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If you are interested in horticulture and you are wondering what equipment you need for growing plants, the quantum board is the first answer to your question since it will make your gardening easier.
Exactly for people who want to grow plants and, at the same time, to keep track of new technologies in gardening, we have designed a list of the best quantum board led grow light.
What Exactly Is a Quantum Board?
In late years, research on light-emitting diodes (LEDs) has revealed their tremendous potential as a lighting device for regulating herb growth, production, and metabolism.
LED growth was first researched in the 1990s by NASA-alienated researchers as part of the planning for the construction of plant-based life-support systems for potential Moon and Mars bases.
Still, only red LEDs were accessible at the time. As a result, it is possible to argue that the real age of LED testing began with the establishment of blue LEDs to the industry.
LED lighting technologies have evolved significantly in terms of physical shapes and architectures, waveband color availability, power consumption per unit of light output, and cost per unit of light output. LED technology is said to evolve by Haitz’s regulation, which was reformulated in 2011.
A considerable number of lighting firms have recently joined the horticultural industry in partnership with plant growers and researchers, resulting in extraordinary developments in both research and industrial uses of LED technologies for plant cultivation.
Horticulture Lighting Group (HLG), a comparatively recent provider of LED grow lights, coined the name “quantum board.” It was a modern form of light that consisted of a broad number of small LEDs connected to a straight board.
A high-powered continual ongoing driver is used to operate the diodes in rows in coordinate setups. There is now a range of boards accessible from a variety of vendors, all with different compositions..
Assets of Quantum Board LED Grow Lights
1. Performance
In the horticultural LED lighting system industry, creating a satisfactory lighting condition for plant growth applications is critical.
Horticulture LED lighting system manufacturers must fit optimal light features for crop growth and production, while also aiming to reduce electricity consumption by electrical efficiency maximization.
LED luminaire performance is measured by multiplying LED kit efficiency by other variables such as current droop, thermal droop, driver inefficiencies, and optical losses. Furthermore, the performance of horticultural lighting systems is dependent on photosynthetic photon efficacy.
LED lighting systems’ efficiency in transforming energy into light is the year by year.
Nelson and Bugbee demonstrated in 2014 that the most effective HPS lamps had efficacy values ranging from 1.6 to 1.7 mol J1, which was somewhat close to the efficacy of LED luminaires, which ranged from 0.8 to 1.7 mol J1.
LED lighting systems are now more effective than other lighting sources used in horticulture.
2. Range
Samsung diodes (and a lot of other brands’ less costly replacements) diffuse a complete-spectrum white light that encompasses all detectable wavelengths. They come in a range of color climates, but they’re all similar to natural daylight. As a result, it’s a great range for herbs.
Although blue and red LEDs were once standard, the production has recognized that white LEDs are safer for plants, because of this manufacturers are gradually transitioning to white. HLG and their led boards were the first to make the transition, that’s where it all started.
Quantum boards now regularly include alternate diodes in addition to the white ones, most commonly deep red and, on special occasions, UV and IR as a full spectrum led grow light.
3. LED Driver
LED drivers ensure safe working surroundings, which is critical given that a minor voltage difference will result in significant modifications in output power.
The current study arranged the voltage specifications of the LED lighting device industry, based on the input voltage ranges given by manufacturers.
The findings revealed a broad variety of variability; nevertheless, the bulk of LED lighting device producers use input voltage levels such as 100–277, 220–240, 120–277, 100–240, 90–305, 120–480, 100–480, and 100–305.
This high input voltage is regulated by two standard methods: linear dimming, which decreases the DC current streaming through the LEDs, and pulse-width timbre dimming, which lowers the percentage of time the pulse is working to dim the LEDs.
Still, various electricity regulations can regulate the construction and testing conditions of horticultural LED lighting systems counting on whether the lighting system is designed for use in North America, Europe, Asia, or elsewhere.
4. Light Disperses
Since the light is emitted from several points around a vast board, it has an extra explicit path to the awning on the outside of the coverage range than light emitted from a tinier fixture, which would be emitted farther noticeable.
As a result, there is less sensitivity in the center of the coverage range and more concentration along the margins. In other terms, a more balanced distribution of light.
5. Low Cost
Quantum board lights, broadly, are less costly than conventional LEDs or COBs of equal performance. Yeah, there are much less costly lights, but they cannot equate to the performance of a quantum board.
6. Thermal Control
Several components (like motors, fans, and connectors) and parameters, such as high LED junction temperatures, poor current control, manufacturing efficiency, vibrations, and operating atmosphere, will reduce the lifetime of horticultural LED lighting systems.
According to reports, the working temperature is the most significant aspect affecting the life and performance of LED lighting systems.
Increasing the temperature by 10 degrees Celsius reduces the life of an LED lighting device.
As a result, cooling systems are needed to dissipate heat, so cooler LED lighting system operating temperatures result in increased light intensity and a longer lifetime.
As a result, while optimum thermal control raises manufacturing costs, it also increases device effectiveness and lifespan.
7. DIY Privilege
Another great thing about these lights is that HGL and some other manufacturers have DIY packages in their offer, so you can make your own lights and save even more money.
On the Internet, you can find a lot of YouTube videos and blogs that explain whether it’s worth it to make this board yourself or it is easier to buy ready-made, get informed, and make a decision that is in line with your budget and needs.
Pros
Cheaper than some rival quantum boards
Very bright lights
Quick delivery
Affordable price
Cons
Missing elements from the package
Pros
Solid range
Very powerful
Samsung and Osram lights
3-year warranty
Cons
Expensive
Heats fast
Only for veg use
Pros
Powerful
High quality
Energy-efficient
Samsung LED lights
1-year warranty
Cons
Small coverage
Slightly expensive
Exposed power connector
Non-dimmable
HLG 600 Rspec
Pros
Amazing output
Large coverage
Samsung LED lights
3-year warranty
Long lifespan
Cons
Bad customer service
iPlantop Daisy Chain
Pros
Dimmable lights
Useful reflective hood
4-year warranty
Cons
Slightly smaller range
Conclusion
Quantum Led grow lights are not as game changing as the LED grow lights were, but it is a step forward in the technology. While quantum led grow lights may not be the best choice for every application i.e.to increase harvest in indoor growing, but still these grow lights are useful for other large number of applications.
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