Recolux LED Industrial Lighting Equipment: The Perfect Combination of Innovation and Efficiency缩略图

Recolux LED Industrial Lighting Equipment: The Perfect Combination of Innovation and Efficiency

In today's rapidly developing industrial environment, efficient and reliable lighting equipment is crucial for ensuring productivity and safety. As a leading brand in the field of LED industrial lighting, Recolux has gained widespread recognition and praise for its products' superior performance and advanced technology. This article will explore the advantages, technical features, and unique value of Recolux LED industrial lighting equipment in various industrial applications.

Recolux LED Industrial Lighting Equipment: The Perfect Combination of Innovation and Efficiency插图

I. Advantages of Recolux LED Industrial Lighting Equipment

  1. Energy Efficiency and Environmental Friendliness:
    Recolux LED lighting equipment utilizes the latest LED technology, characterized by high energy efficiency and low energy consumption. Compared to traditional fluorescent and high-pressure sodium lamps, Recolux LED lamps significantly reduce energy consumption and carbon dioxide emissions, aligning with modern enterprises' environmental protection needs.
  2. Long Lifespan and High Reliability:
    Recolux LED lamps have a lifespan of over 50,000 hours, far exceeding traditional light sources. This not only reduces the costs and maintenance work associated with frequent lamp replacements but also ensures the continuity and stability of industrial production.
  3. Excellent Light Quality:
    Recolux LED lamps provide a high Color Rendering Index (CRI), accurately reproducing the colors of objects and helping to improve workers' precision and safety. Additionally, the light from LED lamps is more uniform, reducing glare and shadow phenomena.
  4. Intelligent Control and Customization:
    Recolux offers intelligent lighting control systems that automatically adjust brightness based on ambient light and usage needs, achieving precise lighting and further energy savings. Recolux also provides customized solutions to meet the specific needs of various complex industrial application scenarios.
Recolux LED Industrial Lighting Equipment: The Perfect Combination of Innovation and Efficiency插图2

II. Technical Features

  1. Advanced Heat Dissipation Design:
    Recolux LED lamps utilize efficient heat dissipation technology to ensure that the LED chips remain at low temperatures during operation, extending the lamp's lifespan and maintaining stable light output.
  2. Protection Rating and Durability:
    Addressing the unique needs of industrial environments, Recolux LED lamps have high levels of dust and water resistance (up to IP66), as well as corrosion and impact resistance, making them suitable for various harsh environments.
  3. High-Efficiency LED Chips:
    Recolux uses internationally leading brands of LED chips, which are characterized by high efficiency and stability, ensuring that more electrical energy is converted into light energy for optimal lighting performance.
Recolux LED Industrial Lighting Equipment: The Perfect Combination of Innovation and Efficiency插图4

III. Unique Value in Industrial Applications

  1. Manufacturing:
    In manufacturing workshops and assembly lines, Recolux LED lighting provides ample and uniform illumination, reducing worker fatigue and improving production efficiency and product quality.
  2. Warehousing and Logistics:
    Warehouses and logistics centers require long-term stable lighting. Recolux's high efficiency and low maintenance features can significantly reduce operating costs while enhancing operational safety and efficiency.
  3. Petrochemical Industry:
    For the petrochemical industry, which requires explosion-proof and corrosion-resistant lighting, Recolux offers specially designed explosion-proof LED lamps to ensure safe and reliable lighting in hazardous environments.
  4. Cold Chain and Cold Storage:
    Cold storage environments have extremely low temperatures, requiring lighting equipment with excellent startup performance and operational stability. Recolux LED lamps maintain good working conditions in low temperatures, ensuring lighting needs are met in cold storage facilities.


Recolux LED industrial lighting equipment, with its superior performance, reliable quality, and innovative technology, is the ideal choice for industrial lighting across various sectors. Whether in manufacturing workshops, logistics warehouses, the petrochemical industry, or cold storage facilities, Recolux is committed to providing customers with efficient, reliable, and intelligent lighting solutions, helping enterprises achieve green and sustainable development.

Recolux tells you how to design a LED light flashing circuit with a flashing frequency?缩略图

Recolux tells you how to design a LED light flashing circuit with a flashing frequency?

Flashing frequency of 2Hz, that is to say, the LED flashing period of T = 1 / f = 0.5s, that is, 500ms, that is to say, requires the LED light 500ms flashes once, that is, the average second flashes twice. This requirement can be achieved in many ways, the following list of several commonly used examples for your reference and study.

