The AS7262 / AS7263 (referred to as the AS726x) from ams are the world’s first cost-effective multispectral sensor-on-chip solutions, opening the way for a new generation of spectral analyzers for consumer and industrial applications.
The AS726x devices enable chip-scale spectral analysis, driving new spectral sensing innovation for both industrial and consumer applications. The dramatic reduction in the size and cost of spectral sensing solutions brings the lab to the sample for an incredible variety of applications from food safety and product authentication, to routine testing that can better protect both our health and our environment.
The multispectral sensors employ a new fabrication technique that enables nano-optical interference filters to be deposited directly on the CMOS silicon die with extreme precision. This interference filter technology used for the sensors offers extremely precise and reproduceable filter characteristics that are stable over both time and temperature, and are much smaller and more cost-effective than the components typically used in today’s spectral analysis instruments. On-board intelligence further allows these multi-spectral sensors to be calibrated for life, easing integration and production line configuration for the instrument manufacturer.
These single-chip solutions are offered in a small 4.5 x 4.4mm land grid array package. The ultra-low power AS7262 visible range sensor and AS7263 NIR sensor each provide six calibrated spectral channels.
The AS7262 six-channel visible light sensor with integrated intelligence provides a calibrated digital output over an I2C or UART interface. It measures light intensity at six wavelengths in the visible light spectrum: 450nm, 500nm, 550nm, 570nm, 600nm and 650nm. The AS7263 operates in the NIR spectrum detecting 610nm, 680nm, 730nm, 760nm, 810nm and 860nm infrared signatures. Both devices include an electronic shutter with LED drive circuitry, which means that device de-signers can accurately control the light source and the spectral sensing functions with a single chip.
Because of their attractive price point, the new multispectral sensors create opportunities for a very wide range of consumer and real-world field applications. Key solution spaces include material and product authentication, product quality and integrity as well as material content analysis in the near-infrared (NIR) and visible spectrums.
The small size of the new multispectral sensors combined with their low power consumption enable measurement equipment OEMs to develop new product types that take advantage of these unique attributes. For instance, bulky laboratory-grade analysis equipment can now be replaced by convenient handheld form factors. In factories, samples which today have to be removed from the production line and taken to a laboratory for chemical analysis or quality testing will be tested in-line by new small, robust spectral analyzers based on the multispectral sensors.
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