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The dynamics of high-voltage pulsed discharge in nitrogen is studied experimentally under the conditions as follows: gas pressure 30 to 60 atm; applied voltage 200 to 400 kV; rise-time of the initial pulse 0.4 to 20 ns. The results are compared with the data of other writers.
Aspects of design of a multi-sectional Tesla transformer (MTT) presented as a system with three primaries are discussed. Calculation and experimental characteristics of MTT, and its advantages (lower currents in the primary, higher efficiency together with lower duration of the period) in comparison with traditional TT are shown.
Experimental study of a Tesla transformer (TT), intended for high-voltage power supply of subrelativistic electron devices is carried out. Tuning technique of TT and obtained experimental data are considered.
Tesla transformer (TT) operation is denoted by losses in primary circuit. The spark resistance of gas switch and its affect to TT performance are studied both experimentally and theoretically.
Design aspects and test results of high-pressure (60 atm) gas switch incorporating into high-voltage UWB coaxial forming line (with the output voltage of 200–600 kV, and rise-time of 0.2–0.4 ns) are considered.
Features and results of experimental parametrical study of high-voltage breakdown in dense dielectric media are considered. Influence of temporal characteristics of the test system to breakdown parameters of dielectric is shown. Design and performance data of voltage and current sensors together with algorithm for experimental data processing are discussed.
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