GY-VEML6070 VEML6070 UV Sensitivity Detection Light Sensor for Arduino I2C
£26.90
GY-VEML6070 VEML6070 UV Sensitivity Detection Light Sensor for Arduino I2C
Descritpion:
VEML6070 is an advanced ultraviolet (UV) light sensor with I2C protocol interface and designed by the CMOS process.It is easily operated via a simple I2C command. The active acknowledge (ACK) feature with threshold windows setting allows the UV sensor to send out a UVI alert message.Under a strong solar UVI condition, the smart ACK signalcan be easily implemented by the software programming.
VEML6070 incorporates a photodiode, amplifiers, and analog/digital circuits into a single chip.VEML6070's adoption of FiltronTM UV technology provides the best spectral sensitivity to cover UV spectrum sensing.
It has an excellent temperature compensation and a robust refresh rate setting that does not use an external RC low pass filter.
VEML6070 has linear sensitivity to solar UV light and is easily adjusted by an external resistor. Software shutdown mode is provided, which reduces power consumption to be less than 1uA. VEML6070's operating voltage ranges from 2.7V to 5.5V.
Feature:
1. Package type: surface mount
2. Dimensions (L x W x H in mm): 2.35 x 1.8 x 1.0
3. Integrated modules: ultraviolet sensor (UV), and signal conditioning IC
4. Converts solar UV light intensity to digital data
5. Excellent UV sensitivity and linearity via FiltronTM technology
6. Excellent performance of UV radiation measurement under long time solar UV exposure
7. Excellent temperature compensation
8. High dynamic detection resolution
9. Standard I2C protocol interface
10. Support acknowledge feature (ACK)
11. Immunity on fluorescent light flicker software shutdown mode control
12. Package: OPLGA
13. Temperature compensation: -40℃ to +85℃
14. Floor life: 168 h, MSL 3, according to J-STD-020
15. Output type: I2C bus
16. Operation voltage: 2.7V to 5.5V
Package Included:
1 × VEML6070 UV Sensitivity Detection Light Sensor
Raspberry Pi is a Trademark of the Raspberry Pi Foundation
Product ID: EP00466