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Active Thermal Management of High-Power LED Through Chip on Thermoelectric Cooler

Shuang Li, Jinglong Liu, Lu Ding, Jiaxin Liu, Jian Xu, Yang Peng, Mingxiang Chen

2021IEEE Transactions on Electron Devices52 citationsDOI

Abstract

In this work, we proposed a chip on thermoelectric cooler (chip-on-TEC) for the active thermal management of high-power light-emitting diode (LED). The chip-on-TEC was prepared by electroplating a circuit layer on the cold-side substrate of thermoelectric cooling (TEC) and directly attaching LED chips on the circuit layer. Due to the Peltier effect of TE materials and the low thermal resistance of chip-on-TEC structure, the heat generated from the chips can be dissipated to the surrounding environment effectively. The performances of chip-on-TEC were studied by using the thermal simulation and packaging experiment. Compared with the traditional packaging structure, the working temperature of chip-on-TEC is greatly reduced under various chip currents. At the chip current of 1.0 A, the chip-on-TEC can reduce the working temperature from 232 °C to 114 °C (the reduction of 51%). Moreover, the light output power of LED is increased by 35.3%. The chip-on-TEC also can improve the light intensity and the light saturation point of LED. The results demonstrate that the chip-on-TEC is a promising thermal management for high-power LED packaging.

Topics & Concepts

Thermoelectric coolingTECThermal management of high-power LEDsMaterials scienceChipThermoelectric effectOptoelectronicsJunction temperatureThermalLight-emitting diodeIntegrated circuitThermal resistanceElectrical engineeringEngineeringPhysicsAstronomyIonosphereThermodynamicsMeteorologyAdvanced Thermoelectric Materials and DevicesGaN-based semiconductor devices and materialsGreen IT and Sustainability
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