IDR300-PSL Photobiological Safety Spectroradiometer
Ordering information
IDR300-PSL_0001 | IDR300-PSL Photobiological Safety Spectroradiometer (200-3000nm) |
IDR300-PSL_0002 | IDR300-PSL Photobiological Safety Spectroradiometer (200-1400nm) |
IDR300-PSL_ALIGN | Motorised entrance optic XYZ alignment tool |
Software Control
Measurements with the IDR300-PSL are fully-automated using the BenWin+ spectral acquisition software whilst guidance and reporting is provided by the PSL Wizard. Key features include:
Automatic rough positioning with overview camera
The TEL310 is available with a positioning camera with which you can trivially position the PSL-ALIGN stages to align your sample to the telescope. The image has an indicator to show what positions the stage can move to, and you can click on the image to reposition the stages. There are also buttons to move to the current peak, either in a single movement or iteratively.
Automatic fine positioning with telescope camera
An image is produced inside the telescope on the aperature that selects the field of view for the monochromator measurement. This image can be inspected with a camera inside for complete understanding of what light passes through the telescope. By selecting no aperture, the stages can be fine-tuned to optimise the alignment, again by clicking on the desired spot on the image, or automatically.
Precise selection of target area
Combining these methods, it is quick, simple, and clear which light passes through the telescope. In this image, a 5 mrad aperture was selected.
PSL-ALIGN Demo Video
The above process can be viewed here:
Easy system calibration
Quick and accurate luminaire blue light hazard measurement
Pass measurement results to PSL Wizard for calculation and reporting
Background Information
- International commission on non‐ionizing radiation protection publication: "ICNIRP guidelines on limits of exposure to incoherent visible and infrared radiation", published in: Health Physics 105(1):74-96; 2013
- International commission on non‐ionizing radiation protection publication: "ICNIRP statement on protection of workers against ultraviolet radiation", published in: Health Physics 99(1):66‐87; 2010
- International commission on non‐ionizing radiation protection publication: "ICNIRP guidelines on limits of exposure to ultraviolet radiation of wavelengths between 180nm and 400nm (incoherent optical radiation)", published in: Health Physics 87(2):171-186; 2004
- Scientific Committee on Emerging and Newly Identified Health Risks SCENIHR Health Effects of Artificial Light
- LEDs Magazine, 2011, "LED-based products must meet photobiological safety standards: part 1"
- LEDs Magazine, 2011, "LED-based products must meet photobiological safety standards: part 2"
- LEDs Magazine, 2012, "LED-based products must meet photobiological safety standards: part 3"