null
Why you Need to Use a UV Intensity Meter

Why you Need to Use a UV Intensity Meter

What is UV Radiation?

The energy from the sun moves in wave-like patterns with varying frequencies and lengths. Thus, the highest frequency and shortest wavelength energy from the sun that reaches the planet is in the form of UV (Ultraviolet) and gamma rays.

In other words, UV is a kind of electromagnetic radiation that has a shorter wavelength than visible light but a longer wavelength than X-rays. However, it is still commonly referred to as "light." 

The length of all electromagnetic waves is measured in meters, but the wavelength of certain waves, such as ultraviolet light, is so short that it is measured in nanometers (nm).

A portion of the electromagnetic spectrum, ranging from 100 to 400 nm, contains ultraviolet (UV) light. UV-A (315 to 400 nm), UV-B (280 to 315 nm), and UV-C (100 to 280 nm) are the three wavelength ranges that make up this spectrum.

The Earth's atmosphere absorbs most of the sun's UV-B and UV-C wavelengths. Additionally, numerous artificial UV light sources produce UV radiation in a broad spectrum or within a specific wavelength range. Most sunlight-measuring UV sensors are sensitive to UV radiation in the UV-A and UV-B ranges.

Ultraviolet or UV light, invisible to the human eye, is a type of radiation that can either be harmful or useful, depending on its use and concentration.

People who spend time outdoors can additionally benefit from using a UV intensity meter. These straightforward meters enable users to determine the UV radiation level and the potential need for protection. UV lamps, arc welding, and mercury vapor lamps are artificial or artificial ultraviolet sources.

With the highest quality UV meter available in our website, you're sure to find what you're looking for.

What is UV Intensity Meter?

The terms radiometer, optometer, and light meter are frequently used to describe UV intensity meters. It is a device that can measure the precise (calibrated) quantity of light power present within a specific range of wavelengths in the electromagnetic spectrum.

A UV intensity meter is often a compact, portable device that receives sensor data and generates a digital reading. The meter receives an incoming signal and transforms it into a reading of the amount of light in the relevant units, such as lux, foot candles, watts, watts per square centimeter, etc.

What is The Working Principle Of a UV Meter?

A silicon or selenium photocell and a microampere meter make up a typical UV intensity meter.

A stable photovoltaic sensor that converts light energy directly into electrical energy is a photovoltaic cell.

Also, there is a UV pass filter which blocks visible and infrared radiation. When light hits the sensor surface, it travels through the metal film and reaches the semiconductor selenium layer and metal film contact, where it produces a photoelectric effect. 

The generated potential difference's size is inversely proportional to the illumination of the photocell's light-receiving surface. Following the reading of the voltage value, the CPU computes the UV ray's irradiance based on a predetermined ratio and shows the results on the screen. 

The produced electrical signals from UV intensity meters can also be sent to an analog-to-digital converter (ADC), and then to a computer with software for producing graphs and reports.

What Is a UV Intensity Meter?

A UV intensity meter is a device that measures the amount of ultraviolet light to determine and test its intensity. It is frequently employed in detecting and maintaining a wide range of equipment. The UV Intensity Meter uses the photoelectric conversion concept as its basis for measurement.

What is The Unit of UV?

UV light intensity appears on the display screen in the units of milliwatts per square centimeter (mW/cm2). It is energy per square centimeter received per second.

Also, it is expressed in millijoules per square centimeter (mJ/cm2), which represents the amount of energy received per unit area at a particular time.

Other UV light measurement units include µW, μW/cm², W/m², or W/cm². The amount of UV should be as little as possible and generally not above 20µW/M².

Applications

  • Measure harmful UV light in the environment and museums
  • UV-related studies in the pharmaceutical, cosmetic, semiconductor fabrication, printing, window tinting,
  • Test UV sterilization and dermatology lights in hospitals
  • Outdoor activities and indoor medical testing, laboratory/research, industrial education, electrophoresis, forensics/criminology, chromatography applications
  • Measure UV filtering capacity of greenhouse shades and glass barriers
  • NDT inspections, UV EPROM eraser / curing sources
  • Monitoring blue light radiation hazards in the welding process
  • Photochemical matching
  • General laboratory use
  • DNA research
  • Industrial process monitoring
  • Sunlight UV intensity to prevent skin damage,
  • Offset printing,
  • Fluorescent penetrant testing and fluorescent magnetic particle inspections for non-destructive testing
  • Spectrometry
  • Commercial lighting
  • Clinics using Steri-lamps

Features

  • Compact design, handheld and Convenient
  • Long service life
  • Huge Operating Range
  • Excellent Resolution
  • Digital Technology
  • Durable, simple to use
  • Provide High and Low measurements
  • Accurate and repeatable readings
  • Ideal for measurement in a range of conditions and environment
  • Long battery life
  • UV-LED measuring head
  • Precise quantitative measurements
  • Provide reliable measurement with high repeatability
  • Measure UV filtering of various materials
  • The test UV stability of products
  • Measure the UV radiation in hard-to-reach places
  • Rugged, easy to operate

Can I Measure UV With My Phone?

Even if it is not mainly sunny or warm outside, exposure to high amounts of ultraviolet (UV) light can harm your health. You can take measures to safeguard your skin from the sun and reduce your exposure to ultraviolet light.

Monitoring the UV index scale is the first step in measuring UV exposure. The Ultraviolet (UV) Index uses a scale ranging from 1 to 11+ to forecast the levels of ultraviolet light. It is a daily indicator that predicts ultraviolet (UV) radiation levels.

New applications for smartphones have the potential to make accurate forecasts across the entire region, depending on the UV index. UV light meter apps predict the times of day during which it is most hazardous to be outside. The apps give real-time measurements or trigger an alarm when a specific measurement is achieved.

Questions

Do All UV Light Meters Work The Same?

UV meters do not employ the same working principle to detect intensity and energy. Adhering to a strict standard is essential to taking precise and repeatable measurements.

How Do you Calibrate a UV intensity meter?

UV lamp calibration and testing involve:

Use the menu item "Options" to launch the UV Calibration Wizard. Select Calibrate UV Intensity on the subsequent page to modify the power fed to the UV lamps and bring the UV radiation levels within the safe range.

The following articles on our website may be of interest to you:

A Full Guide to Photoelectric Sensor [Working Principle, All Types Explained, Terminology, Pros And Cons, Applications]

Laser Sensor [Working Principle, Types, Features, Applications]

29th Aug 2022

Recent Posts