$825.00
The HM660 lighting system is a complete, pre-assembled LED grow light that lowers installation time with a wide range of wiring techniques and connectors. It runs with a passive cooling thermal management system, meaning your lighting systems last longer while retaining high light output levels. Longer lifespan means you can grow crops for many years without needing to replace the lighting system, reducing costs. Indoor plants grow best under full-spectrum lights, which replicate the natural spectrum of the sun. The HM660 Series, with an increased lifespan over traditional grow light sources, cultivates healthier, happier plants.
PERFORMANCE DATA | MAX. POWER @ 12″ HEIGHT |
PPF | 1820 µmol/s |
PPFD | 1285 µmol/(m2*s) |
PPE | 2.7 µmol/J |
AC VOLTAGE | 120V | 208V | 240V | 277V |
AC CURRENT | 5.96A | 3.50A | 2.95A | 2.71A |
AC POWER | 713W | 700W | 695W | 685W |
POWER FACTOR | 0.998 | 0.983 | 0.975 | 0.945 |
FLOWER: 4’X4′ AREA, MAX:5’X5′ AREA
VEG: 4’X4′ AREA, MAX: 6’X6′ AREA
GROSS WEIGHT: 30 LBS
Our 660W HM660 led grow lights is a comprehensive full-spectrum LED grow lighting solution, meticulously crafted for use in both commercial indoor and greenhouse applications specially hydroponics. This advanced system empowers growers with precise control over the entire plant cycle, seamlessly transitioning from the vegetative stage to the flowering stage. Leveraging the benefits of full-spectrum lights, our solution accurately replicates the natural spectrum of the sun, providing optimal conditions for indoor plants to flourish and achieve their maximum growth potential.
Leveraging the benefits of full-spectrum lights, our solution accurately replicates the natural spectrum of the sun, providing optimal conditions for indoor plants to flourish and achieve their maximum growth potential.
When it comes to delivering the essential wavelengths for plant growth, the HM660 LED grow lights excel by offering a tailored light spectrum that ensures no vital wavelength is lost. Unlike traditional HPS and MH lights, which often waste energy by emitting unnecessary wavelengths, the HM660 focuses on providing the exact spectrum needed for each growth phase. This precision not only enhances vegetative growth and flower production but also maximizes energy efficiency, ensuring that every ray of light contributes to your plants’ development.
By choosing our HM660 LED grow lights, you are equipping your plants with the precise wavelengths they need, fostering an environment where they can thrive without any wastage of light energy.
Our Classic Series Grow Lighting, Ultra Series Grow Lighting and Beast Series Grow Lighting are fully compatible with the TrolMaster System, including the HYDRO-X SYSTEM, AQUA-X SYSTEM, TENT-X SYSTEM, and CARBON-X SYSTEM, with the use of the Adapter LMA-14. This seamless integration allows for a comprehensive control and monitoring solution, empowering growers to manage their indoor cultivation environments effortlessly.
The Classic Series, Ultra Slim Series and Beast Series are advanced full-spectrum LED matrix horticultural grow lights, meticulously designed to cater to the diverse needs of indoor growers. These lights offer customizable settings, allowing growers to adjust light intensity, spectrum, and duration according to specific plant requirements, resulting in improved crop yields and quality.
Designed to provide optimal lighting conditions for plant growth, the Classic Series, Ultra Slim Series and Beast Series, in conjunction with the TrolMaster System, offer an efficient and user-friendly solution for modern horticultural practices. With their adaptable features and precise control mechanisms, these lighting systems ensure that plants receive the ideal lighting conditions throughout their growth cycles, facilitating healthy and robust plant development.
Utility companies incentivize cultivators to embrace sustainability by offering rebates for approved LED grow lights. LEDs, renowned for their superior efficiency compared to traditional HID lights, consume less electricity while producing equivalent light output. This promotion underscores the commitment to energy-efficient solutions in indoor cultivation. Keep in mind that specific specifications and guidelines apply to the process of claiming these rebates, ensuring a seamless transition to eco-friendly lighting practices.
WATTAGE | 660W (Boost up to 720W) |
INPUT POWER | 120V-277V |
FREQUENCY | 50/60Hz |
CONTROL | 0-10V dimming (0-100%), Wireless |
POWER FACTOR | 0.9 |
THD | 20% |
THERMAL MANAGEMENT | Passive |
WORKING TEMPERATURE | -40ºF ~ 122ºF |
IP RATING | IP44, Suitable for dry & damp locations |
WARRANTY | 7 year limited |
PERFOR MANCE DATA | 660W (100%) @ 12″H | 720W (110%) @ 12″H |
PPF | 1716 μmol/s | 1820 μmol/s |
PPE | 2.6 μmol/J | 2.6 μmol/J |
When choosing the most effective LED grow lights, the key lies in two primary factors: efficiency and spectrum. Here's how these LED grow lights excel:
In essence, these LED grow lights are engineered to deliver exceptional growing power through innovative design and technology, solidifying their reputation as the most powerful on the market.
