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HortiCultural Lighting
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Its own “recipe” of light to each grower!

The future is in the modern technologies! Optimization of the crops cultivation process using LED supplementary lighting is an opportunity to cultivate without any yield loss. Personal product development for every separate project guarantees the fast growth, more output yield and top-quality cultivation of plants.

Every business is unique in its own way and calls for an approach different from other. There is no a single «recipe» for all crops. Every crops needs a specially developed solution. We know that. That's why our work is put up this way:

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  • imageDetermination of your objectives
  • imageCreation of the spectrum of light for your crops
  • imagePreparation of the project for your object
  • imagePrecise computation and budgeting
  • imageSigning of the contract, supply and installation
  • imageInterim efficiency analysis
  • imageContinuous support for our part
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Every business is unique in its own way and calls for an approach different from other. There is no a single «recipe» for all crops. Every crops needs a specially developed solution. We know that. That's why our work is put up this way:

image
  • imageDetermination of your objectives
  • imageCreation of the spectrum of light for your crops
  • imagePreparation of the project for your object
  • imagePrecise computation and budgeting
  • imageSigning of the contract, supply and installation
  • imageInterim efficiency analysis
  • imageContinuous support for our part
LED Light
Degree of IP 65 Protection
LEDs OSRAM Opto Semiconductors
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FH 60 Toplighting
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FH 40 Interlighting
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Name Power, W Instead HPS Power, W Photon Flux, µmol/s Length, mm Net weight, kg Type of allocation
FH 60 240W 240 400 600 1740 3.5 toplighting
FH 40 480W 480 1000 1200 3540 7.0
FH 40 82W 82 - 200 1750 3.5 interlighting
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Photon intensity distribution curve
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Comparison of HPS & LED supplementary lighting
The spectral distribution of photons
(LED supplementary lighting)
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The spectral distribution of photons
(High pressure sodium lamps)
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Clorophyll a and b are in charge of photosynthesis and determine the spectrum of the photosynthetic active radiation (PAR). Carotinoids is a group of photosynthetic pigments which are referred to as antenna pigments: - carotene, zeaxanthin, lycopene, lutein and etc. Phytochrome Pr (absorbs red light) and Pfr (absorbs far-red light) influence in general the intergrowth, growth of the plant, leafing and blooming. We can control photomorphogenetic effects by exciting phytochroms Pr and Pfr using light with a definite mixture of spectral components (wave-lengths are 660 and 730 nm).

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Use of HPS (high pressure sodium lamps)
Luminous efficiency is more than 100 lm/Wt but in the broad range of wave-lengths.
Their typical durability is 8000 h
Time for total capacity is several minutes
Cannot be placed near to plants
They shall be specially disposed
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Use of LED lamps
They need half less energy than HPS
Spectrum is ideal for the photosynthesis There is no strong thermal emission. They can be placed closer to the plant.
They shall not be specially disposed
Warranty period is 5 years instead of 2 years (HPS)