DE102021204939A1 - Method and device for detecting the fit of headphones - Google Patents

Abstract

The aim of the present invention is to claim a method for controlling the loudspeaker of a headphone and a corresponding control unit for a headphone. For this purpose, the headphones have a first means which emits an acoustic signal in particular. Furthermore, a second means is provided, which is set up to detect the transmitted, in particular acoustic, signal of the first means. It can be provided that the signal is detected directly or as a reflection. In order to control the loudspeaker, provision is also made for the headphone control unit to carry out the method according to the invention.

Description

The invention relates to a method for controlling the loudspeaker of a headphone and a corresponding control unit and a headphone.

State of the art

When using headphones, the accuracy of fit of the sound transducer in or on the ear is essential for hearing perception. Poorly fitting or improperly adjusted individual headphones can also cause problems in certain frequency ranges, so that music can sound “foreign” or ambient noise can be disruptive, for example.

From the WO 2005/055656 A1 an adapter for an otoplastic is known in which a microphone picks up sound on the outside and a microphone on the inside of the auditory canal and the tightness of the otoplastic is determined from the difference. A similar procedure is used in EP 2 317 771 B1 used.

From Scripture DE 10 2011 075 739 A1 a communication system is known in which a hearing aid or a headphone uses a microphone to detect specific sound signals from a mobile radio device in order to switch the hearing aid or the headphone into a specific state that facilitates the use of the mobile radio device.

The object of the invention is to detect the acoustic relationship of the seat of the headphone and thus its individual accuracy of fit in order to derive controls or regulations for the headphone from this.

Disclosure of Invention

The aim of the present invention is to claim a method for controlling the loudspeaker of a headphone and a corresponding control unit for a headphone. For this purpose, the headphones have a first means which emits an acoustic signal in particular. Furthermore, a second means is provided, which is set up to detect the transmitted, in particular acoustic, signal of the first means. It can be provided that the signal is detected directly or as a reflection. In order to control the loudspeaker, it is also provided that the control unit of the headphone carries out the method according to the invention.

The essence of the invention is that the first means is controlled in such a way that it emits at least a first test signal in the form of an acoustic signal in particular. The signal sent out in this way is then detected by the second means. It can be provided that the second means detects the signal directly. Alternatively, it can be provided that the second means detects the reflection of the emitted means, for example from the walls of the auditory canal. The subsequent control or regulation of the loudspeaker of the headphones then takes place depending on a comparison of the emitted signal with the detected signal. With the comparison carried out in this way, conclusions can be drawn about the positioning of the headphones on or in the ear of the wearer. A permanent control of the loudspeaker, an initial control or also a time-limited control or regulation can be provided.

The arrangement of the first means is preferably provided in such a way that the signal is emitted into the ear canal of the headphone wearer. Furthermore, it is provided that the second means is also arranged in such a way that it can detect the signal sent into the auditory canal, for example by the second means also being aligned with the auditory canal and thus being able to detect the originally sent signal or its reflection.

The advantage of such a configuration is that the actual conditions in the area surrounding the headphones and in particular the accuracy of fit on or in the ear of the headphone wearer can be detected in order to derive the activation of the loudspeaker therefrom.

In a development of the invention, it is provided that the signals of the first means are sent out at regular time intervals in order to detect a change in the position of the headphones on or in at least one of the ears. Alternatively, the signal can also be sent depending on certain circumstances or occasions. For example, the movement of the headphones can be detected via an acceleration sensor, for example to detect when the headphones are put on or taken off. Alternatively, the operation or (de)activation of the headphones can be controlled by the user with the help of tapping stimuli (e.g. double-tap) by the fingers and their detection via the second means and/or an acceleration sensor. Furthermore, the requirement to operate the headphones and a separate initiation can provide the basis for starting the method according to the invention.

In order to recognize the positioning of the loudspeaker on or in the ear, it can be provided that the absolute size of the emitted (sound) signals are compared with each other by means of the comparison are equalized, in particular their behavior over time or their time offset. Additionally or alternatively, the temporal attenuation, the temporal delay or the change between the transmitted and the received or detected signal can also be taken into account in the comparison. Optionally, a signal consisting of a number of different frequencies can also be emitted in order to derive the positioning of the headphones placed on the ear or used in the ear from the different reflection patterns or damping behavior of the different frequency ranges.

