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首页> 外文会议>International Symposium on Silicon-on-Insulator Technology and Devices >IMPACT OF BODY-TO-BODY LEAKAGE ON MOSFET DESIGN SCALING IN PARTIALLY DEPLETED SOI
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IMPACT OF BODY-TO-BODY LEAKAGE ON MOSFET DESIGN SCALING IN PARTIALLY DEPLETED SOI

机译:体内泄漏对部分耗尽SOI MOSFET设计缩放的影响

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摘要

The impact of body-to-body leakage in partially depleted SOI devices is examined. This paper describes, for the first time, the BBL impact on circuit performance based on models derived from measured BBL current-voltage characteristics (I-Vs). It also explores key sensitivities to process variations in diffusion depth, silicon film thickness, and stacked MOSFET gate spacing. The impact of BBL is found to depend on circuit topology. To gain the full advantage of SOI performance, BBL has been eliminated by making source and drain diffusions deep enough to abut the BOX. The reduction in diffusion depth between minimally spaced stacked FETs represents the worst-case condition for BBL.
机译:检查了体内对体泄漏在部分耗尽的SOI器件中的影响。本文首次介绍了基于从测量的BBL电流 - 电压特性(I-VS)的模型对电路性能的影响。它还探讨了用于扩散深度,硅膜厚度和堆叠的MOSFET栅极间距的过程变化的关键敏感性。发现BBL的影响取决于电路拓扑。为了获得SOI性能的充分优势,通过使源极限和排水扩散足以抵挡盒子来消除BBL。微间隔堆叠的FET之间的扩散深度的降低代表BBL的最坏情况条件。

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