Overview of TSL25911FN by ams
The TSL25911FN is an advanced light-to-digital converter that provides very-high sensitivity thanks to its ability to convert light intensity to a digital signal with an I²C interface. This particular model has specifications ideal for precision light analysis in a wide range of applications. It operates with a nominal supply voltage of 3V, and can handle supply voltages ranging from 2.7V to 3.6V. The technology underlying this component is CMOS, known for its reduced power consumption and high immunity to noise, a crucial feature for sensitive light measurements.
From a physical standpoint, the TSL25911FN has a small footprint with dimensions of 2.4 mm x 2 mm and a very thin profile with a seated height of just 0.7 mm. This compact size is packaged in an ODFN-6 (Optical Dual Flat No-lead) format, making it suitable for SMT (Surface-Mount Technology) processes, which is a standard in modern electronic manufacturing. The terminal material is nickel palladium gold, providing excellent conductivity and resistance to oxidation.
This product complies with major environmental standards, including RoHS (Restriction of Hazardous Substances) and REACH, ensuring its suitability for use in various global markets. The operational temperature range of the TSL25911FN is broad, extending from -30°C to 70°C, which permits deployment in environments with varying thermal conditions.
Industry Applications for TSL25911FN
- Consumer Electronics: The high sensitivity and compact size of the TSL25911FN potentially make it suitable for use in smartphones, tablets, and smartwatches where ambient light sensing is required to adjust display brightness automatically.
- Environmental Monitoring: The ability to accurately sense light intensities could be beneficial in environmental monitoring equipment, such as systems designed to track sun exposure or to study weather patterns where detailed light measurements are necessary.
- Smart Cities: In smart lighting systems, the TSL25911FN might be used to intelligently control street lighting based on the ambient light levels, thus enhancing energy efficiency and reducing operational costs.
- Industrial Automation: Light-to-digital converters like the TSL25911FN could play a crucial role in optical sensors used in manufacturing settings, where they might be used to control light conditions or to ensure the correct operation of machinery sensitive to environmental light changes.
- Agriculture Technology: Analyzing light patterns can be critical in applications such as greenhouse automation systems, where light levels directly impact plant growth. The TSL25911FN can be incorporated into systems measuring the intensity of light to provide optimal conditions for plant cultivation.
These potential applications illustrate several industries where TSL25911FN could be useful, but they require thorough verification and compliance checks by engineering and design teams tailored to specific project needs and standards.
About ams
ams AG is a leader in the development and manufacture of advanced sensor solutions, including a variety of Other Signal Circuits. Their products, including the TSL25911FN, are designed to drive high performance in applications where signal integrity is crucial. ams has a reputation for innovation in the sensor technology field, particularly in designing components that integrate seamlessly into increasingly miniaturized electronic systems. The company is committed to delivering products that lead in terms of speed, accuracy, and power efficiency, with robust compliance to environmental and industry-specific standards.
Where to Find TSL25911FN by ams
To source the TSL25911FN, it is recommended to research options through reputable distributors. Findchips.com offers a comprehensive platform for checking current stock levels, comparing pricing, and viewing distributor availability. This part has historically been available at Future Electronics among other distributors. However, availability can fluctuate, thus it’s advisable to confirm the latest details directly through findchips.com. Moreover, the site allows you to explore alternatives within the Other Signal Circuits subcategory, potentially offering variations by ams or other manufacturers which might suit specific technical requirements.