Title :
Electromagnetic Transient Simulation of Spark-Gap Switched Pulse Generators for Predicting Pulse Waveforms
Author_Institution :
Fourth Inst., Agency for Defense Dev., Daejeon, South Korea
Abstract :
This paper presents an electromagnetic simulation method for spark-gap switched pulse generators (SGSPGs). Electromagnetic simulation programs can be useful for designing nanosecond or subnanosecond SGSPGs; however, these programs do not support simulation models of spark-gap switches. This paper describes a simulation method that determines electric field at an observation point in the SGSPG by replacing the spark-gap switch with a step voltage source. In this simulation, the discharge properties of the spark-gap switches, including the breakdown voltage and rise time, are determined using the results of the studies on electrical breakdown. A 1-ns single pulse-forming line was fabricated to validate the proposed method. The simulated waveform was in good agreement with the measured waveform.
Keywords :
electronic engineering computing; pulse generators; spark gaps; switches; SGSPG; breakdown voltage; discharge property; electric field; electrical breakdown; electromagnetic transient simulation method; pulse waveform prediction; single pulse-forming line fabrication; spark-gap switched pulse generator; step voltage source; time 1 ns; Discharges (electric); Electrodes; Electromagnetics; Integrated circuit modeling; Resistors; Switches; Ultra wideband technology; Electromagnetic transient simulation; high-power electromagnetic (HPEM); pulse generator; pulse-forming line (PFL); spark-gap switch; ultrawideband source; wideband (WB) source;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2341743
