Optical sensor device
First Claim
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1. An optical sensor device, comprising:
- a light emitter configured to periodically emit light at a predetermined frequency toward a measurement target;
a light receiver configured to detect at least one of reflected light and diffused light from the measurement target, and to output a modulated electrical signal based on the detected light;
a filter circuit configured to filter the modulated electrical signal at the predetermined frequency and to output a modulation signal;
an amplifier configured to amplify the modulation signal;
an AD converter configured to convert the modulation signal to a digital signal;
an arithmetic processing unit coupled to the AD converter and configured to calculate a DC component and an AC component of the electrical signal based on the digital signal; and
a separation circuit including the filter circuit and configured to separate the modulation signal and the DC component of the electrical signal,wherein the AD converter is further configured to convert the DC component of the electrical signal to a DC component digital signal, andwherein the arithmetic processing unit is further configured to convert the modulation signal and the DC component digital signal based on an amplification factor of the amplifier, such that an amplitude ratio between the modulation signal and the DC component digital signal reaches a state before the amplification by the amplifier, and to calculate the AC component of the electrical signal based on the modulation signal.
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Abstract
An optical sensor device includes a light emitter for emitting, to a living body, lights having two wavelengths and blinking at a predetermined frequency, and a light receiver for receiving the lights from the living body. The light receiver outputs first and second detection signals corresponding to the respective wavelengths. A filter circuit extracts, from the first and second detection signals, modulation signals that are obtained with amplitude modulation of signals of the predetermined frequency. The modulation signals are amplified by a post-amplifier and are taken into an arithmetic processing unit after being converted to digital signals by an AD converter. The arithmetic processing unit calculates DC components and AC components of the first and second detection signals by employing the modulation signals converted the digital signals.
11 Citations
5 Claims
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1. An optical sensor device, comprising:
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a light emitter configured to periodically emit light at a predetermined frequency toward a measurement target; a light receiver configured to detect at least one of reflected light and diffused light from the measurement target, and to output a modulated electrical signal based on the detected light; a filter circuit configured to filter the modulated electrical signal at the predetermined frequency and to output a modulation signal; an amplifier configured to amplify the modulation signal; an AD converter configured to convert the modulation signal to a digital signal; an arithmetic processing unit coupled to the AD converter and configured to calculate a DC component and an AC component of the electrical signal based on the digital signal; and a separation circuit including the filter circuit and configured to separate the modulation signal and the DC component of the electrical signal, wherein the AD converter is further configured to convert the DC component of the electrical signal to a DC component digital signal, and wherein the arithmetic processing unit is further configured to convert the modulation signal and the DC component digital signal based on an amplification factor of the amplifier, such that an amplitude ratio between the modulation signal and the DC component digital signal reaches a state before the amplification by the amplifier, and to calculate the AC component of the electrical signal based on the modulation signal. - View Dependent Claims (2)
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3. An optical sensor device, comprising:
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a light emitter configured to emit light toward a measurement target; a light receiver configured to detect at least one of reflected light and diffused light from the measurement target, and output an electrical signal based on the detected light; a separation circuit configured to separate the electrical signal into a DC component and an AC component; an amplification circuit configured to amplify the DC component and the AC component, at first and second amplification factors, respectively; an AD converter configured to convert the DC component and the AC component to first and second digital signals, respectively; and an arithmetic processing unit configured to restore the DC component and the AC component of the electrical signal by converting the DC component and the AC component output as the first and second digital signals such that an amplitude ratio between the DC component and the AC component output as the digital signals obtains a state before the amplification by the amplification circuit.
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4. An optical sensing method, comprising:
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emitting light, by a light emitter, at a predetermined frequency towards a measurement target; detecting, by a light receiver, at least one of reflected light and diffused light from the measurement target; outputting, by the light receiver, a modulated electrical signal based on the detected light; filtering, by a filter circuit, the modulated electrical signal at the predetermined frequency; outputting, by the filter circuit, a modulation signal corresponding to the electrical signal; amplifying, by an amplifier, the modulation signal; converting, by an AD converter, the amplified modulation signal to a digital signal; calculating, by a processor, a DC component and an AC component of the electrical signal based on the digital signal; separating, by a separation circuit including the filter circuit, the modulation signal and the DC component of the electrical signal; converting, by the AD converter, the DC component of the electrical signal to a DC component digital signal; converting, by the processor, the modulation signal and the DC component digital signal based on an amplification factor of the amplifier, such that an amplitude ratio between the modulation signal and the DC component digital signal reaches a state before the amplification by the amplifier; and calculating, by the processor, the AC component of the electrical signal based on the modulation signal. - View Dependent Claims (5)
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Specification
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Current AssigneeMurata Manufacturing Co Limited
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Original AssigneeMurata Manufacturing Co Limited
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InventorsTsuchimoto, Hirofumi, Shimuta, Toru
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Primary Examiner(s)Luu, Thanh
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Application NumberUS15/002,631Publication NumberTime in Patent Office859 DaysField of SearchUS Class CurrentCPC Class CodesA61B 5/02433 for infrared radiationA61B 5/14552 Details of sensors speciall...A61B 5/6826 FingerA61B 5/6829 Foot or ankleA61B 5/7203 for noise prevention, reduc...G01J 1/44 Electric circuits for comma...G01J 2001/444 Compensating; Calibrating,...G01J 3/427 Dual wavelengths spectrometryG01N 21/256 Arrangements using two alte...G01N 21/3151 using two sources of radiat...
