DE10230898A1 - Operating communications terminal with acoustic output device involves producing protective sound signal with minimal loudness at minimum distance in addition to acoustic useful data in second mode - Google Patents

Abstract

The method involves outputting acoustic useful data from the acoustic output device (50), which can be operated in at least two modes, namely one with a first maximum loudness and a second with an increased maximum loudness. The output device produces a protective sound signal with a defined minimal loudness at a defined minimum distance in addition to the acoustic useful data in the second mode. An independent claim is also included for the following: (a) a telecommunications terminal for implementing the inventive method.

Description

The present invention relates to a method for operating a communication terminal an acoustic output device, acoustic user data are output by the acoustic output device and wherein the acoustic output device in at least two operating modes is operable, namely a first operating mode with a first maximum volume and a second operating mode with a second compared to the first maximum volume.

Such methods are from the State of the art known. For example, with landline and Mobile phones a so-called hands-free mode is known, in which the corresponding communication terminal also by a user some distance from the device can be used. Among other things, this has the advantage that the user has both hands has free to for example during of the conversation Look up information on a computer. Another advantage is that several users share the communication terminal to be able to use, what a discussion of different participants in different places allows. A disadvantage of this speakerphone is that in speakerphone mode the volume on the loudspeaker must be very high so that the information is understood by the listener can be. Brings the user of the communication terminal in hands-free mode by mistake the loudspeaker, for example during a break in speech, to his ear, so through the high volume his ear damaged become. For example, sound pressure levels can be displayed on the loudspeaker of a mobile phone in hands-free mode of up to 140 dB, which is above the pain threshold and can cause permanent damage to the human ear.

The term volume, as used here, means, for example, the sound intensity, the sound pressure level or the sound pressure amplitude of the sound emitted by an acoustic output device. In acoustics, the use of the sound pressure level, which is measured in dB (Def .: sound pressure level (dB) = 20 log ₁₀ (measured sound pressure / reference sound pressure) dB), is widespread in this context. Internationally, 20 μPa was set as the reference sound pressure. This sound pressure corresponds approximately to the hearing threshold, which is therefore defined as 0 dB. From a sound pressure level of 80 dB, the hearing of the receiver is at least endangered if the sound is exposed for a longer period. The acoustic pain threshold is at 120 dB sound pressure level.

The following are intended to be used of the term volume, Sound intensity, Sound pressure level or sound pressure amplitude both instantaneous values as well as time-averaged values of these quantities. In the frequency domain can be, for example, the overall signal or a frequency broken down signal can be considered. So-called "weighted average values" can also be determined. The averaging and weighting of such averages can, for example, in Time and / or frequency range take place. The time averaging can about short or longer periods happen. The averaging in the frequency domain can be narrow or wider frequency bands occur, preferably at least part of the human hearing spectrum, further prefers an area of high sensitivity to human hearing, can include.

In the prior art, cell phones with so-called proximity sensors, for example capacitive environment sensors, are known, as a result of which the cell phone can determine whether the user is in the vicinity of the loudspeaker. As soon as the mobile phone detects the proximity of the user, it can reduce the volume of the possibly activated hands-free mode so that damage to the hearing can be avoided (see e.g. WO 02/03664 A1 ). The disadvantage of this construction is the high technical complexity of this proximity sensor, particularly in the case of a mobile telephone equipped with so-called exchangeable housing shells. Since the proximity sensor is generally located on the outer surface of the mobile phone, this on the one hand makes the production of exchangeable upper shells more complex and, on the other hand, causes a susceptible connection technology between the proximity sensor and the electronics of the communication terminal.

It is therefore the task of the present Invention to provide a method by which the risk of hearing damage among users of communication terminals can reduce which can be operated in a state with high maximum volume.

This object is achieved by a method for operating a communication terminal with an acoustic output device, acoustic user data being output by the acoustic output device and the acoustic output device being operable in at least two operating modes, namely a first operating mode with a first maximum volume and a second operating mode with egg ner compared to the first increased second maximum volume, with a protective sound signal in addition to the acoustic user data in the second operating mode is generated by the acoustic output device in such a way that the protective sound signal has a predetermined minimum volume at a predetermined minimum distance. The acoustic output device can be a loudspeaker, for example.

Acoustic user data in the sense of this Description can all of the communication and communication link with a communication partner assigned data, such as voice information, pauses in conversation, Background noise or signals that document the existence of the communication link (e.g. "Comfort Noise" for GSM mobile radio systems).

