Pulse oximeter with improved DC and low frequency rejection
First Claim
1. An apparatus for use in a measurement instrument which includes at least two signal sources which generate a light signal at least at two wavelengths and transmit said light signal through a tissue of a test subject and a detector which receives said light signal transmitted through the tissue and converts said light signal received into a detector signal, said apparatus comprising:
- means for receiving said detector signal;
means for removing DC and low frequency signal components below a defined frequency from said detector signal received by employing a feedback signal based on said detector signal to cancel, at least in part, said DC and low frequency signal components, so as to generate a filtered output signal; and
means for amplifying said filtered output signal to generate an amplified output signal;
wherein a blood analyte related value in the tissue of the test subject is computed based on said amplified output signal.
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Accused Products
Abstract
A system for providing an improved DC and low frequency signal rejection in a photoplethysmographic measurement instrument is disclosed. The system is used in a measurement instrument which includes at least two signal sources (106, 108) for transmitting light signals at least at two wavelengths through a tissue of a test subject and a detector (112) for converting light signals transmitted through the tissue into a detector output signal. The system includes a DC restoration (114) which removes DC and low frequency signal components from the detector output signal prior to amplification thereof so as to avoid saturating amplified output signal with the low frequency signal component. The DC restoration (114) is configured to continuously remove low frequency signal component from the detector signal during dark intervals when the signal sources are deactivated, as well as during light intervals when one of the signal sources is activated. In one embodiment, the DC restoration is embodied in the form of a DC restoration circuit (200) which comprises a transimpedance amplifier (204, 206) which receives the detector output signal and produces an amplifier output signal (222) and an integrator feedback loop (208-220) which receives the amplified output signal and produces a bias current, wherein the bias current is used to subtract DC and low frequency signal components from the detector output signal prior to amplification of the detector signal by the amplifier.
115 Citations
17 Claims
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1. An apparatus for use in a measurement instrument which includes at least two signal sources which generate a light signal at least at two wavelengths and transmit said light signal through a tissue of a test subject and a detector which receives said light signal transmitted through the tissue and converts said light signal received into a detector signal, said apparatus comprising:
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means for receiving said detector signal;
means for removing DC and low frequency signal components below a defined frequency from said detector signal received by employing a feedback signal based on said detector signal to cancel, at least in part, said DC and low frequency signal components, so as to generate a filtered output signal; and
means for amplifying said filtered output signal to generate an amplified output signal;
wherein a blood analyte related value in the tissue of the test subject is computed based on said amplified output signal. - View Dependent Claims (2, 3, 4, 5)
at least one amplifier which receives said detector signal and produces an amplifier output signal;
an integrator feedback loop which receives said amplifier output signal and produces a bias current; and
wherein said bias current is used to subtract DC and low frequency signal components from said detector signal prior to amplification of said detector signal by said amplifier.
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5. The apparatus of claim 4, wherein said integrator feedback loop comprises:
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at least one integrator which receives said amplifier output signal and amplifies DC and low frequency signal components contained in said amplifier output signal to produce a bias voltage; and
at least one resistor which receives said bias voltage and produces said bias current to be supplied to said amplifier, wherein said resistor serves to reduce the gain of said integrator.
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6. A pulse oximeter for noninvasively measuring a blood analyte related value in a tissue of a test subject, comprising:
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at least two signal sources which generate a light signal at least at two wavelengths and transmit said light signal through the tissue;
a detector which receives said light signal transmitted through the tissue and converts said light signal received into a detector signal;
a DC restoration which removes DC and low frequency signal components below a defined frequency from said detector signal by employing a feedback signal based on said detector signal to cancel, at least in part, said DC and low frequency signal components, so as to generate a filtered output signal and amplifies said filtered output signal to generate an amplifies output signal; and
a processor which receives said amplified output signal and computes a blood analyte related value in the tissue of the test subject based on said amplified output signal received. - View Dependent Claims (7, 8, 9, 10, 11)
a transimpedance amplifier which receives said detector signal and produces a transimpedance amplifier output signal;
an integrator feedback loop which receives said transimpedance amplifier output signal and produces a bias voltage; and
a voltage to current resistor which receives said bias voltage and produces a bias current to be supplied to said transimpedance amplifier;
wherein said bias current is used to subtract DC and low frequency signal components from said detector output signal prior to amplification of said detector output signal by said transimpedance amplifier.
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11. The pulse oximeter of claim 10, wherein said integrator feedback loop comprises:
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at least one integrator which receives said amplifier output signal and amplifies DC and low frequency signal components contained in said amplifier output signal to produce a bias voltage; and
at least one resistor which receives said bias voltage and produces said bias current to be supplied to said amplifier, wherein said resistor serves to reduce the gain of said integrator.
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12. A method for use in a measurement instrument which includes at least two signal sources which generate light signal at least at two wavelengths and transmit said light signal through a tissue of a test subject and a detector which receives said light signal transmitted through the tissue and converts said light signal received into a detector signal, said method comprising the steps of:
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receiving said detector signal;
removing DC and low frequency signal components below a defined frequency from said of said detector signal by employing a feedback signal based on said detector signal to cancel, at least in part, said DC and low frequency signal components, so as to generate a filtered output signal;
amplifying said filtered output signal to generate an amplified output signal;
computing a blood analyte value in the tissue of the test subject based on said amplified output signal. - View Dependent Claims (13, 14, 15, 16, 17)
at least one integrator which receives said amplifier output signal and amplifies DC and low frequency signal components contained in said amplifier output signal to produce a bias voltage; and
at least one resistor which receives said bias voltage and produces said bias current, wherein said resistor serves to reduce the gain of said integrator.
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Specification