The project focuses on the use of the laser reflectometry technique, usually employed for studying thin films, in an innovative way: conduct thermoreflectance measurements to determine directly the junction temperature of an IGBT module short-circuited. The thermoreflectance measurement, a non-destructive and contactless technique, consists in employing a laser beam and measuring the reflected light, whose amplitude changes as the temperature of the DUT. Therefore, it is possible to relate the measured light with the temperature. The junction temperature is a key parameter to study the reliability of an IGBT module under thermal stresses during operation.

The project focuses on the use of the laser reflectometry technique, usually employed for studying thin films, in an innovative way: conduct thermoreflectance measurements to determine directly the junction temperature of an IGBT module short-circuited. The thermoreflectance measurement, a non-destructive and contactless technique, consists in employing a laser beam and measuring the reflected light, whose amplitude changes as the temperature of the DUT. Therefore, it is possible to relate the measured light with the temperature. The junction temperature is a key parameter to study the reliability of an IGBT module under thermal stresses during operation.

Laser Reflectometry for Temperature Estimation of short-circuited IGBT Modules

JAKUZA, PAOLA
2021/2022

Abstract

The project focuses on the use of the laser reflectometry technique, usually employed for studying thin films, in an innovative way: conduct thermoreflectance measurements to determine directly the junction temperature of an IGBT module short-circuited. The thermoreflectance measurement, a non-destructive and contactless technique, consists in employing a laser beam and measuring the reflected light, whose amplitude changes as the temperature of the DUT. Therefore, it is possible to relate the measured light with the temperature. The junction temperature is a key parameter to study the reliability of an IGBT module under thermal stresses during operation.
2021
Laser Reflectometry for Temperature Estimation of short-circuited IGBT Modules
The project focuses on the use of the laser reflectometry technique, usually employed for studying thin films, in an innovative way: conduct thermoreflectance measurements to determine directly the junction temperature of an IGBT module short-circuited. The thermoreflectance measurement, a non-destructive and contactless technique, consists in employing a laser beam and measuring the reflected light, whose amplitude changes as the temperature of the DUT. Therefore, it is possible to relate the measured light with the temperature. The junction temperature is a key parameter to study the reliability of an IGBT module under thermal stresses during operation.
Laser Reflectometry
IGBT Modules
Short circuit tests
Lauree magistrali
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/35532