By comparing the transmitted and detected signals, a positioning of the headphones on or in the ear is detected, the loudspeaker can be controlled or regulated in a targeted manner, for example to compensate for imprecise positioning and thus achieve consistent sound quality. In this case, it can be provided, for example, that the frequency signature of the assigned amplifier is adapted, in particular by individual frequency ranges being emitted louder or quieter. In general, frequency balancing can be carried out in this way, which supports the hearing perception in a user-specific manner.

A unique reflection pattern can be recognized and assigned by means of the comparison through an individual reflection of the transmitted signal on the respective morphology of the auricle or the auditory canal of the wearer of the headphones. Such a detection allows the activation or regulation of the loudspeaker to be individually adapted to the wearer or user of the headphones. In this case, an adaptation to a stored preferred frequency signature of the carrier can also take place.

In a particular embodiment of the invention, the comparison can be used to identify whether the headphones are actually being worn, for example by detecting no signal or only a very weak signal by the second means. In this case it can be provided that the activation of the loudspeaker is interrupted or at least its power is reduced in order to save energy.

The headphones can be equipped in such a way that the first means is a separate sound transducer. It can optionally be provided that an additional microphone is provided for the second means. Alternatively, however, it can be provided that the loudspeaker already present in the headphones also assumes the function of the first and/or second means.

In a further embodiment it is provided that the first means emits the signal in an inaudible range for the wearer of the headphones, in particular as ultrasound (>20 kHz) or infrasound (<20 Hz).

Further advantages result from the following description of exemplary embodiments and from the dependent patent claims.

character list

• the 1 shows schematically a control according to the invention in the form of a block diagram. The corresponding method according to the invention is in the flow chart 2 shown.

Embodiments of the invention

To control or regulate the loudspeaker of a headphone, a control unit 100 is usually provided, as in FIG 1 is shown. In order to implement the present invention, it is provided that the control unit 100 controls a first means 150 which emits a signal whose reaction pattern is used to derive the control of the loudspeaker 160 . A second means 120 is provided for detecting the emitted signal. The first means 150 can be a loudspeaker and the second means 120 can be a microphone. Optionally, it can also be provided that the loudspeaker 160 used anyway in the headphones is also used for transmitting the signal and/or for receiving the transmitted or reflected signal. Furthermore, it can optionally be provided that the first means 150 or the loudspeaker 160 emits the signal in an acoustic range which cannot be perceived by the wearer of the headphones. Here, for example, the emission of acoustic signals in the ultrasonic range (>20 kHz) or in the infrasound range (<20 Hz) is conceivable.

In a further development of the invention it can be provided that the control unit 100 detects the signals of an acceleration sensor 130 in order to detect the movement of the headphones. Furthermore, the control unit 100 can detect the operation 140 of the headset in order to recognize an intended use. The movement or use detected in this way can be used to start or end the transmission of the signal, the comparison and the adjustment of the control.

To implement the invention, the control unit 100 compares the transmitted signal with the detected or received signal in order to derive the positioning of the headphone on or in the ear of the wearer of the headphone. Here you can NEN may be provided in an associated memory 110 comparison data or a database in order to recognize, for example, the accuracy of fit or the individual wearer of the headphones from the reflection pattern thus obtained. Depending on the detected differences between the transmitted and detected signal, the loudspeaker 160 can then be controlled in order to adapt either the volume and/or the frequencies to the detected positioning, as a result of which the reproducibility of the auditory perception and the sound quality can be sustainably improved. Optionally, frequency balancing or activation of the loudspeaker 160 can also be adapted to a user profile stored in the memory when an individual user has been identified. This adjustment can involve, for example, a different volume control for low and/or high frequencies. Optionally, it can also be provided that, depending on the comparison, information is made available to the wearer via a corresponding display 170, by means of which the wearer can position the headphones in such a way that the hearing perception is improved.

In a further application it can be provided that the loudspeaker 160 recognizes through the control unit 100 as a function of the detected movement that the transmitted signal has not been reflected. In this case, the control unit 100 can assume that the headphones have been taken off, so that the loudspeaker 160 can be switched off or at least its volume can be reduced in order to save energy.

