Near-infrared time-of-flight imaging
First Claim
1. A smart phone or tablet, comprising:
- an array of laser diodes configured to generate light having one or more optical wavelengths, wherein at least a portion of the one or more optical wavelengths is a near-infrared wavelength between 700 nanometers and 2500 nanometers, and wherein at least a portion of the array of laser diodes is configured to be pulsed;
one or more lenses configured to receive a portion of the light from the array of laser diodes and to direct the portion of the light from the array of laser diodes to a sample;
a detection system comprising a photodiode array with a plurality of pixels coupled to CMOS transistors;
wherein the detection system is configured to receive at least a portion of light reflected from the sample, and wherein the detection system is configured to be synchronized to the light from the at least a portion of the array of laser diodes;
wherein the detection system is configured to perform a time-of-flight measurement by measuring a time difference between the generated light from the at least a portion of the array of laser diodes and the at least a portion of light reflected from the sample;
wherein the detection system is further configured to;
receive light while the array of laser diodes is off and convert the received light into a first signal; and
receive light while at least a part of the array of laser diodes is on and convert the received light into a second signal, the received light including at least some of the at least a portion of the light reflected from the sample;
andwherein the smart phone or tablet is configured to difference the first signal and the second signal and to generate a two-dimensional or three-dimensional image using at least a portion of the time-of-flight measurement; and
wherein the smart phone or tablet further comprises a wireless receiver, a wireless transmitter, a display, a voice input module, and a speaker.
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Abstract
A smart phone or tablet includes laser diodes configured to be pulsed and generate near-infrared light between 700-2500 nanometers. Lenses direct the light to a sample. A detection system includes a photodiode array with pixels coupled to CMOS transistors, and is configured to receive light reflected from the sample, to be synchronized to the light from the laser diodes, and to perform a time-of-flight measurement of a time difference between light from the laser diodes and light reflected from the sample. The detection system is configured to convert light received while the laser diodes are off into a first signal, and light received while at least one laser diodes is on, which includes light reflected from the sample, into a second signal. The smart phone or tablet is configured to difference the first signal and the second signal and to generate a two-dimensional or three-dimensional image using the time-of-flight measurement.
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Citations
20 Claims
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1. A smart phone or tablet, comprising:
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an array of laser diodes configured to generate light having one or more optical wavelengths, wherein at least a portion of the one or more optical wavelengths is a near-infrared wavelength between 700 nanometers and 2500 nanometers, and wherein at least a portion of the array of laser diodes is configured to be pulsed; one or more lenses configured to receive a portion of the light from the array of laser diodes and to direct the portion of the light from the array of laser diodes to a sample; a detection system comprising a photodiode array with a plurality of pixels coupled to CMOS transistors; wherein the detection system is configured to receive at least a portion of light reflected from the sample, and wherein the detection system is configured to be synchronized to the light from the at least a portion of the array of laser diodes; wherein the detection system is configured to perform a time-of-flight measurement by measuring a time difference between the generated light from the at least a portion of the array of laser diodes and the at least a portion of light reflected from the sample; wherein the detection system is further configured to; receive light while the array of laser diodes is off and convert the received light into a first signal; and receive light while at least a part of the array of laser diodes is on and convert the received light into a second signal, the received light including at least some of the at least a portion of the light reflected from the sample; and wherein the smart phone or tablet is configured to difference the first signal and the second signal and to generate a two-dimensional or three-dimensional image using at least a portion of the time-of-flight measurement; and wherein the smart phone or tablet further comprises a wireless receiver, a wireless transmitter, a display, a voice input module, and a speaker. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A smart phone or tablet, comprising:
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an array of laser diodes configured to generate light having one or more optical wavelengths, wherein at least a portion of the one or more optical wavelengths is a near-infrared wavelength between 700 nanometers and 2500 nanometers, and wherein at least a portion of the array of laser diodes is configured to be pulsed; one or more lenses configured to receive a portion of the light from the array of laser diodes and to direct the portion of the light from the array of laser diodes to a sample; a detection system comprising a photodiode array with a plurality of pixels coupled to CMOS transistors; wherein the detection system is configured to receive at least a portion of light reflected from the sample, and wherein the detection system is configured to be synchronized to the at least a portion of the array of laser diodes; wherein the detection system is further configured to perform a time-of-flight measurement by measuring a time difference between the generated light from the at least a portion of the array of laser diodes and the at least a portion of light reflected from the sample; wherein the smart phone or tablet is configured to generate a two-dimensional or three-dimensional image using at least a portion of the time-of-flight measurement; and wherein the smart phone or tablet further comprises a wireless receiver, a wireless transmitter, a display, a voice input module, and a speaker. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15)
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16. A smart phone or tablet, comprising:
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an array of laser diodes configured to generate light having one or more optical wavelengths, wherein at least a portion of the one or more optical wavelengths is a near-infrared wavelength between 700 nanometers and 2500 nanometers, and wherein at least a portion of the array of laser diodes is configured to be pulsed at a modulation frequency; one or more lenses configured to receive a portion of the light from the array of laser diodes and to direct the portion of the light from the array of laser diodes to a sample; a detection system comprising a photodiode array with a plurality of pixels coupled to CMOS transistors; wherein the detection system is configured to receive at least a portion of light reflected from the sample, wherein the detection system is configured to be synchronized to the at least a portion of the array of laser diodes, and wherein the detection system is configured to use a lock-in technique that detects the modulation frequency; wherein the detection system is further configured to perform a time-of-flight measurement by measuring a time difference between the generated light from the at least a portion of the array of laser diodes and the at least a portion of light reflected from the sample; wherein the smart phone or tablet is configured to generate a two-dimensional or three-dimensional image using at least a portion of the time-of-flight measurement; and wherein the smart phone or tablet further comprises a wireless receiver, a wireless transmitter, a display, a voice input module, and a speaker. - View Dependent Claims (17, 18, 19, 20)
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Specification