用于20V薄膜SOI的横向锥形有源场极板LDMOS器件

2013 25th International Symposium on Power Semiconductor Devices & IC's (ISPSD) Pub Date : 2013-05-26 DOI:10.1109/ISPSD.2013.6694464

M. Abou-Khalil, T. Letavic, J. Slinkman, A. Joseph, A. Botula, M. Jaffe

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引用次数: 4

摘要

我们提出了一种20V应用于薄体SOI技术的新器件设计。高击穿电压是通过形成rx束缚场板来实现的，该场板仅使用横向电场耦合就耗尽了LDMOS结构的漂移区域。采用基线180nm CMOS SOI工艺，设计了RX场板形状，以产生基本均匀的纵向漂移区电场，满足RESURF原理。我们研究了浮动体和体接触n沟道LDMOS器件的器件缩放和改变角度RX场板宽度和长度的影响，以及它们与冲击电离率的关系。采用三维TCAD仿真研究了设计参数对电场和冲击电离的影响。实验演示了统一的20V额定LDMOS器件，验证了LDMOS选择堆叠CMOS用于SOI技术的高压应用。

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Lateral tapered active field-plate LDMOS device for 20V application in thin-film SOI

We present a new device design for 20V application in thin body SOI technology. High breakdown voltage is achieved by forming RX-bound field plates which deplete the drift region of an LDMOS structure using only lateral electric field coupling. A baseline 180nm CMOS SOI process is utilized and RX field plate shapes are designed to result in an essentially uniform longitudinal drift region electric field satisfying the RESURF principal. We studied device scaling and the effect of varying the width and length of the angular RX field plates and their relation to impact ionization rate in both floating body and body-contacted n-channel LDMOS deices. 3D TCAD simulations were used to investigate the effect design parameters on electric field and impact ionization. Unitary 20V rated-LDMOS devices are experimentally demonstrated, verifying a LDMOS option to stacked CMOS for high voltage applications in SOI technology.

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来源期刊

2013 25th International Symposium on Power Semiconductor Devices & IC's (ISPSD)

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