The presence of space charge and leakage current within the epoxy-based mold compound (EMC) used as encapsulation material for high-voltage integrated circuits (HV-ICs) can significantly impact long-term reliability and performance of the devices when finally packaged. Moreover, the role of moisture, even if very little absorbed by the EMCs, can lead to a strong increase of the EMC conductivity, resulting in a larger electrostatic potential distortion when compared with the case of a perfectly dry insulating package. To directly measure the effects induced by space charge accumulation in dry and wet conditions, a dedicated test chip integrating a charge-sensor array has been manufactured and characterized. From the measured currents, the value of the electrostatic potential at the EMC/passivation interface has been accurately extracted. Moreover, the charge-sensor currents have been monitored during the discharging transient to investigate the concurrent coupling effects of the inner wiring and bondpads in discharge conditions.
Balestra, L., Gnani, E., Reggiani, S., Rossetti, M., Depetro, R. (2024). Characterization and TCAD Simulation of the Electrostatic Potential Distortion in HV-ICs due to Losses in the Epoxy Mold Compound. 345 E 47TH ST, NEW YORK, NY 10017 USA : IEEE [10.1109/LAEDC61552.2024.10555794].
Characterization and TCAD Simulation of the Electrostatic Potential Distortion in HV-ICs due to Losses in the Epoxy Mold Compound
Balestra L.
Membro del Collaboration Group
;Gnani E.Membro del Collaboration Group
;Reggiani S.Membro del Collaboration Group
;
2024
Abstract
The presence of space charge and leakage current within the epoxy-based mold compound (EMC) used as encapsulation material for high-voltage integrated circuits (HV-ICs) can significantly impact long-term reliability and performance of the devices when finally packaged. Moreover, the role of moisture, even if very little absorbed by the EMCs, can lead to a strong increase of the EMC conductivity, resulting in a larger electrostatic potential distortion when compared with the case of a perfectly dry insulating package. To directly measure the effects induced by space charge accumulation in dry and wet conditions, a dedicated test chip integrating a charge-sensor array has been manufactured and characterized. From the measured currents, the value of the electrostatic potential at the EMC/passivation interface has been accurately extracted. Moreover, the charge-sensor currents have been monitored during the discharging transient to investigate the concurrent coupling effects of the inner wiring and bondpads in discharge conditions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
