XHP70A-0L-02-0D0BM430E application field and working principle

XHP70A-0L-02-0D0BM430E is a powerful lighting-class LED package from Cree. It was developed primarily to meet the demands of industrial, outdoor, and consumer lighting applications which require the combination of the highest performance and reliability. This LED allows customers to drive their applications with the most power, highest efficiency, and lowest flux binning variation of any single-die LED.

XHP70A-0L-02-0D0BM430E LED packaging is a type of surface-mounted device (SMD). This LED technology provides improved thermal characteristics while still providing a high-power output and efficient conversion of electrical energy into light. This LED package produces a high-quality, homogenous light output across the full emission range. It is the ideal solution for applications which require high light output and long-term reliability, such as street lights, industrial and commercial lighting, emergency lighting, and area lighting.

The main distinguishing factor about XHP70A-0L-02-0D0BM430E is its “laser-grade alignment”. This type of alignment speeds the light distribution and reduces the need for diffuse reflectors, providing exactly the performance needed for many high-power and large-area lighting applications. Furthermore, it eliminates the need for diffusers, thus reducing the number of components required for an overall reduced cost solution. Additionally, this laser-grade alignment helps to achieve higher efficiency, higher light output, and higher beam control and uniformity.

XHP70A-0L-02-0D0BM430E works via passing an electrical current through a semiconductor or LED junction. When combined, the junction and the current create an electric field within the LED package, generating an optical output. The light emission from the LED is determined by the wavelength and intensity of the current passing through the junction. Higher current intensity results in higher light output from the LED while lower current intensity results in lower light output.