Toplighting fixture (long)
- Extra Low-Profile Housing Ideal for low ceilings
- Venturi effect For optimal cooling
- High Output Up to 1500 µmol/s
- IP65 Waterproof Protected against water jets from any direction
DLI Toplighting fixtures are designed to deliver high levels of photosynthetic photon flux (PPF) values with optimal angled vertical light uniformity. The unique design of the lens creates a high uniform light distribution over the canopy.
The fixtures are constructed in a slim water-proof design and suspended above the plant canopy with the easy-hang system.
Weight & Dimensions:
990 x 232 x 85 mm
39 x 9.1 x 3.4 INCH
8 kg / 17.6 lbs
INPUT VOLTAGE: 220 ~ 400V
INPUT VOLTAGE RANGE: ± 10%
RATED POWER: See product label
Time for Improvement
For Decades growers have settled for lighting options that are not 100% tailored for their use and crop. Grow light manufacturers are always trying to appease the mass populations of growers, rather than honing in on exactly what they need for optimal performance, yields, and most important quality.
The engineering principles behind the DLI Toplighting Fixtures are a culmination of over a decade of research and development. The team works with a ranging group of some of the best horticulturists around the globe; each who specialise in plant and varietal specific production processes for the ornamental, and commercial flower market. Dutch Lighting Innovations has allowed these groups a new level of consistency, reliability, and quality unparalleled in the niche world of growing the best flowers and plants on Earth!
For a uniform plant a uniform pattern is required
A percentage of harvestable plant height can suffer from lack of light due to dense canopy foliage; which will result in fewer flowers. Because of the unique light distribution the Toplighting system will provide High PAR PPF at an optimized coverage angle making sure the whole plant is activated by light.
Extensive trials have shown bigger leaves and flowers at the lower portions on the plant. The Toplighting fixtures emit very little heat and require no active cooling minimizing leaf burn.