Method and apparatus for reducing coupling between signals in a measurement system
First Claim
1. An apparatus for measuring one or more blood constituents in a subject, said apparatus comprising:
- a first signal source which applies a first input signal during a first time interval in a first modulation scheme;
a second signal source which applies a second input signal in a second time interval in a second modulation scheme;
a detector which detects a first parametric signal responsive to said first input signal passing through a portion of said subject having blood therein and which detects a second parametric signal responsive to said second input signal passing through said portion of said subject, said detector generating a detector output signal responsive to said first and second parametric signals; and
a signal processor which receives said detector output signal, said signal processor demodulating said detector output signal by applying a first demodulation signal to a signal responsive to said detector output signal to generate a first demodulator output signal and applying a second demodulation signal to said signal responsive to said detector output signal to generate a second demodulator output signal, said first demodulation signal having at least one component comprising a frequency, a first amplitude, and a first phase, and said second demodulation signal having at least one component comprising a second frequency, a second phase, and a second amplitude, at least one of said first phase, said second phase, said first amplitude, and said second amplitude chosen to reduce crosstalk from said first parametric signal to said second demodulator output signal and to reduce crosstalk from said second parametric signal to said first demodulator output signal;
wherein said signal processor is further configured to adjust at least one of the first and second modulation schemes and adjust a corresponding at least one of said first and second demodulation signals based on the output signals in order to further reduce crosstalk.
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Abstract
A method and an apparatus for separating a composite signal into a plurality of signals is described. A signal processor receives a composite signal and separates a composite signal in to separate output signals. Feedback from one or more of the output signals is provided to a configuration module that configures the signal processor to improve a quality of the output signals. In one embodiment, the signal processor separates the composite signal by applying a first demodulation signal to the composite signal to generate a first output signal. In one embodiment, the signal processor also applies a second demodulation signal to the composite signal to generate a second output signal. In one embodiment, a phase and/or amplitude of the first demodulation signal and a phase and/or amplitude of the second demodulation signal are selected to reduce crosstalk. In one embodiment, the composite signal is obtained from a detector in a system for measuring one or more blood constituents.
740 Citations
9 Claims
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1. An apparatus for measuring one or more blood constituents in a subject, said apparatus comprising:
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a first signal source which applies a first input signal during a first time interval in a first modulation scheme; a second signal source which applies a second input signal in a second time interval in a second modulation scheme; a detector which detects a first parametric signal responsive to said first input signal passing through a portion of said subject having blood therein and which detects a second parametric signal responsive to said second input signal passing through said portion of said subject, said detector generating a detector output signal responsive to said first and second parametric signals; and a signal processor which receives said detector output signal, said signal processor demodulating said detector output signal by applying a first demodulation signal to a signal responsive to said detector output signal to generate a first demodulator output signal and applying a second demodulation signal to said signal responsive to said detector output signal to generate a second demodulator output signal, said first demodulation signal having at least one component comprising a frequency, a first amplitude, and a first phase, and said second demodulation signal having at least one component comprising a second frequency, a second phase, and a second amplitude, at least one of said first phase, said second phase, said first amplitude, and said second amplitude chosen to reduce crosstalk from said first parametric signal to said second demodulator output signal and to reduce crosstalk from said second parametric signal to said first demodulator output signal; wherein said signal processor is further configured to adjust at least one of the first and second modulation schemes and adjust a corresponding at least one of said first and second demodulation signals based on the output signals in order to further reduce crosstalk. - View Dependent Claims (2, 3, 4)
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5. A method of demodulating a composite signal generated by applying first and second periodic pulses of electromagnetic energy to a system having a parameter to be measured and by receiving signals responsive to said electromagnetic energy after having passed through said system and being affected by said parameter being measured, said signals received as a composite signal having first and second components responsive to said first and second pulses respectively, said method comprising:
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applying a first demodulation signal to said composite signal to generate a first demodulated signal, said first demodulation signal comprising a first component having a first frequency corresponding to a repetition frequency of said first and second pulses and comprising a second component having said first frequency, said second component in phase quadrature with said first component, said first component having a first amplitude and said second component having a second amplitude, said second amplitude having a predetermined relationship to said first amplitude, said predetermined relationship selected to cause said first demodulated signal to have lower frequency components, said lower frequency components comprising a primary component corresponding primarily to said first component and a residual component corresponding to said second component; lowpass filtering said first demodulated signal to generate a first output signal; adjusting at least one of a first amplitude, a second amplitude, a first phase, and a second phase to reduce said residual component with respect to said primary component. - View Dependent Claims (6, 7, 8, 9)
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Specification