the induction voltages takes place. 15. The method according to claim 13 or 14, characterized in that a Amplification of the individual induction voltages Induction coils are made.   16. The method according to any one of claims 13-15, characterized in that the Amplification of the induction voltages of the induction coils is adjustable. 17. The method according to any one of claims 13-16, characterized in that the distance between the induction coils geometrically or is changed in terms of circuitry. 18. The method according to any one of claims 13-17, characterized in that a The useful and interference signal situation is recorded. 19. The method according to any one of claims 13-18, characterized in that the Weighting of the induction voltages variably set becomes.