Optimal Emitter Cell Geometry in High Power 4H-SiC BJTs

Salemi Arash; Elahipanah Hossein; Zetterling Carl-Mikael; Ostling Mikael

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Optimal Emitter Cell Geometry in High Power 4H-SiC BJTs

机译：大功率4H-SiC BJT中最佳发射极电池几何

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摘要

Three 4H-SiC bipolar junction transistor designs with different emitter cell geometries (linear interdigitated fingers, square cell geometry, and hexagon cell geometry) are fabricated, analyzed, and compared with respect to current gain, ON-resistance , current density , and temperature performance for the first time. Emitter size effect and surface recombination are investigated. Due to a better utilization of the base area, optimal emitter cell geometry significantly increases the current density about 42% and reduces the ON-resistance about 21% at a given current gain, thus making the device more efficient for high-power and high-temperature applications.

机译：制作，分析了三种4H-SiC双极结晶体管设计，它们具有不同的发射极单元几何形状（线性叉指，方形单元几何形状和六边形单元几何形状），并就电流增益，导通电阻，电流密度和温度性能进行了比较首次。研究了发射极尺寸效应和表面重组。由于更好地利用了基极面积，最佳的发射极单元几何形状在给定的电流增益下显着提高了电流密度约42％，并降低了约21％的导通电阻，从而使该器件在高功率和高功率下效率更高。温度应用。

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来源
《Electron Device Letters, IEEE》 |2015年第10期|1069-1072|共4页
作者
Salemi Arash; Elahipanah Hossein; Zetterling Carl-Mikael; Ostling Mikael;
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作者单位

School of Information and Communications Technology, KTH Royal Institute of Technology, Kista, Sweden;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
ON-resistance; Power 4H-SiC BJTs; current density; current gain; surface recombination;

机译：导通电阻;功率4H-SiC BJT;电流密度;电流增益;表面重组;

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1. Influence of Emitter Width and Emitter–Base Distance on the Current Gain in 4H-SiC Power BJTs [J] . Buono B., Ghandi R., Domeij M., Electron Devices, IEEE Transactions on . 2010,第10期

机译：发射极宽度和发射极-基极距离对4H-SiC功率BJT中电流增益的影响
2. Simulation study of a 4H-SiC lateral BJT for monolithic power integration [J] . Shiwei Liang, Jun Wang, Fang Fang, Journal of Semiconductors . 2018,第12期

机译：4H-SIC横向BJT进行单片电力集成的仿真研究
3. Investigation of Current Gain Degradation in 4H-SiC Power BJTs [J] . B. Buono, R. Ghandi, M. Domeij, Materials science forum . 2012,第PTa2期

机译：4H-SiC功率BJT中电流增益衰减的研究
4. 1200 V 4H-SiC BJTs with a Common Emitter Current Gain of 60 and Low On-resistance [C] . H.-S. Lee, M. Domeij, C.-M. Zetterling, International conference on silicon carbide and related materials;ICSCRM 2007 . 2009

机译：1200 V 4H-SiC BJT，具有60的共同发射极电流增益和低导通电阻
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7. Optimal Emitter Cell Geometry in High Power 4H-SiC BJTs [O] . Salemi, Arash, Elahipanah, Hossein, Zetterling, Carl-Mikael, 2015

机译：大功率4H-SiC BJT中最佳发射极电池几何

Optimal Emitter Cell Geometry in High Power 4H-SiC BJTs

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