Goeckler
Heinz Goeckler, Backnang DE
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20100128910 | FILTER BANK SYSTEM HAVING SPECIFIC STOP-BAND ATTENUATION COMPONENTS FOR A HEARING AID - The circuit complexity or the filter order, respectively, of an analysis/synthesis filter bank system especially for hearing aids is to be reduced. For this reason, the stop-band attenuation of at least one of the transfer functions of the analysis filter bank is composed of a separately configurable, frequency-independent analysis pass-band attenuation component and a separately configurable frequency-dependent analysis attenuation component. Furthermore, the stop-band attenuation of at least one of the transfer functions of the synthesis filter bank is composed of a separately configurable, frequency-independent synthesis pass-band attenuation component, a separately configurable, frequency-dependent first synthesis attenuation component and a separately configurable, frequency-dependent second synthesis attenuation component which is also dependent on the manipulation of the sub-band signals. As a result, the stop-band attenuation can be reduced in dependence on frequency and the filter order can be correspondingly reduced. | 05-27-2010 |
20110007918 | FILTER BANK CONFIGURATION FOR A HEARING DEVICE - A filter bank configuration for a hearing device has filters in an analysis filter bank and corresponding filters in a synthesis filter bank that are coupled pair-wise to form a channel in each case. In order to compensate for a hearing loss, sub-band signals are amplified in the individual channels with the aid of multipliers. In the process, an audible distortion of an output signal Y of the filter bank configuration as a result of differences between amplification factors of the multipliers of neighboring channels should be prevented. Here, at least one channel changes a phase of a sub-band signal transmitted by the channel such that a difference between a group delay of the filter bank configuration and a prescribable reference value is reduced for at least one predetermined frequency. The filter bank configuration is particularly suited to hearing aids. | 01-13-2011 |
Mathias Goeckler, Buehl DE
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20130303329 | METHOD FOR CONTROLLING A PLANETARY GEAR SET IN A BELT DRIVE AND BELT DRIVE - A method and device for controlling a shiftable planetary gear set in a belt drive of an internal combustion engine in a motor vehicle having a sun gear which is fixedly connected to a belt pulley, a ring gear which can be connected fixedly with respect to the housing by means of a brake which is activated by an electrically operated actuator which is effective along a distance which is monitored by a relative distance sensor, as well as a web which is connected to a crankshaft of the internal combustion engine and rotatably accommodates planetary gears, wherein situated between the sun gear and the web is a free wheeling mechanism which can be switched and rolled over in both directions and is switched by the same actuator along the travel distance. | 11-14-2013 |
20130328323 | METHOD AND MECHANISM FOR STARTING AN INTERNAL COMBUSTION ENGINE - A method and mechanism for starting an internal combustion engine, having a summed torque extending in a wave form over a rotational angle of the crankshaft of the internal combustion engine, by means of an electric machine which is rotationally coupled to the crankshaft and torsional elasticity which is effective between the crankshaft and the electric machine. | 12-12-2013 |
Professor Heinz Goeckler, Backnang DE
Patent application number | Description | Published |
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20090290736 | FILTER BANK SYSTEM FOR HEARING AIDS - The object of the invention is to make sub-band processing in hearing aids less computationally intensive. For this purpose a filter bank system comprising an analysis filter bank for decomposing an input signal into sub-band signals, a processing device for amplifying at least one of the sub-band signals, and a synthesis filter bank for combining the processed sub-band signals into an output signal is provided. The sub-band signals are oversampled and downsampled compared to the input signal. The stopband attenuations of the individual filters of the AFB and SFB are at least as high as a predefined signal-to-noise ratio increased by an attenuation value which is a function of the oversampling factor, the downsampling factor and possibly the gain. The magnitude frequency response of the SFB is approximately matched to the magnitude frequency response of the AFB. | 11-26-2009 |