Improved Photoelectrothermal Model with Thermal Parameters Variation Applied to an Extra-High Current COB LED

Improved Photoelectrothermal Model with Thermal Parameters Variation Applied to an Extra-High Current COB LED

Blog Article

This work is mainly concerned with the improved photoelectrothermal (IPET) modeling of an extra-high current (EHC) and extra-high luminous flux (up to 60 klm) Parking Sensor solid-state light source based on a chip-on-board (COB) light-emitting diode (LED).The studied COB technology presents the particular challenge of extremely small thermal resistances, with extra-high current levels through the lamp (up to 12 A).Considering the unique thermal characteristics of such devices, an improved PET modeling and its respective experimental methodology are detailed.Accurate techniques are also proposed to estimate the device junction temperature.

The studied method is very suitable to represent Rolling Pin EHC COB devices, since it includes the main thermal parameters variation into a novel model, optimizing the flux prediction for this technology.In this context, the static flux and efficacy are analyzed by means of experimental tests and theoretical model, where the improvement of the employed method is highlighted.