GaN $p$- fet桥(PFB-) hemt开关性能的混合模式TCAD仿真研究

2023 35th International Symposium on Power Semiconductor Devices and ICs (ISPSD) Pub Date : 2023-05-28 DOI:10.1109/ISPSD57135.2023.10147458

Junting Chen, Tao Chen, Zuoheng Jiang, Chengcai Wang, Zheyang Zheng, Jin Wei, K. J. Chen, M. Hua

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引用次数: 0

摘要

本工作通过混合模式(器件/电路)TCAD仿真研究了pfb - hemt在电路级开关瞬态期间的性能。通过在传统器件的栅极和源极之间插入一个正常导通的FET, pfb - hemt最近被提出具有比传统肖特基型$p$-GaN栅极hemt更高的阈值电压($V_{\text{TH}}$)。仿真结果表明，在快速开关瞬态过程中，fet的导通电阻应该足够低，以保持pfb - hemt的高V_{\text{TH}}$，从而防止误导通现象。通过将传统器件的同步开关替换为PFB-HEMT，降压转换器的效率在1 MHz时从95.2%提高到96.7%。

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Switching Performance of GaN $p$-FET-bridge (PFB-) HEMTs Studied with Mixed-mode TCAD Simulation

This work investigates the performance of PFB-HEMTs during switching transients at a circuit level by means of mixed-mode (device/circuit) TCAD simulation. The PFB-HEMTs have been recently proposed to have a higher threshold voltage ($V_{\text{TH}}$) comparing to conventional Schottky-type $p$-GaN gate HEMTs, by inserting a normally-on $p$-channel FET between the gate and source of a conventional device. In this simulation, it is found that the on-resistance of the $p$-FET should be adequately low to maintain the high $V_{\text{TH}}$ of the PFB-HEMTs during fast switching transients, thus to prevent false turn-on phenomenon. The efficiency of a buck convertor, by replacing the synchronous switch from a conventional device to a PFB-HEMT, increases from 95.2% to 96.7% at 1 MHz.

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来源期刊

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

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