Hvide chip-LEDs med rekordhøj lysstyrke
ROHM har udviklet nye hvide chip LEDs i en kompakt 1608-pakning med en lysstyrke på hele 2,0cd. Den hvide lysdiode sigter mod brug i bl.a. batteridrevet IoT-udstyr samt droner med mere (in english).ROHM has developed ultra-compact high luminous intensity white chip LEDs, called CSL1104WB. The products are optimized for applications requiring high brightness white light emission, such as IoT devices, drones, and other battery equipped applications.
In recent years, high luminous intensity (2.0cd) white LEDs are being increasingly adopted to improve visibility in a range of applications in the consumer electronics and automotive sectors. At the same time, the emergence of applications that mount multiple LEDs in a small space – such as IoT devices and drones – require high density mounting. This makes it difficult to achieve high brightness in a compact footprint.
High brightness in an ultra-compact size improves design flexibility
The CSL1104WB series achieves a high luminous intensity of 2.0cd in an ultra-compact 1608 size (1.6mm x 0.8mm = 1.28mm2), which was previously difficult to achieve. The result is the same luminosity as the current mainstream 3528 size PLCC package (3.5mm x 2.8mm = 9.8mm2) but in an 87% smaller form factor.
Moreover, color variation is significantly improved, simplifying the color adjustment process by ensuring accurate white color chromaticity. This not only contributes to greater application space savings, but also improves design flexibility along with visibility through high density mounting of high luminosity LEDs, reducing development load considerably. In addition, qualification under the automotive reliability standard AEC-Q102 specifically developed for optical devices is planned, enabling a smooth application inside industrial equipment and automotive applications that are exposed to harsh environments.
ROHM is committed to further expand its lineup of 1608 size white chip LEDs from low to high brightness – aiming to improve design flexibility while reducing development load (i.e. decreasing application height, simplifying product design).