用双光子激光实验证明了SiC功率mosfet的寄生双极作用

2018 18th European Conference on Radiation and Its Effects on Components and Systems (RADECS) Pub Date : 2018-09-01 DOI:10.1109/RADECS45761.2018.9328733

Robert A. Johnson, A. Witulski, D. Ball, K. Galloway, A. Sternberg, E. Zhang, R. Reed, peixiong zhao, J. Lauenstein, A. Javanainen

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引用次数: 0

摘要

利用脉冲激光探索了碳化硅功率mosfet和功率结势垒肖特基二极管的双光子吸收技术。测试的特定mosfet和二极管之间的设计相似性允许使用存在于不同结构中的机制来解释观察到的电流随激光位置的变化。二极管仅随激光深度的变化而显示平均电流的变化，而MOSFET则随器件条纹几何形状的深度和位置的变化而显示变化。这种变化被解释为当脉冲聚焦包括栅极下面的通道时，MOSFET中产生的电荷载流子的双极放大。然后使用先前的重离子和类似碳化硅mosfet的模拟工作的结果加强了这一结论。

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Parasitic Bipolar Action in SiC Power MOSFETs Demonstrated by Two-Photon Laser Experiment

A two-photon absorption technique is explored for Silicon carbide power MOSFETs and power junction barrier Schottky diodes using a pulsed laser. The similarities in design between the specific MOSFETs and diodes tested permit using mechanisms existing in the different structures as explanation for observed current variation with laser position. The diode shows variation in average current with change in laser depth only, whereas the MOSFET shows variation both with shifts in depth and shifts in position across the striped geometry of the device. The variation is explained to be due to bipolar amplification of the charge carriers generated in the MOSFET when a pulse focus includes a channel below a gate. This conclusion is then reinforced using results from prior heavy ion and simulation work done for similar Silicon carbide MOSFETs.

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来源期刊

2018 18th European Conference on Radiation and Its Effects on Components and Systems (RADECS)

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