Abstract
To investigate the features of the nuclear electromagnetic pulse (NEMP) coupling to overhead electrically short lines, we use a simpler lumped approximation method to solve the field-line coupling problems in the low-frequency case. It’s compared with the time-domain finite integration technology (FIT) in the software of Computer Simulation Technology (CST), and the results of both are in good agreement. In further, the scaled-down experiments of field-line coupling were carried out in the transverse electromagnetic (TEM) Cell with the NEMP simulator. The induced voltages at the terminal loads with different line lengths were measured experimentally and compared with the excitation signal. It shows that the load exhibits a differential response of the excitation signal when it is terminated with a low impedance.
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