Earphone and method for identifying whether an earphone is being inserted into an ear of a user

What is claimed is: 1. An earphone, comprising: a proximity sensor configured to generate a proximity sensor signal; an acceleration sensor configured to generate an acceleration sensor signal; and a signal analysis device configured to: a. identify an approaching movement of the earphone to an object using the proximity sensor signal; b. ascertain whether the approaching movement is a movement of the earphone to an ear of the user, with fluctuations in a time profile of the proximity sensor signal being analyzed and taken into consideration; c. generate a high-pass filtered acceleration signal and a low-pass filtered acceleration signal by filtering the acceleration sensor signal; d. ascertain an end time of the approaching movement based on a stabilization of the acceleration, using the low-pass filtered acceleration signal; and e. confirm that the approaching movement is a movement of the earphone to an ear of the user based on changes in the high-pass filtered acceleration signal after the ascertained end time of the approaching movement. 2. The earphone as recited in claim 1 , wherein the signal analysis device is configured to ascertain and take into consideration a monotonicity of the time profile of the proximity sensor signal in order to analyze the fluctuations in the profile of the proximity sensor signal of the proximity sensor. 3. The earphone as recited in claim 1 , wherein the signal analysis device is configured to confirm that the approaching movement is a movement of the earphone to an ear of the user based on a measure of the changes in the high-pass filtered acceleration signal after the ascertained end time of the approaching movement exceeding a first predefined threshold value. 4. The earphone as recited in claim 3 , wherein the signal analysis device ( 4 ) is designed to identify that the approaching movement is not a movement of the earphone ( 1 ) to an ear of the user if the measure of the changes in the high-pass filtered acceleration signal after the ascertained end time of the approaching movement is below a second predefined threshold value. 5. The earphone as recited in claim 1 , wherein the signal analysis device is configured to ascertain, based on the proximity sensor signal, whether the earphone is being removed from the user's ear. 6. The earphone as recited in claim 1 , wherein the signal analysis device is configured to identify an absence of movement based on the acceleration sensor signal, and to set the earphone to an out-of-ear operating mode when the absence of the movement is identified. 7. The earphone as recited in claim 1 , wherein the signal analysis device is configured to identify, based on the acceleration sensor signal, a movement of the earphone which, because of an intensity of the acceleration sensor signal, cannot be generated by head movements, and to set the earphone to an out-of-ear operating mode when the movement of the earphone not being generated by the head movements is identified. 8. The earphone as recited in claim 1 , wherein the acceleration sensor is a triaxial acceleration sensor. 9. The earphone as recited in claim 8 , wherein the signal analysis device is configured to calculate maxima and minima of accelerations along the three axes and to take the calculated maxima and minima into consideration when confirming that the approaching movement is a movement of the earphone to an ear of the user. 10. A method for identifying whether an earphone is being inserted into an ear of a user, comprising the following steps: identifying an approaching movement of the earphone to an object using a proximity sensor signal of a proximity sensor of the earphone; ascertaining whether the approaching movement is a movement of the earphone to an ear of the user, with fluctuations in a time profile of the proximity sensor signal being analyzed and taken into consideration; filtering an acceleration sensor signal of an acceleration sensor of the earphone to generate a high-pass filtered acceleration signal and a low-pass filtered acceleration signal; ascertaining an end time of the approaching movement based on a stabilization of the acceleration, using the low-pass filtered acceleration signal; and confirming that the approaching movement is a movement of the earphone to an ear of the user based on changes in the high-pass filtered acceleration signal after the ascertained end time of the approaching movement.