1 The most classic MCU implementation

If we have a processor (such as microcontroller, DSP, ARM, CPLD or FPGA, etc.), it will be very simple to implement the LEDs to blink at a frequency of 2Hz. We only need to use one I/O port of the processor to drive a transistor, which in turn controls the LED's on/off state. By writing a simple programme for the programmer, we can make this I/O port output a high level every 250 milliseconds and then a low level for the next 250 milliseconds. This gives an overall blinking period of 500 milliseconds, which is the 2Hz blinking frequency we are looking for.

The output signal of the I/O port presents a specific waveform: it is actually a square wave signal with a frequency of 2Hz.

Recolux tells you how to design a LED light flashing circuit with a flashing frequency?插图

The following is a common circuit design method of using an NPN-type transistor to control the brightness of an LED. In this circuit, when the I/O outputs a high level, the base of the transistor receives a high level, it will conduct, thus making the LED light; and when the I/O outputs a low level, the base receives a low level, the transistor will cut off, and the LED light then goes out.

Recolux tells you how to design a LED light flashing circuit with a flashing frequency?插图2

2 Use 555 timer is very

Common 555 timer, it is very powerful, it can generate a frequency of up to 300KHZ and adjustable duty cycle PWM wave. For its operation as a square wave generator, the period of the output waveform is calculated by the following formula: TH (high level time) = ln2 × R1 × C1, and TL (low level time) = ln2 × R2 × C1, where ln2 ≥ 0.7. Taking the given resistors R1 and R2 of 768KΩ, and capacitor C1 of 470μF as an example, we can calculate TH and TL as about 250ms each. TL are each about 250 ms. Therefore, the period T of the entire square wave is the sum of TH and TL, which is 500 ms, and the corresponding frequency is 1 divided by the period T, which is 2 Hz.

We know that the output of the 555 timer has a driving capability of about 200mA, so we only need to drive an LED lamp in case we don't need additional components such as transistors to enhance its driving capability. You can directly connect the LED lamp to the output pin (pin 4) of the 555 timer.

Recolux tells you how to design a LED light flashing circuit with a flashing frequency?插图4

3 Multi-Harmonic Oscillator This is a very classic LED alternating blinking circuit, which uses two NPN transistors and capacitor charging and discharging principle to achieve the alternating blinking effect between LED1 and LED2. If you only need to control one or a group of LEDs, you can use a resistor instead of LED2.This circuit is a multi-harmonic oscillator circuit, where one of the transistors is in the on state and the other transistor will cut off, and through the coupling of capacitors and resistors, these two transistors will alternate into the on and cut off state, which will result in a self-excited oscillation. This oscillation mechanism makes the LED1 and LED2 can achieve a smooth alternating flashing effect.

Recolux tells you how to design a LED light flashing circuit with a flashing frequency?插图6

The working principle of this circuit is based on the charging and discharging process of the two NPN transistors and capacitors. At the moment of power-on, due to the small difference between the two sides of the circuit, so the two transistors on time will be first and later, resulting in one of the transistors on first, while the other is in the cut-off state, forming a temporary stable state. Take transistor Q1 on, transistor Q2 cut-off, for example, at this time the collector of Q1 (i.e., the left end of the capacitor C1) voltage is 0, while the base voltage of Q1 is about 0.7 V. At the same time, the capacitor C1 through the resistor R2 for charging, while the capacitor C2 is also charged through the resistor R4. Assuming that the supply voltage VCC is 5V, when capacitor C2 is fully charged, the voltage at both ends of it is 4.3V (0.7V at the left end and 5V at the right end). Since the resistance value of R4 is much smaller than R2, the charging speed of capacitor C2 is much faster than that of C1. When the voltage at the right end of C1 reaches 0.7V, Q2 starts to conduct. At this time, the voltage at the right end of capacitor C2 is directly pulled down to 0V, but because the voltage at the two ends of the capacitor can not be changed abruptly, the voltage at the left end of capacitor C2 instantly becomes -4.3V, resulting in the immediate cut-off of Q1, forming another temporary stable state. Then, capacitor C2 begins to discharge through resistor R3, and after discharging, it begins to reverse charge. When the voltage at the left end of capacitor C2 reaches 0.7V, Q1 conducts again. Similarly, the conduction of Q1 will make the voltage at the left end of capacitor C1 become 0V, which in turn feeds back to the voltage at the right end of capacitor C2 become -4.3V, which makes Q2 cut off, and then enter the next transient steady state. This process will be repeated, so as to achieve the effect of LED1 and LED2 flashing alternately.

