Advanced All In One LED chip technology and smart control LED grow light system is the core competitiveness of Feton LED solutions grow lights. It can adapt to various indoor cultivation environment/ plant species and growth stages.
Feton grow light, based on its unique LED technology, intelligent control function and modular design. It can be widely used in different indoor growing environment: Greenhouse, Hydroponic, Grow tent, Vertical Farm, Plant Factory etc.
Lighting is one of the most important factors can affect plant's grow and yield. Different plant varieties has various request for lighting strategy. It includes the recipe/intensity of lighting or photoperiod etc.
Grow light for plants of Feton Ultra Light™ series is the new generation of grow light. Grower can have unlimited light recipe and manage the lighting strategy in plum. Plant lamp light is suitable for various plant plant varieties.
Plant's growth stage normally change as the season change. That's why plant in different growth stages need different lighting time/intenstiy or spectrum. Because sunlight is different as season change.
Feton Ultra Light™ growth light is the four seasons. Full spectrum in each LED chip. At the same time, with smart control APP, easily change spectrum/intensity and timing. It taking good care of each plant's growth stage.
Although seemingly unrelated, UV light disinfection for food and LED grow light share an important characteristic: the use of light technology to improve the quality of products.
In the food industry, UV light disinfection is an effective method to eliminate harmful bacteria and pathogens that can contaminate food products. This technology has been used for decades to sterilize surfaces, equipment, and packaging materials. By using UV light to disinfect food products, the risk of foodborne illness can be significantly reduced, ensuring that consumers are getting safe and healthy products.
On the other hand, LED grow light technology has been increasingly popular in the agriculture industry as a way to optimize plant growth and improve crop yields. By using a specific spectrum of light, LED grow lights can mimic natural sunlight and provide plants with the necessary light energy to thrive. LED grow lights can also be used to manipulate the growth and quality of plants, resulting in higher yields, improved taste, and longer shelf life.
While UV light for food disinfection and LED grow light may seem unrelated, they both demonstrate the power of light technology to improve the quality of products. By harnessing the properties of light, industries can achieve significant improvements in product safety, quality, and productivity.
Why most of people say that normal light can’t grow plant ?
Plants absorb radiation mostly in the 380-700nm, but the normaly light only care about the color tempeture like 6500K/3000K not the spectrum. Although there’s overlapping range, but not the ideal one.
Besides, plants also need light that human can’t see. Like the UVA and far-red. Most importantly, every crop and every growth stage requires an individual light recipe, not only the wavelength, but also the photoperiod and intensity.
When it comes to the question of how far should LED grow lights be from plants,
Why do people always say 30 cm or 45 cm casually? Is this correct?
In fact, every crop and every growth stage requires different “amount of light”, which is measured by DLI (Daily Light Integral).
The relationship between DLI and the well-known instantaneous light intensity PPFD is as follows:
DLI = mol/㎡/day
PPFD = umol/㎡/second
DLI = PPFD x 3600s x lighting hours / 1000000
PPFD = DLI x 1000000/lighting hours/3600s
So to know how far the plant lamp light should be from the plant, you first need to know the DLI required by each growth stage of the target plant and the required light time.
Yes, a plant can not receive light 24 hours a day, it also needs darkness time. The combination of this light duration and night duration is called a photoperiod, and the photoperiod is different for each growth stage of each plant. So when you know the photoperiod, you know how long the plant can only be exposed to.
Then the distance can be calculated:
Assuming that the DLI required by a plant is 45 mol/㎡/day, and the maximum light time per day is only 12 hours, then its PPFD must reach 45*1000000/12/3600=1041.6 umol/㎡/second
In other words, the grow light system must be installed at a distance where the plant canopy can receive 1041.6 PPFD. So the distance is not always the same, it depends on the plant and the intensity of LED grow light.
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