A UV Meter is an essential tool used to measure the intensity and effectiveness of UV light in various applications. These devices are critical for ensuring proper UV exposure in industries like healthcare, printing, and material processing where precise UV light management is necessary.
Utilized in numerous fields to monitor UV light to ensure safety and efficacy. They are commonly used in laboratories for research purposes, in tanning salons to monitor UV exposure, and in the manufacturing sector to check the curing process in coatings and adhesives.
Utilized in numerous fields to monitor UV light to ensure safety and efficacy. They are commonly used in laboratories for research purposes, in tanning salons to monitor UV exposure, and in the manufacturing sector to check the curing process in coatings and adhesives.
UV Meter
UV Meter
Technical Data
Display : 6-digit LCD display, 0~999999mJ/cm2
Measuring range: 0-5000mW/cm²
Dimensions: 80W*145L*12T(mm)
Weight: 500g
Operating temperature: 0-50℃
Measuring spectral range: 250-410Nm
Casing: Aluminum chrome with stainless steel cover.
The visible light is only a small part of the electromagnetic radiation, the short-wave still visible light appears to us to be violet. When the wave-lengths are even shorter then we cannot see the radiation anymore, we are then within the range of the ultraviolet radiation approx. 254-380Nm. There are different UV rays: UV-A 318-380Nm UV-B 280-315Nm UV-C 254-280Nm
UV-Integrator I is intended for measuring the UV capacity of exposure installations. A measuring head is located at the area of the unit records UV emission in the spectrum range between 250~410Nm. The measurement can be ready directly on the LCD in mJ/cm², the I type is operated with a 3.6V lithium battery located inside the unit. By using special energy-saving circuits the battery will last for approx. 10000 hours and special filter glasses absorb the visible as well as the infrared range of emission s that measuring is only done in the spectral range required.
Selecting the right
Spectral Range: Ensure the meter covers the specific UV spectrum required for your application.
Accuracy: Choose a meter known for reliable and precise measurements.
Durability: Consider the operating environment and select a meter that can withstand the conditions, whether it’s a high-intensity industrial setting or outdoor use.
Q: How often should be calibrated?
A: Calibration frequency depends on usage, but generally, it is recommended to calibrate your product annually or after any potential damage.
Q: Are there different types for different UV sources?
A: Yes, different meters are optimized for specific types of UV sources, such as UV-A, UV-B, or UV-C, depending on the intended application.
The market for Rapidly evolving with advances in technology leading to more compact, user-friendly, and accurate devices. Recent developments include the integration of digital interfaces and connectivity features that allow for easier data logging and analysis.
The manufacturing of products involves precision engineering and the use of high-quality optical components to ensure accurate and reliable performance. Manufacturers and suppliers focus on incorporating advanced technologies that improve the functionality and user experience of their devices.
UV Meter
involves understanding several important factors:Spectral Range: Ensure the meter covers the specific UV spectrum required for your application.
Accuracy: Choose a meter known for reliable and precise measurements.
Durability: Consider the operating environment and select a meter that can withstand the conditions, whether it’s a high-intensity industrial setting or outdoor use.
Q: How often should be calibrated?
A: Calibration frequency depends on usage, but generally, it is recommended to calibrate your product annually or after any potential damage.
Q: Are there different types for different UV sources?
A: Yes, different meters are optimized for specific types of UV sources, such as UV-A, UV-B, or UV-C, depending on the intended application.
The market for Rapidly evolving with advances in technology leading to more compact, user-friendly, and accurate devices. Recent developments include the integration of digital interfaces and connectivity features that allow for easier data logging and analysis.
The manufacturing of products involves precision engineering and the use of high-quality optical components to ensure accurate and reliable performance. Manufacturers and suppliers focus on incorporating advanced technologies that improve the functionality and user experience of their devices.