有源x波段射频压缩系统中参数可调的高功率微波脉冲的形成

2015 16th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices Pub Date : 2015-08-13 DOI:10.1109/EDM.2015.7184524

V. Avgustinovich, S. Artemenko, V. Igumnov, Y. Yushkov

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引用次数: 0

摘要

本文介绍了通过波导短段耦合孔径处振荡模式的可控变换，在腔体能量输出过程中形成可调功率、可调持续时间、可调重复频率和可调包络形式的微波脉冲的理论和实验研究结果。通过模态耦合的可调节元件来改变脉冲参数，直接影响模态耦合系数h。证明了从压气机空腔中单次完整输出高频能量形成一系列亚纳秒级MW脉冲和不同脉冲持续时间纳秒级脉冲的可能性。脉冲的包络线是通过系统中波幅之间的递推关系来计算的，波幅之间的关系已根据散射矩阵法记录下来。将该方法应用于无源x波段射频脉冲压缩系统，在9.248 GHz下获得了8-9 dB的功率增益和8-10 ns的脉冲持续时间。

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Formation of high power microwave pulses with adjustable parameters in active X-band RF compression systems

The work presents the results of theoretical and experimental studies of the formation of microwave pulses with the adjustable power, duration, repetition rate and the envelope form during energy output from the cavity by controlled transformation of the oscillation mode at the waveguide stub coupling aperture. Pulse parameters are changed by adjustable elements of the coupling of modes, which directly affect to the coefficient of the coupling of modes h. The possibility to form a series of subnanosecond MW pulses at a fractional energy output and nanosecond pulses of various pulse duration at a single complete output of high frequency energy from the compressor cavity is demonstrated. The envelope of the pulses is calculated through the recurrence relations between the amplitudes of waves in the system, the relations between which have been recorded according to the scattering matrix method. Using this approach on passive X-band RF pulse compression system, we obtained power gain of 8-9 dB, 8-10 ns pulse duration at 9.248 GHz.

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2015 16th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices

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