SEMITA

An aesthetical and glare-free bollard which creates a soft yet direct illumination in your application

Description

he SEMITA is an aesthetical and glare-free bollard which creates a soft yet direct illumination in your application, providing an effective lighting solution for urban spaces, such as pedestrian areas, parks, walkways, car parks and bike paths.

The SEMITA bollard is a robust luminaire and consists of a head assembly and a pole base assembly, available either in aluminium or corrosion-free glass filament wound GRP pole.

Various colour combinations are possible to enable you to create a truly unique design for your application.

The decorative wall-mount version offers a matching bulkhead option to further enhance your environment.

Bring your urban environment to life and create a visual path with the SEMITA.

Superior visual comfort

The SEMITA has a highly efficient LED light source and limited spill light is emitted in upward direction.

Head sealed from pole base

The head is marine grade high-pressure die-cast aluminium head (EN 1706 AC-44300), sealed unit with IP 66 rated gear and optical compartment.

Easy and fast installation

The SEMITA is designed to have access to the gear compartment.

Optional Extras
  • 10kV/10kA 
  • Corrosion resistant GRP pole
  • Various colour combinations

Characteristics

General Information

Electrical information

Electrical class

Performance

Power consumption (W)
21.0
Luminaire efficacy - up to (lm/W)
144
Nominal Flux: 3020

Optical information

LED colour temperature
Colour rendering index (CRI)
≥80

Housing and finish

Protector
Polycarbonate
Finish
Brilliant finish (GRP Pole)
Textured finish (Aluminium Pole)
Tightness level
Impact resistance

Lifetime

All configurations

Operating conditions

Operating temperature range (Ta)
-20°C up to +45°C
SEMITA

Dimensions and mounting

AxBxC (mm | inch)
915x600x165
Weight (kg | lbs)
Buried version - GRP pole: 9
Surface mount version - aluminium pole: 6.8
Mounting possibilities
Surface mounting

Control systems