Apparatus and methodology for digital telemetry of biomedical signals
First Claim
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1. An improvement in a biomedical apparatus for monitoring biopotentials derived from a patient comprising:
- instrumentation means for detecting said biopotentials from said patient and for processing an analog signal at said patient corresponding thereto;
analog-to-digital conversion means for converting said analog signals corresponding to said biopotential signals to digital format at the situs of said patient; and
transmitter means for telemetering digital signals corresponding to said digitized biopotential signals generated by said analog-to-digital conversion means, said transmitter means being a tunable frequency modulated radio transmitter,wherein said digital signals have a pattern characterized by a DC data bias and wherein said tunable frequency modulated radio transmitter comprises;
an averaging means for averaging said pattern of said digital signals to generate a DC value signal of said pattern;
first voltage controlled crystal oscillator means having its control input coupled to said averaging means, said first voltage controlled crystal oscillator means for generating a variable reference frequency dependent upon said DC value signal of said pattern of said digital signals;
a phase detector having its input coupled to an output of said first voltage controlled crystal oscillator means;
a loop filter having an input coupled to an output of said phase detector;
a second voltage controlled oscillator means having a control input coupled to an output of said loop filter, an output of said second voltage control oscillator generating an output frequency of said phase-lock-loop circuit within said tunable frequency modulated radio transmitter;
divider means for feeding back said output frequency to said phase detector divided by a predetermined integer; and
wherein said digital signals is also coupled into said input of said second voltage controlled oscillator means so that said output frequency of said second voltage controlled oscillator means is frequency modulated by said digital signals and so that said DC data bias is compensated by said DC value signal corresponding to an average DC value of said pattern of said digital data,whereby biomedical information is directly telemetered from a patient in digital format.
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Abstract
Biomedical information is directly digitally telemetered from the patient through a frequency modulated transmitter to a remote receiver and computer station. DC offset on the biopotential leads and signals from the patient is compensated by converting the output of the amplifier, such as an electrocardiographic amplifier, into digital format, determining the average or DC component of the digital signal, and generating a digital correction word which is then converted into analog form and fed back into the input of the electrocardiographic amplifier to cancel out the DC offset. The same circuitry is used to insert a standard test signal instead of a correction signal and the output of the amplifier is then checked not to determine its DC component, but to determine whether or not the gain of the electrocardiographic amplifier is performing at a predetermined calibration point. If not, a digital correction word is generated and provided as a correction signal to the programmable gain amplifier.
94 Citations
11 Claims
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1. An improvement in a biomedical apparatus for monitoring biopotentials derived from a patient comprising:
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instrumentation means for detecting said biopotentials from said patient and for processing an analog signal at said patient corresponding thereto; analog-to-digital conversion means for converting said analog signals corresponding to said biopotential signals to digital format at the situs of said patient; and transmitter means for telemetering digital signals corresponding to said digitized biopotential signals generated by said analog-to-digital conversion means, said transmitter means being a tunable frequency modulated radio transmitter, wherein said digital signals have a pattern characterized by a DC data bias and wherein said tunable frequency modulated radio transmitter comprises; an averaging means for averaging said pattern of said digital signals to generate a DC value signal of said pattern; first voltage controlled crystal oscillator means having its control input coupled to said averaging means, said first voltage controlled crystal oscillator means for generating a variable reference frequency dependent upon said DC value signal of said pattern of said digital signals; a phase detector having its input coupled to an output of said first voltage controlled crystal oscillator means; a loop filter having an input coupled to an output of said phase detector; a second voltage controlled oscillator means having a control input coupled to an output of said loop filter, an output of said second voltage control oscillator generating an output frequency of said phase-lock-loop circuit within said tunable frequency modulated radio transmitter; divider means for feeding back said output frequency to said phase detector divided by a predetermined integer; and wherein said digital signals is also coupled into said input of said second voltage controlled oscillator means so that said output frequency of said second voltage controlled oscillator means is frequency modulated by said digital signals and so that said DC data bias is compensated by said DC value signal corresponding to an average DC value of said pattern of said digital data, whereby biomedical information is directly telemetered from a patient in digital format. - View Dependent Claims (2)
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3. An improvement in a biomedical apparatus for monitoring biopotentials derived from a patient comprising:
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instrumentation means for detecting said biopotentials from said patient and for processing an analog signal at said patient corresponding thereto; analog-to-digital conversion means for converting said analog signals corresponding to said biopotential signals to digital format at the situs of said patient; and transmitter means for telemetering digital signals corresponding to said digitized biopotential signals generated by said analog-to-digital conversion means, said transmitter means being a tunable frequency modulated radio transmitter, wherein said tunable frequency modulated radio transmitter includes a phase-lock-loop circuit comprising; a phase detector having an input for receiving an input frequency, and an output; a loop filter having an input coupled to the output of said phase detector, and an output; a voltage controlled oscillator for generating an output frequency in response to a control input coupled to an output from said loop filter; a divider for feeding back said output frequency to said phase detector divided by a selected integer; a microcontroller coupled to a lock detect signal from said phase detector, said lock detect signal signifying whether or not said phase-lock-loop circuit has achieved lockup and if not, whether the desired frequency is greater or less than that at which said voltage controlled oscillator is positioned; a digital-to-analog converter coupled to said microcontroller and controlled thereby, said digital-to-analog controller having an output coupled in turn to said voltage controlled oscillator to preposition said voltage controlled oscillator at a frequency as determined by input to said digital-to-analog converter from said microcontroller. - View Dependent Claims (4, 5, 6, 7, 8)
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9. An improvement in a biomedical apparatus for monitoring biopotentials derived from a patient comprising:
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instrumentation means for detecting said biopotentials from said patient and for processing an analog signal at said patient corresponding thereto; analog-to-digital conversion means for converting said analog signals corresponding to said biopotential signals to digital format at the situs of said patient; and transmitter means for telemetering digital signals corresponding to said digitized biopotential signals generated by said analog-to-digital conversion means, wherein said instrumentation means comprises; a biopotential amplifier, said biopotential amplifier receiving said biopotential signals from said patient and for generating an output signal, and having an input, said improvement further comprising; a microcontroller having an input coupled to said output signal; and a digital-to-analog converter having an input coupled to said microcontroller, an output of said digital-to-analog converter being fed back to said amplifier as a correction signal, said microcontroller for determining a DC value of said output signal and for generating a correction signal coupled to said input of said digital-to-analog converter so that said DC value is removed from said output signal by signal compensation into said input of said amplifier. - View Dependent Claims (10, 11)
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Specification
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Current AssigneeGE Medical Systems Information Technologies Incorporated (General Electric Company)
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Original AssigneePacific Communication Sciences , Inc. (Cirrus Logic Incorporated)
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InventorsMcBride, William C., Flach, Terry E.
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Primary Examiner(s)Kamm, William E.
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Assistant Examiner(s)Getzow, Scott M.
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Application NumberUS07/656,704Time in Patent Office798 DaysField of Search128/903, 128/696US Class Current600/508CPC Class CodesA61B 5/0006 ECG or EEG signalsH03L 2207/06 Phase locked loops with a c...H03L 7/103 the additional signal being...H03L 7/189 comprising a D/A converter ...H04L 25/064 Subtraction of the threshol...H04L 27/12 Modulator circuits; Transmi...Y10S 128/903 Radio telemetryY10S 331/02 Phase locked loop having lo...
