Fast-turnoff photodiodes with switched-gain preamplifiers in photoplethysmographic measurement instruments
First Claim
1. A photoplethysmographic measurement system for use in determining a value for at least one blood analyte level comprising:
- an emitter which emits a plurality of light beams through a portion of said tissue wherein each of said light beams is transmitted through said tissue for a discrete time interval and wherein each of said light beams has a distinct spectral content characterized by a center wavelength;
a fast response detector which generates a time-division multiplexed signal indicative of light transmitted through said tissue wherein said signal has a first signal portion indicative of the light transmitted by a first light beam of said plurality of light beams and a second signal portion indicative of said ambient light levela preamplifier wherein said first signal portion and said second signal portion may be amplified at substantially different gainswherein said fast response detector is selected so as to minimize the effect of the first signal portion on the second signal portion when said second signal portion is amplified at a substantially greater gain than said first signal portion; and
a microprocessor wherein a computer program is executed which contains a test routine to determine whether the detector has an acceptable decay time.
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Accused Products
Abstract
An improved photoplethysmographic measurement system is disclosed in which a fast-turn-off photodiode is used in order to minimize the effect of "bleed-through" voltages on the dark time (ambient) light determination. Particularly in photoplethysmographic instruments which utilize switched-gain preamplifiers the "bleed-through" of voltage which should be associated with the excitation of the photodiode by the emitter into the dark time or ambient light calculation will negatively impact the accuracy of blood analyte determination. A hardware method and a software method for determining whether a given photodiode has a sufficient decay time are also disclosed.
257 Citations
7 Claims
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1. A photoplethysmographic measurement system for use in determining a value for at least one blood analyte level comprising:
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an emitter which emits a plurality of light beams through a portion of said tissue wherein each of said light beams is transmitted through said tissue for a discrete time interval and wherein each of said light beams has a distinct spectral content characterized by a center wavelength; a fast response detector which generates a time-division multiplexed signal indicative of light transmitted through said tissue wherein said signal has a first signal portion indicative of the light transmitted by a first light beam of said plurality of light beams and a second signal portion indicative of said ambient light level a preamplifier wherein said first signal portion and said second signal portion may be amplified at substantially different gains wherein said fast response detector is selected so as to minimize the effect of the first signal portion on the second signal portion when said second signal portion is amplified at a substantially greater gain than said first signal portion; and a microprocessor wherein a computer program is executed which contains a test routine to determine whether the detector has an acceptable decay time. - View Dependent Claims (2, 3, 4)
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5. A photoplethysmographic measurement system for use in determining a value for at least one blood analyte in a patient'"'"'s tissue using a time division multiplexed signal in an environment including ambient light, said system comprising:
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emitter means for emitting a plurality of light beams through a portion of said tissue wherein each of said light beams is transmitted through said tissue for a discrete time interval and wherein each of said light beams has a distinct spectral content characterized by a center wavelength; fast response detector means for generating a signal indicative of light transmitted through said tissue wherein said signal has a first signal portion indicative of the light transmitted by a first light beam of said plurality of light beams and a second signal portion indicative of said ambient light for a discrete time interval said fast response detector means having a decay rate characteristic;
relating to a response speed upon deactivation of said light, of at least a predetermined value for certain operating parameters;switched gain preamplification means wherein said first signal portion and said second signal portion may be amplified at substantially different gains, said substantially different gains being reflected in said operating parameters; an integrator for measuring the total voltage associated with said first signal portion and said second signal portion for each said discrete time interval; wherein said fast response detector means is selected so as to minimize the effect of the switched gain preamplification of said first signal portion of the integrated voltage associated with said second signal portion; and a microprocessor wherein a computer program is executed which controls the plurality of emitters, the preamplification means, and the integrator and which contains a test routine which controls the excitation of one of the plurality of emitters, the gain of the preamplification means, further generates a third signal portion indicative of the ambient light level prior to said first signal portion for a discrete time interval and compares said third signal portion with said second signal portion so as to determine whether the detector has an acceptable decay time. - View Dependent Claims (6, 7)
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Specification