在200 mm的绝缘体上氮化镓硅片上实现了击穿电压为2200 V的氮化镓hemt

2019 Symposium on VLSI Technology Pub Date : 2019-06-09 DOI:10.23919/VLSIT.2019.8776522

Zhihong Liu, Hanlin Xie, K. Lee, C. S. Tan, G. Ng, E. Fitzgerald

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引用次数: 1

摘要

GaN-on- si已显示出其在下一代电力电子应用中的巨大潜力，然而，由于大尺寸晶圆上GaN涂层厚度的限制，在提高击穿电压(BV_{\text{off}})方面仍然存在挑战。在这项工作中，我们提出了一种GaN-on-Insulator (GNOI)-on-Si结构来解决这个问题。通过去除GaN-on-Si晶片的原始Si衬底并粘合到新的SiO2/Si衬底上，制备了200 mm的gni -on-Si晶片。测量到的$BV_{\text{off}}$要比GaN-on-Si上的hemt大得多。在200 mm的gni -on- si晶片上，具有3.2 {\ μ m}$的薄GaN涂层的hemt实现了创纪录的高达2200 V的$BV \text{off}$和高达1.87 GW/cm2的高品质因数(FOM) $BV_{off^2}/R_{\text{on, sp}}$。

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GaN HEMTs with Breakdown Voltage of 2200 V Realized on a 200 mm GaN-on-Insulator(GNOI)-on-Si Wafer

GaN-on-Si has revealed its great potential for next-generation power electronics applications, however, there remains a challenge in increasing the breakdown voltage $(BV_{\text{off}})$ due to the limit of the GaN epilayer thickness on large size wafers. In this work we propose a GaN-on-Insulator (GNOI)-on-Si structure to address this issue. A 200 mm GNOI-on-Si wafer was prepared through removing the original Si substrate of a GaN-on-Si wafer and bonding onto a fresh SiO2/Si substrate. HEMTs were fabricated with measured $BV_{\text{off}}$ much larger than those on GaN-on-Si. Record high $BV \text{off}$ up to 2200 V and high figure-of-merit (FOM) $BV_{off^2}/R_{\text{on, sp}}$ up to 1.87 GW/cm2 have been achieved in the HEMTs on a 200 mm GNOI-on-Si wafer with a thin GaN epilayer of $3.2 {\mu m}$.

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2019 Symposium on VLSI Technology

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