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WHOLESALE LED GROW LIGHT SUPPLIER

Innovative technologies bring traditional wholesale grow lights China products to a new vitality.

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Find Your Ready Grow Light System Plans Here!
LED GROW LIGHT SYSTEM SOLUTION
One Smart LED Grow Light For More 01

Spectrum adjustable function allows advanced led grow lights with an unlimited light recipe. Product with a unique modular design. 


No matter whether various plant species or different sizes of growing areas are able to be satisfied well by our professional grow light.

Tech Talk 02

As a professional LED grow light supplier, Feton's wholesale grow lights are based on related science knowledge research.


It includes lighting knowledge, LED manufacturing knowledge, biology, and plant-growing tech knowledge. We'd love to share it all with our partners.  


UV Lights for Operating Rooms: The Key to Infection Control in ORs

UV Lights for Operating Rooms are a device that use ultraviolet technology to disinfect and sterilize, specifically designed for surgical rooms and medical environments to ensure a sterile surgical environment. This lamp releases ultraviolet light at specific wavelengths, effectively killing pathogens in the air and on surfaces, including bacteria, viruses, mold, and fungi.


Why Do Surgical Rooms Need UV Lights for Operating Rooms?


  • Need for a highly sterile environment: Surgical rooms need to maintain an extremely high sterile environment to prevent infections during surgeries. Air and surface of surgical instruments may carry microorganisms; regular disinfection through ultraviolet light helps minimize the risk of infection.


  • Combat antibiotic-resistant pathogens: Ultraviolet sterilization has unique advantages against antibiotic-resistant microorganisms (such as MRSA, VRE, etc.). These pathogens may be resistant to antibiotics, but ultraviolet light can physically destroy their structure, avoiding resistance issues.


  • Supplement traditional disinfection methods: Although surgical rooms already use chemical disinfectants, air filtration systems, and strict cleaning protocols, ultraviolet light can further complement these methods, covering dead corners and microorganisms in the air.


Features of UV Lights for Operating Rooms 


  • Automated functions: High-end equipment is usually equipped with timers and sensors, which can automatically initiate disinfection programs when no one is present and automatically shut off when someone enters, avoiding UV harm to humans.


  • Efficient sterilization: UV Lights for Operating Rooms can usually kill 99.9% of common pathogens within just a few minutes, including bacterial spores and viruses that may be present in the surgical room.


Precautions for Using UV Lights for Operating Rooms


Safety


  • Direct exposure risk: Ultraviolet light is harmful to skin and eyes and may cause burns and vision damage, so direct human exposure must be avoided.


  • Safe operating procedures: Sensors or warning signs should be set up to ensure UV Lights for Operating Rooms operate only when the surgical room is unoccupied.


Regular maintenance


The efficiency of surgical room ultraviolet lamp tubes decreases with usage time, requiring regular cleaning of the tube surface and replacement of the tubes (usually every 9,000 hours).


Environmental limitations


UV lights for operating rooms can only disinfect surfaces and air directly exposed, not penetrating dust, liquids, or opaque objects, thus needing to be used in conjunction with other cleaning methods.


Advantages and Limitations of UV Lights for Operating Rooms


UV Lights for Operating Rooms are indispensable infection control tools in modern medical facilities. Their efficient and eco-friendly sterilization function provides additional protection for surgical rooms.

Main Features and Advantages of Advance Spectrum LED Grow Lights

Advance Spectrum LED grow lights are high-performance LED lights specifically designed for plant growth, widely used in indoor cultivation, greenhouse agriculture, and vertical farms. These lights simulate natural sunlight by providing an optimized light spectrum combination to meet the needs of plants at different growth stages.


Main Features and Advantages of Advance Spectrum LED Grow Lights


Spectrum Optimization


  • Blue light (400-500nm): Promotes leaf growth and photosynthesis, suitable for the early growth stages of plants.


  • Red light (600-700nm): Promotes flowering and fruit development, suitable for the flowering and fruiting stages of plants.


  • Full-spectrum white light: Simulates natural sunlight, suitable for overall plant health.


  • Ultraviolet (UV) and infrared (IR): Enhances plant resistance, aroma, and nutrient content.


