In high-voltage integrated circuits operating at high temperatures, charge transport phenomena can occur in the encapsulation layer as a consequence of the electric field spreading out from the high-voltage bondpads/bondwires. In this work, the most relevant features of epoxy resins commonly used in the high-voltage packaging industry have been modelled and implemented in a commercial TCAD tool. Although the study has been performed on a 2D simulation domain, it is shown that very good agreement with measurements can be obtained, provided that appropriate boundary conditions are taken into account. The TCAD investigation highlights the role played by metallization and wires during a high-voltage stress over a wide temperature range.
Imperiale, I., Reggiani, S., Gnani, E., Gnudi, A., Baccarani, G., Nguyen, L., et al. (2014). TCAD modeling of encapsulation layer in high-voltage, high-temperature operation regime [10.1109/ESSDERC.2014.6948826].
TCAD modeling of encapsulation layer in high-voltage, high-temperature operation regime
IMPERIALE, ILARIA;REGGIANI, SUSANNA;GNANI, ELENA;GNUDI, ANTONIO;BACCARANI, GIORGIO;
2014
Abstract
In high-voltage integrated circuits operating at high temperatures, charge transport phenomena can occur in the encapsulation layer as a consequence of the electric field spreading out from the high-voltage bondpads/bondwires. In this work, the most relevant features of epoxy resins commonly used in the high-voltage packaging industry have been modelled and implemented in a commercial TCAD tool. Although the study has been performed on a 2D simulation domain, it is shown that very good agreement with measurements can be obtained, provided that appropriate boundary conditions are taken into account. The TCAD investigation highlights the role played by metallization and wires during a high-voltage stress over a wide temperature range.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
