PRODUCT DESCRIPTION
RK200-07 UV Radiation Sensor is a precision instrument used to measure the atmosphere of the sun's ultraviolet radiation (UVA & UVB),supporting the product related information acquisition instrument use can provide public concern: the UV index, UV erythema measurement, on the health effects of the UV and UV special biology and chemistry, highly meteorology, industry, construction, medical attention, are widely used in the exposure caused erythema dose, integrated environment ecological effect, the study of climate change and ultraviolet radiation monitoring and forecast.
• High Precision Measurement:The UV sensor utilizes advanced photodiode technology to deliver precise and reliable measurements of UV radiation levels, ensuring accuracy in data collection and analysis;
• Wide Dynamic Range: With a broad dynamic range, this sensor can capture UV radiation levels across various intensities, from low UV index values to high solar radiation levels, making it suitable for diverse applications.
• Real-Time Monitoring: The sensor provides real-time monitoring of UV radiation levels, allowing users to track changes in UV exposure throughout the day and take necessary precautions to minimize risks associated with excessive UV exposure.
Item | SPECIFICATIONS |
Spectral range | 280~400nm |
Supply | 5V,12-24VDC |
Range | 0-200W/m2, 0-200uW/cm2(only for 0-2V output), 0-15UV index |
Output | 0-2V,4-20mA(2 wires),0-5V,RS485 |
Accuracy | ±5% rdg |
Response time | ≤1s |
Cosine correction | ≤±4%(Solar elevation angle=30°) |
Non-linear | ≤±3% |
Temperature effect | ±0.08%/℃ |
Stability | ≤±2%/year |
Operating Temperature | -40℃-+85℃ |
Ingress Protection | IP65 |
Weight(unpacked) | 150g |
Shell material | Aluminum alloy |
Storage Condition | 10℃-60℃@20%-90%RH |
Copyright © 2019 Hunan Rika Electronic Tech Co.,Ltd | All Rights Reserved
We are here to help you! If you close the chatbox, you will automatically receive a response from us via email. Please be sure to leave your contact details so that we can better assist