Why precise calibration of COB technology is critical for LED
COB technology involves integrating multiple LED chips directly onto a substrate to form a single, high-power light source. This innovative approach improves thermal performance, increases optical density and enhances reliability compared to traditional LED setups. The seamless integration of LED chips in COB technology eliminates the need for separate LED components and enables compact, high-intensity lighting, making it an attractive option for a variety of lighting applications.
Calibration in COB technology refers to the careful adjustment and alignment of various components to achieve optimal performance. Inaccurate calibration can result in substandard LED performance, reduced energy efficiency, and reduced light quality. Proper calibration is critical to ensuring COB technology operates optimally, maximizing its potential and longevity. It directly affects the overall performance and reliability of LED lamps, making it an indispensable aspect of LED technology optimization.
Utilize a range of techniques, from spectral radiometric measurements to advanced optical modeling, to achieve precise calibration for specific lighting requirements. Point-by-point correction collects the brightness and chromaticity data of each sub-pixel on the LED display, gives the correction coefficient of each primary color sub-pixel, and feeds it back to the control system of the display, and the control system applies the correction coefficient , to achieve differential driving of each primary color sub-pixel, thereby improving the brightness, chromaticity uniformity and color fidelity of the display screen
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