Transient Response Characteristics of Metal Oxide Arrester Under Strong Electromagnetic Pulse

High-altitude electromagnetic pulse (HEMP) is one of the few strong electromagnetic interferences which can interfere with wide-area distribution system simultaneously. It can form nanosecond rising edge and thousands of amperes current in power transmission line by field-line coupling. In order to study the strong electromagnetic pulse effect of the critical vulnerable equipment of power system and evaluate the survival ability of the high-altitude electromagnetic pulse, it is necessary to study the transient response characteristics of the metal oxide arrester to the high-altitude electromagnetic pulse by experiments. In this paper, the critical parameters such as peak value of overshoot, residual voltage peak value and response time of metal oxide arrester under the standard conduction environment of high-altitude electromagnetic pulse were obtained by experiments. The influence of the power on and power off state of the metal oxide arrester on the key parameters was analyzed by experiments. The results show that the peak value of overshoot voltage is 2.19 times higher than the residual voltage under the lightning impulse current, the peak value of residual pressure is 115.6% higher than that of the residual voltage of lightning impulse current, and the response time basically does not change with the pulse current amplitude. In addition, the influence whether the power of this type of metal oxide arrester is on or off to the parameters such as the peak value of overshoot, residual pressure and response time of this type of arrester on the variation of pulse current amplitude can be neglected. © 2022 Science Press. All rights reserved.