Safety Measurements: R.O.A and Photobiological Effects

The hazardous effect of laser radiation to the human eye and skin is studied for a long time and several standards and by-laws regulate the handling of lasers. Today more and more attention is payed to the effect of incoherent optical radiation on the human body. The reason is the rapid progress in development and manufacturing of new bright light sources, mainly based on LEDs.
The main interactions with regard to hazard impact between optical radiation and the human being are the following:
Photobiological effects of the UV part of spectrum to eyes and skin (Actinic UV and UVA)
Hazardous effect, especially of the blue part of light spectrum to the human eye (BLH)
Thermal effect of radiation to human skin and the retina (skin and retina thermal)
Effect of IR to the human eye (Eye IR)
The European Union issued the directive 2006/ 25/ EC, which defines the obligations for employers to protect the employees against health injuries caused by incoherent optical radiation.
Photobiological Effects

This directive was transferred into national laws.
Additional main documents related to the topic are:
AOR Guide 2006/25/EC (Explanation of the directive)
ANSI/ IESNA RP-27.1 and RP-27.2 (Recommended practice)
IEC 62471 (Photobiological safety of lamps and lamp systems)
IEC 62778 (Application of IEC 62471 for the assessment of blue light hazard to light sources and luminaires)
CIE S007/ ISO 17166 (Erythema Reference Action Spectrum and Standard Erythema Dose)
IEC 62471 is the basic standard for the measurement of photobiological hazard caused by optical radiation. It is currently revised by a JTC of CIE and IEC. Additionally many national and international projects deal with the improvement of standards as well as the simplification and standardization of the measurement procedures. At present, there is still a great deal of confusion about the implementation of measurements for the classification of radiation sources.
The sources are divided into four risk groups:
Excempt group: The source can never cause photobiological damage.
Risk Group 1 (low risk): The source does not pose a hazard due to normal behavioral limitations on exposure.
Risk Group 2 (Moderate Risk): This source does not pose a hazard due to the aversion response to very bright light sources or due to thermal discomfort.
Risk Group 3 (High Risk): The source may pose a hazard even for a brief exposure.
The standards define Exposure Limits (EL) and related conditions. The classification can be done by calculations using radiometric data of the sources. If this is not possible to a sufficient degree or if data are missing, specific measurements must be carried out.
The CIE published a position paper in 2019 stating that light sources of daily use, even if they are equipped with LEDs, cannot lead to photobiological hazards.
Typical light sources for which an assessment of their hazard potential must be made are studio spotlights, UV lighting in technological systems and lighting for image processing.
Legislation

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