Electrical audio signal processing systems and devices – Hearing aids – electrical
Reexamination Certificate
2000-09-05
2003-02-04
Le, Huyen (Department: 2643)
Electrical audio signal processing systems and devices
Hearing aids, electrical
C381S314000, C381S320000, C381S321000
Reexamination Certificate
active
06516073
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a medical device that can be operated independently of the public utility power network and that has at least one signal input for accepting an input signal and a signal processing unit.
2. Description of the Prior Art
Medical devices, which are operated independently of the public utility power network i.e., which are self-powered, and which are processor-controlled, are currently utilized in many areas of the medical diagnostics and therapy. Examples are electrocardiographs, blood pressure measuring devices, blood-sugar monitoring devices, cardiac pacemakers and hearing aid devices. Such a device generally has at least one voltage source, such as a battery or an accumulator (chargeable power source), a signal input for accepting an input signal and a signal processing unit. Prior to the digital processing of an analog input signal, it is initially sampled and into a digital signal converter. Conventionally, the sampling rate is selected according to the highest frequency of the input signal that is to be evaluated. The clock frequencies of the digital components, such as A-D converters, D-A converters, signal processing processors or the system clock are also fixed during the manufacture of the medical device. These remain unchanged when the device is operated.
SUMMARY OF THE INVENTION
An object of the present invention is to reduce the energy demand of a self-powered medical device.
This object is achieved in a self-powered medical device that can be operated independently of a power supply network and that has at least one voltage source, a signal input for accepting an input signal and a signal processing unit, wherein in that the sampling rate for the input signal and/or the clock frequency of at least one digital component can be automatically or manually changed.
In a known medical devices, which are operated with a fixed system clock, or with a fixed sampling rate, the energy demand for sampling the input signal and for operating the digital components is almost constant. The entire bandwidth of the input signal, however, often is not of interest and, moreover, the maximally possible processor performance is only partially exhausted. This, however, does not influence the energy demand for operating the medical device. The inventive reduction of the sampling rate for the input signal and/or the clock frequency of a digital component, such as a microprocessor or a digital signal processor, results in an almost proportional reduction of the power draw of the corresponding components. Correspondingly, the operating time of the medical device can be increased with an installed battery or an installed accumulator.
In an embodiment of the invention that can be simply realized, the sampling rate or the clock frequency is altered by manually operating an operating element provided for that purpose. Therefore, the user of the medical device can independently exercise influence on the energy demand of the device.
In another, more comfortable, version of the invention the sampling rate for the input signal and/or the clock frequency of at least one digital component can be automatically controlled by a signal analysis and evaluation unit. For example, when it is recognized that the input signal exhibits only a limited bandwidth, the sampling rate is correspondingly adapted in an independent manner.
Another embodiment of the inventive medical device, has multiple signal inputs for accessing a number of input signals parallel, but an input signal is not present at every signal input, or not all input signals are evaluated. Signal sampling can be completely foregone in this embodiment and the performance of a signal processor for processing the input signals can be correspondingly reduced, whereby by decreasing the clock frequency.
In another embodiment of the invention, the sampling rate for the input signal and/or the clock frequency of at least one digital component are dependent on the state of the voltage source. When a decrease in voltage supply is detected, this component can be automatically or manually switched into a type of “energy saving mode”. Although the functionality of the device is reduced, limited operation can be thus maintained for a limited time with a reduced energy demand.
An advantageous embodiment of the inventive medical device is a hearing aid device having at least one voltage source, an input converter for accepting an acoustic input signal, with an output converter and a signal processing unit. Due to the desired miniaturizing, the energy storage capacity of the voltage source is tightly limited in hearing aid devices, in particular. Therefore, a decrease in the energy demand has a particularly advantageous effect on these devices.
Modern hearing aid devices offer the person wearing the hearing device the ability to choose between different hearing programs. These, in turn, are specifically adapted to specific hearing situations. Different hearing situations, however, require respectively different calculating capacity with respect to the signal processing. This requirement is inventively met by employing of a sampling rate and clock frequency that is correspondingly adapted to the requirements of the selected hearing program. The corresponding adaptation ensues manually or automatically by means of selecting the hearing program.
In a further embodiment of the invention the momentary (current) sound situation of the hearing aid device is recognized by a signal analysis and evaluation unit and the sampling rate or the clock frequency is automatically adapted based thereon. An environment wherein voice signals have interfering signals superimposed therein is an example of such a sound situation. For example, when the hearing aid device offers the possibility to process and transmit input signals up to 10 kHz as a maximum, the transmission and processing up to maximally 5 kHz is normally sufficient with respect to voice signals. Therefore, the sampling rate for the input signal and the clock frequency of the digital signal processor or the system clock can be halved. Parasitic signals with a frequency above 5 kHz are no longer transmitted as a result. Moreover, current available filters for the suppression of background noise in the limited frequency range up to 5 kHz can operate more effectively. The system clock can be increased again when a different hearing program is subsequently selected, wherein a larger bandwidth is desired for music, for example. It is also possible to increase the system clock for sound-optimized hearing programs vis-a-vis the normal value.
REFERENCES:
patent: 6128392 (2000-10-01), Leysieffer et al.
patent: 196 02 453 (1997-07-01), None
“Battery Fail-Safe Mechanism For Personal Computer,” IBM Technical Disclosure Bulletin, vol. 33, No. 10A, Mar. 1991 (pp. 440-442).
Schulz Herve
Weidner Tom
Le Huyen
Schiff & Hardin & Waite
Siemens Audiologische Technik GmbH
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