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More micromoles for less $$

It's all about Better Grass at Lower Cost 
Yes of course the first things what count are your grass growth, the grass roots, your health of your grass, your balance between biomass and growth, your grass sugar levels…
The only influence a LED grow light can make on that is presenting you the right light spectrum, the correct amount of micromoles per second per square meter and a good light distribution over your canopy.
But let’s not forget one of the most important reasons why you might want to implement LED grow lights on your grass. It is because these can save you a tremendous amount of money on energy saving compared to HPS SON-T lamps.

So why is it that one LED grow lamp gives you 1.8µmol/J (micromoles per Joule or per Watt per second), while another one gives you 3µmol/J and others 3.5µmol/J?
It is easy to claim that your LED grow light is going to be more energy efficient compared to classic technology bulbs like HPS or Metal Halide, but how do you make the difference when you compare LED to LED?

Horti LED emitter & LED COB technology

First of all you have to understand that not every LED is the same. A lot of common used LED emitters in grow lights are actually white light LED packages and are developed to produce a maximum of lumens per watt.

These LED packages start inside from a blue LED die and convert the blue color to the green and yellow middle spectrum by using yellow and red phosphor.
The amount of blue light what remains depends on the amount and mix of both phosphors. The more phosphor and the more red phosphor, the more the LED package tends to lean to what we know as “warm white light”.
A high CCT (Correlated Color Temperature) value like 5000K means less phosphor so more blue, why low CCT values like 2700K means more phosphor and less remaining blue light.
In many advised grow spectra you can detect the curves as above in the 400nm to 650nm bandwidth so they use a lot of these blue phosphor corrected LED emitters.

What you have to keep in mind is that this conversion technology is not optimal for plant spectra efficacy as you will learn below, resulting in lower µmol/J values so less micromoles per kW.

LED grow lights using many of these white LED emitters turn up with final efficacies of 1.8µmol/J to 2.1µmol/J while market leading efficacies tend towards 3.5µmol/J which means you get (compared to a 2.1µmol/J luminaire) 66% more effective micromoles for the same energy consumption.

Also white COB (Chip-On-Board) LED engines use this blue emitter phosphor conversion as base technology, resulting in similar final efficacies. The CCT values of a COB can be 1/1 compared with these of single LED packages.
A typical look of a COB – starting from internal blue LED dies with phosphor cover to convert to green and yellow.
Nevertheless we have to be careful with making statements about COB technology for horticulture, as there are recently new technology developments from leading companies like Seoul Semiconductor, which start of from purple LED dies and convert with blue, green and red phosphor to create an extremely wide spectrum from a single COB.

So when you look for something what mimics the sun this is for sure a technology to keep a close eye on.

Still when you look at efficacy as leading driver this technology can’t (yet) be compared with direct wavelength emitters as explained further below.
Seoul Semiconductor Sunlike – new technology to achieve ultra-wide spectrum from single COB.
Specific horti LED emitters which directly focus on the wavelengths which give maximal return on Chlorophyll A & B, Carotenoids and Phytochrome Pr & Pfr impact, are able to create up to 80% more micromoles for the same amount of energy.

Below illustration from Osram Opto Semiconductor shows how a single LED emitter can focus exactly on that wavelength with the highest plant light response.

Therefore we are focusing in horticulture lighting 
at the 450nm, 660nm and 730nm LEDs.

Osram Opto Semiconductor leads at the moment of publication over all competitors in µmol/J efficacy with their Osram Oslon Square LED emitters mainly in the deep blue 450nm, hyper red 660nm and far red 730nm direct toned LED packages. 

In the 660nm package at nominal drive current 350mA the efficacy goes as high as 3.91µmol/J what is nearly double from white leds.
Never the less the high efficacy you can get with this type of LED packages, you also have to take the driving current into account – the higher the driving current, the lower the efficacy gets.

So as a LED grow light designer you have to make the trade-off between maximal micromole to power efficacy by using a much higher number of LED packages (which are fairly expensive) or finding the sweet spot where price to micromole is at its highest point of return on investment.
Osram Oslon LED efficiency


As seen above the efficacy of LED grow lights developed with emitters focusing directly on the exact wavelengths are easily outperforming other LED grow lights with over 60%.

As you don’t want more micromoles over your canopy, this 60% is pure gain on your electricity bill, from one LED grow light solution compared to the other one…
Second, feed your grass the exact supplement of light what it needs. This is the same as you do with enriching your soil with the correct fertilizers. It is useless to apply a broad spectrum of everything while every of these micromoles cost you money, when you don’t need that amount of energy at that wavelength.
This probably saves you another 20-30% on energy to growth conversion.

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Would you like to get a healthier turf pitch? Generate grass growth all year round? Increase game quality and reduce injuries? 

We help you to realize your goals based on data monitoring and state of the art LED technology. With our different approach, we offer to be your strong partner offering a broad range of solutions to create better grass at lower cost.

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