Apparatus and method for system identification
First Claim
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1. A down-conversion method for analyzing light emissions from a luminescent sample comprising the following steps:
- a. providing an excitation signal to an excitation light source;
b. providing excitation light to the luminescent sample;
c. detecting luminescent light emitted from the luminescent sample;
d. converting the luminescent light into a detector signal;
e. mixing the detector signal with a mixer signal to create a mixed detector signal;
f. mixing the excitation signal with the mixer signal to create a mixed excitation signal;
g. low-pass filtering the mixed detector signal and the mixed excitation signal to remove the high-frequency components of each signal;
h. processing the low-pass filtered mixed detector signal with a first linear second-order digital IIR filter and processing the low-pass filtered mixed excitation signal with a second linear second-order digital IIR filter; and
i. transforming each of the linearly-filtered signals using control logic to compute real portions and imaginary portions to determine the phase shift between the excitation light and the emitted luminescence.
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Abstract
Methods and apparatus for system identification operate by computing phase and amplitude using linear filters. By digitally processing the linearly filtered signals or data, the phase and amplitude based on measurements of the input and output of a system, are determined.
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Citations
27 Claims
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1. A down-conversion method for analyzing light emissions from a luminescent sample comprising the following steps:
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a. providing an excitation signal to an excitation light source; b. providing excitation light to the luminescent sample; c. detecting luminescent light emitted from the luminescent sample; d. converting the luminescent light into a detector signal; e. mixing the detector signal with a mixer signal to create a mixed detector signal; f. mixing the excitation signal with the mixer signal to create a mixed excitation signal; g. low-pass filtering the mixed detector signal and the mixed excitation signal to remove the high-frequency components of each signal; h. processing the low-pass filtered mixed detector signal with a first linear second-order digital IIR filter and processing the low-pass filtered mixed excitation signal with a second linear second-order digital IIR filter; and i. transforming each of the linearly-filtered signals using control logic to compute real portions and imaginary portions to determine the phase shift between the excitation light and the emitted luminescence. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A down-conversion method for analyzing light emissions from a luminescent sample comprising the following steps:
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a. providing an excitation signal to an excitation light source; b. providing excitation light to the luminescent sample; c. detecting luminescent light emitted from the luminescent sample; d. converting the luminescent light into a detector signal; e. combining the detector signal with a first mixer signal to form a mixed-detector signal; f. combining the excitation signal with the first mixer signal to form a mixed-excitation signal; g. low-pass filtering the mixed-detector signal and the mixed-excitation signal to remove high-frequency components of each signal; h. processing the low-pass filtered mixed detector signal with a first linear second-order digital IIR filter and processing the low-pass filtered mixed excitation signal with a second linear second-order digital IIR filter; i. transforming each linearly filtered signal using control logic to compute real portions and imaginary portions to determine a detector phase shift between the detector signal and the excitation signal; j. providing a reference signal to a reference light source; k. providing reference light to the luminescent sample; l. detecting reference sample light emanated from the luminescent sample; m. converting the reference sample light into a reference-detector signal; n. combining the reference detector signal with a second mixer signal to form a mixed-reference-detector signal; o. combining the reference signal with the second mixer signal to form a mixed-reference signal; p. low-pass filtering the mixed-reference detector signal and the mixed-reference signal to remove high-frequency components of each signal; q. processing the low-pass filtered mixed-reference detector-signal with the first linear second-order digital IIR filter and processing the low-pass filtered mixed-reference signal with the second linear second-order digital IIR filter; r. transforming each of the linearly-filtered mixed-reference-detector signal and mixed-reference signal using control logic to compute real portions and imaginary portions to determine a reference phase shift between the reference-detector signal and the reference signal; and s. subtracting the detector phase shift from the reference phase shift to determine the phase difference between the excitation light and the luminescent light. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A down-converting apparatus for measuring luminescent light comprising:
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a. an excitation light source configured to receive an excitation signal and generate excitation light; b. a luminescent probe configured to receive the excitation light and generate luminescent light in response to the excitation light; c. a detector system configured to detect the luminescent light and generate a detector signal in response to the luminescent light; d. a detector mixer configured to combine the detector signal with a mixer signal to create a mixed-detector signal; e. an excitation mixer configured to combine the excitation signal with the mixer signal to create a mixed-excitation signal; f a first low-pass filter configured to remove high-frequency components from the mixed-detector signal received from the detector mixer; g. a second low-pass filter configured to remove high-frequency components from the mixed-excitation signal received from the excitation mixer; h. a first linear second-order IIR filter for filtering the mixed-detector signal received from the first low-pass filter; i. a second linear second-order IIR filter for filtering mixed-excitation signal received from the second low-pass filter; j. a processor programmed to transform the linearly filtered mixed-detector signal and linearly filtered mixed-excitation signal using control logic to compute for each signal a real portion and imaginary portion and to determine a phase shift between the excitation light and the emission light. - View Dependent Claims (16, 17, 18, 19, 20, 21)
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22. A down-converting apparatus for analyzing light emissions from a luminescent sample, comprising:
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a. the luminescent sample comprising first and second surfaces that emits luminescent light in response to excitation light and emanates reference sample light in response to reference light; b. an excitation light source responsive to an excitation signal; c. the excitation light source positioned opposite to the first surface of the luminescent sample so that luminescent light is emitted by the luminescent sample in response to excitation light emitted by the excitation light source; d. a reference light source responsive to a reference signal; e. the reference light source positioned opposite to one surface of the luminescent sample so that reference sample light emanates from the luminescent sample in response to reference light emitted by the reference light source; f. a switch configured to pass either the excitation signal or the reference signal; g. a detector configured to detect either luminescent light or reference sample light, depending upon the position of the switch, and to generate a responsive detector signal; h. the detector positioned opposite to one surface of the luminescent sample so that either luminescent light or reference sample light is detected, depending on the position of the switch; i. a detector mixer configured to combine the detector signal with a mixer signal; j. a low-pass filter configured to remove high-frequency components from the output of the detector mixer; k. linear second-order digital IIR filters, the filters being configured to filter the output of the low-pass filter; l. control logic connected to the linear filters that computes (1) real and imaginary portions of the linear filter output corresponding to the luminescent light and then a first phase shift based on those portions; (2) real and imaginary portions of the linear filter output corresponding to the reference sample light and then a second phase shift based on those portions; m a subtractor connected to the control logic that subtracts the first phase shift from the second phase shift to determine the phase difference between the excitation light and the luminescence light. - View Dependent Claims (23, 24, 25, 26, 27)
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Specification