The Micro-circuit Engineering in the Nonohmic Domain

机译：非欧姆领域的微电路工程

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Considering the breakdown of Ohm's law in micro-circuits, the direct and differential (incremental) resistance is shown to rise dramatically in the regime where applied voltage V triggering the nonohmic behavior is larger than the critical voltage V_co = (V_t / lscr_o ) L, where V_t is the thermal voltage lscr_o, is the Ohmic mean free path, and L is the length of the conducting channel. This resistance blow-up becomes more pronounced for a smaller-length resistor in a circuit where two resistors of equal ohmic values are connected in a series or parallel configuration. The power consumed not only is reduced but also is a linear function of voltage as compared to quadratic behavior in the ohmic regime. These results are of immense value to circuit engineers and those doing device characterization to extract parasitic and contact transport parameters.

机译：考虑到微电路中欧姆定律的破坏，在触发非欧姆行为的施加电压V大于临界电压V _{co </ sub>的情况下，直流电阻和差分（增量）电阻显示出急剧上升。 =（V _{t / lscr _{o ）L，其中V _{t 是热电压lscr _{o ，是欧姆平均自由程，L是传导通道的长度。对于在串联或并联配置中连接两个相等欧姆值的电阻器的电路中的长度较短的电阻器，这种电阻爆炸变得更加明显。与欧姆状态下的二次行为相比，不仅降低了功耗，而且还是电压的线性函数。这些结果对于电路工程师和进行器件表征以提取寄生和接触传输参数的工程师具有巨大价值。}}}}}

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来源
《Computer Modelling and Simulation, 2009. UKSIM '09》|2009年|p.600-604|共5页
会议地点 Cambridge(GB)
作者
Tan M.L.P.; Arora V.K.;
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作者单位

Eng. Dept., Univ. of Cambridge, Cambridge;

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会议组织
原文格式 PDF
正文语种 eng
中图分类自动模拟理论（自动仿真理论）;
关键词
electric resistance; integrated circuits; resistors; Ohm law; Ohmic mean free path; differential resistance; direct resistance; microcircuit engineering; nonohmic domain; resistor; thermal voltage; Critical Voltage; Micro-Circuit; Nonohmic; Ohm's Law; Saturation velocity; differential (incremental) resistance;

机译：电阻;集成电路;电阻器;欧姆定律;欧姆平均自由程;微分电阻;直流电阻;微电路工程;非欧姆域;电阻器;热电压;临界电压;微电路;非欧姆;欧姆定律;饱和速度;微分（增量）阻力;

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机译：位于佛罗里达州西棕榈滩的微电路工程公司的集成电路制造控制技术

The Micro-circuit Engineering in the Nonohmic Domain

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