The protective sound signal according to the invention can for example a noise signal, a tone sequence or the simulation of ambient noise. By sending the protective sound signal in the second operating mode, a minimum volume of the Output signals ensured. The user of the communication terminal becomes the acoustic output device does not accidentally reach his ear bring, as he is made aware of this by the protective sound signal that the communication terminal is in the second operating mode and suddenly if necessary Sound signals at high volume can send out.

The predetermined minimum distance is preferably the distance at which the maximum volume of the acoustic output device just in the second operating mode do not cause hearing damage can. Preferred minimum distances are typically in the range from 0.05 m to 0.25 m, with a further preferred value of 0.1 m. The predetermined minimum volume of the protective sound signal can preferably be chosen that it is at a predetermined minimum distance from the acoustic output device can still be heard by the user. Preferably can the minimum volume at a predetermined minimum distance sound pressure levels between 20 and 80 dB still preferably corresponds to between 40 and 60 dB sound pressure level.

The method according to the invention is easy to implement, since it is only in the controller of the communication terminal or the corresponding Control electronics must be integrated and no complex external Sensors required. The method according to the invention offers good protection against the misuse of the communication terminal in the second operating mode with increased maximum Volume, because by the protective sound signal the user is near his Ear communication device feels annoying. By appropriate Choice of the type of protective sound signal (noise, simulation of ambient noise) the protective sound signal acts at a distance from the user from the communication device no longer disturbing and does not hinder communication with a communication partner.

In a preferred embodiment is the first operating mode for operating the acoustic output device close of a user's ear. This essentially corresponds the so-called "normal Operating mode "one Communication terminal, such as for example a telephone or a cell phone, in which the output device (in general: the loudspeaker) itself located on the user's ear. It can also be provided that the second operating mode as speakerphone mode and / or hands-free mode is provided. In this mode the maximum volume is the acoustic output device set up so that a user at some distance, generally between 0.1 cm and a few meters (typically in the range of 2 m) the output Understand information easily. In this case, the volume of the acoustic user data output directly at the loudspeaker, however, sound pressure level in the order of over 100 dB in order to be able to meet the stated condition. The method according to the invention is especially in connection with a loudspeaker and / or Hands-free mode is beneficial to prevent hearing damage Avoid user.

Furthermore, the maximum volume of the protective sound signal is advantageous set so that when the acoustic output device comes into direct contact with the user's ear this by the protective sound signal not be harmed can. In this case it is ensured that at the moment lower volume the acoustic user data, for example during a pause in speech, through the protective sound signal no damage of hearing is caused if the user briefly the communication terminal despite the protective sound signal accidentally sticks to his ear. In particular, the protective sound signal can be set up in such a way that that the volume of the protective sound signal as disturbing is felt when the acoustic output device is close the user's ear.

In very quiet surroundings or in the vicinity of other people, a protective sound signal can be perceived as annoying. It is therefore advantageous that the transmission of the protective sound signal can be switched on and / or off by the user. The user can thus determine whether he wants to work with the safety-protection sound signal in the second operating mode or whether he does not. It can thus be provided that the communication terminal is in an operating state by default, in which the protective sound signal is switched on in the second operating mode. The user must then consciously switch it off. When terminating the corresponding communication connection The communication terminal can then always be reset to the standard state in order to avoid accidental damage to the hearing of the user.

To operate the method according to the invention to ensure in different environments, the volume of the Protection sound signal depending on the intensity of ambient noises present in the vicinity of the acoustic output device, if necessary, automatically, can be set. This can prevent, for example a quietly set protective sound signal in very noisy environments is not more the one you want Effect or a loudly set protection sound signal in very quiet environments as distracting is felt. Measuring the volume of ambient noise can for example with that in the telecommunications terminal in general existing microphone can be determined. By means of this information is the telecommunication terminal then able to adjust the volume of the protective sound signal automatic adjust accordingly. Also a manual adjustment of the volume of the Protective sound signal by the user is possible using the method according to the invention the special habits and characteristics (e.g. hearing loss) to customize the user.

To the user during the operation of a communication link with the communication terminal at regular intervals or constantly with the protective sound signal in the second operating mode before misuse of the communication terminal to warn, the protective sound signal can be superimposed on the acoustic user data become. This ensures that the user of the communication terminal in the second Operating mode during a communication link constantly before a close the ear is warned.

To the actual communication through the communication terminal hindering the protective sound signal as little as possible can in A further development of the invention provides that the protective sound signal is only emitted by the acoustic output device if the volume the acoustic user data below a specifiable limit lie. According to the invention Protection acoustic signal therefore only during such communication passages are sent out that are not usable Contain information. You can for example, communication sections in which only background noise is transmitted or the communication data volume is clearly below the detection threshold for the Users lie (because the communication partner, for example too far from his microphone). During the output of information-containing acoustic user data in the second operating mode of the communication terminal the volume so high that the user is not at risk, the communication terminal close to Bring ear. In the case of pauses in speech or other information not containing Passages of communication, on the other hand, is then the protective sound signal activated to bring the acoustic output device closer to prevent the user's ear where it is due to sudden onset a high volume damaged could be.