Advance Spectrum LED grow lights precisely adjust the spectrum (such as the ratios of red, blue, white, and even UV and IR light) to provide the optimal light environment for different growth stages of plants (such as germination, growth, flowering, and fruiting).


High Efficiency and Energy Saving


Compared to traditional grow lights (such as HID lamps and fluorescent lamps), Advance Spectrum LED grow lights consume less energy and generate less heat, reducing energy costs. The directional lighting design of Advance Spectrum LED grow lights avoids energy waste, allowing light to directly act on plants, thereby increasing light energy utilization.


Long Lifespan


The lifespan of Advance Spectrum LED grow lights typically exceeds 50,000 hours, whereas traditional bulbs usually last only a few thousand hours. A longer lifespan means less frequent replacements and lower maintenance costs, making them ideal for long-term cultivation environments.


Temperature Control


Advance Spectrum LED grow lights produce less heat compared to traditional high-pressure sodium (HPS) or metal halide (MH) lamps. Less heat can prevent plants from "burning," reduce the need for extra cooling equipment, and allow plants to be closer to the light source for higher light intensity.


Environmentally Friendly


Advance Spectrum LED grow lights do not contain harmful substances such as mercury, meeting environmental protection requirements. Due to their high energy efficiency, using Advance Spectrum LED grow lights can reduce carbon emissions, making them suitable for modern sustainable agriculture needs.


Applications of Advance Spectrum LED Grow Lights


  • Indoor Cultivation: Suitable for environments without natural sunlight, such as indoor grow rooms or grow tents.


  • Vertical Farms: Used in multi-layer planting systems to provide uniform lighting for each layer of plants.


  • Research and Experiments: Widely used in plant growth research, such as genetic modification or medicinal plant studies.


  • Home Gardening: Provides efficient lighting for small-scale home growers.

Hemp Grow Lights: Essential Tools for Cannabis Cultivation

Hemp grow lights are lighting systems specifically designed for the cultivation of hemp (including industrial hemp and medical marijuana), capable of providing ideal lighting conditions for hemp plants in indoor or greenhouse environments. This lighting system aims to maximize the growth efficiency, yield, and active compound content (such as CBD and THC) of hemp.


Why do we need specialized hemp grow lights?


Hemp is a plant highly sensitive to photoperiods and light intensity, with its growth, flowering, and yield directly influenced by light exposure. When growing hemp indoors or in greenhouses, growers need to use artificial light sources to provide suitable light intensity and spectrum due to the lack of natural sunlight. Different growth stages (such as germination, vegetative, and flowering stages) have distinct light requirements, hence the need for lights that offer adjustable spectra and intensity.


Characteristics of hemp grow lights


Full Spectrum Design


High-quality hemp grow lights are usually full-spectrum LED lights that can simulate natural sunlight. This design allows growers to adjust the spectrum at different stages to optimize plant growth and quality.


Adjustable Photoperiod and Intensity


Hemp growth relies on the photoperiod.


  • Vegetative Stage: Typically requires 18 hours of light and 6 hours of darkness (referred to as an 18/6 photoperiod).


  • Flowering Stage: Switches to 12 hours of light and 12 hours of darkness (referred to as a 12/12 photoperiod) to induce flowering.


  • Hemp grow lights allow for precise adjustment of the photoperiod and light intensity to meet these needs.


High Efficiency and Low Heat Output


Compared to traditional high-pressure sodium (HPS) and metal halide (MH) lamps, LED hemp grow lights are more efficient, capable of providing the same light intensity with lower energy consumption. LED lights generate less heat, which prevents plants from being "scorched" and reduces the need for additional cooling equipment, while allowing the lights to be closer to the plants, providing stronger illumination.


In summary, hemp grow lights are specialized lighting equipment designed for hemp cultivation, capable of meeting the lighting needs from germination to harvest. Their high efficiency, adjustable spectrum, and long lifespan make them particularly important in modern agriculture. For growers looking to optimize cultivation efficiency, improve quality, and increase yield, this is an essential technological investment.

What Are the Advantages of LED Antimicrobial Lighting?

Compared to other sterilization methods, such as chemical sterilization, ozone sterilization, and traditional ultraviolet mercury lamp sterilization, what are the advantages of LED antimicrobial lightings?