Comparing LED grow light models can be an excellent way to ensure you're making the best choice for your needs. Here's a step-by-step guide to help you make an informed decision:
Select Your Models:
Analyze Key Features:
Compare Specifications:
Evaluate Additional Features:
Read Customer Reviews:
Conduct Side-by-Side Comparison:
Make a Decision:
By following these steps, you can confidently compare and choose the LED grow light that will best suit your indoor gardening goals.
When considering what makes LED grow lights stand out in terms of quality, several vital components contribute significantly to their performance and efficiency:
High-quality LED grow lights are equipped with sophisticated, auto-switching LED drivers. These drivers effortlessly adjust to various voltage inputs, such as 110v or 220v, making them exceptionally versatile across different global standards. This adaptability ensures they deliver optimal power output with minimal energy consumption, enhancing the overall performance and efficiency of the lights.
The heart of any superior LED grow light is its array of light-emitting diodes (LEDs). Top-tier models use premium-grade LEDs sourced from reputable manufacturers like Bridgelux and CREE. This selection guarantees enhanced reliability, longevity, and effectiveness. Importantly, each LED is protected against power surges with advanced Zener protection, safeguarding them from unexpected voltage fluctuations.
The use of specialized lenses is another hallmark of exceptional LED grow lights. Typically, these lights incorporate 90-degree secondary focusing lenses. These lenses are crucial for concentrating light energy, allowing it to penetrate deeply into the plant canopy. This focused penetration ensures that the maximum amount of light reaches the plant’s leaves, promoting healthier growth and more robust yields.
By integrating these high-quality components, LED grow lights achieve unparalleled performance, making them a vital tool for maximizing plant growth and productivity.
Proprietary LED drivers play a crucial role in elevating the effectiveness of grow lights. These drivers are engineered to fine-tune the power delivery to the LED chips, optimizing their performance.
Adaptive Voltage Compatibility
Proprietary LED drivers are designed for global adaptability, seamlessly transitioning between 110v and 220v inputs. This capability ensures that they deliver consistent power output regardless of the regional power supply.
Maximize Light Output with Efficiency
By managing energy flow precisely, these drivers enhance the output of Photosynthetically Active Radiation (PAR), a key component in successful plant growth. This means plants receive intense, useful light while the system maintains high energy efficiency.
Reduced Energy Consumption
High-efficiency drivers limit wasted energy, which not only contributes to lower electricity bills but also reduces heat output. This minimizes the risk of overheating, extending the life of the grow light and ensuring consistent performance over time.
Enhanced Stability and Longevity
The stability provided by specialized LED drivers enhances the lifespan of grow lights. They protect against power surges and fluctuations, which could otherwise cause damage or degrade performance.
In summary, proprietary LED drivers significantly boost the performance of grow lights by ensuring efficient energy use, maximizing light output, and protecting the system from voltage inconsistencies. This ultimately leads to healthier plant growth and greater energy savings.
LED lighting has revolutionized the horticultural industry, offering significant advantages in terms of lifetime, photon flux, and maintenance.
One of the most remarkable benefits of using LED lighting in horticulture is its extended lifespan. Unlike traditional lighting systems, LEDs experience minimal light degradation over time. This stability ensures consistent lighting conditions, crucial for stable crop growth.
Photon flux, the measure of light particles reaching your plants, plays a vital role in plant health and yield. LED lights provide a stable spectral output, maintaining a uniform photon flux even after prolonged use. This consistency translates to dependable crop results, allowing growers to achieve desired outcomes without frequent adjustments.
LEDs are designed with durability in mind. Their robust construction means fewer field failures compared to conventional lights. This reliability reduces the need for frequent replacements or repairs, cutting down maintenance costs and minimizing disruptions to the growing process.
In addition to their stability and durability, LED lights are incredibly energy-efficient. They consume less power while delivering high-intensity lighting, which leads to substantial cost savings. This energy efficiency does not only lower operational expenditures but also promotes sustainable farming practices.
In summary, LED lighting presents a formidable package of benefits for horticultural applications. By offering longevity, consistent light output, reduced maintenance, and energy savings, LEDs are an essential tool for modern-day growers seeking efficiency and reliability.
LED technology has revolutionized horticulture by addressing common challenges like uneven light distribution. Here's how it enhances uniformity of illumination:
Precise Light Distribution: Unlike traditional lighting systems with secondary optics, LEDs provide precise light distribution. This allows for even illumination across your crops.