The above-mentioned object of the invention will continue to be resolved from a telecommunications terminal to carry out the The method described above, wherein the telecommunications terminal an acoustic Output unit, in particular a loudspeaker, also means for operating the acoustic output unit in at least two Operating modes, namely a first operating mode with a first maximum volume and a second operating mode with a second compared to the first maximum volume, and means for storing and / or generating an electrical Protection signal, which is used to generate the protection sound signal by the acoustic output unit is suitable.

As with the method described above, the risk of damage to the hearing of the user when operating the telecommunications terminal in the second operating mode is reduced in the telecommunications terminal according to the invention. The telecommunication terminal according to the invention comprises means for storing and / or generating the electrical protective signal which is fed to the acoustic output unit and then converted and emitted by the acoustic output unit into a protective sound signal. It is possible to store various protective sound signals in a memory in the device, which can then be transmitted periodically or in an endless loop while a communication link is in existence. Furthermore, it is possible to provide a generator for corresponding signals in the telecommunication terminal, which generates the corresponding signals directly. The generated signals can then either be fed directly to the acoustic output unit or stored in a memory and fed from the memory to the acoustic output unit once or several times. The use of a separate generator for the electrical protection signals is particularly suitable if the protection signals are to be adapted to the environment of the communication transmitter or receiver, since the protection signal can then be generated in a manner adapted to the situation. Furthermore, various electrical protection signals can be stored in the telecommunications terminal, which can be used as required or according to a selection by the user. The telecommunications terminal can advantageously means for selecting the electri protection signal from a number of possible electrical protection signals.

To the user of the telecommunications terminal in the second Operating mode, for example in certain environmental situations, to enable the method according to the invention to be switched on and / or off, the telecommunication terminal can continue to start and / or terminate execution of the method described above.

It may be desirable that the protective sound signal, as already explained in a previous section, only is sent out when the volume of the acoustic user data falls below a certain limit (e.g. pauses in conversation). In order to make this possible, the telecommunication terminal can at least determine means a parameter of power, level or amplitude from the acoustic Electrical data associated with user data include. The electrical User data are those received by a receiving unit of the communication terminal and directly or indirectly for output by the acoustic Output device provided signals. Furthermore, the telecommunication terminal can have means to compare the at least one parameter of power, level or amplitude of the electrical user data, each with one in the mobile telecommunication terminal stored corresponding limit value include. So that's a targeted transmission of the protective sound signal among the above Conditions possible.

Within a telecommunications terminal equipped in this way then, for example, in terms of circuitry or software electrical user data corresponding to the acoustic user data in the telecommunications terminal analyzed and corresponding parameters assigned to the volume, such as power, level and / or amplitude of the electrical user data certainly. If these parameters fall below a predetermined limit, so is the transmission of the protective sound signal in the telecommunications terminal causes. The limit value can be chosen such that the electrical Acoustic data corresponding to user data in this case already no longer have any meaningfully discernible information content (e.g. Pauses, Background noise).

Further preferred embodiments are in the subclaims contain.

In the following the invention is exemplified with Explained with reference to the accompanying figure. It shows:

1 schematic representation of a telecommunication terminal according to the invention

In 1 is the schematic representation of a possible embodiment of a mobile radio terminal according to the invention 10 shown. The incoming telecommunication signal from a communication partner is from an antenna 20 received and to a receiver electronics 22 forwarded. The receiver electronics 22 Voice communication data are determined by the receiver electronics 22 to a speech coding decoding unit 24 forwarded. There they are either from a microphone 26 of the mobile terminal 10 incoming voice information translated into an electronically transmissible signal or by the receiver electronics 22 voice data coming into a through a speaker 50 convertible form. The control of the speech coding-decoding unit 24 takes place via control electronics 30 with connected keyboard 30 of the mobile terminal 10 via an electrical connection 32 ,

In an overlay unit 40 are those from the speech encoder 24 coming acoustic user data with in a storage unit 42 stored electrical protection signals superimposed and the superimposed data then the speaker 50 fed. There they are sent out to the user as acoustic user data. The electrical protection signals can be in the storage unit 42 be stored permanently or by a signal generator 44 generated and then stored there.