A possible method that can run in the control unit 100 is shown in the flowchart in FIG 2 shown. The method can optionally be started as a function of a detected movement or a start command. Alternatively, however, it can also be provided to start the method at regular intervals in order to check the fit of the headphones in or on the wearer's ear. In a first step 200, a test signal is transmitted for this purpose, for example in an acoustic range that is inaudible to the wearer. This signal can be a signal with a single frequency or a signal consisting of several frequencies (so-called chirp). In the next step 210, the emitted signal is detected. The detected signal can be the direct transmitted signal or a signal reflected from the walls of the ear or the auditory canal. The transmitted signal is then compared with the detected signal. For example, the intensity of the acoustic signal can be used for the comparison, as well as its attenuation, in particular in different frequency ranges, and its sound impedance. A time dependency of the signal or its frequency components can also be relevant for the comparison. The result of the comparison and in particular the detected signal can also be used to identify individual users, since the reflection at the respective morphology of the ear is unique. In the last step 230, the loudspeaker can be controlled or regulated depending on the comparison and/or the recognized carrier. An (individual) control routine stored in the memory can optionally also be used here.

QUOTES INCLUDED IN DESCRIPTION

This list of the documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• WO 2005/055656 A1 [0003]
• EP 2317771 B1 [0003]
• DE 102011075739 A1 [0004]

Claims (10)

Method for controlling the speaker (160) of a headphone, the headphone • a first means (150, 160) for emitting an acoustic signal, and • a second means (120, 160) for receiving the emitted acoustic signal, and • has a control unit (100) for carrying out the method, the method • controls the first means (150, 160) for emitting the acoustic signal, and • by means of the second means (120, 160), the emitted acoustic signal is recorded directly or indirectly as a reflection, and • Drives the loudspeaker (160) as a function of a comparison of the acoustic signal and the detected signal. procedure after claim 1 , characterized in that the method controls the first means (150, 160) at regular time intervals or as a function of predetermined occasions to emit the acoustic signal, it being provided in particular that a detected movement of the headphones, a knocking signal, a request for sound reproduction , a request to control the loudspeaker (160) or an initiation is recognized as a predetermined occasion. Method according to one of the preceding claims, characterized in that the loudspeaker (160) is controlled as a function of a comparison of the intensity, the damping, the time delay or the frequency components of the transmitted and the detected signal. Method according to one of the preceding claims, characterized in that the frequency signature of the amplifier is regulated as a function of the comparison, in particular in that predetermined frequency ranges are amplified to a greater or lesser extent. Method according to one of the preceding claims, characterized in that a user profile is recognized as a function of the comparison, the loudspeaker (160) being activated as a function of the user profile. Method according to one of the preceding claims, characterized in that depending on the comparison it is recognized whether the headphones are not sitting on the ear, and then the volume of the loudspeaker (160) is then reduced, it being provided in particular that the loudspeaker (160 ) is switched off. Control unit for controlling the loudspeaker (160) of a headphone, in particular according to a method of Claims 1 until 6 , wherein the headphones have • a first means (150, 160) for emitting an acoustic signal, and • a second means (120, 160) for receiving the emitted acoustic signal, wherein the control unit • the first means (150, 160) for controls transmission of the acoustic signal, and • by means of the second means (120, 160) detects the transmitted acoustic signal directly or indirectly as a reflection, and • controls the loudspeaker (160) depending on a comparison of the transmitted acoustic signal and the detected signal. control unit after claim 7 , characterized in that the control unit controls the first means (150, 160) at regular time intervals or as a function of predetermined occasions to emit the acoustic signal, it being provided in particular that the control unit to recognize the predetermined occasion a movement of the headphones, a Knock signal, a request for sound reproduction, a request for driving the speaker (160) or an initiation detected. Headphones with a control unit according to any one of Claims 7 until 8th , characterized in that the headphones have • a first means (150, 160) for emitting an acoustic signal, and • a second means (120, 160) for receiving the emitted acoustic signal, it being provided in particular that the first means ( 150, 160) is a loudspeaker and/or the second means (120, 160) is a loudspeaker (160) or a microphone. headphones after claim 9 , characterized in that the first means (150, 160) emits the acoustic signal in the non-audible range, in particular as ultrasound or infrasound.

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