Title :
Load resistance estimation in ETC experiments
Author :
Young-Hyun Lee ; Kyoung-Jin Park ; Jae-Won Jung
Author_Institution :
Agency for Defense Dev., Taejon, South Korea
Abstract :
The performance of electrothermal-chemical (ETC) guns, besides being dependent on the total energy used, is also influenced by the time frame over which electric energy is deposited. This means the current pulse shaping is an important factor in increasing the pressure pulsewidth within the limit of the gun design pressure. For experiment design, it is necessary to predict the load resistance to supply the required shape of current pulses into the gun load. But it is difficult to identify the load resistance theoretically because the dynamic interactions of plasma with propellants should be understood. In this paper, it is suggested that the measured current and voltage can be utilized to develop an approximated model of the load resistance. It is also shown that the load resistance depends on the discharging voltage and current. Experimental tests have been performed with several shapes of current pulses to validate the resistance model.
Keywords :
electrothermal launchers; pulse shaping; time-varying systems; ETC experiments; current pulse shape; current pulse shaping; discharging voltage; electrical energy deposition; electrothermal-chemical guns; gun design pressure; gun load; load resistance; pressure pulsewidth; propellants; time frame; total energy; Current measurement; Electric resistance; Electrothermal launching; Guns; Plasma measurements; Propellants; Pulse shaping methods; Shape; Space vector pulse width modulation; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2002.805938