The oscillation period T of this polytuned oscillator can be calculated by the formula T=0.7(R2C1+R3C2). Since the values of resistors R2 and R3, capacitors C1 and C2 are the same, the period can be simplified to T=1.4×R2×C1. By adjusting the values of capacitors C1 and C2 as well as resistors R2 and R3, we can change the frequency of the LED's blinking. This circuit may be difficult for beginners to understand, but we can gradually master its working principle through practice.

Summary: This article introduces three commonly used LED blinking programme.

The first programme using the processor to achieve, although the process is relatively simple, but the premise is that the original system has a processor can be used, otherwise in order to a single LED blinking function and the design of a separate processor is uneconomical, high cost.

The second programme uses 555 timer, is a commonly used method, only a 555 chip and some capacitors and resistors to achieve the LED blinking, its principle is simple and low cost.

The third scheme is based on the classic polyharmonic oscillation circuit, only two transistors and a few capacitive resistors can achieve the LED alternately blinking, with a lower cost.

Translated with (free version)

For more LED lighting issues, please feel free to consult recolux

Lighting the future: Recolux at Light+Building缩略图

Lighting the future: Recolux at Light+Building

From 3 to 8 March 2024, leading lighting solutions provider Recolux will present its latest innovations at the Light+Building trade fair in Frankfurt am Main. As a pioneer in the lighting industry, Recolux will showcase its cutting-edge smart lighting technology, sustainable energy solutions and unique design concepts.

Lighting the future: Recolux at Light+Building插图

Exhibition theme: Light up the future, lead with innovation
Recolux will use the theme of "Lighting the Future, Leading with Innovation" to highlight its pioneering position in the lighting industry. We will showcase a range of exciting new products, from smart lighting to sustainable energy, and innovative designs that seamlessly blend aesthetics and functionality.

Booth information: Hall 10.3 B71A
We warmly welcome you to visit our booth and experience Recolux's lighting technology and products. Our booth number is 10.3 B71A, making it easy for you to find us and explore our latest products.

Lighting the future: Recolux at Light+Building插图2

Brand Consistency: Innovation, Quality, Sustainability
Recolux will demonstrate brand consistency including innovative lighting technology, superior product quality and commitment to sustainability. Our products are designed to meet the needs of our customers and bring brilliance to their living and working environments.

Lighting the future: Recolux at Light+Building插图4

Discover new dimensions of future lighting
At Light+Building, Recolux will present its unique vision for the future of lighting. Through intelligent, innovative and efficient solutions, we will take you on a journey to explore new dimensions in the field of lighting. Recolux offers tailor-made lighting solutions for every environment.

Visit our booth for exclusive offers
As a thank you for visiting us, we offer exclusive discounts to customers who visit our booth during the show. This is your chance to experience first-hand the power of future lighting innovations.

Schedule a meeting to learn more
If you would like to meet us during the show or learn more about our products, please feel free to arrange a meeting in advance. You can book an appointment by visiting our official website

Recolux looks forward to meeting you at the Light+Building exhibition to explore the future of the lighting industry together. Let us illuminate the future together and bring more brilliance to life and work!

What is the halogen test of LED lights?缩略图

What is the halogen test of LED lights?

The LED lamp is a piece of electroluminescent semiconductor material chip, with silver glue or white glue cured to the bracket, and then silver or gold wire to connect the chip and the circuit board, surrounded by epoxy resin sealing, play a role in protecting the internal core wires, and finally install the shell, so the LED lamps are good vibration resistance.How to handle the halogen test of the LED lamps? Halogen (F, Cl, Br, I) introduction a, halogen (halogen) refers to the periodic system of the 7th (VIIA) non-metallic elements, including fluorine, chlorine, bromine, iodine and astatine, and other five elements, known as halogen. Because astatine is for radioactive element, so people often say halogen only refers to fluorine, chlorine, bromine, and iodine. Second, the application of halogens: flame retardants, refrigerants, solvents, organic chemicals, pesticides, insecticides, bleach, wool degreasing agents, etc. Third, the hazards of halogens: the toxicity of the immune system, the impact on the endocrine system, the impact of reproductive and developmental effects, carcinogenicity, and other toxicity (mental and psychological disorders), most of the halogenated substances belong to the environment hormone substances. Fourth, the halogen test requirements: bromine, the chlorine content of less than 900ppm, respectively, (bromine + chlorine) less than 1500ppm

What is the halogen test of LED lights?插图

About LED lights can consult Recolux

Ten advantages of LED lights ?缩略图

Ten advantages of LED lights ?

