Electrical Insulation Packaging for High Voltage High Power IGBT Modules using Nonlinear Conductivity Composites
ID:24 View Protection:PUBLIC Updated Time:2021-07-21 20:02:05 Hits:1474 Poster Presentation

Start Time:2021-08-27 12:43(Asia/Shanghai)

Duration:1min

Session:P Poster » P1Poster 1

Abstract
Wide band gap (WBG) semiconductor devices are developing rapidly due to their superior performance compared to traditional silicon-based devices. However, the packaging technology of traditional devices has limited the application of WBG semiconductor devices because of the challenges in the electrical insulation. The complex environment of high blocking voltage, high frequency and high temperature is the major reason for the insulation failure of encapsulation structure. Therefore, in this paper, an epoxy resin composite with nonlinear conductivity is proposed to be used as a coating to improve the electric field distribution of high voltage high power IGBT modules. Firstly, an electrical field simulation model was built considering the thermal stress. It was found that the electric field in high temperature was improved compared with that in room temperature due to the temperature-dependent conductivity of silicone gel. Nevertheless, the risk of insulation failure still exists. After the application of nonlinear conductivity materials (NCMs) coating, the maximum electric field at the triple junctions and the ratio of electric field distortion in high field areas were significantly decreased. Further analysis showed that the optimization degree of electric field increased with the increase of the blocking voltages or power losses in IGBT chip. The results have demonstrated that the NCMs can reduce the maximum electric field in the IGBT encapsulation structure by 73 % under the operating conditions of 120 W 10 kV. Partial discharge (PD) tests shows that the PDIV of the substrates with NCM coating is increased by 33% compared with the normal encapsulation structure and the coating significantly inhibits the growth of electric trees. The presented results indicate that the NCMs have the potential to improve the insulation performance of high voltage high power IGBT modules.
Keywords
packaging,Temperature,Composite
Speaker
Kaixuan Li
Doctoral Candidate XJTU

Submission Author
Haotao Ke CRRC
Boya Zhang XJTU
Xingwen Li XJTU
Kaixuan Li XJTU
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Important Date
  • Conference Date

    Aug 25

    2021

    to

    Aug 27

    2021

  • Apr 21 2021

    Abstract Submission Deadline

  • May 15 2021

    Abstract Notification of Acceptance

  • Jun 25 2021

    Final Paper Deadline

  • Aug 24 2021

    Contribution Submission Deadline

  • Aug 27 2021

    Registration deadline

Sponsored By
IEEE
IEEE ELECTRONIC DEVICE SOCIETY
Organized By
Huazhong University of Science and Technology