Five main factors affecting the life of LED lights

If you use a light source for a long time, you will get huge economic benefits and reduce carbon footprints. According to the system design, the decrease in light flux is a normal process, but it can be ignored. When the amount of light is very slow, the system will maintain a good state without having to maintain long -term maintenance.

Compared with other applications in many applications, LEDs are undoubtedly more outstanding. In order to maintain a good state of the system, the following 5 factors need to be considered.

1. Efficiency

LED lamp bead LED is full name of semiconductor emitting diode, which is made of semiconductor material to directly convert electrical energy into optical energy, and the electric number is converted into a light signal luminous device; its characteristics are merits The advantages of low, high brightness, colorful color, vibration, long life (normal glowing 80,000 to 100,000 hours), cold light sources and other advantages are true \"green lighting\". In the future of the 21st century, lighting products with LED as light sources will inevitably replace white weaving lamps and become another revolution in human lighting.

LED lamp bead lighting is developed due to the advantages of LED lamp beads adaptability, life, and efficiency than previous lighting forms. Therefore, it is easy to understand that LED lighting is widely used in many applications such as home lights, factory industrial lighting, marine environment lighting, architectural lighting, and design. With the booming development of LED lamp beads and solid lighting industries, LED lamp bead developers apply technology to a harsh environment. Today, we discuss the needs of protecting LED lamp beads and circuit components in harsh environments, such as marine applications. Coating and other protection technologies can extend the life and performance of the solid -state lighting system.

LED lamp beads with the rapid development of the market, the correct choice is the key to ensuring performance and service life of LED lamp beads. Today, we emphasize how to use LED lamp beads in various environments and introduce how to protect appropriately in these environments. While the development process ensures reliability, it is necessary to ensure the good optical properties of the solid -state lighting system. LED lamp bead applications are becoming more and more diverse. The functional proof of design requirements, location, or product proof is constantly changing. Like most electronic devices, LED lamp beads are good until external influences begin to reduce their performance. These affect static attractions, chemical or gas pollution, and many other possibilities in the dust, humid or corrosive environment. Therefore, you need to fully consider the final use environment and choose the appropriate product.

Compared with the environmental conditions in standard building lighting applications, compared with the marine environment, it helps to understand the potential causes of deterioration. In the application of building lighting, the design of the lighting unit may cover the LED lamp bead itself, or it may only be exposed to the direction of the general change of LED lamp beads that are exposed to the general changes in the environmental temperature and humidity. In the marine environment, LED lamp beads may be splattered or soaked by salt water. In addition, in all cases, the service life of LED lamp beads is mostly working in the salt and mist environment. High -salt conditions may cause corrosion printing circuit board PCB, and its performance changes faster than usual humidity. Generally speaking, in these environments, sealed resins and preservation coating can provide high -level protection.

Polyurethane resin is considered to be a resin suitable for protecting LED lamp beads in various environments. These can be modified to provide additional advantages, for example, the color system that covers PCB but does not exceed LED lamp beads. Such resin is used in the protection of PCB, which not only makes the surface comfortable, but also increases the light output from PCB reflection light to improve the performance of the lighting appliances. There are also special resins to spread the light of LED lamp beads.

Experimental comparison shows that sealed resin can provide high -level protection in a series of environments. By selecting chemical types, or through the cooperation of specific resins, it can meet the application requirements. However, as mentioned above, the impact of the preservation coating of the membrane has a small impact on color temperature. Through the thickness of the preservation coating and sealing resin, the improvement of the protection level of the resin can achieve more coating. Resin 1? Although it can increase at a depth of more than 2mm, the depth also affects the color temperature level observed.

Typical color temperature movement of polyurethane resin LED lamp beads at different thickness. Obviously, because the thickness is directly related to the degree of shift of the color temperature, it is also an important consideration when choosing an appropriate protection material. Although it knows that the color temperature will be shifted, LED lamp beads must consider the repeatability of offset. In the case of continuous offset, you can also re -consider the original LED lamp bead color temperature.