Enhancement of turn-off gate voltage waveform change by digital gate control for bond wire lift-off detection in IGBT module

The bond wire lift-off is the one of main failures for insulated gate bipolar transistors (IGBT) power modules. The wire lift-off increases parasitic inductance LeE in the module and the gate voltage Vge waveform is modulated by LeE·dIe/dt. Therefore, the Vge waveform has the potential for an indicator of condition monitoring. The Digital gate control (DGC) can control switching behavior precisely for low-loss and low-noise switching. It is also effective for sensitivity enhancement of Vge waveform changed by the wire lift-off. This paper reports how the DGC 2-step vector control (2-sVC) can improve the wire lift-off failure detection sensitivity by Vge waveform. The experiment results showed that the Vge spike was generated by LeE·dIe/dt at the turn-off switching and the spike generation timing depended on the wire number. The DGC obtained the larger timing-shift Δtwire and the amplitude ΔVge-surge than those at the conventional gate control. In addition, the best vector condition improved the trade-off between turn-off loss and collector voltage overshoot compared with the conventional gate control. From these results, the DGC is effective to enhance the sensitivity of bond wire lift-off detection by Vge waveform maintaining the best switching performance.