Via a supply line 34 from the controller 30 of the cell phone 10 to the mixer unit 40 can be switched on and off or their parameters can be set. A parameter can be, for example, the ratio of the intensity of the electrical protection signal to the electrical useful data. Furthermore, the connection of the electrical protection signal to the electrical useful data can be carried out via this line 34 can be switched on and off. For example, the electrical protection signal is added in the first operating mode of the mobile radio terminal 10 off. Furthermore, the admixture can also be carried out in the second operating state after the protective signal mode has been actively switched off using the keyboard and controller 30 be turned off by the user.

The overlay unit 40 can also provide means for analyzing the speech coder 24 coming electrical user data include. By comparison with one in the controller 30 saved and via the supply line 34 The superimposition unit can transmit the electrical limit value transmitted to the superimposition unit 40 switch off the admixture of the protective sound signal when the limit value is exceeded and switch on again when the limit value is undershot. This ensures that no protective sound signals are heard during the transmission of acoustic information and that the protective sound signal is emitted in the corresponding pauses in the conversation in order to prevent the user from using the mobile radio device 10 accidentally gets close to his hearing.

The present invention describes a method and a telecommunication terminal, which can be operated in a first operating mode and a second operating mode with a volume that is higher than the first second maximum volume, a protective sound signal being generated in the second operating mode in addition to the acoustic useful data. This can prevent a user's hearing from being damaged by the possible high volume levels in the second operating mode if he accidentally holds the telecommunication terminal to his ear. The method according to the invention can be easily implemented in communication terminals since no additional sensors are required in and on the telecommunications terminal.

10

mobile radio terminal

20

antenna

22

receiver electronics

24

Voice-encoding-decoding unit

30

Controller / keyboard

32

supply Controller / speech coder

34

supply Controller / mixer

40

Overlay unit

42

storage unit

44

signal generator

50

speaker

Claims (11)

Method for operating a communication terminal ( 10 ) with an acoustic output device ( 50 ), especially with a loudspeaker ( 50 ), acoustic user data from the acoustic output device ( 50 ) are output and the acoustic output device can be operated in at least two operating modes, namely a first operating mode with a first maximum volume and a second operating mode with an increased second maximum volume compared to the first, characterized in that in the second operating mode in addition to the acoustic A protective sound signal from the acoustic output device ( 50 ) is generated such that the protective sound signal has a predetermined minimum volume at a predetermined minimum distance. A method according to claim 1, characterized in that the first operating mode for operating the acoustic output device ( 50 ) is formed in the immediate vicinity of a user's ear. A method according to claim 1 or 2, characterized in that the second operating mode as speakerphone mode and / or hands-free mode is provided. Method according to one of Claims 1 to 3, characterized in that the maximum volume of the protective sound signal is set such that when the acoustic output device () is in direct contact ( 50 ) damage to the user's ear by the protective sound signal is excluded with the user's ear. Method according to one of claims 1 to 4, characterized in that that the transmission of the protective sound signal by a user is on and / or off. Method according to one of claims 1 to 5, characterized in that the volume of the protective sound signal as a function of the intensity of in the environment of the acoustic output device ( 50 ) existing ambient noise is set. Method according to one of claims 1 to 6, characterized in that that the protective sound signal is superimposed on the acoustic user data becomes. Method according to one of claims 1 to 7, characterized in that the protective sound signal from the acoustic output device ( 50 ) is only transmitted if the volume of the acoustic user data is below a predefinable limit. Telecommunication terminal ( 10 ) for carrying out a method according to one of the preceding claims, comprising: - an acoustic output unit ( 50 ), especially a loudspeaker ( 50 ), - means of operation ( 24 . 30 ) of the acoustic output unit ( 50 ) in at least two operating modes, namely a first operating mode with a first maximum volume and a second operating mode with an increased second maximum volume compared to the first, means for storage ( 42 ) and / or generation ( 44 ) an electrical protection signal which is used to generate the protection sound signal by the acoustic output unit ( 50 ) suitable is. Telecommunication terminal according to claim 9, characterized in that the mobile telecommunication terminal ( 10 ) Means to start ( 30 ) and / or exit ( 30 ) performing the method according to any one of claims 1 to 8. Telecommunication terminal according to claim 9 or 10, characterized in that the mobile telecommunication terminal ( 10 ) is designed to carry out a method according to claim 8, wherein electrical useful data are supplied to output the acoustic useful data of the acoustic output device, and wherein the mobile telecommunication terminal ( 10 ) - means for determining at least one parameter ( 40 ) power, level or amplitude of the electrical useful data and - means for comparing the at least one parameter ( 40 ) of power, level or amplitude of the electrical user data, each with a corresponding limit value stored in the mobile telecommunications terminal.