New modular bi-directional power-switch and self ESD protected in 28nm UTBB FDSOI advanced CMOS technology

2014 IEEE International Conference on IC Design & Technology Pub Date : 2014-05-28 DOI:10.1109/ICICDT.2014.6838590

P. Galy, J. Bourgeat, D. Marin-Cudraz

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引用次数: 3

Abstract

The aim of this paper is to introduce a new design of modular bi-directional power switch for 28nm Ultra Thin Body and BOX (UTBB) Full Depleted (FD) SOI advanced CMOS technology and beyond. Moreover, this proposed solution is self-protected against ElectroStatic Discharge (ESD). The first challenge is to obtain a robust symmetrical elementary power device compatible with this technology and with a silicon area optimization. The second one is to provide a new design to trigger this power device. The last challenge is to be efficient in term of ESD robust without additional protection device. These specifications are reached thanks to a Triac (dual back to back SCR) power device in matrix and BIMOS transistors used in a new trigger solution. The study is performed through the 2D-3D TCAD simulation and a test chip is performed in 28nm FDSOI with silicon demonstrator. Measurements are done in DC sweep condition, in high current pulse with 100ms time width. It also includes Transmission Line Pulse (TLP) with 100ns time width to characterize and qualify this design and topology in ESD range time event.

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新型模块化双向电源开关和自ESD保护，采用28nm UTBB FDSOI先进的CMOS技术

本文的目的是介绍一种新的模块化双向功率开关设计，用于28nm超薄机身和BOX (UTBB)全耗尽(FD) SOI先进的CMOS技术。此外，该解决方案具有防静电放电(ESD)的自我保护功能。第一个挑战是获得与该技术兼容且具有硅面积优化的鲁棒对称初级功率器件。第二个是提供一个新的设计来触发这个功率装置。最后一个挑战是在没有额外保护装置的情况下实现高效的ESD鲁棒性。由于在矩阵中使用了Triac(双背对背可控硅)功率器件，并且在新的触发解决方案中使用了BIMOS晶体管，因此达到了这些规格。该研究通过2D-3D TCAD仿真进行，并在28nm FDSOI中使用硅演示器进行了测试芯片。测量是在直流扫描条件下，在100ms时间宽度的大电流脉冲中完成的。它还包括100ns时间宽度的传输线脉冲(TLP)，用于在ESD时间事件范围内表征和验证该设计和拓扑结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 IEEE International Conference on IC Design & Technology

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