Method and apparatus for increasing the low frequency dynamic range of a digital ECG measuring system
First Claim
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1. A method of filtering a sensed ECG signal from a patient in generating an output ECG signal having a predetermined frequency bandwidth, the method comprising:
- filtering the input ECG signal with an anti-aliasing filter;
filtering an output signal from the anti-aliasing filter with a high pass filter (HPF), the cutoff frequency of the HPF being within the predetermined frequency bandwidth, wherein a low-band portion of the predetermined frequency bandwidth is attenuated;
sampling an output signal from the HPF to generate a stream of samples with a predetermined sample rate greater than twice the upper frequency of the predetermined frequency bandwidth;
decimating the stream of samples; and
filtering the stream of samples with a compensation filter (CF), wherein the CF provides a gain for the low-band portion that is substantially equal to the inverse of the attenuation of the low-band portion.
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Abstract
An ECG signal measuring system uses low frequency compression/enhancement techniques combined with dither techniques to effectively increase the dynamic range while maintaining resolution. This aspect of the present invention is achieved without increasing the number of bits of the ADC. The system includes a HPF, an ADC, a decimation filter (DF), and a compensation filter (CF). The HPF receives an input signal (i.e., the bias current combined with ECG input signal) and attenuates the low frequency components of the input signal, including a portion of the frequency band within the desired ECG frequency band. The ADC oversamples the output signal of the HPF. The DF receives the output samples of the ADC and generates output samples at rate that is at least twice the maximum frequency of the desired ECG output signal. The CF amplifies the low frequency end of the DF output samples. The gain and cutoff frequency of the CF are set to offset the HPF'"'"'s attenuation of those low frequency components of the input signal below the minimum frequency of the desired ECG output signal. System noise can be used as the dither. Consequently, the ECG output signal remains within the dynamic range of the system.
115 Citations
25 Claims
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1. A method of filtering a sensed ECG signal from a patient in generating an output ECG signal having a predetermined frequency bandwidth, the method comprising:
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filtering the input ECG signal with an anti-aliasing filter;
filtering an output signal from the anti-aliasing filter with a high pass filter (HPF), the cutoff frequency of the HPF being within the predetermined frequency bandwidth, wherein a low-band portion of the predetermined frequency bandwidth is attenuated;
sampling an output signal from the HPF to generate a stream of samples with a predetermined sample rate greater than twice the upper frequency of the predetermined frequency bandwidth;
decimating the stream of samples; and
filtering the stream of samples with a compensation filter (CF), wherein the CF provides a gain for the low-band portion that is substantially equal to the inverse of the attenuation of the low-band portion. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An ECG filter system for use in generating an output ECG signal having a predetermined frequency bandwidth in response to a sensed ECG signal from a patient, the system comprising:
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an anti-aliasing filter coupled to receive the sensed ECG signal;
a high pass filter (HPF) coupled to the anti-aliasing filter, the HPF having a cutoff frequency within the predetermined frequency bandwidth, wherein the HPF is configured to attenuate a low-band portion of the predetermined frequency bandwidth;
an analog-to-digital converter (ADC) coupled to the HPF, the ADC being configured to generate a stream of samples with a predetermined sample rate greater than twice the upper frequency of the predetermined frequency bandwidth;
a compensation filter (CF) coupled to the ADC, wherein the CF is configured to provide a gain for the low-band portion that is substantially equal to the inverse of the attenuation of the low-band portion; and
a decimator coupled to the CF. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. An ECG filter system for use in generating an output ECG signal having a predetermined frequency bandwidth in response to a sensed ECG signal from a patient, the system comprising:
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an anti-aliasing filter coupled to receive the sensed ECG signal;
a high pass filter (HPF) coupled to the anti-aliasing filter, the HPF having a cutoff frequency within the predetermined frequency bandwidth, wherein the HPF is configured to attenuate a low-band portion of the predetermined frequency bandwidth;
an analog-to-digital converter (ADC) coupled to the HPF, the ADC being configured to generate a stream of samples with a predetermined sample rate greater than twice the upper frequency of the predetermined frequency bandwidth;
compensation means, coupled to the ADC, for digitally filtering the stream of samples, wherein the compensation means is configured to provide a gain for the low-band portion that is substantially equal to the inverse of the attenuation of the low-band portion; and
decimation means, coupled to the compensation means. - View Dependent Claims (16, 17, 18, 19, 20)
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21. A defibrillator having an ECG filter system for use in generating an output ECG signal in response to an ECG signal from a patient, the output ECG signal having a predetermined frequency bandwidth, the defibrillator comprising:
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a pair of electrodes, wherein the pair of electrodes is configured to provide a sensed ECG signal in response to signals generated by the patient'"'"'s heart;
an anti-aliasing filter coupled to receive the sensed ECG signal;
a high pass filter (HPF) coupled to the anti-aliasing filter, the HPF having a cutoff frequency within the predetermined frequency bandwidth, wherein the HPF is configured to attenuate a low-band portion of the predetermined frequency bandwidth;
an analog-to-digital converter (ADC) coupled to the HPF, the ADC being configured to generate a stream of samples with a predetermined sample rate greater than twice the upper frequency of the predetermined frequency bandwidth;
a compensation filter (CF) coupled to the ADC, wherein the CF is configured to provide a gain for the low-band portion that is substantially equal to the inverse of the attenuation of the low-band portion;
a decimator coupled to the CF; and
a display system coupled to the compensation filter, the display system being configured to display an ECG waveform in response to an output signal generated by the CF. - View Dependent Claims (22, 23, 24, 25)
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Specification
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Current AssigneePhysio-Control Incorporated (Stryker Corporation)
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Original AssigneeMedtronic Physio-Control Manufacturing Corp. (Medtronic Plc)
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InventorsOlson, Dana J., Van Ess, David W.
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Primary Examiner(s)Jastrzab, Jeffrey R.
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Application NumberUS09/232,044Time in Patent Office886 DaysField of Search607/5, 600/509, 128/901-902US Class Current600/509CPC Class CodesA61B 5/30 Input circuits thereforA61B 5/308 for electrocardiography [ECG]A61B 5/7232 involving compression of th...A61N 1/3925 Monitoring; ProtectingY10S 128/901 Suppression of noise in ele...Y10S 128/902 Biological signal amplifier