Closer Placement: Because LEDs generate less heat, they can be placed closer to plants without risk of damage. This proximity ensures uniform light penetration, vital for consistent plant growth.
Customizable Spectrums: LEDs offer the possibility to adjust light spectrums to suit specific plant needs. This adaptability ensures that all areas of your crop receive the optimal light conditions.
Energy Efficiency: By minimizing the need for secondary lenses or reflectors, LED systems reduce energy waste, leading to more efficient operations and lowered costs.
Consistent Performance: The advanced technology in LED systems results in consistent performance over time. This reliability is critical for maintaining uniform crop illumination.
Through these factors, LED technology not only enhances the uniformity of illumination in horticultural settings but also supports healthier and more efficient plant growth.
High-power LEDs deliver exceptional performance through cutting-edge chip technology that ensures long-lasting durability and efficiency. These LEDs stand out because they offer remarkable robustness and an extended operational lifespan, making them a dependable choice in various applications.
One of the most significant advantages these LEDs provide is their extraordinary design flexibility. They come in a diverse range of colors including Hyper Red (660 nm), Red (640 nm), Deep Blue (450 nm), Far Red (730 nm), and specialized White. This variety facilitates seamless integration into different lighting designs, catering to specific horticultural needs.
For both narrow-spectrum and full-spectrum lighting solutions, these high-power LEDs provide immense versatility to address all crop requirements, whether utilized in greenhouses or vertical farms. The strategic use of these specific light frequencies enhances plant growth by mimicking natural sunlight more effectively, leading to healthier crops and higher yields.
By embracing these high-performance LEDs, growers can achieve not only innovative design flexibility but also optimal growth conditions tailored to their unique agricultural needs. The result? A more efficient and sustainable approach to modern farming.
Recent breakthroughs in spectral sensing technology have revolutionized the way horticulturists monitor and optimize the growth of plants. By utilizing real-time monitoring systems, growers can now accurately gauge total illumination on their crops. This allows for the creation of adaptable lighting strategies that enhance growth while taking natural sunlight into account, particularly in controlled environments like greenhouses.
What's truly groundbreaking is the introduction of chip-scale spectral sensors that cover a wide spectrum—from visible light to the near-infrared (NIR) range. This innovation paves the way for advanced condition monitoring, providing crucial insights into various aspects of plant health and development. These sensors enable more precise analysis and management of plant environments, leading to better growth outcomes and more efficient use of resources.
Furthermore, companies outside of this specific technology sector have contributed to these advancements by developing and commercializing lighting products that complement the spectral sensing systems. These collaborations are pushing the boundaries of what is possible in horticultural technology, driving both innovation and practical application in plant growth and monitoring.
When choosing lights for indoor gardening, LED grow lights offer several advantages over traditional High-Pressure Sodium (HPS) and Metal Halide (MH) lights.
LED grow lights are designed to emit specific wavelengths that plants need for key growth stages, such as vegetative growth and flower production. Unlike HPS and MH lights, which often disperse a broad spectrum including unnecessary light wavelengths, LEDs target the precise spectrum required by plants. This ensures energy is focused on effective growth rather than wasted.
LED technology is notorious for its energy efficiency. LEDs consume significantly less electricity while delivering the same or better lighting efficacy compared to HPS and MH systems. This results in lower power bills, making them a more cost-effective option in the long run.
Another vital benefit is the extended lifespan of LED lights. They can last up to 50,000 hours or more, reducing the frequency and cost of replacements. In contrast, HPS and MH bulbs generally have shorter life spans, meaning they need to be changed more regularly.
LEDs operate at much lower temperatures than their HPS and MH counterparts. This minimal heat output decreases the risk of overheating your plants, minimizing heat damage risk and reducing the need for extra cooling systems. This factor is particularly beneficial for maintaining optimal conditions in confined indoor spaces.
Being more energy-efficient and longer-lasting makes LEDs a sustainable choice. They not only lower energy consumption but also reduce waste since fewer light bulbs end up in landfills.
LED grow lights often come with the flexibility to adjust the spectrum and intensity according to the phases of plant growth. This customization is a feature not commonly found in traditional lighting systems, allowing for a tailored lighting environment that caters to specific plant needs.
In conclusion, LED grow lights provide targeted spectra, consume less energy, last longer, generate less heat, and offer customizable lighting options, making them a superior choice for plant cultivation compared to traditional HPS and MH lights.
Understanding how different LED grow light designs meet various gardening needs is crucial for maximizing your yield. Here's a breakdown of how each type serves distinct purposes:
By choosing the right LED grow light design, you can tailor your setup to fit any gardening scale, from a single houseplant to a full-scale indoor garden.