Ten major advantages of LED lights:

Advantage 1. The lamp body is small

LED lights are very small, and very fine LED chips are encapsulated in transparent epoxy resin, so their particles are very small and very light, which can save a lot of materials and space in production and application.

Ten advantages of LED lights ?插图

Advantage 2: Extremely low energy consumption

The working voltage of LED lights is generally only 2~3.6V, and the working current is only 0.02~0.03A. That is to say: its power consumption does not exceed 0.1W, which consumes more than 90% of electricity than incandescent lamps with the same luminous efficiency, and more than 70% than energy-saving lamps. Therefore, only LED can be called a true energy-saving light source!

Ten advantages of LED lights ?插图2

Advantage 3. Sturdy and durable

The LED chip is completely encapsulated in epoxy resin. The small particles of epoxy resin are extremely difficult to break, and there are no loose parts in the entire lamp body; the wafer inside is extremely difficult to break, and the thermal effect is also small, so it can volatilize and melt. These properties make LEDs difficult to damage. Compared with ordinary light bulbs and fluorescent lamps, LEDs can be said to be as solid as gold, strong, and durable countless times.

Advantage 4. LED lights have a long service life

Under appropriate current and voltage, the service life of LED lamps can reach 100,000 hours, which means that, in theory, the product life is more than 10 years, which has a longer service life compared with other types of lamps.

Advantage 5. Safe and low-voltage

LED lights use a low-voltage DC power supply (which can rectify alternating current into direct current). The power supply voltage is between 6 and 24V, which varies according to different products. In short, it is safer than the application of a high-voltage power supply DC power supply, especially suitable for homes and public places.

Advantage 6. Wide scope of application

Due to its compact structure, each unit LED chip is 3 to 5 mm square or round, so it is more suitable for preparing devices with complex molding processes. For example, making soft, bendable tubes, strips, and special-shaped lights is only suitable for LEDs.

Advantage 7: More colorful

In the past, the colors of lamps on the market were very single. In order to achieve the purpose of changing color, one had to paint or cover the surface of the lamp with colored chips, and the other was to fill the lamp with inert gas to emit light, so the richness of colors was limited. LED is digitally controlled, and the light-emitting chip can emit a variety of colors, including the three-dimensional colors of red, green, and blue. It is the three-dimensional colors that, through system control, can restore the colorful world.

Advantage 8: Less heat dissipation

LED is a relatively advanced cold light source. It does not radiate a large amount of infrared and ultraviolet rays like incandescent lamps and fluorescent lamps. It is especially suitable for lighting valuable items such as cultural relics, jewelry, and high-end cosmetics. Incandescent current has almost no thermal effect and will not blow out bubbles due to thermal expansion and contraction. It will not cause the bulb to turn yellow, will not accelerate the aging of the lamp, and will not cause a greenhouse effect on the surrounding environment.

Advantage 9: Less environmental pollution

LED's environmental protection is mainly reflected in three aspects:

First of all, there is no danger of metallic mercury. LED lamps do not use the high-risk mercury inside fluorescent lamps. There will be no public hazards such as the leakage of mercury ions or phosphors during the manufacturing process or damage to the lamp.

  1. The epoxy resin used to make LEDs is an organic polymer compound. The cured product has good physical and chemical properties. It has strong bonding strength with wafers and metals, is hard and elastic, is stable to salts and most solvents, and is not easy to Damage, even if damaged or aged can be recycled and reused without polluting the environment.

Third, due to the particle layout of LED lamps and displays, the light generated is generally dispersed and rarely produces light pollution.

Advantage 10. More cost-saving

Compared with incandescent lamps and fluorescent lamps, the purchase price of LED lamps is higher. However, due to the extremely low energy consumption of LEDs, it can save a lot of electricity bills in the long run and save investment in lamp replacement, so the overall cost of use is more cost-effective.