Patent application number | Description | Published |
20130077808 | ITE HEARING INSTRUMENT WITH PROGRAMMING CONNECTOR - An in-the-ear hearing instrument has a programming connector arranged in a faceplate and at least one microphone opening arranged in the faceplate. The programming connector is covered by an openable cover, and the at least one microphone opening is at least partially covered by at least one lining. The cover and at least one lining are integrated into a shared cover and lining device which at least partially covers both the programming connector and also the at least one microphone opening in a manner so as to be openable. | 03-28-2013 |
20130083950 | AMPLIFICATION SETTING IN A HEARING AID DEVICE - A hearing aid retains speech comprehension even during implementation of a frequency transposition. To this end, fricatives existing in an input signal prior to the frequency transposition are identified in particular with the aid of the energy distribution between the individual frequency bands. Following the frequency transposition, amplifier units are controlled in the transposed frequency bands such that a specific energy distribution existing in the non-transposed frequency bands between at least one first upper frequency band and a first lower frequency band is mapped onto a corresponding energy distribution between a second upper frequency band and a second lower frequency band of the frequency-transposed signal. This results in the fricatives obtained in the original input signal also being correctly identified following a frequency transposition. | 04-04-2013 |
20130083952 | HEARING AID DEVICE HAVING A SEALING DEVICE - With a hearing aid device in a frame configuration, acoustic feedback is avoided with an opened battery charger. To this end, a seal surrounds the frame component in an annular manner, the seal sealing a gap between the frame component and the housing thus providing a more user friendly hearing aid. | 04-04-2013 |
20130101123 | METHOD FOR DETERMINING A COMPRESSION CHARACTERISTIC, METHOD FOR DETERMINING A KNEE POINT AND METHOD FOR ADJUSTING A HEARING AID - The fitting of a hearing device and in particular of a hearing aid using frequency compression is to be simplified. A method for determining a knee point of a frequency compression characteristic for a hearing device is therefore proposed wherein a maximum audible frequency of a hearing device user is first determined and the knee point is then determined using a predefined rule in dependence on a maximum audible frequency. An end point of a compression characteristic can also be automatically determined. | 04-25-2013 |
20130114818 | METHOD FOR AUTOMATIC ACTIVATION AND DEACTIVATION OF A BINAURAL HEARING SYSTEM AND BINAURAL HEARING SYSTEM - A method of operation saves energy during the operation of a binaural hearing system having a left-hand hearing device and a right-hand hearing device. The method includes providing a left-hand internal input signal in the left-hand hearing device and a right-hand internal input signal in the right-hand hearing device. A sending mode of the left-hand hearing device and/or right-hand hearing device is activated and/or deactivated. The sending mode is therein activated in one of the hearing devices automatically in dependence on the respective internal input signal and the sending mode is deactivated in one of the hearing devices automatically in dependence on the respective internal input signal and of a communication signal received from the respective other hearing device. | 05-09-2013 |
20130114837 | FEEDBACK SUPPRESSION DEVICE AND METHOD FOR PERIODIC ADAPTATION OF A FEEDBACK SUPPRESSION DEVICE - A method is provided for adapting a feedback suppression device of a hearing device to a given situation in order to improve the quality of feedback suppression in hearing devices and in hearing aids in particular. In the method an adaptation procedure of the feedback suppression device is periodically activated and adaptation of the feedback suppression device is performed regularly even if a feedback detector does not detect a feedback situation. A feedback suppression device for a hearing device is also provided. | 05-09-2013 |
20130114838 | HEARING DEVICE WITH A BATTERY COMPARTMENT - A hearing device has a battery compartment for mounting a battery and is provided in a housing. While the battery compartment is being closed there is a risk that a contact element projecting into the battery compartment causes a short circuit between the poles of the battery. The hearing device has a contacting device for the battery that is easy to manufacture. In the battery compartment, a contact element is provided for electrical contacting of the battery which can be deflected against a spring force when inserting the battery. A contact region of the contact element as a result presses against the battery when the battery is inserted. The contact element has an abutment device formed from an electrically insulating material with a surface disposed obliquely in respect of a direction of insertion of the battery, against which the battery abuts when the contact region is deflected. | 05-09-2013 |
20130148829 | HEARING APPARATUS WITH SPEAKER ACTIVITY DETECTION AND METHOD FOR OPERATING A HEARING APPARATUS - A method and device for reliably detecting one's own voice being the wearer of a hearing apparatus. A hearing apparatus includes at least two independent analysis facilities, of which each is configured to obtain speech activity data on the basis of an audio signal received by the hearing apparatus, which is dependent on the speaker activity of a wearer of the hearing apparatus. A fusion facility is configured to receive the speech activity data from the analysis facilities and on the basis of the speech activity data then to recognize whether or not the wearer is currently speaking. | 06-13-2013 |
20130188816 | METHOD AND HEARING APPARATUS FOR ESTIMATING ONE'S OWN VOICE COMPONENT - It is possible to identify a hearing apparatus wearer's own voice for signal processing in a hearing apparatus. In a method for estimating one's own voice component, a first microphone is positioned outside the auditory canal and a second microphone is positioned within the auditory canal. The microphone signals are segmented into a number of regions in a time-frequency plane. A region phase difference and a region level difference are then determined respectively for each of the regions from one of the two t-f signals compared with the other of the two t-f signals. All the number of regions of the time-frequency plane, the region phase difference of which corresponds generally to the estimated phase difference and the region level difference of which corresponds generally to the estimated level difference, are then grouped, the signal components of the group serving as an estimation of the voice component. | 07-25-2013 |