Review of klystron modulator technology for particle accelerators

W. Nunnally, T. Engel
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引用次数: 8

Abstract

Modern, continuously operating particle accelerators require large power, highly stable, radio frequency power generators to provide the sinusoidal electric field for acceleration. The most common and efficient method of generating RF power is the klystron, which is further powered by a microsecond scale, high voltage, moderate current pulse power source at moderate pulse rates. The most commonly used klystron modulator consists of a thyratron switched pulse forming line and a voltage step up transformer, which is termed a "line modulator". This paper describes the common line type modulator, the individual components, the specifications, and the cost breakdown for a typical system. The objective of this paper is to investigate the methods of designing modulators for the next generation of particle accelerators, and to evaluate circuit and component options for improving the performance to cost ratio. A large number of klystrons and thus klystron modulators will be required for any next generation particle physics accelerator and thus, the reliability and the cost of the individual components are critical parameters that will determine the feasibility of building any pulse power klystron modulator system. This paper also discusses reliability and cost issues associated with klystron modulator system and component design and implementation.
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粒子加速器用速调管调制器技术综述
现代的、连续运行的粒子加速器需要大功率、高稳定的射频发电机来提供加速所需的正弦电场。产生射频功率的最常见和最有效的方法是速调管,它进一步由微秒级、高压、中等电流的脉冲电源以中等脉冲速率供电。最常用的速调管调制器由闸流管开关脉冲形成线和电压升压变压器组成,称为“线路调制器”。本文介绍了一个典型系统的常用线路型调制器、各部件、规格和成本分析。本文的目的是研究下一代粒子加速器调制器的设计方法,并评估电路和元件的选择,以提高性能与成本比。任何下一代粒子物理加速器都需要大量的速调管和速调管调制器,因此,单个组件的可靠性和成本是决定构建任何脉冲功率速调管调制器系统可行性的关键参数。本文还讨论了与速调管调制器系统和元件设计与实现相关的可靠性和成本问题。
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