Output conductance at saturation like region on Line-TFET for different dimensions

2019 34th Symposium on Microelectronics Technology and Devices (SBMicro) Pub Date : 2019-08-01 DOI:10.1109/SBMicro.2019.8919309

W. G. Filho, J. Martino, P. Agopian

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引用次数: 3

Abstract

This work presents the behavior of Line Tunneling Field Effect Transistors (Line-TFET) at the saturation like region with different device's dimensions. In spite of the drain current and transconductance (gm) of the Line-TFET being proportional to the gate área (LgxW, with Lg: length and W:width), the output conductance (gd) is shown to be independent on the gate length at deep saturation. This unique behavior was observed experimentally and explained by numerical simulations. The conduction mechanisms are discussed and parasitic source to drain tunneling is found to be the main responsible for the output conductance value at the deep saturation like region, which doesn't depend upon Lg. Its impact on analog circuit design is also addressed, revealing fundamental differences of analog design using Line-TFET devices and MOSFET. It is revealed that if the designer wishes to increase the circuit voltage gain, this can be done by increasing the transconductance or the output resistance with Line-TFETs, as for MOSFETs only the latter option is available.

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不同尺寸的线- tfet类饱和区输出电导

本文研究了线隧穿场效应晶体管(Line- tfet)在不同器件尺寸的类饱和区域的性能。尽管线- tfet的漏极电流和跨导率(gm)与栅极área (LgxW, Lg:长度和W:宽度)成正比，但在深度饱和时，输出电导率(gd)与栅极长度无关。这种独特的行为是通过实验观察到的，并通过数值模拟加以解释。讨论了传导机制，发现漏极隧穿的寄生源是深饱和区输出电导值的主要原因，该值不依赖于Lg。它对模拟电路设计的影响也得到了解决，揭示了使用线-场效应管器件和MOSFET模拟设计的根本差异。结果表明，如果设计者希望增加电路电压增益，可以通过增加线- tfet的跨导或输出电阻来实现，对于mosfet来说，只有后者可用。

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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2019 34th Symposium on Microelectronics Technology and Devices (SBMicro)

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