Design and Fabrication for High-Voltage Silicon Carbide Drift Step Recovery Diode

2020 IEEE Workshop on Wide Bandgap Power Devices and Applications in Asia (WiPDA Asia) Pub Date : 2020-09-23 DOI:10.1109/WiPDAAsia49671.2020.9360296

Xiaoxue Yan, Lin Liang, Xinyuan Huang

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Abstract

A high-voltage drift step recovery diode (DSRD) based on silicon carbide (SiC) with a 6.2 kV blocking voltage of a single die is reported in this paper. The design and fabrication process of the SiC DSRD are also included. The bulk structure parameters of the high-voltage SiC DSRD and the termination structure parameters of a 3-step etched junction termination extension (JTE) are determined by the TCAD simulation. A pulse test circuit based on the high-voltage DSRD is designed. A high voltage pulse with a rise time of 0.8 ns and an amplitude of 5 kV is obtained through the TCAD simulation. In order to meet the expected blocking capability, the termination preparation process including the etching sequence of multi-step structure and the microtrench in inductively coupled plasma (ICP) etching of SiC is mainly investigated. The test results show that the sample can block a reverse voltage of 6.2 kV as a single die with a leakage current of $1.3 \mu A$ at room temperature. In addition, the specific ohmic contact resistance of the anode calculated by C-TLM method is $1.56 \times 10^{-6} \Omega \cdot$ cm2.

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高压碳化硅漂移阶跃恢复二极管的设计与制造

本文报道了一种基于碳化硅(SiC)的高电压漂移阶跃恢复二极管(dsd)，其单芯片阻断电压为6.2 kV。文中还介绍了碳化硅DSRD的设计和制作过程。通过TCAD仿真确定了高压SiC DSRD的本体结构参数和三阶蚀刻结端接扩展(JTE)的端接结构参数。设计了一种基于高压dsd的脉冲测试电路。通过TCAD仿真得到了一个上升时间为0.8 ns、幅值为5 kV的高压脉冲。为了满足期望的阻塞能力，重点研究了SiC电感耦合等离子体(ICP)刻蚀中多步结构的刻蚀顺序和微沟槽的终止制备工艺。测试结果表明，在室温下，该样品可以单片阻挡6.2 kV的反向电压，漏电流为$1.3 \mu A$。此外，用C-TLM法计算得到阳极的比欧姆接触电阻为$1.56 \times 10^{-6} \Omega \cdot$ cm2。

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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2020 IEEE Workshop on Wide Bandgap Power Devices and Applications in Asia (WiPDA Asia)

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