Fast bipolar voltage pulses were generated for exciting a dielectric coated discharge system by using a nonlinear transmission line (NLTL) which included nonlinear capacitors. The energy transfer efficiency of a basic resonant circuit consisting of a nonlinear capacitor was evaluated from the viewpoint of efficient energy transfer. The simulation results of the pulsed laser discharge show that the nonlinear capacitor is effective both in increasing the peak voltage and shortening the pulse width. A bipolar voltage pulse was generated by a specially connected cable discharge system switched by an SI thyristor. The input pulse of 700 V, 130 ns(FWHM) was compressed to 1.4 kV, 30 ns (FWHM) at the 7th section. The N/sub 2/ gas was excited by these short pulses and showed light emission of 30 ns (FWHM).
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机译:通过使用包括非线性电容器的非线性传输线(NLTL),产生了快速的双极电压脉冲,用于激励电介质涂覆的放电系统。从有效的能量转移的角度评估了由非线性电容器组成的基本谐振电路的能量转移效率。脉冲激光放电的仿真结果表明,非线性电容器在增加峰值电压和缩短脉冲宽度方面都是有效的。通过SI晶闸管切换的特殊连接的电缆放电系统产生了双极性电压脉冲。在第七部分,将700 V,130 ns(FWHM)的输入脉冲压缩为1.4 kV,30 ns(FWHM)。 N / sub 2 /气体被这些短脉冲激发,并显示出30 ns的光发射(FWHM)。
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