A Comparison of Ion Implantation at Room Temperature and Heated Ion Implantation on the Body Diode Degradation of Commercial 3.3 kV 4H-SiC Power MOSFETs

2022 IEEE 9th Workshop on Wide Bandgap Power Devices & Applications (WiPDA) Pub Date : 2022-11-07 DOI:10.1109/WiPDA56483.2022.9955255
Jiashu Qian, Tianshi Liu, Jake Soto, M. Al‐Jassim, R. Stahlbush, N. Mahadik, Limeng Shi, Michael Jin, A. Agarwal
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Abstract

It has been demonstrated that basal plane dislocations (BPDs)-induced stacking faults (SFs) cause body diode degradation in commercial 4H-SiC power MOSFETs, especially with higher voltage ratings. BPDs originate from 4H-SiC boule, epi growth, and ion implantation. Considering the lower cost of ion implantation at room temperature (RT), this work investigates the potential of RT ion implantation replacing heated (HT) ion implantation by comparing the influence of both ion implantations on the body diode degradation of commercial 3.3 kV 4H-SiC power MOSFETs. We demonstrate with long-term (up to 1000 hours) forward current stress that RT implantation can keep the body diode degradation of 3.3 kV 4H-SiC power MOSFETs within the specification limits compared with HT implantation.
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常温离子注入与加热离子注入对3.3 kV 4H-SiC功率mosfet体二极管退化的影响
在商用4H-SiC功率mosfet中,基面位错(bpd)引起的层错(SFs)导致体二极管退化,特别是在高额定电压下。bpd来源于4H-SiC孔、外延生长和离子注入。考虑到室温离子注入成本较低,本研究通过比较两种离子注入对3.3 kV 4H-SiC功率mosfet体二极管退化的影响,探讨了室温离子注入取代加热离子注入的潜力。我们通过长期(长达1000小时)正向电流应力证明,与高温注入相比,RT注入可以使3.3 kV 4H-SiC功率mosfet的体二极管退化保持在规格限制内。
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2022 IEEE 9th Workshop on Wide Bandgap Power Devices & Applications (WiPDA)
2022 IEEE 9th Workshop on Wide Bandgap Power Devices & Applications (WiPDA)
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