zhang yong-hua, yang zhi-qiang, li ping, et al. Elementary analysis on breakdown phenomenon of coaxial-cable and connector[J]. High Power Laser and Particle Beams, 2005, 17: 245- .
Citation:
zhang yong-hua, yang zhi-qiang, li ping, et al. Elementary analysis on breakdown phenomenon of coaxial-cable and connector[J]. High Power Laser and Particle Beams, 2005, 17: 245- .
zhang yong-hua, yang zhi-qiang, li ping, et al. Elementary analysis on breakdown phenomenon of coaxial-cable and connector[J]. High Power Laser and Particle Beams, 2005, 17: 245- .
Citation:
zhang yong-hua, yang zhi-qiang, li ping, et al. Elementary analysis on breakdown phenomenon of coaxial-cable and connector[J]. High Power Laser and Particle Beams, 2005, 17: 245- .
In this paper, the experimental method of HPM breakdown of coaxialcable and connector is introduced. It is given by experimentaly that the microwave breakdown thresholds of several kinds of coaxial-cables and connectors vary with microwave frequency, pulse width, repetitive frequency and burst duration. Breakdown power threshold increases as pulse width (30 ns~1 μs) decreases, and an inflexion appear at about 100 ns. In low repetitive frequency region, i.e, from single pulse to 1 kHz, the repetitive rate of microwave pulse literally has no effect on breakdown power. Microwave frequency tuned from 2.856 GHz to 937 GHz, no significant change of breakdown power level is observed. When the pulse width becomes as narrow as tens of nanoseconds, the breakdown power varies little even though
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