DSP with variable sample frequency
First Claim
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1. An implantable medical device system, comprising:
- sampling means for sampling an analog signal at a sampling frequency to obtain digital representations of the analog signal, the analog signal being representative of intracardiac activity;
detector means for detecting the amplitude of the analog signal and generating first and second difference signals, the detector means generating the first difference signal after detection of significant changes in the analog signal amplitude, the detector means generating the second difference signal after non-detection of the significant changes in the analog signal amplitude over a predetermined period of time; and
frequency selector means for selecting the sampling frequency based on the first and second difference signal, the frequency selector means selecting a relatively higher sampling frequency in response to generation of the first difference signal and selecting a relatively lower sampling frequency in response to generation of the second difference signal.
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Abstract
An implantable medical device uses a sampling scheme to obtain digital representation from analog signals. The analog signals represent intracardiac activity. Generally, a detector detects the amplitude of the analog signals and generates first and second difference signals. The first difference signal is generated after detection of significant changes in the analog signal amplitude. The second difference signal is generated upon confirmation of the absence of significant changes in the analog signal amplitude over a predetermined period of time. A frequency selection is implemented to select the sampling frequency based on the first and second difference signal.
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Citations
21 Claims
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1. An implantable medical device system, comprising:
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sampling means for sampling an analog signal at a sampling frequency to obtain digital representations of the analog signal, the analog signal being representative of intracardiac activity; detector means for detecting the amplitude of the analog signal and generating first and second difference signals, the detector means generating the first difference signal after detection of significant changes in the analog signal amplitude, the detector means generating the second difference signal after non-detection of the significant changes in the analog signal amplitude over a predetermined period of time; and frequency selector means for selecting the sampling frequency based on the first and second difference signal, the frequency selector means selecting a relatively higher sampling frequency in response to generation of the first difference signal and selecting a relatively lower sampling frequency in response to generation of the second difference signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An intracardiac system for selecting appropriate sampling frequencies of an analog signal representative of intracardiac activity, comprising:
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an analog-to-digital converter for converting the analog signal into a digital signal, the analog-to-digital converter sampling the analog signal at a selected sampling frequency; a threshold detector receiving and analyzing an amplitude of the analog signal, the threshold detector providing indications after a change in the analog signal amplitude exceeds a predetermined threshold amplitude and after a change in the analog signal amplitude fails to exceed the threshold amplitude; and a frequency selector that sets the selected sampling frequency in response to the threshold detector, the frequency selector setting the selected sampling frequency at a first value in response to the indication that the analog signal amplitude change exceeds a predetermined threshold amplitude, and the frequency selector setting the selected sampling frequency at a second value in response to the indication that the analog signal amplitude change fails to exceed the threshold amplitude over a predetermined amount of time, the first value being higher than the second value. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A method for analyzing a cardiac activity in an implantable pacemaker device, comprising:
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sensing the cardiac activity in the form of an analog signal, obtaining sample data from the analog signal at a non-constant sample rate; converting the analog signal into a representative digital signal using the sample data; measuring a variation of the analog signal; and setting the sample rate as a function of the variation measure, the sampling rate being increased as the variation of the analog signal increases and being decreased as the variation of the analog signal decreases. - View Dependent Claims (16, 17, 18, 19, 20)
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21. An implantable medical device system, comprising:
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sampling means for sampling an analog signal at a sampling frequency to obtain digital representations of the analog signal, the analog signal being representative of intracardiac activity; detector means for detecting the amplitude of the analog signal and generating first and second difference signals, the detector means generating the first difference signal after detection of a first amplitude change in the analog signal amplitude greater than a predetermined limit corresponding to an analog signal frequency content greater than a predetermined cut-off frequency, the detector means generating the second difference signal after detection of a second amplitude change in the analog signal amplitude less than the predetermined limit; and frequency selector means for selecting the sampling frequency based on the first and second difference signal, the frequency selector means selecting a relatively higher sampling frequency in response to generation of the first difference signal and selecting a relatively lower sampling frequency in response to generation of the second difference signal.
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Specification