The elimination of tuning-induced burnout and bias-circuit oscillations in IMPATT oscillators

Bell System Technical Journal Pub Date : 1973-03-01 DOI:10.1002/J.1538-7305.1973.TB01964.X

C. Brackett

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引用次数: 51

Abstract

IMPATT diode microwave oscillators suffer from the effects of low-frequency instabilities, which include excessive up-conversion of bias-circuit noise, bias-circuit oscillations, and diode burnout induced by tuning at the microwave frequency. These instabilities are particularly troublesome in GaAs diodes, although also present in both Ge and Si to a lesser extent. Moreover, these instabilities are more prominent in higher efficiency, higher power diodes, presenting a severe systems problem in the practical utilization of GaAs diodes at their highest power and efficiency levels. In this paper, it is shown that these instabilities may be eliminated in a systematic and well controlled manner with little or no loss in microwave power or efficiency. It is shown that the source of the unstable behavior is a low-frequency RF voltage-induced negative resistance which extends from dc to several tens, and perhaps hundreds, of megahertz, depending on the loaded Q of the microwave circuit. The negative resistance is an unavoidable fact of large-signal avalanche diode operation and is due to the rectification properties of the nonlinear microwave avalanche.

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IMPATT振荡器中调谐诱发烧坏和偏置电路振荡的消除

IMPATT二极管微波振荡器受到低频不稳定性的影响，包括偏置电路噪声的过度上变频、偏置电路振荡和微波频率调谐引起的二极管烧毁。这些不稳定性在砷化镓二极管中尤其麻烦，尽管在锗和硅中也存在较小程度的不稳定性。此外，这些不稳定性在更高效率、更高功率的二极管中更为突出，在实际使用最高功率和效率水平的砷化镓二极管时提出了严重的系统问题。本文表明，这些不稳定性可以通过系统和良好控制的方式消除，而微波功率或效率的损失很小或没有损失。结果表明，不稳定行为的来源是低频射频电压诱导的负电阻，其范围从直流电延伸到几十甚至几百兆赫，这取决于微波电路的负载Q。负电阻是大信号雪崩二极管工作中不可避免的事实，是由非线性微波雪崩的整流特性引起的。

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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Bell System Technical Journal

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