Broad Spectrum of of LED Antimicrobial Lightings


The ultraviolet radiation emitted by LED antimicrobial lightings can almost kill all bacteria and viruses, and to a certain extent, inhibit the growth of some higher aquatic organisms like algae and red worms.


Efficiency of LED Antimicrobial Lightings


The ultraviolet light emitted by LED antimicrobial lightings usually kills bacteria and viruses within a few seconds. Traditional methods like chlorine and ozone sterilization generally require 20 minutes to an hour to achieve the sterilization effect of LED antimicrobial lightings.


Ultra-long Lifespan of LED Antimicrobial Lightings


The lifespan of traditional mercury lamps is relatively short, averaging around 3000 hours. The lifespan of LED antimicrobial lightings is more than ten times that, reaching 20000 to 30000 hours. Their lifespan is not affected by the number of times they are turned on and off.


Eco-friendly and Non-polluting of LED Antimicrobial Lightings


Traditional ultraviolet mercury lamps contain mercury, which poses a safety hazard to people and environmental pollution if the lamp breaks during use. LED antimicrobial lightings do not contain mercury, and have no heavy metal pollution, and do not produce ozone. They are non-toxic and harmless, making them a safer and more environmentally friendly alternative to traditional light source technologies.


Feton Ultra Light LED antimicrobial lightings use advanced antimicrobial LED lighting, aimed at providing longer-lasting food preservation services for most retailers suffering from the loss of fresh produce. The numerous technological advantages of LED antimicrobial lightings make them sustainable green industrial technology. 


Nowadays, antibacterial LED bulb technology is becoming increasingly mature and more widely accepted in the market, with specific applications in public transportation, public places, household environments, and other scenarios. It's believed that the continuous development of antibacterial LED bulb technology will make our lives healthier!

Working Principles and Applications of LED Antimicrobial Lighting

Working Principle of LED Antimicrobial Lighting


LED antimicrobial lightings achieve their antibacterial effect by emitting light of specific wavelengths. The core principle mainly relies on ultraviolet (UV) light, especially the UV-C band. UV-C light wavelengths usually range between 200 to 280 nanometers. This wavelength can effectively disrupt the DNA or RNA structure of bacteria, viruses, and other microorganisms, thereby inhibiting their reproduction and survival.


Spectrum and Antibacterial Effect of LED Antimicrobial Lighting


Different microorganisms have varying sensitivities to different wavelengths of ultraviolet light. The UV light source of LED antimicrobial lightings is typically designed to emit UV-C band light, which can penetrate the outer membrane of microbial cells and damage their internal genetic material (such as DNA or RNA). Once the genetic material of the microorganism is damaged, it can no longer replicate or infect, leading to its elimination or loss of pathogenicity.


Applications of LED Antimicrobial Lightings


Medical and Health Sector


UV lamps for hospital use are widely applied in hospitals, clinics, operating rooms, and other medical environments. As hospital environments are prone to bacterial and viral growth, using hospital UV lamps can effectively reduce pathogenic microorganisms in the air, lowering the risk of cross-infection. Particularly in operating rooms, hospital UV lamps can provide continuous disinfection without contact, ensuring a sterile environment during surgeries.


Food Safety Sector


In the food processing and catering industry, LED antimicrobial lightings also play an important role. Food processing workshops, kitchens, and storage areas are susceptible to bacterial contamination, and the use of LED antimicrobial lightings can effectively reduce bacterial numbers in these areas, ensuring hygiene during the production, processing, and storage of food. Moreover, LED antimicrobial lightings can also be used in food packaging to prevent contamination during storage.


Air Purification and Water Treatment


LED antimicrobial lightings are widely used in air purification and water treatment systems. For instance, in air purifiers, LED antimicrobial lightings can kill germs and bacteria in the air through UV-C light exposure, helping to keep indoor air fresh and safe. In water treatment systems, LED antimicrobial lightings are equally effective in disinfecting water sources, ensuring water quality and preventing the spread of diseases through waterborne microorganisms.


