提出高功率电磁脉冲作用下MESFET热效应分析的时间尺度统一算法。
We propose a unified time scale algorithm for thermal effect of MESFET under irradiation of high power electromagnetic pulses.
特别地,当一个高功率电磁脉冲突然加载在晶体管上时,会导致晶体管的电击穿或热击穿。
In particular, as a high-power EMP is suddenly injected into a transistor, electrical or thermal breakdown can be definitely caused.
为研究高功率电磁脉冲的测量技术,提出一种应用标准增益喇叭天线和宽带数字示波器进行电磁脉冲辐射电场测量的方法。
In order to study the measurement technique of high power electromagnetic pulse, standard gain horn and wideband digital oscilloscope are adopted to measure the electromagnetic pulse waveform.
研制了一种由高功率宽带模式转换结构、导电线框tem喇叭馈电结构及抛物反射面构成的天线,用其辐射高功率亚纳秒电磁脉冲。
An antenna was developed to radiate high power, sub nanosecond EM pulse, which consists of a high power wideband mode convertor, a wire frame TEM horn feedback set and a parabolic reflector.
电磁脉冲和高功率微波装置能够在相当大的面积上使各种各样军事和基础设施的电子设备失能,这对于分散目标也是有效的。
EMP and HPM devices can disable a large variety of military or infrastructure equipment over a relatively broad area. This can be useful for dispersed targets.
在电热、电磁发射技术中,高功率脉冲电源占据着非常重要的位置,开关是高功率脉冲电源的重要组成部分。
In the electrothermal chemical and electromagnetic launch technology, the high power pulsed sources occupy a very important place.
电磁脉冲(EMP)和高功率微波(HPM)武器能以其瞬间功率骤增而对电子设备产生巨大的破坏力。
Electromagnetic Pulse (EMP) and High Powered Microwave (HMP) Weapons offer a significant capability against electronic equipment susceptible to damage by transient power surges.
电磁脉冲(EMP)和高功率微波(HPM)武器能以其瞬间功率骤增而对电子设备产生巨大的破坏力。
Electromagnetic Pulse (EMP) and High Powered Microwave (HMP) Weapons offer a significant capability against electronic equipment susceptible to damage by transient power surges.
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