High-gain crossed-field amplifier tube

1977 International Electron Devices Meeting Pub Date : 1900-01-01 DOI:10.1109/IEDM.1977.189219

G. MacMaster, L. Nichols

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引用次数: 3

Abstract

Raytheon Company, under Naval Electronic Systems Command sponsorship, has conducted a program to develop a high gain crossed-field amplifier. This development program reflected the future needs for high-gain CFA's that would permit lower-powered rf drivers and eliminate the need for high power isolators. Present advantages of the crossed-field amplifier, such as high efficiency and cold cathode operation, were to be retained. The method of obtaining high gain in a crossed-field amplifier was to introduce the rf drive signal at the source of electrons. This was accomplished by forming the secondary emission cathode into a slow-wave structure that will support microwave energy. The traveling wave on the cathode forms the desired space charge spokes at a low energy level. These space charge spokes induce current in the anode circuit. The introduction of rf drive signal onto the cathode also provides a high degree of isolation between the amplified output signal and the rf drive energy. During the present cathode-driven, crossed-field amplifier program, the S-band CFA was operated with an rf gain of 28 dB over a frequency band of 14%. Initial background noise measurements were made using a full 2000 MHz sweep on the spectrum analyzer.

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高增益交叉场放大管

雷声公司在海军电子系统司令部的赞助下，实施了一项开发高增益交叉场放大器的计划。该开发计划反映了未来对高增益CFA的需求，这将允许低功率rf驱动器并消除对高功率隔离器的需求。交叉场放大器的现有优点，如高效率和冷阴极操作，将被保留。在交叉场放大器中获得高增益的方法是在电子源处引入射频驱动信号。这是通过将二次发射阴极形成支持微波能量的慢波结构来实现的。阴极上的行波在低能级上形成所需的空间电荷辐条。这些空间电荷辐条在阳极电路中感应电流。在阴极上引入射频驱动信号也提供了放大输出信号和射频驱动能量之间的高度隔离。在阴极驱动的交叉场放大器程序中，s波段CFA在14%的频带上以28 dB的射频增益运行。最初的背景噪声测量是在频谱分析仪上使用2000兆赫的全扫描进行的。

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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1977 International Electron Devices Meeting

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