Elevate your projects with the GUVA-S12SD UV Detection Sensor Module, a high-sensitivity, 240nm-370nm range light intensity sensor designed for Arduino compatibility and versatile applications.
Xadow UV Sensor is suitable for measuring the UV radiation in sunlight. It can detect the UV wavelength of 290 ~ 400 nm. The UV Sensor is outputting digital voltage value corresponding to UV light intensity. With the diagram of output voltage and UV, we can easy to know the current UV ...
Arduino & Grove-UV sensor Getting back, the module outputs a calibrated analog voltage which varies with the UV light intensity so basically all you need to do is connect this to an ADC input and read in the value. The connections are straightforward and described below. ...
GUVA-S12SD UV Detection Sensor Module 2.5V-5V 240nm-370nm Light Sensor DIY Kit High Sensitivity Light Intensity Detection Sensor Board for ArduinoFeature:1.Wide Wavelength Range: The GUVA-S12SD UV Detection Sensor Module is proficient in detecting intense radiation from 200 to 370 nanometers (nm...
Twin Peaks Light Reactive Picture Frame By Liz Clark 16 Adafruit BMP280 Barometric Pressure + Temperature... By lady ada 48 Owl IR TV Remote By Ruiz Brothers 15 Using an Infrared Library on Arduino By Chris Young 90 Your browser does not support the video tag. This links to the gui...
Mapping theUV_Voltageto intensity is straight forward. No UV light starts at 1V with a maximum of 15mW/cm2at around 2.8V. Arduino has a built-inmap() function, but map() does not work for floats. Thanks to users on the Arduino forum, we have a simple mapFloat() function: ...
Figure 4b depicts digital images of the prototype flame alarm mounted on a front panel consisting of “nanoblocks” in conjunction with the open-source Arduino Uno electronics platform. Figure 4 (a) Change in the photocurrent under UV light irradiated from a flame (the distance between the ...
UV Index = illumination intensity / 200 Getting Started note This chapter is based on Win10 and Arduino IDE 1.6.9We will show you how this Grove - UV Sensor works through a simple demo. First of all, you need to prepare the below stuffs: ...
(A) Working model of a UV bio-sensor with a display powered by Arduino (signs; H, high-intensity light; M, medium intensity light; and L, low-intensity light). (B and C) Demonstration of a prototype wearable device powering a small display (B) when exposed to low UV intensity (200...
(right). This difference was abolished when UV cones were ablated (bottom). Mann-WhitneyUtest, UV versus yellow light in wild-type (WT) fish: p < 0.01; WT versus UV killing under UV light: p < 0.001; UV versus yellow light in UV killing fish: p > 0.05; n = 12 each for WT ...