This application claims priority of German application No. 10 2007 007 120.7 DE filed Feb. 13, 2007, which is incorporated by reference herein in its entirety.
The present invention relates to a hearing aid and to a method for generating acoustic signals of a hearing aid.
Acoustic signal tones support the hearing aid wearer in many respects. In particular they help the hearing aid wearer in choosing the right program. Essentially there is the problem that the acoustic signal tones need to be adjusted to the particular situation so that they are easy to hear, i.e. on the one hand they should not be too loud in quiet situations, and on the other hand they should not be too quiet in noisy situations.
A possible solution is a controller which calculates the level of the acoustic signals as a function of the ambient volume level, i.e. the level of the input signal of the hearing aid. In this way the acoustic signals can be played back quietly in quiet situations and adjusted accordingly, i.e. amplified, in a loud environment. However, the invention is based on the knowledge that with this solution, although it would still not be possible to hear the acoustic signals if the overall level of the environment is within the average range, the level in the frequency range of the acoustic tone signals is relatively high. Thus, acoustic signals with sinusoidal character (e.g. what are referred to as “beeps”) have a relatively narrow frequency spectrum and consequently are very easily “masked”, i.e. lowered to below the hearing threshold, by an environment of said kind.
According to the invention, the input signal of the hearing aid is analyzed to determine whether the level of the input signal in a (frequency) band range in which there is also an acoustic signal exceeds a specific threshold value. If, on the basis of this analysis, it is established that the said threshold value has been exceeded, then the acoustic signal is adjusted up or down in frequency and thus shifted into a range with less ambient noise. In this range the hearing threshold is lower and consequently the acoustic signal is heard more easily at the same amplification.
In one embodiment the method according to the invention can also be applied in conjunction with the aforementioned method for determining the amplification of an acoustic signal. In this case the overall level of the input signal can be used to calculate the amplification of an acoustic signal and the method according to the invention can be used to determine the need for a frequency shifting of the acoustic signal.
The components for implementing the invention are explained below with reference to the drawing which comprises a single FIGURE.
The invention comprises a measuring device ME, a comparator device VG and a frequency-shifting device FG.
The measuring device ME serves for determining a frequency-band-related level maximum for the input signal of the hearing aid. The comparator device VG then firstly compares the frequency range of the maximum with that of the acoustic signals. If both are in the same range, a further comparison is made to determine whether the maximum differs by a threshold value from the level in the other bands. If so, the acoustic signals are shifted in frequency by way of the frequency-shifting device FG into a band in which they are not masked.
Number | Date | Country | Kind |
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10 2007 007 120.7 | Feb 2007 | DE | national |