Exploitation of Hole Injection and Spreading for Dynamic Enhancement in p-GaN Gate HEMT under Room/High Temperatures

2023 35th International Symposium on Power Semiconductor Devices and ICs (ISPSD) Pub Date : 2023-05-28 DOI:10.1109/ISPSD57135.2023.10147649

Junjie Yang, Yanlin Wu, Muqin Nuo, Zheng-wei Chen, Xuelin Yang, B. Shen, Maojun Wang, Jin Wei

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Abstract

In this study, we investigate the role of hole injection and spreading in a p-GaN gate HEMT for addressing buffer-related dynamic $R_{\text{ON}}$ degradations. The proposed structure includes a buried AlGaN layer that acts as a hole barrier and provides a hole spreading channel (BHSC) under the 2DEG channel. During the on-state, holes are injected from the gate and spread along the BHSC. We observe that the hole injection is enhanced with increasing temperatures. The lateral spreading of holes is critical for suppressing buffer trapping outside of the gate region. As the suppression of buffer trapping is enhanced with an increase in $V_{\text{GS}}$, the dynamic $R_{\text{ON}}$ is dramatically reduced. We then adopt the widely used back-gating test to evaluate the dynamic $R_{\text{ON}}$ when buffer trapping is intentionally introduced. Finally, we demonstrate that the proposed device with BHSC exhibits nearly zero buffer-related dynamic $R_{\text{ON}}$ degradation from room temperature to 125°C.

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室温/高温下p-GaN栅极HEMT动态增强的空穴注入和扩散研究

在这项研究中，我们研究了p-GaN栅极HEMT中空穴注入和扩散的作用，以解决与缓冲相关的动态$R_{\text{ON}}$退化问题。所提出的结构包括一个埋藏的AlGaN层，作为一个孔屏障，并在2℃通道下提供一个孔扩展通道(BHSC)。在导通状态下，空穴从栅极注入并沿BHSC扩散。我们观察到，随着温度的升高，井眼注入增强。孔的横向扩展对于抑制栅极区域外的缓冲阱是至关重要的。随着$V_{\text{GS}}$的增加，缓冲区捕获的抑制得到增强，动态的$R_{\text{ON}}$显著减少。然后，我们采用广泛使用的反向控制测试来评估有意引入缓冲区捕获时的动态$R_{\text{ON}}$。最后，我们证明了所提出的具有BHSC的器件在室温到125°C期间具有几乎零缓冲相关的动态$R_{\text{ON}}$退化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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

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