Universal mechanisms of Al metallization ageing in power MOSFET devices
Résumé
Power MOSFET devices are extensively used in the automotive industry, but their modes of ageing are still poorly understood. Here we focus on the physical degradation mechanisms that occur in the upper Al-based metallization layer (source). This layer undergoes thermo-mechanical structural modifications due to the combination of electrical pulses and differences between the various coefficients of thermal expansion. Using electronic and ionic microscopy, we show that ageing can be divided in 2 phases where dislocation-based plasticity and then grain boundary diffusion become predominant. As a result, grain boundary grooving and surface roughening follows a partial division of the later in disconnected Al grains. Such a degradation of the metallization has been widely observed in various devices. It may lead to the observed augmentation of resistivity and also to the focusing of the various current paths, promoting hot spots and subsequent failure.
Mots clés
Aluminum
Automotive industry
Degradation
Grain boundaries
Metallizing
Plastic deformation
Thermal expansion
Transmission electron microscopy
Al-metallization
Coefficients of thermal expansions
Degradation mechanism
FIB
Grain boundary grooving
Grain-boundary diffusion
Structural modifications
Universal mechanisms
MOSFET devices