Abstract
This work introduces the possibility of using Ag sinter-paste as a novel high-temperature and high-current wire bonding solution. We investigated the electromigration (EM) behavior and lifetime of the sintered Ag wiring under high current density and high temperature required for the design of power electronic devices. The sinter Ag wiring fabricated on the two Cu substrates were tested under current densities of 2.7 × 104 A/cm2 at temperature of 250 °C. The microstructure evolution of sintered wiring was characterized after EM test. The resistance of sintered wiring did not change even after EM test for 300 hours, which confirms that the Ag-paste sinter wire bonding is rather stable than aluminum wire bonding under high temperature and high current density. No degradation was observed in microstructure of sintered wiring after EM test. Thus, it is expected that Ag paste sinter wire bonding is one of potential alternative interconnection technology for power electronic devices.