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4H-SiC基超结器件各向异性的TCAD建模分析

TCAD Modeling of Anisotropy 4H-SiC Superjunction Devices
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摘要 基于文献报道的4H-SiC材料的各向异性物理特性,首次提出4H-SiC基超结器件的各向异性物理模型,并对不同晶向的碰撞电离分别进行考虑。基于该模型,我们对(0001)和(1120)两种晶向晶圆的4H-SiC超结器件的电学特性进行了研究。与(1120)晶圆相比,(0001)晶圆的碰撞电离系数较小,可以实现更高的击穿电压VB。由于碰撞电离各向异性,与传统4H-Si C基器件相比,超结器件的二维电场分布可以将(1120)晶圆器件的击穿电压VB从(0001)晶圆器件的60%提高到72%。 Based on reported experimental physical properties of anisotropic 4H-SiC,physical models of anisotropic 4H-Silicon carbide(4H-SiC)have been proposed first time for superjunction(SJ)devices. Anisotropic impact ioniza-tion is also considered in this model. Using proposed model,we investigated the electrical properties of anisotropic 4H-SiC SJ devices with respect to wafer orientation(0001)and(1120). Compared to the conventional anisotropic 4H-SiC devices,the breakdown voltage(VB)of(1120)SJ devices is increased to72% of(0001)wafer devices from 60%due to the bidirectional electric field profile.
作者 陆秋俊 王中健
机构地区 无锡职业技术学院 中国科学院上海微系统与信息技术研究所
出处 《电子器件》 CAS 北大核心 2016年第3期505-511,共7页 Chinese Journal of Electron Devices
基金 江苏省科技厅前瞻性研究项目(BY2014024)
关键词 功率器件 超结 4H-SIC 各向异性碰撞电离系数 击穿电压(VB) power device superjunction(SJ) 4H-SiC anisotropic impact ionization coefficient(IIC) Breakdown Voltage(VB)
分类号 TN386.1 [电子电信—物理电子学]
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