Abstract <p>Currently, the LINAC-200 linear electron accelerator is under commissioning at the Laboratory of Nuclear Problems [1]. The RF power supply system of the LINAC-200 accelerator has been designed using TH2129 type klystrons, whose maximum voltage, according to the data sheet specification, is 240 kV. The existing klystron power supply system can only provide 2/3 of the maximum supply voltage, which also limits maximum power of the klystrons. The circuit design solutions that allow an increase in the voltage on the klystron power supply modulator are studied. A unique shaper of short bipolar pulses for switching cell drivers has been developed as a power control system.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Development of a Shaper of Short Bipolar Pulses

  • O. L. Seroshtanov,
  • V. V. Kobets,
  • A. A. Ulankin

摘要

Abstract

Currently, the LINAC-200 linear electron accelerator is under commissioning at the Laboratory of Nuclear Problems [1]. The RF power supply system of the LINAC-200 accelerator has been designed using TH2129 type klystrons, whose maximum voltage, according to the data sheet specification, is 240 kV. The existing klystron power supply system can only provide 2/3 of the maximum supply voltage, which also limits maximum power of the klystrons. The circuit design solutions that allow an increase in the voltage on the klystron power supply modulator are studied. A unique shaper of short bipolar pulses for switching cell drivers has been developed as a power control system.