Analysis of Electrical and Thermal Models for Pulsed IMPATT Diode Simulation

WSEAS TRANSACTIONS ON CIRCUITS AND SYSTEMS Pub Date : 2021-07-12 DOI:10.37394/23201.2021.20.19

A. Zemliak, E. Machusky

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Abstract

Some nonlinear models are presented for modeling and analyzing IMPATT high-power pulse diodes. These models are suitable for analyzing different operating modes of the oscillator. The first model is a precise one, which describes all important electrical phenomena on the basis of the continuity equations and Poisson´s equation, and it is correct until 300 GHz. The second approximate mathematical model suitable for the analysis of IMPATT diode stationary operation oscillator and for optimization of internal structure of the diode. The temperature distribution in the semiconductor structure is obtained using the special thermal model of the IMPATT diode, which is based on the numerical solution of the non-linear thermal conductivity equation. The described models can be applied for the analysis, optimization and practical design of pulsedmode millimetric IMPATT diodes. It can also be used to evaluate the thermal behavior of diodes, to correctly select the shape and amplitude of a supply pulse, and to design various types of high-power pulsed millimeter IMPATT diodes with a complex doping profile with improved characteristics.

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脉冲IMPATT二极管仿真的电学和热学模型分析

提出了一些非线性模型，用于对IMPATT大功率脉冲二极管进行建模和分析。这些模型适用于分析振荡器的不同工作模式。第一个模型是一个精确的模型，它在连续性方程和泊松方程的基础上描述了所有重要的电现象，并且在300 GHz之前是正确的。第二种近似数学模型适用于分析IMPATT二极管平稳工作振荡器和优化二极管内部结构。利用基于非线性导热方程数值解的IMPATT二极管的特殊热模型，得到了半导体结构中的温度分布。所描述的模型可用于脉冲模毫米impt二极管的分析、优化和实际设计。它还可以用于评估二极管的热行为，正确选择电源脉冲的形状和幅度，以及设计具有复杂掺杂轮廓的各种类型的高功率脉冲毫米IMPATT二极管，并改善其特性。

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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来源期刊

WSEAS TRANSACTIONS ON CIRCUITS AND SYSTEMS

CiteScore

0.50

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0.00%

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