布局对碳化硅JBS二极管浪涌电流和雪崩稳健性的影响

2023 35th International Symposium on Power Semiconductor Devices and ICs (ISPSD) Pub Date : 2023-05-28 DOI:10.1109/ISPSD57135.2023.10147620

F. Hsu, Hsiang-Ting Hung, C. Yen

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引用次数: 0

摘要

SiC结势垒肖特基二极管(JBS)要求具有高浪涌电流能力和雪崩坚固性。改善这两种特性的一种直接方法是增加器件中p+区域的比例。然而，增大p+面积会减小肖特基接触区，导致正向压降增大，动态性能变差。在这项工作中，我们从布局的角度提出了一系列的测试和讨论，以完整系统地实现浪涌电流耐受能力和雪崩坚固性。与传统设计相比，所提出的SiC JBS电池设计可以同时增强浪涌电流能力和雪崩坚固性。测试结果表明，与传统电池设计相比，该设计可将$I_{FSM}$提高115.7%，将$E_{AS}$提高374.3%。这表明所提出的设计在提高SiC JBS二极管的浪涌电流能力和雪崩耐用性方面是非常有效的。

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Impact of Layout Arrangement on Surge Current and Avalanche Robustness of Silicon Carbide JBS Diodes

SiC junction barrier Schottky diodes (JBS) are required to have high surge current capability and avalanche ruggedness. One direct approach to improve both these characteristics is to increase the proportion of the p+ region in the device. However, increasing the p+ area reduces the Schottky contact region, resulting in a higher forward voltage drop and worse dynamic behavior. In this work, we propose a series of tests and discussions from the layout perspective to a complete systematic realization of surge current endurance capability and avalanche ruggedness. The proposed SiC JBS cell design can simultaneously enhance both the surge current capability and avalanche ruggedness compared to conventional designs. The test results reveal that the proposed design can improve the $I_{FSM}$ by 115.7% and enhance the $E_{AS}$ by 374.3% compared to the conventional cell design. This indicates that the proposed design is highly effective in improving the surge current capability and avalanche ruggedness of SiC JBS diodes.

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2023 35th International Symposium on Power Semiconductor Devices and ICs (ISPSD)

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