Large-sized light-emitting diode integrated with a thermopile for on-chip temperature and power monitoring

Abstract

A large-sized multiple quantum well (MQW) light-emitting diode (LED) integrated with a thermopile for on-chip temperature and power monitoring is presented in this study. Seven thermopile structures, fully compatible with the fabrication of LEDs, are strategically placed at different locations on the LED to monitor its temperature during the operation. Additionally, the thermopile allows for monitoring the power of the LED, as there exists an approximate linear relationship between the light output power and temperature. Compared to traditional methods of measuring LED temperature, the thermopile offers several advantages, including no moving parts, long lifetime, no maintenance, high reliability, and direct conversion without intermediate processes. The results demonstrate that the integration of the thermopiles onto the LED provides superior temperature and power monitoring capabilities. Furthermore, this integrated solution has the potential to enable real-time management and control of LED temperature.