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8 choices to a cost-effective LED grow light, part 2


Smart design #5: Tempered glass with optical quality

The most important thing for growers is providing the most optimal and uniform light for their crop. To achieve that, you have to make smart choices in the material you use for the glass in front of the LEDs and the lens in the LED grow light. A key design choice that determines the clarity and color accuracy of the LED lamp is the type of glass we mount on it. We use tempered glass, which is much stronger than normal glass. This glass is also optical quality, meaning there is no lead in the glass, so it has no green tint, which could possibly change the color spectrum applied to the crop. The optical quality of our glass has just 3% loss in light transmission. The result is higher clarity, meaning less light loss, and higher color accuracy of the LED lighting output.

Smart design #6: The correct lens for uniform light distribution and light output over time

The lens is made from a special optical polycarbonate plastic which provides special optical qualities. In the past we used lenses based on a gel. However, over time this gel causes the lenses to turn yellow and eventually reduces the light output. With Risen green LED toplighting compact, we use a polycarbonate lens that holds up longer to extreme temperatures and is resistant to yellowing. The lens is mounted on 18 springs to ensure that it remains stationery even when the product heats up. We do this to guarantee the performance of the product at high temperatures.

How do we know this works? We have tested the additives that we put in the polycarbonate material for thousands of hours under high dose ultraviolet light. These tests confirm that the lens does not turn yellow. We leveraged knowledge from Signify research when choosing this material.

Optimized thermal resistance for very high light output, consistently over time

Smart design 7: Longlasting light performance

There are different types of LED lighting lenses available that provide the optimal light distribution for the height of your greenhouse and crop. Because there are many different shapes and sizes of greenhouses and crops, we calculate a certain buffer in our lighting plans to guarantee that our modules will provide sufficient light output and uniformity. That means our published specifications are always on the conservative side. So you can be sure that what you read on the box will definitely be what you experience in practice.

In general, the actual light performance that growers achieve with Risen green LED toplighting compact is better than the published specifications. We have been testing its light output in reference products in the field since we first introduced it and the results confirm that the product emits the correct light output as specified and even more based on numerous long-term measurements in customer installations.

Customer Crop
# of hour
Porta Nova Roses 15.000 98.7%
Wimceco Roses 13.500 101.5%
Valstar Pot roses 10.000 100%
Darolin  Chrysanthemum 5.500 99.1%
De Vreede Phaleanopsis 20.000 98.8%
Wim Peters Kwekerijen Tomatoes 7.000 99.5%

Results from field measurements at 6 different customers show that our LED modules perform according to their promised lifetime claims.

Smart design #8: What specifications are important when choosing an LED grow light?

Both ‘initial’ and ‘over time’ performance data have to be evaluated in order to have confidence in how LED grow lights will perform throughout their lifetime. Initial performance can be measured, but it is important to be aware that over time performance is a prediction based on extrapolated data. The lifetime of an LED grow light is always related to photon flux depreciation, but the technical design choices also make a tremendous difference in how it performs over its lifetime. For more information on this topic, read our blog on How to evaluate the credibility of LED grow light performance claims.

Some manufacturers give specifications for an individual LED lamp instead of a complete LED grow light. We always provide specifications for the complete LED module, called Wall Plug Efficacy (WPE), because how it is designed and manages heat, determines your actual light output and lifetime. An individual LED lamp, for example, might give off 4 µmol/J on its own, but when it is placed in a lighting module the light output of the entire module could be 3.6µmol/J. To optimize heat management in the design of our lighting modules, we place thermally conductive paste between the LED and the aluminum heat sink. This guarantees that the module will provide consistent performance over its lifetime.

To be sure you are reading a specification for the entire LED module, you should look for information about the method used to measure the LED fixture. To ensure standardized specifications, we always measure our LED modules in an official certified laboratory according to the LM-79-80 standards for luminaires. When comparing LED grow light products, you should always ask for the official report provided by the official certified measurement laboratories to ensure that you are comparing the specifications correctly.

Quality above everything

When developing a new product, we’re always looking at design aspects that can help make a grower’s business smarter, more efficient and more productive. This commitment to quality has made Risen LED lighting products the preferred choice for growers in over 43 countries because of the unrivalled quality and performance they deliver. With Risen green LED toplighting compact, you can rely on a proven product resulting from 15 years of experience and learnings in LED for horticulture applications. It helps you improve the quality and yield of your crops for a very long period of time to increase your return on investment.