TY - GEN
T1 - Analysis and measure the transient currents of rail-gun with loop probes
AU - Cao, Rong Gang
AU - Li, Jun
AU - Jiao, Qing Jie
AU - Yuan, Jian Sheng
PY - 2012
Y1 - 2012
N2 - Loop probes are used to measure the magnetic field nearby the rails of the rail-gun, and the total current can be measured by these loops too. Several loops are placed at one side of the rails along a straight line, and the transient current can be calculated with the measured magnetic field waveforms and distances between probes and currents for the long line current models. According to the error of fixing probes, and the position shift of the current for skin and adjacent effects and electromagnetic forces, distances between currents and probes are hard to get for each shot. If two probes are used together, it is easier to measure the single line current waveform. It is needless to get the distance between probes and currents beforehand. The current waveforms can be calculated only with the calibrated distance between two probes and field waveforms. For the rail-gun's rail currents, which have the same amplitudes but reverse directions, we can use three loop probes. The current waveforms can be easily got from the three magnetic field waveforms without knowing the shift positions of the rail currents. The commercial PEARSON current monitor model 1423 is used to calibrate and verify the results. The results are compared with each other for the single loop, two loops and three loops. The results show that it is proper to measure the transient currents with one loop or two loops, while it would be better when the three loops are used. The method is useful especially for the situations that the huge ROGOWSKI current probes are hard to fix with limited volume space.
AB - Loop probes are used to measure the magnetic field nearby the rails of the rail-gun, and the total current can be measured by these loops too. Several loops are placed at one side of the rails along a straight line, and the transient current can be calculated with the measured magnetic field waveforms and distances between probes and currents for the long line current models. According to the error of fixing probes, and the position shift of the current for skin and adjacent effects and electromagnetic forces, distances between currents and probes are hard to get for each shot. If two probes are used together, it is easier to measure the single line current waveform. It is needless to get the distance between probes and currents beforehand. The current waveforms can be calculated only with the calibrated distance between two probes and field waveforms. For the rail-gun's rail currents, which have the same amplitudes but reverse directions, we can use three loop probes. The current waveforms can be easily got from the three magnetic field waveforms without knowing the shift positions of the rail currents. The commercial PEARSON current monitor model 1423 is used to calibrate and verify the results. The results are compared with each other for the single loop, two loops and three loops. The results show that it is proper to measure the transient currents with one loop or two loops, while it would be better when the three loops are used. The method is useful especially for the situations that the huge ROGOWSKI current probes are hard to fix with limited volume space.
KW - current measurement
KW - loop probe
KW - transient current
KW - transient magnetic field
UR - http://www.scopus.com/inward/record.url?scp=84869200576&partnerID=8YFLogxK
U2 - 10.1109/EML.2012.6325122
DO - 10.1109/EML.2012.6325122
M3 - Conference contribution
AN - SCOPUS:84869200576
SN - 9781467303057
T3 - Conference Proceedings - 2012 16th International Symposium on Electromagnetic Launch Technology, EML 2012
BT - Conference Proceedings - 2012 16th International Symposium on Electromagnetic Launch Technology, EML 2012
T2 - 2012 16th International Symposium on Electromagnetic Launch Technology, EML 2012
Y2 - 15 May 2012 through 19 May 2012
ER -
