Time-domain Monte Carlo simulation of GaN planar Gunn nanodiodes in resonant circuits

2014 International Workshop on Computational Electronics (IWCE) Pub Date : 2014-06-03 DOI:10.1109/IWCE.2014.6865816

B. G. Vasallo, J. Millithaler, I. Íñiguez-de-la-Torre, T. González, J. Mateos

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引用次数: 1

Abstract

In this work we present a theoretical study based on time-domain Monte Carlo (MC) simulations of GaN-based Self-Switching Diodes (SSDs) oriented to the experimental achievement and control of the sub-THz Gunn-oscillations potentially provided by these devices. With this aim, an analysis of the frequency performance of SSDs connected to a resonant RLC parallel circuit, is reported here. V-shaped SSDs have been found to be more efficient, in terms of the DC to AC conversion efficiency η, than similar square-shape ones. Indeed, a value of η of at least 0.80%, can be achieved with appropriate RLC elements, even when considering heating effects. When the influence of parasitic elements such as the crosstalk capacitance Ctalk is evaluated, MC simulations have shown that the resonant circuit must contain a capacitance C higher than Ctalk in order to obtain experimentally useful values of η. This condition can be reached by integrating a sufficiently high number N of parallel SSDs in the fabricated devices. MC simulations have also shown that when several diodes are fabricated in parallel the oscillations of all the SSDs are not synchronized, but this problem is solved by the attachment of a resonant RLC tank.

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谐振电路中GaN平面Gunn纳米二极管的时域蒙特卡罗模拟

在这项工作中，我们提出了一项基于时域蒙特卡罗(MC)模拟的基于gan的自开关二极管(ssd)的理论研究，旨在实验实现和控制这些器件可能提供的亚太赫兹gunn振荡。为此，本文报道了连接到谐振RLC并联电路的ssd的频率性能分析。在直流到交流的转换效率η方面，v形固态硬盘被发现比类似的方形固态硬盘更有效。事实上，即使考虑到加热效应，适当的RLC元件也可以达到至少0.80%的η值。当评估寄生元件(如串扰电容Ctalk)的影响时，MC模拟表明，为了获得实验有用的η值，谐振电路必须包含高于Ctalk的电容C。这个条件可以通过在制造的器件中集成足够多的N个并行ssd来达到。MC模拟还表明，当多个二极管并联制造时，所有固态硬盘的振荡不同步，但这个问题可以通过附加谐振RLC槽来解决。

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 International Workshop on Computational Electronics (IWCE)

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