Technical features

High precision measurement:

The SPR5000P system adopts advanced measurement technology and high-precision detectors to ensure the accuracy and reliability of measurement results.

The system offers multiple measurement modes, including continuous and pulsed light measurements, catering to the testing requirements of diverse light sources.

Wide wavelength range:

The testing wavelength range of the system covers multiple bands such as ultraviolet light, visible light, and infrared light, and can comprehensively measure the spectral distribution and radiation intensity of the light source.

The system can automatically adjust the measurement parameters for different wavelength bands of light sources to ensure the accuracy of the measurement results.

Multi-functional testing:

The SPR5000P system can not only measure the spectral distribution and radiation intensity of light sources but also evaluate the potential harm of light radiation to the human body.

The system supports multiple testing projects, including photochemical UV hazards to the skin and eyes, near UV hazards for the eyes, blue light hazards for the retina, thermal hazards for the retina, and infrared radiation hazards for the eyes.

Easy to operate:

The user interface of the system is user-friendly and easy to operate.

It supports data export and report generation functions, facilitating users' data analysis and processing tasks.

High stability:

The SPR5000P system adopts advanced stabilization technology and design to ensure high stability during long-term measurement processes.

The system supports automatic calibration and temperature compensation functions, further improving the accuracy and reliability of measurement results.

Application area:

Lighting product testing: used for measuring the photobiological safety of various lighting products, including pulse LED lamps and pulse fluorescent lamps.

Electronic device testing: used for measuring the photobiological safety of pulsed light sources in electronic devices such as mobile phone screens and computer monitors.

Medical device testing: used for measuring the photobiological safety of pulse light sources used in medical devices, such as laser therapy devices and pulse phototherapy devices.

Other fields: It can also be used to measure and analyze the potential harm of pulsed light sources to human eyes and skin in other fields.