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Table 1. Lamp parameters supplied by the European Lamp Companies Federation

  Φ [lm] 2. envelope UV filter Xenon filing IR coating voltage Tc CRI
*) standard glass (bulb or tube) filters UV, 1) separate ballast, 2) integrated ballast
Tubular Fluorescent, 4000K, 80W, 16mm 7000 no *) n/a no 230V 1) 4000K 80
Tubular Fluorescent, 8000K, 80W, 16mm 6400 no *) n/a no 230V 1) 8000K 80
CFLi, 2700K, 11W, without envelope 650 no *) n/a no 230V 2) 2700K 80
CFLi, 2700K, 11W, with envelope 630 yes *) n/a no 230V 2) 2700K 80
LED reflector lamp MR16 retrofit, 3000K n/a front glass n/a n/a no 12V 2) 3000K 80
LED high power single 1W, 1mm x1mm NEW 100 no n/a n/a no n/a 6000K 80
LED incandescent retrofit diffuse bulb 810 yes n/a n/a no 230V 2) 2700K 80
Halogen HV 230V, 42W, ECO with outer bulb 630 yes *) yes no 230V 2800K 100
Halogen HV 230V, R7s, 230W, without UV filter 5000 no no yes no 230V 2950K 100
Halogen LV 12V, 50W, V reduced without refl. 900 no yes no no 12V 3000K 100
Halogen LV 12V, 50W, 12V, MR16 dichroic refl. n/a front glass yes no no 12V 3000K 100
Halogen LV 12V, 35W, ECO with IR coating 860 no yes yes yes 12V 2950K 100
Metal halide discharge, 70W, 830 NEW 7300 no yes n/a no 230V 1 3000K 80
Metal halide discahrge, 70W, 942 NEW 6800 no yes n/a no 230V 1 4200K 90
High pressure sodium, 70W NEW 6600 no yes n/a no 230V 1 n/a n/a
Incandescent, 60W, 230V, clear 710 no *) n/a no 230V 2700K 100

 

Source: SCENIHR, Health effects of artificial light, 19 March 2012,
 3.1. Introduction and scope, 3.2 Methodology, and 3.3 Physical characteristics of artificial light sources, pp. 15-22.

Related publication:
Artificial Light homeHealth Effects of Artificial Light
Other Figures & Tables on this publication:

Figure 1. Electrical lighting sources technologies

Figure 2. Wavelength regions in optical radiation

Figure 3. Chromophores and their absorption bands (adapted from Jagger 1967)

Figure 4a. Interaction of UV radiation with the human eye at all ages (adapted from Sliney 2002).

Figure 4b. Specificity of optical radiation interaction with the eye of children below 9 years of age (adapted from Sliney 2002).

Figure 4c. Optical radiation interaction with the young human eye (10 years old up to young adulthood) (adapted from Sliney 2002)

Figure 4d. Optical radiation interaction with the eye of an aging human (adapted from Sliney 2002)

Figure 5. Light penetration in the skin

Table 1. Lamp parameters supplied by the European Lamp Companies Federation

Table 2. Overview of the classes of photodamage to the retina

Table 3. Interaction of light with eye tissues and chromophores

Table 4. "Light related" skin diseases

Table 5. Wavelength dependency in photosensitive diseases

Table 6. Examples of exposure situations from artificial light for the general population

Table 7. Percent increase in SCC incidence and risk at 80 years of age due to certain added UV doses

Table 8. Estimates of SCC risk

BOX I: Metrics of optical radiation and (bio-)effectiveness

Figure 6. shows the typical adverse effects of light on eye tissues as a function of wavelength.

Figure 7. Production of reactive oxygen species (ROS) by rod photoreceptors exposed to blue light in vitro (adapted from Yang et al. 2003)

Figure 8. Photosynthesis of vitamin D3 and further metabolism (adapted from Dutch Cancer Society 2010)