Antibacterial Lighting in Homes and Public Places


With the popularization of LED antimicrobial lighting technology, more and more homes and public places are starting to adopt these lamps to enhance environmental hygiene. In homes, LED antimicrobial lightings can be used in kitchens, bathrooms, and other areas prone to bacterial growth, effectively reducing bacterial contamination in the air and on surfaces. In public places like shopping malls, subway stations, and schools, LED antimicrobial lightings can also provide additional hygiene protection, reducing disease

Main Types of Hemp Grow Lights

When growing cannabis indoors, selecting the appropriate hemp grow lights is a crucial factor for ensuring the healthy growth and high yield of plants. Hemp grow lights not only need to provide the appropriate light intensity but also different spectrums depending on the various growth stages. There are several main types of hemp grow lights, and this article will introduce the main types of hemp grow lights.


LED Hemp Grow Lights


LED hemp grow lights are currently one of the most popular choices on the market. They use light-emitting diode technology and have advantages such as high efficiency, energy-saving, and low heat output. Advanced spectrum LEDs typically provide a full spectrum of light, simulating natural sunlight, suitable for all stages of cannabis growth, especially the growth and flowering stages.


Advantages of LED Hemp Grow Lights


Faster harvest cycle: LED lights can be used for up to 24 hours a day, which can ultimately shorten the growing season and increase plant growth speed. These lights help growers achieve multiple harvests per season, potentially leading to higher yields over an extended period.


  • Longer lifespan: Compared to other light sources, LED grow lights operate at relatively lower temperatures, thus they can last for 50,000 hours.


  • Energy-saving: Generally speaking, the energy consumption of LED lights is about 60% lower than other traditional lighting options, while still providing the same level of illumination. Compared to other systems used for growing cannabis plants, they emit less overall heat and provide more usable light.


  • Full-spectrum light: Advanced spectrum LEDs offer full-spectrum light. Most LED lights can also adjust the wavelength according to the growth stage of the plants, optimizing plant growth more effectively than natural sunlight outdoors.


HID Lights


HID (High-Intensity Discharge) lights mainly include Metal Halide (MH) lights and High-Pressure Sodium (HPS) lights. MH lights emit cool blue light, suitable for the vegetative stage of plants, while HPS lights emit warm red light, more suitable for the flowering stage.


Advantages and Disadvantages of HID Lights


  • Advantages: The initial cost of HID lights is typically lower, their light intensity is high, making them suitable for large-scale growing.


  • Disadvantages: Over time, the light output of HID lights decreases, and they generate a lot of heat. Overheated bulbs can potentially burn plants, thus requiring more frequent maintenance and adjustments.


Fluorescent Lights


Fluorescent lights are commonly used in smaller growing spaces due to their lower energy consumption and easy installation. Fluorescent lights are suitable for beginners or small-scale growing because they are affordable, easy to use, and consume less electricity.


Advantages and Disadvantages of Fluorescent Lights


  • Advantages: Fluorescent lights have a lower initial cost, are suitable for growing a small number of plants, and are energy efficient.


  • Disadvantages: Due to their lower light intensity, fluorescent lights are not suitable for large-scale growing or the flowering stage, and their ultraviolet radiation coverage is narrow, which can limit plant growth space and yield. Additionally, the shorter lifespan of fluorescent lights may lead to frequent bulb replacements, increasing long-term costs.

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Solution
WHAT MAKES FETON DIFFERENT
WHAT MAKES FETON DIFFERENT

Feton is an innovative international LED grow light supplier with market demand-oriented and supply chain management as its core competency, committed to offering competitive wholesale commercial grow lights and solutions to global customers. 


With decades of LED experience, we are a led grow lamp manufacturer and expert who understands what matters in the disinfection lighting system.

100000 +
LED lamps each year supplied over world
50 +
country
10 +
years in LED industry
50 %
Invention Patent 14% Utility Patent
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OUR PARTNER
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FETON UPDATES
Feb.08
2025

Working Principles and Applications of LED Antimicrobial Lighting

Working Principle of LED Antimicrobial LightingLED antimicrobial lightings achieve their antibacterial effect by emitting light of specific wavelengths. The core principle mainly relies on ultraviolet...
View More
Working Principles and Applications of LED Antimicrobial Lighting
Feb.01
2025

Main Types of Hemp Grow Lights

When growing cannabis indoors, selecting the appropriate hemp grow lights is a crucial factor for ensuring the healthy growth and high yield of plants. Hemp grow lights not only need to provide the ap...
View More
Main Types of Hemp Grow Lights