Light Emitting Diodes (LEDs) are widely used in many applications, such as lighting, display, communications, automotive, medical, and industrial. Within these applications, one of the most important application that LED is used for is thermal management. This is because high-power LEDs generate a great amount of heat which needs to be controlled, optimized and dissipated in order to prevent performance degradation and premature failure. In this article, we will discuss the application area and working principle of LRS180150CBK, a high-efficiency LED thermal product.
Application of LRS180150CBK
LRS180150CBK is a high-efficiency LED thermal solution designed specifically for indoor and outdoor lighting applications. It has a good power dissipation capability and thermal performance, which makes it a suitable product for a wide variety of LED applications. One of the advantages of using this product is its low profile design, which helps reduce the cost of installation.
LRS180150CBK is also perfect for high-density applications due to its robust and reliable heat dissipation performance. It can be used in directional, linear and decorative fixtures with lumen outputs up to 100,000 lumens. In addition, its lightweight design is suitable for low-profile applications and tight spaces. LRS180150CBK also has an optional base plate which helps increase thermal leakage rate.
Apart from lighting applications, LRS180150CBK is commonly used in medical, automotive, industrial and communication applications. Its excellent heat sink characteristics make it ideal for use with power adapters, signal amplifiers, laser products, electric vehicles and industrial automation equipment.
Working Principle of LRS180150CBK
LRS180150CBK works on the principle of thermal conduction. This product uses a combination of high temperature-resistant aluminum alloy and copper substrate to dissipate heat generated by LED light. It uses a highly efficient heatpipe to transfer the heat from the LED to the heatsink. The heatsink is constructed with deep fins which provide high surface area that dissipates the heat quickly.
LRS180150CBK is also designed with two channels, top and bottom. The top channel provides cooling air intake to the baseplate. The bottom channel is used to direct the heat away from the LED. The fan is mounted on the metal frame which helps reduce the overall profile of the product and improves its performance.
The product also features thermal conductive silicone for better heat dissipation and air exchange. It is designed with a symmetrical structure which helps to reduce the weight and increase the mechanical strength.
Conclusion
LRS180150CBK has been specifically designed to provide efficient and reliable LED thermal management. Its high power and temperature efficiency make it suitable for use in a wide variety of applications such as lighting, medical, automotive, industrial and communication. The product uses a combination of high temperature-resistant aluminum alloy and copper substrate as well as thermal conductive silicone to efficiently dissipate heat generated by LEDs. Moreover, its low profile design helps reduce the cost of installation.