具有优化结场效应晶体管区域的13kv SiC mosfet低导通和快速开关

2017 29th International Symposium on Power Semiconductor Devices and IC's (ISPSD) Pub Date : 2017-05-01 DOI:10.23919/ISPSD.2017.7988982

H. Kitai, Y. Hozumi, H. Shiomi, K. Fukuda, Masaki Furumai

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引用次数: 9

摘要

本文研制了一种在结场效应晶体管(JFET)区域逆行掺杂的13kv SiC MOSFET，该MOSFET由多能态氮离子注入，用于x射线发生器和加速电压大于10kv的电子枪的电源。通过器件仿真对JFET区域进行优化，降低导通电阻。采用5 mm × 5 mm的晶片尺寸制备了具有优化JFET区域的SiC MOSFET。比导通电阻(RonA)估计为169 mΩ·cm2。在10 μA/cm2下获得了13.1 kV的阻断电压(BVDSS)。由于栅极氧化物(Eox)中的电场较低，在−15 V的栅极电压(等于−3 MV/cm的电场)和200℃下，在1000小时内实现了阈值电压(Vth)的±0.06 V的位移。在感应负载下的动态试验结果表明，在室温下，直流母线电压为10 kV时，关断和导通速度分别为75 kV/μs和114 kV/μs。

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Low on-resistance and fast switching of 13-kV SiC MOSFETs with optimized junction field-effect transistor region

In this paper, a 13-kV SiC MOSFET with a retrograde doping profile in junction field-effect transistor (JFET) regions, which were implanted by nitrogen ions with multiple energies, has been developed for power supplies of X-ray generators and electron guns with an accelerating voltage greater than 10 kV. A JFET region was optimized with device simulation to reduce on-resistance. A SiC MOSFET with an optimized JFET region was fabricated with a 5 mm × 5 mm die size. The specific on-resistance (RonA) was estimated to be 169 mΩ·cm². The blocking voltage (BVDSS) of 13.1 kV was obtained at 10 μA/cm². Owing to a low electric field in the gate oxide (Eox), a threshold voltage (Vth) shift within ± 0.06 V was achieved at the gate voltage of −15 V (equal to an electric field of −3 MV/cm) and 200 °C for 1000 hours. The dynamic test with inductive load resulted in turn-off and turn-on switching speeds of 75 kV/μs and 114 kV/μs, respectively, for the DC bus voltage of 10 kV at room temperature.

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来源期刊

2017 29th International Symposium on Power Semiconductor Devices and IC's (ISPSD)

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