Ambient Light, IR, UV Sensors
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Compact ambient light sensor AMS TSL25203M with UV IR blocking filter and interrupt driven interface
Product OverviewThe TSL2520 is a highly sensitive ambient light sensor from ams OSRAM, featuring a low-profile and small footprint L2.0mm x W1.0mm x H0.5mm optical QFN package. It offers two concurrent ambient light sensing channels, configurable via a programmable multiplexer. The sensor incorporates Infrared and Clear photodiodes, with the Clear channel featuring a UV/IR blocking filter for accurate ambient light measurement and irradiance calculation. This enables improved
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Low profile ambient light sensor AMS TCS34103M with RGB photodiodes flicker detection and UV IR blocking filter
Product OverviewThe TCS3410 is a universal ambient light RGB sensor with selective flicker detection, designed for use behind OLED displays or as an auxiliary to cameras. It offers concurrent ambient light and flicker sensing with a programmable multiplexer to connect channels to photodiodes. The device incorporates RGB and Clear photodiodes with a UV/IR blocking filter for accurate ambient light measurement and irradiance calculation, aiding display appearance and picture
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Sensor AMS TCS34083M Featuring Concurrent RGB Clear Wideband Channels and Flicker Detection Technology
Product OverviewThe TCS3408 is an Ambient Light and Color (ALS/Color) Sensor with Selective Flicker Detection. It offers concurrent ambient light sensing across Red, Green, Blue, Clear, and Wideband channels, enabling accurate measurement of illuminance, chromaticity, and color temperature for display management. The device also integrates direct detection of 50Hz or 60Hz ambient light flicker, operating in parallel with ALS/Color sensing and featuring independent gain
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AMS AS72653 BLGT smart spectral identification chipset with 3 sensors 6 optical filters and integrated LED drivers
Product OverviewThe AS7265x chipset is a smart 18-channel VIS to NIR spectral identification 3-sensor chip-set with an electronic shutter. It comprises three sensor devices: AS72651 (master), AS72652, and AS72653. Each sensor features 6 independent on-device optical filters with spectral responses ranging from 410nm to 940nm (20nm FWHM). The chipset is designed for spectral identification applications, offering a compact solution with integrated LED drivers and programmable
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Mid infrared quantum photo diode AKM AK9710AEF3A designed for CO2 CH4 and CO gas sensing applications
Product Overview The AK9710AEF3A is a compact mid-infrared quantum photo diode crafted from InSb, leveraging AKM's proprietary compound semiconductor technology to operate effectively at room temperature. This device offers high sensitivity, rapid response times, and robust reliability. It features an integrated optical band-pass filter specifically designed for detecting wavelengths of 3.9m, making it ideally suited for Non-Dispersive Infrared (NDIR) gas sensing applications
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Compact mid infrared quantum photo diode AKM AK9710AEF01 optimized for NDIR CO2 sensing applications
AK9710AEF01 - Mid-Infrared Quantum Photo Diode for NDIR CO2 Sensing Product Overview The AK9710AEF01 is a compact, mid-infrared quantum photo diode utilizing Indium Antimonide (InSb) material. Engineered with AKM's proprietary compound semiconductor technology, it operates effectively at room temperature, delivering high sensitivity, rapid response times, and exceptional reliability. This sensor features an integrated optical band-pass filter, specifically optimized for Non
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Compact mid infrared quantum photo diode AKM AK9710ADF01 optimized for NDIR CO2 sensing applications
Product Overview The AK9710ADF01 is a compact, mid-infrared quantum photo diode manufactured by AKM using unique compound semiconductor technology. Designed for room-temperature operation, it offers high sensitivity, rapid response times (up to 100kHz), and high reliability. This sensor features a built-in optical band-pass filter and is specifically optimized for Non-Dispersive Infrared (NDIR) CO2 sensing applications in automotive environments. Its signal-to-noise ratio is