E symbol
Unit of measure: Lux (lx)

Illuminance (usually “E” in formulas) indicates the amount of luminous flux from a light source falling on a given surface. It is the quotient of the luminous flux divided by the area of the surface. Because illuminance is relatively easy to measure or calculate, it is frequently used in planning. Illuminance does not provide clear conclusions about subjective brightness.

Indicates luminaires that are suitable for mounting to normally combustible surfaces.

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The CE marking signifies that the product conforms to all the essential requirements of all relevant EU directives. It is applied to the luminaire, packaging or accompanying documents by the manufacturer or importer. It is not the mark of any particular approval or testing institute.

- EU directive on electromagnetic compatibility, according to which products since 01.01.96 that fall within its scope are required to have a CE mark.

- EU low voltage directive, according to which products since 01.01.97 that fall within its scope are required to have a CE mark.

The ENEC mark (European Norms Electrical Certification) is a European approval and certification marking for lighting fixtures and electrical components used in fixtures. It certifies that a product complies to current applicable European codes and signifies that inspection by the respective testing institute has taken place. The ENEC marking appears together with the identification number of the national testing institute and is often displayed with the institute’s logo.

Isolux plots are graphic representations of the distribution of illuminance on a given surface. The isolux lines depict curves of equal illuminance and can be used as parameters for rough planning. Each Isolux plot corresponds to a luminaire’s respective location and light spot height (or mounting height). We use our DiaLux lighting calculation programme for precise planning.

Symbol: L
Unit of measure: Candelas per square metre (cd/m²)

Luminance (usually “L” in formulas) is the amount of visible light leaving a point on a surface in a given direction. This "surface" can be a physical surface or an imaginary plane, and the light leaving the surface can be due to reflection, transmission, and/or emission. Luminance describes the impression of brightness the viewer experiences. The relationship between luminance and brightness is non-linear and very complex.

Colour temperature is a relatively good way of defining light colour. We distinguish between three main groups: warm white < 3300 K; neutral white 3300 - 5000 K; daylight > 5000 K. It is, however, important to note that due to the spectral composition of light, light sources of the same colour can vary widely in the colour rendering of light emitted.

Symbol: I
Unit of measure: Candela (cd)

The luminous intensity (usually “I” in formulas) describes the luminous flux emitted by a light proportionate to a solid angle source in a particular direction. The spatial distribution of the luminous intensity is graphically depicted in luminous intensity distribution curves.

A luminaire’s constructional features and design determine the spatial distribution of the luminous intensity. The spatial distribution of the luminous flux is graphically depicted in a luminous intensity distribution curve, which is usually expressed in a polar coordinate diagram. For rotationally symmetrical light sources, the luminous intensity distribution can be shown by a single curve, whereas two or more curves are required for axially symmetrical light sources, e.g. the C o and C 180 planes parallel to the street axis or the C 90 and C 270 planes perpendicular to the street axis.

Unit of measure: Lumen (lm)

Luminous flux describes the total photometrically weighted radiant flux (power) emitted by a light source. It is evaluated according to the spectral sensitivity of the eye. Oversimplified, you could refer to luminous flux as “light output”. The rated luminous flux for light sources is indicated by the manufacturer. Luminous flux does not contain information concerning the spatial distribution of the emitted light.

Luminaires are classified in three categories depending on the protection they provide against excessively high touch voltage:

Protection rating I
The luminaires in this class have basic electrical insulation and all of their potentially electrically conductive parts are connected to a protective conductor. The protective conductor terminal displays this marking.

Protection rating II
Live parts are fitted with additional insulation. Connection to a protective conductor is not permitted.

Protection rating III
Protection against electrical shock is based on use of safety extra low voltage (SELV).

Ingress protection IPx1
Luminaires displaying this symbol are protected against ingression of dripping water.

Ingress protection IPx3
Protection against spray water (e.g. rain).

Ingress protection IPx4
Symbol for spray water protection.

Ingress protection IP5x
Dustproof luminaires.

Ingress protection IP54
Dust and spray proof luminaires.

Ingress protection IP55
Luminaires that are protected against dust and directed water.

Ingress protection IP65
Dust and jet-proof luminaires.

Minimum distance to the illuminated surface.

Nominal wire and cable temperature.

High pressure sodium lamp requires an external ignitor for operation.

High pressure sodium lamp requires an internal ignitor.